/** * plotly.js (cartesian) v2.12.1 * Copyright 2012-2022, Plotly, Inc. * All rights reserved. * Licensed under the MIT license */ (function(f){if(typeof exports==="object"&&typeof module!=="undefined"){module.exports=f()}else if(typeof define==="function"&&define.amd){define([],f)}else{var g;if(typeof window!=="undefined"){g=window}else if(typeof global!=="undefined"){g=global}else if(typeof self!=="undefined"){g=self}else{g=this}g.Plotly = f()}})(function(){var define,module,exports;return (function(){function r(e,n,t){function o(i,f){if(!n[i]){if(!e[i]){var c="function"==typeof require&&require;if(!f&&c)return c(i,!0);if(u)return u(i,!0);var a=new Error("Cannot find module '"+i+"'");throw a.code="MODULE_NOT_FOUND",a}var p=n[i]={exports:{}};e[i][0].call(p.exports,function(r){var n=e[i][1][r];return o(n||r)},p,p.exports,r,e,n,t)}return n[i].exports}for(var u="function"==typeof require&&require,i=0;i:not(.watermark)": "opacity:0;-webkit-transition:opacity .3s ease 0s;-moz-transition:opacity .3s ease 0s;-ms-transition:opacity .3s ease 0s;-o-transition:opacity .3s ease 0s;transition:opacity .3s ease 0s;", "X:hover .modebar--hover .modebar-group": "opacity:1;", "X .modebar-group": "float:left;display:inline-block;box-sizing:border-box;padding-left:8px;position:relative;vertical-align:middle;white-space:nowrap;", "X .modebar-btn": "position:relative;font-size:16px;padding:3px 4px;height:22px;cursor:pointer;line-height:normal;box-sizing:border-box;", "X .modebar-btn svg": "position:relative;top:2px;", "X .modebar.vertical": "display:flex;flex-direction:column;flex-wrap:wrap;align-content:flex-end;max-height:100%;", "X .modebar.vertical svg": "top:-1px;", "X .modebar.vertical .modebar-group": "display:block;float:none;padding-left:0px;padding-bottom:8px;", "X .modebar.vertical .modebar-group .modebar-btn": "display:block;text-align:center;", "X [data-title]:before,X [data-title]:after": "position:absolute;-webkit-transform:translate3d(0, 0, 0);-moz-transform:translate3d(0, 0, 0);-ms-transform:translate3d(0, 0, 0);-o-transform:translate3d(0, 0, 0);transform:translate3d(0, 0, 0);display:none;opacity:0;z-index:1001;pointer-events:none;top:110%;right:50%;", "X [data-title]:hover:before,X [data-title]:hover:after": "display:block;opacity:1;", "X [data-title]:before": "content:\"\";position:absolute;background:rgba(0,0,0,0);border:6px solid rgba(0,0,0,0);z-index:1002;margin-top:-12px;border-bottom-color:#69738a;margin-right:-6px;", "X [data-title]:after": "content:attr(data-title);background:#69738a;color:#fff;padding:8px 10px;font-size:12px;line-height:12px;white-space:nowrap;margin-right:-18px;border-radius:2px;", "X .vertical [data-title]:before,X .vertical [data-title]:after": "top:0%;right:200%;", "X .vertical [data-title]:before": "border:6px solid rgba(0,0,0,0);border-left-color:#69738a;margin-top:8px;margin-right:-30px;", "X .select-outline": "fill:none;stroke-width:1;shape-rendering:crispEdges;", "X .select-outline-1": "stroke:#fff;", "X .select-outline-2": "stroke:#000;stroke-dasharray:2px 2px;", Y: "font-family:\"Open Sans\",verdana,arial,sans-serif;position:fixed;top:50px;right:20px;z-index:10000;font-size:10pt;max-width:180px;", "Y p": "margin:0;", "Y .notifier-note": "min-width:180px;max-width:250px;border:1px solid #fff;z-index:3000;margin:0;background-color:#8c97af;background-color:rgba(140,151,175,.9);color:#fff;padding:10px;overflow-wrap:break-word;word-wrap:break-word;-ms-hyphens:auto;-webkit-hyphens:auto;hyphens:auto;", "Y .notifier-close": "color:#fff;opacity:.8;float:right;padding:0 5px;background:none;border:none;font-size:20px;font-weight:bold;line-height:20px;", "Y .notifier-close:hover": "color:#444;text-decoration:none;cursor:pointer;" }; 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var Plotly = _dereq_('./core'); Plotly.register([ // traces _dereq_('./bar'), _dereq_('./box'), _dereq_('./heatmap'), _dereq_('./histogram'), _dereq_('./histogram2d'), _dereq_('./histogram2dcontour'), _dereq_('./contour'), _dereq_('./scatterternary'), _dereq_('./violin'), _dereq_('./image'), _dereq_('./pie'), // transforms _dereq_('./aggregate'), _dereq_('./filter'), _dereq_('./groupby'), _dereq_('./sort'), // components _dereq_('./calendars'), ]); module.exports = Plotly; },{"./aggregate":2,"./bar":3,"./box":4,"./calendars":5,"./contour":6,"./core":7,"./filter":8,"./groupby":9,"./heatmap":10,"./histogram":11,"./histogram2d":12,"./histogram2dcontour":13,"./image":14,"./pie":16,"./scatterternary":17,"./sort":18,"./violin":19}],16:[function(_dereq_,module,exports){ 'use strict'; module.exports = _dereq_('../src/traces/pie'); },{"../src/traces/pie":493}],17:[function(_dereq_,module,exports){ 'use strict'; module.exports = _dereq_('../src/traces/scatterternary'); },{"../src/traces/scatterternary":534}],18:[function(_dereq_,module,exports){ 'use strict'; 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array.sort(function(a, b) { return sortKey(a.key, b.key); }) : array; } nest.map = function(array, mapType) { return map(mapType, array, 0); }; nest.entries = function(array) { return entries(map(d3.map, array, 0), 0); }; nest.key = function(d) { keys.push(d); return nest; }; nest.sortKeys = function(order) { sortKeys[keys.length - 1] = order; return nest; }; nest.sortValues = function(order) { sortValues = order; return nest; }; nest.rollup = function(f) { rollup = f; return nest; }; return nest; }; d3.set = function(array) { var set = new d3_Set(); if (array) for (var i = 0, n = array.length; i < n; ++i) set.add(array[i]); return set; }; function d3_Set() { this._ = Object.create(null); } d3_class(d3_Set, { has: d3_map_has, add: function(key) { this._[d3_map_escape(key += "")] = true; return key; }, remove: d3_map_remove, values: d3_map_keys, size: d3_map_size, empty: d3_map_empty, forEach: function(f) { for (var key in this._) f.call(this, d3_map_unescape(key)); } }); d3.behavior = {}; function d3_identity(d) { return d; } d3.rebind = function(target, source) { var i = 1, n = arguments.length, method; while (++i < n) target[method = arguments[i]] = d3_rebind(target, source, source[method]); return target; }; function d3_rebind(target, source, method) { return function() { var value = method.apply(source, arguments); return value === source ? target : value; }; } function d3_vendorSymbol(object, name) { if (name in object) return name; name = name.charAt(0).toUpperCase() + name.slice(1); for (var i = 0, n = d3_vendorPrefixes.length; i < n; ++i) { var prefixName = d3_vendorPrefixes[i] + name; if (prefixName in object) return prefixName; } } var d3_vendorPrefixes = [ "webkit", "ms", "moz", "Moz", "o", "O" ]; function d3_noop() {} d3.dispatch = function() { var dispatch = new d3_dispatch(), i = -1, n = arguments.length; while (++i < n) dispatch[arguments[i]] = d3_dispatch_event(dispatch); return dispatch; }; function d3_dispatch() {} d3_dispatch.prototype.on = function(type, listener) { var i = type.indexOf("."), name = ""; if (i >= 0) { name = type.slice(i + 1); type = type.slice(0, i); } if (type) return arguments.length < 2 ? this[type].on(name) : this[type].on(name, listener); if (arguments.length === 2) { if (listener == null) for (type in this) { if (this.hasOwnProperty(type)) this[type].on(name, null); } return this; } }; function d3_dispatch_event(dispatch) { var listeners = [], listenerByName = new d3_Map(); function event() { var z = listeners, i = -1, n = z.length, l; while (++i < n) if (l = z[i].on) l.apply(this, arguments); return dispatch; } event.on = function(name, listener) { var l = listenerByName.get(name), i; if (arguments.length < 2) return l && l.on; if (l) { l.on = null; listeners = listeners.slice(0, i = listeners.indexOf(l)).concat(listeners.slice(i + 1)); listenerByName.remove(name); } if (listener) listeners.push(listenerByName.set(name, { on: listener })); return dispatch; }; return event; } d3.event = null; function d3_eventPreventDefault() { d3.event.preventDefault(); } function d3_eventSource() { var e = d3.event, s; while (s = e.sourceEvent) e = s; return e; } function d3_eventDispatch(target) { var dispatch = new d3_dispatch(), i = 0, n = arguments.length; while (++i < n) dispatch[arguments[i]] = d3_dispatch_event(dispatch); dispatch.of = function(thiz, argumentz) { return function(e1) { try { var e0 = e1.sourceEvent = d3.event; e1.target = target; d3.event = e1; dispatch[e1.type].apply(thiz, argumentz); } finally { d3.event = e0; } }; }; return dispatch; } d3.requote = function(s) { return s.replace(d3_requote_re, "\\$&"); }; var d3_requote_re = /[\\\^\$\*\+\?\|\[\]\(\)\.\{\}]/g; var d3_subclass = {}.__proto__ ? function(object, prototype) { object.__proto__ = prototype; } : function(object, prototype) { for (var property in prototype) object[property] = prototype[property]; }; function d3_selection(groups) { d3_subclass(groups, d3_selectionPrototype); return groups; } var d3_select = function(s, n) { return n.querySelector(s); }, d3_selectAll = function(s, n) { return n.querySelectorAll(s); }, d3_selectMatches = function(n, s) { var d3_selectMatcher = n.matches || n[d3_vendorSymbol(n, "matchesSelector")]; d3_selectMatches = function(n, s) { return d3_selectMatcher.call(n, s); }; return d3_selectMatches(n, s); }; if (typeof Sizzle === "function") { d3_select = function(s, n) { return Sizzle(s, n)[0] || null; }; d3_selectAll = Sizzle; d3_selectMatches = Sizzle.matchesSelector; } d3.selection = function() { return d3.select(d3_document.documentElement); }; var d3_selectionPrototype = d3.selection.prototype = []; d3_selectionPrototype.select = function(selector) { var subgroups = [], subgroup, subnode, group, node; selector = d3_selection_selector(selector); for (var j = -1, m = this.length; ++j < m; ) { subgroups.push(subgroup = []); subgroup.parentNode = (group = this[j]).parentNode; for (var i = -1, n = group.length; ++i < n; ) { if (node = group[i]) { subgroup.push(subnode = selector.call(node, node.__data__, i, j)); if (subnode && "__data__" in node) subnode.__data__ = node.__data__; } else { subgroup.push(null); } } } return d3_selection(subgroups); }; function d3_selection_selector(selector) { return typeof selector === "function" ? selector : function() { return d3_select(selector, this); }; } d3_selectionPrototype.selectAll = function(selector) { var subgroups = [], subgroup, node; selector = d3_selection_selectorAll(selector); for (var j = -1, m = this.length; ++j < m; ) { for (var group = this[j], i = -1, n = group.length; ++i < n; ) { if (node = group[i]) { subgroups.push(subgroup = d3_array(selector.call(node, node.__data__, i, j))); subgroup.parentNode = node; } } } return d3_selection(subgroups); }; function d3_selection_selectorAll(selector) { return typeof selector === "function" ? selector : function() { return d3_selectAll(selector, this); }; } var d3_nsXhtml = "http://www.w3.org/1999/xhtml"; var d3_nsPrefix = { svg: "http://www.w3.org/2000/svg", xhtml: d3_nsXhtml, xlink: "http://www.w3.org/1999/xlink", xml: "http://www.w3.org/XML/1998/namespace", xmlns: "http://www.w3.org/2000/xmlns/" }; d3.ns = { prefix: d3_nsPrefix, qualify: function(name) { var i = name.indexOf(":"), prefix = name; if (i >= 0 && (prefix = name.slice(0, i)) !== "xmlns") name = name.slice(i + 1); return d3_nsPrefix.hasOwnProperty(prefix) ? { space: d3_nsPrefix[prefix], local: name } : name; } }; d3_selectionPrototype.attr = function(name, value) { if (arguments.length < 2) { if (typeof name === "string") { var node = this.node(); name = d3.ns.qualify(name); return name.local ? node.getAttributeNS(name.space, name.local) : node.getAttribute(name); } for (value in name) this.each(d3_selection_attr(value, name[value])); return this; } return this.each(d3_selection_attr(name, value)); }; function d3_selection_attr(name, value) { name = d3.ns.qualify(name); function attrNull() { this.removeAttribute(name); } function attrNullNS() { this.removeAttributeNS(name.space, name.local); } function attrConstant() { this.setAttribute(name, value); } function attrConstantNS() { this.setAttributeNS(name.space, name.local, value); } function attrFunction() { var x = value.apply(this, arguments); if (x == null) this.removeAttribute(name); else this.setAttribute(name, x); } function attrFunctionNS() { var x = value.apply(this, arguments); if (x == null) this.removeAttributeNS(name.space, name.local); else this.setAttributeNS(name.space, name.local, x); } return value == null ? name.local ? attrNullNS : attrNull : typeof value === "function" ? name.local ? attrFunctionNS : attrFunction : name.local ? attrConstantNS : attrConstant; } function d3_collapse(s) { return s.trim().replace(/\s+/g, " "); } d3_selectionPrototype.classed = function(name, value) { if (arguments.length < 2) { if (typeof name === "string") { var node = this.node(), n = (name = d3_selection_classes(name)).length, i = -1; if (value = node.classList) { while (++i < n) if (!value.contains(name[i])) return false; } else { value = node.getAttribute("class"); while (++i < n) if (!d3_selection_classedRe(name[i]).test(value)) return false; } return true; } for (value in name) this.each(d3_selection_classed(value, name[value])); return this; } return this.each(d3_selection_classed(name, value)); }; function d3_selection_classedRe(name) { return new RegExp("(?:^|\\s+)" + d3.requote(name) + "(?:\\s+|$)", "g"); } function d3_selection_classes(name) { return (name + "").trim().split(/^|\s+/); } function d3_selection_classed(name, value) { name = d3_selection_classes(name).map(d3_selection_classedName); var n = name.length; function classedConstant() { var i = -1; while (++i < n) name[i](this, value); } function classedFunction() { var i = -1, x = value.apply(this, arguments); while (++i < n) name[i](this, x); } return typeof value === "function" ? classedFunction : classedConstant; } function d3_selection_classedName(name) { var re = d3_selection_classedRe(name); return function(node, value) { if (c = node.classList) return value ? c.add(name) : c.remove(name); var c = node.getAttribute("class") || ""; if (value) { re.lastIndex = 0; if (!re.test(c)) node.setAttribute("class", d3_collapse(c + " " + name)); } else { node.setAttribute("class", d3_collapse(c.replace(re, " "))); } }; } d3_selectionPrototype.style = function(name, value, priority) { var n = arguments.length; if (n < 3) { if (typeof name !== "string") { if (n < 2) value = ""; for (priority in name) this.each(d3_selection_style(priority, name[priority], value)); return this; } if (n < 2) { var node = this.node(); return d3_window(node).getComputedStyle(node, null).getPropertyValue(name); } priority = ""; } return this.each(d3_selection_style(name, value, priority)); }; function d3_selection_style(name, value, priority) { function styleNull() { this.style.removeProperty(name); } function styleConstant() { this.style.setProperty(name, value, priority); } function styleFunction() { var x = value.apply(this, arguments); if (x == null) this.style.removeProperty(name); else this.style.setProperty(name, x, priority); } return value == null ? styleNull : typeof value === "function" ? styleFunction : styleConstant; } d3_selectionPrototype.property = function(name, value) { if (arguments.length < 2) { if (typeof name === "string") return this.node()[name]; for (value in name) this.each(d3_selection_property(value, name[value])); return this; } return this.each(d3_selection_property(name, value)); }; function d3_selection_property(name, value) { function propertyNull() { delete this[name]; } function propertyConstant() { this[name] = value; } function propertyFunction() { var x = value.apply(this, arguments); if (x == null) delete this[name]; else this[name] = x; } return value == null ? propertyNull : typeof value === "function" ? propertyFunction : propertyConstant; } d3_selectionPrototype.text = function(value) { return arguments.length ? this.each(typeof value === "function" ? function() { var v = value.apply(this, arguments); this.textContent = v == null ? "" : v; } : value == null ? function() { this.textContent = ""; } : function() { this.textContent = value; }) : this.node().textContent; }; d3_selectionPrototype.html = function(value) { return arguments.length ? this.each(typeof value === "function" ? function() { var v = value.apply(this, arguments); this.innerHTML = v == null ? "" : v; } : value == null ? function() { this.innerHTML = ""; } : function() { this.innerHTML = value; }) : this.node().innerHTML; }; d3_selectionPrototype.append = function(name) { name = d3_selection_creator(name); return this.select(function() { return this.appendChild(name.apply(this, arguments)); }); }; function d3_selection_creator(name) { function create() { var document = this.ownerDocument, namespace = this.namespaceURI; return namespace === d3_nsXhtml && document.documentElement.namespaceURI === d3_nsXhtml ? document.createElement(name) : document.createElementNS(namespace, name); } function createNS() { return this.ownerDocument.createElementNS(name.space, name.local); } return typeof name === "function" ? name : (name = d3.ns.qualify(name)).local ? createNS : create; } d3_selectionPrototype.insert = function(name, before) { name = d3_selection_creator(name); before = d3_selection_selector(before); return this.select(function() { return this.insertBefore(name.apply(this, arguments), before.apply(this, arguments) || null); }); }; d3_selectionPrototype.remove = function() { return this.each(d3_selectionRemove); }; function d3_selectionRemove() { var parent = this.parentNode; if (parent) parent.removeChild(this); } d3_selectionPrototype.data = function(value, key) { var i = -1, n = this.length, group, node; if (!arguments.length) { value = new Array(n = (group = this[0]).length); while (++i < n) { if (node = group[i]) { value[i] = node.__data__; } } return value; } function bind(group, groupData) { var i, n = group.length, m = groupData.length, n0 = Math.min(n, m), updateNodes = new Array(m), enterNodes = new Array(m), exitNodes = new Array(n), node, nodeData; if (key) { var nodeByKeyValue = new d3_Map(), keyValues = new Array(n), keyValue; for (i = -1; ++i < n; ) { if (node = group[i]) { if (nodeByKeyValue.has(keyValue = key.call(node, node.__data__, i))) { exitNodes[i] = node; } else { nodeByKeyValue.set(keyValue, node); } keyValues[i] = keyValue; } } for (i = -1; ++i < m; ) { if (!(node = nodeByKeyValue.get(keyValue = key.call(groupData, nodeData = groupData[i], i)))) { enterNodes[i] = d3_selection_dataNode(nodeData); } else if (node !== true) { updateNodes[i] = node; node.__data__ = nodeData; } nodeByKeyValue.set(keyValue, true); } for (i = -1; ++i < n; ) { if (i in keyValues && nodeByKeyValue.get(keyValues[i]) !== true) { exitNodes[i] = group[i]; } } } else { for (i = -1; ++i < n0; ) { node = group[i]; nodeData = groupData[i]; if (node) { node.__data__ = nodeData; updateNodes[i] = node; } else { enterNodes[i] = d3_selection_dataNode(nodeData); } } for (;i < m; ++i) { enterNodes[i] = d3_selection_dataNode(groupData[i]); } for (;i < n; ++i) { exitNodes[i] = group[i]; } } enterNodes.update = updateNodes; enterNodes.parentNode = updateNodes.parentNode = exitNodes.parentNode = group.parentNode; enter.push(enterNodes); update.push(updateNodes); exit.push(exitNodes); } var enter = d3_selection_enter([]), update = d3_selection([]), exit = d3_selection([]); if (typeof value === "function") { while (++i < n) { bind(group = this[i], value.call(group, group.parentNode.__data__, i)); } } else { while (++i < n) { bind(group = this[i], value); } } update.enter = function() { return enter; }; update.exit = function() { return exit; }; return update; }; function d3_selection_dataNode(data) { return { __data__: data }; } d3_selectionPrototype.datum = function(value) { return arguments.length ? this.property("__data__", value) : this.property("__data__"); }; d3_selectionPrototype.filter = function(filter) { var subgroups = [], subgroup, group, node; if (typeof filter !== "function") filter = d3_selection_filter(filter); for (var j = 0, m = this.length; j < m; j++) { subgroups.push(subgroup = []); subgroup.parentNode = (group = this[j]).parentNode; for (var i = 0, n = group.length; i < n; i++) { if ((node = group[i]) && filter.call(node, node.__data__, i, j)) { subgroup.push(node); } } } return d3_selection(subgroups); }; function d3_selection_filter(selector) { return function() { return d3_selectMatches(this, selector); }; } d3_selectionPrototype.order = function() { for (var j = -1, m = this.length; ++j < m; ) { for (var group = this[j], i = group.length - 1, next = group[i], node; --i >= 0; ) { if (node = group[i]) { if (next && next !== node.nextSibling) next.parentNode.insertBefore(node, next); next = node; } } } return this; }; d3_selectionPrototype.sort = function(comparator) { comparator = d3_selection_sortComparator.apply(this, arguments); for (var j = -1, m = this.length; ++j < m; ) this[j].sort(comparator); return this.order(); }; function d3_selection_sortComparator(comparator) { if (!arguments.length) comparator = d3_ascending; return function(a, b) { return a && b ? comparator(a.__data__, b.__data__) : !a - !b; }; } d3_selectionPrototype.each = function(callback) { return d3_selection_each(this, function(node, i, j) { callback.call(node, node.__data__, i, j); }); }; function d3_selection_each(groups, callback) { for (var j = 0, m = groups.length; j < m; j++) { for (var group = groups[j], i = 0, n = group.length, node; i < n; i++) { if (node = group[i]) callback(node, i, j); } } return groups; } d3_selectionPrototype.call = function(callback) { var args = d3_array(arguments); callback.apply(args[0] = this, args); return this; }; d3_selectionPrototype.empty = function() { return !this.node(); }; d3_selectionPrototype.node = function() { for (var j = 0, m = this.length; j < m; j++) { for (var group = this[j], i = 0, n = group.length; i < n; i++) { var node = group[i]; if (node) return node; } } return null; }; d3_selectionPrototype.size = function() { var n = 0; d3_selection_each(this, function() { ++n; }); return n; }; function d3_selection_enter(selection) { d3_subclass(selection, d3_selection_enterPrototype); return selection; } var d3_selection_enterPrototype = []; d3.selection.enter = d3_selection_enter; d3.selection.enter.prototype = d3_selection_enterPrototype; d3_selection_enterPrototype.append = d3_selectionPrototype.append; d3_selection_enterPrototype.empty = d3_selectionPrototype.empty; d3_selection_enterPrototype.node = d3_selectionPrototype.node; d3_selection_enterPrototype.call = d3_selectionPrototype.call; d3_selection_enterPrototype.size = d3_selectionPrototype.size; d3_selection_enterPrototype.select = function(selector) { var subgroups = [], subgroup, subnode, upgroup, group, node; for (var j = -1, m = this.length; ++j < m; ) { upgroup = (group = this[j]).update; subgroups.push(subgroup = []); subgroup.parentNode = group.parentNode; for (var i = -1, n = group.length; ++i < n; ) { if (node = group[i]) { subgroup.push(upgroup[i] = subnode = selector.call(group.parentNode, node.__data__, i, j)); subnode.__data__ = node.__data__; } else { subgroup.push(null); } } } return d3_selection(subgroups); }; d3_selection_enterPrototype.insert = function(name, before) { if (arguments.length < 2) before = d3_selection_enterInsertBefore(this); return d3_selectionPrototype.insert.call(this, name, before); }; function d3_selection_enterInsertBefore(enter) { var i0, j0; return function(d, i, j) { var group = enter[j].update, n = group.length, node; if (j != j0) j0 = j, i0 = 0; if (i >= i0) i0 = i + 1; while (!(node = group[i0]) && ++i0 < n) ; return node; }; } d3.select = function(node) { var group; if (typeof node === "string") { group = [ d3_select(node, d3_document) ]; group.parentNode = d3_document.documentElement; } else { group = [ node ]; group.parentNode = d3_documentElement(node); } return d3_selection([ group ]); }; d3.selectAll = function(nodes) { var group; if (typeof nodes === "string") { group = d3_array(d3_selectAll(nodes, d3_document)); group.parentNode = d3_document.documentElement; } else { group = d3_array(nodes); group.parentNode = null; } return d3_selection([ group ]); }; d3_selectionPrototype.on = function(type, listener, capture) { var n = arguments.length; if (n < 3) { if (typeof type !== "string") { if (n < 2) listener = false; for (capture in type) this.each(d3_selection_on(capture, type[capture], listener)); return this; } if (n < 2) return (n = this.node()["__on" + type]) && n._; capture = false; } return this.each(d3_selection_on(type, listener, capture)); }; function d3_selection_on(type, listener, capture) { var name = "__on" + type, i = type.indexOf("."), wrap = d3_selection_onListener; if (i > 0) type = type.slice(0, i); var filter = d3_selection_onFilters.get(type); if (filter) type = filter, wrap = d3_selection_onFilter; function onRemove() { var l = this[name]; if (l) { this.removeEventListener(type, l, l.$); delete this[name]; } } function onAdd() { var l = wrap(listener, d3_array(arguments)); onRemove.call(this); this.addEventListener(type, this[name] = l, l.$ = capture); l._ = listener; } function removeAll() { var re = new RegExp("^__on([^.]+)" + d3.requote(type) + "$"), match; for (var name in this) { if (match = name.match(re)) { var l = this[name]; this.removeEventListener(match[1], l, l.$); delete this[name]; } } } return i ? listener ? onAdd : onRemove : listener ? d3_noop : removeAll; } var d3_selection_onFilters = d3.map({ mouseenter: "mouseover", mouseleave: "mouseout" }); if (d3_document) { d3_selection_onFilters.forEach(function(k) { if ("on" + k in d3_document) d3_selection_onFilters.remove(k); }); } function d3_selection_onListener(listener, argumentz) { return function(e) { var o = d3.event; d3.event = e; argumentz[0] = this.__data__; try { listener.apply(this, argumentz); } finally { d3.event = o; } }; } function d3_selection_onFilter(listener, argumentz) { var l = d3_selection_onListener(listener, argumentz); return function(e) { var target = this, related = e.relatedTarget; if (!related || related !== target && !(related.compareDocumentPosition(target) & 8)) { l.call(target, e); } }; } var d3_event_dragSelect, d3_event_dragId = 0; function d3_event_dragSuppress(node) { var name = ".dragsuppress-" + ++d3_event_dragId, click = "click" + name, w = d3.select(d3_window(node)).on("touchmove" + name, d3_eventPreventDefault).on("dragstart" + name, d3_eventPreventDefault).on("selectstart" + name, d3_eventPreventDefault); if (d3_event_dragSelect == null) { d3_event_dragSelect = "onselectstart" in node ? false : d3_vendorSymbol(node.style, "userSelect"); } if (d3_event_dragSelect) { var style = d3_documentElement(node).style, select = style[d3_event_dragSelect]; style[d3_event_dragSelect] = "none"; } return function(suppressClick) { w.on(name, null); if (d3_event_dragSelect) style[d3_event_dragSelect] = select; if (suppressClick) { var off = function() { w.on(click, null); }; w.on(click, function() { d3_eventPreventDefault(); off(); }, true); setTimeout(off, 0); } }; } d3.mouse = function(container) { return d3_mousePoint(container, d3_eventSource()); }; var d3_mouse_bug44083 = this.navigator && /WebKit/.test(this.navigator.userAgent) ? -1 : 0; function d3_mousePoint(container, e) { if (e.changedTouches) e = e.changedTouches[0]; var svg = container.ownerSVGElement || container; if (svg.createSVGPoint) { var point = svg.createSVGPoint(); if (d3_mouse_bug44083 < 0) { var window = d3_window(container); if (window.scrollX || window.scrollY) { svg = d3.select("body").append("svg").style({ position: "absolute", top: 0, left: 0, margin: 0, padding: 0, border: "none" }, "important"); var ctm = svg[0][0].getScreenCTM(); d3_mouse_bug44083 = !(ctm.f || ctm.e); svg.remove(); } } if (d3_mouse_bug44083) point.x = e.pageX, point.y = e.pageY; else point.x = e.clientX, point.y = e.clientY; point = point.matrixTransform(container.getScreenCTM().inverse()); return [ point.x, point.y ]; } var rect = container.getBoundingClientRect(); return [ e.clientX - rect.left - container.clientLeft, e.clientY - rect.top - container.clientTop ]; } d3.touch = function(container, touches, identifier) { if (arguments.length < 3) identifier = touches, touches = d3_eventSource().changedTouches; if (touches) for (var i = 0, n = touches.length, touch; i < n; ++i) { if ((touch = touches[i]).identifier === identifier) { return d3_mousePoint(container, touch); } } }; d3.behavior.drag = function() { var event = d3_eventDispatch(drag, "drag", "dragstart", "dragend"), origin = null, mousedown = dragstart(d3_noop, d3.mouse, d3_window, "mousemove", "mouseup"), touchstart = dragstart(d3_behavior_dragTouchId, d3.touch, d3_identity, "touchmove", "touchend"); function drag() { this.on("mousedown.drag", mousedown).on("touchstart.drag", touchstart); } function dragstart(id, position, subject, move, end) { return function() { var that = this, target = d3.event.target.correspondingElement || d3.event.target, parent = that.parentNode, dispatch = event.of(that, arguments), dragged = 0, dragId = id(), dragName = ".drag" + (dragId == null ? "" : "-" + dragId), dragOffset, dragSubject = d3.select(subject(target)).on(move + dragName, moved).on(end + dragName, ended), dragRestore = d3_event_dragSuppress(target), position0 = position(parent, dragId); if (origin) { dragOffset = origin.apply(that, arguments); dragOffset = [ dragOffset.x - position0[0], dragOffset.y - position0[1] ]; } else { dragOffset = [ 0, 0 ]; } dispatch({ type: "dragstart" }); function moved() { var position1 = position(parent, dragId), dx, dy; if (!position1) return; dx = position1[0] - position0[0]; dy = position1[1] - position0[1]; dragged |= dx | dy; position0 = position1; dispatch({ type: "drag", x: position1[0] + dragOffset[0], y: position1[1] + dragOffset[1], dx: dx, dy: dy }); } function ended() { if (!position(parent, dragId)) return; dragSubject.on(move + dragName, null).on(end + dragName, null); dragRestore(dragged); dispatch({ type: "dragend" }); } }; } drag.origin = function(x) { if (!arguments.length) return origin; origin = x; return drag; }; return d3.rebind(drag, event, "on"); }; function d3_behavior_dragTouchId() { return d3.event.changedTouches[0].identifier; } d3.touches = function(container, touches) { if (arguments.length < 2) touches = d3_eventSource().touches; return touches ? d3_array(touches).map(function(touch) { var point = d3_mousePoint(container, touch); point.identifier = touch.identifier; return point; }) : []; }; var ε = 1e-6, ε2 = ε * ε, π = Math.PI, τ = 2 * π, τε = τ - ε, halfπ = π / 2, d3_radians = π / 180, d3_degrees = 180 / π; function d3_sgn(x) { return x > 0 ? 1 : x < 0 ? -1 : 0; } function d3_cross2d(a, b, c) { return (b[0] - a[0]) * (c[1] - a[1]) - (b[1] - a[1]) * (c[0] - a[0]); } function d3_acos(x) { return x > 1 ? 0 : x < -1 ? π : Math.acos(x); } function d3_asin(x) { return x > 1 ? halfπ : x < -1 ? -halfπ : Math.asin(x); } function d3_sinh(x) { return ((x = Math.exp(x)) - 1 / x) / 2; } function d3_cosh(x) { return ((x = Math.exp(x)) + 1 / x) / 2; } function d3_tanh(x) { return ((x = Math.exp(2 * x)) - 1) / (x + 1); } function d3_haversin(x) { return (x = Math.sin(x / 2)) * x; } var ρ = Math.SQRT2, ρ2 = 2, ρ4 = 4; d3.interpolateZoom = function(p0, p1) { var ux0 = p0[0], uy0 = p0[1], w0 = p0[2], ux1 = p1[0], uy1 = p1[1], w1 = p1[2], dx = ux1 - ux0, dy = uy1 - uy0, d2 = dx * dx + dy * dy, i, S; if (d2 < ε2) { S = Math.log(w1 / w0) / ρ; i = function(t) { return [ ux0 + t * dx, uy0 + t * dy, w0 * Math.exp(ρ * t * S) ]; }; } else { var d1 = Math.sqrt(d2), b0 = (w1 * w1 - w0 * w0 + ρ4 * d2) / (2 * w0 * ρ2 * d1), b1 = (w1 * w1 - w0 * w0 - ρ4 * d2) / (2 * w1 * ρ2 * d1), r0 = Math.log(Math.sqrt(b0 * b0 + 1) - b0), r1 = Math.log(Math.sqrt(b1 * b1 + 1) - b1); S = (r1 - r0) / ρ; i = function(t) { var s = t * S, coshr0 = d3_cosh(r0), u = w0 / (ρ2 * d1) * (coshr0 * d3_tanh(ρ * s + r0) - d3_sinh(r0)); return [ ux0 + u * dx, uy0 + u * dy, w0 * coshr0 / d3_cosh(ρ * s + r0) ]; }; } i.duration = S * 1e3; return i; }; d3.behavior.zoom = function() { var view = { x: 0, y: 0, k: 1 }, translate0, center0, center, size = [ 960, 500 ], scaleExtent = d3_behavior_zoomInfinity, duration = 250, zooming = 0, mousedown = "mousedown.zoom", mousemove = "mousemove.zoom", mouseup = "mouseup.zoom", mousewheelTimer, touchstart = "touchstart.zoom", touchtime, event = d3_eventDispatch(zoom, "zoomstart", "zoom", "zoomend"), x0, x1, y0, y1; if (!d3_behavior_zoomWheel) { d3_behavior_zoomWheel = "onwheel" in d3_document ? (d3_behavior_zoomDelta = function() { return -d3.event.deltaY * (d3.event.deltaMode ? 120 : 1); }, "wheel") : "onmousewheel" in d3_document ? (d3_behavior_zoomDelta = function() { return d3.event.wheelDelta; }, "mousewheel") : (d3_behavior_zoomDelta = function() { return -d3.event.detail; }, "MozMousePixelScroll"); } function zoom(g) { g.on(mousedown, mousedowned).on(d3_behavior_zoomWheel + ".zoom", mousewheeled).on("dblclick.zoom", dblclicked).on(touchstart, touchstarted); } zoom.event = function(g) { g.each(function() { var dispatch = event.of(this, arguments), view1 = view; if (d3_transitionInheritId) { d3.select(this).transition().each("start.zoom", function() { view = this.__chart__ || { x: 0, y: 0, k: 1 }; zoomstarted(dispatch); }).tween("zoom:zoom", function() { var dx = size[0], dy = size[1], cx = center0 ? center0[0] : dx / 2, cy = center0 ? center0[1] : dy / 2, i = d3.interpolateZoom([ (cx - view.x) / view.k, (cy - view.y) / view.k, dx / view.k ], [ (cx - view1.x) / view1.k, (cy - view1.y) / view1.k, dx / view1.k ]); return function(t) { var l = i(t), k = dx / l[2]; this.__chart__ = view = { x: cx - l[0] * k, y: cy - l[1] * k, k: k }; zoomed(dispatch); }; }).each("interrupt.zoom", function() { zoomended(dispatch); }).each("end.zoom", function() { zoomended(dispatch); }); } else { this.__chart__ = view; zoomstarted(dispatch); zoomed(dispatch); zoomended(dispatch); } }); }; zoom.translate = function(_) { if (!arguments.length) return [ view.x, view.y ]; view = { x: +_[0], y: +_[1], k: view.k }; rescale(); return zoom; }; zoom.scale = function(_) { if (!arguments.length) return view.k; view = { x: view.x, y: view.y, k: null }; scaleTo(+_); rescale(); return zoom; }; zoom.scaleExtent = function(_) { if (!arguments.length) return scaleExtent; scaleExtent = _ == null ? d3_behavior_zoomInfinity : [ +_[0], +_[1] ]; return zoom; }; zoom.center = function(_) { if (!arguments.length) return center; center = _ && [ +_[0], +_[1] ]; return zoom; }; zoom.size = function(_) { if (!arguments.length) return size; size = _ && [ +_[0], +_[1] ]; return zoom; }; zoom.duration = function(_) { if (!arguments.length) return duration; duration = +_; return zoom; }; zoom.x = function(z) { if (!arguments.length) return x1; x1 = z; x0 = z.copy(); view = { x: 0, y: 0, k: 1 }; return zoom; }; zoom.y = function(z) { if (!arguments.length) return y1; y1 = z; y0 = z.copy(); view = { x: 0, y: 0, k: 1 }; return zoom; }; function location(p) { return [ (p[0] - view.x) / view.k, (p[1] - view.y) / view.k ]; } function point(l) { return [ l[0] * view.k + view.x, l[1] * view.k + view.y ]; } function scaleTo(s) { view.k = Math.max(scaleExtent[0], Math.min(scaleExtent[1], s)); } function translateTo(p, l) { l = point(l); view.x += p[0] - l[0]; view.y += p[1] - l[1]; } function zoomTo(that, p, l, k) { that.__chart__ = { x: view.x, y: view.y, k: view.k }; scaleTo(Math.pow(2, k)); translateTo(center0 = p, l); that = d3.select(that); if (duration > 0) that = that.transition().duration(duration); that.call(zoom.event); } function rescale() { if (x1) x1.domain(x0.range().map(function(x) { return (x - view.x) / view.k; }).map(x0.invert)); if (y1) y1.domain(y0.range().map(function(y) { return (y - view.y) / view.k; }).map(y0.invert)); } function zoomstarted(dispatch) { if (!zooming++) dispatch({ type: "zoomstart" }); } function zoomed(dispatch) { rescale(); dispatch({ type: "zoom", scale: view.k, translate: [ view.x, view.y ] }); } function zoomended(dispatch) { if (!--zooming) dispatch({ type: "zoomend" }), center0 = null; } function mousedowned() { var that = this, dispatch = event.of(that, arguments), dragged = 0, subject = d3.select(d3_window(that)).on(mousemove, moved).on(mouseup, ended), location0 = location(d3.mouse(that)), dragRestore = d3_event_dragSuppress(that); d3_selection_interrupt.call(that); zoomstarted(dispatch); function moved() { dragged = 1; translateTo(d3.mouse(that), location0); zoomed(dispatch); } function ended() { subject.on(mousemove, null).on(mouseup, null); dragRestore(dragged); zoomended(dispatch); } } function touchstarted() { var that = this, dispatch = event.of(that, arguments), locations0 = {}, distance0 = 0, scale0, zoomName = ".zoom-" + d3.event.changedTouches[0].identifier, touchmove = "touchmove" + zoomName, touchend = "touchend" + zoomName, targets = [], subject = d3.select(that), dragRestore = d3_event_dragSuppress(that); started(); zoomstarted(dispatch); subject.on(mousedown, null).on(touchstart, started); function relocate() { var touches = d3.touches(that); scale0 = view.k; touches.forEach(function(t) { if (t.identifier in locations0) locations0[t.identifier] = location(t); }); return touches; } function started() { var target = d3.event.target; d3.select(target).on(touchmove, moved).on(touchend, ended); targets.push(target); var changed = d3.event.changedTouches; for (var i = 0, n = changed.length; i < n; ++i) { locations0[changed[i].identifier] = null; } var touches = relocate(), now = Date.now(); if (touches.length === 1) { if (now - touchtime < 500) { var p = touches[0]; zoomTo(that, p, locations0[p.identifier], Math.floor(Math.log(view.k) / Math.LN2) + 1); d3_eventPreventDefault(); } touchtime = now; } else if (touches.length > 1) { var p = touches[0], q = touches[1], dx = p[0] - q[0], dy = p[1] - q[1]; distance0 = dx * dx + dy * dy; } } function moved() { var touches = d3.touches(that), p0, l0, p1, l1; d3_selection_interrupt.call(that); for (var i = 0, n = touches.length; i < n; ++i, l1 = null) { p1 = touches[i]; if (l1 = locations0[p1.identifier]) { if (l0) break; p0 = p1, l0 = l1; } } if (l1) { var distance1 = (distance1 = p1[0] - p0[0]) * distance1 + (distance1 = p1[1] - p0[1]) * distance1, scale1 = distance0 && Math.sqrt(distance1 / distance0); p0 = [ (p0[0] + p1[0]) / 2, (p0[1] + p1[1]) / 2 ]; l0 = [ (l0[0] + l1[0]) / 2, (l0[1] + l1[1]) / 2 ]; scaleTo(scale1 * scale0); } touchtime = null; translateTo(p0, l0); zoomed(dispatch); } function ended() { if (d3.event.touches.length) { var changed = d3.event.changedTouches; for (var i = 0, n = changed.length; i < n; ++i) { delete locations0[changed[i].identifier]; } for (var identifier in locations0) { return void relocate(); } } d3.selectAll(targets).on(zoomName, null); subject.on(mousedown, mousedowned).on(touchstart, touchstarted); dragRestore(); zoomended(dispatch); } } function mousewheeled() { var dispatch = event.of(this, arguments); if (mousewheelTimer) clearTimeout(mousewheelTimer); else d3_selection_interrupt.call(this), translate0 = location(center0 = center || d3.mouse(this)), zoomstarted(dispatch); mousewheelTimer = setTimeout(function() { mousewheelTimer = null; zoomended(dispatch); }, 50); d3_eventPreventDefault(); scaleTo(Math.pow(2, d3_behavior_zoomDelta() * .002) * view.k); translateTo(center0, translate0); zoomed(dispatch); } function dblclicked() { var p = d3.mouse(this), k = Math.log(view.k) / Math.LN2; zoomTo(this, p, location(p), d3.event.shiftKey ? Math.ceil(k) - 1 : Math.floor(k) + 1); } return d3.rebind(zoom, event, "on"); }; var d3_behavior_zoomInfinity = [ 0, Infinity ], d3_behavior_zoomDelta, d3_behavior_zoomWheel; d3.color = d3_color; function d3_color() {} d3_color.prototype.toString = function() { return this.rgb() + ""; }; d3.hsl = d3_hsl; function d3_hsl(h, s, l) { return this instanceof d3_hsl ? void (this.h = +h, this.s = +s, this.l = +l) : arguments.length < 2 ? h instanceof d3_hsl ? new d3_hsl(h.h, h.s, h.l) : d3_rgb_parse("" + h, d3_rgb_hsl, d3_hsl) : new d3_hsl(h, s, l); } var d3_hslPrototype = d3_hsl.prototype = new d3_color(); d3_hslPrototype.brighter = function(k) { k = Math.pow(.7, arguments.length ? k : 1); return new d3_hsl(this.h, this.s, this.l / k); }; d3_hslPrototype.darker = function(k) { k = Math.pow(.7, arguments.length ? k : 1); return new d3_hsl(this.h, this.s, k * this.l); }; d3_hslPrototype.rgb = function() { return d3_hsl_rgb(this.h, this.s, this.l); }; function d3_hsl_rgb(h, s, l) { var m1, m2; h = isNaN(h) ? 0 : (h %= 360) < 0 ? h + 360 : h; s = isNaN(s) ? 0 : s < 0 ? 0 : s > 1 ? 1 : s; l = l < 0 ? 0 : l > 1 ? 1 : l; m2 = l <= .5 ? l * (1 + s) : l + s - l * s; m1 = 2 * l - m2; function v(h) { if (h > 360) h -= 360; else if (h < 0) h += 360; if (h < 60) return m1 + (m2 - m1) * h / 60; if (h < 180) return m2; if (h < 240) return m1 + (m2 - m1) * (240 - h) / 60; return m1; } function vv(h) { return Math.round(v(h) * 255); } return new d3_rgb(vv(h + 120), vv(h), vv(h - 120)); } d3.hcl = d3_hcl; function d3_hcl(h, c, l) { return this instanceof d3_hcl ? void (this.h = +h, this.c = +c, this.l = +l) : arguments.length < 2 ? h instanceof d3_hcl ? new d3_hcl(h.h, h.c, h.l) : h instanceof d3_lab ? d3_lab_hcl(h.l, h.a, h.b) : d3_lab_hcl((h = d3_rgb_lab((h = d3.rgb(h)).r, h.g, h.b)).l, h.a, h.b) : new d3_hcl(h, c, l); } var d3_hclPrototype = d3_hcl.prototype = new d3_color(); d3_hclPrototype.brighter = function(k) { return new d3_hcl(this.h, this.c, Math.min(100, this.l + d3_lab_K * (arguments.length ? k : 1))); }; d3_hclPrototype.darker = function(k) { return new d3_hcl(this.h, this.c, Math.max(0, this.l - d3_lab_K * (arguments.length ? k : 1))); }; d3_hclPrototype.rgb = function() { return d3_hcl_lab(this.h, this.c, this.l).rgb(); }; function d3_hcl_lab(h, c, l) { if (isNaN(h)) h = 0; if (isNaN(c)) c = 0; return new d3_lab(l, Math.cos(h *= d3_radians) * c, Math.sin(h) * c); } d3.lab = d3_lab; function d3_lab(l, a, b) { return this instanceof d3_lab ? void (this.l = +l, this.a = +a, this.b = +b) : arguments.length < 2 ? l instanceof d3_lab ? new d3_lab(l.l, l.a, l.b) : l instanceof d3_hcl ? d3_hcl_lab(l.h, l.c, l.l) : d3_rgb_lab((l = d3_rgb(l)).r, l.g, l.b) : new d3_lab(l, a, b); } var d3_lab_K = 18; var d3_lab_X = .95047, d3_lab_Y = 1, d3_lab_Z = 1.08883; var d3_labPrototype = d3_lab.prototype = new d3_color(); d3_labPrototype.brighter = function(k) { return new d3_lab(Math.min(100, this.l + d3_lab_K * (arguments.length ? k : 1)), this.a, this.b); }; d3_labPrototype.darker = function(k) { return new d3_lab(Math.max(0, this.l - d3_lab_K * (arguments.length ? k : 1)), this.a, this.b); }; d3_labPrototype.rgb = function() { return d3_lab_rgb(this.l, this.a, this.b); }; function d3_lab_rgb(l, a, b) { var y = (l + 16) / 116, x = y + a / 500, z = y - b / 200; x = d3_lab_xyz(x) * d3_lab_X; y = d3_lab_xyz(y) * d3_lab_Y; z = d3_lab_xyz(z) * d3_lab_Z; return new d3_rgb(d3_xyz_rgb(3.2404542 * x - 1.5371385 * y - .4985314 * z), d3_xyz_rgb(-.969266 * x + 1.8760108 * y + .041556 * z), d3_xyz_rgb(.0556434 * x - .2040259 * y + 1.0572252 * z)); } function d3_lab_hcl(l, a, b) { return l > 0 ? new d3_hcl(Math.atan2(b, a) * d3_degrees, Math.sqrt(a * a + b * b), l) : new d3_hcl(NaN, NaN, l); } function d3_lab_xyz(x) { return x > .206893034 ? x * x * x : (x - 4 / 29) / 7.787037; } function d3_xyz_lab(x) { return x > .008856 ? Math.pow(x, 1 / 3) : 7.787037 * x + 4 / 29; } function d3_xyz_rgb(r) { return Math.round(255 * (r <= .00304 ? 12.92 * r : 1.055 * Math.pow(r, 1 / 2.4) - .055)); } d3.rgb = d3_rgb; function d3_rgb(r, g, b) { return this instanceof d3_rgb ? void (this.r = ~~r, this.g = ~~g, this.b = ~~b) : arguments.length < 2 ? r instanceof d3_rgb ? new d3_rgb(r.r, r.g, r.b) : d3_rgb_parse("" + r, d3_rgb, d3_hsl_rgb) : new d3_rgb(r, g, b); } function d3_rgbNumber(value) { return new d3_rgb(value >> 16, value >> 8 & 255, value & 255); } function d3_rgbString(value) { return d3_rgbNumber(value) + ""; } var d3_rgbPrototype = d3_rgb.prototype = new d3_color(); d3_rgbPrototype.brighter = function(k) { k = Math.pow(.7, arguments.length ? k : 1); var r = this.r, g = this.g, b = this.b, i = 30; if (!r && !g && !b) return new d3_rgb(i, i, i); if (r && r < i) r = i; if (g && g < i) g = i; if (b && b < i) b = i; return new d3_rgb(Math.min(255, r / k), Math.min(255, g / k), Math.min(255, b / k)); }; d3_rgbPrototype.darker = function(k) { k = Math.pow(.7, arguments.length ? k : 1); return new d3_rgb(k * this.r, k * this.g, k * this.b); }; d3_rgbPrototype.hsl = function() { return d3_rgb_hsl(this.r, this.g, this.b); }; d3_rgbPrototype.toString = function() { return "#" + d3_rgb_hex(this.r) + d3_rgb_hex(this.g) + d3_rgb_hex(this.b); }; function d3_rgb_hex(v) { return v < 16 ? "0" + Math.max(0, v).toString(16) : Math.min(255, v).toString(16); } function d3_rgb_parse(format, rgb, hsl) { var r = 0, g = 0, b = 0, m1, m2, color; m1 = /([a-z]+)\((.*)\)/.exec(format = format.toLowerCase()); if (m1) { m2 = m1[2].split(","); switch (m1[1]) { case "hsl": { return hsl(parseFloat(m2[0]), parseFloat(m2[1]) / 100, parseFloat(m2[2]) / 100); } case "rgb": { return rgb(d3_rgb_parseNumber(m2[0]), d3_rgb_parseNumber(m2[1]), d3_rgb_parseNumber(m2[2])); } } } if (color = d3_rgb_names.get(format)) { return rgb(color.r, color.g, color.b); } if (format != null && format.charAt(0) === "#" && !isNaN(color = parseInt(format.slice(1), 16))) { if (format.length === 4) { r = (color & 3840) >> 4; r = r >> 4 | r; g = color & 240; g = g >> 4 | g; b = color & 15; b = b << 4 | b; } else if (format.length === 7) { r = (color & 16711680) >> 16; g = (color & 65280) >> 8; b = color & 255; } } return rgb(r, g, b); } function d3_rgb_hsl(r, g, b) { var min = Math.min(r /= 255, g /= 255, b /= 255), max = Math.max(r, g, b), d = max - min, h, s, l = (max + min) / 2; if (d) { s = l < .5 ? d / (max + min) : d / (2 - max - min); if (r == max) h = (g - b) / d + (g < b ? 6 : 0); else if (g == max) h = (b - r) / d + 2; else h = (r - g) / d + 4; h *= 60; } else { h = NaN; s = l > 0 && l < 1 ? 0 : h; } return new d3_hsl(h, s, l); } function d3_rgb_lab(r, g, b) { r = d3_rgb_xyz(r); g = d3_rgb_xyz(g); b = d3_rgb_xyz(b); var x = d3_xyz_lab((.4124564 * r + .3575761 * g + .1804375 * b) / d3_lab_X), y = d3_xyz_lab((.2126729 * r + .7151522 * g + .072175 * b) / d3_lab_Y), z = d3_xyz_lab((.0193339 * r + .119192 * g + .9503041 * b) / d3_lab_Z); return d3_lab(116 * y - 16, 500 * (x - y), 200 * (y - z)); } function d3_rgb_xyz(r) { return (r /= 255) <= .04045 ? r / 12.92 : Math.pow((r + .055) / 1.055, 2.4); } function d3_rgb_parseNumber(c) { var f = parseFloat(c); return c.charAt(c.length - 1) === "%" ? Math.round(f * 2.55) : f; } var d3_rgb_names = d3.map({ aliceblue: 15792383, antiquewhite: 16444375, aqua: 65535, aquamarine: 8388564, azure: 15794175, beige: 16119260, bisque: 16770244, black: 0, blanchedalmond: 16772045, blue: 255, blueviolet: 9055202, brown: 10824234, burlywood: 14596231, cadetblue: 6266528, chartreuse: 8388352, chocolate: 13789470, coral: 16744272, cornflowerblue: 6591981, cornsilk: 16775388, crimson: 14423100, cyan: 65535, darkblue: 139, darkcyan: 35723, darkgoldenrod: 12092939, darkgray: 11119017, darkgreen: 25600, darkgrey: 11119017, darkkhaki: 12433259, darkmagenta: 9109643, darkolivegreen: 5597999, darkorange: 16747520, darkorchid: 10040012, darkred: 9109504, darksalmon: 15308410, darkseagreen: 9419919, darkslateblue: 4734347, darkslategray: 3100495, darkslategrey: 3100495, darkturquoise: 52945, darkviolet: 9699539, deeppink: 16716947, deepskyblue: 49151, dimgray: 6908265, dimgrey: 6908265, dodgerblue: 2003199, firebrick: 11674146, floralwhite: 16775920, forestgreen: 2263842, fuchsia: 16711935, gainsboro: 14474460, ghostwhite: 16316671, gold: 16766720, goldenrod: 14329120, gray: 8421504, green: 32768, greenyellow: 11403055, grey: 8421504, honeydew: 15794160, hotpink: 16738740, indianred: 13458524, indigo: 4915330, ivory: 16777200, khaki: 15787660, lavender: 15132410, lavenderblush: 16773365, lawngreen: 8190976, lemonchiffon: 16775885, lightblue: 11393254, lightcoral: 15761536, lightcyan: 14745599, lightgoldenrodyellow: 16448210, lightgray: 13882323, lightgreen: 9498256, lightgrey: 13882323, lightpink: 16758465, lightsalmon: 16752762, lightseagreen: 2142890, lightskyblue: 8900346, lightslategray: 7833753, lightslategrey: 7833753, lightsteelblue: 11584734, lightyellow: 16777184, lime: 65280, limegreen: 3329330, linen: 16445670, magenta: 16711935, maroon: 8388608, mediumaquamarine: 6737322, mediumblue: 205, mediumorchid: 12211667, mediumpurple: 9662683, mediumseagreen: 3978097, mediumslateblue: 8087790, mediumspringgreen: 64154, mediumturquoise: 4772300, mediumvioletred: 13047173, midnightblue: 1644912, mintcream: 16121850, mistyrose: 16770273, moccasin: 16770229, navajowhite: 16768685, navy: 128, oldlace: 16643558, olive: 8421376, olivedrab: 7048739, orange: 16753920, orangered: 16729344, orchid: 14315734, palegoldenrod: 15657130, palegreen: 10025880, paleturquoise: 11529966, palevioletred: 14381203, papayawhip: 16773077, peachpuff: 16767673, peru: 13468991, pink: 16761035, plum: 14524637, powderblue: 11591910, purple: 8388736, rebeccapurple: 6697881, red: 16711680, rosybrown: 12357519, royalblue: 4286945, saddlebrown: 9127187, salmon: 16416882, sandybrown: 16032864, seagreen: 3050327, seashell: 16774638, sienna: 10506797, silver: 12632256, skyblue: 8900331, slateblue: 6970061, slategray: 7372944, slategrey: 7372944, snow: 16775930, springgreen: 65407, steelblue: 4620980, tan: 13808780, teal: 32896, thistle: 14204888, tomato: 16737095, turquoise: 4251856, violet: 15631086, wheat: 16113331, white: 16777215, whitesmoke: 16119285, yellow: 16776960, yellowgreen: 10145074 }); d3_rgb_names.forEach(function(key, value) { d3_rgb_names.set(key, d3_rgbNumber(value)); }); function d3_functor(v) { return typeof v === "function" ? v : function() { return v; }; } d3.functor = d3_functor; d3.xhr = d3_xhrType(d3_identity); function d3_xhrType(response) { return function(url, mimeType, callback) { if (arguments.length === 2 && typeof mimeType === "function") callback = mimeType, mimeType = null; return d3_xhr(url, mimeType, response, callback); }; } function d3_xhr(url, mimeType, response, callback) { var xhr = {}, dispatch = d3.dispatch("beforesend", "progress", "load", "error"), headers = {}, request = new XMLHttpRequest(), responseType = null; if (self.XDomainRequest && !("withCredentials" in request) && /^(http(s)?:)?\/\//.test(url)) request = new XDomainRequest(); "onload" in request ? request.onload = request.onerror = respond : request.onreadystatechange = function() { request.readyState > 3 && respond(); }; function respond() { var status = request.status, result; if (!status && d3_xhrHasResponse(request) || status >= 200 && status < 300 || status === 304) { try { result = response.call(xhr, request); } catch (e) { dispatch.error.call(xhr, e); return; } dispatch.load.call(xhr, result); } else { dispatch.error.call(xhr, request); } } request.onprogress = function(event) { var o = d3.event; d3.event = event; try { dispatch.progress.call(xhr, request); } finally { d3.event = o; } }; xhr.header = function(name, value) { name = (name + "").toLowerCase(); if (arguments.length < 2) return headers[name]; if (value == null) delete headers[name]; else headers[name] = value + ""; return xhr; }; xhr.mimeType = function(value) { if (!arguments.length) return mimeType; mimeType = value == null ? null : value + ""; return xhr; }; xhr.responseType = function(value) { if (!arguments.length) return responseType; responseType = value; return xhr; }; xhr.response = function(value) { response = value; return xhr; }; [ "get", "post" ].forEach(function(method) { xhr[method] = function() { return xhr.send.apply(xhr, [ method ].concat(d3_array(arguments))); }; }); xhr.send = function(method, data, callback) { if (arguments.length === 2 && typeof data === "function") callback = data, data = null; request.open(method, url, true); if (mimeType != null && !("accept" in headers)) headers["accept"] = mimeType + ",*/*"; if (request.setRequestHeader) for (var name in headers) request.setRequestHeader(name, headers[name]); if (mimeType != null && request.overrideMimeType) request.overrideMimeType(mimeType); if (responseType != null) request.responseType = responseType; if (callback != null) xhr.on("error", callback).on("load", function(request) { callback(null, request); }); dispatch.beforesend.call(xhr, request); request.send(data == null ? null : data); return xhr; }; xhr.abort = function() { request.abort(); return xhr; }; d3.rebind(xhr, dispatch, "on"); return callback == null ? xhr : xhr.get(d3_xhr_fixCallback(callback)); } function d3_xhr_fixCallback(callback) { return callback.length === 1 ? function(error, request) { callback(error == null ? request : null); } : callback; } function d3_xhrHasResponse(request) { var type = request.responseType; return type && type !== "text" ? request.response : request.responseText; } d3.dsv = function(delimiter, mimeType) { var reFormat = new RegExp('["' + delimiter + "\n]"), delimiterCode = delimiter.charCodeAt(0); function dsv(url, row, callback) { if (arguments.length < 3) callback = row, row = null; var xhr = d3_xhr(url, mimeType, row == null ? response : typedResponse(row), callback); xhr.row = function(_) { return arguments.length ? xhr.response((row = _) == null ? response : typedResponse(_)) : row; }; return xhr; } function response(request) { return dsv.parse(request.responseText); } function typedResponse(f) { return function(request) { return dsv.parse(request.responseText, f); }; } dsv.parse = function(text, f) { var o; return dsv.parseRows(text, function(row, i) { if (o) return o(row, i - 1); var a = function(d) { var obj = {}; var len = row.length; for (var k = 0; k < len; ++k) { obj[row[k]] = d[k]; } return obj; }; o = f ? function(row, i) { return f(a(row), i); } : a; }); }; dsv.parseRows = function(text, f) { var EOL = {}, EOF = {}, rows = [], N = text.length, I = 0, n = 0, t, eol; function token() { if (I >= N) return EOF; if (eol) return eol = false, EOL; var j = I; if (text.charCodeAt(j) === 34) { var i = j; while (i++ < N) { if (text.charCodeAt(i) === 34) { if (text.charCodeAt(i + 1) !== 34) break; ++i; } } I = i + 2; var c = text.charCodeAt(i + 1); if (c === 13) { eol = true; if (text.charCodeAt(i + 2) === 10) ++I; } else if (c === 10) { eol = true; } return text.slice(j + 1, i).replace(/""/g, '"'); } while (I < N) { var c = text.charCodeAt(I++), k = 1; if (c === 10) eol = true; else if (c === 13) { eol = true; if (text.charCodeAt(I) === 10) ++I, ++k; } else if (c !== delimiterCode) continue; return text.slice(j, I - k); } return text.slice(j); } while ((t = token()) !== EOF) { var a = []; while (t !== EOL && t !== EOF) { a.push(t); t = token(); } if (f && (a = f(a, n++)) == null) continue; rows.push(a); } return rows; }; dsv.format = function(rows) { if (Array.isArray(rows[0])) return dsv.formatRows(rows); var fieldSet = new d3_Set(), fields = []; rows.forEach(function(row) { for (var field in row) { if (!fieldSet.has(field)) { fields.push(fieldSet.add(field)); } } }); return [ fields.map(formatValue).join(delimiter) ].concat(rows.map(function(row) { return fields.map(function(field) { return formatValue(row[field]); }).join(delimiter); })).join("\n"); }; dsv.formatRows = function(rows) { return rows.map(formatRow).join("\n"); }; function formatRow(row) { return row.map(formatValue).join(delimiter); } function formatValue(text) { return reFormat.test(text) ? '"' + text.replace(/\"/g, '""') + '"' : text; } return dsv; }; d3.csv = d3.dsv(",", "text/csv"); d3.tsv = d3.dsv(" ", "text/tab-separated-values"); var d3_timer_queueHead, d3_timer_queueTail, d3_timer_interval, d3_timer_timeout, d3_timer_frame = this[d3_vendorSymbol(this, "requestAnimationFrame")] || function(callback) { setTimeout(callback, 17); }; d3.timer = function() { d3_timer.apply(this, arguments); }; function d3_timer(callback, delay, then) { var n = arguments.length; if (n < 2) delay = 0; if (n < 3) then = Date.now(); var time = then + delay, timer = { c: callback, t: time, n: null }; if (d3_timer_queueTail) d3_timer_queueTail.n = timer; else d3_timer_queueHead = timer; d3_timer_queueTail = timer; if (!d3_timer_interval) { d3_timer_timeout = clearTimeout(d3_timer_timeout); d3_timer_interval = 1; d3_timer_frame(d3_timer_step); } return timer; } function d3_timer_step() { var now = d3_timer_mark(), delay = d3_timer_sweep() - now; if (delay > 24) { if (isFinite(delay)) { clearTimeout(d3_timer_timeout); d3_timer_timeout = setTimeout(d3_timer_step, delay); } d3_timer_interval = 0; } else { d3_timer_interval = 1; d3_timer_frame(d3_timer_step); } } d3.timer.flush = function() { d3_timer_mark(); d3_timer_sweep(); }; function d3_timer_mark() { var now = Date.now(), timer = d3_timer_queueHead; while (timer) { if (now >= timer.t && timer.c(now - timer.t)) timer.c = null; timer = timer.n; } return now; } function d3_timer_sweep() { var t0, t1 = d3_timer_queueHead, time = Infinity; while (t1) { if (t1.c) { if (t1.t < time) time = t1.t; t1 = (t0 = t1).n; } else { t1 = t0 ? t0.n = t1.n : d3_timer_queueHead = t1.n; } } d3_timer_queueTail = t0; return time; } d3.round = function(x, n) { return n ? Math.round(x * (n = Math.pow(10, n))) / n : Math.round(x); }; d3.geom = {}; function d3_geom_pointX(d) { return d[0]; } function d3_geom_pointY(d) { return d[1]; } d3.geom.hull = function(vertices) { var x = d3_geom_pointX, y = d3_geom_pointY; if (arguments.length) return hull(vertices); function hull(data) { if (data.length < 3) return []; var fx = d3_functor(x), fy = d3_functor(y), i, n = data.length, points = [], flippedPoints = []; for (i = 0; i < n; i++) { points.push([ +fx.call(this, data[i], i), +fy.call(this, data[i], i), i ]); } points.sort(d3_geom_hullOrder); for (i = 0; i < n; i++) flippedPoints.push([ points[i][0], -points[i][1] ]); var upper = d3_geom_hullUpper(points), lower = d3_geom_hullUpper(flippedPoints); var skipLeft = lower[0] === upper[0], skipRight = lower[lower.length - 1] === upper[upper.length - 1], polygon = []; for (i = upper.length - 1; i >= 0; --i) polygon.push(data[points[upper[i]][2]]); for (i = +skipLeft; i < lower.length - skipRight; ++i) polygon.push(data[points[lower[i]][2]]); return polygon; } hull.x = function(_) { return arguments.length ? (x = _, hull) : x; }; hull.y = function(_) { return arguments.length ? (y = _, hull) : y; }; return hull; }; function d3_geom_hullUpper(points) { var n = points.length, hull = [ 0, 1 ], hs = 2; for (var i = 2; i < n; i++) { while (hs > 1 && d3_cross2d(points[hull[hs - 2]], points[hull[hs - 1]], points[i]) <= 0) --hs; hull[hs++] = i; } return hull.slice(0, hs); } function d3_geom_hullOrder(a, b) { return a[0] - b[0] || a[1] - b[1]; } d3.geom.polygon = function(coordinates) { d3_subclass(coordinates, d3_geom_polygonPrototype); return coordinates; }; var d3_geom_polygonPrototype = d3.geom.polygon.prototype = []; d3_geom_polygonPrototype.area = function() { var i = -1, n = this.length, a, b = this[n - 1], area = 0; while (++i < n) { a = b; b = this[i]; area += a[1] * b[0] - a[0] * b[1]; } return area * .5; }; d3_geom_polygonPrototype.centroid = function(k) { var i = -1, n = this.length, x = 0, y = 0, a, b = this[n - 1], c; if (!arguments.length) k = -1 / (6 * this.area()); while (++i < n) { a = b; b = this[i]; c = a[0] * b[1] - b[0] * a[1]; x += (a[0] + b[0]) * c; y += (a[1] + b[1]) * c; } return [ x * k, y * k ]; }; d3_geom_polygonPrototype.clip = function(subject) { var input, closed = d3_geom_polygonClosed(subject), i = -1, n = this.length - d3_geom_polygonClosed(this), j, m, a = this[n - 1], b, c, d; while (++i < n) { input = subject.slice(); subject.length = 0; b = this[i]; c = input[(m = input.length - closed) - 1]; j = -1; while (++j < m) { d = input[j]; if (d3_geom_polygonInside(d, a, b)) { if (!d3_geom_polygonInside(c, a, b)) { subject.push(d3_geom_polygonIntersect(c, d, a, b)); } subject.push(d); } else if (d3_geom_polygonInside(c, a, b)) { subject.push(d3_geom_polygonIntersect(c, d, a, b)); } c = d; } if (closed) subject.push(subject[0]); a = b; } return subject; }; function d3_geom_polygonInside(p, a, b) { return (b[0] - a[0]) * (p[1] - a[1]) < (b[1] - a[1]) * (p[0] - a[0]); } function d3_geom_polygonIntersect(c, d, a, b) { var x1 = c[0], x3 = a[0], x21 = d[0] - x1, x43 = b[0] - x3, y1 = c[1], y3 = a[1], y21 = d[1] - y1, y43 = b[1] - y3, ua = (x43 * (y1 - y3) - y43 * (x1 - x3)) / (y43 * x21 - x43 * y21); return [ x1 + ua * x21, y1 + ua * y21 ]; } function d3_geom_polygonClosed(coordinates) { var a = coordinates[0], b = coordinates[coordinates.length - 1]; return !(a[0] - b[0] || a[1] - b[1]); } var d3_geom_voronoiEdges, d3_geom_voronoiCells, d3_geom_voronoiBeaches, d3_geom_voronoiBeachPool = [], d3_geom_voronoiFirstCircle, d3_geom_voronoiCircles, d3_geom_voronoiCirclePool = []; function d3_geom_voronoiBeach() { d3_geom_voronoiRedBlackNode(this); this.edge = this.site = this.circle = null; } function d3_geom_voronoiCreateBeach(site) { var beach = d3_geom_voronoiBeachPool.pop() || new d3_geom_voronoiBeach(); beach.site = site; return beach; } function d3_geom_voronoiDetachBeach(beach) { d3_geom_voronoiDetachCircle(beach); d3_geom_voronoiBeaches.remove(beach); d3_geom_voronoiBeachPool.push(beach); d3_geom_voronoiRedBlackNode(beach); } function d3_geom_voronoiRemoveBeach(beach) { var circle = beach.circle, x = circle.x, y = circle.cy, vertex = { x: x, y: y }, previous = beach.P, next = beach.N, disappearing = [ beach ]; d3_geom_voronoiDetachBeach(beach); var lArc = previous; while (lArc.circle && abs(x - lArc.circle.x) < ε && abs(y - lArc.circle.cy) < ε) { previous = lArc.P; disappearing.unshift(lArc); d3_geom_voronoiDetachBeach(lArc); lArc = previous; } disappearing.unshift(lArc); d3_geom_voronoiDetachCircle(lArc); var rArc = next; while (rArc.circle && abs(x - rArc.circle.x) < ε && abs(y - rArc.circle.cy) < ε) { next = rArc.N; disappearing.push(rArc); d3_geom_voronoiDetachBeach(rArc); rArc = next; } disappearing.push(rArc); d3_geom_voronoiDetachCircle(rArc); var nArcs = disappearing.length, iArc; for (iArc = 1; iArc < nArcs; ++iArc) { rArc = disappearing[iArc]; lArc = disappearing[iArc - 1]; d3_geom_voronoiSetEdgeEnd(rArc.edge, lArc.site, rArc.site, vertex); } lArc = disappearing[0]; rArc = disappearing[nArcs - 1]; rArc.edge = d3_geom_voronoiCreateEdge(lArc.site, rArc.site, null, vertex); d3_geom_voronoiAttachCircle(lArc); d3_geom_voronoiAttachCircle(rArc); } function d3_geom_voronoiAddBeach(site) { var x = site.x, directrix = site.y, lArc, rArc, dxl, dxr, node = d3_geom_voronoiBeaches._; while (node) { dxl = d3_geom_voronoiLeftBreakPoint(node, directrix) - x; if (dxl > ε) node = node.L; else { dxr = x - d3_geom_voronoiRightBreakPoint(node, directrix); if (dxr > ε) { if (!node.R) { lArc = node; break; } node = node.R; } else { if (dxl > -ε) { lArc = node.P; rArc = node; } else if (dxr > -ε) { lArc = node; rArc = node.N; } else { lArc = rArc = node; } break; } } } var newArc = d3_geom_voronoiCreateBeach(site); d3_geom_voronoiBeaches.insert(lArc, newArc); if (!lArc && !rArc) return; if (lArc === rArc) { d3_geom_voronoiDetachCircle(lArc); rArc = d3_geom_voronoiCreateBeach(lArc.site); d3_geom_voronoiBeaches.insert(newArc, rArc); newArc.edge = rArc.edge = d3_geom_voronoiCreateEdge(lArc.site, newArc.site); d3_geom_voronoiAttachCircle(lArc); d3_geom_voronoiAttachCircle(rArc); return; } if (!rArc) { newArc.edge = d3_geom_voronoiCreateEdge(lArc.site, newArc.site); return; } d3_geom_voronoiDetachCircle(lArc); d3_geom_voronoiDetachCircle(rArc); var lSite = lArc.site, ax = lSite.x, ay = lSite.y, bx = site.x - ax, by = site.y - ay, rSite = rArc.site, cx = rSite.x - ax, cy = rSite.y - ay, d = 2 * (bx * cy - by * cx), hb = bx * bx + by * by, hc = cx * cx + cy * cy, vertex = { x: (cy * hb - by * hc) / d + ax, y: (bx * hc - cx * hb) / d + ay }; d3_geom_voronoiSetEdgeEnd(rArc.edge, lSite, rSite, vertex); newArc.edge = d3_geom_voronoiCreateEdge(lSite, site, null, vertex); rArc.edge = d3_geom_voronoiCreateEdge(site, rSite, null, vertex); d3_geom_voronoiAttachCircle(lArc); d3_geom_voronoiAttachCircle(rArc); } function d3_geom_voronoiLeftBreakPoint(arc, directrix) { var site = arc.site, rfocx = site.x, rfocy = site.y, pby2 = rfocy - directrix; if (!pby2) return rfocx; var lArc = arc.P; if (!lArc) return -Infinity; site = lArc.site; var lfocx = site.x, lfocy = site.y, plby2 = lfocy - directrix; if (!plby2) return lfocx; var hl = lfocx - rfocx, aby2 = 1 / pby2 - 1 / plby2, b = hl / plby2; if (aby2) return (-b + Math.sqrt(b * b - 2 * aby2 * (hl * hl / (-2 * plby2) - lfocy + plby2 / 2 + rfocy - pby2 / 2))) / aby2 + rfocx; return (rfocx + lfocx) / 2; } function d3_geom_voronoiRightBreakPoint(arc, directrix) { var rArc = arc.N; if (rArc) return d3_geom_voronoiLeftBreakPoint(rArc, directrix); var site = arc.site; return site.y === directrix ? site.x : Infinity; } function d3_geom_voronoiCell(site) { this.site = site; this.edges = []; } d3_geom_voronoiCell.prototype.prepare = function() { var halfEdges = this.edges, iHalfEdge = halfEdges.length, edge; while (iHalfEdge--) { edge = halfEdges[iHalfEdge].edge; if (!edge.b || !edge.a) halfEdges.splice(iHalfEdge, 1); } halfEdges.sort(d3_geom_voronoiHalfEdgeOrder); return halfEdges.length; }; function d3_geom_voronoiCloseCells(extent) { var x0 = extent[0][0], x1 = extent[1][0], y0 = extent[0][1], y1 = extent[1][1], x2, y2, x3, y3, cells = d3_geom_voronoiCells, iCell = cells.length, cell, iHalfEdge, halfEdges, nHalfEdges, start, end; while (iCell--) { cell = cells[iCell]; if (!cell || !cell.prepare()) continue; halfEdges = cell.edges; nHalfEdges = halfEdges.length; iHalfEdge = 0; while (iHalfEdge < nHalfEdges) { end = halfEdges[iHalfEdge].end(), x3 = end.x, y3 = end.y; start = halfEdges[++iHalfEdge % nHalfEdges].start(), x2 = start.x, y2 = start.y; if (abs(x3 - x2) > ε || abs(y3 - y2) > ε) { halfEdges.splice(iHalfEdge, 0, new d3_geom_voronoiHalfEdge(d3_geom_voronoiCreateBorderEdge(cell.site, end, abs(x3 - x0) < ε && y1 - y3 > ε ? { x: x0, y: abs(x2 - x0) < ε ? y2 : y1 } : abs(y3 - y1) < ε && x1 - x3 > ε ? { x: abs(y2 - y1) < ε ? x2 : x1, y: y1 } : abs(x3 - x1) < ε && y3 - y0 > ε ? { x: x1, y: abs(x2 - x1) < ε ? y2 : y0 } : abs(y3 - y0) < ε && x3 - x0 > ε ? { x: abs(y2 - y0) < ε ? x2 : x0, y: y0 } : null), cell.site, null)); ++nHalfEdges; } } } } function d3_geom_voronoiHalfEdgeOrder(a, b) { return b.angle - a.angle; } function d3_geom_voronoiCircle() { d3_geom_voronoiRedBlackNode(this); this.x = this.y = this.arc = this.site = this.cy = null; } function d3_geom_voronoiAttachCircle(arc) { var lArc = arc.P, rArc = arc.N; if (!lArc || !rArc) return; var lSite = lArc.site, cSite = arc.site, rSite = rArc.site; if (lSite === rSite) return; var bx = cSite.x, by = cSite.y, ax = lSite.x - bx, ay = lSite.y - by, cx = rSite.x - bx, cy = rSite.y - by; var d = 2 * (ax * cy - ay * cx); if (d >= -ε2) return; var ha = ax * ax + ay * ay, hc = cx * cx + cy * cy, x = (cy * ha - ay * hc) / d, y = (ax * hc - cx * ha) / d, cy = y + by; var circle = d3_geom_voronoiCirclePool.pop() || new d3_geom_voronoiCircle(); circle.arc = arc; circle.site = cSite; circle.x = x + bx; circle.y = cy + Math.sqrt(x * x + y * y); circle.cy = cy; arc.circle = circle; var before = null, node = d3_geom_voronoiCircles._; while (node) { if (circle.y < node.y || circle.y === node.y && circle.x <= node.x) { if (node.L) node = node.L; else { before = node.P; break; } } else { if (node.R) node = node.R; else { before = node; break; } } } d3_geom_voronoiCircles.insert(before, circle); if (!before) d3_geom_voronoiFirstCircle = circle; } function d3_geom_voronoiDetachCircle(arc) { var circle = arc.circle; if (circle) { if (!circle.P) d3_geom_voronoiFirstCircle = circle.N; d3_geom_voronoiCircles.remove(circle); d3_geom_voronoiCirclePool.push(circle); d3_geom_voronoiRedBlackNode(circle); arc.circle = null; } } function d3_geom_clipLine(x0, y0, x1, y1) { return function(line) { var a = line.a, b = line.b, ax = a.x, ay = a.y, bx = b.x, by = b.y, t0 = 0, t1 = 1, dx = bx - ax, dy = by - ay, r; r = x0 - ax; if (!dx && r > 0) return; r /= dx; if (dx < 0) { if (r < t0) return; if (r < t1) t1 = r; } else if (dx > 0) { if (r > t1) return; if (r > t0) t0 = r; } r = x1 - ax; if (!dx && r < 0) return; r /= dx; if (dx < 0) { if (r > t1) return; if (r > t0) t0 = r; } else if (dx > 0) { if (r < t0) return; if (r < t1) t1 = r; } r = y0 - ay; if (!dy && r > 0) return; r /= dy; if (dy < 0) { if (r < t0) return; if (r < t1) t1 = r; } else if (dy > 0) { if (r > t1) return; if (r > t0) t0 = r; } r = y1 - ay; if (!dy && r < 0) return; r /= dy; if (dy < 0) { if (r > t1) return; if (r > t0) t0 = r; } else if (dy > 0) { if (r < t0) return; if (r < t1) t1 = r; } if (t0 > 0) line.a = { x: ax + t0 * dx, y: ay + t0 * dy }; if (t1 < 1) line.b = { x: ax + t1 * dx, y: ay + t1 * dy }; return line; }; } function d3_geom_voronoiClipEdges(extent) { var edges = d3_geom_voronoiEdges, clip = d3_geom_clipLine(extent[0][0], extent[0][1], extent[1][0], extent[1][1]), i = edges.length, e; while (i--) { e = edges[i]; if (!d3_geom_voronoiConnectEdge(e, extent) || !clip(e) || abs(e.a.x - e.b.x) < ε && abs(e.a.y - e.b.y) < ε) { e.a = e.b = null; edges.splice(i, 1); } } } function d3_geom_voronoiConnectEdge(edge, extent) { var vb = edge.b; if (vb) return true; var va = edge.a, x0 = extent[0][0], x1 = extent[1][0], y0 = extent[0][1], y1 = extent[1][1], lSite = edge.l, rSite = edge.r, lx = lSite.x, ly = lSite.y, rx = rSite.x, ry = rSite.y, fx = (lx + rx) / 2, fy = (ly + ry) / 2, fm, fb; if (ry === ly) { if (fx < x0 || fx >= x1) return; if (lx > rx) { if (!va) va = { x: fx, y: y0 }; else if (va.y >= y1) return; vb = { x: fx, y: y1 }; } else { if (!va) va = { x: fx, y: y1 }; else if (va.y < y0) return; vb = { x: fx, y: y0 }; } } else { fm = (lx - rx) / (ry - ly); fb = fy - fm * fx; if (fm < -1 || fm > 1) { if (lx > rx) { if (!va) va = { x: (y0 - fb) / fm, y: y0 }; else if (va.y >= y1) return; vb = { x: (y1 - fb) / fm, y: y1 }; } else { if (!va) va = { x: (y1 - fb) / fm, y: y1 }; else if (va.y < y0) return; vb = { x: (y0 - fb) / fm, y: y0 }; } } else { if (ly < ry) { if (!va) va = { x: x0, y: fm * x0 + fb }; else if (va.x >= x1) return; vb = { x: x1, y: fm * x1 + fb }; } else { if (!va) va = { x: x1, y: fm * x1 + fb }; else if (va.x < x0) return; vb = { x: x0, y: fm * x0 + fb }; } } } edge.a = va; edge.b = vb; return true; } function d3_geom_voronoiEdge(lSite, rSite) { this.l = lSite; this.r = rSite; this.a = this.b = null; } function d3_geom_voronoiCreateEdge(lSite, rSite, va, vb) { var edge = new d3_geom_voronoiEdge(lSite, rSite); d3_geom_voronoiEdges.push(edge); if (va) d3_geom_voronoiSetEdgeEnd(edge, lSite, rSite, va); if (vb) d3_geom_voronoiSetEdgeEnd(edge, rSite, lSite, vb); d3_geom_voronoiCells[lSite.i].edges.push(new d3_geom_voronoiHalfEdge(edge, lSite, rSite)); d3_geom_voronoiCells[rSite.i].edges.push(new d3_geom_voronoiHalfEdge(edge, rSite, lSite)); return edge; } function d3_geom_voronoiCreateBorderEdge(lSite, va, vb) { var edge = new d3_geom_voronoiEdge(lSite, null); edge.a = va; edge.b = vb; d3_geom_voronoiEdges.push(edge); return edge; } function d3_geom_voronoiSetEdgeEnd(edge, lSite, rSite, vertex) { if (!edge.a && !edge.b) { edge.a = vertex; edge.l = lSite; edge.r = rSite; } else if (edge.l === rSite) { edge.b = vertex; } else { edge.a = vertex; } } function d3_geom_voronoiHalfEdge(edge, lSite, rSite) { var va = edge.a, vb = edge.b; this.edge = edge; this.site = lSite; this.angle = rSite ? Math.atan2(rSite.y - lSite.y, rSite.x - lSite.x) : edge.l === lSite ? Math.atan2(vb.x - va.x, va.y - vb.y) : Math.atan2(va.x - vb.x, vb.y - va.y); } d3_geom_voronoiHalfEdge.prototype = { start: function() { return this.edge.l === this.site ? this.edge.a : this.edge.b; }, end: function() { return this.edge.l === this.site ? this.edge.b : this.edge.a; } }; function d3_geom_voronoiRedBlackTree() { this._ = null; } function d3_geom_voronoiRedBlackNode(node) { node.U = node.C = node.L = node.R = node.P = node.N = null; } d3_geom_voronoiRedBlackTree.prototype = { insert: function(after, node) { var parent, grandpa, uncle; if (after) { node.P = after; node.N = after.N; if (after.N) after.N.P = node; after.N = node; if (after.R) { after = after.R; while (after.L) after = after.L; after.L = node; } else { after.R = node; } parent = after; } else if (this._) { after = d3_geom_voronoiRedBlackFirst(this._); node.P = null; node.N = after; after.P = after.L = node; parent = after; } else { node.P = node.N = null; this._ = node; parent = null; } node.L = node.R = null; node.U = parent; node.C = true; after = node; while (parent && parent.C) { grandpa = parent.U; if (parent === grandpa.L) { uncle = grandpa.R; if (uncle && uncle.C) { parent.C = uncle.C = false; grandpa.C = true; after = grandpa; } else { if (after === parent.R) { d3_geom_voronoiRedBlackRotateLeft(this, parent); after = parent; parent = after.U; } parent.C = false; grandpa.C = true; d3_geom_voronoiRedBlackRotateRight(this, grandpa); } } else { uncle = grandpa.L; if (uncle && uncle.C) { parent.C = uncle.C = false; grandpa.C = true; after = grandpa; } else { if (after === parent.L) { d3_geom_voronoiRedBlackRotateRight(this, parent); after = parent; parent = after.U; } parent.C = false; grandpa.C = true; d3_geom_voronoiRedBlackRotateLeft(this, grandpa); } } parent = after.U; } this._.C = false; }, remove: function(node) { if (node.N) node.N.P = node.P; if (node.P) node.P.N = node.N; node.N = node.P = null; var parent = node.U, sibling, left = node.L, right = node.R, next, red; if (!left) next = right; else if (!right) next = left; else next = d3_geom_voronoiRedBlackFirst(right); if (parent) { if (parent.L === node) parent.L = next; else parent.R = next; } else { this._ = next; } if (left && right) { red = next.C; next.C = node.C; next.L = left; left.U = next; if (next !== right) { parent = next.U; next.U = node.U; node = next.R; parent.L = node; next.R = right; right.U = next; } else { next.U = parent; parent = next; node = next.R; } } else { red = node.C; node = next; } if (node) node.U = parent; if (red) return; if (node && node.C) { node.C = false; return; } do { if (node === this._) break; if (node === parent.L) { sibling = parent.R; if (sibling.C) { sibling.C = false; parent.C = true; d3_geom_voronoiRedBlackRotateLeft(this, parent); sibling = parent.R; } if (sibling.L && sibling.L.C || sibling.R && sibling.R.C) { if (!sibling.R || !sibling.R.C) { sibling.L.C = false; sibling.C = true; d3_geom_voronoiRedBlackRotateRight(this, sibling); sibling = parent.R; } sibling.C = parent.C; parent.C = sibling.R.C = false; d3_geom_voronoiRedBlackRotateLeft(this, parent); node = this._; break; } } else { sibling = parent.L; if (sibling.C) { sibling.C = false; parent.C = true; d3_geom_voronoiRedBlackRotateRight(this, parent); sibling = parent.L; } if (sibling.L && sibling.L.C || sibling.R && sibling.R.C) { if (!sibling.L || !sibling.L.C) { sibling.R.C = false; sibling.C = true; d3_geom_voronoiRedBlackRotateLeft(this, sibling); sibling = parent.L; } sibling.C = parent.C; parent.C = sibling.L.C = false; d3_geom_voronoiRedBlackRotateRight(this, parent); node = this._; break; } } sibling.C = true; node = parent; parent = parent.U; } while (!node.C); if (node) node.C = false; } }; function d3_geom_voronoiRedBlackRotateLeft(tree, node) { var p = node, q = node.R, parent = p.U; if (parent) { if (parent.L === p) parent.L = q; else parent.R = q; } else { tree._ = q; } q.U = parent; p.U = q; p.R = q.L; if (p.R) p.R.U = p; q.L = p; } function d3_geom_voronoiRedBlackRotateRight(tree, node) { var p = node, q = node.L, parent = p.U; if (parent) { if (parent.L === p) parent.L = q; else parent.R = q; } else { tree._ = q; } q.U = parent; p.U = q; p.L = q.R; if (p.L) p.L.U = p; q.R = p; } function d3_geom_voronoiRedBlackFirst(node) { while (node.L) node = node.L; return node; } function d3_geom_voronoi(sites, bbox) { var site = sites.sort(d3_geom_voronoiVertexOrder).pop(), x0, y0, circle; d3_geom_voronoiEdges = []; d3_geom_voronoiCells = new Array(sites.length); d3_geom_voronoiBeaches = new d3_geom_voronoiRedBlackTree(); d3_geom_voronoiCircles = new d3_geom_voronoiRedBlackTree(); while (true) { circle = d3_geom_voronoiFirstCircle; if (site && (!circle || site.y < circle.y || site.y === circle.y && site.x < circle.x)) { if (site.x !== x0 || site.y !== y0) { d3_geom_voronoiCells[site.i] = new d3_geom_voronoiCell(site); d3_geom_voronoiAddBeach(site); x0 = site.x, y0 = site.y; } site = sites.pop(); } else if (circle) { d3_geom_voronoiRemoveBeach(circle.arc); } else { break; } } if (bbox) d3_geom_voronoiClipEdges(bbox), d3_geom_voronoiCloseCells(bbox); var diagram = { cells: d3_geom_voronoiCells, edges: d3_geom_voronoiEdges }; d3_geom_voronoiBeaches = d3_geom_voronoiCircles = d3_geom_voronoiEdges = d3_geom_voronoiCells = null; return diagram; } function d3_geom_voronoiVertexOrder(a, b) { return b.y - a.y || b.x - a.x; } d3.geom.voronoi = function(points) { var x = d3_geom_pointX, y = d3_geom_pointY, fx = x, fy = y, clipExtent = d3_geom_voronoiClipExtent; if (points) return voronoi(points); function voronoi(data) { var polygons = new Array(data.length), x0 = clipExtent[0][0], y0 = clipExtent[0][1], x1 = clipExtent[1][0], y1 = clipExtent[1][1]; d3_geom_voronoi(sites(data), clipExtent).cells.forEach(function(cell, i) { var edges = cell.edges, site = cell.site, polygon = polygons[i] = edges.length ? edges.map(function(e) { var s = e.start(); return [ s.x, s.y ]; }) : site.x >= x0 && site.x <= x1 && site.y >= y0 && site.y <= y1 ? [ [ x0, y1 ], [ x1, y1 ], [ x1, y0 ], [ x0, y0 ] ] : []; polygon.point = data[i]; }); return polygons; } function sites(data) { return data.map(function(d, i) { return { x: Math.round(fx(d, i) / ε) * ε, y: Math.round(fy(d, i) / ε) * ε, i: i }; }); } voronoi.links = function(data) { return d3_geom_voronoi(sites(data)).edges.filter(function(edge) { return edge.l && edge.r; }).map(function(edge) { return { source: data[edge.l.i], target: data[edge.r.i] }; }); }; voronoi.triangles = function(data) { var triangles = []; d3_geom_voronoi(sites(data)).cells.forEach(function(cell, i) { var site = cell.site, edges = cell.edges.sort(d3_geom_voronoiHalfEdgeOrder), j = -1, m = edges.length, e0, s0, e1 = edges[m - 1].edge, s1 = e1.l === site ? e1.r : e1.l; while (++j < m) { e0 = e1; s0 = s1; e1 = edges[j].edge; s1 = e1.l === site ? e1.r : e1.l; if (i < s0.i && i < s1.i && d3_geom_voronoiTriangleArea(site, s0, s1) < 0) { triangles.push([ data[i], data[s0.i], data[s1.i] ]); } } }); return triangles; }; voronoi.x = function(_) { return arguments.length ? (fx = d3_functor(x = _), voronoi) : x; }; voronoi.y = function(_) { return arguments.length ? (fy = d3_functor(y = _), voronoi) : y; }; voronoi.clipExtent = function(_) { if (!arguments.length) return clipExtent === d3_geom_voronoiClipExtent ? null : clipExtent; clipExtent = _ == null ? d3_geom_voronoiClipExtent : _; return voronoi; }; voronoi.size = function(_) { if (!arguments.length) return clipExtent === d3_geom_voronoiClipExtent ? null : clipExtent && clipExtent[1]; return voronoi.clipExtent(_ && [ [ 0, 0 ], _ ]); }; return voronoi; }; var d3_geom_voronoiClipExtent = [ [ -1e6, -1e6 ], [ 1e6, 1e6 ] ]; function d3_geom_voronoiTriangleArea(a, b, c) { return (a.x - c.x) * (b.y - a.y) - (a.x - b.x) * (c.y - a.y); } d3.geom.delaunay = function(vertices) { return d3.geom.voronoi().triangles(vertices); }; d3.geom.quadtree = function(points, x1, y1, x2, y2) { var x = d3_geom_pointX, y = d3_geom_pointY, compat; if (compat = arguments.length) { x = d3_geom_quadtreeCompatX; y = d3_geom_quadtreeCompatY; if (compat === 3) { y2 = y1; x2 = x1; y1 = x1 = 0; } return quadtree(points); } function quadtree(data) { var d, fx = d3_functor(x), fy = d3_functor(y), xs, ys, i, n, x1_, y1_, x2_, y2_; if (x1 != null) { x1_ = x1, y1_ = y1, x2_ = x2, y2_ = y2; } else { x2_ = y2_ = -(x1_ = y1_ = Infinity); xs = [], ys = []; n = data.length; if (compat) for (i = 0; i < n; ++i) { d = data[i]; if (d.x < x1_) x1_ = d.x; if (d.y < y1_) y1_ = d.y; if (d.x > x2_) x2_ = d.x; if (d.y > y2_) y2_ = d.y; xs.push(d.x); ys.push(d.y); } else for (i = 0; i < n; ++i) { var x_ = +fx(d = data[i], i), y_ = +fy(d, i); if (x_ < x1_) x1_ = x_; if (y_ < y1_) y1_ = y_; if (x_ > x2_) x2_ = x_; if (y_ > y2_) y2_ = y_; xs.push(x_); ys.push(y_); } } var dx = x2_ - x1_, dy = y2_ - y1_; if (dx > dy) y2_ = y1_ + dx; else x2_ = x1_ + dy; function insert(n, d, x, y, x1, y1, x2, y2) { if (isNaN(x) || isNaN(y)) return; if (n.leaf) { var nx = n.x, ny = n.y; if (nx != null) { if (abs(nx - x) + abs(ny - y) < .01) { insertChild(n, d, x, y, x1, y1, x2, y2); } else { var nPoint = n.point; n.x = n.y = n.point = null; insertChild(n, nPoint, nx, ny, x1, y1, x2, y2); insertChild(n, d, x, y, x1, y1, x2, y2); } } else { n.x = x, n.y = y, n.point = d; } } else { insertChild(n, d, x, y, x1, y1, x2, y2); } } function insertChild(n, d, x, y, x1, y1, x2, y2) { var xm = (x1 + x2) * .5, ym = (y1 + y2) * .5, right = x >= xm, below = y >= ym, i = below << 1 | right; n.leaf = false; n = n.nodes[i] || (n.nodes[i] = d3_geom_quadtreeNode()); if (right) x1 = xm; else x2 = xm; if (below) y1 = ym; else y2 = ym; insert(n, d, x, y, x1, y1, x2, y2); } var root = d3_geom_quadtreeNode(); root.add = function(d) { insert(root, d, +fx(d, ++i), +fy(d, i), x1_, y1_, x2_, y2_); }; root.visit = function(f) { d3_geom_quadtreeVisit(f, root, x1_, y1_, x2_, y2_); }; root.find = function(point) { return d3_geom_quadtreeFind(root, point[0], point[1], x1_, y1_, x2_, y2_); }; i = -1; if (x1 == null) { while (++i < n) { insert(root, data[i], xs[i], ys[i], x1_, y1_, x2_, y2_); } --i; } else data.forEach(root.add); xs = ys = data = d = null; return root; } quadtree.x = function(_) { return arguments.length ? (x = _, quadtree) : x; }; quadtree.y = function(_) { return arguments.length ? (y = _, quadtree) : y; }; quadtree.extent = function(_) { if (!arguments.length) return x1 == null ? null : [ [ x1, y1 ], [ x2, y2 ] ]; if (_ == null) x1 = y1 = x2 = y2 = null; else x1 = +_[0][0], y1 = +_[0][1], x2 = +_[1][0], y2 = +_[1][1]; return quadtree; }; quadtree.size = function(_) { if (!arguments.length) return x1 == null ? null : [ x2 - x1, y2 - y1 ]; if (_ == null) x1 = y1 = x2 = y2 = null; else x1 = y1 = 0, x2 = +_[0], y2 = +_[1]; return quadtree; }; return quadtree; }; function d3_geom_quadtreeCompatX(d) { return d.x; } function d3_geom_quadtreeCompatY(d) { return d.y; } function d3_geom_quadtreeNode() { return { leaf: true, nodes: [], point: null, x: null, y: null }; } function d3_geom_quadtreeVisit(f, node, x1, y1, x2, y2) { if (!f(node, x1, y1, x2, y2)) { var sx = (x1 + x2) * .5, sy = (y1 + y2) * .5, children = node.nodes; if (children[0]) d3_geom_quadtreeVisit(f, children[0], x1, y1, sx, sy); if (children[1]) d3_geom_quadtreeVisit(f, children[1], sx, y1, x2, sy); if (children[2]) d3_geom_quadtreeVisit(f, children[2], x1, sy, sx, y2); if (children[3]) d3_geom_quadtreeVisit(f, children[3], sx, sy, x2, y2); } } function d3_geom_quadtreeFind(root, x, y, x0, y0, x3, y3) { var minDistance2 = Infinity, closestPoint; (function find(node, x1, y1, x2, y2) { if (x1 > x3 || y1 > y3 || x2 < x0 || y2 < y0) return; if (point = node.point) { var point, dx = x - node.x, dy = y - node.y, distance2 = dx * dx + dy * dy; if (distance2 < minDistance2) { var distance = Math.sqrt(minDistance2 = distance2); x0 = x - distance, y0 = y - distance; x3 = x + distance, y3 = y + distance; closestPoint = point; } } var children = node.nodes, xm = (x1 + x2) * .5, ym = (y1 + y2) * .5, right = x >= xm, below = y >= ym; for (var i = below << 1 | right, j = i + 4; i < j; ++i) { if (node = children[i & 3]) switch (i & 3) { case 0: find(node, x1, y1, xm, ym); break; case 1: find(node, xm, y1, x2, ym); break; case 2: find(node, x1, ym, xm, y2); break; case 3: find(node, xm, ym, x2, y2); break; } } })(root, x0, y0, x3, y3); return closestPoint; } d3.interpolateRgb = d3_interpolateRgb; function d3_interpolateRgb(a, b) { a = d3.rgb(a); b = d3.rgb(b); var ar = a.r, ag = a.g, ab = a.b, br = b.r - ar, bg = b.g - ag, bb = b.b - ab; return function(t) { return "#" + d3_rgb_hex(Math.round(ar + br * t)) + d3_rgb_hex(Math.round(ag + bg * t)) + d3_rgb_hex(Math.round(ab + bb * t)); }; } d3.interpolateObject = d3_interpolateObject; function d3_interpolateObject(a, b) { var i = {}, c = {}, k; for (k in a) { if (k in b) { i[k] = d3_interpolate(a[k], b[k]); } else { c[k] = a[k]; } } for (k in b) { if (!(k in a)) { c[k] = b[k]; } } return function(t) { for (k in i) c[k] = i[k](t); return c; }; } d3.interpolateNumber = d3_interpolateNumber; function d3_interpolateNumber(a, b) { a = +a, b = +b; return function(t) { return a * (1 - t) + b * t; }; } d3.interpolateString = d3_interpolateString; function d3_interpolateString(a, b) { var bi = d3_interpolate_numberA.lastIndex = d3_interpolate_numberB.lastIndex = 0, am, bm, bs, i = -1, s = [], q = []; a = a + "", b = b + ""; while ((am = d3_interpolate_numberA.exec(a)) && (bm = d3_interpolate_numberB.exec(b))) { if ((bs = bm.index) > bi) { bs = b.slice(bi, bs); if (s[i]) s[i] += bs; else s[++i] = bs; } if ((am = am[0]) === (bm = bm[0])) { if (s[i]) s[i] += bm; else s[++i] = bm; } else { s[++i] = null; q.push({ i: i, x: d3_interpolateNumber(am, bm) }); } bi = d3_interpolate_numberB.lastIndex; } if (bi < b.length) { bs = b.slice(bi); if (s[i]) s[i] += bs; else s[++i] = bs; } return s.length < 2 ? q[0] ? (b = q[0].x, function(t) { return b(t) + ""; }) : function() { return b; } : (b = q.length, function(t) { for (var i = 0, o; i < b; ++i) s[(o = q[i]).i] = o.x(t); return s.join(""); }); } var d3_interpolate_numberA = /[-+]?(?:\d+\.?\d*|\.?\d+)(?:[eE][-+]?\d+)?/g, d3_interpolate_numberB = new RegExp(d3_interpolate_numberA.source, "g"); d3.interpolate = d3_interpolate; function d3_interpolate(a, b) { var i = d3.interpolators.length, f; while (--i >= 0 && !(f = d3.interpolators[i](a, b))) ; return f; } d3.interpolators = [ function(a, b) { var t = typeof b; return (t === "string" ? d3_rgb_names.has(b.toLowerCase()) || /^(#|rgb\(|hsl\()/i.test(b) ? d3_interpolateRgb : d3_interpolateString : b instanceof d3_color ? d3_interpolateRgb : Array.isArray(b) ? d3_interpolateArray : t === "object" && isNaN(b) ? d3_interpolateObject : d3_interpolateNumber)(a, b); } ]; d3.interpolateArray = d3_interpolateArray; function d3_interpolateArray(a, b) { var x = [], c = [], na = a.length, nb = b.length, n0 = Math.min(a.length, b.length), i; for (i = 0; i < n0; ++i) x.push(d3_interpolate(a[i], b[i])); for (;i < na; ++i) c[i] = a[i]; for (;i < nb; ++i) c[i] = b[i]; return function(t) { for (i = 0; i < n0; ++i) c[i] = x[i](t); return c; }; } var d3_ease_default = function() { return d3_identity; }; var d3_ease = d3.map({ linear: d3_ease_default, poly: d3_ease_poly, quad: function() { return d3_ease_quad; }, cubic: function() { return d3_ease_cubic; }, sin: function() { return d3_ease_sin; }, exp: function() { return d3_ease_exp; }, circle: function() { return d3_ease_circle; }, elastic: d3_ease_elastic, back: d3_ease_back, bounce: function() { return d3_ease_bounce; } }); var d3_ease_mode = d3.map({ "in": d3_identity, out: d3_ease_reverse, "in-out": d3_ease_reflect, "out-in": function(f) { return d3_ease_reflect(d3_ease_reverse(f)); } }); d3.ease = function(name) { var i = name.indexOf("-"), t = i >= 0 ? name.slice(0, i) : name, m = i >= 0 ? name.slice(i + 1) : "in"; t = d3_ease.get(t) || d3_ease_default; m = d3_ease_mode.get(m) || d3_identity; return d3_ease_clamp(m(t.apply(null, d3_arraySlice.call(arguments, 1)))); }; function d3_ease_clamp(f) { return function(t) { return t <= 0 ? 0 : t >= 1 ? 1 : f(t); }; } function d3_ease_reverse(f) { return function(t) { return 1 - f(1 - t); }; } function d3_ease_reflect(f) { return function(t) { return .5 * (t < .5 ? f(2 * t) : 2 - f(2 - 2 * t)); }; } function d3_ease_quad(t) { return t * t; } function d3_ease_cubic(t) { return t * t * t; } function d3_ease_cubicInOut(t) { if (t <= 0) return 0; if (t >= 1) return 1; var t2 = t * t, t3 = t2 * t; return 4 * (t < .5 ? t3 : 3 * (t - t2) + t3 - .75); } function d3_ease_poly(e) { return function(t) { return Math.pow(t, e); }; } function d3_ease_sin(t) { return 1 - Math.cos(t * halfπ); } function d3_ease_exp(t) { return Math.pow(2, 10 * (t - 1)); } function d3_ease_circle(t) { return 1 - Math.sqrt(1 - t * t); } function d3_ease_elastic(a, p) { var s; if (arguments.length < 2) p = .45; if (arguments.length) s = p / τ * Math.asin(1 / a); else a = 1, s = p / 4; return function(t) { return 1 + a * Math.pow(2, -10 * t) * Math.sin((t - s) * τ / p); }; } function d3_ease_back(s) { if (!s) s = 1.70158; return function(t) { return t * t * ((s + 1) * t - s); }; } function d3_ease_bounce(t) { return t < 1 / 2.75 ? 7.5625 * t * t : t < 2 / 2.75 ? 7.5625 * (t -= 1.5 / 2.75) * t + .75 : t < 2.5 / 2.75 ? 7.5625 * (t -= 2.25 / 2.75) * t + .9375 : 7.5625 * (t -= 2.625 / 2.75) * t + .984375; } d3.interpolateHcl = d3_interpolateHcl; function d3_interpolateHcl(a, b) { a = d3.hcl(a); b = d3.hcl(b); var ah = a.h, ac = a.c, al = a.l, bh = b.h - ah, bc = b.c - ac, bl = b.l - al; if (isNaN(bc)) bc = 0, ac = isNaN(ac) ? b.c : ac; if (isNaN(bh)) bh = 0, ah = isNaN(ah) ? b.h : ah; else if (bh > 180) bh -= 360; else if (bh < -180) bh += 360; return function(t) { return d3_hcl_lab(ah + bh * t, ac + bc * t, al + bl * t) + ""; }; } d3.interpolateHsl = d3_interpolateHsl; function d3_interpolateHsl(a, b) { a = d3.hsl(a); b = d3.hsl(b); var ah = a.h, as = a.s, al = a.l, bh = b.h - ah, bs = b.s - as, bl = b.l - al; if (isNaN(bs)) bs = 0, as = isNaN(as) ? b.s : as; if (isNaN(bh)) bh = 0, ah = isNaN(ah) ? b.h : ah; else if (bh > 180) bh -= 360; else if (bh < -180) bh += 360; return function(t) { return d3_hsl_rgb(ah + bh * t, as + bs * t, al + bl * t) + ""; }; } d3.interpolateLab = d3_interpolateLab; function d3_interpolateLab(a, b) { a = d3.lab(a); b = d3.lab(b); var al = a.l, aa = a.a, ab = a.b, bl = b.l - al, ba = b.a - aa, bb = b.b - ab; return function(t) { return d3_lab_rgb(al + bl * t, aa + ba * t, ab + bb * t) + ""; }; } d3.interpolateRound = d3_interpolateRound; function d3_interpolateRound(a, b) { b -= a; return function(t) { return Math.round(a + b * t); }; } d3.transform = function(string) { var g = d3_document.createElementNS(d3.ns.prefix.svg, "g"); return (d3.transform = function(string) { if (string != null) { g.setAttribute("transform", string); var t = g.transform.baseVal.consolidate(); } return new d3_transform(t ? t.matrix : d3_transformIdentity); })(string); }; function d3_transform(m) { var r0 = [ m.a, m.b ], r1 = [ m.c, m.d ], kx = d3_transformNormalize(r0), kz = d3_transformDot(r0, r1), ky = d3_transformNormalize(d3_transformCombine(r1, r0, -kz)) || 0; if (r0[0] * r1[1] < r1[0] * r0[1]) { r0[0] *= -1; r0[1] *= -1; kx *= -1; kz *= -1; } this.rotate = (kx ? Math.atan2(r0[1], r0[0]) : Math.atan2(-r1[0], r1[1])) * d3_degrees; this.translate = [ m.e, m.f ]; this.scale = [ kx, ky ]; this.skew = ky ? Math.atan2(kz, ky) * d3_degrees : 0; } d3_transform.prototype.toString = function() { return "translate(" + this.translate + ")rotate(" + this.rotate + ")skewX(" + this.skew + ")scale(" + this.scale + ")"; }; function d3_transformDot(a, b) { return a[0] * b[0] + a[1] * b[1]; } function d3_transformNormalize(a) { var k = Math.sqrt(d3_transformDot(a, a)); if (k) { a[0] /= k; a[1] /= k; } return k; } function d3_transformCombine(a, b, k) { a[0] += k * b[0]; a[1] += k * b[1]; return a; } var d3_transformIdentity = { a: 1, b: 0, c: 0, d: 1, e: 0, f: 0 }; d3.interpolateTransform = d3_interpolateTransform; function d3_interpolateTransformPop(s) { return s.length ? s.pop() + "," : ""; } function d3_interpolateTranslate(ta, tb, s, q) { if (ta[0] !== tb[0] || ta[1] !== tb[1]) { var i = s.push("translate(", null, ",", null, ")"); q.push({ i: i - 4, x: d3_interpolateNumber(ta[0], tb[0]) }, { i: i - 2, x: d3_interpolateNumber(ta[1], tb[1]) }); } else if (tb[0] || tb[1]) { s.push("translate(" + tb + ")"); } } function d3_interpolateRotate(ra, rb, s, q) { if (ra !== rb) { if (ra - rb > 180) rb += 360; else if (rb - ra > 180) ra += 360; q.push({ i: s.push(d3_interpolateTransformPop(s) + "rotate(", null, ")") - 2, x: d3_interpolateNumber(ra, rb) }); } else if (rb) { s.push(d3_interpolateTransformPop(s) + "rotate(" + rb + ")"); } } function d3_interpolateSkew(wa, wb, s, q) { if (wa !== wb) { q.push({ i: s.push(d3_interpolateTransformPop(s) + "skewX(", null, ")") - 2, x: d3_interpolateNumber(wa, wb) }); } else if (wb) { s.push(d3_interpolateTransformPop(s) + "skewX(" + wb + ")"); } } function d3_interpolateScale(ka, kb, s, q) { if (ka[0] !== kb[0] || ka[1] !== kb[1]) { var i = s.push(d3_interpolateTransformPop(s) + "scale(", null, ",", null, ")"); q.push({ i: i - 4, x: d3_interpolateNumber(ka[0], kb[0]) }, { i: i - 2, x: d3_interpolateNumber(ka[1], kb[1]) }); } else if (kb[0] !== 1 || kb[1] !== 1) { s.push(d3_interpolateTransformPop(s) + "scale(" + kb + ")"); } } function d3_interpolateTransform(a, b) { var s = [], q = []; a = d3.transform(a), b = d3.transform(b); d3_interpolateTranslate(a.translate, b.translate, s, q); d3_interpolateRotate(a.rotate, b.rotate, s, q); d3_interpolateSkew(a.skew, b.skew, s, q); d3_interpolateScale(a.scale, b.scale, s, q); a = b = null; return function(t) { var i = -1, n = q.length, o; while (++i < n) s[(o = q[i]).i] = o.x(t); return s.join(""); }; } function d3_uninterpolateNumber(a, b) { b = (b -= a = +a) || 1 / b; return function(x) { return (x - a) / b; }; } function d3_uninterpolateClamp(a, b) { b = (b -= a = +a) || 1 / b; return function(x) { return Math.max(0, Math.min(1, (x - a) / b)); }; } d3.layout = {}; d3.layout.bundle = function() { return function(links) { var paths = [], i = -1, n = links.length; while (++i < n) paths.push(d3_layout_bundlePath(links[i])); return paths; }; }; function d3_layout_bundlePath(link) { var start = link.source, end = link.target, lca = d3_layout_bundleLeastCommonAncestor(start, end), points = [ start ]; while (start !== lca) { start = start.parent; points.push(start); } var k = points.length; while (end !== lca) { points.splice(k, 0, end); end = end.parent; } return points; } function d3_layout_bundleAncestors(node) { var ancestors = [], parent = node.parent; while (parent != null) { ancestors.push(node); node = parent; parent = parent.parent; } ancestors.push(node); return ancestors; } function d3_layout_bundleLeastCommonAncestor(a, b) { if (a === b) return a; var aNodes = d3_layout_bundleAncestors(a), bNodes = d3_layout_bundleAncestors(b), aNode = aNodes.pop(), bNode = bNodes.pop(), sharedNode = null; while (aNode === bNode) { sharedNode = aNode; aNode = aNodes.pop(); bNode = bNodes.pop(); } return sharedNode; } d3.layout.chord = function() { var chord = {}, chords, groups, matrix, n, padding = 0, sortGroups, sortSubgroups, sortChords; function relayout() { var subgroups = {}, groupSums = [], groupIndex = d3.range(n), subgroupIndex = [], k, x, x0, i, j; chords = []; groups = []; k = 0, i = -1; while (++i < n) { x = 0, j = -1; while (++j < n) { x += matrix[i][j]; } groupSums.push(x); subgroupIndex.push(d3.range(n)); k += x; } if (sortGroups) { groupIndex.sort(function(a, b) { return sortGroups(groupSums[a], groupSums[b]); }); } if (sortSubgroups) { subgroupIndex.forEach(function(d, i) { d.sort(function(a, b) { return sortSubgroups(matrix[i][a], matrix[i][b]); }); }); } k = (τ - padding * n) / k; x = 0, i = -1; while (++i < n) { x0 = x, j = -1; while (++j < n) { var di = groupIndex[i], dj = subgroupIndex[di][j], v = matrix[di][dj], a0 = x, a1 = x += v * k; subgroups[di + "-" + dj] = { index: di, subindex: dj, startAngle: a0, endAngle: a1, value: v }; } groups[di] = { index: di, startAngle: x0, endAngle: x, value: groupSums[di] }; x += padding; } i = -1; while (++i < n) { j = i - 1; while (++j < n) { var source = subgroups[i + "-" + j], target = subgroups[j + "-" + i]; if (source.value || target.value) { chords.push(source.value < target.value ? { source: target, target: source } : { source: source, target: target }); } } } if (sortChords) resort(); } function resort() { chords.sort(function(a, b) { return sortChords((a.source.value + a.target.value) / 2, (b.source.value + b.target.value) / 2); }); } chord.matrix = function(x) { if (!arguments.length) return matrix; n = (matrix = x) && matrix.length; chords = groups = null; return chord; }; chord.padding = function(x) { if (!arguments.length) return padding; padding = x; chords = groups = null; return chord; }; chord.sortGroups = function(x) { if (!arguments.length) return sortGroups; sortGroups = x; chords = groups = null; return chord; }; chord.sortSubgroups = function(x) { if (!arguments.length) return sortSubgroups; sortSubgroups = x; chords = null; return chord; }; chord.sortChords = function(x) { if (!arguments.length) return sortChords; sortChords = x; if (chords) resort(); return chord; }; chord.chords = function() { if (!chords) relayout(); return chords; }; chord.groups = function() { if (!groups) relayout(); return groups; }; return chord; }; d3.layout.force = function() { var force = {}, event = d3.dispatch("start", "tick", "end"), timer, size = [ 1, 1 ], drag, alpha, friction = .9, linkDistance = d3_layout_forceLinkDistance, linkStrength = d3_layout_forceLinkStrength, charge = -30, chargeDistance2 = d3_layout_forceChargeDistance2, gravity = .1, theta2 = .64, nodes = [], links = [], distances, strengths, charges; function repulse(node) { return function(quad, x1, _, x2) { if (quad.point !== node) { var dx = quad.cx - node.x, dy = quad.cy - node.y, dw = x2 - x1, dn = dx * dx + dy * dy; if (dw * dw / theta2 < dn) { if (dn < chargeDistance2) { var k = quad.charge / dn; node.px -= dx * k; node.py -= dy * k; } return true; } if (quad.point && dn && dn < chargeDistance2) { var k = quad.pointCharge / dn; node.px -= dx * k; node.py -= dy * k; } } return !quad.charge; }; } force.tick = function() { if ((alpha *= .99) < .005) { timer = null; event.end({ type: "end", alpha: alpha = 0 }); return true; } var n = nodes.length, m = links.length, q, i, o, s, t, l, k, x, y; for (i = 0; i < m; ++i) { o = links[i]; s = o.source; t = o.target; x = t.x - s.x; y = t.y - s.y; if (l = x * x + y * y) { l = alpha * strengths[i] * ((l = Math.sqrt(l)) - distances[i]) / l; x *= l; y *= l; t.x -= x * (k = s.weight + t.weight ? s.weight / (s.weight + t.weight) : .5); t.y -= y * k; s.x += x * (k = 1 - k); s.y += y * k; } } if (k = alpha * gravity) { x = size[0] / 2; y = size[1] / 2; i = -1; if (k) while (++i < n) { o = nodes[i]; o.x += (x - o.x) * k; o.y += (y - o.y) * k; } } if (charge) { d3_layout_forceAccumulate(q = d3.geom.quadtree(nodes), alpha, charges); i = -1; while (++i < n) { if (!(o = nodes[i]).fixed) { q.visit(repulse(o)); } } } i = -1; while (++i < n) { o = nodes[i]; if (o.fixed) { o.x = o.px; o.y = o.py; } else { o.x -= (o.px - (o.px = o.x)) * friction; o.y -= (o.py - (o.py = o.y)) * friction; } } event.tick({ type: "tick", alpha: alpha }); }; force.nodes = function(x) { if (!arguments.length) return nodes; nodes = x; return force; }; force.links = function(x) { if (!arguments.length) return links; links = x; return force; }; force.size = function(x) { if (!arguments.length) return size; size = x; return force; }; force.linkDistance = function(x) { if (!arguments.length) return linkDistance; linkDistance = typeof x === "function" ? x : +x; return force; }; force.distance = force.linkDistance; force.linkStrength = function(x) { if (!arguments.length) return linkStrength; linkStrength = typeof x === "function" ? x : +x; return force; }; force.friction = function(x) { if (!arguments.length) return friction; friction = +x; return force; }; force.charge = function(x) { if (!arguments.length) return charge; charge = typeof x === "function" ? x : +x; return force; }; force.chargeDistance = function(x) { if (!arguments.length) return Math.sqrt(chargeDistance2); chargeDistance2 = x * x; return force; }; force.gravity = function(x) { if (!arguments.length) return gravity; gravity = +x; return force; }; force.theta = function(x) { if (!arguments.length) return Math.sqrt(theta2); theta2 = x * x; return force; }; force.alpha = function(x) { if (!arguments.length) return alpha; x = +x; if (alpha) { if (x > 0) { alpha = x; } else { timer.c = null, timer.t = NaN, timer = null; event.end({ type: "end", alpha: alpha = 0 }); } } else if (x > 0) { event.start({ type: "start", alpha: alpha = x }); timer = d3_timer(force.tick); } return force; }; force.start = function() { var i, n = nodes.length, m = links.length, w = size[0], h = size[1], neighbors, o; for (i = 0; i < n; ++i) { (o = nodes[i]).index = i; o.weight = 0; } for (i = 0; i < m; ++i) { o = links[i]; if (typeof o.source == "number") o.source = nodes[o.source]; if (typeof o.target == "number") o.target = nodes[o.target]; ++o.source.weight; ++o.target.weight; } for (i = 0; i < n; ++i) { o = nodes[i]; if (isNaN(o.x)) o.x = position("x", w); if (isNaN(o.y)) o.y = position("y", h); if (isNaN(o.px)) o.px = o.x; if (isNaN(o.py)) o.py = o.y; } distances = []; if (typeof linkDistance === "function") for (i = 0; i < m; ++i) distances[i] = +linkDistance.call(this, links[i], i); else for (i = 0; i < m; ++i) distances[i] = linkDistance; strengths = []; if (typeof linkStrength === "function") for (i = 0; i < m; ++i) strengths[i] = +linkStrength.call(this, links[i], i); else for (i = 0; i < m; ++i) strengths[i] = linkStrength; charges = []; if (typeof charge === "function") for (i = 0; i < n; ++i) charges[i] = +charge.call(this, nodes[i], i); else for (i = 0; i < n; ++i) charges[i] = charge; function position(dimension, size) { if (!neighbors) { neighbors = new Array(n); for (j = 0; j < n; ++j) { neighbors[j] = []; } for (j = 0; j < m; ++j) { var o = links[j]; neighbors[o.source.index].push(o.target); neighbors[o.target.index].push(o.source); } } var candidates = neighbors[i], j = -1, l = candidates.length, x; while (++j < l) if (!isNaN(x = candidates[j][dimension])) return x; return Math.random() * size; } return force.resume(); }; force.resume = function() { return force.alpha(.1); }; force.stop = function() { return force.alpha(0); }; force.drag = function() { if (!drag) drag = d3.behavior.drag().origin(d3_identity).on("dragstart.force", d3_layout_forceDragstart).on("drag.force", dragmove).on("dragend.force", d3_layout_forceDragend); if (!arguments.length) return drag; this.on("mouseover.force", d3_layout_forceMouseover).on("mouseout.force", d3_layout_forceMouseout).call(drag); }; function dragmove(d) { d.px = d3.event.x, d.py = d3.event.y; force.resume(); } return d3.rebind(force, event, "on"); }; function d3_layout_forceDragstart(d) { d.fixed |= 2; } function d3_layout_forceDragend(d) { d.fixed &= ~6; } function d3_layout_forceMouseover(d) { d.fixed |= 4; d.px = d.x, d.py = d.y; } function d3_layout_forceMouseout(d) { d.fixed &= ~4; } function d3_layout_forceAccumulate(quad, alpha, charges) { var cx = 0, cy = 0; quad.charge = 0; if (!quad.leaf) { var nodes = quad.nodes, n = nodes.length, i = -1, c; while (++i < n) { c = nodes[i]; if (c == null) continue; d3_layout_forceAccumulate(c, alpha, charges); quad.charge += c.charge; cx += c.charge * c.cx; cy += c.charge * c.cy; } } if (quad.point) { if (!quad.leaf) { quad.point.x += Math.random() - .5; quad.point.y += Math.random() - .5; } var k = alpha * charges[quad.point.index]; quad.charge += quad.pointCharge = k; cx += k * quad.point.x; cy += k * quad.point.y; } quad.cx = cx / quad.charge; quad.cy = cy / quad.charge; } var d3_layout_forceLinkDistance = 20, d3_layout_forceLinkStrength = 1, d3_layout_forceChargeDistance2 = Infinity; d3.layout.hierarchy = function() { var sort = d3_layout_hierarchySort, children = d3_layout_hierarchyChildren, value = d3_layout_hierarchyValue; function hierarchy(root) { var stack = [ root ], nodes = [], node; root.depth = 0; while ((node = stack.pop()) != null) { nodes.push(node); if ((childs = children.call(hierarchy, node, node.depth)) && (n = childs.length)) { var n, childs, child; while (--n >= 0) { stack.push(child = childs[n]); child.parent = node; child.depth = node.depth + 1; } if (value) node.value = 0; node.children = childs; } else { if (value) node.value = +value.call(hierarchy, node, node.depth) || 0; delete node.children; } } d3_layout_hierarchyVisitAfter(root, function(node) { var childs, parent; if (sort && (childs = node.children)) childs.sort(sort); if (value && (parent = node.parent)) parent.value += node.value; }); return nodes; } hierarchy.sort = function(x) { if (!arguments.length) return sort; sort = x; return hierarchy; }; hierarchy.children = function(x) { if (!arguments.length) return children; children = x; return hierarchy; }; hierarchy.value = function(x) { if (!arguments.length) return value; value = x; return hierarchy; }; hierarchy.revalue = function(root) { if (value) { d3_layout_hierarchyVisitBefore(root, function(node) { if (node.children) node.value = 0; }); d3_layout_hierarchyVisitAfter(root, function(node) { var parent; if (!node.children) node.value = +value.call(hierarchy, node, node.depth) || 0; if (parent = node.parent) parent.value += node.value; }); } return root; }; return hierarchy; }; function d3_layout_hierarchyRebind(object, hierarchy) { d3.rebind(object, hierarchy, "sort", "children", "value"); object.nodes = object; object.links = d3_layout_hierarchyLinks; return object; } function d3_layout_hierarchyVisitBefore(node, callback) { var nodes = [ node ]; while ((node = nodes.pop()) != null) { callback(node); if ((children = node.children) && (n = children.length)) { var n, children; while (--n >= 0) nodes.push(children[n]); } } } function d3_layout_hierarchyVisitAfter(node, callback) { var nodes = [ node ], nodes2 = []; while ((node = nodes.pop()) != null) { nodes2.push(node); if ((children = node.children) && (n = children.length)) { var i = -1, n, children; while (++i < n) nodes.push(children[i]); } } while ((node = nodes2.pop()) != null) { callback(node); } } function d3_layout_hierarchyChildren(d) { return d.children; } function d3_layout_hierarchyValue(d) { return d.value; } function d3_layout_hierarchySort(a, b) { return b.value - a.value; } function d3_layout_hierarchyLinks(nodes) { return d3.merge(nodes.map(function(parent) { return (parent.children || []).map(function(child) { return { source: parent, target: child }; }); })); } d3.layout.partition = function() { var hierarchy = d3.layout.hierarchy(), size = [ 1, 1 ]; function position(node, x, dx, dy) { var children = node.children; node.x = x; node.y = node.depth * dy; node.dx = dx; node.dy = dy; if (children && (n = children.length)) { var i = -1, n, c, d; dx = node.value ? dx / node.value : 0; while (++i < n) { position(c = children[i], x, d = c.value * dx, dy); x += d; } } } function depth(node) { var children = node.children, d = 0; if (children && (n = children.length)) { var i = -1, n; while (++i < n) d = Math.max(d, depth(children[i])); } return 1 + d; } function partition(d, i) { var nodes = hierarchy.call(this, d, i); position(nodes[0], 0, size[0], size[1] / depth(nodes[0])); return nodes; } partition.size = function(x) { if (!arguments.length) return size; size = x; return partition; }; return d3_layout_hierarchyRebind(partition, hierarchy); }; d3.layout.pie = function() { var value = Number, sort = d3_layout_pieSortByValue, startAngle = 0, endAngle = τ, padAngle = 0; function pie(data) { var n = data.length, values = data.map(function(d, i) { return +value.call(pie, d, i); }), a = +(typeof startAngle === "function" ? startAngle.apply(this, arguments) : startAngle), da = (typeof endAngle === "function" ? endAngle.apply(this, arguments) : endAngle) - a, p = Math.min(Math.abs(da) / n, +(typeof padAngle === "function" ? padAngle.apply(this, arguments) : padAngle)), pa = p * (da < 0 ? -1 : 1), sum = d3.sum(values), k = sum ? (da - n * pa) / sum : 0, index = d3.range(n), arcs = [], v; if (sort != null) index.sort(sort === d3_layout_pieSortByValue ? function(i, j) { return values[j] - values[i]; } : function(i, j) { return sort(data[i], data[j]); }); index.forEach(function(i) { arcs[i] = { data: data[i], value: v = values[i], startAngle: a, endAngle: a += v * k + pa, padAngle: p }; }); return arcs; } pie.value = function(_) { if (!arguments.length) return value; value = _; return pie; }; pie.sort = function(_) { if (!arguments.length) return sort; sort = _; return pie; }; pie.startAngle = function(_) { if (!arguments.length) return startAngle; startAngle = _; return pie; }; pie.endAngle = function(_) { if (!arguments.length) return endAngle; endAngle = _; return pie; }; pie.padAngle = function(_) { if (!arguments.length) return padAngle; padAngle = _; return pie; }; return pie; }; var d3_layout_pieSortByValue = {}; d3.layout.stack = function() { var values = d3_identity, order = d3_layout_stackOrderDefault, offset = d3_layout_stackOffsetZero, out = d3_layout_stackOut, x = d3_layout_stackX, y = d3_layout_stackY; function stack(data, index) { if (!(n = data.length)) return data; var series = data.map(function(d, i) { return values.call(stack, d, i); }); var points = series.map(function(d) { return d.map(function(v, i) { return [ x.call(stack, v, i), y.call(stack, v, i) ]; }); }); var orders = order.call(stack, points, index); series = d3.permute(series, orders); points = d3.permute(points, orders); var offsets = offset.call(stack, points, index); var m = series[0].length, n, i, j, o; for (j = 0; j < m; ++j) { out.call(stack, series[0][j], o = offsets[j], points[0][j][1]); for (i = 1; i < n; ++i) { out.call(stack, series[i][j], o += points[i - 1][j][1], points[i][j][1]); } } return data; } stack.values = function(x) { if (!arguments.length) return values; values = x; return stack; }; stack.order = function(x) { if (!arguments.length) return order; order = typeof x === "function" ? x : d3_layout_stackOrders.get(x) || d3_layout_stackOrderDefault; return stack; }; stack.offset = function(x) { if (!arguments.length) return offset; offset = typeof x === "function" ? x : d3_layout_stackOffsets.get(x) || d3_layout_stackOffsetZero; return stack; }; stack.x = function(z) { if (!arguments.length) return x; x = z; return stack; }; stack.y = function(z) { if (!arguments.length) return y; y = z; return stack; }; stack.out = function(z) { if (!arguments.length) return out; out = z; return stack; }; return stack; }; function d3_layout_stackX(d) { return d.x; } function d3_layout_stackY(d) { return d.y; } function d3_layout_stackOut(d, y0, y) { d.y0 = y0; d.y = y; } var d3_layout_stackOrders = d3.map({ "inside-out": function(data) { var n = data.length, i, j, max = data.map(d3_layout_stackMaxIndex), sums = data.map(d3_layout_stackReduceSum), index = d3.range(n).sort(function(a, b) { return max[a] - max[b]; }), top = 0, bottom = 0, tops = [], bottoms = []; for (i = 0; i < n; ++i) { j = index[i]; if (top < bottom) { top += sums[j]; tops.push(j); } else { bottom += sums[j]; bottoms.push(j); } } return bottoms.reverse().concat(tops); }, reverse: function(data) { return d3.range(data.length).reverse(); }, "default": d3_layout_stackOrderDefault }); var d3_layout_stackOffsets = d3.map({ silhouette: function(data) { var n = data.length, m = data[0].length, sums = [], max = 0, i, j, o, y0 = []; for (j = 0; j < m; ++j) { for (i = 0, o = 0; i < n; i++) o += data[i][j][1]; if (o > max) max = o; sums.push(o); } for (j = 0; j < m; ++j) { y0[j] = (max - sums[j]) / 2; } return y0; }, wiggle: function(data) { var n = data.length, x = data[0], m = x.length, i, j, k, s1, s2, s3, dx, o, o0, y0 = []; y0[0] = o = o0 = 0; for (j = 1; j < m; ++j) { for (i = 0, s1 = 0; i < n; ++i) s1 += data[i][j][1]; for (i = 0, s2 = 0, dx = x[j][0] - x[j - 1][0]; i < n; ++i) { for (k = 0, s3 = (data[i][j][1] - data[i][j - 1][1]) / (2 * dx); k < i; ++k) { s3 += (data[k][j][1] - data[k][j - 1][1]) / dx; } s2 += s3 * data[i][j][1]; } y0[j] = o -= s1 ? s2 / s1 * dx : 0; if (o < o0) o0 = o; } for (j = 0; j < m; ++j) y0[j] -= o0; return y0; }, expand: function(data) { var n = data.length, m = data[0].length, k = 1 / n, i, j, o, y0 = []; for (j = 0; j < m; ++j) { for (i = 0, o = 0; i < n; i++) o += data[i][j][1]; if (o) for (i = 0; i < n; i++) data[i][j][1] /= o; else for (i = 0; i < n; i++) data[i][j][1] = k; } for (j = 0; j < m; ++j) y0[j] = 0; return y0; }, zero: d3_layout_stackOffsetZero }); function d3_layout_stackOrderDefault(data) { return d3.range(data.length); } function d3_layout_stackOffsetZero(data) { var j = -1, m = data[0].length, y0 = []; while (++j < m) y0[j] = 0; return y0; } function d3_layout_stackMaxIndex(array) { var i = 1, j = 0, v = array[0][1], k, n = array.length; for (;i < n; ++i) { if ((k = array[i][1]) > v) { j = i; v = k; } } return j; } function d3_layout_stackReduceSum(d) { return d.reduce(d3_layout_stackSum, 0); } function d3_layout_stackSum(p, d) { return p + d[1]; } d3.layout.histogram = function() { var frequency = true, valuer = Number, ranger = d3_layout_histogramRange, binner = d3_layout_histogramBinSturges; function histogram(data, i) { var bins = [], values = data.map(valuer, this), range = ranger.call(this, values, i), thresholds = binner.call(this, range, values, i), bin, i = -1, n = values.length, m = thresholds.length - 1, k = frequency ? 1 : 1 / n, x; while (++i < m) { bin = bins[i] = []; bin.dx = thresholds[i + 1] - (bin.x = thresholds[i]); bin.y = 0; } if (m > 0) { i = -1; while (++i < n) { x = values[i]; if (x >= range[0] && x <= range[1]) { bin = bins[d3.bisect(thresholds, x, 1, m) - 1]; bin.y += k; bin.push(data[i]); } } } return bins; } histogram.value = function(x) { if (!arguments.length) return valuer; valuer = x; return histogram; }; histogram.range = function(x) { if (!arguments.length) return ranger; ranger = d3_functor(x); return histogram; }; histogram.bins = function(x) { if (!arguments.length) return binner; binner = typeof x === "number" ? function(range) { return d3_layout_histogramBinFixed(range, x); } : d3_functor(x); return histogram; }; histogram.frequency = function(x) { if (!arguments.length) return frequency; frequency = !!x; return histogram; }; return histogram; }; function d3_layout_histogramBinSturges(range, values) { return d3_layout_histogramBinFixed(range, Math.ceil(Math.log(values.length) / Math.LN2 + 1)); } function d3_layout_histogramBinFixed(range, n) { var x = -1, b = +range[0], m = (range[1] - b) / n, f = []; while (++x <= n) f[x] = m * x + b; return f; } function d3_layout_histogramRange(values) { return [ d3.min(values), d3.max(values) ]; } d3.layout.pack = function() { var hierarchy = d3.layout.hierarchy().sort(d3_layout_packSort), padding = 0, size = [ 1, 1 ], radius; function pack(d, i) { var nodes = hierarchy.call(this, d, i), root = nodes[0], w = size[0], h = size[1], r = radius == null ? Math.sqrt : typeof radius === "function" ? radius : function() { return radius; }; root.x = root.y = 0; d3_layout_hierarchyVisitAfter(root, function(d) { d.r = +r(d.value); }); d3_layout_hierarchyVisitAfter(root, d3_layout_packSiblings); if (padding) { var dr = padding * (radius ? 1 : Math.max(2 * root.r / w, 2 * root.r / h)) / 2; d3_layout_hierarchyVisitAfter(root, function(d) { d.r += dr; }); d3_layout_hierarchyVisitAfter(root, d3_layout_packSiblings); d3_layout_hierarchyVisitAfter(root, function(d) { d.r -= dr; }); } d3_layout_packTransform(root, w / 2, h / 2, radius ? 1 : 1 / Math.max(2 * root.r / w, 2 * root.r / h)); return nodes; } pack.size = function(_) { if (!arguments.length) return size; size = _; return pack; }; pack.radius = function(_) { if (!arguments.length) return radius; radius = _ == null || typeof _ === "function" ? _ : +_; return pack; }; pack.padding = function(_) { if (!arguments.length) return padding; padding = +_; return pack; }; return d3_layout_hierarchyRebind(pack, hierarchy); }; function d3_layout_packSort(a, b) { return a.value - b.value; } function d3_layout_packInsert(a, b) { var c = a._pack_next; a._pack_next = b; b._pack_prev = a; b._pack_next = c; c._pack_prev = b; } function d3_layout_packSplice(a, b) { a._pack_next = b; b._pack_prev = a; } function d3_layout_packIntersects(a, b) { var dx = b.x - a.x, dy = b.y - a.y, dr = a.r + b.r; return .999 * dr * dr > dx * dx + dy * dy; } function d3_layout_packSiblings(node) { if (!(nodes = node.children) || !(n = nodes.length)) return; var nodes, xMin = Infinity, xMax = -Infinity, yMin = Infinity, yMax = -Infinity, a, b, c, i, j, k, n; function bound(node) { xMin = Math.min(node.x - node.r, xMin); xMax = Math.max(node.x + node.r, xMax); yMin = Math.min(node.y - node.r, yMin); yMax = Math.max(node.y + node.r, yMax); } nodes.forEach(d3_layout_packLink); a = nodes[0]; a.x = -a.r; a.y = 0; bound(a); if (n > 1) { b = nodes[1]; b.x = b.r; b.y = 0; bound(b); if (n > 2) { c = nodes[2]; d3_layout_packPlace(a, b, c); bound(c); d3_layout_packInsert(a, c); a._pack_prev = c; d3_layout_packInsert(c, b); b = a._pack_next; for (i = 3; i < n; i++) { d3_layout_packPlace(a, b, c = nodes[i]); var isect = 0, s1 = 1, s2 = 1; for (j = b._pack_next; j !== b; j = j._pack_next, s1++) { if (d3_layout_packIntersects(j, c)) { isect = 1; break; } } if (isect == 1) { for (k = a._pack_prev; k !== j._pack_prev; k = k._pack_prev, s2++) { if (d3_layout_packIntersects(k, c)) { break; } } } if (isect) { if (s1 < s2 || s1 == s2 && b.r < a.r) d3_layout_packSplice(a, b = j); else d3_layout_packSplice(a = k, b); i--; } else { d3_layout_packInsert(a, c); b = c; bound(c); } } } } var cx = (xMin + xMax) / 2, cy = (yMin + yMax) / 2, cr = 0; for (i = 0; i < n; i++) { c = nodes[i]; c.x -= cx; c.y -= cy; cr = Math.max(cr, c.r + Math.sqrt(c.x * c.x + c.y * c.y)); } node.r = cr; nodes.forEach(d3_layout_packUnlink); } function d3_layout_packLink(node) { node._pack_next = node._pack_prev = node; } function d3_layout_packUnlink(node) { delete node._pack_next; delete node._pack_prev; } function d3_layout_packTransform(node, x, y, k) { var children = node.children; node.x = x += k * node.x; node.y = y += k * node.y; node.r *= k; if (children) { var i = -1, n = children.length; while (++i < n) d3_layout_packTransform(children[i], x, y, k); } } function d3_layout_packPlace(a, b, c) { var db = a.r + c.r, dx = b.x - a.x, dy = b.y - a.y; if (db && (dx || dy)) { var da = b.r + c.r, dc = dx * dx + dy * dy; da *= da; db *= db; var x = .5 + (db - da) / (2 * dc), y = Math.sqrt(Math.max(0, 2 * da * (db + dc) - (db -= dc) * db - da * da)) / (2 * dc); c.x = a.x + x * dx + y * dy; c.y = a.y + x * dy - y * dx; } else { c.x = a.x + db; c.y = a.y; } } d3.layout.tree = function() { var hierarchy = d3.layout.hierarchy().sort(null).value(null), separation = d3_layout_treeSeparation, size = [ 1, 1 ], nodeSize = null; function tree(d, i) { var nodes = hierarchy.call(this, d, i), root0 = nodes[0], root1 = wrapTree(root0); d3_layout_hierarchyVisitAfter(root1, firstWalk), root1.parent.m = -root1.z; d3_layout_hierarchyVisitBefore(root1, secondWalk); if (nodeSize) d3_layout_hierarchyVisitBefore(root0, sizeNode); else { var left = root0, right = root0, bottom = root0; d3_layout_hierarchyVisitBefore(root0, function(node) { if (node.x < left.x) left = node; if (node.x > right.x) right = node; if (node.depth > bottom.depth) bottom = node; }); var tx = separation(left, right) / 2 - left.x, kx = size[0] / (right.x + separation(right, left) / 2 + tx), ky = size[1] / (bottom.depth || 1); d3_layout_hierarchyVisitBefore(root0, function(node) { node.x = (node.x + tx) * kx; node.y = node.depth * ky; }); } return nodes; } function wrapTree(root0) { var root1 = { A: null, children: [ root0 ] }, queue = [ root1 ], node1; while ((node1 = queue.pop()) != null) { for (var children = node1.children, child, i = 0, n = children.length; i < n; ++i) { queue.push((children[i] = child = { _: children[i], parent: node1, children: (child = children[i].children) && child.slice() || [], A: null, a: null, z: 0, m: 0, c: 0, s: 0, t: null, i: i }).a = child); } } return root1.children[0]; } function firstWalk(v) { var children = v.children, siblings = v.parent.children, w = v.i ? siblings[v.i - 1] : null; if (children.length) { d3_layout_treeShift(v); var midpoint = (children[0].z + children[children.length - 1].z) / 2; if (w) { v.z = w.z + separation(v._, w._); v.m = v.z - midpoint; } else { v.z = midpoint; } } else if (w) { v.z = w.z + separation(v._, w._); } v.parent.A = apportion(v, w, v.parent.A || siblings[0]); } function secondWalk(v) { v._.x = v.z + v.parent.m; v.m += v.parent.m; } function apportion(v, w, ancestor) { if (w) { var vip = v, vop = v, vim = w, vom = vip.parent.children[0], sip = vip.m, sop = vop.m, sim = vim.m, som = vom.m, shift; while (vim = d3_layout_treeRight(vim), vip = d3_layout_treeLeft(vip), vim && vip) { vom = d3_layout_treeLeft(vom); vop = d3_layout_treeRight(vop); vop.a = v; shift = vim.z + sim - vip.z - sip + separation(vim._, vip._); if (shift > 0) { d3_layout_treeMove(d3_layout_treeAncestor(vim, v, ancestor), v, shift); sip += shift; sop += shift; } sim += vim.m; sip += vip.m; som += vom.m; sop += vop.m; } if (vim && !d3_layout_treeRight(vop)) { vop.t = vim; vop.m += sim - sop; } if (vip && !d3_layout_treeLeft(vom)) { vom.t = vip; vom.m += sip - som; ancestor = v; } } return ancestor; } function sizeNode(node) { node.x *= size[0]; node.y = node.depth * size[1]; } tree.separation = function(x) { if (!arguments.length) return separation; separation = x; return tree; }; tree.size = function(x) { if (!arguments.length) return nodeSize ? null : size; nodeSize = (size = x) == null ? sizeNode : null; return tree; }; tree.nodeSize = function(x) { if (!arguments.length) return nodeSize ? size : null; nodeSize = (size = x) == null ? null : sizeNode; return tree; }; return d3_layout_hierarchyRebind(tree, hierarchy); }; function d3_layout_treeSeparation(a, b) { return a.parent == b.parent ? 1 : 2; } function d3_layout_treeLeft(v) { var children = v.children; return children.length ? children[0] : v.t; } function d3_layout_treeRight(v) { var children = v.children, n; return (n = children.length) ? children[n - 1] : v.t; } function d3_layout_treeMove(wm, wp, shift) { var change = shift / (wp.i - wm.i); wp.c -= change; wp.s += shift; wm.c += change; wp.z += shift; wp.m += shift; } function d3_layout_treeShift(v) { var shift = 0, change = 0, children = v.children, i = children.length, w; while (--i >= 0) { w = children[i]; w.z += shift; w.m += shift; shift += w.s + (change += w.c); } } function d3_layout_treeAncestor(vim, v, ancestor) { return vim.a.parent === v.parent ? vim.a : ancestor; } d3.layout.cluster = function() { var hierarchy = d3.layout.hierarchy().sort(null).value(null), separation = d3_layout_treeSeparation, size = [ 1, 1 ], nodeSize = false; function cluster(d, i) { var nodes = hierarchy.call(this, d, i), root = nodes[0], previousNode, x = 0; d3_layout_hierarchyVisitAfter(root, function(node) { var children = node.children; if (children && children.length) { node.x = d3_layout_clusterX(children); node.y = d3_layout_clusterY(children); } else { node.x = previousNode ? x += separation(node, previousNode) : 0; node.y = 0; previousNode = node; } }); var left = d3_layout_clusterLeft(root), right = d3_layout_clusterRight(root), x0 = left.x - separation(left, right) / 2, x1 = right.x + separation(right, left) / 2; d3_layout_hierarchyVisitAfter(root, nodeSize ? function(node) { node.x = (node.x - root.x) * size[0]; node.y = (root.y - node.y) * size[1]; } : function(node) { node.x = (node.x - x0) / (x1 - x0) * size[0]; node.y = (1 - (root.y ? node.y / root.y : 1)) * size[1]; }); return nodes; } cluster.separation = function(x) { if (!arguments.length) return separation; separation = x; return cluster; }; cluster.size = function(x) { if (!arguments.length) return nodeSize ? null : size; nodeSize = (size = x) == null; return cluster; }; cluster.nodeSize = function(x) { if (!arguments.length) return nodeSize ? size : null; nodeSize = (size = x) != null; return cluster; }; return d3_layout_hierarchyRebind(cluster, hierarchy); }; function d3_layout_clusterY(children) { return 1 + d3.max(children, function(child) { return child.y; }); } function d3_layout_clusterX(children) { return children.reduce(function(x, child) { return x + child.x; }, 0) / children.length; } function d3_layout_clusterLeft(node) { var children = node.children; return children && children.length ? d3_layout_clusterLeft(children[0]) : node; } function d3_layout_clusterRight(node) { var children = node.children, n; return children && (n = children.length) ? d3_layout_clusterRight(children[n - 1]) : node; } d3.layout.treemap = function() { var hierarchy = d3.layout.hierarchy(), round = Math.round, size = [ 1, 1 ], padding = null, pad = d3_layout_treemapPadNull, sticky = false, stickies, mode = "squarify", ratio = .5 * (1 + Math.sqrt(5)); function scale(children, k) { var i = -1, n = children.length, child, area; while (++i < n) { area = (child = children[i]).value * (k < 0 ? 0 : k); child.area = isNaN(area) || area <= 0 ? 0 : area; } } function squarify(node) { var children = node.children; if (children && children.length) { var rect = pad(node), row = [], remaining = children.slice(), child, best = Infinity, score, u = mode === "slice" ? rect.dx : mode === "dice" ? rect.dy : mode === "slice-dice" ? node.depth & 1 ? rect.dy : rect.dx : Math.min(rect.dx, rect.dy), n; scale(remaining, rect.dx * rect.dy / node.value); row.area = 0; while ((n = remaining.length) > 0) { row.push(child = remaining[n - 1]); row.area += child.area; if (mode !== "squarify" || (score = worst(row, u)) <= best) { remaining.pop(); best = score; } else { row.area -= row.pop().area; position(row, u, rect, false); u = Math.min(rect.dx, rect.dy); row.length = row.area = 0; best = Infinity; } } if (row.length) { position(row, u, rect, true); row.length = row.area = 0; } children.forEach(squarify); } } function stickify(node) { var children = node.children; if (children && children.length) { var rect = pad(node), remaining = children.slice(), child, row = []; scale(remaining, rect.dx * rect.dy / node.value); row.area = 0; while (child = remaining.pop()) { row.push(child); row.area += child.area; if (child.z != null) { position(row, child.z ? rect.dx : rect.dy, rect, !remaining.length); row.length = row.area = 0; } } children.forEach(stickify); } } function worst(row, u) { var s = row.area, r, rmax = 0, rmin = Infinity, i = -1, n = row.length; while (++i < n) { if (!(r = row[i].area)) continue; if (r < rmin) rmin = r; if (r > rmax) rmax = r; } s *= s; u *= u; return s ? Math.max(u * rmax * ratio / s, s / (u * rmin * ratio)) : Infinity; } function position(row, u, rect, flush) { var i = -1, n = row.length, x = rect.x, y = rect.y, v = u ? round(row.area / u) : 0, o; if (u == rect.dx) { if (flush || v > rect.dy) v = rect.dy; while (++i < n) { o = row[i]; o.x = x; o.y = y; o.dy = v; x += o.dx = Math.min(rect.x + rect.dx - x, v ? round(o.area / v) : 0); } o.z = true; o.dx += rect.x + rect.dx - x; rect.y += v; rect.dy -= v; } else { if (flush || v > rect.dx) v = rect.dx; while (++i < n) { o = row[i]; o.x = x; o.y = y; o.dx = v; y += o.dy = Math.min(rect.y + rect.dy - y, v ? round(o.area / v) : 0); } o.z = false; o.dy += rect.y + rect.dy - y; rect.x += v; rect.dx -= v; } } function treemap(d) { var nodes = stickies || hierarchy(d), root = nodes[0]; root.x = root.y = 0; if (root.value) root.dx = size[0], root.dy = size[1]; else root.dx = root.dy = 0; if (stickies) hierarchy.revalue(root); scale([ root ], root.dx * root.dy / root.value); (stickies ? stickify : squarify)(root); if (sticky) stickies = nodes; return nodes; } treemap.size = function(x) { if (!arguments.length) return size; size = x; return treemap; }; treemap.padding = function(x) { if (!arguments.length) return padding; function padFunction(node) { var p = x.call(treemap, node, node.depth); return p == null ? d3_layout_treemapPadNull(node) : d3_layout_treemapPad(node, typeof p === "number" ? [ p, p, p, p ] : p); } function padConstant(node) { return d3_layout_treemapPad(node, x); } var type; pad = (padding = x) == null ? d3_layout_treemapPadNull : (type = typeof x) === "function" ? padFunction : type === "number" ? (x = [ x, x, x, x ], padConstant) : padConstant; return treemap; }; treemap.round = function(x) { if (!arguments.length) return round != Number; round = x ? Math.round : Number; return treemap; }; treemap.sticky = function(x) { if (!arguments.length) return sticky; sticky = x; stickies = null; return treemap; }; treemap.ratio = function(x) { if (!arguments.length) return ratio; ratio = x; return treemap; }; treemap.mode = function(x) { if (!arguments.length) return mode; mode = x + ""; return treemap; }; return d3_layout_hierarchyRebind(treemap, hierarchy); }; function d3_layout_treemapPadNull(node) { return { x: node.x, y: node.y, dx: node.dx, dy: node.dy }; } function d3_layout_treemapPad(node, padding) { var x = node.x + padding[3], y = node.y + padding[0], dx = node.dx - padding[1] - padding[3], dy = node.dy - padding[0] - padding[2]; if (dx < 0) { x += dx / 2; dx = 0; } if (dy < 0) { y += dy / 2; dy = 0; } return { x: x, y: y, dx: dx, dy: dy }; } d3.random = { normal: function(µ, σ) { var n = arguments.length; if (n < 2) σ = 1; if (n < 1) µ = 0; return function() { var x, y, r; do { x = Math.random() * 2 - 1; y = Math.random() * 2 - 1; r = x * x + y * y; } while (!r || r > 1); return µ + σ * x * Math.sqrt(-2 * Math.log(r) / r); }; }, logNormal: function() { var random = d3.random.normal.apply(d3, arguments); return function() { return Math.exp(random()); }; }, bates: function(m) { var random = d3.random.irwinHall(m); return function() { return random() / m; }; }, irwinHall: function(m) { return function() { for (var s = 0, j = 0; j < m; j++) s += Math.random(); return s; }; } }; d3.scale = {}; function d3_scaleExtent(domain) { var start = domain[0], stop = domain[domain.length - 1]; return start < stop ? [ start, stop ] : [ stop, start ]; } function d3_scaleRange(scale) { return scale.rangeExtent ? scale.rangeExtent() : d3_scaleExtent(scale.range()); } function d3_scale_bilinear(domain, range, uninterpolate, interpolate) { var u = uninterpolate(domain[0], domain[1]), i = interpolate(range[0], range[1]); return function(x) { return i(u(x)); }; } function d3_scale_nice(domain, nice) { var i0 = 0, i1 = domain.length - 1, x0 = domain[i0], x1 = domain[i1], dx; if (x1 < x0) { dx = i0, i0 = i1, i1 = dx; dx = x0, x0 = x1, x1 = dx; } domain[i0] = nice.floor(x0); domain[i1] = nice.ceil(x1); return domain; } function d3_scale_niceStep(step) { return step ? { floor: function(x) { return Math.floor(x / step) * step; }, ceil: function(x) { return Math.ceil(x / step) * step; } } : d3_scale_niceIdentity; } var d3_scale_niceIdentity = { floor: d3_identity, ceil: d3_identity }; function d3_scale_polylinear(domain, range, uninterpolate, interpolate) { var u = [], i = [], j = 0, k = Math.min(domain.length, range.length) - 1; if (domain[k] < domain[0]) { domain = domain.slice().reverse(); range = range.slice().reverse(); } while (++j <= k) { u.push(uninterpolate(domain[j - 1], domain[j])); i.push(interpolate(range[j - 1], range[j])); } return function(x) { var j = d3.bisect(domain, x, 1, k) - 1; return i[j](u[j](x)); }; } d3.scale.linear = function() { return d3_scale_linear([ 0, 1 ], [ 0, 1 ], d3_interpolate, false); }; function d3_scale_linear(domain, range, interpolate, clamp) { var output, input; function rescale() { var linear = Math.min(domain.length, range.length) > 2 ? d3_scale_polylinear : d3_scale_bilinear, uninterpolate = clamp ? d3_uninterpolateClamp : d3_uninterpolateNumber; output = linear(domain, range, uninterpolate, interpolate); input = linear(range, domain, uninterpolate, d3_interpolate); return scale; } function scale(x) { return output(x); } scale.invert = function(y) { return input(y); }; scale.domain = function(x) { if (!arguments.length) return domain; domain = x.map(Number); return rescale(); }; scale.range = function(x) { if (!arguments.length) return range; range = x; return rescale(); }; scale.rangeRound = function(x) { return scale.range(x).interpolate(d3_interpolateRound); }; scale.clamp = function(x) { if (!arguments.length) return clamp; clamp = x; return rescale(); }; scale.interpolate = function(x) { if (!arguments.length) return interpolate; interpolate = x; return rescale(); }; scale.ticks = function(m) { return d3_scale_linearTicks(domain, m); }; scale.tickFormat = function(m, format) { return d3_scale_linearTickFormat(domain, m, format); }; scale.nice = function(m) { d3_scale_linearNice(domain, m); return rescale(); }; scale.copy = function() { return d3_scale_linear(domain, range, interpolate, clamp); }; return rescale(); } function d3_scale_linearRebind(scale, linear) { return d3.rebind(scale, linear, "range", "rangeRound", "interpolate", "clamp"); } function d3_scale_linearNice(domain, m) { d3_scale_nice(domain, d3_scale_niceStep(d3_scale_linearTickRange(domain, m)[2])); d3_scale_nice(domain, d3_scale_niceStep(d3_scale_linearTickRange(domain, m)[2])); return domain; } function d3_scale_linearTickRange(domain, m) { if (m == null) m = 10; var extent = d3_scaleExtent(domain), span = extent[1] - extent[0], step = Math.pow(10, Math.floor(Math.log(span / m) / Math.LN10)), err = m / span * step; if (err <= .15) step *= 10; else if (err <= .35) step *= 5; else if (err <= .75) step *= 2; extent[0] = Math.ceil(extent[0] / step) * step; extent[1] = Math.floor(extent[1] / step) * step + step * .5; extent[2] = step; return extent; } function d3_scale_linearTicks(domain, m) { return d3.range.apply(d3, d3_scale_linearTickRange(domain, m)); } var d3_scale_linearFormatSignificant = { s: 1, g: 1, p: 1, r: 1, e: 1 }; function d3_scale_linearPrecision(value) { return -Math.floor(Math.log(value) / Math.LN10 + .01); } function d3_scale_linearFormatPrecision(type, range) { var p = d3_scale_linearPrecision(range[2]); return type in d3_scale_linearFormatSignificant ? Math.abs(p - d3_scale_linearPrecision(Math.max(abs(range[0]), abs(range[1])))) + +(type !== "e") : p - (type === "%") * 2; } d3.scale.log = function() { return d3_scale_log(d3.scale.linear().domain([ 0, 1 ]), 10, true, [ 1, 10 ]); }; function d3_scale_log(linear, base, positive, domain) { function log(x) { return (positive ? Math.log(x < 0 ? 0 : x) : -Math.log(x > 0 ? 0 : -x)) / Math.log(base); } function pow(x) { return positive ? Math.pow(base, x) : -Math.pow(base, -x); } function scale(x) { return linear(log(x)); } scale.invert = function(x) { return pow(linear.invert(x)); }; scale.domain = function(x) { if (!arguments.length) return domain; positive = x[0] >= 0; linear.domain((domain = x.map(Number)).map(log)); return scale; }; scale.base = function(_) { if (!arguments.length) return base; base = +_; linear.domain(domain.map(log)); return scale; }; scale.nice = function() { var niced = d3_scale_nice(domain.map(log), positive ? Math : d3_scale_logNiceNegative); linear.domain(niced); domain = niced.map(pow); return scale; }; scale.ticks = function() { var extent = d3_scaleExtent(domain), ticks = [], u = extent[0], v = extent[1], i = Math.floor(log(u)), j = Math.ceil(log(v)), n = base % 1 ? 2 : base; if (isFinite(j - i)) { if (positive) { for (;i < j; i++) for (var k = 1; k < n; k++) ticks.push(pow(i) * k); ticks.push(pow(i)); } else { ticks.push(pow(i)); for (;i++ < j; ) for (var k = n - 1; k > 0; k--) ticks.push(pow(i) * k); } for (i = 0; ticks[i] < u; i++) {} for (j = ticks.length; ticks[j - 1] > v; j--) {} ticks = ticks.slice(i, j); } return ticks; }; scale.copy = function() { return d3_scale_log(linear.copy(), base, positive, domain); }; return d3_scale_linearRebind(scale, linear); } var d3_scale_logNiceNegative = { floor: function(x) { return -Math.ceil(-x); }, ceil: function(x) { return -Math.floor(-x); } }; d3.scale.pow = function() { return d3_scale_pow(d3.scale.linear(), 1, [ 0, 1 ]); }; function d3_scale_pow(linear, exponent, domain) { var powp = d3_scale_powPow(exponent), powb = d3_scale_powPow(1 / exponent); function scale(x) { return linear(powp(x)); } scale.invert = function(x) { return powb(linear.invert(x)); }; scale.domain = function(x) { if (!arguments.length) return domain; linear.domain((domain = x.map(Number)).map(powp)); return scale; }; scale.ticks = function(m) { return d3_scale_linearTicks(domain, m); }; scale.tickFormat = function(m, format) { return d3_scale_linearTickFormat(domain, m, format); }; scale.nice = function(m) { return scale.domain(d3_scale_linearNice(domain, m)); }; scale.exponent = function(x) { if (!arguments.length) return exponent; powp = d3_scale_powPow(exponent = x); powb = d3_scale_powPow(1 / exponent); linear.domain(domain.map(powp)); return scale; }; scale.copy = function() { return d3_scale_pow(linear.copy(), exponent, domain); }; return d3_scale_linearRebind(scale, linear); } function d3_scale_powPow(e) { return function(x) { return x < 0 ? -Math.pow(-x, e) : Math.pow(x, e); }; } d3.scale.sqrt = function() { return d3.scale.pow().exponent(.5); }; d3.scale.ordinal = function() { return d3_scale_ordinal([], { t: "range", a: [ [] ] }); }; function d3_scale_ordinal(domain, ranger) { var index, range, rangeBand; function scale(x) { return range[((index.get(x) || (ranger.t === "range" ? index.set(x, domain.push(x)) : NaN)) - 1) % range.length]; } function steps(start, step) { return d3.range(domain.length).map(function(i) { return start + step * i; }); } scale.domain = function(x) { if (!arguments.length) return domain; domain = []; index = new d3_Map(); var i = -1, n = x.length, xi; while (++i < n) if (!index.has(xi = x[i])) index.set(xi, domain.push(xi)); return scale[ranger.t].apply(scale, ranger.a); }; scale.range = function(x) { if (!arguments.length) return range; range = x; rangeBand = 0; ranger = { t: "range", a: arguments }; return scale; }; scale.rangePoints = function(x, padding) { if (arguments.length < 2) padding = 0; var start = x[0], stop = x[1], step = domain.length < 2 ? (start = (start + stop) / 2, 0) : (stop - start) / (domain.length - 1 + padding); range = steps(start + step * padding / 2, step); rangeBand = 0; ranger = { t: "rangePoints", a: arguments }; return scale; }; scale.rangeRoundPoints = function(x, padding) { if (arguments.length < 2) padding = 0; var start = x[0], stop = x[1], step = domain.length < 2 ? (start = stop = Math.round((start + stop) / 2), 0) : (stop - start) / (domain.length - 1 + padding) | 0; range = steps(start + Math.round(step * padding / 2 + (stop - start - (domain.length - 1 + padding) * step) / 2), step); rangeBand = 0; ranger = { t: "rangeRoundPoints", a: arguments }; return scale; }; scale.rangeBands = function(x, padding, outerPadding) { if (arguments.length < 2) padding = 0; if (arguments.length < 3) outerPadding = padding; var reverse = x[1] < x[0], start = x[reverse - 0], stop = x[1 - reverse], step = (stop - start) / (domain.length - padding + 2 * outerPadding); range = steps(start + step * outerPadding, step); if (reverse) range.reverse(); rangeBand = step * (1 - padding); ranger = { t: "rangeBands", a: arguments }; return scale; }; scale.rangeRoundBands = function(x, padding, outerPadding) { if (arguments.length < 2) padding = 0; if (arguments.length < 3) outerPadding = padding; var reverse = x[1] < x[0], start = x[reverse - 0], stop = x[1 - reverse], step = Math.floor((stop - start) / (domain.length - padding + 2 * outerPadding)); range = steps(start + Math.round((stop - start - (domain.length - padding) * step) / 2), step); if (reverse) range.reverse(); rangeBand = Math.round(step * (1 - padding)); ranger = { t: "rangeRoundBands", a: arguments }; return scale; }; scale.rangeBand = function() { return rangeBand; }; scale.rangeExtent = function() { return d3_scaleExtent(ranger.a[0]); }; scale.copy = function() { return d3_scale_ordinal(domain, ranger); }; return scale.domain(domain); } d3.scale.category10 = function() { return d3.scale.ordinal().range(d3_category10); }; d3.scale.category20 = function() { return d3.scale.ordinal().range(d3_category20); }; d3.scale.category20b = function() { return d3.scale.ordinal().range(d3_category20b); }; d3.scale.category20c = function() { return d3.scale.ordinal().range(d3_category20c); }; var d3_category10 = [ 2062260, 16744206, 2924588, 14034728, 9725885, 9197131, 14907330, 8355711, 12369186, 1556175 ].map(d3_rgbString); var d3_category20 = [ 2062260, 11454440, 16744206, 16759672, 2924588, 10018698, 14034728, 16750742, 9725885, 12955861, 9197131, 12885140, 14907330, 16234194, 8355711, 13092807, 12369186, 14408589, 1556175, 10410725 ].map(d3_rgbString); var d3_category20b = [ 3750777, 5395619, 7040719, 10264286, 6519097, 9216594, 11915115, 13556636, 9202993, 12426809, 15186514, 15190932, 8666169, 11356490, 14049643, 15177372, 8077683, 10834324, 13528509, 14589654 ].map(d3_rgbString); var d3_category20c = [ 3244733, 7057110, 10406625, 13032431, 15095053, 16616764, 16625259, 16634018, 3253076, 7652470, 10607003, 13101504, 7695281, 10394312, 12369372, 14342891, 6513507, 9868950, 12434877, 14277081 ].map(d3_rgbString); d3.scale.quantile = function() { return d3_scale_quantile([], []); }; function d3_scale_quantile(domain, range) { var thresholds; function rescale() { var k = 0, q = range.length; thresholds = []; while (++k < q) thresholds[k - 1] = d3.quantile(domain, k / q); return scale; } function scale(x) { if (!isNaN(x = +x)) return range[d3.bisect(thresholds, x)]; } scale.domain = function(x) { if (!arguments.length) return domain; domain = x.map(d3_number).filter(d3_numeric).sort(d3_ascending); return rescale(); }; scale.range = function(x) { if (!arguments.length) return range; range = x; return rescale(); }; scale.quantiles = function() { return thresholds; }; scale.invertExtent = function(y) { y = range.indexOf(y); return y < 0 ? [ NaN, NaN ] : [ y > 0 ? thresholds[y - 1] : domain[0], y < thresholds.length ? thresholds[y] : domain[domain.length - 1] ]; }; scale.copy = function() { return d3_scale_quantile(domain, range); }; return rescale(); } d3.scale.quantize = function() { return d3_scale_quantize(0, 1, [ 0, 1 ]); }; function d3_scale_quantize(x0, x1, range) { var kx, i; function scale(x) { return range[Math.max(0, Math.min(i, Math.floor(kx * (x - x0))))]; } function rescale() { kx = range.length / (x1 - x0); i = range.length - 1; return scale; } scale.domain = function(x) { if (!arguments.length) return [ x0, x1 ]; x0 = +x[0]; x1 = +x[x.length - 1]; return rescale(); }; scale.range = function(x) { if (!arguments.length) return range; range = x; return rescale(); }; scale.invertExtent = function(y) { y = range.indexOf(y); y = y < 0 ? NaN : y / kx + x0; return [ y, y + 1 / kx ]; }; scale.copy = function() { return d3_scale_quantize(x0, x1, range); }; return rescale(); } d3.scale.threshold = function() { return d3_scale_threshold([ .5 ], [ 0, 1 ]); }; function d3_scale_threshold(domain, range) { function scale(x) { if (x <= x) return range[d3.bisect(domain, x)]; } scale.domain = function(_) { if (!arguments.length) return domain; domain = _; return scale; }; scale.range = function(_) { if (!arguments.length) return range; range = _; return scale; }; scale.invertExtent = function(y) { y = range.indexOf(y); return [ domain[y - 1], domain[y] ]; }; scale.copy = function() { return d3_scale_threshold(domain, range); }; return scale; } d3.scale.identity = function() { return d3_scale_identity([ 0, 1 ]); }; function d3_scale_identity(domain) { function identity(x) { return +x; } identity.invert = identity; identity.domain = identity.range = function(x) { if (!arguments.length) return domain; domain = x.map(identity); return identity; }; identity.ticks = function(m) { return d3_scale_linearTicks(domain, m); }; identity.tickFormat = function(m, format) { return d3_scale_linearTickFormat(domain, m, format); }; identity.copy = function() { return d3_scale_identity(domain); }; return identity; } d3.svg = {}; function d3_zero() { return 0; } d3.svg.arc = function() { var innerRadius = d3_svg_arcInnerRadius, outerRadius = d3_svg_arcOuterRadius, cornerRadius = d3_zero, padRadius = d3_svg_arcAuto, startAngle = d3_svg_arcStartAngle, endAngle = d3_svg_arcEndAngle, padAngle = d3_svg_arcPadAngle; function arc() { var r0 = Math.max(0, +innerRadius.apply(this, arguments)), r1 = Math.max(0, +outerRadius.apply(this, arguments)), a0 = startAngle.apply(this, arguments) - halfπ, a1 = endAngle.apply(this, arguments) - halfπ, da = Math.abs(a1 - a0), cw = a0 > a1 ? 0 : 1; if (r1 < r0) rc = r1, r1 = r0, r0 = rc; if (da >= τε) return circleSegment(r1, cw) + (r0 ? circleSegment(r0, 1 - cw) : "") + "Z"; var rc, cr, rp, ap, p0 = 0, p1 = 0, x0, y0, x1, y1, x2, y2, x3, y3, path = []; if (ap = (+padAngle.apply(this, arguments) || 0) / 2) { rp = padRadius === d3_svg_arcAuto ? Math.sqrt(r0 * r0 + r1 * r1) : +padRadius.apply(this, arguments); if (!cw) p1 *= -1; if (r1) p1 = d3_asin(rp / r1 * Math.sin(ap)); if (r0) p0 = d3_asin(rp / r0 * Math.sin(ap)); } if (r1) { x0 = r1 * Math.cos(a0 + p1); y0 = r1 * Math.sin(a0 + p1); x1 = r1 * Math.cos(a1 - p1); y1 = r1 * Math.sin(a1 - p1); var l1 = Math.abs(a1 - a0 - 2 * p1) <= π ? 0 : 1; if (p1 && d3_svg_arcSweep(x0, y0, x1, y1) === cw ^ l1) { var h1 = (a0 + a1) / 2; x0 = r1 * Math.cos(h1); y0 = r1 * Math.sin(h1); x1 = y1 = null; } } else { x0 = y0 = 0; } if (r0) { x2 = r0 * Math.cos(a1 - p0); y2 = r0 * Math.sin(a1 - p0); x3 = r0 * Math.cos(a0 + p0); y3 = r0 * Math.sin(a0 + p0); var l0 = Math.abs(a0 - a1 + 2 * p0) <= π ? 0 : 1; if (p0 && d3_svg_arcSweep(x2, y2, x3, y3) === 1 - cw ^ l0) { var h0 = (a0 + a1) / 2; x2 = r0 * Math.cos(h0); y2 = r0 * Math.sin(h0); x3 = y3 = null; } } else { x2 = y2 = 0; } if (da > ε && (rc = Math.min(Math.abs(r1 - r0) / 2, +cornerRadius.apply(this, arguments))) > .001) { cr = r0 < r1 ^ cw ? 0 : 1; var rc1 = rc, rc0 = rc; if (da < π) { var oc = x3 == null ? [ x2, y2 ] : x1 == null ? [ x0, y0 ] : d3_geom_polygonIntersect([ x0, y0 ], [ x3, y3 ], [ x1, y1 ], [ x2, y2 ]), ax = x0 - oc[0], ay = y0 - oc[1], bx = x1 - oc[0], by = y1 - oc[1], kc = 1 / Math.sin(Math.acos((ax * bx + ay * by) / (Math.sqrt(ax * ax + ay * ay) * Math.sqrt(bx * bx + by * by))) / 2), lc = Math.sqrt(oc[0] * oc[0] + oc[1] * oc[1]); rc0 = Math.min(rc, (r0 - lc) / (kc - 1)); rc1 = Math.min(rc, (r1 - lc) / (kc + 1)); } if (x1 != null) { var t30 = d3_svg_arcCornerTangents(x3 == null ? [ x2, y2 ] : [ x3, y3 ], [ x0, y0 ], r1, rc1, cw), t12 = d3_svg_arcCornerTangents([ x1, y1 ], [ x2, y2 ], r1, rc1, cw); if (rc === rc1) { path.push("M", t30[0], "A", rc1, ",", rc1, " 0 0,", cr, " ", t30[1], "A", r1, ",", r1, " 0 ", 1 - cw ^ d3_svg_arcSweep(t30[1][0], t30[1][1], t12[1][0], t12[1][1]), ",", cw, " ", t12[1], "A", rc1, ",", rc1, " 0 0,", cr, " ", t12[0]); } else { path.push("M", t30[0], "A", rc1, ",", rc1, " 0 1,", cr, " ", t12[0]); } } else { path.push("M", x0, ",", y0); } if (x3 != null) { var t03 = d3_svg_arcCornerTangents([ x0, y0 ], [ x3, y3 ], r0, -rc0, cw), t21 = d3_svg_arcCornerTangents([ x2, y2 ], x1 == null ? [ x0, y0 ] : [ x1, y1 ], r0, -rc0, cw); if (rc === rc0) { path.push("L", t21[0], "A", rc0, ",", rc0, " 0 0,", cr, " ", t21[1], "A", r0, ",", r0, " 0 ", cw ^ d3_svg_arcSweep(t21[1][0], t21[1][1], t03[1][0], t03[1][1]), ",", 1 - cw, " ", t03[1], "A", rc0, ",", rc0, " 0 0,", cr, " ", t03[0]); } else { path.push("L", t21[0], "A", rc0, ",", rc0, " 0 0,", cr, " ", t03[0]); } } else { path.push("L", x2, ",", y2); } } else { path.push("M", x0, ",", y0); if (x1 != null) path.push("A", r1, ",", r1, " 0 ", l1, ",", cw, " ", x1, ",", y1); path.push("L", x2, ",", y2); if (x3 != null) path.push("A", r0, ",", r0, " 0 ", l0, ",", 1 - cw, " ", x3, ",", y3); } path.push("Z"); return path.join(""); } function circleSegment(r1, cw) { return "M0," + r1 + "A" + r1 + "," + r1 + " 0 1," + cw + " 0," + -r1 + "A" + r1 + "," + r1 + " 0 1," + cw + " 0," + r1; } arc.innerRadius = function(v) { if (!arguments.length) return innerRadius; innerRadius = d3_functor(v); return arc; }; arc.outerRadius = function(v) { if (!arguments.length) return outerRadius; outerRadius = d3_functor(v); return arc; }; arc.cornerRadius = function(v) { if (!arguments.length) return cornerRadius; cornerRadius = d3_functor(v); return arc; }; arc.padRadius = function(v) { if (!arguments.length) return padRadius; padRadius = v == d3_svg_arcAuto ? d3_svg_arcAuto : d3_functor(v); return arc; }; arc.startAngle = function(v) { if (!arguments.length) return startAngle; startAngle = d3_functor(v); return arc; }; arc.endAngle = function(v) { if (!arguments.length) return endAngle; endAngle = d3_functor(v); return arc; }; arc.padAngle = function(v) { if (!arguments.length) return padAngle; padAngle = d3_functor(v); return arc; }; arc.centroid = function() { var r = (+innerRadius.apply(this, arguments) + +outerRadius.apply(this, arguments)) / 2, a = (+startAngle.apply(this, arguments) + +endAngle.apply(this, arguments)) / 2 - halfπ; return [ Math.cos(a) * r, Math.sin(a) * r ]; }; return arc; }; var d3_svg_arcAuto = "auto"; function d3_svg_arcInnerRadius(d) { return d.innerRadius; } function d3_svg_arcOuterRadius(d) { return d.outerRadius; } function d3_svg_arcStartAngle(d) { return d.startAngle; } function d3_svg_arcEndAngle(d) { return d.endAngle; } function d3_svg_arcPadAngle(d) { return d && d.padAngle; } function d3_svg_arcSweep(x0, y0, x1, y1) { return (x0 - x1) * y0 - (y0 - y1) * x0 > 0 ? 0 : 1; } function d3_svg_arcCornerTangents(p0, p1, r1, rc, cw) { var x01 = p0[0] - p1[0], y01 = p0[1] - p1[1], lo = (cw ? rc : -rc) / Math.sqrt(x01 * x01 + y01 * y01), ox = lo * y01, oy = -lo * x01, x1 = p0[0] + ox, y1 = p0[1] + oy, x2 = p1[0] + ox, y2 = p1[1] + oy, x3 = (x1 + x2) / 2, y3 = (y1 + y2) / 2, dx = x2 - x1, dy = y2 - y1, d2 = dx * dx + dy * dy, r = r1 - rc, D = x1 * y2 - x2 * y1, d = (dy < 0 ? -1 : 1) * Math.sqrt(Math.max(0, r * r * d2 - D * D)), cx0 = (D * dy - dx * d) / d2, cy0 = (-D * dx - dy * d) / d2, cx1 = (D * dy + dx * d) / d2, cy1 = (-D * dx + dy * d) / d2, dx0 = cx0 - x3, dy0 = cy0 - y3, dx1 = cx1 - x3, dy1 = cy1 - y3; if (dx0 * dx0 + dy0 * dy0 > dx1 * dx1 + dy1 * dy1) cx0 = cx1, cy0 = cy1; return [ [ cx0 - ox, cy0 - oy ], [ cx0 * r1 / r, cy0 * r1 / r ] ]; } function d3_true() { return true; } function d3_svg_line(projection) { var x = d3_geom_pointX, y = d3_geom_pointY, defined = d3_true, interpolate = d3_svg_lineLinear, interpolateKey = interpolate.key, tension = .7; function line(data) { var segments = [], points = [], i = -1, n = data.length, d, fx = d3_functor(x), fy = d3_functor(y); function segment() { segments.push("M", interpolate(projection(points), tension)); } while (++i < n) { if (defined.call(this, d = data[i], i)) { points.push([ +fx.call(this, d, i), +fy.call(this, d, i) ]); } else if (points.length) { segment(); points = []; } } if (points.length) segment(); return segments.length ? segments.join("") : null; } line.x = function(_) { if (!arguments.length) return x; x = _; return line; }; line.y = function(_) { if (!arguments.length) return y; y = _; return line; }; line.defined = function(_) { if (!arguments.length) return defined; defined = _; return line; }; line.interpolate = function(_) { if (!arguments.length) return interpolateKey; if (typeof _ === "function") interpolateKey = interpolate = _; else interpolateKey = (interpolate = d3_svg_lineInterpolators.get(_) || d3_svg_lineLinear).key; return line; }; line.tension = function(_) { if (!arguments.length) return tension; tension = _; return line; }; return line; } d3.svg.line = function() { return d3_svg_line(d3_identity); }; var d3_svg_lineInterpolators = d3.map({ linear: d3_svg_lineLinear, "linear-closed": d3_svg_lineLinearClosed, step: d3_svg_lineStep, "step-before": d3_svg_lineStepBefore, "step-after": d3_svg_lineStepAfter, basis: d3_svg_lineBasis, "basis-open": d3_svg_lineBasisOpen, "basis-closed": d3_svg_lineBasisClosed, bundle: d3_svg_lineBundle, cardinal: d3_svg_lineCardinal, "cardinal-open": d3_svg_lineCardinalOpen, "cardinal-closed": d3_svg_lineCardinalClosed, monotone: d3_svg_lineMonotone }); d3_svg_lineInterpolators.forEach(function(key, value) { value.key = key; value.closed = /-closed$/.test(key); }); function d3_svg_lineLinear(points) { return points.length > 1 ? points.join("L") : points + "Z"; } function d3_svg_lineLinearClosed(points) { return points.join("L") + "Z"; } function d3_svg_lineStep(points) { var i = 0, n = points.length, p = points[0], path = [ p[0], ",", p[1] ]; while (++i < n) path.push("H", (p[0] + (p = points[i])[0]) / 2, "V", p[1]); if (n > 1) path.push("H", p[0]); return path.join(""); } function d3_svg_lineStepBefore(points) { var i = 0, n = points.length, p = points[0], path = [ p[0], ",", p[1] ]; while (++i < n) path.push("V", (p = points[i])[1], "H", p[0]); return path.join(""); } function d3_svg_lineStepAfter(points) { var i = 0, n = points.length, p = points[0], path = [ p[0], ",", p[1] ]; while (++i < n) path.push("H", (p = points[i])[0], "V", p[1]); return path.join(""); } function d3_svg_lineCardinalOpen(points, tension) { return points.length < 4 ? d3_svg_lineLinear(points) : points[1] + d3_svg_lineHermite(points.slice(1, -1), d3_svg_lineCardinalTangents(points, tension)); } function d3_svg_lineCardinalClosed(points, tension) { return points.length < 3 ? d3_svg_lineLinearClosed(points) : points[0] + d3_svg_lineHermite((points.push(points[0]), points), d3_svg_lineCardinalTangents([ points[points.length - 2] ].concat(points, [ points[1] ]), tension)); } function d3_svg_lineCardinal(points, tension) { return points.length < 3 ? d3_svg_lineLinear(points) : points[0] + d3_svg_lineHermite(points, d3_svg_lineCardinalTangents(points, tension)); } function d3_svg_lineHermite(points, tangents) { if (tangents.length < 1 || points.length != tangents.length && points.length != tangents.length + 2) { return d3_svg_lineLinear(points); } var quad = points.length != tangents.length, path = "", p0 = points[0], p = points[1], t0 = tangents[0], t = t0, pi = 1; if (quad) { path += "Q" + (p[0] - t0[0] * 2 / 3) + "," + (p[1] - t0[1] * 2 / 3) + "," + p[0] + "," + p[1]; p0 = points[1]; pi = 2; } if (tangents.length > 1) { t = tangents[1]; p = points[pi]; pi++; path += "C" + (p0[0] + t0[0]) + "," + (p0[1] + t0[1]) + "," + (p[0] - t[0]) + "," + (p[1] - t[1]) + "," + p[0] + "," + p[1]; for (var i = 2; i < tangents.length; i++, pi++) { p = points[pi]; t = tangents[i]; path += "S" + (p[0] - t[0]) + "," + (p[1] - t[1]) + "," + p[0] + "," + p[1]; } } if (quad) { var lp = points[pi]; path += "Q" + (p[0] + t[0] * 2 / 3) + "," + (p[1] + t[1] * 2 / 3) + "," + lp[0] + "," + lp[1]; } return path; } function d3_svg_lineCardinalTangents(points, tension) { var tangents = [], a = (1 - tension) / 2, p0, p1 = points[0], p2 = points[1], i = 1, n = points.length; while (++i < n) { p0 = p1; p1 = p2; p2 = points[i]; tangents.push([ a * (p2[0] - p0[0]), a * (p2[1] - p0[1]) ]); } return tangents; } function d3_svg_lineBasis(points) { if (points.length < 3) return d3_svg_lineLinear(points); var i = 1, n = points.length, pi = points[0], x0 = pi[0], y0 = pi[1], px = [ x0, x0, x0, (pi = points[1])[0] ], py = [ y0, y0, y0, pi[1] ], path = [ x0, ",", y0, "L", d3_svg_lineDot4(d3_svg_lineBasisBezier3, px), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier3, py) ]; points.push(points[n - 1]); while (++i <= n) { pi = points[i]; px.shift(); px.push(pi[0]); py.shift(); py.push(pi[1]); d3_svg_lineBasisBezier(path, px, py); } points.pop(); path.push("L", pi); return path.join(""); } function d3_svg_lineBasisOpen(points) { if (points.length < 4) return d3_svg_lineLinear(points); var path = [], i = -1, n = points.length, pi, px = [ 0 ], py = [ 0 ]; while (++i < 3) { pi = points[i]; px.push(pi[0]); py.push(pi[1]); } path.push(d3_svg_lineDot4(d3_svg_lineBasisBezier3, px) + "," + d3_svg_lineDot4(d3_svg_lineBasisBezier3, py)); --i; while (++i < n) { pi = points[i]; px.shift(); px.push(pi[0]); py.shift(); py.push(pi[1]); d3_svg_lineBasisBezier(path, px, py); } return path.join(""); } function d3_svg_lineBasisClosed(points) { var path, i = -1, n = points.length, m = n + 4, pi, px = [], py = []; while (++i < 4) { pi = points[i % n]; px.push(pi[0]); py.push(pi[1]); } path = [ d3_svg_lineDot4(d3_svg_lineBasisBezier3, px), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier3, py) ]; --i; while (++i < m) { pi = points[i % n]; px.shift(); px.push(pi[0]); py.shift(); py.push(pi[1]); d3_svg_lineBasisBezier(path, px, py); } return path.join(""); } function d3_svg_lineBundle(points, tension) { var n = points.length - 1; if (n) { var x0 = points[0][0], y0 = points[0][1], dx = points[n][0] - x0, dy = points[n][1] - y0, i = -1, p, t; while (++i <= n) { p = points[i]; t = i / n; p[0] = tension * p[0] + (1 - tension) * (x0 + t * dx); p[1] = tension * p[1] + (1 - tension) * (y0 + t * dy); } } return d3_svg_lineBasis(points); } function d3_svg_lineDot4(a, b) { return a[0] * b[0] + a[1] * b[1] + a[2] * b[2] + a[3] * b[3]; } var d3_svg_lineBasisBezier1 = [ 0, 2 / 3, 1 / 3, 0 ], d3_svg_lineBasisBezier2 = [ 0, 1 / 3, 2 / 3, 0 ], d3_svg_lineBasisBezier3 = [ 0, 1 / 6, 2 / 3, 1 / 6 ]; function d3_svg_lineBasisBezier(path, x, y) { path.push("C", d3_svg_lineDot4(d3_svg_lineBasisBezier1, x), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier1, y), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier2, x), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier2, y), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier3, x), ",", d3_svg_lineDot4(d3_svg_lineBasisBezier3, y)); } function d3_svg_lineSlope(p0, p1) { return (p1[1] - p0[1]) / (p1[0] - p0[0]); } function d3_svg_lineFiniteDifferences(points) { var i = 0, j = points.length - 1, m = [], p0 = points[0], p1 = points[1], d = m[0] = d3_svg_lineSlope(p0, p1); while (++i < j) { m[i] = (d + (d = d3_svg_lineSlope(p0 = p1, p1 = points[i + 1]))) / 2; } m[i] = d; return m; } function d3_svg_lineMonotoneTangents(points) { var tangents = [], d, a, b, s, m = d3_svg_lineFiniteDifferences(points), i = -1, j = points.length - 1; while (++i < j) { d = d3_svg_lineSlope(points[i], points[i + 1]); if (abs(d) < ε) { m[i] = m[i + 1] = 0; } else { a = m[i] / d; b = m[i + 1] / d; s = a * a + b * b; if (s > 9) { s = d * 3 / Math.sqrt(s); m[i] = s * a; m[i + 1] = s * b; } } } i = -1; while (++i <= j) { s = (points[Math.min(j, i + 1)][0] - points[Math.max(0, i - 1)][0]) / (6 * (1 + m[i] * m[i])); tangents.push([ s || 0, m[i] * s || 0 ]); } return tangents; } function d3_svg_lineMonotone(points) { return points.length < 3 ? d3_svg_lineLinear(points) : points[0] + d3_svg_lineHermite(points, d3_svg_lineMonotoneTangents(points)); } d3.svg.line.radial = function() { var line = d3_svg_line(d3_svg_lineRadial); line.radius = line.x, delete line.x; line.angle = line.y, delete line.y; return line; }; function d3_svg_lineRadial(points) { var point, i = -1, n = points.length, r, a; while (++i < n) { point = points[i]; r = point[0]; a = point[1] - halfπ; point[0] = r * Math.cos(a); point[1] = r * Math.sin(a); } return points; } function d3_svg_area(projection) { var x0 = d3_geom_pointX, x1 = d3_geom_pointX, y0 = 0, y1 = d3_geom_pointY, defined = d3_true, interpolate = d3_svg_lineLinear, interpolateKey = interpolate.key, interpolateReverse = interpolate, L = "L", tension = .7; function area(data) { var segments = [], points0 = [], points1 = [], i = -1, n = data.length, d, fx0 = d3_functor(x0), fy0 = d3_functor(y0), fx1 = x0 === x1 ? function() { return x; } : d3_functor(x1), fy1 = y0 === y1 ? function() { return y; } : d3_functor(y1), x, y; function segment() { segments.push("M", interpolate(projection(points1), tension), L, interpolateReverse(projection(points0.reverse()), tension), "Z"); } while (++i < n) { if (defined.call(this, d = data[i], i)) { points0.push([ x = +fx0.call(this, d, i), y = +fy0.call(this, d, i) ]); points1.push([ +fx1.call(this, d, i), +fy1.call(this, d, i) ]); } else if (points0.length) { segment(); points0 = []; points1 = []; } } if (points0.length) segment(); return segments.length ? segments.join("") : null; } area.x = function(_) { if (!arguments.length) return x1; x0 = x1 = _; return area; }; area.x0 = function(_) { if (!arguments.length) return x0; x0 = _; return area; }; area.x1 = function(_) { if (!arguments.length) return x1; x1 = _; return area; }; area.y = function(_) { if (!arguments.length) return y1; y0 = y1 = _; return area; }; area.y0 = function(_) { if (!arguments.length) return y0; y0 = _; return area; }; area.y1 = function(_) { if (!arguments.length) return y1; y1 = _; return area; }; area.defined = function(_) { if (!arguments.length) return defined; defined = _; return area; }; area.interpolate = function(_) { if (!arguments.length) return interpolateKey; if (typeof _ === "function") interpolateKey = interpolate = _; else interpolateKey = (interpolate = d3_svg_lineInterpolators.get(_) || d3_svg_lineLinear).key; interpolateReverse = interpolate.reverse || interpolate; L = interpolate.closed ? "M" : "L"; return area; }; area.tension = function(_) { if (!arguments.length) return tension; tension = _; return area; }; return area; } d3_svg_lineStepBefore.reverse = d3_svg_lineStepAfter; d3_svg_lineStepAfter.reverse = d3_svg_lineStepBefore; d3.svg.area = function() { return d3_svg_area(d3_identity); }; d3.svg.area.radial = function() { var area = d3_svg_area(d3_svg_lineRadial); area.radius = area.x, delete area.x; area.innerRadius = area.x0, delete area.x0; area.outerRadius = area.x1, delete area.x1; area.angle = area.y, delete area.y; area.startAngle = area.y0, delete area.y0; area.endAngle = area.y1, delete area.y1; return area; }; function d3_source(d) { return d.source; } function d3_target(d) { return d.target; } d3.svg.chord = function() { var source = d3_source, target = d3_target, radius = d3_svg_chordRadius, startAngle = d3_svg_arcStartAngle, endAngle = d3_svg_arcEndAngle; function chord(d, i) { var s = subgroup(this, source, d, i), t = subgroup(this, target, d, i); return "M" + s.p0 + arc(s.r, s.p1, s.a1 - s.a0) + (equals(s, t) ? curve(s.r, s.p1, s.r, s.p0) : curve(s.r, s.p1, t.r, t.p0) + arc(t.r, t.p1, t.a1 - t.a0) + curve(t.r, t.p1, s.r, s.p0)) + "Z"; } function subgroup(self, f, d, i) { var subgroup = f.call(self, d, i), r = radius.call(self, subgroup, i), a0 = startAngle.call(self, subgroup, i) - halfπ, a1 = endAngle.call(self, subgroup, i) - halfπ; return { r: r, a0: a0, a1: a1, p0: [ r * Math.cos(a0), r * Math.sin(a0) ], p1: [ r * Math.cos(a1), r * Math.sin(a1) ] }; } function equals(a, b) { return a.a0 == b.a0 && a.a1 == b.a1; } function arc(r, p, a) { return "A" + r + "," + r + " 0 " + +(a > π) + ",1 " + p; } function curve(r0, p0, r1, p1) { return "Q 0,0 " + p1; } chord.radius = function(v) { if (!arguments.length) return radius; radius = d3_functor(v); return chord; }; chord.source = function(v) { if (!arguments.length) return source; source = d3_functor(v); return chord; }; chord.target = function(v) { if (!arguments.length) return target; target = d3_functor(v); return chord; }; chord.startAngle = function(v) { if (!arguments.length) return startAngle; startAngle = d3_functor(v); return chord; }; chord.endAngle = function(v) { if (!arguments.length) return endAngle; endAngle = d3_functor(v); return chord; }; return chord; }; function d3_svg_chordRadius(d) { return d.radius; } d3.svg.diagonal = function() { var source = d3_source, target = d3_target, projection = d3_svg_diagonalProjection; function diagonal(d, i) { var p0 = source.call(this, d, i), p3 = target.call(this, d, i), m = (p0.y + p3.y) / 2, p = [ p0, { x: p0.x, y: m }, { x: p3.x, y: m }, p3 ]; p = p.map(projection); return "M" + p[0] + "C" + p[1] + " " + p[2] + " " + p[3]; } diagonal.source = function(x) { if (!arguments.length) return source; source = d3_functor(x); return diagonal; }; diagonal.target = function(x) { if (!arguments.length) return target; target = d3_functor(x); return diagonal; }; diagonal.projection = function(x) { if (!arguments.length) return projection; projection = x; return diagonal; }; return diagonal; }; function d3_svg_diagonalProjection(d) { return [ d.x, d.y ]; } d3.svg.diagonal.radial = function() { var diagonal = d3.svg.diagonal(), projection = d3_svg_diagonalProjection, projection_ = diagonal.projection; diagonal.projection = function(x) { return arguments.length ? projection_(d3_svg_diagonalRadialProjection(projection = x)) : projection; }; return diagonal; }; function d3_svg_diagonalRadialProjection(projection) { return function() { var d = projection.apply(this, arguments), r = d[0], a = d[1] - halfπ; return [ r * Math.cos(a), r * Math.sin(a) ]; }; } d3.svg.symbol = function() { var type = d3_svg_symbolType, size = d3_svg_symbolSize; function symbol(d, i) { return (d3_svg_symbols.get(type.call(this, d, i)) || d3_svg_symbolCircle)(size.call(this, d, i)); } symbol.type = function(x) { if (!arguments.length) return type; type = d3_functor(x); return symbol; }; symbol.size = function(x) { if (!arguments.length) return size; size = d3_functor(x); return symbol; }; return symbol; }; function d3_svg_symbolSize() { return 64; } function d3_svg_symbolType() { return "circle"; } function d3_svg_symbolCircle(size) { var r = Math.sqrt(size / π); return "M0," + r + "A" + r + "," + r + " 0 1,1 0," + -r + "A" + r + "," + r + " 0 1,1 0," + r + "Z"; } var d3_svg_symbols = d3.map({ circle: d3_svg_symbolCircle, cross: function(size) { var r = Math.sqrt(size / 5) / 2; return "M" + -3 * r + "," + -r + "H" + -r + "V" + -3 * r + "H" + r + "V" + -r + "H" + 3 * r + "V" + r + "H" + r + "V" + 3 * r + "H" + -r + "V" + r + "H" + -3 * r + "Z"; }, diamond: function(size) { var ry = Math.sqrt(size / (2 * d3_svg_symbolTan30)), rx = ry * d3_svg_symbolTan30; return "M0," + -ry + "L" + rx + ",0" + " 0," + ry + " " + -rx + ",0" + "Z"; }, square: function(size) { var r = Math.sqrt(size) / 2; return "M" + -r + "," + -r + "L" + r + "," + -r + " " + r + "," + r + " " + -r + "," + r + "Z"; }, "triangle-down": function(size) { var rx = Math.sqrt(size / d3_svg_symbolSqrt3), ry = rx * d3_svg_symbolSqrt3 / 2; return "M0," + ry + "L" + rx + "," + -ry + " " + -rx + "," + -ry + "Z"; }, "triangle-up": function(size) { var rx = Math.sqrt(size / d3_svg_symbolSqrt3), ry = rx * d3_svg_symbolSqrt3 / 2; return "M0," + -ry + "L" + rx + "," + ry + " " + -rx + "," + ry + "Z"; } }); d3.svg.symbolTypes = d3_svg_symbols.keys(); var d3_svg_symbolSqrt3 = Math.sqrt(3), d3_svg_symbolTan30 = Math.tan(30 * d3_radians); d3_selectionPrototype.transition = function(name) { var id = d3_transitionInheritId || ++d3_transitionId, ns = d3_transitionNamespace(name), subgroups = [], subgroup, node, transition = d3_transitionInherit || { time: Date.now(), ease: d3_ease_cubicInOut, delay: 0, duration: 250 }; for (var j = -1, m = this.length; ++j < m; ) { subgroups.push(subgroup = []); for (var group = this[j], i = -1, n = group.length; ++i < n; ) { if (node = group[i]) d3_transitionNode(node, i, ns, id, transition); subgroup.push(node); } } return d3_transition(subgroups, ns, id); }; d3_selectionPrototype.interrupt = function(name) { return this.each(name == null ? d3_selection_interrupt : d3_selection_interruptNS(d3_transitionNamespace(name))); }; var d3_selection_interrupt = d3_selection_interruptNS(d3_transitionNamespace()); function d3_selection_interruptNS(ns) { return function() { var lock, activeId, active; if ((lock = this[ns]) && (active = lock[activeId = lock.active])) { active.timer.c = null; active.timer.t = NaN; if (--lock.count) delete lock[activeId]; else delete this[ns]; lock.active += .5; active.event && active.event.interrupt.call(this, this.__data__, active.index); } }; } function d3_transition(groups, ns, id) { d3_subclass(groups, d3_transitionPrototype); groups.namespace = ns; groups.id = id; return groups; } var d3_transitionPrototype = [], d3_transitionId = 0, d3_transitionInheritId, d3_transitionInherit; d3_transitionPrototype.call = d3_selectionPrototype.call; d3_transitionPrototype.empty = d3_selectionPrototype.empty; d3_transitionPrototype.node = d3_selectionPrototype.node; d3_transitionPrototype.size = d3_selectionPrototype.size; d3.transition = function(selection, name) { return selection && selection.transition ? d3_transitionInheritId ? selection.transition(name) : selection : d3.selection().transition(selection); }; d3.transition.prototype = d3_transitionPrototype; d3_transitionPrototype.select = function(selector) { var id = this.id, ns = this.namespace, subgroups = [], subgroup, subnode, node; selector = d3_selection_selector(selector); for (var j = -1, m = this.length; ++j < m; ) { subgroups.push(subgroup = []); for (var group = this[j], i = -1, n = group.length; ++i < n; ) { if ((node = group[i]) && (subnode = selector.call(node, node.__data__, i, j))) { if ("__data__" in node) subnode.__data__ = node.__data__; d3_transitionNode(subnode, i, ns, id, node[ns][id]); subgroup.push(subnode); } else { subgroup.push(null); } } } return d3_transition(subgroups, ns, id); }; d3_transitionPrototype.selectAll = function(selector) { var id = this.id, ns = this.namespace, subgroups = [], subgroup, subnodes, node, subnode, transition; selector = d3_selection_selectorAll(selector); for (var j = -1, m = this.length; ++j < m; ) { for (var group = this[j], i = -1, n = group.length; ++i < n; ) { if (node = group[i]) { transition = node[ns][id]; subnodes = selector.call(node, node.__data__, i, j); subgroups.push(subgroup = []); for (var k = -1, o = subnodes.length; ++k < o; ) { if (subnode = subnodes[k]) d3_transitionNode(subnode, k, ns, id, transition); subgroup.push(subnode); } } } } return d3_transition(subgroups, ns, id); }; d3_transitionPrototype.filter = function(filter) { var subgroups = [], subgroup, group, node; if (typeof filter !== "function") filter = d3_selection_filter(filter); for (var j = 0, m = this.length; j < m; j++) { subgroups.push(subgroup = []); for (var group = this[j], i = 0, n = group.length; i < n; i++) { if ((node = group[i]) && filter.call(node, node.__data__, i, j)) { subgroup.push(node); } } } return d3_transition(subgroups, this.namespace, this.id); }; d3_transitionPrototype.tween = function(name, tween) { var id = this.id, ns = this.namespace; if (arguments.length < 2) return this.node()[ns][id].tween.get(name); return d3_selection_each(this, tween == null ? function(node) { node[ns][id].tween.remove(name); } : function(node) { node[ns][id].tween.set(name, tween); }); }; function d3_transition_tween(groups, name, value, tween) { var id = groups.id, ns = groups.namespace; return d3_selection_each(groups, typeof value === "function" ? function(node, i, j) { node[ns][id].tween.set(name, tween(value.call(node, node.__data__, i, j))); } : (value = tween(value), function(node) { node[ns][id].tween.set(name, value); })); } d3_transitionPrototype.attr = function(nameNS, value) { if (arguments.length < 2) { for (value in nameNS) this.attr(value, nameNS[value]); return this; } var interpolate = nameNS == "transform" ? d3_interpolateTransform : d3_interpolate, name = d3.ns.qualify(nameNS); function attrNull() { this.removeAttribute(name); } function attrNullNS() { this.removeAttributeNS(name.space, name.local); } function attrTween(b) { return b == null ? attrNull : (b += "", function() { var a = this.getAttribute(name), i; return a !== b && (i = interpolate(a, b), function(t) { this.setAttribute(name, i(t)); }); }); } function attrTweenNS(b) { return b == null ? attrNullNS : (b += "", function() { var a = this.getAttributeNS(name.space, name.local), i; return a !== b && (i = interpolate(a, b), function(t) { this.setAttributeNS(name.space, name.local, i(t)); }); }); } return d3_transition_tween(this, "attr." + nameNS, value, name.local ? attrTweenNS : attrTween); }; d3_transitionPrototype.attrTween = function(nameNS, tween) { var name = d3.ns.qualify(nameNS); function attrTween(d, i) { var f = tween.call(this, d, i, this.getAttribute(name)); return f && function(t) { this.setAttribute(name, f(t)); }; } function attrTweenNS(d, i) { var f = tween.call(this, d, i, this.getAttributeNS(name.space, name.local)); return f && function(t) { this.setAttributeNS(name.space, name.local, f(t)); }; } return this.tween("attr." + nameNS, name.local ? attrTweenNS : attrTween); }; d3_transitionPrototype.style = function(name, value, priority) { var n = arguments.length; if (n < 3) { if (typeof name !== "string") { if (n < 2) value = ""; for (priority in name) this.style(priority, name[priority], value); return this; } priority = ""; } function styleNull() { this.style.removeProperty(name); } function styleString(b) { return b == null ? styleNull : (b += "", function() { var a = d3_window(this).getComputedStyle(this, null).getPropertyValue(name), i; return a !== b && (i = d3_interpolate(a, b), function(t) { this.style.setProperty(name, i(t), priority); }); }); } return d3_transition_tween(this, "style." + name, value, styleString); }; d3_transitionPrototype.styleTween = function(name, tween, priority) { if (arguments.length < 3) priority = ""; function styleTween(d, i) { var f = tween.call(this, d, i, d3_window(this).getComputedStyle(this, null).getPropertyValue(name)); return f && function(t) { this.style.setProperty(name, f(t), priority); }; } return this.tween("style." + name, styleTween); }; d3_transitionPrototype.text = function(value) { return d3_transition_tween(this, "text", value, d3_transition_text); }; function d3_transition_text(b) { if (b == null) b = ""; return function() { this.textContent = b; }; } d3_transitionPrototype.remove = function() { var ns = this.namespace; return this.each("end.transition", function() { var p; if (this[ns].count < 2 && (p = this.parentNode)) p.removeChild(this); }); }; d3_transitionPrototype.ease = function(value) { var id = this.id, ns = this.namespace; if (arguments.length < 1) return this.node()[ns][id].ease; if (typeof value !== "function") value = d3.ease.apply(d3, arguments); return d3_selection_each(this, function(node) { node[ns][id].ease = value; }); }; d3_transitionPrototype.delay = function(value) { var id = this.id, ns = this.namespace; if (arguments.length < 1) return this.node()[ns][id].delay; return d3_selection_each(this, typeof value === "function" ? function(node, i, j) { node[ns][id].delay = +value.call(node, node.__data__, i, j); } : (value = +value, function(node) { node[ns][id].delay = value; })); }; d3_transitionPrototype.duration = function(value) { var id = this.id, ns = this.namespace; if (arguments.length < 1) return this.node()[ns][id].duration; return d3_selection_each(this, typeof value === "function" ? function(node, i, j) { node[ns][id].duration = Math.max(1, value.call(node, node.__data__, i, j)); } : (value = Math.max(1, value), function(node) { node[ns][id].duration = value; })); }; d3_transitionPrototype.each = function(type, listener) { var id = this.id, ns = this.namespace; if (arguments.length < 2) { var inherit = d3_transitionInherit, inheritId = d3_transitionInheritId; try { d3_transitionInheritId = id; d3_selection_each(this, function(node, i, j) { d3_transitionInherit = node[ns][id]; type.call(node, node.__data__, i, j); }); } finally { d3_transitionInherit = inherit; d3_transitionInheritId = inheritId; } } else { d3_selection_each(this, function(node) { var transition = node[ns][id]; (transition.event || (transition.event = d3.dispatch("start", "end", "interrupt"))).on(type, listener); }); } return this; }; d3_transitionPrototype.transition = function() { var id0 = this.id, id1 = ++d3_transitionId, ns = this.namespace, subgroups = [], subgroup, group, node, transition; for (var j = 0, m = this.length; j < m; j++) { subgroups.push(subgroup = []); for (var group = this[j], i = 0, n = group.length; i < n; i++) { if (node = group[i]) { transition = node[ns][id0]; d3_transitionNode(node, i, ns, id1, { time: transition.time, ease: transition.ease, delay: transition.delay + transition.duration, duration: transition.duration }); } subgroup.push(node); } } return d3_transition(subgroups, ns, id1); }; function d3_transitionNamespace(name) { return name == null ? "__transition__" : "__transition_" + name + "__"; } function d3_transitionNode(node, i, ns, id, inherit) { var lock = node[ns] || (node[ns] = { active: 0, count: 0 }), transition = lock[id], time, timer, duration, ease, tweens; function schedule(elapsed) { var delay = transition.delay; timer.t = delay + time; if (delay <= elapsed) return start(elapsed - delay); timer.c = start; } function start(elapsed) { var activeId = lock.active, active = lock[activeId]; if (active) { active.timer.c = null; active.timer.t = NaN; --lock.count; delete lock[activeId]; active.event && active.event.interrupt.call(node, node.__data__, active.index); } for (var cancelId in lock) { if (+cancelId < id) { var cancel = lock[cancelId]; cancel.timer.c = null; cancel.timer.t = NaN; --lock.count; delete lock[cancelId]; } } timer.c = tick; d3_timer(function() { if (timer.c && tick(elapsed || 1)) { timer.c = null; timer.t = NaN; } return 1; }, 0, time); lock.active = id; transition.event && transition.event.start.call(node, node.__data__, i); tweens = []; transition.tween.forEach(function(key, value) { if (value = value.call(node, node.__data__, i)) { tweens.push(value); } }); ease = transition.ease; duration = transition.duration; } function tick(elapsed) { var t = elapsed / duration, e = ease(t), n = tweens.length; while (n > 0) { tweens[--n].call(node, e); } if (t >= 1) { transition.event && transition.event.end.call(node, node.__data__, i); if (--lock.count) delete lock[id]; else delete node[ns]; return 1; } } if (!transition) { time = inherit.time; timer = d3_timer(schedule, 0, time); transition = lock[id] = { tween: new d3_Map(), time: time, timer: timer, delay: inherit.delay, duration: inherit.duration, ease: inherit.ease, index: i }; inherit = null; ++lock.count; } } d3.svg.axis = function() { var scale = d3.scale.linear(), orient = d3_svg_axisDefaultOrient, innerTickSize = 6, outerTickSize = 6, tickPadding = 3, tickArguments_ = [ 10 ], tickValues = null, tickFormat_; function axis(g) { g.each(function() { var g = d3.select(this); var scale0 = this.__chart__ || scale, scale1 = this.__chart__ = scale.copy(); var ticks = tickValues == null ? scale1.ticks ? scale1.ticks.apply(scale1, tickArguments_) : scale1.domain() : tickValues, tickFormat = tickFormat_ == null ? scale1.tickFormat ? scale1.tickFormat.apply(scale1, tickArguments_) : d3_identity : tickFormat_, tick = g.selectAll(".tick").data(ticks, scale1), tickEnter = tick.enter().insert("g", ".domain").attr("class", "tick").style("opacity", ε), tickExit = d3.transition(tick.exit()).style("opacity", ε).remove(), tickUpdate = d3.transition(tick.order()).style("opacity", 1), tickSpacing = Math.max(innerTickSize, 0) + tickPadding, tickTransform; var range = d3_scaleRange(scale1), path = g.selectAll(".domain").data([ 0 ]), pathUpdate = (path.enter().append("path").attr("class", "domain"), d3.transition(path)); tickEnter.append("line"); tickEnter.append("text"); var lineEnter = tickEnter.select("line"), lineUpdate = tickUpdate.select("line"), text = tick.select("text").text(tickFormat), textEnter = tickEnter.select("text"), textUpdate = tickUpdate.select("text"), sign = orient === "top" || orient === "left" ? -1 : 1, x1, x2, y1, y2; if (orient === "bottom" || orient === "top") { tickTransform = d3_svg_axisX, x1 = "x", y1 = "y", x2 = "x2", y2 = "y2"; text.attr("dy", sign < 0 ? "0em" : ".71em").style("text-anchor", "middle"); pathUpdate.attr("d", "M" + range[0] + "," + sign * outerTickSize + "V0H" + range[1] + "V" + sign * outerTickSize); } else { tickTransform = d3_svg_axisY, x1 = "y", y1 = "x", x2 = "y2", y2 = "x2"; text.attr("dy", ".32em").style("text-anchor", sign < 0 ? "end" : "start"); pathUpdate.attr("d", "M" + sign * outerTickSize + "," + range[0] + "H0V" + range[1] + "H" + sign * outerTickSize); } lineEnter.attr(y2, sign * innerTickSize); textEnter.attr(y1, sign * tickSpacing); lineUpdate.attr(x2, 0).attr(y2, sign * innerTickSize); textUpdate.attr(x1, 0).attr(y1, sign * tickSpacing); if (scale1.rangeBand) { var x = scale1, dx = x.rangeBand() / 2; scale0 = scale1 = function(d) { return x(d) + dx; }; } else if (scale0.rangeBand) { scale0 = scale1; } else { tickExit.call(tickTransform, scale1, scale0); } tickEnter.call(tickTransform, scale0, scale1); tickUpdate.call(tickTransform, scale1, scale1); }); } axis.scale = function(x) { if (!arguments.length) return scale; scale = x; return axis; }; axis.orient = function(x) { if (!arguments.length) return orient; orient = x in d3_svg_axisOrients ? x + "" : d3_svg_axisDefaultOrient; return axis; }; axis.ticks = function() { if (!arguments.length) return tickArguments_; tickArguments_ = d3_array(arguments); return axis; }; axis.tickValues = function(x) { if (!arguments.length) return tickValues; tickValues = x; return axis; }; axis.tickFormat = function(x) { if (!arguments.length) return tickFormat_; tickFormat_ = x; return axis; }; axis.tickSize = function(x) { var n = arguments.length; if (!n) return innerTickSize; innerTickSize = +x; outerTickSize = +arguments[n - 1]; return axis; }; axis.innerTickSize = function(x) { if (!arguments.length) return innerTickSize; innerTickSize = +x; return axis; }; axis.outerTickSize = function(x) { if (!arguments.length) return outerTickSize; outerTickSize = +x; return axis; }; axis.tickPadding = function(x) { if (!arguments.length) return tickPadding; tickPadding = +x; return axis; }; axis.tickSubdivide = function() { return arguments.length && axis; }; return axis; }; var d3_svg_axisDefaultOrient = "bottom", d3_svg_axisOrients = { top: 1, right: 1, bottom: 1, left: 1 }; function d3_svg_axisX(selection, x0, x1) { selection.attr("transform", function(d) { var v0 = x0(d); return "translate(" + (isFinite(v0) ? v0 : x1(d)) + ",0)"; }); } function d3_svg_axisY(selection, y0, y1) { selection.attr("transform", function(d) { var v0 = y0(d); return "translate(0," + (isFinite(v0) ? v0 : y1(d)) + ")"; }); } d3.svg.brush = function() { var event = d3_eventDispatch(brush, "brushstart", "brush", "brushend"), x = null, y = null, xExtent = [ 0, 0 ], yExtent = [ 0, 0 ], xExtentDomain, yExtentDomain, xClamp = true, yClamp = true, resizes = d3_svg_brushResizes[0]; function brush(g) { g.each(function() { var g = d3.select(this).style("pointer-events", "all").style("-webkit-tap-highlight-color", "rgba(0,0,0,0)").on("mousedown.brush", brushstart).on("touchstart.brush", brushstart); var background = g.selectAll(".background").data([ 0 ]); background.enter().append("rect").attr("class", "background").style("visibility", "hidden").style("cursor", "crosshair"); g.selectAll(".extent").data([ 0 ]).enter().append("rect").attr("class", "extent").style("cursor", "move"); var resize = g.selectAll(".resize").data(resizes, d3_identity); resize.exit().remove(); resize.enter().append("g").attr("class", function(d) { return "resize " + d; }).style("cursor", function(d) { return d3_svg_brushCursor[d]; }).append("rect").attr("x", function(d) { return /[ew]$/.test(d) ? -3 : null; }).attr("y", function(d) { return /^[ns]/.test(d) ? -3 : null; }).attr("width", 6).attr("height", 6).style("visibility", "hidden"); resize.style("display", brush.empty() ? "none" : null); var gUpdate = d3.transition(g), backgroundUpdate = d3.transition(background), range; if (x) { range = d3_scaleRange(x); backgroundUpdate.attr("x", range[0]).attr("width", range[1] - range[0]); redrawX(gUpdate); } if (y) { range = d3_scaleRange(y); backgroundUpdate.attr("y", range[0]).attr("height", range[1] - range[0]); redrawY(gUpdate); } redraw(gUpdate); }); } brush.event = function(g) { g.each(function() { var event_ = event.of(this, arguments), extent1 = { x: xExtent, y: yExtent, i: xExtentDomain, j: yExtentDomain }, extent0 = this.__chart__ || extent1; this.__chart__ = extent1; if (d3_transitionInheritId) { d3.select(this).transition().each("start.brush", function() { xExtentDomain = extent0.i; yExtentDomain = extent0.j; xExtent = extent0.x; yExtent = extent0.y; event_({ type: "brushstart" }); }).tween("brush:brush", function() { var xi = d3_interpolateArray(xExtent, extent1.x), yi = d3_interpolateArray(yExtent, extent1.y); xExtentDomain = yExtentDomain = null; return function(t) { xExtent = extent1.x = xi(t); yExtent = extent1.y = yi(t); event_({ type: "brush", mode: "resize" }); }; }).each("end.brush", function() { xExtentDomain = extent1.i; yExtentDomain = extent1.j; event_({ type: "brush", mode: "resize" }); event_({ type: "brushend" }); }); } else { event_({ type: "brushstart" }); event_({ type: "brush", mode: "resize" }); event_({ type: "brushend" }); } }); }; function redraw(g) { g.selectAll(".resize").attr("transform", function(d) { return "translate(" + xExtent[+/e$/.test(d)] + "," + yExtent[+/^s/.test(d)] + ")"; }); } function redrawX(g) { g.select(".extent").attr("x", xExtent[0]); g.selectAll(".extent,.n>rect,.s>rect").attr("width", xExtent[1] - xExtent[0]); } function redrawY(g) { g.select(".extent").attr("y", yExtent[0]); g.selectAll(".extent,.e>rect,.w>rect").attr("height", yExtent[1] - yExtent[0]); } function brushstart() { var target = this, eventTarget = d3.select(d3.event.target), event_ = event.of(target, arguments), g = d3.select(target), resizing = eventTarget.datum(), resizingX = !/^(n|s)$/.test(resizing) && x, resizingY = !/^(e|w)$/.test(resizing) && y, dragging = eventTarget.classed("extent"), dragRestore = d3_event_dragSuppress(target), center, origin = d3.mouse(target), offset; var w = d3.select(d3_window(target)).on("keydown.brush", keydown).on("keyup.brush", keyup); if (d3.event.changedTouches) { w.on("touchmove.brush", brushmove).on("touchend.brush", brushend); } else { w.on("mousemove.brush", brushmove).on("mouseup.brush", brushend); } g.interrupt().selectAll("*").interrupt(); if (dragging) { origin[0] = xExtent[0] - origin[0]; origin[1] = yExtent[0] - origin[1]; } else if (resizing) { var ex = +/w$/.test(resizing), ey = +/^n/.test(resizing); offset = [ xExtent[1 - ex] - origin[0], yExtent[1 - ey] - origin[1] ]; origin[0] = xExtent[ex]; origin[1] = yExtent[ey]; } else if (d3.event.altKey) center = origin.slice(); g.style("pointer-events", "none").selectAll(".resize").style("display", null); d3.select("body").style("cursor", eventTarget.style("cursor")); event_({ type: "brushstart" }); brushmove(); function keydown() { if (d3.event.keyCode == 32) { if (!dragging) { center = null; origin[0] -= xExtent[1]; origin[1] -= yExtent[1]; dragging = 2; } d3_eventPreventDefault(); } } function keyup() { if (d3.event.keyCode == 32 && dragging == 2) { origin[0] += xExtent[1]; origin[1] += yExtent[1]; dragging = 0; d3_eventPreventDefault(); } } function brushmove() { var point = d3.mouse(target), moved = false; if (offset) { point[0] += offset[0]; point[1] += offset[1]; } if (!dragging) { if (d3.event.altKey) { if (!center) center = [ (xExtent[0] + xExtent[1]) / 2, (yExtent[0] + yExtent[1]) / 2 ]; origin[0] = xExtent[+(point[0] < center[0])]; origin[1] = yExtent[+(point[1] < center[1])]; } else center = null; } if (resizingX && move1(point, x, 0)) { redrawX(g); moved = true; } if (resizingY && move1(point, y, 1)) { redrawY(g); moved = true; } if (moved) { redraw(g); event_({ type: "brush", mode: dragging ? "move" : "resize" }); } } function move1(point, scale, i) { var range = d3_scaleRange(scale), r0 = range[0], r1 = range[1], position = origin[i], extent = i ? yExtent : xExtent, size = extent[1] - extent[0], min, max; if (dragging) { r0 -= position; r1 -= size + position; } min = (i ? yClamp : xClamp) ? Math.max(r0, Math.min(r1, point[i])) : point[i]; if (dragging) { max = (min += position) + size; } else { if (center) position = Math.max(r0, Math.min(r1, 2 * center[i] - min)); if (position < min) { max = min; min = position; } else { max = position; } } if (extent[0] != min || extent[1] != max) { if (i) yExtentDomain = null; else xExtentDomain = null; extent[0] = min; extent[1] = max; return true; } } function brushend() { brushmove(); g.style("pointer-events", "all").selectAll(".resize").style("display", brush.empty() ? "none" : null); d3.select("body").style("cursor", null); w.on("mousemove.brush", null).on("mouseup.brush", null).on("touchmove.brush", null).on("touchend.brush", null).on("keydown.brush", null).on("keyup.brush", null); dragRestore(); event_({ type: "brushend" }); } } brush.x = function(z) { if (!arguments.length) return x; x = z; resizes = d3_svg_brushResizes[!x << 1 | !y]; return brush; }; brush.y = function(z) { if (!arguments.length) return y; y = z; resizes = d3_svg_brushResizes[!x << 1 | !y]; return brush; }; brush.clamp = function(z) { if (!arguments.length) return x && y ? [ xClamp, yClamp ] : x ? xClamp : y ? yClamp : null; if (x && y) xClamp = !!z[0], yClamp = !!z[1]; else if (x) xClamp = !!z; else if (y) yClamp = !!z; return brush; }; brush.extent = function(z) { var x0, x1, y0, y1, t; if (!arguments.length) { if (x) { if (xExtentDomain) { x0 = xExtentDomain[0], x1 = xExtentDomain[1]; } else { x0 = xExtent[0], x1 = xExtent[1]; if (x.invert) x0 = x.invert(x0), x1 = x.invert(x1); if (x1 < x0) t = x0, x0 = x1, x1 = t; } } if (y) { if (yExtentDomain) { y0 = yExtentDomain[0], y1 = yExtentDomain[1]; } else { y0 = yExtent[0], y1 = yExtent[1]; if (y.invert) y0 = y.invert(y0), y1 = y.invert(y1); if (y1 < y0) t = y0, y0 = y1, y1 = t; } } return x && y ? [ [ x0, y0 ], [ x1, y1 ] ] : x ? [ x0, x1 ] : y && [ y0, y1 ]; } if (x) { x0 = z[0], x1 = z[1]; if (y) x0 = x0[0], x1 = x1[0]; xExtentDomain = [ x0, x1 ]; if (x.invert) x0 = x(x0), x1 = x(x1); if (x1 < x0) t = x0, x0 = x1, x1 = t; if (x0 != xExtent[0] || x1 != xExtent[1]) xExtent = [ x0, x1 ]; } if (y) { y0 = z[0], y1 = z[1]; if (x) y0 = y0[1], y1 = y1[1]; yExtentDomain = [ y0, y1 ]; if (y.invert) y0 = y(y0), y1 = y(y1); if (y1 < y0) t = y0, y0 = y1, y1 = t; if (y0 != yExtent[0] || y1 != yExtent[1]) yExtent = [ y0, y1 ]; } return brush; }; brush.clear = function() { if (!brush.empty()) { xExtent = [ 0, 0 ], yExtent = [ 0, 0 ]; xExtentDomain = yExtentDomain = null; } return brush; }; brush.empty = function() { return !!x && xExtent[0] == xExtent[1] || !!y && yExtent[0] == yExtent[1]; }; return d3.rebind(brush, event, "on"); }; var d3_svg_brushCursor = { n: "ns-resize", e: "ew-resize", s: "ns-resize", w: "ew-resize", nw: "nwse-resize", ne: "nesw-resize", se: "nwse-resize", sw: "nesw-resize" }; var d3_svg_brushResizes = [ [ "n", "e", "s", "w", "nw", "ne", "se", "sw" ], [ "e", "w" ], [ "n", "s" ], [] ]; d3.text = d3_xhrType(function(request) { return request.responseText; }); d3.json = function(url, callback) { return d3_xhr(url, "application/json", d3_json, callback); }; function d3_json(request) { return JSON.parse(request.responseText); } d3.html = function(url, callback) { return d3_xhr(url, "text/html", d3_html, callback); }; function d3_html(request) { var range = d3_document.createRange(); range.selectNode(d3_document.body); return range.createContextualFragment(request.responseText); } d3.xml = d3_xhrType(function(request) { return request.responseXML; }); if (typeof define === "function" && define.amd) this.d3 = d3, define(d3); else if (typeof module === "object" && module.exports) module.exports = d3; else this.d3 = d3; }.apply(self); },{}],21:[function(_dereq_,module,exports){ (function (global){(function (){ 'use strict'; var objectAssign = _dereq_('object-assign'); // compare and isBuffer taken from https://github.com/feross/buffer/blob/680e9e5e488f22aac27599a57dc844a6315928dd/index.js // original notice: /*! * The buffer module from node.js, for the browser. * * @author Feross Aboukhadijeh * @license MIT */ function compare(a, b) { if (a === b) { return 0; } var x = a.length; var y = b.length; for (var i = 0, len = Math.min(x, y); i < len; ++i) { if (a[i] !== b[i]) { x = a[i]; y = b[i]; break; } } if (x < y) { return -1; } if (y < x) { return 1; } return 0; } function isBuffer(b) { if (global.Buffer && typeof global.Buffer.isBuffer === 'function') { return global.Buffer.isBuffer(b); } return !!(b != null && b._isBuffer); } // based on node assert, original notice: // NB: The URL to the CommonJS spec is kept just for tradition. // node-assert has evolved a lot since then, both in API and behavior. // http://wiki.commonjs.org/wiki/Unit_Testing/1.0 // // THIS IS NOT TESTED NOR LIKELY TO WORK OUTSIDE V8! // // Originally from narwhal.js (http://narwhaljs.org) // Copyright (c) 2009 Thomas Robinson <280north.com> // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the 'Software'), to // deal in the Software without restriction, including without limitation the // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or // sell copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN // ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. var util = _dereq_('util/'); var hasOwn = Object.prototype.hasOwnProperty; var pSlice = Array.prototype.slice; var functionsHaveNames = (function () { return function foo() {}.name === 'foo'; }()); function pToString (obj) { return Object.prototype.toString.call(obj); } function isView(arrbuf) { if (isBuffer(arrbuf)) { return false; } if (typeof global.ArrayBuffer !== 'function') { return false; } if (typeof ArrayBuffer.isView === 'function') { return ArrayBuffer.isView(arrbuf); } if (!arrbuf) { return false; } if (arrbuf instanceof DataView) { return true; } if (arrbuf.buffer && arrbuf.buffer instanceof ArrayBuffer) { return true; } return false; } // 1. The assert module provides functions that throw // AssertionError's when particular conditions are not met. The // assert module must conform to the following interface. var assert = module.exports = ok; // 2. The AssertionError is defined in assert. // new assert.AssertionError({ message: message, // actual: actual, // expected: expected }) var regex = /\s*function\s+([^\(\s]*)\s*/; // based on https://github.com/ljharb/function.prototype.name/blob/adeeeec8bfcc6068b187d7d9fb3d5bb1d3a30899/implementation.js function getName(func) { if (!util.isFunction(func)) { return; } if (functionsHaveNames) { return func.name; } var str = func.toString(); var match = str.match(regex); return match && match[1]; } assert.AssertionError = function AssertionError(options) { this.name = 'AssertionError'; this.actual = options.actual; this.expected = options.expected; this.operator = options.operator; if (options.message) { this.message = options.message; this.generatedMessage = false; } else { this.message = getMessage(this); this.generatedMessage = true; } var stackStartFunction = options.stackStartFunction || fail; if (Error.captureStackTrace) { Error.captureStackTrace(this, stackStartFunction); } else { // non v8 browsers so we can have a stacktrace var err = new Error(); if (err.stack) { var out = err.stack; // try to strip useless frames var fn_name = getName(stackStartFunction); var idx = out.indexOf('\n' + fn_name); if (idx >= 0) { // once we have located the function frame // we need to strip out everything before it (and its line) var next_line = out.indexOf('\n', idx + 1); out = out.substring(next_line + 1); } this.stack = out; } } }; // assert.AssertionError instanceof Error util.inherits(assert.AssertionError, Error); function truncate(s, n) { if (typeof s === 'string') { return s.length < n ? s : s.slice(0, n); } else { return s; } } function inspect(something) { if (functionsHaveNames || !util.isFunction(something)) { return util.inspect(something); } var rawname = getName(something); var name = rawname ? ': ' + rawname : ''; return '[Function' + name + ']'; } function getMessage(self) { return truncate(inspect(self.actual), 128) + ' ' + self.operator + ' ' + truncate(inspect(self.expected), 128); } // At present only the three keys mentioned above are used and // understood by the spec. Implementations or sub modules can pass // other keys to the AssertionError's constructor - they will be // ignored. // 3. All of the following functions must throw an AssertionError // when a corresponding condition is not met, with a message that // may be undefined if not provided. All assertion methods provide // both the actual and expected values to the assertion error for // display purposes. function fail(actual, expected, message, operator, stackStartFunction) { throw new assert.AssertionError({ message: message, actual: actual, expected: expected, operator: operator, stackStartFunction: stackStartFunction }); } // EXTENSION! allows for well behaved errors defined elsewhere. assert.fail = fail; // 4. Pure assertion tests whether a value is truthy, as determined // by !!guard. // assert.ok(guard, message_opt); // This statement is equivalent to assert.equal(true, !!guard, // message_opt);. To test strictly for the value true, use // assert.strictEqual(true, guard, message_opt);. function ok(value, message) { if (!value) fail(value, true, message, '==', assert.ok); } assert.ok = ok; // 5. The equality assertion tests shallow, coercive equality with // ==. // assert.equal(actual, expected, message_opt); assert.equal = function equal(actual, expected, message) { if (actual != expected) fail(actual, expected, message, '==', assert.equal); }; // 6. The non-equality assertion tests for whether two objects are not equal // with != assert.notEqual(actual, expected, message_opt); assert.notEqual = function notEqual(actual, expected, message) { if (actual == expected) { fail(actual, expected, message, '!=', assert.notEqual); } }; // 7. The equivalence assertion tests a deep equality relation. // assert.deepEqual(actual, expected, message_opt); assert.deepEqual = function deepEqual(actual, expected, message) { if (!_deepEqual(actual, expected, false)) { fail(actual, expected, message, 'deepEqual', assert.deepEqual); } }; assert.deepStrictEqual = function deepStrictEqual(actual, expected, message) { if (!_deepEqual(actual, expected, true)) { fail(actual, expected, message, 'deepStrictEqual', assert.deepStrictEqual); } }; function _deepEqual(actual, expected, strict, memos) { // 7.1. All identical values are equivalent, as determined by ===. if (actual === expected) { return true; } else if (isBuffer(actual) && isBuffer(expected)) { return compare(actual, expected) === 0; // 7.2. If the expected value is a Date object, the actual value is // equivalent if it is also a Date object that refers to the same time. } else if (util.isDate(actual) && util.isDate(expected)) { return actual.getTime() === expected.getTime(); // 7.3 If the expected value is a RegExp object, the actual value is // equivalent if it is also a RegExp object with the same source and // properties (`global`, `multiline`, `lastIndex`, `ignoreCase`). } else if (util.isRegExp(actual) && util.isRegExp(expected)) { return actual.source === expected.source && actual.global === expected.global && actual.multiline === expected.multiline && actual.lastIndex === expected.lastIndex && actual.ignoreCase === expected.ignoreCase; // 7.4. Other pairs that do not both pass typeof value == 'object', // equivalence is determined by ==. } else if ((actual === null || typeof actual !== 'object') && (expected === null || typeof expected !== 'object')) { return strict ? actual === expected : actual == expected; // If both values are instances of typed arrays, wrap their underlying // ArrayBuffers in a Buffer each to increase performance // This optimization requires the arrays to have the same type as checked by // Object.prototype.toString (aka pToString). Never perform binary // comparisons for Float*Arrays, though, since e.g. +0 === -0 but their // bit patterns are not identical. } else if (isView(actual) && isView(expected) && pToString(actual) === pToString(expected) && !(actual instanceof Float32Array || actual instanceof Float64Array)) { return compare(new Uint8Array(actual.buffer), new Uint8Array(expected.buffer)) === 0; // 7.5 For all other Object pairs, including Array objects, equivalence is // determined by having the same number of owned properties (as verified // with Object.prototype.hasOwnProperty.call), the same set of keys // (although not necessarily the same order), equivalent values for every // corresponding key, and an identical 'prototype' property. Note: this // accounts for both named and indexed properties on Arrays. } else if (isBuffer(actual) !== isBuffer(expected)) { return false; } else { memos = memos || {actual: [], expected: []}; var actualIndex = memos.actual.indexOf(actual); if (actualIndex !== -1) { if (actualIndex === memos.expected.indexOf(expected)) { return true; } } memos.actual.push(actual); memos.expected.push(expected); return objEquiv(actual, expected, strict, memos); } } function isArguments(object) { return Object.prototype.toString.call(object) == '[object Arguments]'; } function objEquiv(a, b, strict, actualVisitedObjects) { if (a === null || a === undefined || b === null || b === undefined) return false; // if one is a primitive, the other must be same if (util.isPrimitive(a) || util.isPrimitive(b)) return a === b; if (strict && Object.getPrototypeOf(a) !== Object.getPrototypeOf(b)) return false; var aIsArgs = isArguments(a); var bIsArgs = isArguments(b); if ((aIsArgs && !bIsArgs) || (!aIsArgs && bIsArgs)) return false; if (aIsArgs) { a = pSlice.call(a); b = pSlice.call(b); return _deepEqual(a, b, strict); } var ka = objectKeys(a); var kb = objectKeys(b); var key, i; // having the same number of owned properties (keys incorporates // hasOwnProperty) if (ka.length !== kb.length) return false; //the same set of keys (although not necessarily the same order), ka.sort(); kb.sort(); //~~~cheap key test for (i = ka.length - 1; i >= 0; i--) { if (ka[i] !== kb[i]) return false; } //equivalent values for every corresponding key, and //~~~possibly expensive deep test for (i = ka.length - 1; i >= 0; i--) { key = ka[i]; if (!_deepEqual(a[key], b[key], strict, actualVisitedObjects)) return false; } return true; } // 8. The non-equivalence assertion tests for any deep inequality. // assert.notDeepEqual(actual, expected, message_opt); assert.notDeepEqual = function notDeepEqual(actual, expected, message) { if (_deepEqual(actual, expected, false)) { fail(actual, expected, message, 'notDeepEqual', assert.notDeepEqual); } }; assert.notDeepStrictEqual = notDeepStrictEqual; function notDeepStrictEqual(actual, expected, message) { if (_deepEqual(actual, expected, true)) { fail(actual, expected, message, 'notDeepStrictEqual', notDeepStrictEqual); } } // 9. The strict equality assertion tests strict equality, as determined by ===. // assert.strictEqual(actual, expected, message_opt); assert.strictEqual = function strictEqual(actual, expected, message) { if (actual !== expected) { fail(actual, expected, message, '===', assert.strictEqual); } }; // 10. The strict non-equality assertion tests for strict inequality, as // determined by !==. assert.notStrictEqual(actual, expected, message_opt); assert.notStrictEqual = function notStrictEqual(actual, expected, message) { if (actual === expected) { fail(actual, expected, message, '!==', assert.notStrictEqual); } }; function expectedException(actual, expected) { if (!actual || !expected) { return false; } if (Object.prototype.toString.call(expected) == '[object RegExp]') { return expected.test(actual); } try { if (actual instanceof expected) { return true; } } catch (e) { // Ignore. The instanceof check doesn't work for arrow functions. } if (Error.isPrototypeOf(expected)) { return false; } return expected.call({}, actual) === true; } function _tryBlock(block) { var error; try { block(); } catch (e) { error = e; } return error; } function _throws(shouldThrow, block, expected, message) { var actual; if (typeof block !== 'function') { throw new TypeError('"block" argument must be a function'); } if (typeof expected === 'string') { message = expected; expected = null; } actual = _tryBlock(block); message = (expected && expected.name ? ' (' + expected.name + ').' : '.') + (message ? ' ' + message : '.'); if (shouldThrow && !actual) { fail(actual, expected, 'Missing expected exception' + message); } var userProvidedMessage = typeof message === 'string'; var isUnwantedException = !shouldThrow && util.isError(actual); var isUnexpectedException = !shouldThrow && actual && !expected; if ((isUnwantedException && userProvidedMessage && expectedException(actual, expected)) || isUnexpectedException) { fail(actual, expected, 'Got unwanted exception' + message); } if ((shouldThrow && actual && expected && !expectedException(actual, expected)) || (!shouldThrow && actual)) { throw actual; } } // 11. Expected to throw an error: // assert.throws(block, Error_opt, message_opt); assert.throws = function(block, /*optional*/error, /*optional*/message) { _throws(true, block, error, message); }; // EXTENSION! This is annoying to write outside this module. assert.doesNotThrow = function(block, /*optional*/error, /*optional*/message) { _throws(false, block, error, message); }; assert.ifError = function(err) { if (err) throw err; }; // Expose a strict only variant of assert function strict(value, message) { if (!value) fail(value, true, message, '==', strict); } assert.strict = objectAssign(strict, assert, { equal: assert.strictEqual, deepEqual: assert.deepStrictEqual, notEqual: assert.notStrictEqual, notDeepEqual: assert.notDeepStrictEqual }); assert.strict.strict = assert.strict; var objectKeys = Object.keys || function (obj) { var keys = []; for (var key in obj) { if (hasOwn.call(obj, key)) keys.push(key); } return keys; }; }).call(this)}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {}) },{"object-assign":73,"util/":24}],22:[function(_dereq_,module,exports){ if (typeof Object.create === 'function') { // implementation from standard node.js 'util' module module.exports = function inherits(ctor, superCtor) { ctor.super_ = superCtor ctor.prototype = Object.create(superCtor.prototype, { constructor: { value: ctor, enumerable: false, writable: true, configurable: true } }); }; } else { // old school shim for old browsers module.exports = function inherits(ctor, superCtor) { ctor.super_ = superCtor var TempCtor = function () {} TempCtor.prototype = superCtor.prototype ctor.prototype = new TempCtor() ctor.prototype.constructor = ctor } } },{}],23:[function(_dereq_,module,exports){ module.exports = function isBuffer(arg) { return arg && typeof arg === 'object' && typeof arg.copy === 'function' && typeof arg.fill === 'function' && typeof arg.readUInt8 === 'function'; } },{}],24:[function(_dereq_,module,exports){ (function (process,global){(function (){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. var formatRegExp = /%[sdj%]/g; exports.format = function(f) { if (!isString(f)) { var objects = []; for (var i = 0; i < arguments.length; i++) { objects.push(inspect(arguments[i])); } return objects.join(' '); } var i = 1; var args = arguments; var len = args.length; var str = String(f).replace(formatRegExp, function(x) { if (x === '%%') return '%'; if (i >= len) return x; switch (x) { case '%s': return String(args[i++]); case '%d': return Number(args[i++]); case '%j': try { return JSON.stringify(args[i++]); } catch (_) { return '[Circular]'; } default: return x; } }); for (var x = args[i]; i < len; x = args[++i]) { if (isNull(x) || !isObject(x)) { str += ' ' + x; } else { str += ' ' + inspect(x); } } return str; }; // Mark that a method should not be used. // Returns a modified function which warns once by default. // If --no-deprecation is set, then it is a no-op. exports.deprecate = function(fn, msg) { // Allow for deprecating things in the process of starting up. if (isUndefined(global.process)) { return function() { return exports.deprecate(fn, msg).apply(this, arguments); }; } if (process.noDeprecation === true) { return fn; } var warned = false; function deprecated() { if (!warned) { if (process.throwDeprecation) { throw new Error(msg); } else if (process.traceDeprecation) { console.trace(msg); } else { console.error(msg); } warned = true; } return fn.apply(this, arguments); } return deprecated; }; var debugs = {}; var debugEnviron; exports.debuglog = function(set) { if (isUndefined(debugEnviron)) debugEnviron = process.env.NODE_DEBUG || ''; set = set.toUpperCase(); if (!debugs[set]) { if (new RegExp('\\b' + set + '\\b', 'i').test(debugEnviron)) { var pid = process.pid; debugs[set] = function() { var msg = exports.format.apply(exports, arguments); console.error('%s %d: %s', set, pid, msg); }; } else { debugs[set] = function() {}; } } return debugs[set]; }; /** * Echos the value of a value. Trys to print the value out * in the best way possible given the different types. * * @param {Object} obj The object to print out. * @param {Object} opts Optional options object that alters the output. */ /* legacy: obj, showHidden, depth, colors*/ function inspect(obj, opts) { // default options var ctx = { seen: [], stylize: stylizeNoColor }; // legacy... if (arguments.length >= 3) ctx.depth = arguments[2]; if (arguments.length >= 4) ctx.colors = arguments[3]; if (isBoolean(opts)) { // legacy... ctx.showHidden = opts; } else if (opts) { // got an "options" object exports._extend(ctx, opts); } // set default options if (isUndefined(ctx.showHidden)) ctx.showHidden = false; if (isUndefined(ctx.depth)) ctx.depth = 2; if (isUndefined(ctx.colors)) ctx.colors = false; if (isUndefined(ctx.customInspect)) ctx.customInspect = true; if (ctx.colors) ctx.stylize = stylizeWithColor; return formatValue(ctx, obj, ctx.depth); } exports.inspect = inspect; // http://en.wikipedia.org/wiki/ANSI_escape_code#graphics inspect.colors = { 'bold' : [1, 22], 'italic' : [3, 23], 'underline' : [4, 24], 'inverse' : [7, 27], 'white' : [37, 39], 'grey' : [90, 39], 'black' : [30, 39], 'blue' : [34, 39], 'cyan' : [36, 39], 'green' : [32, 39], 'magenta' : [35, 39], 'red' : [31, 39], 'yellow' : [33, 39] }; // Don't use 'blue' not visible on cmd.exe inspect.styles = { 'special': 'cyan', 'number': 'yellow', 'boolean': 'yellow', 'undefined': 'grey', 'null': 'bold', 'string': 'green', 'date': 'magenta', // "name": intentionally not styling 'regexp': 'red' }; function stylizeWithColor(str, styleType) { var style = inspect.styles[styleType]; if (style) { return '\u001b[' + inspect.colors[style][0] + 'm' + str + '\u001b[' + inspect.colors[style][1] + 'm'; } else { return str; } } function stylizeNoColor(str, styleType) { return str; } function arrayToHash(array) { var hash = {}; array.forEach(function(val, idx) { hash[val] = true; }); return hash; } function formatValue(ctx, value, recurseTimes) { // Provide a hook for user-specified inspect functions. // Check that value is an object with an inspect function on it if (ctx.customInspect && value && isFunction(value.inspect) && // Filter out the util module, it's inspect function is special value.inspect !== exports.inspect && // Also filter out any prototype objects using the circular check. !(value.constructor && value.constructor.prototype === value)) { var ret = value.inspect(recurseTimes, ctx); if (!isString(ret)) { ret = formatValue(ctx, ret, recurseTimes); } return ret; } // Primitive types cannot have properties var primitive = formatPrimitive(ctx, value); if (primitive) { return primitive; } // Look up the keys of the object. var keys = Object.keys(value); var visibleKeys = arrayToHash(keys); if (ctx.showHidden) { keys = Object.getOwnPropertyNames(value); } // IE doesn't make error fields non-enumerable // http://msdn.microsoft.com/en-us/library/ie/dww52sbt(v=vs.94).aspx if (isError(value) && (keys.indexOf('message') >= 0 || keys.indexOf('description') >= 0)) { return formatError(value); } // Some type of object without properties can be shortcutted. if (keys.length === 0) { if (isFunction(value)) { var name = value.name ? ': ' + value.name : ''; return ctx.stylize('[Function' + name + ']', 'special'); } if (isRegExp(value)) { return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp'); } if (isDate(value)) { return ctx.stylize(Date.prototype.toString.call(value), 'date'); } if (isError(value)) { return formatError(value); } } var base = '', array = false, braces = ['{', '}']; // Make Array say that they are Array if (isArray(value)) { array = true; braces = ['[', ']']; } // Make functions say that they are functions if (isFunction(value)) { var n = value.name ? ': ' + value.name : ''; base = ' [Function' + n + ']'; } // Make RegExps say that they are RegExps if (isRegExp(value)) { base = ' ' + RegExp.prototype.toString.call(value); } // Make dates with properties first say the date if (isDate(value)) { base = ' ' + Date.prototype.toUTCString.call(value); } // Make error with message first say the error if (isError(value)) { base = ' ' + formatError(value); } if (keys.length === 0 && (!array || value.length == 0)) { return braces[0] + base + braces[1]; } if (recurseTimes < 0) { if (isRegExp(value)) { return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp'); } else { return ctx.stylize('[Object]', 'special'); } } ctx.seen.push(value); var output; if (array) { output = formatArray(ctx, value, recurseTimes, visibleKeys, keys); } else { output = keys.map(function(key) { return formatProperty(ctx, value, recurseTimes, visibleKeys, key, array); }); } ctx.seen.pop(); return reduceToSingleString(output, base, braces); } function formatPrimitive(ctx, value) { if (isUndefined(value)) return ctx.stylize('undefined', 'undefined'); if (isString(value)) { var simple = '\'' + JSON.stringify(value).replace(/^"|"$/g, '') .replace(/'/g, "\\'") .replace(/\\"/g, '"') + '\''; return ctx.stylize(simple, 'string'); } if (isNumber(value)) return ctx.stylize('' + value, 'number'); if (isBoolean(value)) return ctx.stylize('' + value, 'boolean'); // For some reason typeof null is "object", so special case here. if (isNull(value)) return ctx.stylize('null', 'null'); } function formatError(value) { return '[' + Error.prototype.toString.call(value) + ']'; } function formatArray(ctx, value, recurseTimes, visibleKeys, keys) { var output = []; for (var i = 0, l = value.length; i < l; ++i) { if (hasOwnProperty(value, String(i))) { output.push(formatProperty(ctx, value, recurseTimes, visibleKeys, String(i), true)); } else { output.push(''); } } keys.forEach(function(key) { if (!key.match(/^\d+$/)) { output.push(formatProperty(ctx, value, recurseTimes, visibleKeys, key, true)); } }); return output; } function formatProperty(ctx, value, recurseTimes, visibleKeys, key, array) { var name, str, desc; desc = Object.getOwnPropertyDescriptor(value, key) || { value: value[key] }; if (desc.get) { if (desc.set) { str = ctx.stylize('[Getter/Setter]', 'special'); } else { str = ctx.stylize('[Getter]', 'special'); } } else { if (desc.set) { str = ctx.stylize('[Setter]', 'special'); } } if (!hasOwnProperty(visibleKeys, key)) { name = '[' + key + ']'; } if (!str) { if (ctx.seen.indexOf(desc.value) < 0) { if (isNull(recurseTimes)) { str = formatValue(ctx, desc.value, null); } else { str = formatValue(ctx, desc.value, recurseTimes - 1); } if (str.indexOf('\n') > -1) { if (array) { str = str.split('\n').map(function(line) { return ' ' + line; }).join('\n').substr(2); } else { str = '\n' + str.split('\n').map(function(line) { return ' ' + line; }).join('\n'); } } } else { str = ctx.stylize('[Circular]', 'special'); } } if (isUndefined(name)) { if (array && key.match(/^\d+$/)) { return str; } name = JSON.stringify('' + key); if (name.match(/^"([a-zA-Z_][a-zA-Z_0-9]*)"$/)) { name = name.substr(1, name.length - 2); name = ctx.stylize(name, 'name'); } else { name = name.replace(/'/g, "\\'") .replace(/\\"/g, '"') .replace(/(^"|"$)/g, "'"); name = ctx.stylize(name, 'string'); } } return name + ': ' + str; } function reduceToSingleString(output, base, braces) { var numLinesEst = 0; var length = output.reduce(function(prev, cur) { numLinesEst++; if (cur.indexOf('\n') >= 0) numLinesEst++; return prev + cur.replace(/\u001b\[\d\d?m/g, '').length + 1; }, 0); if (length > 60) { return braces[0] + (base === '' ? '' : base + '\n ') + ' ' + output.join(',\n ') + ' ' + braces[1]; } return braces[0] + base + ' ' + output.join(', ') + ' ' + braces[1]; } // NOTE: These type checking functions intentionally don't use `instanceof` // because it is fragile and can be easily faked with `Object.create()`. function isArray(ar) { return Array.isArray(ar); } exports.isArray = isArray; function isBoolean(arg) { return typeof arg === 'boolean'; } exports.isBoolean = isBoolean; function isNull(arg) { return arg === null; } exports.isNull = isNull; function isNullOrUndefined(arg) { return arg == null; } exports.isNullOrUndefined = isNullOrUndefined; function isNumber(arg) { return typeof arg === 'number'; } exports.isNumber = isNumber; function isString(arg) { return typeof arg === 'string'; } exports.isString = isString; function isSymbol(arg) { return typeof arg === 'symbol'; } exports.isSymbol = isSymbol; function isUndefined(arg) { return arg === void 0; } exports.isUndefined = isUndefined; function isRegExp(re) { return isObject(re) && objectToString(re) === '[object RegExp]'; } exports.isRegExp = isRegExp; function isObject(arg) { return typeof arg === 'object' && arg !== null; } exports.isObject = isObject; function isDate(d) { return isObject(d) && objectToString(d) === '[object Date]'; } exports.isDate = isDate; function isError(e) { return isObject(e) && (objectToString(e) === '[object Error]' || e instanceof Error); } exports.isError = isError; function isFunction(arg) { return typeof arg === 'function'; } exports.isFunction = isFunction; function isPrimitive(arg) { return arg === null || typeof arg === 'boolean' || typeof arg === 'number' || typeof arg === 'string' || typeof arg === 'symbol' || // ES6 symbol typeof arg === 'undefined'; } exports.isPrimitive = isPrimitive; exports.isBuffer = _dereq_('./support/isBuffer'); function objectToString(o) { return Object.prototype.toString.call(o); } function pad(n) { return n < 10 ? '0' + n.toString(10) : n.toString(10); } var months = ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec']; // 26 Feb 16:19:34 function timestamp() { var d = new Date(); var time = [pad(d.getHours()), pad(d.getMinutes()), pad(d.getSeconds())].join(':'); return [d.getDate(), months[d.getMonth()], time].join(' '); } // log is just a thin wrapper to console.log that prepends a timestamp exports.log = function() { console.log('%s - %s', timestamp(), exports.format.apply(exports, arguments)); }; /** * Inherit the prototype methods from one constructor into another. * * The Function.prototype.inherits from lang.js rewritten as a standalone * function (not on Function.prototype). NOTE: If this file is to be loaded * during bootstrapping this function needs to be rewritten using some native * functions as prototype setup using normal JavaScript does not work as * expected during bootstrapping (see mirror.js in r114903). * * @param {function} ctor Constructor function which needs to inherit the * prototype. * @param {function} superCtor Constructor function to inherit prototype from. */ exports.inherits = _dereq_('inherits'); exports._extend = function(origin, add) { // Don't do anything if add isn't an object if (!add || !isObject(add)) return origin; var keys = Object.keys(add); var i = keys.length; while (i--) { origin[keys[i]] = add[keys[i]]; } return origin; }; function hasOwnProperty(obj, prop) { return Object.prototype.hasOwnProperty.call(obj, prop); } }).call(this)}).call(this,_dereq_('_process'),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {}) },{"./support/isBuffer":23,"_process":98,"inherits":22}],25:[function(_dereq_,module,exports){ 'use strict' exports.byteLength = byteLength exports.toByteArray = toByteArray exports.fromByteArray = fromByteArray var lookup = [] var revLookup = [] var Arr = typeof Uint8Array !== 'undefined' ? Uint8Array : Array var code = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/' for (var i = 0, len = code.length; i < len; ++i) { lookup[i] = code[i] revLookup[code.charCodeAt(i)] = i } // Support decoding URL-safe base64 strings, as Node.js does. // See: https://en.wikipedia.org/wiki/Base64#URL_applications revLookup['-'.charCodeAt(0)] = 62 revLookup['_'.charCodeAt(0)] = 63 function getLens (b64) { var len = b64.length if (len % 4 > 0) { throw new Error('Invalid string. Length must be a multiple of 4') } // Trim off extra bytes after placeholder bytes are found // See: https://github.com/beatgammit/base64-js/issues/42 var validLen = b64.indexOf('=') if (validLen === -1) validLen = len var placeHoldersLen = validLen === len ? 0 : 4 - (validLen % 4) return [validLen, placeHoldersLen] } // base64 is 4/3 + up to two characters of the original data function byteLength (b64) { var lens = getLens(b64) var validLen = lens[0] var placeHoldersLen = lens[1] return ((validLen + placeHoldersLen) * 3 / 4) - placeHoldersLen } function _byteLength (b64, validLen, placeHoldersLen) { return ((validLen + placeHoldersLen) * 3 / 4) - placeHoldersLen } function toByteArray (b64) { var tmp var lens = getLens(b64) var validLen = lens[0] var placeHoldersLen = lens[1] var arr = new Arr(_byteLength(b64, validLen, placeHoldersLen)) var curByte = 0 // if there are placeholders, only get up to the last complete 4 chars var len = placeHoldersLen > 0 ? validLen - 4 : validLen var i for (i = 0; i < len; i += 4) { tmp = (revLookup[b64.charCodeAt(i)] << 18) | (revLookup[b64.charCodeAt(i + 1)] << 12) | (revLookup[b64.charCodeAt(i + 2)] << 6) | revLookup[b64.charCodeAt(i + 3)] arr[curByte++] = (tmp >> 16) & 0xFF arr[curByte++] = (tmp >> 8) & 0xFF arr[curByte++] = tmp & 0xFF } if (placeHoldersLen === 2) { tmp = (revLookup[b64.charCodeAt(i)] << 2) | (revLookup[b64.charCodeAt(i + 1)] >> 4) arr[curByte++] = tmp & 0xFF } if (placeHoldersLen === 1) { tmp = (revLookup[b64.charCodeAt(i)] << 10) | (revLookup[b64.charCodeAt(i + 1)] << 4) | (revLookup[b64.charCodeAt(i + 2)] >> 2) arr[curByte++] = (tmp >> 8) & 0xFF arr[curByte++] = tmp & 0xFF } return arr } function tripletToBase64 (num) { return lookup[num >> 18 & 0x3F] + lookup[num >> 12 & 0x3F] + lookup[num >> 6 & 0x3F] + lookup[num & 0x3F] } function encodeChunk (uint8, start, end) { var tmp var output = [] for (var i = start; i < end; i += 3) { tmp = ((uint8[i] << 16) & 0xFF0000) + ((uint8[i + 1] << 8) & 0xFF00) + (uint8[i + 2] & 0xFF) output.push(tripletToBase64(tmp)) } return output.join('') } function fromByteArray (uint8) { var tmp var len = uint8.length var extraBytes = len % 3 // if we have 1 byte left, pad 2 bytes var parts = [] var maxChunkLength = 16383 // must be multiple of 3 // go through the array every three bytes, we'll deal with trailing stuff later for (var i = 0, len2 = len - extraBytes; i < len2; i += maxChunkLength) { parts.push(encodeChunk( uint8, i, (i + maxChunkLength) > len2 ? len2 : (i + maxChunkLength) )) } // pad the end with zeros, but make sure to not forget the extra bytes if (extraBytes === 1) { tmp = uint8[len - 1] parts.push( lookup[tmp >> 2] + lookup[(tmp << 4) & 0x3F] + '==' ) } else if (extraBytes === 2) { tmp = (uint8[len - 2] << 8) + uint8[len - 1] parts.push( lookup[tmp >> 10] + lookup[(tmp >> 4) & 0x3F] + lookup[(tmp << 2) & 0x3F] + '=' ) } return parts.join('') } },{}],26:[function(_dereq_,module,exports){ },{}],27:[function(_dereq_,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. 'use strict'; var R = typeof Reflect === 'object' ? Reflect : null var ReflectApply = R && typeof R.apply === 'function' ? R.apply : function ReflectApply(target, receiver, args) { return Function.prototype.apply.call(target, receiver, args); } var ReflectOwnKeys if (R && typeof R.ownKeys === 'function') { ReflectOwnKeys = R.ownKeys } else if (Object.getOwnPropertySymbols) { ReflectOwnKeys = function ReflectOwnKeys(target) { return Object.getOwnPropertyNames(target) .concat(Object.getOwnPropertySymbols(target)); }; } else { ReflectOwnKeys = function ReflectOwnKeys(target) { return Object.getOwnPropertyNames(target); }; } function ProcessEmitWarning(warning) { if (console && console.warn) console.warn(warning); } var NumberIsNaN = Number.isNaN || function NumberIsNaN(value) { return value !== value; } function EventEmitter() { EventEmitter.init.call(this); } module.exports = EventEmitter; module.exports.once = once; // Backwards-compat with node 0.10.x EventEmitter.EventEmitter = EventEmitter; EventEmitter.prototype._events = undefined; EventEmitter.prototype._eventsCount = 0; EventEmitter.prototype._maxListeners = undefined; // By default EventEmitters will print a warning if more than 10 listeners are // added to it. This is a useful default which helps finding memory leaks. var defaultMaxListeners = 10; function checkListener(listener) { if (typeof listener !== 'function') { throw new TypeError('The "listener" argument must be of type Function. Received type ' + typeof listener); } } Object.defineProperty(EventEmitter, 'defaultMaxListeners', { enumerable: true, get: function() { return defaultMaxListeners; }, set: function(arg) { if (typeof arg !== 'number' || arg < 0 || NumberIsNaN(arg)) { throw new RangeError('The value of "defaultMaxListeners" is out of range. It must be a non-negative number. Received ' + arg + '.'); } defaultMaxListeners = arg; } }); EventEmitter.init = function() { if (this._events === undefined || this._events === Object.getPrototypeOf(this)._events) { this._events = Object.create(null); this._eventsCount = 0; } this._maxListeners = this._maxListeners || undefined; }; // Obviously not all Emitters should be limited to 10. This function allows // that to be increased. Set to zero for unlimited. EventEmitter.prototype.setMaxListeners = function setMaxListeners(n) { if (typeof n !== 'number' || n < 0 || NumberIsNaN(n)) { throw new RangeError('The value of "n" is out of range. It must be a non-negative number. Received ' + n + '.'); } this._maxListeners = n; return this; }; function _getMaxListeners(that) { if (that._maxListeners === undefined) return EventEmitter.defaultMaxListeners; return that._maxListeners; } EventEmitter.prototype.getMaxListeners = function getMaxListeners() { return _getMaxListeners(this); }; EventEmitter.prototype.emit = function emit(type) { var args = []; for (var i = 1; i < arguments.length; i++) args.push(arguments[i]); var doError = (type === 'error'); var events = this._events; if (events !== undefined) doError = (doError && events.error === undefined); else if (!doError) return false; // If there is no 'error' event listener then throw. if (doError) { var er; if (args.length > 0) er = args[0]; if (er instanceof Error) { // Note: The comments on the `throw` lines are intentional, they show // up in Node's output if this results in an unhandled exception. throw er; // Unhandled 'error' event } // At least give some kind of context to the user var err = new Error('Unhandled error.' + (er ? ' (' + er.message + ')' : '')); err.context = er; throw err; // Unhandled 'error' event } var handler = events[type]; if (handler === undefined) return false; if (typeof handler === 'function') { ReflectApply(handler, this, args); } else { var len = handler.length; var listeners = arrayClone(handler, len); for (var i = 0; i < len; ++i) ReflectApply(listeners[i], this, args); } return true; }; function _addListener(target, type, listener, prepend) { var m; var events; var existing; checkListener(listener); events = target._events; if (events === undefined) { events = target._events = Object.create(null); target._eventsCount = 0; } else { // To avoid recursion in the case that type === "newListener"! Before // adding it to the listeners, first emit "newListener". if (events.newListener !== undefined) { target.emit('newListener', type, listener.listener ? listener.listener : listener); // Re-assign `events` because a newListener handler could have caused the // this._events to be assigned to a new object events = target._events; } existing = events[type]; } if (existing === undefined) { // Optimize the case of one listener. Don't need the extra array object. existing = events[type] = listener; ++target._eventsCount; } else { if (typeof existing === 'function') { // Adding the second element, need to change to array. existing = events[type] = prepend ? [listener, existing] : [existing, listener]; // If we've already got an array, just append. } else if (prepend) { existing.unshift(listener); } else { existing.push(listener); } // Check for listener leak m = _getMaxListeners(target); if (m > 0 && existing.length > m && !existing.warned) { existing.warned = true; // No error code for this since it is a Warning // eslint-disable-next-line no-restricted-syntax var w = new Error('Possible EventEmitter memory leak detected. ' + existing.length + ' ' + String(type) + ' listeners ' + 'added. Use emitter.setMaxListeners() to ' + 'increase limit'); w.name = 'MaxListenersExceededWarning'; w.emitter = target; w.type = type; w.count = existing.length; ProcessEmitWarning(w); } } return target; } EventEmitter.prototype.addListener = function addListener(type, listener) { return _addListener(this, type, listener, false); }; EventEmitter.prototype.on = EventEmitter.prototype.addListener; EventEmitter.prototype.prependListener = function prependListener(type, listener) { return _addListener(this, type, listener, true); }; function onceWrapper() { if (!this.fired) { this.target.removeListener(this.type, this.wrapFn); this.fired = true; if (arguments.length === 0) return this.listener.call(this.target); return this.listener.apply(this.target, arguments); } } function _onceWrap(target, type, listener) { var state = { fired: false, wrapFn: undefined, target: target, type: type, listener: listener }; var wrapped = onceWrapper.bind(state); wrapped.listener = listener; state.wrapFn = wrapped; return wrapped; } EventEmitter.prototype.once = function once(type, listener) { checkListener(listener); this.on(type, _onceWrap(this, type, listener)); return this; }; EventEmitter.prototype.prependOnceListener = function prependOnceListener(type, listener) { checkListener(listener); this.prependListener(type, _onceWrap(this, type, listener)); return this; }; // Emits a 'removeListener' event if and only if the listener was removed. EventEmitter.prototype.removeListener = function removeListener(type, listener) { var list, events, position, i, originalListener; checkListener(listener); events = this._events; if (events === undefined) return this; list = events[type]; if (list === undefined) return this; if (list === listener || list.listener === listener) { if (--this._eventsCount === 0) this._events = Object.create(null); else { delete events[type]; if (events.removeListener) this.emit('removeListener', type, list.listener || listener); } } else if (typeof list !== 'function') { position = -1; for (i = list.length - 1; i >= 0; i--) { if (list[i] === listener || list[i].listener === listener) { originalListener = list[i].listener; position = i; break; } } if (position < 0) return this; if (position === 0) list.shift(); else { spliceOne(list, position); } if (list.length === 1) events[type] = list[0]; if (events.removeListener !== undefined) this.emit('removeListener', type, originalListener || listener); } return this; }; EventEmitter.prototype.off = EventEmitter.prototype.removeListener; EventEmitter.prototype.removeAllListeners = function removeAllListeners(type) { var listeners, events, i; events = this._events; if (events === undefined) return this; // not listening for removeListener, no need to emit if (events.removeListener === undefined) { if (arguments.length === 0) { this._events = Object.create(null); this._eventsCount = 0; } else if (events[type] !== undefined) { if (--this._eventsCount === 0) this._events = Object.create(null); else delete events[type]; } return this; } // emit removeListener for all listeners on all events if (arguments.length === 0) { var keys = Object.keys(events); var key; for (i = 0; i < keys.length; ++i) { key = keys[i]; if (key === 'removeListener') continue; this.removeAllListeners(key); } this.removeAllListeners('removeListener'); this._events = Object.create(null); this._eventsCount = 0; return this; } listeners = events[type]; if (typeof listeners === 'function') { this.removeListener(type, listeners); } else if (listeners !== undefined) { // LIFO order for (i = listeners.length - 1; i >= 0; i--) { this.removeListener(type, listeners[i]); } } return this; }; function _listeners(target, type, unwrap) { var events = target._events; if (events === undefined) return []; var evlistener = events[type]; if (evlistener === undefined) return []; if (typeof evlistener === 'function') return unwrap ? [evlistener.listener || evlistener] : [evlistener]; return unwrap ? unwrapListeners(evlistener) : arrayClone(evlistener, evlistener.length); } EventEmitter.prototype.listeners = function listeners(type) { return _listeners(this, type, true); }; EventEmitter.prototype.rawListeners = function rawListeners(type) { return _listeners(this, type, false); }; EventEmitter.listenerCount = function(emitter, type) { if (typeof emitter.listenerCount === 'function') { return emitter.listenerCount(type); } else { return listenerCount.call(emitter, type); } }; EventEmitter.prototype.listenerCount = listenerCount; function listenerCount(type) { var events = this._events; if (events !== undefined) { var evlistener = events[type]; if (typeof evlistener === 'function') { return 1; } else if (evlistener !== undefined) { return evlistener.length; } } return 0; } EventEmitter.prototype.eventNames = function eventNames() { return this._eventsCount > 0 ? ReflectOwnKeys(this._events) : []; }; function arrayClone(arr, n) { var copy = new Array(n); for (var i = 0; i < n; ++i) copy[i] = arr[i]; return copy; } function spliceOne(list, index) { for (; index + 1 < list.length; index++) list[index] = list[index + 1]; list.pop(); } function unwrapListeners(arr) { var ret = new Array(arr.length); for (var i = 0; i < ret.length; ++i) { ret[i] = arr[i].listener || arr[i]; } return ret; } function once(emitter, name) { return new Promise(function (resolve, reject) { function eventListener() { if (errorListener !== undefined) { emitter.removeListener('error', errorListener); } resolve([].slice.call(arguments)); }; var errorListener; // Adding an error listener is not optional because // if an error is thrown on an event emitter we cannot // guarantee that the actual event we are waiting will // be fired. The result could be a silent way to create // memory or file descriptor leaks, which is something // we should avoid. if (name !== 'error') { errorListener = function errorListener(err) { emitter.removeListener(name, eventListener); reject(err); }; emitter.once('error', errorListener); } emitter.once(name, eventListener); }); } },{}],28:[function(_dereq_,module,exports){ (function (Buffer){(function (){ /*! * The buffer module from node.js, for the browser. * * @author Feross Aboukhadijeh * @license MIT */ /* eslint-disable no-proto */ 'use strict' var base64 = _dereq_('base64-js') var ieee754 = _dereq_('ieee754') exports.Buffer = Buffer exports.SlowBuffer = SlowBuffer exports.INSPECT_MAX_BYTES = 50 var K_MAX_LENGTH = 0x7fffffff exports.kMaxLength = K_MAX_LENGTH /** * If `Buffer.TYPED_ARRAY_SUPPORT`: * === true Use Uint8Array implementation (fastest) * === false Print warning and recommend using `buffer` v4.x which has an Object * implementation (most compatible, even IE6) * * Browsers that support typed arrays are IE 10+, Firefox 4+, Chrome 7+, Safari 5.1+, * Opera 11.6+, iOS 4.2+. * * We report that the browser does not support typed arrays if the are not subclassable * using __proto__. Firefox 4-29 lacks support for adding new properties to `Uint8Array` * (See: https://bugzilla.mozilla.org/show_bug.cgi?id=695438). IE 10 lacks support * for __proto__ and has a buggy typed array implementation. */ Buffer.TYPED_ARRAY_SUPPORT = typedArraySupport() if (!Buffer.TYPED_ARRAY_SUPPORT && typeof console !== 'undefined' && typeof console.error === 'function') { console.error( 'This browser lacks typed array (Uint8Array) support which is required by ' + '`buffer` v5.x. Use `buffer` v4.x if you require old browser support.' ) } function typedArraySupport () { // Can typed array instances can be augmented? try { var arr = new Uint8Array(1) arr.__proto__ = { __proto__: Uint8Array.prototype, foo: function () { return 42 } } return arr.foo() === 42 } catch (e) { return false } } Object.defineProperty(Buffer.prototype, 'parent', { enumerable: true, get: function () { if (!Buffer.isBuffer(this)) return undefined return this.buffer } }) Object.defineProperty(Buffer.prototype, 'offset', { enumerable: true, get: function () { if (!Buffer.isBuffer(this)) return undefined return this.byteOffset } }) function createBuffer (length) { if (length > K_MAX_LENGTH) { throw new RangeError('The value "' + length + '" is invalid for option "size"') } // Return an augmented `Uint8Array` instance var buf = new Uint8Array(length) buf.__proto__ = Buffer.prototype return buf } /** * The Buffer constructor returns instances of `Uint8Array` that have their * prototype changed to `Buffer.prototype`. Furthermore, `Buffer` is a subclass of * `Uint8Array`, so the returned instances will have all the node `Buffer` methods * and the `Uint8Array` methods. Square bracket notation works as expected -- it * returns a single octet. * * The `Uint8Array` prototype remains unmodified. */ function Buffer (arg, encodingOrOffset, length) { // Common case. if (typeof arg === 'number') { if (typeof encodingOrOffset === 'string') { throw new TypeError( 'The "string" argument must be of type string. Received type number' ) } return allocUnsafe(arg) } return from(arg, encodingOrOffset, length) } // Fix subarray() in ES2016. See: https://github.com/feross/buffer/pull/97 if (typeof Symbol !== 'undefined' && Symbol.species != null && Buffer[Symbol.species] === Buffer) { Object.defineProperty(Buffer, Symbol.species, { value: null, configurable: true, enumerable: false, writable: false }) } Buffer.poolSize = 8192 // not used by this implementation function from (value, encodingOrOffset, length) { if (typeof value === 'string') { return fromString(value, encodingOrOffset) } if (ArrayBuffer.isView(value)) { return fromArrayLike(value) } if (value == null) { throw TypeError( 'The first argument must be one of type string, Buffer, ArrayBuffer, Array, ' + 'or Array-like Object. Received type ' + (typeof value) ) } if (isInstance(value, ArrayBuffer) || (value && isInstance(value.buffer, ArrayBuffer))) { return fromArrayBuffer(value, encodingOrOffset, length) } if (typeof value === 'number') { throw new TypeError( 'The "value" argument must not be of type number. Received type number' ) } var valueOf = value.valueOf && value.valueOf() if (valueOf != null && valueOf !== value) { return Buffer.from(valueOf, encodingOrOffset, length) } var b = fromObject(value) if (b) return b if (typeof Symbol !== 'undefined' && Symbol.toPrimitive != null && typeof value[Symbol.toPrimitive] === 'function') { return Buffer.from( value[Symbol.toPrimitive]('string'), encodingOrOffset, length ) } throw new TypeError( 'The first argument must be one of type string, Buffer, ArrayBuffer, Array, ' + 'or Array-like Object. Received type ' + (typeof value) ) } /** * Functionally equivalent to Buffer(arg, encoding) but throws a TypeError * if value is a number. * Buffer.from(str[, encoding]) * Buffer.from(array) * Buffer.from(buffer) * Buffer.from(arrayBuffer[, byteOffset[, length]]) **/ Buffer.from = function (value, encodingOrOffset, length) { return from(value, encodingOrOffset, length) } // Note: Change prototype *after* Buffer.from is defined to workaround Chrome bug: // https://github.com/feross/buffer/pull/148 Buffer.prototype.__proto__ = Uint8Array.prototype Buffer.__proto__ = Uint8Array function assertSize (size) { if (typeof size !== 'number') { throw new TypeError('"size" argument must be of type number') } else if (size < 0) { throw new RangeError('The value "' + size + '" is invalid for option "size"') } } function alloc (size, fill, encoding) { assertSize(size) if (size <= 0) { return createBuffer(size) } if (fill !== undefined) { // Only pay attention to encoding if it's a string. This // prevents accidentally sending in a number that would // be interpretted as a start offset. return typeof encoding === 'string' ? createBuffer(size).fill(fill, encoding) : createBuffer(size).fill(fill) } return createBuffer(size) } /** * Creates a new filled Buffer instance. * alloc(size[, fill[, encoding]]) **/ Buffer.alloc = function (size, fill, encoding) { return alloc(size, fill, encoding) } function allocUnsafe (size) { assertSize(size) return createBuffer(size < 0 ? 0 : checked(size) | 0) } /** * Equivalent to Buffer(num), by default creates a non-zero-filled Buffer instance. * */ Buffer.allocUnsafe = function (size) { return allocUnsafe(size) } /** * Equivalent to SlowBuffer(num), by default creates a non-zero-filled Buffer instance. */ Buffer.allocUnsafeSlow = function (size) { return allocUnsafe(size) } function fromString (string, encoding) { if (typeof encoding !== 'string' || encoding === '') { encoding = 'utf8' } if (!Buffer.isEncoding(encoding)) { throw new TypeError('Unknown encoding: ' + encoding) } var length = byteLength(string, encoding) | 0 var buf = createBuffer(length) var actual = buf.write(string, encoding) if (actual !== length) { // Writing a hex string, for example, that contains invalid characters will // cause everything after the first invalid character to be ignored. (e.g. // 'abxxcd' will be treated as 'ab') buf = buf.slice(0, actual) } return buf } function fromArrayLike (array) { var length = array.length < 0 ? 0 : checked(array.length) | 0 var buf = createBuffer(length) for (var i = 0; i < length; i += 1) { buf[i] = array[i] & 255 } return buf } function fromArrayBuffer (array, byteOffset, length) { if (byteOffset < 0 || array.byteLength < byteOffset) { throw new RangeError('"offset" is outside of buffer bounds') } if (array.byteLength < byteOffset + (length || 0)) { throw new RangeError('"length" is outside of buffer bounds') } var buf if (byteOffset === undefined && length === undefined) { buf = new Uint8Array(array) } else if (length === undefined) { buf = new Uint8Array(array, byteOffset) } else { buf = new Uint8Array(array, byteOffset, length) } // Return an augmented `Uint8Array` instance buf.__proto__ = Buffer.prototype return buf } function fromObject (obj) { if (Buffer.isBuffer(obj)) { var len = checked(obj.length) | 0 var buf = createBuffer(len) if (buf.length === 0) { return buf } obj.copy(buf, 0, 0, len) return buf } if (obj.length !== undefined) { if (typeof obj.length !== 'number' || numberIsNaN(obj.length)) { return createBuffer(0) } return fromArrayLike(obj) } if (obj.type === 'Buffer' && Array.isArray(obj.data)) { return fromArrayLike(obj.data) } } function checked (length) { // Note: cannot use `length < K_MAX_LENGTH` here because that fails when // length is NaN (which is otherwise coerced to zero.) if (length >= K_MAX_LENGTH) { throw new RangeError('Attempt to allocate Buffer larger than maximum ' + 'size: 0x' + K_MAX_LENGTH.toString(16) + ' bytes') } return length | 0 } function SlowBuffer (length) { if (+length != length) { // eslint-disable-line eqeqeq length = 0 } return Buffer.alloc(+length) } Buffer.isBuffer = function isBuffer (b) { return b != null && b._isBuffer === true && b !== Buffer.prototype // so Buffer.isBuffer(Buffer.prototype) will be false } Buffer.compare = function compare (a, b) { if (isInstance(a, Uint8Array)) a = Buffer.from(a, a.offset, a.byteLength) if (isInstance(b, Uint8Array)) b = Buffer.from(b, b.offset, b.byteLength) if (!Buffer.isBuffer(a) || !Buffer.isBuffer(b)) { throw new TypeError( 'The "buf1", "buf2" arguments must be one of type Buffer or Uint8Array' ) } if (a === b) return 0 var x = a.length var y = b.length for (var i = 0, len = Math.min(x, y); i < len; ++i) { if (a[i] !== b[i]) { x = a[i] y = b[i] break } } if (x < y) return -1 if (y < x) return 1 return 0 } Buffer.isEncoding = function isEncoding (encoding) { switch (String(encoding).toLowerCase()) { case 'hex': case 'utf8': case 'utf-8': case 'ascii': case 'latin1': case 'binary': case 'base64': case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return true default: return false } } Buffer.concat = function concat (list, length) { if (!Array.isArray(list)) { throw new TypeError('"list" argument must be an Array of Buffers') } if (list.length === 0) { return Buffer.alloc(0) } var i if (length === undefined) { length = 0 for (i = 0; i < list.length; ++i) { length += list[i].length } } var buffer = Buffer.allocUnsafe(length) var pos = 0 for (i = 0; i < list.length; ++i) { var buf = list[i] if (isInstance(buf, Uint8Array)) { buf = Buffer.from(buf) } if (!Buffer.isBuffer(buf)) { throw new TypeError('"list" argument must be an Array of Buffers') } buf.copy(buffer, pos) pos += buf.length } return buffer } function byteLength (string, encoding) { if (Buffer.isBuffer(string)) { return string.length } if (ArrayBuffer.isView(string) || isInstance(string, ArrayBuffer)) { return string.byteLength } if (typeof string !== 'string') { throw new TypeError( 'The "string" argument must be one of type string, Buffer, or ArrayBuffer. ' + 'Received type ' + typeof string ) } var len = string.length var mustMatch = (arguments.length > 2 && arguments[2] === true) if (!mustMatch && len === 0) return 0 // Use a for loop to avoid recursion var loweredCase = false for (;;) { switch (encoding) { case 'ascii': case 'latin1': case 'binary': return len case 'utf8': case 'utf-8': return utf8ToBytes(string).length case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return len * 2 case 'hex': return len >>> 1 case 'base64': return base64ToBytes(string).length default: if (loweredCase) { return mustMatch ? -1 : utf8ToBytes(string).length // assume utf8 } encoding = ('' + encoding).toLowerCase() loweredCase = true } } } Buffer.byteLength = byteLength function slowToString (encoding, start, end) { var loweredCase = false // No need to verify that "this.length <= MAX_UINT32" since it's a read-only // property of a typed array. // This behaves neither like String nor Uint8Array in that we set start/end // to their upper/lower bounds if the value passed is out of range. // undefined is handled specially as per ECMA-262 6th Edition, // Section 13.3.3.7 Runtime Semantics: KeyedBindingInitialization. if (start === undefined || start < 0) { start = 0 } // Return early if start > this.length. Done here to prevent potential uint32 // coercion fail below. if (start > this.length) { return '' } if (end === undefined || end > this.length) { end = this.length } if (end <= 0) { return '' } // Force coersion to uint32. This will also coerce falsey/NaN values to 0. end >>>= 0 start >>>= 0 if (end <= start) { return '' } if (!encoding) encoding = 'utf8' while (true) { switch (encoding) { case 'hex': return hexSlice(this, start, end) case 'utf8': case 'utf-8': return utf8Slice(this, start, end) case 'ascii': return asciiSlice(this, start, end) case 'latin1': case 'binary': return latin1Slice(this, start, end) case 'base64': return base64Slice(this, start, end) case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return utf16leSlice(this, start, end) default: if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding) encoding = (encoding + '').toLowerCase() loweredCase = true } } } // This property is used by `Buffer.isBuffer` (and the `is-buffer` npm package) // to detect a Buffer instance. It's not possible to use `instanceof Buffer` // reliably in a browserify context because there could be multiple different // copies of the 'buffer' package in use. This method works even for Buffer // instances that were created from another copy of the `buffer` package. // See: https://github.com/feross/buffer/issues/154 Buffer.prototype._isBuffer = true function swap (b, n, m) { var i = b[n] b[n] = b[m] b[m] = i } Buffer.prototype.swap16 = function swap16 () { var len = this.length if (len % 2 !== 0) { throw new RangeError('Buffer size must be a multiple of 16-bits') } for (var i = 0; i < len; i += 2) { swap(this, i, i + 1) } return this } Buffer.prototype.swap32 = function swap32 () { var len = this.length if (len % 4 !== 0) { throw new RangeError('Buffer size must be a multiple of 32-bits') } for (var i = 0; i < len; i += 4) { swap(this, i, i + 3) swap(this, i + 1, i + 2) } return this } Buffer.prototype.swap64 = function swap64 () { var len = this.length if (len % 8 !== 0) { throw new RangeError('Buffer size must be a multiple of 64-bits') } for (var i = 0; i < len; i += 8) { swap(this, i, i + 7) swap(this, i + 1, i + 6) swap(this, i + 2, i + 5) swap(this, i + 3, i + 4) } return this } Buffer.prototype.toString = function toString () { var length = this.length if (length === 0) return '' if (arguments.length === 0) return utf8Slice(this, 0, length) return slowToString.apply(this, arguments) } Buffer.prototype.toLocaleString = Buffer.prototype.toString Buffer.prototype.equals = function equals (b) { if (!Buffer.isBuffer(b)) throw new TypeError('Argument must be a Buffer') if (this === b) return true return Buffer.compare(this, b) === 0 } Buffer.prototype.inspect = function inspect () { var str = '' var max = exports.INSPECT_MAX_BYTES str = this.toString('hex', 0, max).replace(/(.{2})/g, '$1 ').trim() if (this.length > max) str += ' ... ' return '' } Buffer.prototype.compare = function compare (target, start, end, thisStart, thisEnd) { if (isInstance(target, Uint8Array)) { target = Buffer.from(target, target.offset, target.byteLength) } if (!Buffer.isBuffer(target)) { throw new TypeError( 'The "target" argument must be one of type Buffer or Uint8Array. ' + 'Received type ' + (typeof target) ) } if (start === undefined) { start = 0 } if (end === undefined) { end = target ? target.length : 0 } if (thisStart === undefined) { thisStart = 0 } if (thisEnd === undefined) { thisEnd = this.length } if (start < 0 || end > target.length || thisStart < 0 || thisEnd > this.length) { throw new RangeError('out of range index') } if (thisStart >= thisEnd && start >= end) { return 0 } if (thisStart >= thisEnd) { return -1 } if (start >= end) { return 1 } start >>>= 0 end >>>= 0 thisStart >>>= 0 thisEnd >>>= 0 if (this === target) return 0 var x = thisEnd - thisStart var y = end - start var len = Math.min(x, y) var thisCopy = this.slice(thisStart, thisEnd) var targetCopy = target.slice(start, end) for (var i = 0; i < len; ++i) { if (thisCopy[i] !== targetCopy[i]) { x = thisCopy[i] y = targetCopy[i] break } } if (x < y) return -1 if (y < x) return 1 return 0 } // Finds either the first index of `val` in `buffer` at offset >= `byteOffset`, // OR the last index of `val` in `buffer` at offset <= `byteOffset`. // // Arguments: // - buffer - a Buffer to search // - val - a string, Buffer, or number // - byteOffset - an index into `buffer`; will be clamped to an int32 // - encoding - an optional encoding, relevant is val is a string // - dir - true for indexOf, false for lastIndexOf function bidirectionalIndexOf (buffer, val, byteOffset, encoding, dir) { // Empty buffer means no match if (buffer.length === 0) return -1 // Normalize byteOffset if (typeof byteOffset === 'string') { encoding = byteOffset byteOffset = 0 } else if (byteOffset > 0x7fffffff) { byteOffset = 0x7fffffff } else if (byteOffset < -0x80000000) { byteOffset = -0x80000000 } byteOffset = +byteOffset // Coerce to Number. if (numberIsNaN(byteOffset)) { // byteOffset: it it's undefined, null, NaN, "foo", etc, search whole buffer byteOffset = dir ? 0 : (buffer.length - 1) } // Normalize byteOffset: negative offsets start from the end of the buffer if (byteOffset < 0) byteOffset = buffer.length + byteOffset if (byteOffset >= buffer.length) { if (dir) return -1 else byteOffset = buffer.length - 1 } else if (byteOffset < 0) { if (dir) byteOffset = 0 else return -1 } // Normalize val if (typeof val === 'string') { val = Buffer.from(val, encoding) } // Finally, search either indexOf (if dir is true) or lastIndexOf if (Buffer.isBuffer(val)) { // Special case: looking for empty string/buffer always fails if (val.length === 0) { return -1 } return arrayIndexOf(buffer, val, byteOffset, encoding, dir) } else if (typeof val === 'number') { val = val & 0xFF // Search for a byte value [0-255] if (typeof Uint8Array.prototype.indexOf === 'function') { if (dir) { return Uint8Array.prototype.indexOf.call(buffer, val, byteOffset) } else { return Uint8Array.prototype.lastIndexOf.call(buffer, val, byteOffset) } } return arrayIndexOf(buffer, [ val ], byteOffset, encoding, dir) } throw new TypeError('val must be string, number or Buffer') } function arrayIndexOf (arr, val, byteOffset, encoding, dir) { var indexSize = 1 var arrLength = arr.length var valLength = val.length if (encoding !== undefined) { encoding = String(encoding).toLowerCase() if (encoding === 'ucs2' || encoding === 'ucs-2' || encoding === 'utf16le' || encoding === 'utf-16le') { if (arr.length < 2 || val.length < 2) { return -1 } indexSize = 2 arrLength /= 2 valLength /= 2 byteOffset /= 2 } } function read (buf, i) { if (indexSize === 1) { return buf[i] } else { return buf.readUInt16BE(i * indexSize) } } var i if (dir) { var foundIndex = -1 for (i = byteOffset; i < arrLength; i++) { if (read(arr, i) === read(val, foundIndex === -1 ? 0 : i - foundIndex)) { if (foundIndex === -1) foundIndex = i if (i - foundIndex + 1 === valLength) return foundIndex * indexSize } else { if (foundIndex !== -1) i -= i - foundIndex foundIndex = -1 } } } else { if (byteOffset + valLength > arrLength) byteOffset = arrLength - valLength for (i = byteOffset; i >= 0; i--) { var found = true for (var j = 0; j < valLength; j++) { if (read(arr, i + j) !== read(val, j)) { found = false break } } if (found) return i } } return -1 } Buffer.prototype.includes = function includes (val, byteOffset, encoding) { return this.indexOf(val, byteOffset, encoding) !== -1 } Buffer.prototype.indexOf = function indexOf (val, byteOffset, encoding) { return bidirectionalIndexOf(this, val, byteOffset, encoding, true) } Buffer.prototype.lastIndexOf = function lastIndexOf (val, byteOffset, encoding) { return bidirectionalIndexOf(this, val, byteOffset, encoding, false) } function hexWrite (buf, string, offset, length) { offset = Number(offset) || 0 var remaining = buf.length - offset if (!length) { length = remaining } else { length = Number(length) if (length > remaining) { length = remaining } } var strLen = string.length if (length > strLen / 2) { length = strLen / 2 } for (var i = 0; i < length; ++i) { var parsed = parseInt(string.substr(i * 2, 2), 16) if (numberIsNaN(parsed)) return i buf[offset + i] = parsed } return i } function utf8Write (buf, string, offset, length) { return blitBuffer(utf8ToBytes(string, buf.length - offset), buf, offset, length) } function asciiWrite (buf, string, offset, length) { return blitBuffer(asciiToBytes(string), buf, offset, length) } function latin1Write (buf, string, offset, length) { return asciiWrite(buf, string, offset, length) } function base64Write (buf, string, offset, length) { return blitBuffer(base64ToBytes(string), buf, offset, length) } function ucs2Write (buf, string, offset, length) { return blitBuffer(utf16leToBytes(string, buf.length - offset), buf, offset, length) } Buffer.prototype.write = function write (string, offset, length, encoding) { // Buffer#write(string) if (offset === undefined) { encoding = 'utf8' length = this.length offset = 0 // Buffer#write(string, encoding) } else if (length === undefined && typeof offset === 'string') { encoding = offset length = this.length offset = 0 // Buffer#write(string, offset[, length][, encoding]) } else if (isFinite(offset)) { offset = offset >>> 0 if (isFinite(length)) { length = length >>> 0 if (encoding === undefined) encoding = 'utf8' } else { encoding = length length = undefined } } else { throw new Error( 'Buffer.write(string, encoding, offset[, length]) is no longer supported' ) } var remaining = this.length - offset if (length === undefined || length > remaining) length = remaining if ((string.length > 0 && (length < 0 || offset < 0)) || offset > this.length) { throw new RangeError('Attempt to write outside buffer bounds') } if (!encoding) encoding = 'utf8' var loweredCase = false for (;;) { switch (encoding) { case 'hex': return hexWrite(this, string, offset, length) case 'utf8': case 'utf-8': return utf8Write(this, string, offset, length) case 'ascii': return asciiWrite(this, string, offset, length) case 'latin1': case 'binary': return latin1Write(this, string, offset, length) case 'base64': // Warning: maxLength not taken into account in base64Write return base64Write(this, string, offset, length) case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return ucs2Write(this, string, offset, length) default: if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding) encoding = ('' + encoding).toLowerCase() loweredCase = true } } } Buffer.prototype.toJSON = function toJSON () { return { type: 'Buffer', data: Array.prototype.slice.call(this._arr || this, 0) } } function base64Slice (buf, start, end) { if (start === 0 && end === buf.length) { return base64.fromByteArray(buf) } else { return base64.fromByteArray(buf.slice(start, end)) } } function utf8Slice (buf, start, end) { end = Math.min(buf.length, end) var res = [] var i = start while (i < end) { var firstByte = buf[i] var codePoint = null var bytesPerSequence = (firstByte > 0xEF) ? 4 : (firstByte > 0xDF) ? 3 : (firstByte > 0xBF) ? 2 : 1 if (i + bytesPerSequence <= end) { var secondByte, thirdByte, fourthByte, tempCodePoint switch (bytesPerSequence) { case 1: if (firstByte < 0x80) { codePoint = firstByte } break case 2: secondByte = buf[i + 1] if ((secondByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0x1F) << 0x6 | (secondByte & 0x3F) if (tempCodePoint > 0x7F) { codePoint = tempCodePoint } } break case 3: secondByte = buf[i + 1] thirdByte = buf[i + 2] if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0xF) << 0xC | (secondByte & 0x3F) << 0x6 | (thirdByte & 0x3F) if (tempCodePoint > 0x7FF && (tempCodePoint < 0xD800 || tempCodePoint > 0xDFFF)) { codePoint = tempCodePoint } } break case 4: secondByte = buf[i + 1] thirdByte = buf[i + 2] fourthByte = buf[i + 3] if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80 && (fourthByte & 0xC0) === 0x80) { tempCodePoint = (firstByte & 0xF) << 0x12 | (secondByte & 0x3F) << 0xC | (thirdByte & 0x3F) << 0x6 | (fourthByte & 0x3F) if (tempCodePoint > 0xFFFF && tempCodePoint < 0x110000) { codePoint = tempCodePoint } } } } if (codePoint === null) { // we did not generate a valid codePoint so insert a // replacement char (U+FFFD) and advance only 1 byte codePoint = 0xFFFD bytesPerSequence = 1 } else if (codePoint > 0xFFFF) { // encode to utf16 (surrogate pair dance) codePoint -= 0x10000 res.push(codePoint >>> 10 & 0x3FF | 0xD800) codePoint = 0xDC00 | codePoint & 0x3FF } res.push(codePoint) i += bytesPerSequence } return decodeCodePointsArray(res) } // Based on http://stackoverflow.com/a/22747272/680742, the browser with // the lowest limit is Chrome, with 0x10000 args. // We go 1 magnitude less, for safety var MAX_ARGUMENTS_LENGTH = 0x1000 function decodeCodePointsArray (codePoints) { var len = codePoints.length if (len <= MAX_ARGUMENTS_LENGTH) { return String.fromCharCode.apply(String, codePoints) // avoid extra slice() } // Decode in chunks to avoid "call stack size exceeded". var res = '' var i = 0 while (i < len) { res += String.fromCharCode.apply( String, codePoints.slice(i, i += MAX_ARGUMENTS_LENGTH) ) } return res } function asciiSlice (buf, start, end) { var ret = '' end = Math.min(buf.length, end) for (var i = start; i < end; ++i) { ret += String.fromCharCode(buf[i] & 0x7F) } return ret } function latin1Slice (buf, start, end) { var ret = '' end = Math.min(buf.length, end) for (var i = start; i < end; ++i) { ret += String.fromCharCode(buf[i]) } return ret } function hexSlice (buf, start, end) { var len = buf.length if (!start || start < 0) start = 0 if (!end || end < 0 || end > len) end = len var out = '' for (var i = start; i < end; ++i) { out += toHex(buf[i]) } return out } function utf16leSlice (buf, start, end) { var bytes = buf.slice(start, end) var res = '' for (var i = 0; i < bytes.length; i += 2) { res += String.fromCharCode(bytes[i] + (bytes[i + 1] * 256)) } return res } Buffer.prototype.slice = function slice (start, end) { var len = this.length start = ~~start end = end === undefined ? len : ~~end if (start < 0) { start += len if (start < 0) start = 0 } else if (start > len) { start = len } if (end < 0) { end += len if (end < 0) end = 0 } else if (end > len) { end = len } if (end < start) end = start var newBuf = this.subarray(start, end) // Return an augmented `Uint8Array` instance newBuf.__proto__ = Buffer.prototype return newBuf } /* * Need to make sure that buffer isn't trying to write out of bounds. */ function checkOffset (offset, ext, length) { if ((offset % 1) !== 0 || offset < 0) throw new RangeError('offset is not uint') if (offset + ext > length) throw new RangeError('Trying to access beyond buffer length') } Buffer.prototype.readUIntLE = function readUIntLE (offset, byteLength, noAssert) { offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var val = this[offset] var mul = 1 var i = 0 while (++i < byteLength && (mul *= 0x100)) { val += this[offset + i] * mul } return val } Buffer.prototype.readUIntBE = function readUIntBE (offset, byteLength, noAssert) { offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) { checkOffset(offset, byteLength, this.length) } var val = this[offset + --byteLength] var mul = 1 while (byteLength > 0 && (mul *= 0x100)) { val += this[offset + --byteLength] * mul } return val } Buffer.prototype.readUInt8 = function readUInt8 (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 1, this.length) return this[offset] } Buffer.prototype.readUInt16LE = function readUInt16LE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 2, this.length) return this[offset] | (this[offset + 1] << 8) } Buffer.prototype.readUInt16BE = function readUInt16BE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 2, this.length) return (this[offset] << 8) | this[offset + 1] } Buffer.prototype.readUInt32LE = function readUInt32LE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return ((this[offset]) | (this[offset + 1] << 8) | (this[offset + 2] << 16)) + (this[offset + 3] * 0x1000000) } Buffer.prototype.readUInt32BE = function readUInt32BE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset] * 0x1000000) + ((this[offset + 1] << 16) | (this[offset + 2] << 8) | this[offset + 3]) } Buffer.prototype.readIntLE = function readIntLE (offset, byteLength, noAssert) { offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var val = this[offset] var mul = 1 var i = 0 while (++i < byteLength && (mul *= 0x100)) { val += this[offset + i] * mul } mul *= 0x80 if (val >= mul) val -= Math.pow(2, 8 * byteLength) return val } Buffer.prototype.readIntBE = function readIntBE (offset, byteLength, noAssert) { offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) checkOffset(offset, byteLength, this.length) var i = byteLength var mul = 1 var val = this[offset + --i] while (i > 0 && (mul *= 0x100)) { val += this[offset + --i] * mul } mul *= 0x80 if (val >= mul) val -= Math.pow(2, 8 * byteLength) return val } Buffer.prototype.readInt8 = function readInt8 (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 1, this.length) if (!(this[offset] & 0x80)) return (this[offset]) return ((0xff - this[offset] + 1) * -1) } Buffer.prototype.readInt16LE = function readInt16LE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 2, this.length) var val = this[offset] | (this[offset + 1] << 8) return (val & 0x8000) ? val | 0xFFFF0000 : val } Buffer.prototype.readInt16BE = function readInt16BE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 2, this.length) var val = this[offset + 1] | (this[offset] << 8) return (val & 0x8000) ? val | 0xFFFF0000 : val } Buffer.prototype.readInt32LE = function readInt32LE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset]) | (this[offset + 1] << 8) | (this[offset + 2] << 16) | (this[offset + 3] << 24) } Buffer.prototype.readInt32BE = function readInt32BE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset] << 24) | (this[offset + 1] << 16) | (this[offset + 2] << 8) | (this[offset + 3]) } Buffer.prototype.readFloatLE = function readFloatLE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return ieee754.read(this, offset, true, 23, 4) } Buffer.prototype.readFloatBE = function readFloatBE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 4, this.length) return ieee754.read(this, offset, false, 23, 4) } Buffer.prototype.readDoubleLE = function readDoubleLE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 8, this.length) return ieee754.read(this, offset, true, 52, 8) } Buffer.prototype.readDoubleBE = function readDoubleBE (offset, noAssert) { offset = offset >>> 0 if (!noAssert) checkOffset(offset, 8, this.length) return ieee754.read(this, offset, false, 52, 8) } function checkInt (buf, value, offset, ext, max, min) { if (!Buffer.isBuffer(buf)) throw new TypeError('"buffer" argument must be a Buffer instance') if (value > max || value < min) throw new RangeError('"value" argument is out of bounds') if (offset + ext > buf.length) throw new RangeError('Index out of range') } Buffer.prototype.writeUIntLE = function writeUIntLE (value, offset, byteLength, noAssert) { value = +value offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) { var maxBytes = Math.pow(2, 8 * byteLength) - 1 checkInt(this, value, offset, byteLength, maxBytes, 0) } var mul = 1 var i = 0 this[offset] = value & 0xFF while (++i < byteLength && (mul *= 0x100)) { this[offset + i] = (value / mul) & 0xFF } return offset + byteLength } Buffer.prototype.writeUIntBE = function writeUIntBE (value, offset, byteLength, noAssert) { value = +value offset = offset >>> 0 byteLength = byteLength >>> 0 if (!noAssert) { var maxBytes = Math.pow(2, 8 * byteLength) - 1 checkInt(this, value, offset, byteLength, maxBytes, 0) } var i = byteLength - 1 var mul = 1 this[offset + i] = value & 0xFF while (--i >= 0 && (mul *= 0x100)) { this[offset + i] = (value / mul) & 0xFF } return offset + byteLength } Buffer.prototype.writeUInt8 = function writeUInt8 (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 1, 0xff, 0) this[offset] = (value & 0xff) return offset + 1 } Buffer.prototype.writeUInt16LE = function writeUInt16LE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0) this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) return offset + 2 } Buffer.prototype.writeUInt16BE = function writeUInt16BE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0) this[offset] = (value >>> 8) this[offset + 1] = (value & 0xff) return offset + 2 } Buffer.prototype.writeUInt32LE = function writeUInt32LE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0) this[offset + 3] = (value >>> 24) this[offset + 2] = (value >>> 16) this[offset + 1] = (value >>> 8) this[offset] = (value & 0xff) return offset + 4 } Buffer.prototype.writeUInt32BE = function writeUInt32BE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0) this[offset] = (value >>> 24) this[offset + 1] = (value >>> 16) this[offset + 2] = (value >>> 8) this[offset + 3] = (value & 0xff) return offset + 4 } Buffer.prototype.writeIntLE = function writeIntLE (value, offset, byteLength, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) { var limit = Math.pow(2, (8 * byteLength) - 1) checkInt(this, value, offset, byteLength, limit - 1, -limit) } var i = 0 var mul = 1 var sub = 0 this[offset] = value & 0xFF while (++i < byteLength && (mul *= 0x100)) { if (value < 0 && sub === 0 && this[offset + i - 1] !== 0) { sub = 1 } this[offset + i] = ((value / mul) >> 0) - sub & 0xFF } return offset + byteLength } Buffer.prototype.writeIntBE = function writeIntBE (value, offset, byteLength, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) { var limit = Math.pow(2, (8 * byteLength) - 1) checkInt(this, value, offset, byteLength, limit - 1, -limit) } var i = byteLength - 1 var mul = 1 var sub = 0 this[offset + i] = value & 0xFF while (--i >= 0 && (mul *= 0x100)) { if (value < 0 && sub === 0 && this[offset + i + 1] !== 0) { sub = 1 } this[offset + i] = ((value / mul) >> 0) - sub & 0xFF } return offset + byteLength } Buffer.prototype.writeInt8 = function writeInt8 (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 1, 0x7f, -0x80) if (value < 0) value = 0xff + value + 1 this[offset] = (value & 0xff) return offset + 1 } Buffer.prototype.writeInt16LE = function writeInt16LE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000) this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) return offset + 2 } Buffer.prototype.writeInt16BE = function writeInt16BE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000) this[offset] = (value >>> 8) this[offset + 1] = (value & 0xff) return offset + 2 } Buffer.prototype.writeInt32LE = function writeInt32LE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000) this[offset] = (value & 0xff) this[offset + 1] = (value >>> 8) this[offset + 2] = (value >>> 16) this[offset + 3] = (value >>> 24) return offset + 4 } Buffer.prototype.writeInt32BE = function writeInt32BE (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000) if (value < 0) value = 0xffffffff + value + 1 this[offset] = (value >>> 24) this[offset + 1] = (value >>> 16) this[offset + 2] = (value >>> 8) this[offset + 3] = (value & 0xff) return offset + 4 } function checkIEEE754 (buf, value, offset, ext, max, min) { if (offset + ext > buf.length) throw new RangeError('Index out of range') if (offset < 0) throw new RangeError('Index out of range') } function writeFloat (buf, value, offset, littleEndian, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) { checkIEEE754(buf, value, offset, 4, 3.4028234663852886e+38, -3.4028234663852886e+38) } ieee754.write(buf, value, offset, littleEndian, 23, 4) return offset + 4 } Buffer.prototype.writeFloatLE = function writeFloatLE (value, offset, noAssert) { return writeFloat(this, value, offset, true, noAssert) } Buffer.prototype.writeFloatBE = function writeFloatBE (value, offset, noAssert) { return writeFloat(this, value, offset, false, noAssert) } function writeDouble (buf, value, offset, littleEndian, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) { checkIEEE754(buf, value, offset, 8, 1.7976931348623157E+308, -1.7976931348623157E+308) } ieee754.write(buf, value, offset, littleEndian, 52, 8) return offset + 8 } Buffer.prototype.writeDoubleLE = function writeDoubleLE (value, offset, noAssert) { return writeDouble(this, value, offset, true, noAssert) } Buffer.prototype.writeDoubleBE = function writeDoubleBE (value, offset, noAssert) { return writeDouble(this, value, offset, false, noAssert) } // copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length) Buffer.prototype.copy = function copy (target, targetStart, start, end) { if (!Buffer.isBuffer(target)) throw new TypeError('argument should be a Buffer') if (!start) start = 0 if (!end && end !== 0) end = this.length if (targetStart >= target.length) targetStart = target.length if (!targetStart) targetStart = 0 if (end > 0 && end < start) end = start // Copy 0 bytes; we're done if (end === start) return 0 if (target.length === 0 || this.length === 0) return 0 // Fatal error conditions if (targetStart < 0) { throw new RangeError('targetStart out of bounds') } if (start < 0 || start >= this.length) throw new RangeError('Index out of range') if (end < 0) throw new RangeError('sourceEnd out of bounds') // Are we oob? if (end > this.length) end = this.length if (target.length - targetStart < end - start) { end = target.length - targetStart + start } var len = end - start if (this === target && typeof Uint8Array.prototype.copyWithin === 'function') { // Use built-in when available, missing from IE11 this.copyWithin(targetStart, start, end) } else if (this === target && start < targetStart && targetStart < end) { // descending copy from end for (var i = len - 1; i >= 0; --i) { target[i + targetStart] = this[i + start] } } else { Uint8Array.prototype.set.call( target, this.subarray(start, end), targetStart ) } return len } // Usage: // buffer.fill(number[, offset[, end]]) // buffer.fill(buffer[, offset[, end]]) // buffer.fill(string[, offset[, end]][, encoding]) Buffer.prototype.fill = function fill (val, start, end, encoding) { // Handle string cases: if (typeof val === 'string') { if (typeof start === 'string') { encoding = start start = 0 end = this.length } else if (typeof end === 'string') { encoding = end end = this.length } if (encoding !== undefined && typeof encoding !== 'string') { throw new TypeError('encoding must be a string') } if (typeof encoding === 'string' && !Buffer.isEncoding(encoding)) { throw new TypeError('Unknown encoding: ' + encoding) } if (val.length === 1) { var code = val.charCodeAt(0) if ((encoding === 'utf8' && code < 128) || encoding === 'latin1') { // Fast path: If `val` fits into a single byte, use that numeric value. val = code } } } else if (typeof val === 'number') { val = val & 255 } // Invalid ranges are not set to a default, so can range check early. if (start < 0 || this.length < start || this.length < end) { throw new RangeError('Out of range index') } if (end <= start) { return this } start = start >>> 0 end = end === undefined ? this.length : end >>> 0 if (!val) val = 0 var i if (typeof val === 'number') { for (i = start; i < end; ++i) { this[i] = val } } else { var bytes = Buffer.isBuffer(val) ? val : Buffer.from(val, encoding) var len = bytes.length if (len === 0) { throw new TypeError('The value "' + val + '" is invalid for argument "value"') } for (i = 0; i < end - start; ++i) { this[i + start] = bytes[i % len] } } return this } // HELPER FUNCTIONS // ================ var INVALID_BASE64_RE = /[^+/0-9A-Za-z-_]/g function base64clean (str) { // Node takes equal signs as end of the Base64 encoding str = str.split('=')[0] // Node strips out invalid characters like \n and \t from the string, base64-js does not str = str.trim().replace(INVALID_BASE64_RE, '') // Node converts strings with length < 2 to '' if (str.length < 2) return '' // Node allows for non-padded base64 strings (missing trailing ===), base64-js does not while (str.length % 4 !== 0) { str = str + '=' } return str } function toHex (n) { if (n < 16) return '0' + n.toString(16) return n.toString(16) } function utf8ToBytes (string, units) { units = units || Infinity var codePoint var length = string.length var leadSurrogate = null var bytes = [] for (var i = 0; i < length; ++i) { codePoint = string.charCodeAt(i) // is surrogate component if (codePoint > 0xD7FF && codePoint < 0xE000) { // last char was a lead if (!leadSurrogate) { // no lead yet if (codePoint > 0xDBFF) { // unexpected trail if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) continue } else if (i + 1 === length) { // unpaired lead if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) continue } // valid lead leadSurrogate = codePoint continue } // 2 leads in a row if (codePoint < 0xDC00) { if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) leadSurrogate = codePoint continue } // valid surrogate pair codePoint = (leadSurrogate - 0xD800 << 10 | codePoint - 0xDC00) + 0x10000 } else if (leadSurrogate) { // valid bmp char, but last char was a lead if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD) } leadSurrogate = null // encode utf8 if (codePoint < 0x80) { if ((units -= 1) < 0) break bytes.push(codePoint) } else if (codePoint < 0x800) { if ((units -= 2) < 0) break bytes.push( codePoint >> 0x6 | 0xC0, codePoint & 0x3F | 0x80 ) } else if (codePoint < 0x10000) { if ((units -= 3) < 0) break bytes.push( codePoint >> 0xC | 0xE0, codePoint >> 0x6 & 0x3F | 0x80, codePoint & 0x3F | 0x80 ) } else if (codePoint < 0x110000) { if ((units -= 4) < 0) break bytes.push( codePoint >> 0x12 | 0xF0, codePoint >> 0xC & 0x3F | 0x80, codePoint >> 0x6 & 0x3F | 0x80, codePoint & 0x3F | 0x80 ) } else { throw new Error('Invalid code point') } } return bytes } function asciiToBytes (str) { var byteArray = [] for (var i = 0; i < str.length; ++i) { // Node's code seems to be doing this and not & 0x7F.. byteArray.push(str.charCodeAt(i) & 0xFF) } return byteArray } function utf16leToBytes (str, units) { var c, hi, lo var byteArray = [] for (var i = 0; i < str.length; ++i) { if ((units -= 2) < 0) break c = str.charCodeAt(i) hi = c >> 8 lo = c % 256 byteArray.push(lo) byteArray.push(hi) } return byteArray } function base64ToBytes (str) { return base64.toByteArray(base64clean(str)) } function blitBuffer (src, dst, offset, length) { for (var i = 0; i < length; ++i) { if ((i + offset >= dst.length) || (i >= src.length)) break dst[i + offset] = src[i] } return i } // ArrayBuffer or Uint8Array objects from other contexts (i.e. iframes) do not pass // the `instanceof` check but they should be treated as of that type. // See: https://github.com/feross/buffer/issues/166 function isInstance (obj, type) { return obj instanceof type || (obj != null && obj.constructor != null && obj.constructor.name != null && obj.constructor.name === type.name) } function numberIsNaN (obj) { // For IE11 support return obj !== obj // eslint-disable-line no-self-compare } }).call(this)}).call(this,_dereq_("buffer").Buffer) },{"base64-js":25,"buffer":28,"ieee754":66}],29:[function(_dereq_,module,exports){ // https://d3js.org/d3-format/ v1.4.5 Copyright 2020 Mike Bostock (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory(global.d3 = global.d3 || {})); }(this, (function (exports) { 'use strict'; function formatDecimal(x) { return Math.abs(x = Math.round(x)) >= 1e21 ? x.toLocaleString("en").replace(/,/g, "") : x.toString(10); } // Computes the decimal coefficient and exponent of the specified number x with // significant digits p, where x is positive and p is in [1, 21] or undefined. // For example, formatDecimalParts(1.23) returns ["123", 0]. function formatDecimalParts(x, p) { if ((i = (x = p ? x.toExponential(p - 1) : x.toExponential()).indexOf("e")) < 0) return null; // NaN, ±Infinity var i, coefficient = x.slice(0, i); // The string returned by toExponential either has the form \d\.\d+e[-+]\d+ // (e.g., 1.2e+3) or the form \de[-+]\d+ (e.g., 1e+3). return [ coefficient.length > 1 ? coefficient[0] + coefficient.slice(2) : coefficient, +x.slice(i + 1) ]; } function exponent(x) { return x = formatDecimalParts(Math.abs(x)), x ? x[1] : NaN; } function formatGroup(grouping, thousands) { return function(value, width) { var i = value.length, t = [], j = 0, g = grouping[0], length = 0; while (i > 0 && g > 0) { if (length + g + 1 > width) g = Math.max(1, width - length); t.push(value.substring(i -= g, i + g)); if ((length += g + 1) > width) break; g = grouping[j = (j + 1) % grouping.length]; } return t.reverse().join(thousands); }; } function formatNumerals(numerals) { return function(value) { return value.replace(/[0-9]/g, function(i) { return numerals[+i]; }); }; } // [[fill]align][sign][symbol][0][width][,][.precision][~][type] var re = /^(?:(.)?([<>=^]))?([+\-( ])?([$#])?(0)?(\d+)?(,)?(\.\d+)?(~)?([a-z%])?$/i; function formatSpecifier(specifier) { if (!(match = re.exec(specifier))) throw new Error("invalid format: " + specifier); var match; return new FormatSpecifier({ fill: match[1], align: match[2], sign: match[3], symbol: match[4], zero: match[5], width: match[6], comma: match[7], precision: match[8] && match[8].slice(1), trim: match[9], type: match[10] }); } formatSpecifier.prototype = FormatSpecifier.prototype; // instanceof function FormatSpecifier(specifier) { this.fill = specifier.fill === undefined ? " " : specifier.fill + ""; this.align = specifier.align === undefined ? ">" : specifier.align + ""; this.sign = specifier.sign === undefined ? "-" : specifier.sign + ""; this.symbol = specifier.symbol === undefined ? "" : specifier.symbol + ""; this.zero = !!specifier.zero; this.width = specifier.width === undefined ? undefined : +specifier.width; this.comma = !!specifier.comma; this.precision = specifier.precision === undefined ? undefined : +specifier.precision; this.trim = !!specifier.trim; this.type = specifier.type === undefined ? "" : specifier.type + ""; } FormatSpecifier.prototype.toString = function() { return this.fill + this.align + this.sign + this.symbol + (this.zero ? "0" : "") + (this.width === undefined ? "" : Math.max(1, this.width | 0)) + (this.comma ? "," : "") + (this.precision === undefined ? "" : "." + Math.max(0, this.precision | 0)) + (this.trim ? "~" : "") + this.type; }; // Trims insignificant zeros, e.g., replaces 1.2000k with 1.2k. function formatTrim(s) { out: for (var n = s.length, i = 1, i0 = -1, i1; i < n; ++i) { switch (s[i]) { case ".": i0 = i1 = i; break; case "0": if (i0 === 0) i0 = i; i1 = i; break; default: if (!+s[i]) break out; if (i0 > 0) i0 = 0; break; } } return i0 > 0 ? s.slice(0, i0) + s.slice(i1 + 1) : s; } var prefixExponent; function formatPrefixAuto(x, p) { var d = formatDecimalParts(x, p); if (!d) return x + ""; var coefficient = d[0], exponent = d[1], i = exponent - (prefixExponent = Math.max(-8, Math.min(8, Math.floor(exponent / 3))) * 3) + 1, n = coefficient.length; return i === n ? coefficient : i > n ? coefficient + new Array(i - n + 1).join("0") : i > 0 ? coefficient.slice(0, i) + "." + coefficient.slice(i) : "0." + new Array(1 - i).join("0") + formatDecimalParts(x, Math.max(0, p + i - 1))[0]; // less than 1y! } function formatRounded(x, p) { var d = formatDecimalParts(x, p); if (!d) return x + ""; var coefficient = d[0], exponent = d[1]; return exponent < 0 ? "0." + new Array(-exponent).join("0") + coefficient : coefficient.length > exponent + 1 ? coefficient.slice(0, exponent + 1) + "." + coefficient.slice(exponent + 1) : coefficient + new Array(exponent - coefficient.length + 2).join("0"); } var formatTypes = { "%": function(x, p) { return (x * 100).toFixed(p); }, "b": function(x) { return Math.round(x).toString(2); }, "c": function(x) { return x + ""; }, "d": formatDecimal, "e": function(x, p) { return x.toExponential(p); }, "f": function(x, p) { return x.toFixed(p); }, "g": function(x, p) { return x.toPrecision(p); }, "o": function(x) { return Math.round(x).toString(8); }, "p": function(x, p) { return formatRounded(x * 100, p); }, "r": formatRounded, "s": formatPrefixAuto, "X": function(x) { return Math.round(x).toString(16).toUpperCase(); }, "x": function(x) { return Math.round(x).toString(16); } }; function identity(x) { return x; } var map = Array.prototype.map, prefixes = ["y","z","a","f","p","n","µ","m","","k","M","G","T","P","E","Z","Y"]; function formatLocale(locale) { var group = locale.grouping === undefined || locale.thousands === undefined ? identity : formatGroup(map.call(locale.grouping, Number), locale.thousands + ""), currencyPrefix = locale.currency === undefined ? "" : locale.currency[0] + "", currencySuffix = locale.currency === undefined ? "" : locale.currency[1] + "", decimal = locale.decimal === undefined ? "." : locale.decimal + "", numerals = locale.numerals === undefined ? identity : formatNumerals(map.call(locale.numerals, String)), percent = locale.percent === undefined ? "%" : locale.percent + "", minus = locale.minus === undefined ? "-" : locale.minus + "", nan = locale.nan === undefined ? "NaN" : locale.nan + ""; function newFormat(specifier) { specifier = formatSpecifier(specifier); var fill = specifier.fill, align = specifier.align, sign = specifier.sign, symbol = specifier.symbol, zero = specifier.zero, width = specifier.width, comma = specifier.comma, precision = specifier.precision, trim = specifier.trim, type = specifier.type; // The "n" type is an alias for ",g". if (type === "n") comma = true, type = "g"; // The "" type, and any invalid type, is an alias for ".12~g". else if (!formatTypes[type]) precision === undefined && (precision = 12), trim = true, type = "g"; // If zero fill is specified, padding goes after sign and before digits. if (zero || (fill === "0" && align === "=")) zero = true, fill = "0", align = "="; // Compute the prefix and suffix. // For SI-prefix, the suffix is lazily computed. var prefix = symbol === "$" ? currencyPrefix : symbol === "#" && /[boxX]/.test(type) ? "0" + type.toLowerCase() : "", suffix = symbol === "$" ? currencySuffix : /[%p]/.test(type) ? percent : ""; // What format function should we use? // Is this an integer type? // Can this type generate exponential notation? var formatType = formatTypes[type], maybeSuffix = /[defgprs%]/.test(type); // Set the default precision if not specified, // or clamp the specified precision to the supported range. // For significant precision, it must be in [1, 21]. // For fixed precision, it must be in [0, 20]. precision = precision === undefined ? 6 : /[gprs]/.test(type) ? Math.max(1, Math.min(21, precision)) : Math.max(0, Math.min(20, precision)); function format(value) { var valuePrefix = prefix, valueSuffix = suffix, i, n, c; if (type === "c") { valueSuffix = formatType(value) + valueSuffix; value = ""; } else { value = +value; // Determine the sign. -0 is not less than 0, but 1 / -0 is! var valueNegative = value < 0 || 1 / value < 0; // Perform the initial formatting. value = isNaN(value) ? nan : formatType(Math.abs(value), precision); // Trim insignificant zeros. if (trim) value = formatTrim(value); // If a negative value rounds to zero after formatting, and no explicit positive sign is requested, hide the sign. if (valueNegative && +value === 0 && sign !== "+") valueNegative = false; // Compute the prefix and suffix. valuePrefix = (valueNegative ? (sign === "(" ? sign : minus) : sign === "-" || sign === "(" ? "" : sign) + valuePrefix; valueSuffix = (type === "s" ? prefixes[8 + prefixExponent / 3] : "") + valueSuffix + (valueNegative && sign === "(" ? ")" : ""); // Break the formatted value into the integer “value” part that can be // grouped, and fractional or exponential “suffix” part that is not. if (maybeSuffix) { i = -1, n = value.length; while (++i < n) { if (c = value.charCodeAt(i), 48 > c || c > 57) { valueSuffix = (c === 46 ? decimal + value.slice(i + 1) : value.slice(i)) + valueSuffix; value = value.slice(0, i); break; } } } } // If the fill character is not "0", grouping is applied before padding. if (comma && !zero) value = group(value, Infinity); // Compute the padding. var length = valuePrefix.length + value.length + valueSuffix.length, padding = length < width ? new Array(width - length + 1).join(fill) : ""; // If the fill character is "0", grouping is applied after padding. if (comma && zero) value = group(padding + value, padding.length ? width - valueSuffix.length : Infinity), padding = ""; // Reconstruct the final output based on the desired alignment. switch (align) { case "<": value = valuePrefix + value + valueSuffix + padding; break; case "=": value = valuePrefix + padding + value + valueSuffix; break; case "^": value = padding.slice(0, length = padding.length >> 1) + valuePrefix + value + valueSuffix + padding.slice(length); break; default: value = padding + valuePrefix + value + valueSuffix; break; } return numerals(value); } format.toString = function() { return specifier + ""; }; return format; } function formatPrefix(specifier, value) { var f = newFormat((specifier = formatSpecifier(specifier), specifier.type = "f", specifier)), e = Math.max(-8, Math.min(8, Math.floor(exponent(value) / 3))) * 3, k = Math.pow(10, -e), prefix = prefixes[8 + e / 3]; return function(value) { return f(k * value) + prefix; }; } return { format: newFormat, formatPrefix: formatPrefix }; } var locale; defaultLocale({ decimal: ".", thousands: ",", grouping: [3], currency: ["$", ""], minus: "-" }); function defaultLocale(definition) { locale = formatLocale(definition); exports.format = locale.format; exports.formatPrefix = locale.formatPrefix; return locale; } function precisionFixed(step) { return Math.max(0, -exponent(Math.abs(step))); } function precisionPrefix(step, value) { return Math.max(0, Math.max(-8, Math.min(8, Math.floor(exponent(value) / 3))) * 3 - exponent(Math.abs(step))); } function precisionRound(step, max) { step = Math.abs(step), max = Math.abs(max) - step; return Math.max(0, exponent(max) - exponent(step)) + 1; } exports.FormatSpecifier = FormatSpecifier; exports.formatDefaultLocale = defaultLocale; exports.formatLocale = formatLocale; exports.formatSpecifier = formatSpecifier; exports.precisionFixed = precisionFixed; exports.precisionPrefix = precisionPrefix; exports.precisionRound = precisionRound; Object.defineProperty(exports, '__esModule', { value: true }); }))); },{}],30:[function(_dereq_,module,exports){ // https://d3js.org/d3-time-format/ v2.2.3 Copyright 2019 Mike Bostock (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, _dereq_('d3-time')) : typeof define === 'function' && define.amd ? define(['exports', 'd3-time'], factory) : (global = global || self, factory(global.d3 = global.d3 || {}, global.d3)); }(this, function (exports, d3Time) { 'use strict'; function localDate(d) { if (0 <= d.y && d.y < 100) { var date = new Date(-1, d.m, d.d, d.H, d.M, d.S, d.L); date.setFullYear(d.y); return date; } return new Date(d.y, d.m, d.d, d.H, d.M, d.S, d.L); } function utcDate(d) { if (0 <= d.y && d.y < 100) { var date = new Date(Date.UTC(-1, d.m, d.d, d.H, d.M, d.S, d.L)); date.setUTCFullYear(d.y); return date; } return new Date(Date.UTC(d.y, d.m, d.d, d.H, d.M, d.S, d.L)); } function newDate(y, m, d) { return {y: y, m: m, d: d, H: 0, M: 0, S: 0, L: 0}; } function formatLocale(locale) { var locale_dateTime = locale.dateTime, locale_date = locale.date, locale_time = locale.time, locale_periods = locale.periods, locale_weekdays = locale.days, locale_shortWeekdays = locale.shortDays, locale_months = locale.months, locale_shortMonths = locale.shortMonths; var periodRe = formatRe(locale_periods), periodLookup = formatLookup(locale_periods), weekdayRe = formatRe(locale_weekdays), weekdayLookup = formatLookup(locale_weekdays), shortWeekdayRe = formatRe(locale_shortWeekdays), shortWeekdayLookup = formatLookup(locale_shortWeekdays), monthRe = formatRe(locale_months), monthLookup = formatLookup(locale_months), shortMonthRe = formatRe(locale_shortMonths), shortMonthLookup = formatLookup(locale_shortMonths); var formats = { "a": formatShortWeekday, "A": formatWeekday, "b": formatShortMonth, "B": formatMonth, "c": null, "d": formatDayOfMonth, "e": formatDayOfMonth, "f": formatMicroseconds, "H": formatHour24, "I": formatHour12, "j": formatDayOfYear, "L": formatMilliseconds, "m": formatMonthNumber, "M": formatMinutes, "p": formatPeriod, "q": formatQuarter, "Q": formatUnixTimestamp, "s": formatUnixTimestampSeconds, "S": formatSeconds, "u": formatWeekdayNumberMonday, "U": formatWeekNumberSunday, "V": formatWeekNumberISO, "w": formatWeekdayNumberSunday, "W": formatWeekNumberMonday, "x": null, "X": null, "y": formatYear, "Y": formatFullYear, "Z": formatZone, "%": formatLiteralPercent }; var utcFormats = { "a": formatUTCShortWeekday, "A": formatUTCWeekday, "b": formatUTCShortMonth, "B": formatUTCMonth, "c": null, "d": formatUTCDayOfMonth, "e": formatUTCDayOfMonth, "f": formatUTCMicroseconds, "H": formatUTCHour24, "I": formatUTCHour12, "j": formatUTCDayOfYear, "L": formatUTCMilliseconds, "m": formatUTCMonthNumber, "M": formatUTCMinutes, "p": formatUTCPeriod, "q": formatUTCQuarter, "Q": formatUnixTimestamp, "s": formatUnixTimestampSeconds, "S": formatUTCSeconds, "u": formatUTCWeekdayNumberMonday, "U": formatUTCWeekNumberSunday, "V": formatUTCWeekNumberISO, "w": formatUTCWeekdayNumberSunday, "W": formatUTCWeekNumberMonday, "x": null, "X": null, "y": formatUTCYear, "Y": formatUTCFullYear, "Z": formatUTCZone, "%": formatLiteralPercent }; var parses = { "a": parseShortWeekday, "A": parseWeekday, "b": parseShortMonth, "B": parseMonth, "c": parseLocaleDateTime, "d": parseDayOfMonth, "e": parseDayOfMonth, "f": parseMicroseconds, "H": parseHour24, "I": parseHour24, "j": parseDayOfYear, "L": parseMilliseconds, "m": parseMonthNumber, "M": parseMinutes, "p": parsePeriod, "q": parseQuarter, "Q": parseUnixTimestamp, "s": parseUnixTimestampSeconds, "S": parseSeconds, "u": parseWeekdayNumberMonday, "U": parseWeekNumberSunday, "V": parseWeekNumberISO, "w": parseWeekdayNumberSunday, "W": parseWeekNumberMonday, "x": parseLocaleDate, "X": parseLocaleTime, "y": parseYear, "Y": parseFullYear, "Z": parseZone, "%": parseLiteralPercent }; // These recursive directive definitions must be deferred. formats.x = newFormat(locale_date, formats); formats.X = newFormat(locale_time, formats); formats.c = newFormat(locale_dateTime, formats); utcFormats.x = newFormat(locale_date, utcFormats); utcFormats.X = newFormat(locale_time, utcFormats); utcFormats.c = newFormat(locale_dateTime, utcFormats); function newFormat(specifier, formats) { return function(date) { var string = [], i = -1, j = 0, n = specifier.length, c, pad, format; if (!(date instanceof Date)) date = new Date(+date); while (++i < n) { if (specifier.charCodeAt(i) === 37) { string.push(specifier.slice(j, i)); if ((pad = pads[c = specifier.charAt(++i)]) != null) c = specifier.charAt(++i); else pad = c === "e" ? " " : "0"; if (format = formats[c]) c = format(date, pad); string.push(c); j = i + 1; } } string.push(specifier.slice(j, i)); return string.join(""); }; } function newParse(specifier, Z) { return function(string) { var d = newDate(1900, undefined, 1), i = parseSpecifier(d, specifier, string += "", 0), week, day; if (i != string.length) return null; // If a UNIX timestamp is specified, return it. if ("Q" in d) return new Date(d.Q); if ("s" in d) return new Date(d.s * 1000 + ("L" in d ? d.L : 0)); // If this is utcParse, never use the local timezone. if (Z && !("Z" in d)) d.Z = 0; // The am-pm flag is 0 for AM, and 1 for PM. if ("p" in d) d.H = d.H % 12 + d.p * 12; // If the month was not specified, inherit from the quarter. if (d.m === undefined) d.m = "q" in d ? d.q : 0; // Convert day-of-week and week-of-year to day-of-year. if ("V" in d) { if (d.V < 1 || d.V > 53) return null; if (!("w" in d)) d.w = 1; if ("Z" in d) { week = utcDate(newDate(d.y, 0, 1)), day = week.getUTCDay(); week = day > 4 || day === 0 ? d3Time.utcMonday.ceil(week) : d3Time.utcMonday(week); week = d3Time.utcDay.offset(week, (d.V - 1) * 7); d.y = week.getUTCFullYear(); d.m = week.getUTCMonth(); d.d = week.getUTCDate() + (d.w + 6) % 7; } else { week = localDate(newDate(d.y, 0, 1)), day = week.getDay(); week = day > 4 || day === 0 ? d3Time.timeMonday.ceil(week) : d3Time.timeMonday(week); week = d3Time.timeDay.offset(week, (d.V - 1) * 7); d.y = week.getFullYear(); d.m = week.getMonth(); d.d = week.getDate() + (d.w + 6) % 7; } } else if ("W" in d || "U" in d) { if (!("w" in d)) d.w = "u" in d ? d.u % 7 : "W" in d ? 1 : 0; day = "Z" in d ? utcDate(newDate(d.y, 0, 1)).getUTCDay() : localDate(newDate(d.y, 0, 1)).getDay(); d.m = 0; d.d = "W" in d ? (d.w + 6) % 7 + d.W * 7 - (day + 5) % 7 : d.w + d.U * 7 - (day + 6) % 7; } // If a time zone is specified, all fields are interpreted as UTC and then // offset according to the specified time zone. if ("Z" in d) { d.H += d.Z / 100 | 0; d.M += d.Z % 100; return utcDate(d); } // Otherwise, all fields are in local time. return localDate(d); }; } function parseSpecifier(d, specifier, string, j) { var i = 0, n = specifier.length, m = string.length, c, parse; while (i < n) { if (j >= m) return -1; c = specifier.charCodeAt(i++); if (c === 37) { c = specifier.charAt(i++); parse = parses[c in pads ? specifier.charAt(i++) : c]; if (!parse || ((j = parse(d, string, j)) < 0)) return -1; } else if (c != string.charCodeAt(j++)) { return -1; } } return j; } function parsePeriod(d, string, i) { var n = periodRe.exec(string.slice(i)); return n ? (d.p = periodLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseShortWeekday(d, string, i) { var n = shortWeekdayRe.exec(string.slice(i)); return n ? (d.w = shortWeekdayLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseWeekday(d, string, i) { var n = weekdayRe.exec(string.slice(i)); return n ? (d.w = weekdayLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseShortMonth(d, string, i) { var n = shortMonthRe.exec(string.slice(i)); return n ? (d.m = shortMonthLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseMonth(d, string, i) { var n = monthRe.exec(string.slice(i)); return n ? (d.m = monthLookup[n[0].toLowerCase()], i + n[0].length) : -1; } function parseLocaleDateTime(d, string, i) { return parseSpecifier(d, locale_dateTime, string, i); } function parseLocaleDate(d, string, i) { return parseSpecifier(d, locale_date, string, i); } function parseLocaleTime(d, string, i) { return parseSpecifier(d, locale_time, string, i); } function formatShortWeekday(d) { return locale_shortWeekdays[d.getDay()]; } function formatWeekday(d) { return locale_weekdays[d.getDay()]; } function formatShortMonth(d) { return locale_shortMonths[d.getMonth()]; } function formatMonth(d) { return locale_months[d.getMonth()]; } function formatPeriod(d) { return locale_periods[+(d.getHours() >= 12)]; } function formatQuarter(d) { return 1 + ~~(d.getMonth() / 3); } function formatUTCShortWeekday(d) { return locale_shortWeekdays[d.getUTCDay()]; } function formatUTCWeekday(d) { return locale_weekdays[d.getUTCDay()]; } function formatUTCShortMonth(d) { return locale_shortMonths[d.getUTCMonth()]; } function formatUTCMonth(d) { return locale_months[d.getUTCMonth()]; } function formatUTCPeriod(d) { return locale_periods[+(d.getUTCHours() >= 12)]; } function formatUTCQuarter(d) { return 1 + ~~(d.getUTCMonth() / 3); } return { format: function(specifier) { var f = newFormat(specifier += "", formats); f.toString = function() { return specifier; }; return f; }, parse: function(specifier) { var p = newParse(specifier += "", false); p.toString = function() { return specifier; }; return p; }, utcFormat: function(specifier) { var f = newFormat(specifier += "", utcFormats); f.toString = function() { return specifier; }; return f; }, utcParse: function(specifier) { var p = newParse(specifier += "", true); p.toString = function() { return specifier; }; return p; } }; } var pads = {"-": "", "_": " ", "0": "0"}, numberRe = /^\s*\d+/, // note: ignores next directive percentRe = /^%/, requoteRe = /[\\^$*+?|[\]().{}]/g; function pad(value, fill, width) { var sign = value < 0 ? "-" : "", string = (sign ? -value : value) + "", length = string.length; return sign + (length < width ? new Array(width - length + 1).join(fill) + string : string); } function requote(s) { return s.replace(requoteRe, "\\$&"); } function formatRe(names) { return new RegExp("^(?:" + names.map(requote).join("|") + ")", "i"); } function formatLookup(names) { var map = {}, i = -1, n = names.length; while (++i < n) map[names[i].toLowerCase()] = i; return map; } function parseWeekdayNumberSunday(d, string, i) { var n = numberRe.exec(string.slice(i, i + 1)); return n ? (d.w = +n[0], i + n[0].length) : -1; } function parseWeekdayNumberMonday(d, string, i) { var n = numberRe.exec(string.slice(i, i + 1)); return n ? (d.u = +n[0], i + n[0].length) : -1; } function parseWeekNumberSunday(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.U = +n[0], i + n[0].length) : -1; } function parseWeekNumberISO(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.V = +n[0], i + n[0].length) : -1; } function parseWeekNumberMonday(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.W = +n[0], i + n[0].length) : -1; } function parseFullYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 4)); return n ? (d.y = +n[0], i + n[0].length) : -1; } function parseYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.y = +n[0] + (+n[0] > 68 ? 1900 : 2000), i + n[0].length) : -1; } function parseZone(d, string, i) { var n = /^(Z)|([+-]\d\d)(?::?(\d\d))?/.exec(string.slice(i, i + 6)); return n ? (d.Z = n[1] ? 0 : -(n[2] + (n[3] || "00")), i + n[0].length) : -1; } function parseQuarter(d, string, i) { var n = numberRe.exec(string.slice(i, i + 1)); return n ? (d.q = n[0] * 3 - 3, i + n[0].length) : -1; } function parseMonthNumber(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.m = n[0] - 1, i + n[0].length) : -1; } function parseDayOfMonth(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.d = +n[0], i + n[0].length) : -1; } function parseDayOfYear(d, string, i) { var n = numberRe.exec(string.slice(i, i + 3)); return n ? (d.m = 0, d.d = +n[0], i + n[0].length) : -1; } function parseHour24(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.H = +n[0], i + n[0].length) : -1; } function parseMinutes(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.M = +n[0], i + n[0].length) : -1; } function parseSeconds(d, string, i) { var n = numberRe.exec(string.slice(i, i + 2)); return n ? (d.S = +n[0], i + n[0].length) : -1; } function parseMilliseconds(d, string, i) { var n = numberRe.exec(string.slice(i, i + 3)); return n ? (d.L = +n[0], i + n[0].length) : -1; } function parseMicroseconds(d, string, i) { var n = numberRe.exec(string.slice(i, i + 6)); return n ? (d.L = Math.floor(n[0] / 1000), i + n[0].length) : -1; } function parseLiteralPercent(d, string, i) { var n = percentRe.exec(string.slice(i, i + 1)); return n ? i + n[0].length : -1; } function parseUnixTimestamp(d, string, i) { var n = numberRe.exec(string.slice(i)); return n ? (d.Q = +n[0], i + n[0].length) : -1; } function parseUnixTimestampSeconds(d, string, i) { var n = numberRe.exec(string.slice(i)); return n ? (d.s = +n[0], i + n[0].length) : -1; } function formatDayOfMonth(d, p) { return pad(d.getDate(), p, 2); } function formatHour24(d, p) { return pad(d.getHours(), p, 2); } function formatHour12(d, p) { return pad(d.getHours() % 12 || 12, p, 2); } function formatDayOfYear(d, p) { return pad(1 + d3Time.timeDay.count(d3Time.timeYear(d), d), p, 3); } function formatMilliseconds(d, p) { return pad(d.getMilliseconds(), p, 3); } function formatMicroseconds(d, p) { return formatMilliseconds(d, p) + "000"; } function formatMonthNumber(d, p) { return pad(d.getMonth() + 1, p, 2); } function formatMinutes(d, p) { return pad(d.getMinutes(), p, 2); } function formatSeconds(d, p) { return pad(d.getSeconds(), p, 2); } function formatWeekdayNumberMonday(d) { var day = d.getDay(); return day === 0 ? 7 : day; } function formatWeekNumberSunday(d, p) { return pad(d3Time.timeSunday.count(d3Time.timeYear(d) - 1, d), p, 2); } function formatWeekNumberISO(d, p) { var day = d.getDay(); d = (day >= 4 || day === 0) ? d3Time.timeThursday(d) : d3Time.timeThursday.ceil(d); return pad(d3Time.timeThursday.count(d3Time.timeYear(d), d) + (d3Time.timeYear(d).getDay() === 4), p, 2); } function formatWeekdayNumberSunday(d) { return d.getDay(); } function formatWeekNumberMonday(d, p) { return pad(d3Time.timeMonday.count(d3Time.timeYear(d) - 1, d), p, 2); } function formatYear(d, p) { return pad(d.getFullYear() % 100, p, 2); } function formatFullYear(d, p) { return pad(d.getFullYear() % 10000, p, 4); } function formatZone(d) { var z = d.getTimezoneOffset(); return (z > 0 ? "-" : (z *= -1, "+")) + pad(z / 60 | 0, "0", 2) + pad(z % 60, "0", 2); } function formatUTCDayOfMonth(d, p) { return pad(d.getUTCDate(), p, 2); } function formatUTCHour24(d, p) { return pad(d.getUTCHours(), p, 2); } function formatUTCHour12(d, p) { return pad(d.getUTCHours() % 12 || 12, p, 2); } function formatUTCDayOfYear(d, p) { return pad(1 + d3Time.utcDay.count(d3Time.utcYear(d), d), p, 3); } function formatUTCMilliseconds(d, p) { return pad(d.getUTCMilliseconds(), p, 3); } function formatUTCMicroseconds(d, p) { return formatUTCMilliseconds(d, p) + "000"; } function formatUTCMonthNumber(d, p) { return pad(d.getUTCMonth() + 1, p, 2); } function formatUTCMinutes(d, p) { return pad(d.getUTCMinutes(), p, 2); } function formatUTCSeconds(d, p) { return pad(d.getUTCSeconds(), p, 2); } function formatUTCWeekdayNumberMonday(d) { var dow = d.getUTCDay(); return dow === 0 ? 7 : dow; } function formatUTCWeekNumberSunday(d, p) { return pad(d3Time.utcSunday.count(d3Time.utcYear(d) - 1, d), p, 2); } function formatUTCWeekNumberISO(d, p) { var day = d.getUTCDay(); d = (day >= 4 || day === 0) ? d3Time.utcThursday(d) : d3Time.utcThursday.ceil(d); return pad(d3Time.utcThursday.count(d3Time.utcYear(d), d) + (d3Time.utcYear(d).getUTCDay() === 4), p, 2); } function formatUTCWeekdayNumberSunday(d) { return d.getUTCDay(); } function formatUTCWeekNumberMonday(d, p) { return pad(d3Time.utcMonday.count(d3Time.utcYear(d) - 1, d), p, 2); } function formatUTCYear(d, p) { return pad(d.getUTCFullYear() % 100, p, 2); } function formatUTCFullYear(d, p) { return pad(d.getUTCFullYear() % 10000, p, 4); } function formatUTCZone() { return "+0000"; } function formatLiteralPercent() { return "%"; } function formatUnixTimestamp(d) { return +d; } function formatUnixTimestampSeconds(d) { return Math.floor(+d / 1000); } var locale; defaultLocale({ dateTime: "%x, %X", date: "%-m/%-d/%Y", time: "%-I:%M:%S %p", periods: ["AM", "PM"], days: ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"], shortDays: ["Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"], months: ["January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"], shortMonths: ["Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"] }); function defaultLocale(definition) { locale = formatLocale(definition); exports.timeFormat = locale.format; exports.timeParse = locale.parse; exports.utcFormat = locale.utcFormat; exports.utcParse = locale.utcParse; return locale; } var isoSpecifier = "%Y-%m-%dT%H:%M:%S.%LZ"; function formatIsoNative(date) { return date.toISOString(); } var formatIso = Date.prototype.toISOString ? formatIsoNative : exports.utcFormat(isoSpecifier); function parseIsoNative(string) { var date = new Date(string); return isNaN(date) ? null : date; } var parseIso = +new Date("2000-01-01T00:00:00.000Z") ? parseIsoNative : exports.utcParse(isoSpecifier); exports.isoFormat = formatIso; exports.isoParse = parseIso; exports.timeFormatDefaultLocale = defaultLocale; exports.timeFormatLocale = formatLocale; Object.defineProperty(exports, '__esModule', { value: true }); })); },{"d3-time":31}],31:[function(_dereq_,module,exports){ // https://d3js.org/d3-time/ v1.1.0 Copyright 2019 Mike Bostock (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (global = global || self, factory(global.d3 = global.d3 || {})); }(this, function (exports) { 'use strict'; var t0 = new Date, t1 = new Date; function newInterval(floori, offseti, count, field) { function interval(date) { return floori(date = arguments.length === 0 ? new Date : new Date(+date)), date; } interval.floor = function(date) { return floori(date = new Date(+date)), date; }; interval.ceil = function(date) { return floori(date = new Date(date - 1)), offseti(date, 1), floori(date), date; }; interval.round = function(date) { var d0 = interval(date), d1 = interval.ceil(date); return date - d0 < d1 - date ? d0 : d1; }; interval.offset = function(date, step) { return offseti(date = new Date(+date), step == null ? 1 : Math.floor(step)), date; }; interval.range = function(start, stop, step) { var range = [], previous; start = interval.ceil(start); step = step == null ? 1 : Math.floor(step); if (!(start < stop) || !(step > 0)) return range; // also handles Invalid Date do range.push(previous = new Date(+start)), offseti(start, step), floori(start); while (previous < start && start < stop); return range; }; interval.filter = function(test) { return newInterval(function(date) { if (date >= date) while (floori(date), !test(date)) date.setTime(date - 1); }, function(date, step) { if (date >= date) { if (step < 0) while (++step <= 0) { while (offseti(date, -1), !test(date)) {} // eslint-disable-line no-empty } else while (--step >= 0) { while (offseti(date, +1), !test(date)) {} // eslint-disable-line no-empty } } }); }; if (count) { interval.count = function(start, end) { t0.setTime(+start), t1.setTime(+end); floori(t0), floori(t1); return Math.floor(count(t0, t1)); }; interval.every = function(step) { step = Math.floor(step); return !isFinite(step) || !(step > 0) ? null : !(step > 1) ? interval : interval.filter(field ? function(d) { return field(d) % step === 0; } : function(d) { return interval.count(0, d) % step === 0; }); }; } return interval; } var millisecond = newInterval(function() { // noop }, function(date, step) { date.setTime(+date + step); }, function(start, end) { return end - start; }); // An optimized implementation for this simple case. millisecond.every = function(k) { k = Math.floor(k); if (!isFinite(k) || !(k > 0)) return null; if (!(k > 1)) return millisecond; return newInterval(function(date) { date.setTime(Math.floor(date / k) * k); }, function(date, step) { date.setTime(+date + step * k); }, function(start, end) { return (end - start) / k; }); }; var milliseconds = millisecond.range; var durationSecond = 1e3; var durationMinute = 6e4; var durationHour = 36e5; var durationDay = 864e5; var durationWeek = 6048e5; var second = newInterval(function(date) { date.setTime(date - date.getMilliseconds()); }, function(date, step) { date.setTime(+date + step * durationSecond); }, function(start, end) { return (end - start) / durationSecond; }, function(date) { return date.getUTCSeconds(); }); var seconds = second.range; var minute = newInterval(function(date) { date.setTime(date - date.getMilliseconds() - date.getSeconds() * durationSecond); }, function(date, step) { date.setTime(+date + step * durationMinute); }, function(start, end) { return (end - start) / durationMinute; }, function(date) { return date.getMinutes(); }); var minutes = minute.range; var hour = newInterval(function(date) { date.setTime(date - date.getMilliseconds() - date.getSeconds() * durationSecond - date.getMinutes() * durationMinute); }, function(date, step) { date.setTime(+date + step * durationHour); }, function(start, end) { return (end - start) / durationHour; }, function(date) { return date.getHours(); }); var hours = hour.range; var day = newInterval(function(date) { date.setHours(0, 0, 0, 0); }, function(date, step) { date.setDate(date.getDate() + step); }, function(start, end) { return (end - start - (end.getTimezoneOffset() - start.getTimezoneOffset()) * durationMinute) / durationDay; }, function(date) { return date.getDate() - 1; }); var days = day.range; function weekday(i) { return newInterval(function(date) { date.setDate(date.getDate() - (date.getDay() + 7 - i) % 7); date.setHours(0, 0, 0, 0); }, function(date, step) { date.setDate(date.getDate() + step * 7); }, function(start, end) { return (end - start - (end.getTimezoneOffset() - start.getTimezoneOffset()) * durationMinute) / durationWeek; }); } var sunday = weekday(0); var monday = weekday(1); var tuesday = weekday(2); var wednesday = weekday(3); var thursday = weekday(4); var friday = weekday(5); var saturday = weekday(6); var sundays = sunday.range; var mondays = monday.range; var tuesdays = tuesday.range; var wednesdays = wednesday.range; var thursdays = thursday.range; var fridays = friday.range; var saturdays = saturday.range; var month = newInterval(function(date) { date.setDate(1); date.setHours(0, 0, 0, 0); }, function(date, step) { date.setMonth(date.getMonth() + step); }, function(start, end) { return end.getMonth() - start.getMonth() + (end.getFullYear() - start.getFullYear()) * 12; }, function(date) { return date.getMonth(); }); var months = month.range; var year = newInterval(function(date) { date.setMonth(0, 1); date.setHours(0, 0, 0, 0); }, function(date, step) { date.setFullYear(date.getFullYear() + step); }, function(start, end) { return end.getFullYear() - start.getFullYear(); }, function(date) { return date.getFullYear(); }); // An optimized implementation for this simple case. year.every = function(k) { return !isFinite(k = Math.floor(k)) || !(k > 0) ? null : newInterval(function(date) { date.setFullYear(Math.floor(date.getFullYear() / k) * k); date.setMonth(0, 1); date.setHours(0, 0, 0, 0); }, function(date, step) { date.setFullYear(date.getFullYear() + step * k); }); }; var years = year.range; var utcMinute = newInterval(function(date) { date.setUTCSeconds(0, 0); }, function(date, step) { date.setTime(+date + step * durationMinute); }, function(start, end) { return (end - start) / durationMinute; }, function(date) { return date.getUTCMinutes(); }); var utcMinutes = utcMinute.range; var utcHour = newInterval(function(date) { date.setUTCMinutes(0, 0, 0); }, function(date, step) { date.setTime(+date + step * durationHour); }, function(start, end) { return (end - start) / durationHour; }, function(date) { return date.getUTCHours(); }); var utcHours = utcHour.range; var utcDay = newInterval(function(date) { date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCDate(date.getUTCDate() + step); }, function(start, end) { return (end - start) / durationDay; }, function(date) { return date.getUTCDate() - 1; }); var utcDays = utcDay.range; function utcWeekday(i) { return newInterval(function(date) { date.setUTCDate(date.getUTCDate() - (date.getUTCDay() + 7 - i) % 7); date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCDate(date.getUTCDate() + step * 7); }, function(start, end) { return (end - start) / durationWeek; }); } var utcSunday = utcWeekday(0); var utcMonday = utcWeekday(1); var utcTuesday = utcWeekday(2); var utcWednesday = utcWeekday(3); var utcThursday = utcWeekday(4); var utcFriday = utcWeekday(5); var utcSaturday = utcWeekday(6); var utcSundays = utcSunday.range; var utcMondays = utcMonday.range; var utcTuesdays = utcTuesday.range; var utcWednesdays = utcWednesday.range; var utcThursdays = utcThursday.range; var utcFridays = utcFriday.range; var utcSaturdays = utcSaturday.range; var utcMonth = newInterval(function(date) { date.setUTCDate(1); date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCMonth(date.getUTCMonth() + step); }, function(start, end) { return end.getUTCMonth() - start.getUTCMonth() + (end.getUTCFullYear() - start.getUTCFullYear()) * 12; }, function(date) { return date.getUTCMonth(); }); var utcMonths = utcMonth.range; var utcYear = newInterval(function(date) { date.setUTCMonth(0, 1); date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCFullYear(date.getUTCFullYear() + step); }, function(start, end) { return end.getUTCFullYear() - start.getUTCFullYear(); }, function(date) { return date.getUTCFullYear(); }); // An optimized implementation for this simple case. utcYear.every = function(k) { return !isFinite(k = Math.floor(k)) || !(k > 0) ? null : newInterval(function(date) { date.setUTCFullYear(Math.floor(date.getUTCFullYear() / k) * k); date.setUTCMonth(0, 1); date.setUTCHours(0, 0, 0, 0); }, function(date, step) { date.setUTCFullYear(date.getUTCFullYear() + step * k); }); }; var utcYears = utcYear.range; exports.timeDay = day; exports.timeDays = days; exports.timeFriday = friday; exports.timeFridays = fridays; exports.timeHour = hour; exports.timeHours = hours; exports.timeInterval = newInterval; exports.timeMillisecond = millisecond; exports.timeMilliseconds = milliseconds; exports.timeMinute = minute; exports.timeMinutes = minutes; exports.timeMonday = monday; exports.timeMondays = mondays; exports.timeMonth = month; exports.timeMonths = months; exports.timeSaturday = saturday; exports.timeSaturdays = saturdays; exports.timeSecond = second; exports.timeSeconds = seconds; exports.timeSunday = sunday; exports.timeSundays = sundays; exports.timeThursday = thursday; exports.timeThursdays = thursdays; exports.timeTuesday = tuesday; exports.timeTuesdays = tuesdays; exports.timeWednesday = wednesday; exports.timeWednesdays = wednesdays; exports.timeWeek = sunday; exports.timeWeeks = sundays; exports.timeYear = year; exports.timeYears = years; exports.utcDay = utcDay; exports.utcDays = utcDays; exports.utcFriday = utcFriday; exports.utcFridays = utcFridays; exports.utcHour = utcHour; exports.utcHours = utcHours; exports.utcMillisecond = millisecond; exports.utcMilliseconds = milliseconds; exports.utcMinute = utcMinute; exports.utcMinutes = utcMinutes; exports.utcMonday = utcMonday; exports.utcMondays = utcMondays; exports.utcMonth = utcMonth; exports.utcMonths = utcMonths; exports.utcSaturday = utcSaturday; exports.utcSaturdays = utcSaturdays; exports.utcSecond = second; exports.utcSeconds = seconds; exports.utcSunday = utcSunday; exports.utcSundays = utcSundays; exports.utcThursday = utcThursday; exports.utcThursdays = utcThursdays; exports.utcTuesday = utcTuesday; exports.utcTuesdays = utcTuesdays; exports.utcWednesday = utcWednesday; exports.utcWednesdays = utcWednesdays; exports.utcWeek = utcSunday; exports.utcWeeks = utcSundays; exports.utcYear = utcYear; exports.utcYears = utcYears; Object.defineProperty(exports, '__esModule', { value: true }); })); },{}],32:[function(_dereq_,module,exports){ arguments[4][31][0].apply(exports,arguments) },{"dup":31}],33:[function(_dereq_,module,exports){ /** * inspired by is-number * but significantly simplified and sped up by ignoring number and string constructors * ie these return false: * new Number(1) * new String('1') */ 'use strict'; var allBlankCharCodes = _dereq_('is-string-blank'); module.exports = function(n) { var type = typeof n; if(type === 'string') { var original = n; n = +n; // whitespace strings cast to zero - filter them out if(n===0 && allBlankCharCodes(original)) return false; } else if(type !== 'number') return false; return n - n < 1; }; },{"is-string-blank":70}],34:[function(_dereq_,module,exports){ module.exports = adjoint; /** * Calculates the adjugate of a mat4 * * @param {mat4} out the receiving matrix * @param {mat4} a the source matrix * @returns {mat4} out */ function adjoint(out, a) { var a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3], a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7], a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11], a30 = a[12], a31 = a[13], a32 = a[14], a33 = a[15]; out[0] = (a11 * (a22 * a33 - a23 * a32) - a21 * (a12 * a33 - a13 * a32) + a31 * (a12 * a23 - a13 * a22)); out[1] = -(a01 * (a22 * a33 - a23 * a32) - a21 * (a02 * a33 - a03 * a32) + a31 * (a02 * a23 - a03 * a22)); out[2] = (a01 * (a12 * a33 - a13 * a32) - a11 * (a02 * a33 - a03 * a32) + a31 * (a02 * a13 - a03 * a12)); out[3] = -(a01 * (a12 * a23 - a13 * a22) - a11 * (a02 * a23 - a03 * a22) + a21 * (a02 * a13 - a03 * a12)); out[4] = -(a10 * (a22 * a33 - a23 * a32) - a20 * (a12 * a33 - a13 * a32) + a30 * (a12 * a23 - a13 * a22)); out[5] = (a00 * (a22 * a33 - a23 * a32) - a20 * (a02 * a33 - a03 * a32) + a30 * (a02 * a23 - a03 * a22)); out[6] = -(a00 * (a12 * a33 - a13 * a32) - a10 * (a02 * a33 - a03 * a32) + a30 * (a02 * a13 - a03 * a12)); out[7] = (a00 * (a12 * a23 - a13 * a22) - a10 * (a02 * a23 - a03 * a22) + a20 * (a02 * a13 - a03 * a12)); out[8] = (a10 * (a21 * a33 - a23 * a31) - a20 * (a11 * a33 - a13 * a31) + a30 * (a11 * a23 - a13 * a21)); out[9] = -(a00 * (a21 * a33 - a23 * a31) - a20 * (a01 * a33 - a03 * a31) + a30 * (a01 * a23 - a03 * a21)); out[10] = (a00 * (a11 * a33 - a13 * a31) - a10 * (a01 * a33 - a03 * a31) + a30 * (a01 * a13 - a03 * a11)); out[11] = -(a00 * (a11 * a23 - a13 * a21) - a10 * (a01 * a23 - a03 * a21) + a20 * (a01 * a13 - a03 * a11)); out[12] = -(a10 * (a21 * a32 - a22 * a31) - a20 * (a11 * a32 - a12 * a31) + a30 * (a11 * a22 - a12 * a21)); out[13] = (a00 * (a21 * a32 - a22 * a31) - a20 * (a01 * a32 - a02 * a31) + a30 * (a01 * a22 - a02 * a21)); out[14] = -(a00 * (a11 * a32 - a12 * a31) - a10 * (a01 * a32 - a02 * a31) + a30 * (a01 * a12 - a02 * a11)); out[15] = (a00 * (a11 * a22 - a12 * a21) - a10 * (a01 * a22 - a02 * a21) + a20 * (a01 * a12 - a02 * a11)); return out; }; },{}],35:[function(_dereq_,module,exports){ module.exports = clone; /** * Creates a new mat4 initialized with values from an existing matrix * * @param {mat4} a matrix to clone * @returns {mat4} a new 4x4 matrix */ function clone(a) { var out = new Float32Array(16); out[0] = a[0]; out[1] = a[1]; out[2] = a[2]; out[3] = a[3]; out[4] = a[4]; out[5] = a[5]; out[6] = a[6]; out[7] = a[7]; out[8] = a[8]; out[9] = a[9]; out[10] = a[10]; out[11] = a[11]; out[12] = a[12]; out[13] = a[13]; out[14] = a[14]; out[15] = a[15]; return out; }; },{}],36:[function(_dereq_,module,exports){ module.exports = copy; /** * Copy the values from one mat4 to another * * @param {mat4} out the receiving matrix * @param {mat4} a the source matrix * @returns {mat4} out */ function copy(out, a) { out[0] = a[0]; out[1] = a[1]; out[2] = a[2]; out[3] = a[3]; out[4] = a[4]; out[5] = a[5]; out[6] = a[6]; out[7] = a[7]; out[8] = a[8]; out[9] = a[9]; out[10] = a[10]; out[11] = a[11]; out[12] = a[12]; out[13] = a[13]; out[14] = a[14]; out[15] = a[15]; return out; }; },{}],37:[function(_dereq_,module,exports){ module.exports = create; /** * Creates a new identity mat4 * * @returns {mat4} a new 4x4 matrix */ function create() { var out = new Float32Array(16); out[0] = 1; out[1] = 0; out[2] = 0; out[3] = 0; out[4] = 0; out[5] = 1; out[6] = 0; out[7] = 0; out[8] = 0; out[9] = 0; out[10] = 1; out[11] = 0; out[12] = 0; out[13] = 0; out[14] = 0; out[15] = 1; return out; }; },{}],38:[function(_dereq_,module,exports){ module.exports = determinant; /** * Calculates the determinant of a mat4 * * @param {mat4} a the source matrix * @returns {Number} determinant of a */ function determinant(a) { var a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3], a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7], a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11], a30 = a[12], a31 = a[13], a32 = a[14], a33 = a[15], b00 = a00 * a11 - a01 * a10, b01 = a00 * a12 - a02 * a10, b02 = a00 * a13 - a03 * a10, b03 = a01 * a12 - a02 * a11, b04 = a01 * a13 - a03 * a11, b05 = a02 * a13 - a03 * a12, b06 = a20 * a31 - a21 * a30, b07 = a20 * a32 - a22 * a30, b08 = a20 * a33 - a23 * a30, b09 = a21 * a32 - a22 * a31, b10 = a21 * a33 - a23 * a31, b11 = a22 * a33 - a23 * a32; // Calculate the determinant return b00 * b11 - b01 * b10 + b02 * b09 + b03 * b08 - b04 * b07 + b05 * b06; }; },{}],39:[function(_dereq_,module,exports){ module.exports = fromQuat; /** * Creates a matrix from a quaternion rotation. * * @param {mat4} out mat4 receiving operation result * @param {quat4} q Rotation quaternion * @returns {mat4} out */ function fromQuat(out, q) { var x = q[0], y = q[1], z = q[2], w = q[3], x2 = x + x, y2 = y + y, z2 = z + z, xx = x * x2, yx = y * x2, yy = y * y2, zx = z * x2, zy = z * y2, zz = z * z2, wx = w * x2, wy = w * y2, wz = w * z2; out[0] = 1 - yy - zz; out[1] = yx + wz; out[2] = zx - wy; out[3] = 0; out[4] = yx - wz; out[5] = 1 - xx - zz; out[6] = zy + wx; out[7] = 0; out[8] = zx + wy; out[9] = zy - wx; out[10] = 1 - xx - yy; out[11] = 0; out[12] = 0; out[13] = 0; out[14] = 0; out[15] = 1; return out; }; },{}],40:[function(_dereq_,module,exports){ module.exports = fromRotation /** * Creates a matrix from a given angle around a given axis * This is equivalent to (but much faster than): * * mat4.identity(dest) * mat4.rotate(dest, dest, rad, axis) * * @param {mat4} out mat4 receiving operation result * @param {Number} rad the angle to rotate the matrix by * @param {vec3} axis the axis to rotate around * @returns {mat4} out */ function fromRotation(out, rad, axis) { var s, c, t var x = axis[0] var y = axis[1] var z = axis[2] var len = Math.sqrt(x * x + y * y + z * z) if (Math.abs(len) < 0.000001) { return null } len = 1 / len x *= len y *= len z *= len s = Math.sin(rad) c = Math.cos(rad) t = 1 - c // Perform rotation-specific matrix multiplication out[0] = x * x * t + c out[1] = y * x * t + z * s out[2] = z * x * t - y * s out[3] = 0 out[4] = x * y * t - z * s out[5] = y * y * t + c out[6] = z * y * t + x * s out[7] = 0 out[8] = x * z * t + y * s out[9] = y * z * t - x * s out[10] = z * z * t + c out[11] = 0 out[12] = 0 out[13] = 0 out[14] = 0 out[15] = 1 return out } },{}],41:[function(_dereq_,module,exports){ module.exports = fromRotationTranslation; /** * Creates a matrix from a quaternion rotation and vector translation * This is equivalent to (but much faster than): * * mat4.identity(dest); * mat4.translate(dest, vec); * var quatMat = mat4.create(); * quat4.toMat4(quat, quatMat); * mat4.multiply(dest, quatMat); * * @param {mat4} out mat4 receiving operation result * @param {quat4} q Rotation quaternion * @param {vec3} v Translation vector * @returns {mat4} out */ function fromRotationTranslation(out, q, v) { // Quaternion math var x = q[0], y = q[1], z = q[2], w = q[3], x2 = x + x, y2 = y + y, z2 = z + z, xx = x * x2, xy = x * y2, xz = x * z2, yy = y * y2, yz = y * z2, zz = z * z2, wx = w * x2, wy = w * y2, wz = w * z2; out[0] = 1 - (yy + zz); out[1] = xy + wz; out[2] = xz - wy; out[3] = 0; out[4] = xy - wz; out[5] = 1 - (xx + zz); out[6] = yz + wx; out[7] = 0; out[8] = xz + wy; out[9] = yz - wx; out[10] = 1 - (xx + yy); out[11] = 0; out[12] = v[0]; out[13] = v[1]; out[14] = v[2]; out[15] = 1; return out; }; },{}],42:[function(_dereq_,module,exports){ module.exports = fromScaling /** * Creates a matrix from a vector scaling * This is equivalent to (but much faster than): * * mat4.identity(dest) * mat4.scale(dest, dest, vec) * * @param {mat4} out mat4 receiving operation result * @param {vec3} v Scaling vector * @returns {mat4} out */ function fromScaling(out, v) { out[0] = v[0] out[1] = 0 out[2] = 0 out[3] = 0 out[4] = 0 out[5] = v[1] out[6] = 0 out[7] = 0 out[8] = 0 out[9] = 0 out[10] = v[2] out[11] = 0 out[12] = 0 out[13] = 0 out[14] = 0 out[15] = 1 return out } },{}],43:[function(_dereq_,module,exports){ module.exports = fromTranslation /** * Creates a matrix from a vector translation * This is equivalent to (but much faster than): * * mat4.identity(dest) * mat4.translate(dest, dest, vec) * * @param {mat4} out mat4 receiving operation result * @param {vec3} v Translation vector * @returns {mat4} out */ function fromTranslation(out, v) { out[0] = 1 out[1] = 0 out[2] = 0 out[3] = 0 out[4] = 0 out[5] = 1 out[6] = 0 out[7] = 0 out[8] = 0 out[9] = 0 out[10] = 1 out[11] = 0 out[12] = v[0] out[13] = v[1] out[14] = v[2] out[15] = 1 return out } },{}],44:[function(_dereq_,module,exports){ module.exports = fromXRotation /** * Creates a matrix from the given angle around the X axis * This is equivalent to (but much faster than): * * mat4.identity(dest) * mat4.rotateX(dest, dest, rad) * * @param {mat4} out mat4 receiving operation result * @param {Number} rad the angle to rotate the matrix by * @returns {mat4} out */ function fromXRotation(out, rad) { var s = Math.sin(rad), c = Math.cos(rad) // Perform axis-specific matrix multiplication out[0] = 1 out[1] = 0 out[2] = 0 out[3] = 0 out[4] = 0 out[5] = c out[6] = s out[7] = 0 out[8] = 0 out[9] = -s out[10] = c out[11] = 0 out[12] = 0 out[13] = 0 out[14] = 0 out[15] = 1 return out } },{}],45:[function(_dereq_,module,exports){ module.exports = fromYRotation /** * Creates a matrix from the given angle around the Y axis * This is equivalent to (but much faster than): * * mat4.identity(dest) * mat4.rotateY(dest, dest, rad) * * @param {mat4} out mat4 receiving operation result * @param {Number} rad the angle to rotate the matrix by * @returns {mat4} out */ function fromYRotation(out, rad) { var s = Math.sin(rad), c = Math.cos(rad) // Perform axis-specific matrix multiplication out[0] = c out[1] = 0 out[2] = -s out[3] = 0 out[4] = 0 out[5] = 1 out[6] = 0 out[7] = 0 out[8] = s out[9] = 0 out[10] = c out[11] = 0 out[12] = 0 out[13] = 0 out[14] = 0 out[15] = 1 return out } },{}],46:[function(_dereq_,module,exports){ module.exports = fromZRotation /** * Creates a matrix from the given angle around the Z axis * This is equivalent to (but much faster than): * * mat4.identity(dest) * mat4.rotateZ(dest, dest, rad) * * @param {mat4} out mat4 receiving operation result * @param {Number} rad the angle to rotate the matrix by * @returns {mat4} out */ function fromZRotation(out, rad) { var s = Math.sin(rad), c = Math.cos(rad) // Perform axis-specific matrix multiplication out[0] = c out[1] = s out[2] = 0 out[3] = 0 out[4] = -s out[5] = c out[6] = 0 out[7] = 0 out[8] = 0 out[9] = 0 out[10] = 1 out[11] = 0 out[12] = 0 out[13] = 0 out[14] = 0 out[15] = 1 return out } },{}],47:[function(_dereq_,module,exports){ module.exports = frustum; /** * Generates a frustum matrix with the given bounds * * @param {mat4} out mat4 frustum matrix will be written into * @param {Number} left Left bound of the frustum * @param {Number} right Right bound of the frustum * @param {Number} bottom Bottom bound of the frustum * @param {Number} top Top bound of the frustum * @param {Number} near Near bound of the frustum * @param {Number} far Far bound of the frustum * @returns {mat4} out */ function frustum(out, left, right, bottom, top, near, far) { var rl = 1 / (right - left), tb = 1 / (top - bottom), nf = 1 / (near - far); out[0] = (near * 2) * rl; out[1] = 0; out[2] = 0; out[3] = 0; out[4] = 0; out[5] = (near * 2) * tb; out[6] = 0; out[7] = 0; out[8] = (right + left) * rl; out[9] = (top + bottom) * tb; out[10] = (far + near) * nf; out[11] = -1; out[12] = 0; out[13] = 0; out[14] = (far * near * 2) * nf; out[15] = 0; return out; }; },{}],48:[function(_dereq_,module,exports){ module.exports = identity; /** * Set a mat4 to the identity matrix * * @param {mat4} out the receiving matrix * @returns {mat4} out */ function identity(out) { out[0] = 1; out[1] = 0; out[2] = 0; out[3] = 0; out[4] = 0; out[5] = 1; out[6] = 0; out[7] = 0; out[8] = 0; out[9] = 0; out[10] = 1; out[11] = 0; out[12] = 0; out[13] = 0; out[14] = 0; out[15] = 1; return out; }; },{}],49:[function(_dereq_,module,exports){ module.exports = { create: _dereq_('./create') , clone: _dereq_('./clone') , copy: _dereq_('./copy') , identity: _dereq_('./identity') , transpose: _dereq_('./transpose') , invert: _dereq_('./invert') , adjoint: _dereq_('./adjoint') , determinant: _dereq_('./determinant') , multiply: _dereq_('./multiply') , translate: _dereq_('./translate') , scale: _dereq_('./scale') , rotate: _dereq_('./rotate') , rotateX: _dereq_('./rotateX') , rotateY: _dereq_('./rotateY') , rotateZ: _dereq_('./rotateZ') , fromRotation: _dereq_('./fromRotation') , fromRotationTranslation: _dereq_('./fromRotationTranslation') , fromScaling: _dereq_('./fromScaling') , fromTranslation: _dereq_('./fromTranslation') , fromXRotation: _dereq_('./fromXRotation') , fromYRotation: _dereq_('./fromYRotation') , fromZRotation: _dereq_('./fromZRotation') , fromQuat: _dereq_('./fromQuat') , frustum: _dereq_('./frustum') , perspective: _dereq_('./perspective') , perspectiveFromFieldOfView: _dereq_('./perspectiveFromFieldOfView') , ortho: _dereq_('./ortho') , lookAt: _dereq_('./lookAt') , str: _dereq_('./str') } },{"./adjoint":34,"./clone":35,"./copy":36,"./create":37,"./determinant":38,"./fromQuat":39,"./fromRotation":40,"./fromRotationTranslation":41,"./fromScaling":42,"./fromTranslation":43,"./fromXRotation":44,"./fromYRotation":45,"./fromZRotation":46,"./frustum":47,"./identity":48,"./invert":50,"./lookAt":51,"./multiply":52,"./ortho":53,"./perspective":54,"./perspectiveFromFieldOfView":55,"./rotate":56,"./rotateX":57,"./rotateY":58,"./rotateZ":59,"./scale":60,"./str":61,"./translate":62,"./transpose":63}],50:[function(_dereq_,module,exports){ module.exports = invert; /** * Inverts a mat4 * * @param {mat4} out the receiving matrix * @param {mat4} a the source matrix * @returns {mat4} out */ function invert(out, a) { var a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3], a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7], a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11], a30 = a[12], a31 = a[13], a32 = a[14], a33 = a[15], b00 = a00 * a11 - a01 * a10, b01 = a00 * a12 - a02 * a10, b02 = a00 * a13 - a03 * a10, b03 = a01 * a12 - a02 * a11, b04 = a01 * a13 - a03 * a11, b05 = a02 * a13 - a03 * a12, b06 = a20 * a31 - a21 * a30, b07 = a20 * a32 - a22 * a30, b08 = a20 * a33 - a23 * a30, b09 = a21 * a32 - a22 * a31, b10 = a21 * a33 - a23 * a31, b11 = a22 * a33 - a23 * a32, // Calculate the determinant det = b00 * b11 - b01 * b10 + b02 * b09 + b03 * b08 - b04 * b07 + b05 * b06; if (!det) { return null; } det = 1.0 / det; out[0] = (a11 * b11 - a12 * b10 + a13 * b09) * det; out[1] = (a02 * b10 - a01 * b11 - a03 * b09) * det; out[2] = (a31 * b05 - a32 * b04 + a33 * b03) * det; out[3] = (a22 * b04 - a21 * b05 - a23 * b03) * det; out[4] = (a12 * b08 - a10 * b11 - a13 * b07) * det; out[5] = (a00 * b11 - a02 * b08 + a03 * b07) * det; out[6] = (a32 * b02 - a30 * b05 - a33 * b01) * det; out[7] = (a20 * b05 - a22 * b02 + a23 * b01) * det; out[8] = (a10 * b10 - a11 * b08 + a13 * b06) * det; out[9] = (a01 * b08 - a00 * b10 - a03 * b06) * det; out[10] = (a30 * b04 - a31 * b02 + a33 * b00) * det; out[11] = (a21 * b02 - a20 * b04 - a23 * b00) * det; out[12] = (a11 * b07 - a10 * b09 - a12 * b06) * det; out[13] = (a00 * b09 - a01 * b07 + a02 * b06) * det; out[14] = (a31 * b01 - a30 * b03 - a32 * b00) * det; out[15] = (a20 * b03 - a21 * b01 + a22 * b00) * det; return out; }; },{}],51:[function(_dereq_,module,exports){ var identity = _dereq_('./identity'); module.exports = lookAt; /** * Generates a look-at matrix with the given eye position, focal point, and up axis * * @param {mat4} out mat4 frustum matrix will be written into * @param {vec3} eye Position of the viewer * @param {vec3} center Point the viewer is looking at * @param {vec3} up vec3 pointing up * @returns {mat4} out */ function lookAt(out, eye, center, up) { var x0, x1, x2, y0, y1, y2, z0, z1, z2, len, eyex = eye[0], eyey = eye[1], eyez = eye[2], upx = up[0], upy = up[1], upz = up[2], centerx = center[0], centery = center[1], centerz = center[2]; if (Math.abs(eyex - centerx) < 0.000001 && Math.abs(eyey - centery) < 0.000001 && Math.abs(eyez - centerz) < 0.000001) { return identity(out); } z0 = eyex - centerx; z1 = eyey - centery; z2 = eyez - centerz; len = 1 / Math.sqrt(z0 * z0 + z1 * z1 + z2 * z2); z0 *= len; z1 *= len; z2 *= len; x0 = upy * z2 - upz * z1; x1 = upz * z0 - upx * z2; x2 = upx * z1 - upy * z0; len = Math.sqrt(x0 * x0 + x1 * x1 + x2 * x2); if (!len) { x0 = 0; x1 = 0; x2 = 0; } else { len = 1 / len; x0 *= len; x1 *= len; x2 *= len; } y0 = z1 * x2 - z2 * x1; y1 = z2 * x0 - z0 * x2; y2 = z0 * x1 - z1 * x0; len = Math.sqrt(y0 * y0 + y1 * y1 + y2 * y2); if (!len) { y0 = 0; y1 = 0; y2 = 0; } else { len = 1 / len; y0 *= len; y1 *= len; y2 *= len; } out[0] = x0; out[1] = y0; out[2] = z0; out[3] = 0; out[4] = x1; out[5] = y1; out[6] = z1; out[7] = 0; out[8] = x2; out[9] = y2; out[10] = z2; out[11] = 0; out[12] = -(x0 * eyex + x1 * eyey + x2 * eyez); out[13] = -(y0 * eyex + y1 * eyey + y2 * eyez); out[14] = -(z0 * eyex + z1 * eyey + z2 * eyez); out[15] = 1; return out; }; },{"./identity":48}],52:[function(_dereq_,module,exports){ module.exports = multiply; /** * Multiplies two mat4's * * @param {mat4} out the receiving matrix * @param {mat4} a the first operand * @param {mat4} b the second operand * @returns {mat4} out */ function multiply(out, a, b) { var a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3], a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7], a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11], a30 = a[12], a31 = a[13], a32 = a[14], a33 = a[15]; // Cache only the current line of the second matrix var b0 = b[0], b1 = b[1], b2 = b[2], b3 = b[3]; out[0] = b0*a00 + b1*a10 + b2*a20 + b3*a30; out[1] = b0*a01 + b1*a11 + b2*a21 + b3*a31; out[2] = b0*a02 + b1*a12 + b2*a22 + b3*a32; out[3] = b0*a03 + b1*a13 + b2*a23 + b3*a33; b0 = b[4]; b1 = b[5]; b2 = b[6]; b3 = b[7]; out[4] = b0*a00 + b1*a10 + b2*a20 + b3*a30; out[5] = b0*a01 + b1*a11 + b2*a21 + b3*a31; out[6] = b0*a02 + b1*a12 + b2*a22 + b3*a32; out[7] = b0*a03 + b1*a13 + b2*a23 + b3*a33; b0 = b[8]; b1 = b[9]; b2 = b[10]; b3 = b[11]; out[8] = b0*a00 + b1*a10 + b2*a20 + b3*a30; out[9] = b0*a01 + b1*a11 + b2*a21 + b3*a31; out[10] = b0*a02 + b1*a12 + b2*a22 + b3*a32; out[11] = b0*a03 + b1*a13 + b2*a23 + b3*a33; b0 = b[12]; b1 = b[13]; b2 = b[14]; b3 = b[15]; out[12] = b0*a00 + b1*a10 + b2*a20 + b3*a30; out[13] = b0*a01 + b1*a11 + b2*a21 + b3*a31; out[14] = b0*a02 + b1*a12 + b2*a22 + b3*a32; out[15] = b0*a03 + b1*a13 + b2*a23 + b3*a33; return out; }; },{}],53:[function(_dereq_,module,exports){ module.exports = ortho; /** * Generates a orthogonal projection matrix with the given bounds * * @param {mat4} out mat4 frustum matrix will be written into * @param {number} left Left bound of the frustum * @param {number} right Right bound of the frustum * @param {number} bottom Bottom bound of the frustum * @param {number} top Top bound of the frustum * @param {number} near Near bound of the frustum * @param {number} far Far bound of the frustum * @returns {mat4} out */ function ortho(out, left, right, bottom, top, near, far) { var lr = 1 / (left - right), bt = 1 / (bottom - top), nf = 1 / (near - far); out[0] = -2 * lr; out[1] = 0; out[2] = 0; out[3] = 0; out[4] = 0; out[5] = -2 * bt; out[6] = 0; out[7] = 0; out[8] = 0; out[9] = 0; out[10] = 2 * nf; out[11] = 0; out[12] = (left + right) * lr; out[13] = (top + bottom) * bt; out[14] = (far + near) * nf; out[15] = 1; return out; }; },{}],54:[function(_dereq_,module,exports){ module.exports = perspective; /** * Generates a perspective projection matrix with the given bounds * * @param {mat4} out mat4 frustum matrix will be written into * @param {number} fovy Vertical field of view in radians * @param {number} aspect Aspect ratio. typically viewport width/height * @param {number} near Near bound of the frustum * @param {number} far Far bound of the frustum * @returns {mat4} out */ function perspective(out, fovy, aspect, near, far) { var f = 1.0 / Math.tan(fovy / 2), nf = 1 / (near - far); out[0] = f / aspect; out[1] = 0; out[2] = 0; out[3] = 0; out[4] = 0; out[5] = f; out[6] = 0; out[7] = 0; out[8] = 0; out[9] = 0; out[10] = (far + near) * nf; out[11] = -1; out[12] = 0; out[13] = 0; out[14] = (2 * far * near) * nf; out[15] = 0; return out; }; },{}],55:[function(_dereq_,module,exports){ module.exports = perspectiveFromFieldOfView; /** * Generates a perspective projection matrix with the given field of view. * This is primarily useful for generating projection matrices to be used * with the still experiemental WebVR API. * * @param {mat4} out mat4 frustum matrix will be written into * @param {number} fov Object containing the following values: upDegrees, downDegrees, leftDegrees, rightDegrees * @param {number} near Near bound of the frustum * @param {number} far Far bound of the frustum * @returns {mat4} out */ function perspectiveFromFieldOfView(out, fov, near, far) { var upTan = Math.tan(fov.upDegrees * Math.PI/180.0), downTan = Math.tan(fov.downDegrees * Math.PI/180.0), leftTan = Math.tan(fov.leftDegrees * Math.PI/180.0), rightTan = Math.tan(fov.rightDegrees * Math.PI/180.0), xScale = 2.0 / (leftTan + rightTan), yScale = 2.0 / (upTan + downTan); out[0] = xScale; out[1] = 0.0; out[2] = 0.0; out[3] = 0.0; out[4] = 0.0; out[5] = yScale; out[6] = 0.0; out[7] = 0.0; out[8] = -((leftTan - rightTan) * xScale * 0.5); out[9] = ((upTan - downTan) * yScale * 0.5); out[10] = far / (near - far); out[11] = -1.0; out[12] = 0.0; out[13] = 0.0; out[14] = (far * near) / (near - far); out[15] = 0.0; return out; } },{}],56:[function(_dereq_,module,exports){ module.exports = rotate; /** * Rotates a mat4 by the given angle * * @param {mat4} out the receiving matrix * @param {mat4} a the matrix to rotate * @param {Number} rad the angle to rotate the matrix by * @param {vec3} axis the axis to rotate around * @returns {mat4} out */ function rotate(out, a, rad, axis) { var x = axis[0], y = axis[1], z = axis[2], len = Math.sqrt(x * x + y * y + z * z), s, c, t, a00, a01, a02, a03, a10, a11, a12, a13, a20, a21, a22, a23, b00, b01, b02, b10, b11, b12, b20, b21, b22; if (Math.abs(len) < 0.000001) { return null; } len = 1 / len; x *= len; y *= len; z *= len; s = Math.sin(rad); c = Math.cos(rad); t = 1 - c; a00 = a[0]; a01 = a[1]; a02 = a[2]; a03 = a[3]; a10 = a[4]; a11 = a[5]; a12 = a[6]; a13 = a[7]; a20 = a[8]; a21 = a[9]; a22 = a[10]; a23 = a[11]; // Construct the elements of the rotation matrix b00 = x * x * t + c; b01 = y * x * t + z * s; b02 = z * x * t - y * s; b10 = x * y * t - z * s; b11 = y * y * t + c; b12 = z * y * t + x * s; b20 = x * z * t + y * s; b21 = y * z * t - x * s; b22 = z * z * t + c; // Perform rotation-specific matrix multiplication out[0] = a00 * b00 + a10 * b01 + a20 * b02; out[1] = a01 * b00 + a11 * b01 + a21 * b02; out[2] = a02 * b00 + a12 * b01 + a22 * b02; out[3] = a03 * b00 + a13 * b01 + a23 * b02; out[4] = a00 * b10 + a10 * b11 + a20 * b12; out[5] = a01 * b10 + a11 * b11 + a21 * b12; out[6] = a02 * b10 + a12 * b11 + a22 * b12; out[7] = a03 * b10 + a13 * b11 + a23 * b12; out[8] = a00 * b20 + a10 * b21 + a20 * b22; out[9] = a01 * b20 + a11 * b21 + a21 * b22; out[10] = a02 * b20 + a12 * b21 + a22 * b22; out[11] = a03 * b20 + a13 * b21 + a23 * b22; if (a !== out) { // If the source and destination differ, copy the unchanged last row out[12] = a[12]; out[13] = a[13]; out[14] = a[14]; out[15] = a[15]; } return out; }; },{}],57:[function(_dereq_,module,exports){ module.exports = rotateX; /** * Rotates a matrix by the given angle around the X axis * * @param {mat4} out the receiving matrix * @param {mat4} a the matrix to rotate * @param {Number} rad the angle to rotate the matrix by * @returns {mat4} out */ function rotateX(out, a, rad) { var s = Math.sin(rad), c = Math.cos(rad), a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7], a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11]; if (a !== out) { // If the source and destination differ, copy the unchanged rows out[0] = a[0]; out[1] = a[1]; out[2] = a[2]; out[3] = a[3]; out[12] = a[12]; out[13] = a[13]; out[14] = a[14]; out[15] = a[15]; } // Perform axis-specific matrix multiplication out[4] = a10 * c + a20 * s; out[5] = a11 * c + a21 * s; out[6] = a12 * c + a22 * s; out[7] = a13 * c + a23 * s; out[8] = a20 * c - a10 * s; out[9] = a21 * c - a11 * s; out[10] = a22 * c - a12 * s; out[11] = a23 * c - a13 * s; return out; }; },{}],58:[function(_dereq_,module,exports){ module.exports = rotateY; /** * Rotates a matrix by the given angle around the Y axis * * @param {mat4} out the receiving matrix * @param {mat4} a the matrix to rotate * @param {Number} rad the angle to rotate the matrix by * @returns {mat4} out */ function rotateY(out, a, rad) { var s = Math.sin(rad), c = Math.cos(rad), a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3], a20 = a[8], a21 = a[9], a22 = a[10], a23 = a[11]; if (a !== out) { // If the source and destination differ, copy the unchanged rows out[4] = a[4]; out[5] = a[5]; out[6] = a[6]; out[7] = a[7]; out[12] = a[12]; out[13] = a[13]; out[14] = a[14]; out[15] = a[15]; } // Perform axis-specific matrix multiplication out[0] = a00 * c - a20 * s; out[1] = a01 * c - a21 * s; out[2] = a02 * c - a22 * s; out[3] = a03 * c - a23 * s; out[8] = a00 * s + a20 * c; out[9] = a01 * s + a21 * c; out[10] = a02 * s + a22 * c; out[11] = a03 * s + a23 * c; return out; }; },{}],59:[function(_dereq_,module,exports){ module.exports = rotateZ; /** * Rotates a matrix by the given angle around the Z axis * * @param {mat4} out the receiving matrix * @param {mat4} a the matrix to rotate * @param {Number} rad the angle to rotate the matrix by * @returns {mat4} out */ function rotateZ(out, a, rad) { var s = Math.sin(rad), c = Math.cos(rad), a00 = a[0], a01 = a[1], a02 = a[2], a03 = a[3], a10 = a[4], a11 = a[5], a12 = a[6], a13 = a[7]; if (a !== out) { // If the source and destination differ, copy the unchanged last row out[8] = a[8]; out[9] = a[9]; out[10] = a[10]; out[11] = a[11]; out[12] = a[12]; out[13] = a[13]; out[14] = a[14]; out[15] = a[15]; } // Perform axis-specific matrix multiplication out[0] = a00 * c + a10 * s; out[1] = a01 * c + a11 * s; out[2] = a02 * c + a12 * s; out[3] = a03 * c + a13 * s; out[4] = a10 * c - a00 * s; out[5] = a11 * c - a01 * s; out[6] = a12 * c - a02 * s; out[7] = a13 * c - a03 * s; return out; }; },{}],60:[function(_dereq_,module,exports){ module.exports = scale; /** * Scales the mat4 by the dimensions in the given vec3 * * @param {mat4} out the receiving matrix * @param {mat4} a the matrix to scale * @param {vec3} v the vec3 to scale the matrix by * @returns {mat4} out **/ function scale(out, a, v) { var x = v[0], y = v[1], z = v[2]; out[0] = a[0] * x; out[1] = a[1] * x; out[2] = a[2] * x; out[3] = a[3] * x; out[4] = a[4] * y; out[5] = a[5] * y; out[6] = a[6] * y; out[7] = a[7] * y; out[8] = a[8] * z; out[9] = a[9] * z; out[10] = a[10] * z; out[11] = a[11] * z; out[12] = a[12]; out[13] = a[13]; out[14] = a[14]; out[15] = a[15]; return out; }; },{}],61:[function(_dereq_,module,exports){ module.exports = str; /** * Returns a string representation of a mat4 * * @param {mat4} mat matrix to represent as a string * @returns {String} string representation of the matrix */ function str(a) { return 'mat4(' + a[0] + ', ' + a[1] + ', ' + a[2] + ', ' + a[3] + ', ' + a[4] + ', ' + a[5] + ', ' + a[6] + ', ' + a[7] + ', ' + a[8] + ', ' + a[9] + ', ' + a[10] + ', ' + a[11] + ', ' + a[12] + ', ' + a[13] + ', ' + a[14] + ', ' + a[15] + ')'; }; },{}],62:[function(_dereq_,module,exports){ module.exports = translate; /** * Translate a mat4 by the given vector * * @param {mat4} out the receiving matrix * @param {mat4} a the matrix to translate * @param {vec3} v vector to translate by * @returns {mat4} out */ function translate(out, a, v) { var x = v[0], y = v[1], z = v[2], a00, a01, a02, a03, a10, a11, a12, a13, a20, a21, a22, a23; if (a === out) { out[12] = a[0] * x + a[4] * y + a[8] * z + a[12]; out[13] = a[1] * x + a[5] * y + a[9] * z + a[13]; out[14] = a[2] * x + a[6] * y + a[10] * z + a[14]; out[15] = a[3] * x + a[7] * y + a[11] * z + a[15]; } else { a00 = a[0]; a01 = a[1]; a02 = a[2]; a03 = a[3]; a10 = a[4]; a11 = a[5]; a12 = a[6]; a13 = a[7]; a20 = a[8]; a21 = a[9]; a22 = a[10]; a23 = a[11]; out[0] = a00; out[1] = a01; out[2] = a02; out[3] = a03; out[4] = a10; out[5] = a11; out[6] = a12; out[7] = a13; out[8] = a20; out[9] = a21; out[10] = a22; out[11] = a23; out[12] = a00 * x + a10 * y + a20 * z + a[12]; out[13] = a01 * x + a11 * y + a21 * z + a[13]; out[14] = a02 * x + a12 * y + a22 * z + a[14]; out[15] = a03 * x + a13 * y + a23 * z + a[15]; } return out; }; },{}],63:[function(_dereq_,module,exports){ module.exports = transpose; /** * Transpose the values of a mat4 * * @param {mat4} out the receiving matrix * @param {mat4} a the source matrix * @returns {mat4} out */ function transpose(out, a) { // If we are transposing ourselves we can skip a few steps but have to cache some values if (out === a) { var a01 = a[1], a02 = a[2], a03 = a[3], a12 = a[6], a13 = a[7], a23 = a[11]; out[1] = a[4]; out[2] = a[8]; out[3] = a[12]; out[4] = a01; out[6] = a[9]; out[7] = a[13]; out[8] = a02; out[9] = a12; out[11] = a[14]; out[12] = a03; out[13] = a13; out[14] = a23; } else { out[0] = a[0]; out[1] = a[4]; out[2] = a[8]; out[3] = a[12]; out[4] = a[1]; out[5] = a[5]; out[6] = a[9]; out[7] = a[13]; out[8] = a[2]; out[9] = a[6]; out[10] = a[10]; out[11] = a[14]; out[12] = a[3]; out[13] = a[7]; out[14] = a[11]; out[15] = a[15]; } return out; }; },{}],64:[function(_dereq_,module,exports){ (function (global){(function (){ 'use strict' var isBrowser = _dereq_('is-browser') var hasHover if (typeof global.matchMedia === 'function') { hasHover = !global.matchMedia('(hover: none)').matches } else { hasHover = isBrowser } module.exports = hasHover }).call(this)}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {}) },{"is-browser":68}],65:[function(_dereq_,module,exports){ 'use strict' var isBrowser = _dereq_('is-browser') function detect() { var supported = false try { var opts = Object.defineProperty({}, 'passive', { get: function() { supported = true } }) window.addEventListener('test', null, opts) window.removeEventListener('test', null, opts) } catch(e) { supported = false } return supported } module.exports = isBrowser && detect() },{"is-browser":68}],66:[function(_dereq_,module,exports){ exports.read = function (buffer, offset, isLE, mLen, nBytes) { var e, m var eLen = (nBytes * 8) - mLen - 1 var eMax = (1 << eLen) - 1 var eBias = eMax >> 1 var nBits = -7 var i = isLE ? (nBytes - 1) : 0 var d = isLE ? -1 : 1 var s = buffer[offset + i] i += d e = s & ((1 << (-nBits)) - 1) s >>= (-nBits) nBits += eLen for (; nBits > 0; e = (e * 256) + buffer[offset + i], i += d, nBits -= 8) {} m = e & ((1 << (-nBits)) - 1) e >>= (-nBits) nBits += mLen for (; nBits > 0; m = (m * 256) + buffer[offset + i], i += d, nBits -= 8) {} if (e === 0) { e = 1 - eBias } else if (e === eMax) { return m ? NaN : ((s ? -1 : 1) * Infinity) } else { m = m + Math.pow(2, mLen) e = e - eBias } return (s ? -1 : 1) * m * Math.pow(2, e - mLen) } exports.write = function (buffer, value, offset, isLE, mLen, nBytes) { var e, m, c var eLen = (nBytes * 8) - mLen - 1 var eMax = (1 << eLen) - 1 var eBias = eMax >> 1 var rt = (mLen === 23 ? Math.pow(2, -24) - Math.pow(2, -77) : 0) var i = isLE ? 0 : (nBytes - 1) var d = isLE ? 1 : -1 var s = value < 0 || (value === 0 && 1 / value < 0) ? 1 : 0 value = Math.abs(value) if (isNaN(value) || value === Infinity) { m = isNaN(value) ? 1 : 0 e = eMax } else { e = Math.floor(Math.log(value) / Math.LN2) if (value * (c = Math.pow(2, -e)) < 1) { e-- c *= 2 } if (e + eBias >= 1) { value += rt / c } else { value += rt * Math.pow(2, 1 - eBias) } if (value * c >= 2) { e++ c /= 2 } if (e + eBias >= eMax) { m = 0 e = eMax } else if (e + eBias >= 1) { m = ((value * c) - 1) * Math.pow(2, mLen) e = e + eBias } else { m = value * Math.pow(2, eBias - 1) * Math.pow(2, mLen) e = 0 } } for (; mLen >= 8; buffer[offset + i] = m & 0xff, i += d, m /= 256, mLen -= 8) {} e = (e << mLen) | m eLen += mLen for (; eLen > 0; buffer[offset + i] = e & 0xff, i += d, e /= 256, eLen -= 8) {} buffer[offset + i - d] |= s * 128 } },{}],67:[function(_dereq_,module,exports){ if (typeof Object.create === 'function') { // implementation from standard node.js 'util' module module.exports = function inherits(ctor, superCtor) { if (superCtor) { ctor.super_ = superCtor ctor.prototype = Object.create(superCtor.prototype, { constructor: { value: ctor, enumerable: false, writable: true, configurable: true } }) } }; } else { // old school shim for old browsers module.exports = function inherits(ctor, superCtor) { if (superCtor) { ctor.super_ = superCtor var TempCtor = function () {} TempCtor.prototype = superCtor.prototype ctor.prototype = new TempCtor() ctor.prototype.constructor = ctor } } } },{}],68:[function(_dereq_,module,exports){ module.exports = true; },{}],69:[function(_dereq_,module,exports){ 'use strict' module.exports = isMobile module.exports.isMobile = isMobile module.exports.default = isMobile var mobileRE = /(android|bb\d+|meego).+mobile|avantgo|bada\/|blackberry|blazer|compal|elaine|fennec|hiptop|iemobile|ip(hone|od)|iris|kindle|lge |maemo|midp|mmp|mobile.+firefox|netfront|opera m(ob|in)i|palm( os)?|phone|p(ixi|re)\/|plucker|pocket|psp|series[46]0|symbian|treo|up\.(browser|link)|vodafone|wap|windows (ce|phone)|xda|xiino/i var tabletRE = /(android|bb\d+|meego).+mobile|avantgo|bada\/|blackberry|blazer|compal|elaine|fennec|hiptop|iemobile|ip(hone|od)|iris|kindle|lge |maemo|midp|mmp|mobile.+firefox|netfront|opera m(ob|in)i|palm( os)?|phone|p(ixi|re)\/|plucker|pocket|psp|series[46]0|symbian|treo|up\.(browser|link)|vodafone|wap|windows (ce|phone)|xda|xiino|android|ipad|playbook|silk/i function isMobile (opts) { if (!opts) opts = {} var ua = opts.ua if (!ua && typeof navigator !== 'undefined') ua = navigator.userAgent if (ua && ua.headers && typeof ua.headers['user-agent'] === 'string') { ua = ua.headers['user-agent'] } if (typeof ua !== 'string') return false var result = opts.tablet ? tabletRE.test(ua) : mobileRE.test(ua) if ( !result && opts.tablet && opts.featureDetect && navigator && navigator.maxTouchPoints > 1 && ua.indexOf('Macintosh') !== -1 && ua.indexOf('Safari') !== -1 ) { result = true } return result } },{}],70:[function(_dereq_,module,exports){ 'use strict'; /** * Is this string all whitespace? * This solution kind of makes my brain hurt, but it's significantly faster * than !str.trim() or any other solution I could find. * * whitespace codes from: http://en.wikipedia.org/wiki/Whitespace_character * and verified with: * * for(var i = 0; i < 65536; i++) { * var s = String.fromCharCode(i); * if(+s===0 && !s.trim()) console.log(i, s); * } * * which counts a couple of these as *not* whitespace, but finds nothing else * that *is* whitespace. Note that charCodeAt stops at 16 bits, but it appears * that there are no whitespace characters above this, and code points above * this do not map onto white space characters. */ module.exports = function(str){ var l = str.length, a; for(var i = 0; i < l; i++) { a = str.charCodeAt(i); if((a < 9 || a > 13) && (a !== 32) && (a !== 133) && (a !== 160) && (a !== 5760) && (a !== 6158) && (a < 8192 || a > 8205) && (a !== 8232) && (a !== 8233) && (a !== 8239) && (a !== 8287) && (a !== 8288) && (a !== 12288) && (a !== 65279)) { return false; } } return true; } },{}],71:[function(_dereq_,module,exports){ var rootPosition = { left: 0, top: 0 } module.exports = mouseEventOffset function mouseEventOffset (ev, target, out) { target = target || ev.currentTarget || ev.srcElement if (!Array.isArray(out)) { out = [ 0, 0 ] } var cx = ev.clientX || 0 var cy = ev.clientY || 0 var rect = getBoundingClientOffset(target) out[0] = cx - rect.left out[1] = cy - rect.top return out } function getBoundingClientOffset (element) { if (element === window || element === document || element === document.body) { return rootPosition } else { return element.getBoundingClientRect() } } },{}],72:[function(_dereq_,module,exports){ (function (global,setImmediate){(function (){ /*! Native Promise Only v0.8.1 (c) Kyle Simpson MIT License: http://getify.mit-license.org */ (function UMD(name,context,definition){ // special form of UMD for polyfilling across evironments context[name] = context[name] || definition(); if (typeof module != "undefined" && module.exports) { module.exports = context[name]; } else if (typeof define == "function" && define.amd) { define(function $AMD$(){ return context[name]; }); } })("Promise",typeof global != "undefined" ? global : this,function DEF(){ /*jshint validthis:true */ "use strict"; var builtInProp, cycle, scheduling_queue, ToString = Object.prototype.toString, timer = (typeof setImmediate != "undefined") ? function timer(fn) { return setImmediate(fn); } : setTimeout ; // dammit, IE8. try { Object.defineProperty({},"x",{}); builtInProp = function builtInProp(obj,name,val,config) { return Object.defineProperty(obj,name,{ value: val, writable: true, configurable: config !== false }); }; } catch (err) { builtInProp = function builtInProp(obj,name,val) { obj[name] = val; return obj; }; } // Note: using a queue instead of array for efficiency scheduling_queue = (function Queue() { var first, last, item; function Item(fn,self) { this.fn = fn; this.self = self; this.next = void 0; } return { add: function add(fn,self) { item = new Item(fn,self); if (last) { last.next = item; } else { first = item; } last = item; item = void 0; }, drain: function drain() { var f = first; first = last = cycle = void 0; while (f) { f.fn.call(f.self); f = f.next; } } }; })(); function schedule(fn,self) { scheduling_queue.add(fn,self); if (!cycle) { cycle = timer(scheduling_queue.drain); } } // promise duck typing function isThenable(o) { var _then, o_type = typeof o; if (o != null && ( o_type == "object" || o_type == "function" ) ) { _then = o.then; } return typeof _then == "function" ? _then : false; } function notify() { for (var i=0; i 0) { schedule(notify,self); } } } catch (err) { reject.call(new MakeDefWrapper(self),err); } } function reject(msg) { var self = this; // already triggered? if (self.triggered) { return; } self.triggered = true; // unwrap if (self.def) { self = self.def; } self.msg = msg; self.state = 2; if (self.chain.length > 0) { schedule(notify,self); } } function iteratePromises(Constructor,arr,resolver,rejecter) { for (var idx=0; idx 2) { data.push([command].concat(args.splice(0, 2))) type = 'l' command = command == 'm' ? 'l' : 'L' } while (true) { if (args.length == length[type]) { args.unshift(command) return data.push(args) } if (args.length < length[type]) throw new Error('malformed path data') data.push([command].concat(args.splice(0, length[type]))) } }) return data } var number = /-?[0-9]*\.?[0-9]+(?:e[-+]?\d+)?/ig function parseValues(args) { var numbers = args.match(number) return numbers ? numbers.map(Number) : [] } },{}],75:[function(_dereq_,module,exports){ /* * @copyright 2016 Sean Connelly (@voidqk), http://syntheti.cc * @license MIT * @preserve Project Home: https://github.com/voidqk/polybooljs */ var BuildLog = _dereq_('./lib/build-log'); var Epsilon = _dereq_('./lib/epsilon'); var Intersecter = _dereq_('./lib/intersecter'); var SegmentChainer = _dereq_('./lib/segment-chainer'); var SegmentSelector = _dereq_('./lib/segment-selector'); var GeoJSON = _dereq_('./lib/geojson'); var buildLog = false; var epsilon = Epsilon(); var PolyBool; PolyBool = { // getter/setter for buildLog buildLog: function(bl){ if (bl === true) buildLog = BuildLog(); else if (bl === false) buildLog = false; return buildLog === false ? false : buildLog.list; }, // getter/setter for epsilon epsilon: function(v){ return epsilon.epsilon(v); }, // core API segments: function(poly){ var i = Intersecter(true, epsilon, buildLog); poly.regions.forEach(i.addRegion); return { segments: i.calculate(poly.inverted), inverted: poly.inverted }; }, combine: function(segments1, segments2){ var i3 = Intersecter(false, epsilon, buildLog); return { combined: i3.calculate( segments1.segments, segments1.inverted, segments2.segments, segments2.inverted ), inverted1: segments1.inverted, inverted2: segments2.inverted }; }, selectUnion: function(combined){ return { segments: SegmentSelector.union(combined.combined, buildLog), inverted: combined.inverted1 || combined.inverted2 } }, selectIntersect: function(combined){ return { segments: SegmentSelector.intersect(combined.combined, buildLog), inverted: combined.inverted1 && combined.inverted2 } }, selectDifference: function(combined){ return { segments: SegmentSelector.difference(combined.combined, buildLog), inverted: combined.inverted1 && !combined.inverted2 } }, selectDifferenceRev: function(combined){ return { segments: SegmentSelector.differenceRev(combined.combined, buildLog), inverted: !combined.inverted1 && combined.inverted2 } }, selectXor: function(combined){ return { segments: SegmentSelector.xor(combined.combined, buildLog), inverted: combined.inverted1 !== combined.inverted2 } }, polygon: function(segments){ return { regions: SegmentChainer(segments.segments, epsilon, buildLog), inverted: segments.inverted }; }, // GeoJSON converters polygonFromGeoJSON: function(geojson){ return GeoJSON.toPolygon(PolyBool, geojson); }, polygonToGeoJSON: function(poly){ return GeoJSON.fromPolygon(PolyBool, epsilon, poly); }, // helper functions for common operations union: function(poly1, poly2){ return operate(poly1, poly2, PolyBool.selectUnion); }, intersect: function(poly1, poly2){ return operate(poly1, poly2, PolyBool.selectIntersect); }, difference: function(poly1, poly2){ return operate(poly1, poly2, PolyBool.selectDifference); }, differenceRev: function(poly1, poly2){ return operate(poly1, poly2, PolyBool.selectDifferenceRev); }, xor: function(poly1, poly2){ return operate(poly1, poly2, PolyBool.selectXor); } }; function operate(poly1, poly2, selector){ var seg1 = PolyBool.segments(poly1); var seg2 = PolyBool.segments(poly2); var comb = PolyBool.combine(seg1, seg2); var seg3 = selector(comb); return PolyBool.polygon(seg3); } if (typeof window === 'object') window.PolyBool = PolyBool; module.exports = PolyBool; },{"./lib/build-log":76,"./lib/epsilon":77,"./lib/geojson":78,"./lib/intersecter":79,"./lib/segment-chainer":81,"./lib/segment-selector":82}],76:[function(_dereq_,module,exports){ // (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc // MIT License // Project Home: https://github.com/voidqk/polybooljs // // used strictly for logging the processing of the algorithm... only useful if you intend on // looking under the covers (for pretty UI's or debugging) // function BuildLog(){ var my; var nextSegmentId = 0; var curVert = false; function push(type, data){ my.list.push({ type: type, data: data ? JSON.parse(JSON.stringify(data)) : void 0 }); return my; } my = { list: [], segmentId: function(){ return nextSegmentId++; }, checkIntersection: function(seg1, seg2){ return push('check', { seg1: seg1, seg2: seg2 }); }, segmentChop: function(seg, end){ push('div_seg', { seg: seg, pt: end }); return push('chop', { seg: seg, pt: end }); }, statusRemove: function(seg){ return push('pop_seg', { seg: seg }); }, segmentUpdate: function(seg){ return push('seg_update', { seg: seg }); }, segmentNew: function(seg, primary){ return push('new_seg', { seg: seg, primary: primary }); }, segmentRemove: function(seg){ return push('rem_seg', { seg: seg }); }, tempStatus: function(seg, above, below){ return push('temp_status', { seg: seg, above: above, below: below }); }, rewind: function(seg){ return push('rewind', { seg: seg }); }, status: function(seg, above, below){ return push('status', { seg: seg, above: above, below: below }); }, vert: function(x){ if (x === curVert) return my; curVert = x; return push('vert', { x: x }); }, log: function(data){ if (typeof data !== 'string') data = JSON.stringify(data, false, ' '); return push('log', { txt: data }); }, reset: function(){ return push('reset'); }, selected: function(segs){ return push('selected', { segs: segs }); }, chainStart: function(seg){ return push('chain_start', { seg: seg }); }, chainRemoveHead: function(index, pt){ return push('chain_rem_head', { index: index, pt: pt }); }, chainRemoveTail: function(index, pt){ return push('chain_rem_tail', { index: index, pt: pt }); }, chainNew: function(pt1, pt2){ return push('chain_new', { pt1: pt1, pt2: pt2 }); }, chainMatch: function(index){ return push('chain_match', { index: index }); }, chainClose: function(index){ return push('chain_close', { index: index }); }, chainAddHead: function(index, pt){ return push('chain_add_head', { index: index, pt: pt }); }, chainAddTail: function(index, pt){ return push('chain_add_tail', { index: index, pt: pt, }); }, chainConnect: function(index1, index2){ return push('chain_con', { index1: index1, index2: index2 }); }, chainReverse: function(index){ return push('chain_rev', { index: index }); }, chainJoin: function(index1, index2){ return push('chain_join', { index1: index1, index2: index2 }); }, done: function(){ return push('done'); } }; return my; } module.exports = BuildLog; },{}],77:[function(_dereq_,module,exports){ // (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc // MIT License // Project Home: https://github.com/voidqk/polybooljs // // provides the raw computation functions that takes epsilon into account // // zero is defined to be between (-epsilon, epsilon) exclusive // function Epsilon(eps){ if (typeof eps !== 'number') eps = 0.0000000001; // sane default? sure why not var my = { epsilon: function(v){ if (typeof v === 'number') eps = v; return eps; }, pointAboveOrOnLine: function(pt, left, right){ var Ax = left[0]; var Ay = left[1]; var Bx = right[0]; var By = right[1]; var Cx = pt[0]; var Cy = pt[1]; return (Bx - Ax) * (Cy - Ay) - (By - Ay) * (Cx - Ax) >= -eps; }, pointBetween: function(p, left, right){ // p must be collinear with left->right // returns false if p == left, p == right, or left == right var d_py_ly = p[1] - left[1]; var d_rx_lx = right[0] - left[0]; var d_px_lx = p[0] - left[0]; var d_ry_ly = right[1] - left[1]; var dot = d_px_lx * d_rx_lx + d_py_ly * d_ry_ly; // if `dot` is 0, then `p` == `left` or `left` == `right` (reject) // if `dot` is less than 0, then `p` is to the left of `left` (reject) if (dot < eps) return false; var sqlen = d_rx_lx * d_rx_lx + d_ry_ly * d_ry_ly; // if `dot` > `sqlen`, then `p` is to the right of `right` (reject) // therefore, if `dot - sqlen` is greater than 0, then `p` is to the right of `right` (reject) if (dot - sqlen > -eps) return false; return true; }, pointsSameX: function(p1, p2){ return Math.abs(p1[0] - p2[0]) < eps; }, pointsSameY: function(p1, p2){ return Math.abs(p1[1] - p2[1]) < eps; }, pointsSame: function(p1, p2){ return my.pointsSameX(p1, p2) && my.pointsSameY(p1, p2); }, pointsCompare: function(p1, p2){ // returns -1 if p1 is smaller, 1 if p2 is smaller, 0 if equal if (my.pointsSameX(p1, p2)) return my.pointsSameY(p1, p2) ? 0 : (p1[1] < p2[1] ? -1 : 1); return p1[0] < p2[0] ? -1 : 1; }, pointsCollinear: function(pt1, pt2, pt3){ // does pt1->pt2->pt3 make a straight line? // essentially this is just checking to see if the slope(pt1->pt2) === slope(pt2->pt3) // if slopes are equal, then they must be collinear, because they share pt2 var dx1 = pt1[0] - pt2[0]; var dy1 = pt1[1] - pt2[1]; var dx2 = pt2[0] - pt3[0]; var dy2 = pt2[1] - pt3[1]; return Math.abs(dx1 * dy2 - dx2 * dy1) < eps; }, linesIntersect: function(a0, a1, b0, b1){ // returns false if the lines are coincident (e.g., parallel or on top of each other) // // returns an object if the lines intersect: // { // pt: [x, y], where the intersection point is at // alongA: where intersection point is along A, // alongB: where intersection point is along B // } // // alongA and alongB will each be one of: -2, -1, 0, 1, 2 // // with the following meaning: // // -2 intersection point is before segment's first point // -1 intersection point is directly on segment's first point // 0 intersection point is between segment's first and second points (exclusive) // 1 intersection point is directly on segment's second point // 2 intersection point is after segment's second point var adx = a1[0] - a0[0]; var ady = a1[1] - a0[1]; var bdx = b1[0] - b0[0]; var bdy = b1[1] - b0[1]; var axb = adx * bdy - ady * bdx; if (Math.abs(axb) < eps) return false; // lines are coincident var dx = a0[0] - b0[0]; var dy = a0[1] - b0[1]; var A = (bdx * dy - bdy * dx) / axb; var B = (adx * dy - ady * dx) / axb; var ret = { alongA: 0, alongB: 0, pt: [ a0[0] + A * adx, a0[1] + A * ady ] }; // categorize where intersection point is along A and B if (A <= -eps) ret.alongA = -2; else if (A < eps) ret.alongA = -1; else if (A - 1 <= -eps) ret.alongA = 0; else if (A - 1 < eps) ret.alongA = 1; else ret.alongA = 2; if (B <= -eps) ret.alongB = -2; else if (B < eps) ret.alongB = -1; else if (B - 1 <= -eps) ret.alongB = 0; else if (B - 1 < eps) ret.alongB = 1; else ret.alongB = 2; return ret; }, pointInsideRegion: function(pt, region){ var x = pt[0]; var y = pt[1]; var last_x = region[region.length - 1][0]; var last_y = region[region.length - 1][1]; var inside = false; for (var i = 0; i < region.length; i++){ var curr_x = region[i][0]; var curr_y = region[i][1]; // if y is between curr_y and last_y, and // x is to the right of the boundary created by the line if ((curr_y - y > eps) != (last_y - y > eps) && (last_x - curr_x) * (y - curr_y) / (last_y - curr_y) + curr_x - x > eps) inside = !inside last_x = curr_x; last_y = curr_y; } return inside; } }; return my; } module.exports = Epsilon; },{}],78:[function(_dereq_,module,exports){ // (c) Copyright 2017, Sean Connelly (@voidqk), http://syntheti.cc // MIT License // Project Home: https://github.com/voidqk/polybooljs // // convert between PolyBool polygon format and GeoJSON formats (Polygon and MultiPolygon) // var GeoJSON = { // convert a GeoJSON object to a PolyBool polygon toPolygon: function(PolyBool, geojson){ // converts list of LineString's to segments function GeoPoly(coords){ // check for empty coords if (coords.length <= 0) return PolyBool.segments({ inverted: false, regions: [] }); // convert LineString to segments function LineString(ls){ // remove tail which should be the same as head var reg = ls.slice(0, ls.length - 1); return PolyBool.segments({ inverted: false, regions: [reg] }); } // the first LineString is considered the outside var out = LineString(coords[0]); // the rest of the LineStrings are considered interior holes, so subtract them from the // current result for (var i = 1; i < coords.length; i++) out = PolyBool.selectDifference(PolyBool.combine(out, LineString(coords[i]))); return out; } if (geojson.type === 'Polygon'){ // single polygon, so just convert it and we're done return PolyBool.polygon(GeoPoly(geojson.coordinates)); } else if (geojson.type === 'MultiPolygon'){ // multiple polygons, so union all the polygons together var out = PolyBool.segments({ inverted: false, regions: [] }); for (var i = 0; i < geojson.coordinates.length; i++) out = PolyBool.selectUnion(PolyBool.combine(out, GeoPoly(geojson.coordinates[i]))); return PolyBool.polygon(out); } throw new Error('PolyBool: Cannot convert GeoJSON object to PolyBool polygon'); }, // convert a PolyBool polygon to a GeoJSON object fromPolygon: function(PolyBool, eps, poly){ // make sure out polygon is clean poly = PolyBool.polygon(PolyBool.segments(poly)); // test if r1 is inside r2 function regionInsideRegion(r1, r2){ // we're guaranteed no lines intersect (because the polygon is clean), but a vertex // could be on the edge -- so we just average pt[0] and pt[1] to produce a point on the // edge of the first line, which cannot be on an edge return eps.pointInsideRegion([ (r1[0][0] + r1[1][0]) * 0.5, (r1[0][1] + r1[1][1]) * 0.5 ], r2); } // calculate inside heirarchy // // _____________________ _______ roots -> A -> F // | A | | F | | | // | _______ _______ | | ___ | +-- B +-- G // | | B | | C | | | | | | | | // | | ___ | | ___ | | | | | | | +-- D // | | | D | | | | E | | | | | G | | | // | | |___| | | |___| | | | | | | +-- C // | |_______| |_______| | | |___| | | // |_____________________| |_______| +-- E function newNode(region){ return { region: region, children: [] }; } var roots = newNode(null); function addChild(root, region){ // first check if we're inside any children for (var i = 0; i < root.children.length; i++){ var child = root.children[i]; if (regionInsideRegion(region, child.region)){ // we are, so insert inside them instead addChild(child, region); return; } } // not inside any children, so check to see if any children are inside us var node = newNode(region); for (var i = 0; i < root.children.length; i++){ var child = root.children[i]; if (regionInsideRegion(child.region, region)){ // oops... move the child beneath us, and remove them from root node.children.push(child); root.children.splice(i, 1); i--; } } // now we can add ourselves root.children.push(node); } // add all regions to the root for (var i = 0; i < poly.regions.length; i++){ var region = poly.regions[i]; if (region.length < 3) // regions must have at least 3 points (sanity check) continue; addChild(roots, region); } // with our heirarchy, we can distinguish between exterior borders, and interior holes // the root nodes are exterior, children are interior, children's children are exterior, // children's children's children are interior, etc // while we're at it, exteriors are counter-clockwise, and interiors are clockwise function forceWinding(region, clockwise){ // first, see if we're clockwise or counter-clockwise // https://en.wikipedia.org/wiki/Shoelace_formula var winding = 0; var last_x = region[region.length - 1][0]; var last_y = region[region.length - 1][1]; var copy = []; for (var i = 0; i < region.length; i++){ var curr_x = region[i][0]; var curr_y = region[i][1]; copy.push([curr_x, curr_y]); // create a copy while we're at it winding += curr_y * last_x - curr_x * last_y; last_x = curr_x; last_y = curr_y; } // this assumes Cartesian coordinates (Y is positive going up) var isclockwise = winding < 0; if (isclockwise !== clockwise) copy.reverse(); // while we're here, the last point must be the first point... copy.push([copy[0][0], copy[0][1]]); return copy; } var geopolys = []; function addExterior(node){ var poly = [forceWinding(node.region, false)]; geopolys.push(poly); // children of exteriors are interior for (var i = 0; i < node.children.length; i++) poly.push(getInterior(node.children[i])); } function getInterior(node){ // children of interiors are exterior for (var i = 0; i < node.children.length; i++) addExterior(node.children[i]); // return the clockwise interior return forceWinding(node.region, true); } // root nodes are exterior for (var i = 0; i < roots.children.length; i++) addExterior(roots.children[i]); // lastly, construct the approrpriate GeoJSON object if (geopolys.length <= 0) // empty GeoJSON Polygon return { type: 'Polygon', coordinates: [] }; if (geopolys.length == 1) // use a GeoJSON Polygon return { type: 'Polygon', coordinates: geopolys[0] }; return { // otherwise, use a GeoJSON MultiPolygon type: 'MultiPolygon', coordinates: geopolys }; } }; module.exports = GeoJSON; },{}],79:[function(_dereq_,module,exports){ // (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc // MIT License // Project Home: https://github.com/voidqk/polybooljs // // this is the core work-horse // var LinkedList = _dereq_('./linked-list'); function Intersecter(selfIntersection, eps, buildLog){ // selfIntersection is true/false depending on the phase of the overall algorithm // // segment creation // function segmentNew(start, end){ return { id: buildLog ? buildLog.segmentId() : -1, start: start, end: end, myFill: { above: null, // is there fill above us? below: null // is there fill below us? }, otherFill: null }; } function segmentCopy(start, end, seg){ return { id: buildLog ? buildLog.segmentId() : -1, start: start, end: end, myFill: { above: seg.myFill.above, below: seg.myFill.below }, otherFill: null }; } // // event logic // var event_root = LinkedList.create(); function eventCompare(p1_isStart, p1_1, p1_2, p2_isStart, p2_1, p2_2){ // compare the selected points first var comp = eps.pointsCompare(p1_1, p2_1); if (comp !== 0) return comp; // the selected points are the same if (eps.pointsSame(p1_2, p2_2)) // if the non-selected points are the same too... return 0; // then the segments are equal if (p1_isStart !== p2_isStart) // if one is a start and the other isn't... return p1_isStart ? 1 : -1; // favor the one that isn't the start // otherwise, we'll have to calculate which one is below the other manually return eps.pointAboveOrOnLine(p1_2, p2_isStart ? p2_1 : p2_2, // order matters p2_isStart ? p2_2 : p2_1 ) ? 1 : -1; } function eventAdd(ev, other_pt){ event_root.insertBefore(ev, function(here){ // should ev be inserted before here? var comp = eventCompare( ev .isStart, ev .pt, other_pt, here.isStart, here.pt, here.other.pt ); return comp < 0; }); } function eventAddSegmentStart(seg, primary){ var ev_start = LinkedList.node({ isStart: true, pt: seg.start, seg: seg, primary: primary, other: null, status: null }); eventAdd(ev_start, seg.end); return ev_start; } function eventAddSegmentEnd(ev_start, seg, primary){ var ev_end = LinkedList.node({ isStart: false, pt: seg.end, seg: seg, primary: primary, other: ev_start, status: null }); ev_start.other = ev_end; eventAdd(ev_end, ev_start.pt); } function eventAddSegment(seg, primary){ var ev_start = eventAddSegmentStart(seg, primary); eventAddSegmentEnd(ev_start, seg, primary); return ev_start; } function eventUpdateEnd(ev, end){ // slides an end backwards // (start)------------(end) to: // (start)---(end) if (buildLog) buildLog.segmentChop(ev.seg, end); ev.other.remove(); ev.seg.end = end; ev.other.pt = end; eventAdd(ev.other, ev.pt); } function eventDivide(ev, pt){ var ns = segmentCopy(pt, ev.seg.end, ev.seg); eventUpdateEnd(ev, pt); return eventAddSegment(ns, ev.primary); } function calculate(primaryPolyInverted, secondaryPolyInverted){ // if selfIntersection is true then there is no secondary polygon, so that isn't used // // status logic // var status_root = LinkedList.create(); function statusCompare(ev1, ev2){ var a1 = ev1.seg.start; var a2 = ev1.seg.end; var b1 = ev2.seg.start; var b2 = ev2.seg.end; if (eps.pointsCollinear(a1, b1, b2)){ if (eps.pointsCollinear(a2, b1, b2)) return 1;//eventCompare(true, a1, a2, true, b1, b2); return eps.pointAboveOrOnLine(a2, b1, b2) ? 1 : -1; } return eps.pointAboveOrOnLine(a1, b1, b2) ? 1 : -1; } function statusFindSurrounding(ev){ return status_root.findTransition(function(here){ var comp = statusCompare(ev, here.ev); return comp > 0; }); } function checkIntersection(ev1, ev2){ // returns the segment equal to ev1, or false if nothing equal var seg1 = ev1.seg; var seg2 = ev2.seg; var a1 = seg1.start; var a2 = seg1.end; var b1 = seg2.start; var b2 = seg2.end; if (buildLog) buildLog.checkIntersection(seg1, seg2); var i = eps.linesIntersect(a1, a2, b1, b2); if (i === false){ // segments are parallel or coincident // if points aren't collinear, then the segments are parallel, so no intersections if (!eps.pointsCollinear(a1, a2, b1)) return false; // otherwise, segments are on top of each other somehow (aka coincident) if (eps.pointsSame(a1, b2) || eps.pointsSame(a2, b1)) return false; // segments touch at endpoints... no intersection var a1_equ_b1 = eps.pointsSame(a1, b1); var a2_equ_b2 = eps.pointsSame(a2, b2); if (a1_equ_b1 && a2_equ_b2) return ev2; // segments are exactly equal var a1_between = !a1_equ_b1 && eps.pointBetween(a1, b1, b2); var a2_between = !a2_equ_b2 && eps.pointBetween(a2, b1, b2); // handy for debugging: // buildLog.log({ // a1_equ_b1: a1_equ_b1, // a2_equ_b2: a2_equ_b2, // a1_between: a1_between, // a2_between: a2_between // }); if (a1_equ_b1){ if (a2_between){ // (a1)---(a2) // (b1)----------(b2) eventDivide(ev2, a2); } else{ // (a1)----------(a2) // (b1)---(b2) eventDivide(ev1, b2); } return ev2; } else if (a1_between){ if (!a2_equ_b2){ // make a2 equal to b2 if (a2_between){ // (a1)---(a2) // (b1)-----------------(b2) eventDivide(ev2, a2); } else{ // (a1)----------(a2) // (b1)----------(b2) eventDivide(ev1, b2); } } // (a1)---(a2) // (b1)----------(b2) eventDivide(ev2, a1); } } else{ // otherwise, lines intersect at i.pt, which may or may not be between the endpoints // is A divided between its endpoints? (exclusive) if (i.alongA === 0){ if (i.alongB === -1) // yes, at exactly b1 eventDivide(ev1, b1); else if (i.alongB === 0) // yes, somewhere between B's endpoints eventDivide(ev1, i.pt); else if (i.alongB === 1) // yes, at exactly b2 eventDivide(ev1, b2); } // is B divided between its endpoints? (exclusive) if (i.alongB === 0){ if (i.alongA === -1) // yes, at exactly a1 eventDivide(ev2, a1); else if (i.alongA === 0) // yes, somewhere between A's endpoints (exclusive) eventDivide(ev2, i.pt); else if (i.alongA === 1) // yes, at exactly a2 eventDivide(ev2, a2); } } return false; } // // main event loop // var segments = []; while (!event_root.isEmpty()){ var ev = event_root.getHead(); if (buildLog) buildLog.vert(ev.pt[0]); if (ev.isStart){ if (buildLog) buildLog.segmentNew(ev.seg, ev.primary); var surrounding = statusFindSurrounding(ev); var above = surrounding.before ? surrounding.before.ev : null; var below = surrounding.after ? surrounding.after.ev : null; if (buildLog){ buildLog.tempStatus( ev.seg, above ? above.seg : false, below ? below.seg : false ); } function checkBothIntersections(){ if (above){ var eve = checkIntersection(ev, above); if (eve) return eve; } if (below) return checkIntersection(ev, below); return false; } var eve = checkBothIntersections(); if (eve){ // ev and eve are equal // we'll keep eve and throw away ev // merge ev.seg's fill information into eve.seg if (selfIntersection){ var toggle; // are we a toggling edge? if (ev.seg.myFill.below === null) toggle = true; else toggle = ev.seg.myFill.above !== ev.seg.myFill.below; // merge two segments that belong to the same polygon // think of this as sandwiching two segments together, where `eve.seg` is // the bottom -- this will cause the above fill flag to toggle if (toggle) eve.seg.myFill.above = !eve.seg.myFill.above; } else{ // merge two segments that belong to different polygons // each segment has distinct knowledge, so no special logic is needed // note that this can only happen once per segment in this phase, because we // are guaranteed that all self-intersections are gone eve.seg.otherFill = ev.seg.myFill; } if (buildLog) buildLog.segmentUpdate(eve.seg); ev.other.remove(); ev.remove(); } if (event_root.getHead() !== ev){ // something was inserted before us in the event queue, so loop back around and // process it before continuing if (buildLog) buildLog.rewind(ev.seg); continue; } // // calculate fill flags // if (selfIntersection){ var toggle; // are we a toggling edge? if (ev.seg.myFill.below === null) // if we are a new segment... toggle = true; // then we toggle else // we are a segment that has previous knowledge from a division toggle = ev.seg.myFill.above !== ev.seg.myFill.below; // calculate toggle // next, calculate whether we are filled below us if (!below){ // if nothing is below us... // we are filled below us if the polygon is inverted ev.seg.myFill.below = primaryPolyInverted; } else{ // otherwise, we know the answer -- it's the same if whatever is below // us is filled above it ev.seg.myFill.below = below.seg.myFill.above; } // since now we know if we're filled below us, we can calculate whether // we're filled above us by applying toggle to whatever is below us if (toggle) ev.seg.myFill.above = !ev.seg.myFill.below; else ev.seg.myFill.above = ev.seg.myFill.below; } else{ // now we fill in any missing transition information, since we are all-knowing // at this point if (ev.seg.otherFill === null){ // if we don't have other information, then we need to figure out if we're // inside the other polygon var inside; if (!below){ // if nothing is below us, then we're inside if the other polygon is // inverted inside = ev.primary ? secondaryPolyInverted : primaryPolyInverted; } else{ // otherwise, something is below us // so copy the below segment's other polygon's above if (ev.primary === below.primary) inside = below.seg.otherFill.above; else inside = below.seg.myFill.above; } ev.seg.otherFill = { above: inside, below: inside }; } } if (buildLog){ buildLog.status( ev.seg, above ? above.seg : false, below ? below.seg : false ); } // insert the status and remember it for later removal ev.other.status = surrounding.insert(LinkedList.node({ ev: ev })); } else{ var st = ev.status; if (st === null){ throw new Error('PolyBool: Zero-length segment detected; your epsilon is ' + 'probably too small or too large'); } // removing the status will create two new adjacent edges, so we'll need to check // for those if (status_root.exists(st.prev) && status_root.exists(st.next)) checkIntersection(st.prev.ev, st.next.ev); if (buildLog) buildLog.statusRemove(st.ev.seg); // remove the status st.remove(); // if we've reached this point, we've calculated everything there is to know, so // save the segment for reporting if (!ev.primary){ // make sure `seg.myFill` actually points to the primary polygon though var s = ev.seg.myFill; ev.seg.myFill = ev.seg.otherFill; ev.seg.otherFill = s; } segments.push(ev.seg); } // remove the event and continue event_root.getHead().remove(); } if (buildLog) buildLog.done(); return segments; } // return the appropriate API depending on what we're doing if (!selfIntersection){ // performing combination of polygons, so only deal with already-processed segments return { calculate: function(segments1, inverted1, segments2, inverted2){ // segmentsX come from the self-intersection API, or this API // invertedX is whether we treat that list of segments as an inverted polygon or not // returns segments that can be used for further operations segments1.forEach(function(seg){ eventAddSegment(segmentCopy(seg.start, seg.end, seg), true); }); segments2.forEach(function(seg){ eventAddSegment(segmentCopy(seg.start, seg.end, seg), false); }); return calculate(inverted1, inverted2); } }; } // otherwise, performing self-intersection, so deal with regions return { addRegion: function(region){ // regions are a list of points: // [ [0, 0], [100, 0], [50, 100] ] // you can add multiple regions before running calculate var pt1; var pt2 = region[region.length - 1]; for (var i = 0; i < region.length; i++){ pt1 = pt2; pt2 = region[i]; var forward = eps.pointsCompare(pt1, pt2); if (forward === 0) // points are equal, so we have a zero-length segment continue; // just skip it eventAddSegment( segmentNew( forward < 0 ? pt1 : pt2, forward < 0 ? pt2 : pt1 ), true ); } }, calculate: function(inverted){ // is the polygon inverted? // returns segments return calculate(inverted, false); } }; } module.exports = Intersecter; },{"./linked-list":80}],80:[function(_dereq_,module,exports){ // (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc // MIT License // Project Home: https://github.com/voidqk/polybooljs // // simple linked list implementation that allows you to traverse down nodes and save positions // var LinkedList = { create: function(){ var my = { root: { root: true, next: null }, exists: function(node){ if (node === null || node === my.root) return false; return true; }, isEmpty: function(){ return my.root.next === null; }, getHead: function(){ return my.root.next; }, insertBefore: function(node, check){ var last = my.root; var here = my.root.next; while (here !== null){ if (check(here)){ node.prev = here.prev; node.next = here; here.prev.next = node; here.prev = node; return; } last = here; here = here.next; } last.next = node; node.prev = last; node.next = null; }, findTransition: function(check){ var prev = my.root; var here = my.root.next; while (here !== null){ if (check(here)) break; prev = here; here = here.next; } return { before: prev === my.root ? null : prev, after: here, insert: function(node){ node.prev = prev; node.next = here; prev.next = node; if (here !== null) here.prev = node; return node; } }; } }; return my; }, node: function(data){ data.prev = null; data.next = null; data.remove = function(){ data.prev.next = data.next; if (data.next) data.next.prev = data.prev; data.prev = null; data.next = null; }; return data; } }; module.exports = LinkedList; },{}],81:[function(_dereq_,module,exports){ // (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc // MIT License // Project Home: https://github.com/voidqk/polybooljs // // converts a list of segments into a list of regions, while also removing unnecessary verticies // function SegmentChainer(segments, eps, buildLog){ var chains = []; var regions = []; segments.forEach(function(seg){ var pt1 = seg.start; var pt2 = seg.end; if (eps.pointsSame(pt1, pt2)){ console.warn('PolyBool: Warning: Zero-length segment detected; your epsilon is ' + 'probably too small or too large'); return; } if (buildLog) buildLog.chainStart(seg); // search for two chains that this segment matches var first_match = { index: 0, matches_head: false, matches_pt1: false }; var second_match = { index: 0, matches_head: false, matches_pt1: false }; var next_match = first_match; function setMatch(index, matches_head, matches_pt1){ // return true if we've matched twice next_match.index = index; next_match.matches_head = matches_head; next_match.matches_pt1 = matches_pt1; if (next_match === first_match){ next_match = second_match; return false; } next_match = null; return true; // we've matched twice, we're done here } for (var i = 0; i < chains.length; i++){ var chain = chains[i]; var head = chain[0]; var head2 = chain[1]; var tail = chain[chain.length - 1]; var tail2 = chain[chain.length - 2]; if (eps.pointsSame(head, pt1)){ if (setMatch(i, true, true)) break; } else if (eps.pointsSame(head, pt2)){ if (setMatch(i, true, false)) break; } else if (eps.pointsSame(tail, pt1)){ if (setMatch(i, false, true)) break; } else if (eps.pointsSame(tail, pt2)){ if (setMatch(i, false, false)) break; } } if (next_match === first_match){ // we didn't match anything, so create a new chain chains.push([ pt1, pt2 ]); if (buildLog) buildLog.chainNew(pt1, pt2); return; } if (next_match === second_match){ // we matched a single chain if (buildLog) buildLog.chainMatch(first_match.index); // add the other point to the apporpriate end, and check to see if we've closed the // chain into a loop var index = first_match.index; var pt = first_match.matches_pt1 ? pt2 : pt1; // if we matched pt1, then we add pt2, etc var addToHead = first_match.matches_head; // if we matched at head, then add to the head var chain = chains[index]; var grow = addToHead ? chain[0] : chain[chain.length - 1]; var grow2 = addToHead ? chain[1] : chain[chain.length - 2]; var oppo = addToHead ? chain[chain.length - 1] : chain[0]; var oppo2 = addToHead ? chain[chain.length - 2] : chain[1]; if (eps.pointsCollinear(grow2, grow, pt)){ // grow isn't needed because it's directly between grow2 and pt: // grow2 ---grow---> pt if (addToHead){ if (buildLog) buildLog.chainRemoveHead(first_match.index, pt); chain.shift(); } else{ if (buildLog) buildLog.chainRemoveTail(first_match.index, pt); chain.pop(); } grow = grow2; // old grow is gone... new grow is what grow2 was } if (eps.pointsSame(oppo, pt)){ // we're closing the loop, so remove chain from chains chains.splice(index, 1); if (eps.pointsCollinear(oppo2, oppo, grow)){ // oppo isn't needed because it's directly between oppo2 and grow: // oppo2 ---oppo--->grow if (addToHead){ if (buildLog) buildLog.chainRemoveTail(first_match.index, grow); chain.pop(); } else{ if (buildLog) buildLog.chainRemoveHead(first_match.index, grow); chain.shift(); } } if (buildLog) buildLog.chainClose(first_match.index); // we have a closed chain! regions.push(chain); return; } // not closing a loop, so just add it to the apporpriate side if (addToHead){ if (buildLog) buildLog.chainAddHead(first_match.index, pt); chain.unshift(pt); } else{ if (buildLog) buildLog.chainAddTail(first_match.index, pt); chain.push(pt); } return; } // otherwise, we matched two chains, so we need to combine those chains together function reverseChain(index){ if (buildLog) buildLog.chainReverse(index); chains[index].reverse(); // gee, that's easy } function appendChain(index1, index2){ // index1 gets index2 appended to it, and index2 is removed var chain1 = chains[index1]; var chain2 = chains[index2]; var tail = chain1[chain1.length - 1]; var tail2 = chain1[chain1.length - 2]; var head = chain2[0]; var head2 = chain2[1]; if (eps.pointsCollinear(tail2, tail, head)){ // tail isn't needed because it's directly between tail2 and head // tail2 ---tail---> head if (buildLog) buildLog.chainRemoveTail(index1, tail); chain1.pop(); tail = tail2; // old tail is gone... new tail is what tail2 was } if (eps.pointsCollinear(tail, head, head2)){ // head isn't needed because it's directly between tail and head2 // tail ---head---> head2 if (buildLog) buildLog.chainRemoveHead(index2, head); chain2.shift(); } if (buildLog) buildLog.chainJoin(index1, index2); chains[index1] = chain1.concat(chain2); chains.splice(index2, 1); } var F = first_match.index; var S = second_match.index; if (buildLog) buildLog.chainConnect(F, S); var reverseF = chains[F].length < chains[S].length; // reverse the shorter chain, if needed if (first_match.matches_head){ if (second_match.matches_head){ if (reverseF){ // <<<< F <<<< --- >>>> S >>>> reverseChain(F); // >>>> F >>>> --- >>>> S >>>> appendChain(F, S); } else{ // <<<< F <<<< --- >>>> S >>>> reverseChain(S); // <<<< F <<<< --- <<<< S <<<< logically same as: // >>>> S >>>> --- >>>> F >>>> appendChain(S, F); } } else{ // <<<< F <<<< --- <<<< S <<<< logically same as: // >>>> S >>>> --- >>>> F >>>> appendChain(S, F); } } else{ if (second_match.matches_head){ // >>>> F >>>> --- >>>> S >>>> appendChain(F, S); } else{ if (reverseF){ // >>>> F >>>> --- <<<< S <<<< reverseChain(F); // <<<< F <<<< --- <<<< S <<<< logically same as: // >>>> S >>>> --- >>>> F >>>> appendChain(S, F); } else{ // >>>> F >>>> --- <<<< S <<<< reverseChain(S); // >>>> F >>>> --- >>>> S >>>> appendChain(F, S); } } } }); return regions; } module.exports = SegmentChainer; },{}],82:[function(_dereq_,module,exports){ // (c) Copyright 2016, Sean Connelly (@voidqk), http://syntheti.cc // MIT License // Project Home: https://github.com/voidqk/polybooljs // // filter a list of segments based on boolean operations // function select(segments, selection, buildLog){ var result = []; segments.forEach(function(seg){ var index = (seg.myFill.above ? 8 : 0) + (seg.myFill.below ? 4 : 0) + ((seg.otherFill && seg.otherFill.above) ? 2 : 0) + ((seg.otherFill && seg.otherFill.below) ? 1 : 0); if (selection[index] !== 0){ // copy the segment to the results, while also calculating the fill status result.push({ id: buildLog ? buildLog.segmentId() : -1, start: seg.start, end: seg.end, myFill: { above: selection[index] === 1, // 1 if filled above below: selection[index] === 2 // 2 if filled below }, otherFill: null }); } }); if (buildLog) buildLog.selected(result); return result; } var SegmentSelector = { union: function(segments, buildLog){ // primary | secondary // above1 below1 above2 below2 Keep? Value // 0 0 0 0 => no 0 // 0 0 0 1 => yes filled below 2 // 0 0 1 0 => yes filled above 1 // 0 0 1 1 => no 0 // 0 1 0 0 => yes filled below 2 // 0 1 0 1 => yes filled below 2 // 0 1 1 0 => no 0 // 0 1 1 1 => no 0 // 1 0 0 0 => yes filled above 1 // 1 0 0 1 => no 0 // 1 0 1 0 => yes filled above 1 // 1 0 1 1 => no 0 // 1 1 0 0 => no 0 // 1 1 0 1 => no 0 // 1 1 1 0 => no 0 // 1 1 1 1 => no 0 return select(segments, [ 0, 2, 1, 0, 2, 2, 0, 0, 1, 0, 1, 0, 0, 0, 0, 0 ], buildLog); }, intersect: function(segments, buildLog){ // primary & secondary // above1 below1 above2 below2 Keep? Value // 0 0 0 0 => no 0 // 0 0 0 1 => no 0 // 0 0 1 0 => no 0 // 0 0 1 1 => no 0 // 0 1 0 0 => no 0 // 0 1 0 1 => yes filled below 2 // 0 1 1 0 => no 0 // 0 1 1 1 => yes filled below 2 // 1 0 0 0 => no 0 // 1 0 0 1 => no 0 // 1 0 1 0 => yes filled above 1 // 1 0 1 1 => yes filled above 1 // 1 1 0 0 => no 0 // 1 1 0 1 => yes filled below 2 // 1 1 1 0 => yes filled above 1 // 1 1 1 1 => no 0 return select(segments, [ 0, 0, 0, 0, 0, 2, 0, 2, 0, 0, 1, 1, 0, 2, 1, 0 ], buildLog); }, difference: function(segments, buildLog){ // primary - secondary // above1 below1 above2 below2 Keep? Value // 0 0 0 0 => no 0 // 0 0 0 1 => no 0 // 0 0 1 0 => no 0 // 0 0 1 1 => no 0 // 0 1 0 0 => yes filled below 2 // 0 1 0 1 => no 0 // 0 1 1 0 => yes filled below 2 // 0 1 1 1 => no 0 // 1 0 0 0 => yes filled above 1 // 1 0 0 1 => yes filled above 1 // 1 0 1 0 => no 0 // 1 0 1 1 => no 0 // 1 1 0 0 => no 0 // 1 1 0 1 => yes filled above 1 // 1 1 1 0 => yes filled below 2 // 1 1 1 1 => no 0 return select(segments, [ 0, 0, 0, 0, 2, 0, 2, 0, 1, 1, 0, 0, 0, 1, 2, 0 ], buildLog); }, differenceRev: function(segments, buildLog){ // secondary - primary // above1 below1 above2 below2 Keep? Value // 0 0 0 0 => no 0 // 0 0 0 1 => yes filled below 2 // 0 0 1 0 => yes filled above 1 // 0 0 1 1 => no 0 // 0 1 0 0 => no 0 // 0 1 0 1 => no 0 // 0 1 1 0 => yes filled above 1 // 0 1 1 1 => yes filled above 1 // 1 0 0 0 => no 0 // 1 0 0 1 => yes filled below 2 // 1 0 1 0 => no 0 // 1 0 1 1 => yes filled below 2 // 1 1 0 0 => no 0 // 1 1 0 1 => no 0 // 1 1 1 0 => no 0 // 1 1 1 1 => no 0 return select(segments, [ 0, 2, 1, 0, 0, 0, 1, 1, 0, 2, 0, 2, 0, 0, 0, 0 ], buildLog); }, xor: function(segments, buildLog){ // primary ^ secondary // above1 below1 above2 below2 Keep? Value // 0 0 0 0 => no 0 // 0 0 0 1 => yes filled below 2 // 0 0 1 0 => yes filled above 1 // 0 0 1 1 => no 0 // 0 1 0 0 => yes filled below 2 // 0 1 0 1 => no 0 // 0 1 1 0 => no 0 // 0 1 1 1 => yes filled above 1 // 1 0 0 0 => yes filled above 1 // 1 0 0 1 => no 0 // 1 0 1 0 => no 0 // 1 0 1 1 => yes filled below 2 // 1 1 0 0 => no 0 // 1 1 0 1 => yes filled above 1 // 1 1 1 0 => yes filled below 2 // 1 1 1 1 => no 0 return select(segments, [ 0, 2, 1, 0, 2, 0, 0, 1, 1, 0, 0, 2, 0, 1, 2, 0 ], buildLog); } }; module.exports = SegmentSelector; },{}],83:[function(_dereq_,module,exports){ 'use strict'; var Transform = _dereq_('stream').Transform; var streamParser = _dereq_('stream-parser'); function ParserStream() { Transform.call(this, { readableObjectMode: true }); } // Inherit from Transform ParserStream.prototype = Object.create(Transform.prototype); ParserStream.prototype.constructor = ParserStream; streamParser(ParserStream.prototype); exports.ParserStream = ParserStream; exports.sliceEq = function (src, start, dest) { for (var i = start, j = 0; j < dest.length;) { if (src[i++] !== dest[j++]) return false; } return true; }; exports.str2arr = function (str, format) { var arr = [], i = 0; if (format && format === 'hex') { while (i < str.length) { arr.push(parseInt(str.slice(i, i + 2), 16)); i += 2; } } else { for (; i < str.length; i++) { /* eslint-disable no-bitwise */ arr.push(str.charCodeAt(i) & 0xFF); } } return arr; }; exports.readUInt16LE = function (data, offset) { return data[offset] | (data[offset + 1] << 8); }; exports.readUInt16BE = function (data, offset) { return data[offset + 1] | (data[offset] << 8); }; exports.readUInt32LE = function (data, offset) { return data[offset] | (data[offset + 1] << 8) | (data[offset + 2] << 16) | (data[offset + 3] * 0x1000000); }; exports.readUInt32BE = function (data, offset) { return data[offset + 3] | (data[offset + 2] << 8) | (data[offset + 1] << 16) | (data[offset] * 0x1000000); }; function ProbeError(message, code, statusCode) { Error.call(this); // Include stack trace in error object if (Error.captureStackTrace) { // Chrome and NodeJS Error.captureStackTrace(this, this.constructor); } else { // FF, IE 10+ and Safari 6+. Fallback for others this.stack = (new Error()).stack || ''; } this.name = this.constructor.name; this.message = message; if (code) this.code = code; if (statusCode) this.statusCode = statusCode; } // Inherit from Error ProbeError.prototype = Object.create(Error.prototype); ProbeError.prototype.constructor = ProbeError; exports.ProbeError = ProbeError; },{"stream":100,"stream-parser":116}],84:[function(_dereq_,module,exports){ /* eslint-disable no-bitwise */ /* eslint-disable consistent-return */ 'use strict'; ////////////////////////////////////////////////////////////////////////// // Helpers // function error(message, code) { var err = new Error(message); err.code = code; return err; } function utf8_decode(str) { try { return decodeURIComponent(escape(str)); } catch (_) { return str; } } ////////////////////////////////////////////////////////////////////////// // Exif parser // // Input: // - jpeg_bin: Uint8Array - jpeg file // - exif_start: Number - start of TIFF header (after Exif\0\0) // - exif_end: Number - end of Exif segment // - on_entry: Number - callback // function ExifParser(jpeg_bin, exif_start, exif_end) { // Uint8Array, exif without signature (which isn't included in offsets) this.input = jpeg_bin.subarray(exif_start, exif_end); // offset correction for `on_entry` callback this.start = exif_start; // Check TIFF header (includes byte alignment and first IFD offset) var sig = String.fromCharCode.apply(null, this.input.subarray(0, 4)); if (sig !== 'II\x2A\0' && sig !== 'MM\0\x2A') { throw error('invalid TIFF signature', 'EBADDATA'); } // true if motorola (big endian) byte alignment, false if intel this.big_endian = sig[0] === 'M'; } ExifParser.prototype.each = function (on_entry) { // allow premature exit this.aborted = false; var offset = this.read_uint32(4); this.ifds_to_read = [ { id: 0, offset: offset } ]; while (this.ifds_to_read.length > 0 && !this.aborted) { var i = this.ifds_to_read.shift(); if (!i.offset) continue; this.scan_ifd(i.id, i.offset, on_entry); } }; ExifParser.prototype.read_uint16 = function (offset) { var d = this.input; if (offset + 2 > d.length) throw error('unexpected EOF', 'EBADDATA'); return this.big_endian ? d[offset] * 0x100 + d[offset + 1] : d[offset] + d[offset + 1] * 0x100; }; ExifParser.prototype.read_uint32 = function (offset) { var d = this.input; if (offset + 4 > d.length) throw error('unexpected EOF', 'EBADDATA'); return this.big_endian ? d[offset] * 0x1000000 + d[offset + 1] * 0x10000 + d[offset + 2] * 0x100 + d[offset + 3] : d[offset] + d[offset + 1] * 0x100 + d[offset + 2] * 0x10000 + d[offset + 3] * 0x1000000; }; ExifParser.prototype.is_subifd_link = function (ifd, tag) { return (ifd === 0 && tag === 0x8769) || // SubIFD (ifd === 0 && tag === 0x8825) || // GPS Info (ifd === 0x8769 && tag === 0xA005); // Interop IFD }; // Returns byte length of a single component of a given format // ExifParser.prototype.exif_format_length = function (format) { switch (format) { case 1: // byte case 2: // ascii case 6: // sbyte case 7: // undefined return 1; case 3: // short case 8: // sshort return 2; case 4: // long case 9: // slong case 11: // float return 4; case 5: // rational case 10: // srational case 12: // double return 8; default: // unknown type return 0; } }; // Reads Exif data // ExifParser.prototype.exif_format_read = function (format, offset) { var v; switch (format) { case 1: // byte case 2: // ascii v = this.input[offset]; return v; case 6: // sbyte v = this.input[offset]; return v | (v & 0x80) * 0x1fffffe; case 3: // short v = this.read_uint16(offset); return v; case 8: // sshort v = this.read_uint16(offset); return v | (v & 0x8000) * 0x1fffe; case 4: // long v = this.read_uint32(offset); return v; case 9: // slong v = this.read_uint32(offset); return v | 0; case 5: // rational case 10: // srational case 11: // float case 12: // double return null; // not implemented case 7: // undefined return null; // blob default: // unknown type return null; } }; ExifParser.prototype.scan_ifd = function (ifd_no, offset, on_entry) { var entry_count = this.read_uint16(offset); offset += 2; for (var i = 0; i < entry_count; i++) { var tag = this.read_uint16(offset); var format = this.read_uint16(offset + 2); var count = this.read_uint32(offset + 4); var comp_length = this.exif_format_length(format); var data_length = count * comp_length; var data_offset = data_length <= 4 ? offset + 8 : this.read_uint32(offset + 8); var is_subifd_link = false; if (data_offset + data_length > this.input.length) { throw error('unexpected EOF', 'EBADDATA'); } var value = []; var comp_offset = data_offset; for (var j = 0; j < count; j++, comp_offset += comp_length) { var item = this.exif_format_read(format, comp_offset); if (item === null) { value = null; break; } value.push(item); } if (Array.isArray(value) && format === 2) { value = utf8_decode(String.fromCharCode.apply(null, value)); if (value && value[value.length - 1] === '\0') value = value.slice(0, -1); } if (this.is_subifd_link(ifd_no, tag)) { if (Array.isArray(value) && Number.isInteger(value[0]) && value[0] > 0) { this.ifds_to_read.push({ id: tag, offset: value[0] }); is_subifd_link = true; } } var entry = { is_big_endian: this.big_endian, ifd: ifd_no, tag: tag, format: format, count: count, entry_offset: offset + this.start, data_length: data_length, data_offset: data_offset + this.start, value: value, is_subifd_link: is_subifd_link }; if (on_entry(entry) === false) { this.aborted = true; return; } offset += 12; } if (ifd_no === 0) { this.ifds_to_read.push({ id: 1, offset: this.read_uint32(offset) }); } }; module.exports.ExifParser = ExifParser; // returns orientation stored in Exif (1-8), 0 if none was found, -1 if error module.exports.get_orientation = function (data) { var orientation = 0; try { new ExifParser(data, 0, data.length).each(function (entry) { if (entry.ifd === 0 && entry.tag === 0x112 && Array.isArray(entry.value)) { orientation = entry.value[0]; return false; } }); return orientation; } catch (err) { return -1; } }; },{}],85:[function(_dereq_,module,exports){ // Utils used to parse miaf-based files (avif/heic/heif) // // ISO media file spec: // https://web.archive.org/web/20180219054429/http://l.web.umkc.edu/lizhu/teaching/2016sp.video-communication/ref/mp4.pdf // // ISO image file format spec: // https://standards.iso.org/ittf/PubliclyAvailableStandards/c066067_ISO_IEC_23008-12_2017.zip // 'use strict'; /* eslint-disable consistent-return */ /* eslint-disable no-bitwise */ var readUInt16BE = _dereq_('./common').readUInt16BE; var readUInt32BE = _dereq_('./common').readUInt32BE; /* * interface Box { * size: uint32; // if size == 0, box lasts until EOF * boxtype: char[4]; * largesize?: uint64; // only if size == 1 * usertype?: char[16]; // only if boxtype == 'uuid' * } */ function unbox(data, offset) { if (data.length < 4 + offset) return null; var size = readUInt32BE(data, offset); // size includes first 4 bytes (length) if (data.length < size + offset || size < 8) return null; // if size === 1, real size is following uint64 (only for big boxes, not needed) // if size === 0, real size is until the end of the file (only for big boxes, not needed) return { boxtype: String.fromCharCode.apply(null, data.slice(offset + 4, offset + 8)), data: data.slice(offset + 8, offset + size), end: offset + size }; } module.exports.unbox = unbox; // parses `meta` -> `iprp` -> `ipco` box, returns: // { // sizes: [ { width, height } ], // transforms: [ { type, value } ] // } function scan_ipco(data, sandbox) { var offset = 0; for (;;) { var box = unbox(data, offset); if (!box) break; switch (box.boxtype) { case 'ispe': sandbox.sizes.push({ width: readUInt32BE(box.data, 4), height: readUInt32BE(box.data, 8) }); break; case 'irot': sandbox.transforms.push({ type: 'irot', value: box.data[0] & 3 }); break; case 'imir': sandbox.transforms.push({ type: 'imir', value: box.data[0] & 1 }); break; } offset = box.end; } } function readUIntBE(data, offset, size) { var result = 0; for (var i = 0; i < size; i++) { result = result * 256 + (data[offset + i] || 0); } return result; } // parses `meta` -> `iloc` box function scan_iloc(data, sandbox) { var offset_size = (data[4] >> 4) & 0xF; var length_size = data[4] & 0xF; var base_offset_size = (data[5] >> 4) & 0xF; var item_count = readUInt16BE(data, 6); var offset = 8; for (var i = 0; i < item_count; i++) { var item_ID = readUInt16BE(data, offset); offset += 2; var data_reference_index = readUInt16BE(data, offset); offset += 2; var base_offset = readUIntBE(data, offset, base_offset_size); offset += base_offset_size; var extent_count = readUInt16BE(data, offset); offset += 2; if (data_reference_index === 0 && extent_count === 1) { var first_extent_offset = readUIntBE(data, offset, offset_size); var first_extent_length = readUIntBE(data, offset + offset_size, length_size); sandbox.item_loc[item_ID] = { length: first_extent_length, offset: first_extent_offset + base_offset }; } offset += extent_count * (offset_size + length_size); } } // parses `meta` -> `iinf` box function scan_iinf(data, sandbox) { var item_count = readUInt16BE(data, 4); var offset = 6; for (var i = 0; i < item_count; i++) { var box = unbox(data, offset); if (!box) break; if (box.boxtype === 'infe') { var item_id = readUInt16BE(box.data, 4); var item_name = ''; for (var pos = 8; pos < box.data.length && box.data[pos]; pos++) { item_name += String.fromCharCode(box.data[pos]); } sandbox.item_inf[item_name] = item_id; } offset = box.end; } } // parses `meta` -> `iprp` box function scan_iprp(data, sandbox) { var offset = 0; for (;;) { var box = unbox(data, offset); if (!box) break; if (box.boxtype === 'ipco') scan_ipco(box.data, sandbox); offset = box.end; } } // parses `meta` box function scan_meta(data, sandbox) { var offset = 4; // version + flags for (;;) { var box = unbox(data, offset); if (!box) break; if (box.boxtype === 'iprp') scan_iprp(box.data, sandbox); if (box.boxtype === 'iloc') scan_iloc(box.data, sandbox); if (box.boxtype === 'iinf') scan_iinf(box.data, sandbox); offset = box.end; } } // get image with largest single dimension as base function getMaxSize(sizes) { var maxWidthSize = sizes.reduce(function (a, b) { return a.width > b.width || (a.width === b.width && a.height > b.height) ? a : b; }); var maxHeightSize = sizes.reduce(function (a, b) { return a.height > b.height || (a.height === b.height && a.width > b.width) ? a : b; }); var maxSize; if (maxWidthSize.width > maxHeightSize.height || (maxWidthSize.width === maxHeightSize.height && maxWidthSize.height > maxHeightSize.width)) { maxSize = maxWidthSize; } else { maxSize = maxHeightSize; } return maxSize; } module.exports.readSizeFromMeta = function (data) { var sandbox = { sizes: [], transforms: [], item_inf: {}, item_loc: {} }; scan_meta(data, sandbox); if (!sandbox.sizes.length) return; var maxSize = getMaxSize(sandbox.sizes); var orientation = 1; // convert imir/irot to exif orientation sandbox.transforms.forEach(function (transform) { var rotate_ccw = { 1: 6, 2: 5, 3: 8, 4: 7, 5: 4, 6: 3, 7: 2, 8: 1 }; var mirror_vert = { 1: 4, 2: 3, 3: 2, 4: 1, 5: 6, 6: 5, 7: 8, 8: 7 }; if (transform.type === 'imir') { if (transform.value === 0) { // vertical flip orientation = mirror_vert[orientation]; } else { // horizontal flip = vertical flip + 180 deg rotation orientation = mirror_vert[orientation]; orientation = rotate_ccw[orientation]; orientation = rotate_ccw[orientation]; } } if (transform.type === 'irot') { // counter-clockwise rotation 90 deg 0-3 times for (var i = 0; i < transform.value; i++) { orientation = rotate_ccw[orientation]; } } }); var exif_location = null; if (sandbox.item_inf.Exif) { exif_location = sandbox.item_loc[sandbox.item_inf.Exif]; } return { width: maxSize.width, height: maxSize.height, orientation: sandbox.transforms.length ? orientation : null, variants: sandbox.sizes, exif_location: exif_location }; }; module.exports.getMimeType = function (data) { var brand = String.fromCharCode.apply(null, data.slice(0, 4)); var compat = {}; compat[brand] = true; for (var i = 8; i < data.length; i += 4) { compat[String.fromCharCode.apply(null, data.slice(i, i + 4))] = true; } // heic and avif are superset of miaf, so they should all list mif1 as compatible if (!compat.mif1 && !compat.msf1 && !compat.miaf) return; if (brand === 'avif' || brand === 'avis' || brand === 'avio') { // `.avifs` and `image/avif-sequence` are removed from spec, all files have single type return { type: 'avif', mime: 'image/avif' }; } // https://nokiatech.github.io/heif/technical.html if (brand === 'heic' || brand === 'heix') { return { type: 'heic', mime: 'image/heic' }; } if (brand === 'hevc' || brand === 'hevx') { return { type: 'heic', mime: 'image/heic-sequence' }; } if (compat.avif || compat.avis) { return { type: 'avif', mime: 'image/avif' }; } if (compat.heic || compat.heix || compat.hevc || compat.hevx || compat.heis) { if (compat.msf1) { return { type: 'heif', mime: 'image/heif-sequence' }; } return { type: 'heif', mime: 'image/heif' }; } return { type: 'avif', mime: 'image/avif' }; }; },{"./common":83}],86:[function(_dereq_,module,exports){ // Utils used to parse miaf-based files (avif/heic/heif) // // - image collections are not supported (only last size is reported) // - images with metadata encoded after image data are not supported // - images without any `ispe` box are not supported // /* eslint-disable consistent-return */ 'use strict'; var str2arr = _dereq_('../common').str2arr; var sliceEq = _dereq_('../common').sliceEq; var readUInt32BE = _dereq_('../common').readUInt32BE; var miaf = _dereq_('../miaf_utils'); var exif = _dereq_('../exif_utils'); var SIG_FTYP = str2arr('ftyp'); module.exports = function (data) { // ISO media file (avif format) starts with ftyp box: // 0000 0020 6674 7970 6176 6966 // (length) f t y p a v i f // if (!sliceEq(data, 4, SIG_FTYP)) return; var firstBox = miaf.unbox(data, 0); if (!firstBox) return; var fileType = miaf.getMimeType(firstBox.data); if (!fileType) return; var meta, offset = firstBox.end; for (;;) { var box = miaf.unbox(data, offset); if (!box) break; offset = box.end; // mdat block SHOULD be last (but not strictly required), // so it's unlikely that metadata is after it if (box.boxtype === 'mdat') return; if (box.boxtype === 'meta') { meta = box.data; break; } } if (!meta) return; var imgSize = miaf.readSizeFromMeta(meta); if (!imgSize) return; var result = { width: imgSize.width, height: imgSize.height, type: fileType.type, mime: fileType.mime, wUnits: 'px', hUnits: 'px' }; if (imgSize.variants.length > 1) { result.variants = imgSize.variants; } if (imgSize.orientation) { result.orientation = imgSize.orientation; } if (imgSize.exif_location && imgSize.exif_location.offset + imgSize.exif_location.length <= data.length) { var sig_offset = readUInt32BE(data, imgSize.exif_location.offset); var exif_data = data.slice( imgSize.exif_location.offset + sig_offset + 4, imgSize.exif_location.offset + imgSize.exif_location.length); var orientation = exif.get_orientation(exif_data); if (orientation > 0) result.orientation = orientation; } return result; }; },{"../common":83,"../exif_utils":84,"../miaf_utils":85}],87:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable consistent-return */ var str2arr = _dereq_('../common').str2arr; var sliceEq = _dereq_('../common').sliceEq; var readUInt16LE = _dereq_('../common').readUInt16LE; var SIG_BM = str2arr('BM'); module.exports = function (data) { if (data.length < 26) return; if (!sliceEq(data, 0, SIG_BM)) return; return { width: readUInt16LE(data, 18), height: readUInt16LE(data, 22), type: 'bmp', mime: 'image/bmp', wUnits: 'px', hUnits: 'px' }; }; },{"../common":83}],88:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable consistent-return */ var str2arr = _dereq_('../common').str2arr; var sliceEq = _dereq_('../common').sliceEq; var readUInt16LE = _dereq_('../common').readUInt16LE; var SIG_GIF87a = str2arr('GIF87a'); var SIG_GIF89a = str2arr('GIF89a'); module.exports = function (data) { if (data.length < 10) return; if (!sliceEq(data, 0, SIG_GIF87a) && !sliceEq(data, 0, SIG_GIF89a)) return; return { width: readUInt16LE(data, 6), height: readUInt16LE(data, 8), type: 'gif', mime: 'image/gif', wUnits: 'px', hUnits: 'px' }; }; },{"../common":83}],89:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable consistent-return */ var readUInt16LE = _dereq_('../common').readUInt16LE; var HEADER = 0; var TYPE_ICO = 1; var INDEX_SIZE = 16; // Format specification: // https://en.wikipedia.org/wiki/ICO_(file_format)#Icon_resource_structure module.exports = function (data) { var header = readUInt16LE(data, 0); var type = readUInt16LE(data, 2); var numImages = readUInt16LE(data, 4); if (header !== HEADER || type !== TYPE_ICO || !numImages) { return; } var variants = []; var maxSize = { width: 0, height: 0 }; for (var i = 0; i < numImages; i++) { var width = data[6 + INDEX_SIZE * i] || 256; var height = data[6 + INDEX_SIZE * i + 1] || 256; var size = { width: width, height: height }; variants.push(size); if (width > maxSize.width || height > maxSize.height) { maxSize = size; } } return { width: maxSize.width, height: maxSize.height, variants: variants, type: 'ico', mime: 'image/x-icon', wUnits: 'px', hUnits: 'px' }; }; },{"../common":83}],90:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable consistent-return */ var readUInt16BE = _dereq_('../common').readUInt16BE; var str2arr = _dereq_('../common').str2arr; var sliceEq = _dereq_('../common').sliceEq; var exif = _dereq_('../exif_utils'); var SIG_EXIF = str2arr('Exif\0\0'); module.exports = function (data) { if (data.length < 2) return; // first marker of the file MUST be 0xFFD8, // following by either 0xFFE0, 0xFFE2 or 0xFFE3 if (data[0] !== 0xFF || data[1] !== 0xD8 || data[2] !== 0xFF) return; var offset = 2; for (;;) { // skip until we see 0xFF, see https://github.com/nodeca/probe-image-size/issues/68 for (;;) { if (data.length - offset < 2) return; if (data[offset++] === 0xFF) break; } var code = data[offset++]; var length; // skip padding bytes while (code === 0xFF) code = data[offset++]; // standalone markers, according to JPEG 1992, // http://www.w3.org/Graphics/JPEG/itu-t81.pdf, see Table B.1 if ((0xD0 <= code && code <= 0xD9) || code === 0x01) { length = 0; } else if (0xC0 <= code && code <= 0xFE) { // the rest of the unreserved markers if (data.length - offset < 2) return; length = readUInt16BE(data, offset) - 2; offset += 2; } else { // unknown markers return; } if (code === 0xD9 /* EOI */ || code === 0xDA /* SOS */) { // end of the datastream return; } var orientation; // try to get orientation from Exif segment if (code === 0xE1 && length >= 10 && sliceEq(data, offset, SIG_EXIF)) { orientation = exif.get_orientation(data.slice(offset + 6, offset + length)); } if (length >= 5 && (0xC0 <= code && code <= 0xCF) && code !== 0xC4 && code !== 0xC8 && code !== 0xCC) { if (data.length - offset < length) return; var result = { width: readUInt16BE(data, offset + 3), height: readUInt16BE(data, offset + 1), type: 'jpg', mime: 'image/jpeg', wUnits: 'px', hUnits: 'px' }; if (orientation > 0) { result.orientation = orientation; } return result; } offset += length; } }; },{"../common":83,"../exif_utils":84}],91:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable consistent-return */ var str2arr = _dereq_('../common').str2arr; var sliceEq = _dereq_('../common').sliceEq; var readUInt32BE = _dereq_('../common').readUInt32BE; var SIG_PNG = str2arr('\x89PNG\r\n\x1a\n'); var SIG_IHDR = str2arr('IHDR'); module.exports = function (data) { if (data.length < 24) return; // check PNG signature if (!sliceEq(data, 0, SIG_PNG)) return; // check that first chunk is IHDR if (!sliceEq(data, 12, SIG_IHDR)) return; return { width: readUInt32BE(data, 16), height: readUInt32BE(data, 20), type: 'png', mime: 'image/png', wUnits: 'px', hUnits: 'px' }; }; },{"../common":83}],92:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable consistent-return */ var str2arr = _dereq_('../common').str2arr; var sliceEq = _dereq_('../common').sliceEq; var readUInt32BE = _dereq_('../common').readUInt32BE; var SIG_8BPS = str2arr('8BPS\x00\x01'); module.exports = function (data) { if (data.length < 6 + 16) return; // signature + version if (!sliceEq(data, 0, SIG_8BPS)) return; return { width: readUInt32BE(data, 6 + 12), height: readUInt32BE(data, 6 + 8), type: 'psd', mime: 'image/vnd.adobe.photoshop', wUnits: 'px', hUnits: 'px' }; }; },{"../common":83}],93:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable consistent-return */ function isWhiteSpace(chr) { return chr === 0x20 || chr === 0x09 || chr === 0x0D || chr === 0x0A; } // Filter NaN, Infinity, < 0 function isFinitePositive(val) { return typeof val === 'number' && isFinite(val) && val > 0; } function canBeSvg(buf) { var i = 0, max = buf.length; // byte order mark, https://github.com/nodeca/probe-image-size/issues/57 if (buf[0] === 0xEF && buf[1] === 0xBB && buf[2] === 0xBF) i = 3; while (i < max && isWhiteSpace(buf[i])) i++; if (i === max) return false; return buf[i] === 0x3c; /* < */ } // skip `` or `` var SVG_HEADER_RE = /<[-_.:a-zA-Z0-9][^>]*>/; // test if the top level element is svg + optional namespace, // used to skip svg embedded in html var SVG_TAG_RE = /^<([-_.:a-zA-Z0-9]+:)?svg\s/; var SVG_WIDTH_RE = /[^-]\bwidth="([^%]+?)"|[^-]\bwidth='([^%]+?)'/; var SVG_HEIGHT_RE = /\bheight="([^%]+?)"|\bheight='([^%]+?)'/; var SVG_VIEWBOX_RE = /\bview[bB]ox="(.+?)"|\bview[bB]ox='(.+?)'/; var SVG_UNITS_RE = /in$|mm$|cm$|pt$|pc$|px$|em$|ex$/; function svgAttrs(str) { var width = str.match(SVG_WIDTH_RE); var height = str.match(SVG_HEIGHT_RE); var viewbox = str.match(SVG_VIEWBOX_RE); return { width: width && (width[1] || width[2]), height: height && (height[1] || height[2]), viewbox: viewbox && (viewbox[1] || viewbox[2]) }; } function units(str) { if (!SVG_UNITS_RE.test(str)) return 'px'; return str.match(SVG_UNITS_RE)[0]; } module.exports = function (data) { if (!canBeSvg(data)) return; var str = ''; for (var i = 0; i < data.length; i++) { // 1. We can't rely on buffer features // 2. Don't care about UTF16 because ascii is enougth for our goals str += String.fromCharCode(data[i]); } // get top level element var svgTag = (str.match(SVG_HEADER_RE) || [ '' ])[0]; // test if top level element is if (!SVG_TAG_RE.test(svgTag)) return; var attrs = svgAttrs(svgTag); var width = parseFloat(attrs.width); var height = parseFloat(attrs.height); // Extract from direct values if (attrs.width && attrs.height) { if (!isFinitePositive(width) || !isFinitePositive(height)) return; return { width: width, height: height, type: 'svg', mime: 'image/svg+xml', wUnits: units(attrs.width), hUnits: units(attrs.height) }; } // Extract from viewbox var parts = (attrs.viewbox || '').split(' '); var viewbox = { width: parts[2], height: parts[3] }; var vbWidth = parseFloat(viewbox.width); var vbHeight = parseFloat(viewbox.height); if (!isFinitePositive(vbWidth) || !isFinitePositive(vbHeight)) return; if (units(viewbox.width) !== units(viewbox.height)) return; var ratio = vbWidth / vbHeight; if (attrs.width) { if (!isFinitePositive(width)) return; return { width: width, height: width / ratio, type: 'svg', mime: 'image/svg+xml', wUnits: units(attrs.width), hUnits: units(attrs.width) }; } if (attrs.height) { if (!isFinitePositive(height)) return; return { width: height * ratio, height: height, type: 'svg', mime: 'image/svg+xml', wUnits: units(attrs.height), hUnits: units(attrs.height) }; } return { width: vbWidth, height: vbHeight, type: 'svg', mime: 'image/svg+xml', wUnits: units(viewbox.width), hUnits: units(viewbox.height) }; }; },{}],94:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable consistent-return */ var str2arr = _dereq_('../common').str2arr; var sliceEq = _dereq_('../common').sliceEq; var readUInt16LE = _dereq_('../common').readUInt16LE; var readUInt16BE = _dereq_('../common').readUInt16BE; var readUInt32LE = _dereq_('../common').readUInt32LE; var readUInt32BE = _dereq_('../common').readUInt32BE; var SIG_1 = str2arr('II\x2A\0'); var SIG_2 = str2arr('MM\0\x2A'); function readUInt16(buffer, offset, is_big_endian) { return is_big_endian ? readUInt16BE(buffer, offset) : readUInt16LE(buffer, offset); } function readUInt32(buffer, offset, is_big_endian) { return is_big_endian ? readUInt32BE(buffer, offset) : readUInt32LE(buffer, offset); } function readIFDValue(data, data_offset, is_big_endian) { var type = readUInt16(data, data_offset + 2, is_big_endian); var values = readUInt32(data, data_offset + 4, is_big_endian); if (values !== 1 || (type !== 3 && type !== 4)) return null; if (type === 3) { return readUInt16(data, data_offset + 8, is_big_endian); } return readUInt32(data, data_offset + 8, is_big_endian); } module.exports = function (data) { if (data.length < 8) return; // check TIFF signature if (!sliceEq(data, 0, SIG_1) && !sliceEq(data, 0, SIG_2)) return; var is_big_endian = (data[0] === 77 /* 'MM' */); var count = readUInt32(data, 4, is_big_endian) - 8; if (count < 0) return; // skip until IFD var offset = count + 8; if (data.length - offset < 2) return; // read number of IFD entries var ifd_size = readUInt16(data, offset + 0, is_big_endian) * 12; if (ifd_size <= 0) return; offset += 2; // read all IFD entries if (data.length - offset < ifd_size) return; var i, width, height, tag; for (i = 0; i < ifd_size; i += 12) { tag = readUInt16(data, offset + i, is_big_endian); if (tag === 256) { width = readIFDValue(data, offset + i, is_big_endian); } else if (tag === 257) { height = readIFDValue(data, offset + i, is_big_endian); } } if (width && height) { return { width: width, height: height, type: 'tiff', mime: 'image/tiff', wUnits: 'px', hUnits: 'px' }; } }; },{"../common":83}],95:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable no-bitwise */ /* eslint-disable consistent-return */ var str2arr = _dereq_('../common').str2arr; var sliceEq = _dereq_('../common').sliceEq; var readUInt16LE = _dereq_('../common').readUInt16LE; var readUInt32LE = _dereq_('../common').readUInt32LE; var exif = _dereq_('../exif_utils'); var SIG_RIFF = str2arr('RIFF'); var SIG_WEBP = str2arr('WEBP'); function parseVP8(data, offset) { if (data[offset + 3] !== 0x9D || data[offset + 4] !== 0x01 || data[offset + 5] !== 0x2A) { // bad code block signature return; } return { width: readUInt16LE(data, offset + 6) & 0x3FFF, height: readUInt16LE(data, offset + 8) & 0x3FFF, type: 'webp', mime: 'image/webp', wUnits: 'px', hUnits: 'px' }; } function parseVP8L(data, offset) { if (data[offset] !== 0x2F) return; var bits = readUInt32LE(data, offset + 1); return { width: (bits & 0x3FFF) + 1, height: ((bits >> 14) & 0x3FFF) + 1, type: 'webp', mime: 'image/webp', wUnits: 'px', hUnits: 'px' }; } function parseVP8X(data, offset) { return { // TODO: replace with `data.readUIntLE(8, 3) + 1` // when 0.10 support is dropped width: ((data[offset + 6] << 16) | (data[offset + 5] << 8) | data[offset + 4]) + 1, height: ((data[offset + 9] << offset) | (data[offset + 8] << 8) | data[offset + 7]) + 1, type: 'webp', mime: 'image/webp', wUnits: 'px', hUnits: 'px' }; } module.exports = function (data) { if (data.length < 16) return; // check /^RIFF....WEBPVP8([ LX])$/ signature if (!sliceEq(data, 0, SIG_RIFF) && !sliceEq(data, 8, SIG_WEBP)) return; var offset = 12; var result = null; var exif_orientation = 0; var fileLength = readUInt32LE(data, 4) + 8; if (fileLength > data.length) return; while (offset + 8 < fileLength) { if (data[offset] === 0) { // after each chunk of odd size there should be 0 byte of padding, skip those offset++; continue; } var header = String.fromCharCode.apply(null, data.slice(offset, offset + 4)); var length = readUInt32LE(data, offset + 4); if (header === 'VP8 ' && length >= 10) { result = result || parseVP8(data, offset + 8); } else if (header === 'VP8L' && length >= 9) { result = result || parseVP8L(data, offset + 8); } else if (header === 'VP8X' && length >= 10) { result = result || parseVP8X(data, offset + 8); } else if (header === 'EXIF') { exif_orientation = exif.get_orientation(data.slice(offset + 8, offset + 8 + length)); // exif is the last chunk we care about, stop after it offset = Infinity; } offset += 8 + length; } if (!result) return; if (exif_orientation > 0) { result.orientation = exif_orientation; } return result; }; },{"../common":83,"../exif_utils":84}],96:[function(_dereq_,module,exports){ 'use strict'; module.exports = { avif: _dereq_('./parse_sync/avif'), bmp: _dereq_('./parse_sync/bmp'), gif: _dereq_('./parse_sync/gif'), ico: _dereq_('./parse_sync/ico'), jpeg: _dereq_('./parse_sync/jpeg'), png: _dereq_('./parse_sync/png'), psd: _dereq_('./parse_sync/psd'), svg: _dereq_('./parse_sync/svg'), tiff: _dereq_('./parse_sync/tiff'), webp: _dereq_('./parse_sync/webp') }; },{"./parse_sync/avif":86,"./parse_sync/bmp":87,"./parse_sync/gif":88,"./parse_sync/ico":89,"./parse_sync/jpeg":90,"./parse_sync/png":91,"./parse_sync/psd":92,"./parse_sync/svg":93,"./parse_sync/tiff":94,"./parse_sync/webp":95}],97:[function(_dereq_,module,exports){ 'use strict'; var parsers = _dereq_('./lib/parsers_sync'); function probeBuffer(buffer) { var parser_names = Object.keys(parsers); for (var i = 0; i < parser_names.length; i++) { var result = parsers[parser_names[i]](buffer); if (result) return result; } return null; } /////////////////////////////////////////////////////////////////////// // Exports // module.exports = function get_image_size(src) { return probeBuffer(src); }; module.exports.parsers = parsers; },{"./lib/parsers_sync":96}],98:[function(_dereq_,module,exports){ // shim for using process in browser var process = module.exports = {}; // cached from whatever global is present so that test runners that stub it // don't break things. But we need to wrap it in a try catch in case it is // wrapped in strict mode code which doesn't define any globals. It's inside a // function because try/catches deoptimize in certain engines. var cachedSetTimeout; var cachedClearTimeout; function defaultSetTimout() { throw new Error('setTimeout has not been defined'); } function defaultClearTimeout () { throw new Error('clearTimeout has not been defined'); } (function () { try { if (typeof setTimeout === 'function') { cachedSetTimeout = setTimeout; } else { cachedSetTimeout = defaultSetTimout; } } catch (e) { cachedSetTimeout = defaultSetTimout; } try { if (typeof clearTimeout === 'function') { cachedClearTimeout = clearTimeout; } else { cachedClearTimeout = defaultClearTimeout; } } catch (e) { cachedClearTimeout = defaultClearTimeout; } } ()) function runTimeout(fun) { if (cachedSetTimeout === setTimeout) { //normal enviroments in sane situations return setTimeout(fun, 0); } // if setTimeout wasn't available but was latter defined if ((cachedSetTimeout === defaultSetTimout || !cachedSetTimeout) && setTimeout) { cachedSetTimeout = setTimeout; return setTimeout(fun, 0); } try { // when when somebody has screwed with setTimeout but no I.E. maddness return cachedSetTimeout(fun, 0); } catch(e){ try { // When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally return cachedSetTimeout.call(null, fun, 0); } catch(e){ // same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error return cachedSetTimeout.call(this, fun, 0); } } } function runClearTimeout(marker) { if (cachedClearTimeout === clearTimeout) { //normal enviroments in sane situations return clearTimeout(marker); } // if clearTimeout wasn't available but was latter defined if ((cachedClearTimeout === defaultClearTimeout || !cachedClearTimeout) && clearTimeout) { cachedClearTimeout = clearTimeout; return clearTimeout(marker); } try { // when when somebody has screwed with setTimeout but no I.E. maddness return cachedClearTimeout(marker); } catch (e){ try { // When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally return cachedClearTimeout.call(null, marker); } catch (e){ // same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error. // Some versions of I.E. have different rules for clearTimeout vs setTimeout return cachedClearTimeout.call(this, marker); } } } var queue = []; var draining = false; var currentQueue; var queueIndex = -1; function cleanUpNextTick() { if (!draining || !currentQueue) { return; } draining = false; if (currentQueue.length) { queue = currentQueue.concat(queue); } else { queueIndex = -1; } if (queue.length) { drainQueue(); } } function drainQueue() { if (draining) { return; } var timeout = runTimeout(cleanUpNextTick); draining = true; var len = queue.length; while(len) { currentQueue = queue; queue = []; while (++queueIndex < len) { if (currentQueue) { currentQueue[queueIndex].run(); } } queueIndex = -1; len = queue.length; } currentQueue = null; draining = false; runClearTimeout(timeout); } process.nextTick = function (fun) { var args = new Array(arguments.length - 1); if (arguments.length > 1) { for (var i = 1; i < arguments.length; i++) { args[i - 1] = arguments[i]; } } queue.push(new Item(fun, args)); if (queue.length === 1 && !draining) { runTimeout(drainQueue); } }; // v8 likes predictible objects function Item(fun, array) { this.fun = fun; this.array = array; } Item.prototype.run = function () { this.fun.apply(null, this.array); }; process.title = 'browser'; process.browser = true; process.env = {}; process.argv = []; process.version = ''; // empty string to avoid regexp issues process.versions = {}; function noop() {} process.on = noop; process.addListener = noop; process.once = noop; process.off = noop; process.removeListener = noop; process.removeAllListeners = noop; process.emit = noop; process.prependListener = noop; process.prependOnceListener = noop; process.listeners = function (name) { return [] } process.binding = function (name) { throw new Error('process.binding is not supported'); }; process.cwd = function () { return '/' }; process.chdir = function (dir) { throw new Error('process.chdir is not supported'); }; process.umask = function() { return 0; }; },{}],99:[function(_dereq_,module,exports){ /* eslint-disable node/no-deprecated-api */ var buffer = _dereq_('buffer') var Buffer = buffer.Buffer // alternative to using Object.keys for old browsers function copyProps (src, dst) { for (var key in src) { dst[key] = src[key] } } if (Buffer.from && Buffer.alloc && Buffer.allocUnsafe && Buffer.allocUnsafeSlow) { module.exports = buffer } else { // Copy properties from require('buffer') copyProps(buffer, exports) exports.Buffer = SafeBuffer } function SafeBuffer (arg, encodingOrOffset, length) { return Buffer(arg, encodingOrOffset, length) } SafeBuffer.prototype = Object.create(Buffer.prototype) // Copy static methods from Buffer copyProps(Buffer, SafeBuffer) SafeBuffer.from = function (arg, encodingOrOffset, length) { if (typeof arg === 'number') { throw new TypeError('Argument must not be a number') } return Buffer(arg, encodingOrOffset, length) } SafeBuffer.alloc = function (size, fill, encoding) { if (typeof size !== 'number') { throw new TypeError('Argument must be a number') } var buf = Buffer(size) if (fill !== undefined) { if (typeof encoding === 'string') { buf.fill(fill, encoding) } else { buf.fill(fill) } } else { buf.fill(0) } return buf } SafeBuffer.allocUnsafe = function (size) { if (typeof size !== 'number') { throw new TypeError('Argument must be a number') } return Buffer(size) } SafeBuffer.allocUnsafeSlow = function (size) { if (typeof size !== 'number') { throw new TypeError('Argument must be a number') } return buffer.SlowBuffer(size) } },{"buffer":28}],100:[function(_dereq_,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. module.exports = Stream; var EE = _dereq_('events').EventEmitter; var inherits = _dereq_('inherits'); inherits(Stream, EE); Stream.Readable = _dereq_('readable-stream/lib/_stream_readable.js'); Stream.Writable = _dereq_('readable-stream/lib/_stream_writable.js'); Stream.Duplex = _dereq_('readable-stream/lib/_stream_duplex.js'); Stream.Transform = _dereq_('readable-stream/lib/_stream_transform.js'); Stream.PassThrough = _dereq_('readable-stream/lib/_stream_passthrough.js'); Stream.finished = _dereq_('readable-stream/lib/internal/streams/end-of-stream.js') Stream.pipeline = _dereq_('readable-stream/lib/internal/streams/pipeline.js') // Backwards-compat with node 0.4.x Stream.Stream = Stream; // old-style streams. Note that the pipe method (the only relevant // part of this class) is overridden in the Readable class. function Stream() { EE.call(this); } Stream.prototype.pipe = function(dest, options) { var source = this; function ondata(chunk) { if (dest.writable) { if (false === dest.write(chunk) && source.pause) { source.pause(); } } } source.on('data', ondata); function ondrain() { if (source.readable && source.resume) { source.resume(); } } dest.on('drain', ondrain); // If the 'end' option is not supplied, dest.end() will be called when // source gets the 'end' or 'close' events. Only dest.end() once. if (!dest._isStdio && (!options || options.end !== false)) { source.on('end', onend); source.on('close', onclose); } var didOnEnd = false; function onend() { if (didOnEnd) return; didOnEnd = true; dest.end(); } function onclose() { if (didOnEnd) return; didOnEnd = true; if (typeof dest.destroy === 'function') dest.destroy(); } // don't leave dangling pipes when there are errors. function onerror(er) { cleanup(); if (EE.listenerCount(this, 'error') === 0) { throw er; // Unhandled stream error in pipe. } } source.on('error', onerror); dest.on('error', onerror); // remove all the event listeners that were added. function cleanup() { source.removeListener('data', ondata); dest.removeListener('drain', ondrain); source.removeListener('end', onend); source.removeListener('close', onclose); source.removeListener('error', onerror); dest.removeListener('error', onerror); source.removeListener('end', cleanup); source.removeListener('close', cleanup); dest.removeListener('close', cleanup); } source.on('end', cleanup); source.on('close', cleanup); dest.on('close', cleanup); dest.emit('pipe', source); // Allow for unix-like usage: A.pipe(B).pipe(C) return dest; }; },{"events":27,"inherits":67,"readable-stream/lib/_stream_duplex.js":102,"readable-stream/lib/_stream_passthrough.js":103,"readable-stream/lib/_stream_readable.js":104,"readable-stream/lib/_stream_transform.js":105,"readable-stream/lib/_stream_writable.js":106,"readable-stream/lib/internal/streams/end-of-stream.js":110,"readable-stream/lib/internal/streams/pipeline.js":112}],101:[function(_dereq_,module,exports){ 'use strict'; function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; subClass.__proto__ = superClass; } var codes = {}; function createErrorType(code, message, Base) { if (!Base) { Base = Error; } function getMessage(arg1, arg2, arg3) { if (typeof message === 'string') { return message; } else { return message(arg1, arg2, arg3); } } var NodeError = /*#__PURE__*/ function (_Base) { _inheritsLoose(NodeError, _Base); function NodeError(arg1, arg2, arg3) { return _Base.call(this, getMessage(arg1, arg2, arg3)) || this; } return NodeError; }(Base); NodeError.prototype.name = Base.name; NodeError.prototype.code = code; codes[code] = NodeError; } // https://github.com/nodejs/node/blob/v10.8.0/lib/internal/errors.js function oneOf(expected, thing) { if (Array.isArray(expected)) { var len = expected.length; expected = expected.map(function (i) { return String(i); }); if (len > 2) { return "one of ".concat(thing, " ").concat(expected.slice(0, len - 1).join(', '), ", or ") + expected[len - 1]; } else if (len === 2) { return "one of ".concat(thing, " ").concat(expected[0], " or ").concat(expected[1]); } else { return "of ".concat(thing, " ").concat(expected[0]); } } else { return "of ".concat(thing, " ").concat(String(expected)); } } // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/startsWith function startsWith(str, search, pos) { return str.substr(!pos || pos < 0 ? 0 : +pos, search.length) === search; } // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/endsWith function endsWith(str, search, this_len) { if (this_len === undefined || this_len > str.length) { this_len = str.length; } return str.substring(this_len - search.length, this_len) === search; } // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/includes function includes(str, search, start) { if (typeof start !== 'number') { start = 0; } if (start + search.length > str.length) { return false; } else { return str.indexOf(search, start) !== -1; } } createErrorType('ERR_INVALID_OPT_VALUE', function (name, value) { return 'The value "' + value + '" is invalid for option "' + name + '"'; }, TypeError); createErrorType('ERR_INVALID_ARG_TYPE', function (name, expected, actual) { // determiner: 'must be' or 'must not be' var determiner; if (typeof expected === 'string' && startsWith(expected, 'not ')) { determiner = 'must not be'; expected = expected.replace(/^not /, ''); } else { determiner = 'must be'; } var msg; if (endsWith(name, ' argument')) { // For cases like 'first argument' msg = "The ".concat(name, " ").concat(determiner, " ").concat(oneOf(expected, 'type')); } else { var type = includes(name, '.') ? 'property' : 'argument'; msg = "The \"".concat(name, "\" ").concat(type, " ").concat(determiner, " ").concat(oneOf(expected, 'type')); } msg += ". Received type ".concat(typeof actual); return msg; }, TypeError); createErrorType('ERR_STREAM_PUSH_AFTER_EOF', 'stream.push() after EOF'); createErrorType('ERR_METHOD_NOT_IMPLEMENTED', function (name) { return 'The ' + name + ' method is not implemented'; }); createErrorType('ERR_STREAM_PREMATURE_CLOSE', 'Premature close'); createErrorType('ERR_STREAM_DESTROYED', function (name) { return 'Cannot call ' + name + ' after a stream was destroyed'; }); createErrorType('ERR_MULTIPLE_CALLBACK', 'Callback called multiple times'); createErrorType('ERR_STREAM_CANNOT_PIPE', 'Cannot pipe, not readable'); createErrorType('ERR_STREAM_WRITE_AFTER_END', 'write after end'); createErrorType('ERR_STREAM_NULL_VALUES', 'May not write null values to stream', TypeError); createErrorType('ERR_UNKNOWN_ENCODING', function (arg) { return 'Unknown encoding: ' + arg; }, TypeError); createErrorType('ERR_STREAM_UNSHIFT_AFTER_END_EVENT', 'stream.unshift() after end event'); module.exports.codes = codes; },{}],102:[function(_dereq_,module,exports){ (function (process){(function (){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // a duplex stream is just a stream that is both readable and writable. // Since JS doesn't have multiple prototypal inheritance, this class // prototypally inherits from Readable, and then parasitically from // Writable. 'use strict'; /**/ var objectKeys = Object.keys || function (obj) { var keys = []; for (var key in obj) { keys.push(key); } return keys; }; /**/ module.exports = Duplex; var Readable = _dereq_('./_stream_readable'); var Writable = _dereq_('./_stream_writable'); _dereq_('inherits')(Duplex, Readable); { // Allow the keys array to be GC'ed. var keys = objectKeys(Writable.prototype); for (var v = 0; v < keys.length; v++) { var method = keys[v]; if (!Duplex.prototype[method]) Duplex.prototype[method] = Writable.prototype[method]; } } function Duplex(options) { if (!(this instanceof Duplex)) return new Duplex(options); Readable.call(this, options); Writable.call(this, options); this.allowHalfOpen = true; if (options) { if (options.readable === false) this.readable = false; if (options.writable === false) this.writable = false; if (options.allowHalfOpen === false) { this.allowHalfOpen = false; this.once('end', onend); } } } Object.defineProperty(Duplex.prototype, 'writableHighWaterMark', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._writableState.highWaterMark; } }); Object.defineProperty(Duplex.prototype, 'writableBuffer', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._writableState && this._writableState.getBuffer(); } }); Object.defineProperty(Duplex.prototype, 'writableLength', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._writableState.length; } }); // the no-half-open enforcer function onend() { // If the writable side ended, then we're ok. if (this._writableState.ended) return; // no more data can be written. // But allow more writes to happen in this tick. process.nextTick(onEndNT, this); } function onEndNT(self) { self.end(); } Object.defineProperty(Duplex.prototype, 'destroyed', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { if (this._readableState === undefined || this._writableState === undefined) { return false; } return this._readableState.destroyed && this._writableState.destroyed; }, set: function set(value) { // we ignore the value if the stream // has not been initialized yet if (this._readableState === undefined || this._writableState === undefined) { return; } // backward compatibility, the user is explicitly // managing destroyed this._readableState.destroyed = value; this._writableState.destroyed = value; } }); }).call(this)}).call(this,_dereq_('_process')) },{"./_stream_readable":104,"./_stream_writable":106,"_process":98,"inherits":67}],103:[function(_dereq_,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // a passthrough stream. // basically just the most minimal sort of Transform stream. // Every written chunk gets output as-is. 'use strict'; module.exports = PassThrough; var Transform = _dereq_('./_stream_transform'); _dereq_('inherits')(PassThrough, Transform); function PassThrough(options) { if (!(this instanceof PassThrough)) return new PassThrough(options); Transform.call(this, options); } PassThrough.prototype._transform = function (chunk, encoding, cb) { cb(null, chunk); }; },{"./_stream_transform":105,"inherits":67}],104:[function(_dereq_,module,exports){ (function (process,global){(function (){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. 'use strict'; module.exports = Readable; /**/ var Duplex; /**/ Readable.ReadableState = ReadableState; /**/ var EE = _dereq_('events').EventEmitter; var EElistenerCount = function EElistenerCount(emitter, type) { return emitter.listeners(type).length; }; /**/ /**/ var Stream = _dereq_('./internal/streams/stream'); /**/ var Buffer = _dereq_('buffer').Buffer; var OurUint8Array = global.Uint8Array || function () {}; function _uint8ArrayToBuffer(chunk) { return Buffer.from(chunk); } function _isUint8Array(obj) { return Buffer.isBuffer(obj) || obj instanceof OurUint8Array; } /**/ var debugUtil = _dereq_('util'); var debug; if (debugUtil && debugUtil.debuglog) { debug = debugUtil.debuglog('stream'); } else { debug = function debug() {}; } /**/ var BufferList = _dereq_('./internal/streams/buffer_list'); var destroyImpl = _dereq_('./internal/streams/destroy'); var _require = _dereq_('./internal/streams/state'), getHighWaterMark = _require.getHighWaterMark; var _require$codes = _dereq_('../errors').codes, ERR_INVALID_ARG_TYPE = _require$codes.ERR_INVALID_ARG_TYPE, ERR_STREAM_PUSH_AFTER_EOF = _require$codes.ERR_STREAM_PUSH_AFTER_EOF, ERR_METHOD_NOT_IMPLEMENTED = _require$codes.ERR_METHOD_NOT_IMPLEMENTED, ERR_STREAM_UNSHIFT_AFTER_END_EVENT = _require$codes.ERR_STREAM_UNSHIFT_AFTER_END_EVENT; // Lazy loaded to improve the startup performance. var StringDecoder; var createReadableStreamAsyncIterator; var from; _dereq_('inherits')(Readable, Stream); var errorOrDestroy = destroyImpl.errorOrDestroy; var kProxyEvents = ['error', 'close', 'destroy', 'pause', 'resume']; function prependListener(emitter, event, fn) { // Sadly this is not cacheable as some libraries bundle their own // event emitter implementation with them. if (typeof emitter.prependListener === 'function') return emitter.prependListener(event, fn); // This is a hack to make sure that our error handler is attached before any // userland ones. NEVER DO THIS. This is here only because this code needs // to continue to work with older versions of Node.js that do not include // the prependListener() method. The goal is to eventually remove this hack. if (!emitter._events || !emitter._events[event]) emitter.on(event, fn);else if (Array.isArray(emitter._events[event])) emitter._events[event].unshift(fn);else emitter._events[event] = [fn, emitter._events[event]]; } function ReadableState(options, stream, isDuplex) { Duplex = Duplex || _dereq_('./_stream_duplex'); options = options || {}; // Duplex streams are both readable and writable, but share // the same options object. // However, some cases require setting options to different // values for the readable and the writable sides of the duplex stream. // These options can be provided separately as readableXXX and writableXXX. if (typeof isDuplex !== 'boolean') isDuplex = stream instanceof Duplex; // object stream flag. Used to make read(n) ignore n and to // make all the buffer merging and length checks go away this.objectMode = !!options.objectMode; if (isDuplex) this.objectMode = this.objectMode || !!options.readableObjectMode; // the point at which it stops calling _read() to fill the buffer // Note: 0 is a valid value, means "don't call _read preemptively ever" this.highWaterMark = getHighWaterMark(this, options, 'readableHighWaterMark', isDuplex); // A linked list is used to store data chunks instead of an array because the // linked list can remove elements from the beginning faster than // array.shift() this.buffer = new BufferList(); this.length = 0; this.pipes = null; this.pipesCount = 0; this.flowing = null; this.ended = false; this.endEmitted = false; this.reading = false; // a flag to be able to tell if the event 'readable'/'data' is emitted // immediately, or on a later tick. We set this to true at first, because // any actions that shouldn't happen until "later" should generally also // not happen before the first read call. this.sync = true; // whenever we return null, then we set a flag to say // that we're awaiting a 'readable' event emission. this.needReadable = false; this.emittedReadable = false; this.readableListening = false; this.resumeScheduled = false; this.paused = true; // Should close be emitted on destroy. Defaults to true. this.emitClose = options.emitClose !== false; // Should .destroy() be called after 'end' (and potentially 'finish') this.autoDestroy = !!options.autoDestroy; // has it been destroyed this.destroyed = false; // Crypto is kind of old and crusty. Historically, its default string // encoding is 'binary' so we have to make this configurable. // Everything else in the universe uses 'utf8', though. this.defaultEncoding = options.defaultEncoding || 'utf8'; // the number of writers that are awaiting a drain event in .pipe()s this.awaitDrain = 0; // if true, a maybeReadMore has been scheduled this.readingMore = false; this.decoder = null; this.encoding = null; if (options.encoding) { if (!StringDecoder) StringDecoder = _dereq_('string_decoder/').StringDecoder; this.decoder = new StringDecoder(options.encoding); this.encoding = options.encoding; } } function Readable(options) { Duplex = Duplex || _dereq_('./_stream_duplex'); if (!(this instanceof Readable)) return new Readable(options); // Checking for a Stream.Duplex instance is faster here instead of inside // the ReadableState constructor, at least with V8 6.5 var isDuplex = this instanceof Duplex; this._readableState = new ReadableState(options, this, isDuplex); // legacy this.readable = true; if (options) { if (typeof options.read === 'function') this._read = options.read; if (typeof options.destroy === 'function') this._destroy = options.destroy; } Stream.call(this); } Object.defineProperty(Readable.prototype, 'destroyed', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { if (this._readableState === undefined) { return false; } return this._readableState.destroyed; }, set: function set(value) { // we ignore the value if the stream // has not been initialized yet if (!this._readableState) { return; } // backward compatibility, the user is explicitly // managing destroyed this._readableState.destroyed = value; } }); Readable.prototype.destroy = destroyImpl.destroy; Readable.prototype._undestroy = destroyImpl.undestroy; Readable.prototype._destroy = function (err, cb) { cb(err); }; // Manually shove something into the read() buffer. // This returns true if the highWaterMark has not been hit yet, // similar to how Writable.write() returns true if you should // write() some more. Readable.prototype.push = function (chunk, encoding) { var state = this._readableState; var skipChunkCheck; if (!state.objectMode) { if (typeof chunk === 'string') { encoding = encoding || state.defaultEncoding; if (encoding !== state.encoding) { chunk = Buffer.from(chunk, encoding); encoding = ''; } skipChunkCheck = true; } } else { skipChunkCheck = true; } return readableAddChunk(this, chunk, encoding, false, skipChunkCheck); }; // Unshift should *always* be something directly out of read() Readable.prototype.unshift = function (chunk) { return readableAddChunk(this, chunk, null, true, false); }; function readableAddChunk(stream, chunk, encoding, addToFront, skipChunkCheck) { debug('readableAddChunk', chunk); var state = stream._readableState; if (chunk === null) { state.reading = false; onEofChunk(stream, state); } else { var er; if (!skipChunkCheck) er = chunkInvalid(state, chunk); if (er) { errorOrDestroy(stream, er); } else if (state.objectMode || chunk && chunk.length > 0) { if (typeof chunk !== 'string' && !state.objectMode && Object.getPrototypeOf(chunk) !== Buffer.prototype) { chunk = _uint8ArrayToBuffer(chunk); } if (addToFront) { if (state.endEmitted) errorOrDestroy(stream, new ERR_STREAM_UNSHIFT_AFTER_END_EVENT());else addChunk(stream, state, chunk, true); } else if (state.ended) { errorOrDestroy(stream, new ERR_STREAM_PUSH_AFTER_EOF()); } else if (state.destroyed) { return false; } else { state.reading = false; if (state.decoder && !encoding) { chunk = state.decoder.write(chunk); if (state.objectMode || chunk.length !== 0) addChunk(stream, state, chunk, false);else maybeReadMore(stream, state); } else { addChunk(stream, state, chunk, false); } } } else if (!addToFront) { state.reading = false; maybeReadMore(stream, state); } } // We can push more data if we are below the highWaterMark. // Also, if we have no data yet, we can stand some more bytes. // This is to work around cases where hwm=0, such as the repl. return !state.ended && (state.length < state.highWaterMark || state.length === 0); } function addChunk(stream, state, chunk, addToFront) { if (state.flowing && state.length === 0 && !state.sync) { state.awaitDrain = 0; stream.emit('data', chunk); } else { // update the buffer info. state.length += state.objectMode ? 1 : chunk.length; if (addToFront) state.buffer.unshift(chunk);else state.buffer.push(chunk); if (state.needReadable) emitReadable(stream); } maybeReadMore(stream, state); } function chunkInvalid(state, chunk) { var er; if (!_isUint8Array(chunk) && typeof chunk !== 'string' && chunk !== undefined && !state.objectMode) { er = new ERR_INVALID_ARG_TYPE('chunk', ['string', 'Buffer', 'Uint8Array'], chunk); } return er; } Readable.prototype.isPaused = function () { return this._readableState.flowing === false; }; // backwards compatibility. Readable.prototype.setEncoding = function (enc) { if (!StringDecoder) StringDecoder = _dereq_('string_decoder/').StringDecoder; var decoder = new StringDecoder(enc); this._readableState.decoder = decoder; // If setEncoding(null), decoder.encoding equals utf8 this._readableState.encoding = this._readableState.decoder.encoding; // Iterate over current buffer to convert already stored Buffers: var p = this._readableState.buffer.head; var content = ''; while (p !== null) { content += decoder.write(p.data); p = p.next; } this._readableState.buffer.clear(); if (content !== '') this._readableState.buffer.push(content); this._readableState.length = content.length; return this; }; // Don't raise the hwm > 1GB var MAX_HWM = 0x40000000; function computeNewHighWaterMark(n) { if (n >= MAX_HWM) { // TODO(ronag): Throw ERR_VALUE_OUT_OF_RANGE. n = MAX_HWM; } else { // Get the next highest power of 2 to prevent increasing hwm excessively in // tiny amounts n--; n |= n >>> 1; n |= n >>> 2; n |= n >>> 4; n |= n >>> 8; n |= n >>> 16; n++; } return n; } // This function is designed to be inlinable, so please take care when making // changes to the function body. function howMuchToRead(n, state) { if (n <= 0 || state.length === 0 && state.ended) return 0; if (state.objectMode) return 1; if (n !== n) { // Only flow one buffer at a time if (state.flowing && state.length) return state.buffer.head.data.length;else return state.length; } // If we're asking for more than the current hwm, then raise the hwm. if (n > state.highWaterMark) state.highWaterMark = computeNewHighWaterMark(n); if (n <= state.length) return n; // Don't have enough if (!state.ended) { state.needReadable = true; return 0; } return state.length; } // you can override either this method, or the async _read(n) below. Readable.prototype.read = function (n) { debug('read', n); n = parseInt(n, 10); var state = this._readableState; var nOrig = n; if (n !== 0) state.emittedReadable = false; // if we're doing read(0) to trigger a readable event, but we // already have a bunch of data in the buffer, then just trigger // the 'readable' event and move on. if (n === 0 && state.needReadable && ((state.highWaterMark !== 0 ? state.length >= state.highWaterMark : state.length > 0) || state.ended)) { debug('read: emitReadable', state.length, state.ended); if (state.length === 0 && state.ended) endReadable(this);else emitReadable(this); return null; } n = howMuchToRead(n, state); // if we've ended, and we're now clear, then finish it up. if (n === 0 && state.ended) { if (state.length === 0) endReadable(this); return null; } // All the actual chunk generation logic needs to be // *below* the call to _read. The reason is that in certain // synthetic stream cases, such as passthrough streams, _read // may be a completely synchronous operation which may change // the state of the read buffer, providing enough data when // before there was *not* enough. // // So, the steps are: // 1. Figure out what the state of things will be after we do // a read from the buffer. // // 2. If that resulting state will trigger a _read, then call _read. // Note that this may be asynchronous, or synchronous. Yes, it is // deeply ugly to write APIs this way, but that still doesn't mean // that the Readable class should behave improperly, as streams are // designed to be sync/async agnostic. // Take note if the _read call is sync or async (ie, if the read call // has returned yet), so that we know whether or not it's safe to emit // 'readable' etc. // // 3. Actually pull the requested chunks out of the buffer and return. // if we need a readable event, then we need to do some reading. var doRead = state.needReadable; debug('need readable', doRead); // if we currently have less than the highWaterMark, then also read some if (state.length === 0 || state.length - n < state.highWaterMark) { doRead = true; debug('length less than watermark', doRead); } // however, if we've ended, then there's no point, and if we're already // reading, then it's unnecessary. if (state.ended || state.reading) { doRead = false; debug('reading or ended', doRead); } else if (doRead) { debug('do read'); state.reading = true; state.sync = true; // if the length is currently zero, then we *need* a readable event. if (state.length === 0) state.needReadable = true; // call internal read method this._read(state.highWaterMark); state.sync = false; // If _read pushed data synchronously, then `reading` will be false, // and we need to re-evaluate how much data we can return to the user. if (!state.reading) n = howMuchToRead(nOrig, state); } var ret; if (n > 0) ret = fromList(n, state);else ret = null; if (ret === null) { state.needReadable = state.length <= state.highWaterMark; n = 0; } else { state.length -= n; state.awaitDrain = 0; } if (state.length === 0) { // If we have nothing in the buffer, then we want to know // as soon as we *do* get something into the buffer. if (!state.ended) state.needReadable = true; // If we tried to read() past the EOF, then emit end on the next tick. if (nOrig !== n && state.ended) endReadable(this); } if (ret !== null) this.emit('data', ret); return ret; }; function onEofChunk(stream, state) { debug('onEofChunk'); if (state.ended) return; if (state.decoder) { var chunk = state.decoder.end(); if (chunk && chunk.length) { state.buffer.push(chunk); state.length += state.objectMode ? 1 : chunk.length; } } state.ended = true; if (state.sync) { // if we are sync, wait until next tick to emit the data. // Otherwise we risk emitting data in the flow() // the readable code triggers during a read() call emitReadable(stream); } else { // emit 'readable' now to make sure it gets picked up. state.needReadable = false; if (!state.emittedReadable) { state.emittedReadable = true; emitReadable_(stream); } } } // Don't emit readable right away in sync mode, because this can trigger // another read() call => stack overflow. This way, it might trigger // a nextTick recursion warning, but that's not so bad. function emitReadable(stream) { var state = stream._readableState; debug('emitReadable', state.needReadable, state.emittedReadable); state.needReadable = false; if (!state.emittedReadable) { debug('emitReadable', state.flowing); state.emittedReadable = true; process.nextTick(emitReadable_, stream); } } function emitReadable_(stream) { var state = stream._readableState; debug('emitReadable_', state.destroyed, state.length, state.ended); if (!state.destroyed && (state.length || state.ended)) { stream.emit('readable'); state.emittedReadable = false; } // The stream needs another readable event if // 1. It is not flowing, as the flow mechanism will take // care of it. // 2. It is not ended. // 3. It is below the highWaterMark, so we can schedule // another readable later. state.needReadable = !state.flowing && !state.ended && state.length <= state.highWaterMark; flow(stream); } // at this point, the user has presumably seen the 'readable' event, // and called read() to consume some data. that may have triggered // in turn another _read(n) call, in which case reading = true if // it's in progress. // However, if we're not ended, or reading, and the length < hwm, // then go ahead and try to read some more preemptively. function maybeReadMore(stream, state) { if (!state.readingMore) { state.readingMore = true; process.nextTick(maybeReadMore_, stream, state); } } function maybeReadMore_(stream, state) { // Attempt to read more data if we should. // // The conditions for reading more data are (one of): // - Not enough data buffered (state.length < state.highWaterMark). The loop // is responsible for filling the buffer with enough data if such data // is available. If highWaterMark is 0 and we are not in the flowing mode // we should _not_ attempt to buffer any extra data. We'll get more data // when the stream consumer calls read() instead. // - No data in the buffer, and the stream is in flowing mode. In this mode // the loop below is responsible for ensuring read() is called. Failing to // call read here would abort the flow and there's no other mechanism for // continuing the flow if the stream consumer has just subscribed to the // 'data' event. // // In addition to the above conditions to keep reading data, the following // conditions prevent the data from being read: // - The stream has ended (state.ended). // - There is already a pending 'read' operation (state.reading). This is a // case where the the stream has called the implementation defined _read() // method, but they are processing the call asynchronously and have _not_ // called push() with new data. In this case we skip performing more // read()s. The execution ends in this method again after the _read() ends // up calling push() with more data. while (!state.reading && !state.ended && (state.length < state.highWaterMark || state.flowing && state.length === 0)) { var len = state.length; debug('maybeReadMore read 0'); stream.read(0); if (len === state.length) // didn't get any data, stop spinning. break; } state.readingMore = false; } // abstract method. to be overridden in specific implementation classes. // call cb(er, data) where data is <= n in length. // for virtual (non-string, non-buffer) streams, "length" is somewhat // arbitrary, and perhaps not very meaningful. Readable.prototype._read = function (n) { errorOrDestroy(this, new ERR_METHOD_NOT_IMPLEMENTED('_read()')); }; Readable.prototype.pipe = function (dest, pipeOpts) { var src = this; var state = this._readableState; switch (state.pipesCount) { case 0: state.pipes = dest; break; case 1: state.pipes = [state.pipes, dest]; break; default: state.pipes.push(dest); break; } state.pipesCount += 1; debug('pipe count=%d opts=%j', state.pipesCount, pipeOpts); var doEnd = (!pipeOpts || pipeOpts.end !== false) && dest !== process.stdout && dest !== process.stderr; var endFn = doEnd ? onend : unpipe; if (state.endEmitted) process.nextTick(endFn);else src.once('end', endFn); dest.on('unpipe', onunpipe); function onunpipe(readable, unpipeInfo) { debug('onunpipe'); if (readable === src) { if (unpipeInfo && unpipeInfo.hasUnpiped === false) { unpipeInfo.hasUnpiped = true; cleanup(); } } } function onend() { debug('onend'); dest.end(); } // when the dest drains, it reduces the awaitDrain counter // on the source. This would be more elegant with a .once() // handler in flow(), but adding and removing repeatedly is // too slow. var ondrain = pipeOnDrain(src); dest.on('drain', ondrain); var cleanedUp = false; function cleanup() { debug('cleanup'); // cleanup event handlers once the pipe is broken dest.removeListener('close', onclose); dest.removeListener('finish', onfinish); dest.removeListener('drain', ondrain); dest.removeListener('error', onerror); dest.removeListener('unpipe', onunpipe); src.removeListener('end', onend); src.removeListener('end', unpipe); src.removeListener('data', ondata); cleanedUp = true; // if the reader is waiting for a drain event from this // specific writer, then it would cause it to never start // flowing again. // So, if this is awaiting a drain, then we just call it now. // If we don't know, then assume that we are waiting for one. if (state.awaitDrain && (!dest._writableState || dest._writableState.needDrain)) ondrain(); } src.on('data', ondata); function ondata(chunk) { debug('ondata'); var ret = dest.write(chunk); debug('dest.write', ret); if (ret === false) { // If the user unpiped during `dest.write()`, it is possible // to get stuck in a permanently paused state if that write // also returned false. // => Check whether `dest` is still a piping destination. if ((state.pipesCount === 1 && state.pipes === dest || state.pipesCount > 1 && indexOf(state.pipes, dest) !== -1) && !cleanedUp) { debug('false write response, pause', state.awaitDrain); state.awaitDrain++; } src.pause(); } } // if the dest has an error, then stop piping into it. // however, don't suppress the throwing behavior for this. function onerror(er) { debug('onerror', er); unpipe(); dest.removeListener('error', onerror); if (EElistenerCount(dest, 'error') === 0) errorOrDestroy(dest, er); } // Make sure our error handler is attached before userland ones. prependListener(dest, 'error', onerror); // Both close and finish should trigger unpipe, but only once. function onclose() { dest.removeListener('finish', onfinish); unpipe(); } dest.once('close', onclose); function onfinish() { debug('onfinish'); dest.removeListener('close', onclose); unpipe(); } dest.once('finish', onfinish); function unpipe() { debug('unpipe'); src.unpipe(dest); } // tell the dest that it's being piped to dest.emit('pipe', src); // start the flow if it hasn't been started already. if (!state.flowing) { debug('pipe resume'); src.resume(); } return dest; }; function pipeOnDrain(src) { return function pipeOnDrainFunctionResult() { var state = src._readableState; debug('pipeOnDrain', state.awaitDrain); if (state.awaitDrain) state.awaitDrain--; if (state.awaitDrain === 0 && EElistenerCount(src, 'data')) { state.flowing = true; flow(src); } }; } Readable.prototype.unpipe = function (dest) { var state = this._readableState; var unpipeInfo = { hasUnpiped: false }; // if we're not piping anywhere, then do nothing. if (state.pipesCount === 0) return this; // just one destination. most common case. if (state.pipesCount === 1) { // passed in one, but it's not the right one. if (dest && dest !== state.pipes) return this; if (!dest) dest = state.pipes; // got a match. state.pipes = null; state.pipesCount = 0; state.flowing = false; if (dest) dest.emit('unpipe', this, unpipeInfo); return this; } // slow case. multiple pipe destinations. if (!dest) { // remove all. var dests = state.pipes; var len = state.pipesCount; state.pipes = null; state.pipesCount = 0; state.flowing = false; for (var i = 0; i < len; i++) { dests[i].emit('unpipe', this, { hasUnpiped: false }); } return this; } // try to find the right one. var index = indexOf(state.pipes, dest); if (index === -1) return this; state.pipes.splice(index, 1); state.pipesCount -= 1; if (state.pipesCount === 1) state.pipes = state.pipes[0]; dest.emit('unpipe', this, unpipeInfo); return this; }; // set up data events if they are asked for // Ensure readable listeners eventually get something Readable.prototype.on = function (ev, fn) { var res = Stream.prototype.on.call(this, ev, fn); var state = this._readableState; if (ev === 'data') { // update readableListening so that resume() may be a no-op // a few lines down. This is needed to support once('readable'). state.readableListening = this.listenerCount('readable') > 0; // Try start flowing on next tick if stream isn't explicitly paused if (state.flowing !== false) this.resume(); } else if (ev === 'readable') { if (!state.endEmitted && !state.readableListening) { state.readableListening = state.needReadable = true; state.flowing = false; state.emittedReadable = false; debug('on readable', state.length, state.reading); if (state.length) { emitReadable(this); } else if (!state.reading) { process.nextTick(nReadingNextTick, this); } } } return res; }; Readable.prototype.addListener = Readable.prototype.on; Readable.prototype.removeListener = function (ev, fn) { var res = Stream.prototype.removeListener.call(this, ev, fn); if (ev === 'readable') { // We need to check if there is someone still listening to // readable and reset the state. However this needs to happen // after readable has been emitted but before I/O (nextTick) to // support once('readable', fn) cycles. This means that calling // resume within the same tick will have no // effect. process.nextTick(updateReadableListening, this); } return res; }; Readable.prototype.removeAllListeners = function (ev) { var res = Stream.prototype.removeAllListeners.apply(this, arguments); if (ev === 'readable' || ev === undefined) { // We need to check if there is someone still listening to // readable and reset the state. However this needs to happen // after readable has been emitted but before I/O (nextTick) to // support once('readable', fn) cycles. This means that calling // resume within the same tick will have no // effect. process.nextTick(updateReadableListening, this); } return res; }; function updateReadableListening(self) { var state = self._readableState; state.readableListening = self.listenerCount('readable') > 0; if (state.resumeScheduled && !state.paused) { // flowing needs to be set to true now, otherwise // the upcoming resume will not flow. state.flowing = true; // crude way to check if we should resume } else if (self.listenerCount('data') > 0) { self.resume(); } } function nReadingNextTick(self) { debug('readable nexttick read 0'); self.read(0); } // pause() and resume() are remnants of the legacy readable stream API // If the user uses them, then switch into old mode. Readable.prototype.resume = function () { var state = this._readableState; if (!state.flowing) { debug('resume'); // we flow only if there is no one listening // for readable, but we still have to call // resume() state.flowing = !state.readableListening; resume(this, state); } state.paused = false; return this; }; function resume(stream, state) { if (!state.resumeScheduled) { state.resumeScheduled = true; process.nextTick(resume_, stream, state); } } function resume_(stream, state) { debug('resume', state.reading); if (!state.reading) { stream.read(0); } state.resumeScheduled = false; stream.emit('resume'); flow(stream); if (state.flowing && !state.reading) stream.read(0); } Readable.prototype.pause = function () { debug('call pause flowing=%j', this._readableState.flowing); if (this._readableState.flowing !== false) { debug('pause'); this._readableState.flowing = false; this.emit('pause'); } this._readableState.paused = true; return this; }; function flow(stream) { var state = stream._readableState; debug('flow', state.flowing); while (state.flowing && stream.read() !== null) { ; } } // wrap an old-style stream as the async data source. // This is *not* part of the readable stream interface. // It is an ugly unfortunate mess of history. Readable.prototype.wrap = function (stream) { var _this = this; var state = this._readableState; var paused = false; stream.on('end', function () { debug('wrapped end'); if (state.decoder && !state.ended) { var chunk = state.decoder.end(); if (chunk && chunk.length) _this.push(chunk); } _this.push(null); }); stream.on('data', function (chunk) { debug('wrapped data'); if (state.decoder) chunk = state.decoder.write(chunk); // don't skip over falsy values in objectMode if (state.objectMode && (chunk === null || chunk === undefined)) return;else if (!state.objectMode && (!chunk || !chunk.length)) return; var ret = _this.push(chunk); if (!ret) { paused = true; stream.pause(); } }); // proxy all the other methods. // important when wrapping filters and duplexes. for (var i in stream) { if (this[i] === undefined && typeof stream[i] === 'function') { this[i] = function methodWrap(method) { return function methodWrapReturnFunction() { return stream[method].apply(stream, arguments); }; }(i); } } // proxy certain important events. for (var n = 0; n < kProxyEvents.length; n++) { stream.on(kProxyEvents[n], this.emit.bind(this, kProxyEvents[n])); } // when we try to consume some more bytes, simply unpause the // underlying stream. this._read = function (n) { debug('wrapped _read', n); if (paused) { paused = false; stream.resume(); } }; return this; }; if (typeof Symbol === 'function') { Readable.prototype[Symbol.asyncIterator] = function () { if (createReadableStreamAsyncIterator === undefined) { createReadableStreamAsyncIterator = _dereq_('./internal/streams/async_iterator'); } return createReadableStreamAsyncIterator(this); }; } Object.defineProperty(Readable.prototype, 'readableHighWaterMark', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._readableState.highWaterMark; } }); Object.defineProperty(Readable.prototype, 'readableBuffer', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._readableState && this._readableState.buffer; } }); Object.defineProperty(Readable.prototype, 'readableFlowing', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._readableState.flowing; }, set: function set(state) { if (this._readableState) { this._readableState.flowing = state; } } }); // exposed for testing purposes only. Readable._fromList = fromList; Object.defineProperty(Readable.prototype, 'readableLength', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._readableState.length; } }); // Pluck off n bytes from an array of buffers. // Length is the combined lengths of all the buffers in the list. // This function is designed to be inlinable, so please take care when making // changes to the function body. function fromList(n, state) { // nothing buffered if (state.length === 0) return null; var ret; if (state.objectMode) ret = state.buffer.shift();else if (!n || n >= state.length) { // read it all, truncate the list if (state.decoder) ret = state.buffer.join('');else if (state.buffer.length === 1) ret = state.buffer.first();else ret = state.buffer.concat(state.length); state.buffer.clear(); } else { // read part of list ret = state.buffer.consume(n, state.decoder); } return ret; } function endReadable(stream) { var state = stream._readableState; debug('endReadable', state.endEmitted); if (!state.endEmitted) { state.ended = true; process.nextTick(endReadableNT, state, stream); } } function endReadableNT(state, stream) { debug('endReadableNT', state.endEmitted, state.length); // Check that we didn't get one last unshift. if (!state.endEmitted && state.length === 0) { state.endEmitted = true; stream.readable = false; stream.emit('end'); if (state.autoDestroy) { // In case of duplex streams we need a way to detect // if the writable side is ready for autoDestroy as well var wState = stream._writableState; if (!wState || wState.autoDestroy && wState.finished) { stream.destroy(); } } } } if (typeof Symbol === 'function') { Readable.from = function (iterable, opts) { if (from === undefined) { from = _dereq_('./internal/streams/from'); } return from(Readable, iterable, opts); }; } function indexOf(xs, x) { for (var i = 0, l = xs.length; i < l; i++) { if (xs[i] === x) return i; } return -1; } }).call(this)}).call(this,_dereq_('_process'),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {}) },{"../errors":101,"./_stream_duplex":102,"./internal/streams/async_iterator":107,"./internal/streams/buffer_list":108,"./internal/streams/destroy":109,"./internal/streams/from":111,"./internal/streams/state":113,"./internal/streams/stream":114,"_process":98,"buffer":28,"events":27,"inherits":67,"string_decoder/":115,"util":26}],105:[function(_dereq_,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // a transform stream is a readable/writable stream where you do // something with the data. Sometimes it's called a "filter", // but that's not a great name for it, since that implies a thing where // some bits pass through, and others are simply ignored. (That would // be a valid example of a transform, of course.) // // While the output is causally related to the input, it's not a // necessarily symmetric or synchronous transformation. For example, // a zlib stream might take multiple plain-text writes(), and then // emit a single compressed chunk some time in the future. // // Here's how this works: // // The Transform stream has all the aspects of the readable and writable // stream classes. When you write(chunk), that calls _write(chunk,cb) // internally, and returns false if there's a lot of pending writes // buffered up. When you call read(), that calls _read(n) until // there's enough pending readable data buffered up. // // In a transform stream, the written data is placed in a buffer. When // _read(n) is called, it transforms the queued up data, calling the // buffered _write cb's as it consumes chunks. If consuming a single // written chunk would result in multiple output chunks, then the first // outputted bit calls the readcb, and subsequent chunks just go into // the read buffer, and will cause it to emit 'readable' if necessary. // // This way, back-pressure is actually determined by the reading side, // since _read has to be called to start processing a new chunk. However, // a pathological inflate type of transform can cause excessive buffering // here. For example, imagine a stream where every byte of input is // interpreted as an integer from 0-255, and then results in that many // bytes of output. Writing the 4 bytes {ff,ff,ff,ff} would result in // 1kb of data being output. In this case, you could write a very small // amount of input, and end up with a very large amount of output. In // such a pathological inflating mechanism, there'd be no way to tell // the system to stop doing the transform. A single 4MB write could // cause the system to run out of memory. // // However, even in such a pathological case, only a single written chunk // would be consumed, and then the rest would wait (un-transformed) until // the results of the previous transformed chunk were consumed. 'use strict'; module.exports = Transform; var _require$codes = _dereq_('../errors').codes, ERR_METHOD_NOT_IMPLEMENTED = _require$codes.ERR_METHOD_NOT_IMPLEMENTED, ERR_MULTIPLE_CALLBACK = _require$codes.ERR_MULTIPLE_CALLBACK, ERR_TRANSFORM_ALREADY_TRANSFORMING = _require$codes.ERR_TRANSFORM_ALREADY_TRANSFORMING, ERR_TRANSFORM_WITH_LENGTH_0 = _require$codes.ERR_TRANSFORM_WITH_LENGTH_0; var Duplex = _dereq_('./_stream_duplex'); _dereq_('inherits')(Transform, Duplex); function afterTransform(er, data) { var ts = this._transformState; ts.transforming = false; var cb = ts.writecb; if (cb === null) { return this.emit('error', new ERR_MULTIPLE_CALLBACK()); } ts.writechunk = null; ts.writecb = null; if (data != null) // single equals check for both `null` and `undefined` this.push(data); cb(er); var rs = this._readableState; rs.reading = false; if (rs.needReadable || rs.length < rs.highWaterMark) { this._read(rs.highWaterMark); } } function Transform(options) { if (!(this instanceof Transform)) return new Transform(options); Duplex.call(this, options); this._transformState = { afterTransform: afterTransform.bind(this), needTransform: false, transforming: false, writecb: null, writechunk: null, writeencoding: null }; // start out asking for a readable event once data is transformed. this._readableState.needReadable = true; // we have implemented the _read method, and done the other things // that Readable wants before the first _read call, so unset the // sync guard flag. this._readableState.sync = false; if (options) { if (typeof options.transform === 'function') this._transform = options.transform; if (typeof options.flush === 'function') this._flush = options.flush; } // When the writable side finishes, then flush out anything remaining. this.on('prefinish', prefinish); } function prefinish() { var _this = this; if (typeof this._flush === 'function' && !this._readableState.destroyed) { this._flush(function (er, data) { done(_this, er, data); }); } else { done(this, null, null); } } Transform.prototype.push = function (chunk, encoding) { this._transformState.needTransform = false; return Duplex.prototype.push.call(this, chunk, encoding); }; // This is the part where you do stuff! // override this function in implementation classes. // 'chunk' is an input chunk. // // Call `push(newChunk)` to pass along transformed output // to the readable side. You may call 'push' zero or more times. // // Call `cb(err)` when you are done with this chunk. If you pass // an error, then that'll put the hurt on the whole operation. If you // never call cb(), then you'll never get another chunk. Transform.prototype._transform = function (chunk, encoding, cb) { cb(new ERR_METHOD_NOT_IMPLEMENTED('_transform()')); }; Transform.prototype._write = function (chunk, encoding, cb) { var ts = this._transformState; ts.writecb = cb; ts.writechunk = chunk; ts.writeencoding = encoding; if (!ts.transforming) { var rs = this._readableState; if (ts.needTransform || rs.needReadable || rs.length < rs.highWaterMark) this._read(rs.highWaterMark); } }; // Doesn't matter what the args are here. // _transform does all the work. // That we got here means that the readable side wants more data. Transform.prototype._read = function (n) { var ts = this._transformState; if (ts.writechunk !== null && !ts.transforming) { ts.transforming = true; this._transform(ts.writechunk, ts.writeencoding, ts.afterTransform); } else { // mark that we need a transform, so that any data that comes in // will get processed, now that we've asked for it. ts.needTransform = true; } }; Transform.prototype._destroy = function (err, cb) { Duplex.prototype._destroy.call(this, err, function (err2) { cb(err2); }); }; function done(stream, er, data) { if (er) return stream.emit('error', er); if (data != null) // single equals check for both `null` and `undefined` stream.push(data); // TODO(BridgeAR): Write a test for these two error cases // if there's nothing in the write buffer, then that means // that nothing more will ever be provided if (stream._writableState.length) throw new ERR_TRANSFORM_WITH_LENGTH_0(); if (stream._transformState.transforming) throw new ERR_TRANSFORM_ALREADY_TRANSFORMING(); return stream.push(null); } },{"../errors":101,"./_stream_duplex":102,"inherits":67}],106:[function(_dereq_,module,exports){ (function (process,global){(function (){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // A bit simpler than readable streams. // Implement an async ._write(chunk, encoding, cb), and it'll handle all // the drain event emission and buffering. 'use strict'; module.exports = Writable; /* */ function WriteReq(chunk, encoding, cb) { this.chunk = chunk; this.encoding = encoding; this.callback = cb; this.next = null; } // It seems a linked list but it is not // there will be only 2 of these for each stream function CorkedRequest(state) { var _this = this; this.next = null; this.entry = null; this.finish = function () { onCorkedFinish(_this, state); }; } /* */ /**/ var Duplex; /**/ Writable.WritableState = WritableState; /**/ var internalUtil = { deprecate: _dereq_('util-deprecate') }; /**/ /**/ var Stream = _dereq_('./internal/streams/stream'); /**/ var Buffer = _dereq_('buffer').Buffer; var OurUint8Array = global.Uint8Array || function () {}; function _uint8ArrayToBuffer(chunk) { return Buffer.from(chunk); } function _isUint8Array(obj) { return Buffer.isBuffer(obj) || obj instanceof OurUint8Array; } var destroyImpl = _dereq_('./internal/streams/destroy'); var _require = _dereq_('./internal/streams/state'), getHighWaterMark = _require.getHighWaterMark; var _require$codes = _dereq_('../errors').codes, ERR_INVALID_ARG_TYPE = _require$codes.ERR_INVALID_ARG_TYPE, ERR_METHOD_NOT_IMPLEMENTED = _require$codes.ERR_METHOD_NOT_IMPLEMENTED, ERR_MULTIPLE_CALLBACK = _require$codes.ERR_MULTIPLE_CALLBACK, ERR_STREAM_CANNOT_PIPE = _require$codes.ERR_STREAM_CANNOT_PIPE, ERR_STREAM_DESTROYED = _require$codes.ERR_STREAM_DESTROYED, ERR_STREAM_NULL_VALUES = _require$codes.ERR_STREAM_NULL_VALUES, ERR_STREAM_WRITE_AFTER_END = _require$codes.ERR_STREAM_WRITE_AFTER_END, ERR_UNKNOWN_ENCODING = _require$codes.ERR_UNKNOWN_ENCODING; var errorOrDestroy = destroyImpl.errorOrDestroy; _dereq_('inherits')(Writable, Stream); function nop() {} function WritableState(options, stream, isDuplex) { Duplex = Duplex || _dereq_('./_stream_duplex'); options = options || {}; // Duplex streams are both readable and writable, but share // the same options object. // However, some cases require setting options to different // values for the readable and the writable sides of the duplex stream, // e.g. options.readableObjectMode vs. options.writableObjectMode, etc. if (typeof isDuplex !== 'boolean') isDuplex = stream instanceof Duplex; // object stream flag to indicate whether or not this stream // contains buffers or objects. this.objectMode = !!options.objectMode; if (isDuplex) this.objectMode = this.objectMode || !!options.writableObjectMode; // the point at which write() starts returning false // Note: 0 is a valid value, means that we always return false if // the entire buffer is not flushed immediately on write() this.highWaterMark = getHighWaterMark(this, options, 'writableHighWaterMark', isDuplex); // if _final has been called this.finalCalled = false; // drain event flag. this.needDrain = false; // at the start of calling end() this.ending = false; // when end() has been called, and returned this.ended = false; // when 'finish' is emitted this.finished = false; // has it been destroyed this.destroyed = false; // should we decode strings into buffers before passing to _write? // this is here so that some node-core streams can optimize string // handling at a lower level. var noDecode = options.decodeStrings === false; this.decodeStrings = !noDecode; // Crypto is kind of old and crusty. Historically, its default string // encoding is 'binary' so we have to make this configurable. // Everything else in the universe uses 'utf8', though. this.defaultEncoding = options.defaultEncoding || 'utf8'; // not an actual buffer we keep track of, but a measurement // of how much we're waiting to get pushed to some underlying // socket or file. this.length = 0; // a flag to see when we're in the middle of a write. this.writing = false; // when true all writes will be buffered until .uncork() call this.corked = 0; // a flag to be able to tell if the onwrite cb is called immediately, // or on a later tick. We set this to true at first, because any // actions that shouldn't happen until "later" should generally also // not happen before the first write call. this.sync = true; // a flag to know if we're processing previously buffered items, which // may call the _write() callback in the same tick, so that we don't // end up in an overlapped onwrite situation. this.bufferProcessing = false; // the callback that's passed to _write(chunk,cb) this.onwrite = function (er) { onwrite(stream, er); }; // the callback that the user supplies to write(chunk,encoding,cb) this.writecb = null; // the amount that is being written when _write is called. this.writelen = 0; this.bufferedRequest = null; this.lastBufferedRequest = null; // number of pending user-supplied write callbacks // this must be 0 before 'finish' can be emitted this.pendingcb = 0; // emit prefinish if the only thing we're waiting for is _write cbs // This is relevant for synchronous Transform streams this.prefinished = false; // True if the error was already emitted and should not be thrown again this.errorEmitted = false; // Should close be emitted on destroy. Defaults to true. this.emitClose = options.emitClose !== false; // Should .destroy() be called after 'finish' (and potentially 'end') this.autoDestroy = !!options.autoDestroy; // count buffered requests this.bufferedRequestCount = 0; // allocate the first CorkedRequest, there is always // one allocated and free to use, and we maintain at most two this.corkedRequestsFree = new CorkedRequest(this); } WritableState.prototype.getBuffer = function getBuffer() { var current = this.bufferedRequest; var out = []; while (current) { out.push(current); current = current.next; } return out; }; (function () { try { Object.defineProperty(WritableState.prototype, 'buffer', { get: internalUtil.deprecate(function writableStateBufferGetter() { return this.getBuffer(); }, '_writableState.buffer is deprecated. Use _writableState.getBuffer ' + 'instead.', 'DEP0003') }); } catch (_) {} })(); // Test _writableState for inheritance to account for Duplex streams, // whose prototype chain only points to Readable. var realHasInstance; if (typeof Symbol === 'function' && Symbol.hasInstance && typeof Function.prototype[Symbol.hasInstance] === 'function') { realHasInstance = Function.prototype[Symbol.hasInstance]; Object.defineProperty(Writable, Symbol.hasInstance, { value: function value(object) { if (realHasInstance.call(this, object)) return true; if (this !== Writable) return false; return object && object._writableState instanceof WritableState; } }); } else { realHasInstance = function realHasInstance(object) { return object instanceof this; }; } function Writable(options) { Duplex = Duplex || _dereq_('./_stream_duplex'); // Writable ctor is applied to Duplexes, too. // `realHasInstance` is necessary because using plain `instanceof` // would return false, as no `_writableState` property is attached. // Trying to use the custom `instanceof` for Writable here will also break the // Node.js LazyTransform implementation, which has a non-trivial getter for // `_writableState` that would lead to infinite recursion. // Checking for a Stream.Duplex instance is faster here instead of inside // the WritableState constructor, at least with V8 6.5 var isDuplex = this instanceof Duplex; if (!isDuplex && !realHasInstance.call(Writable, this)) return new Writable(options); this._writableState = new WritableState(options, this, isDuplex); // legacy. this.writable = true; if (options) { if (typeof options.write === 'function') this._write = options.write; if (typeof options.writev === 'function') this._writev = options.writev; if (typeof options.destroy === 'function') this._destroy = options.destroy; if (typeof options.final === 'function') this._final = options.final; } Stream.call(this); } // Otherwise people can pipe Writable streams, which is just wrong. Writable.prototype.pipe = function () { errorOrDestroy(this, new ERR_STREAM_CANNOT_PIPE()); }; function writeAfterEnd(stream, cb) { var er = new ERR_STREAM_WRITE_AFTER_END(); // TODO: defer error events consistently everywhere, not just the cb errorOrDestroy(stream, er); process.nextTick(cb, er); } // Checks that a user-supplied chunk is valid, especially for the particular // mode the stream is in. Currently this means that `null` is never accepted // and undefined/non-string values are only allowed in object mode. function validChunk(stream, state, chunk, cb) { var er; if (chunk === null) { er = new ERR_STREAM_NULL_VALUES(); } else if (typeof chunk !== 'string' && !state.objectMode) { er = new ERR_INVALID_ARG_TYPE('chunk', ['string', 'Buffer'], chunk); } if (er) { errorOrDestroy(stream, er); process.nextTick(cb, er); return false; } return true; } Writable.prototype.write = function (chunk, encoding, cb) { var state = this._writableState; var ret = false; var isBuf = !state.objectMode && _isUint8Array(chunk); if (isBuf && !Buffer.isBuffer(chunk)) { chunk = _uint8ArrayToBuffer(chunk); } if (typeof encoding === 'function') { cb = encoding; encoding = null; } if (isBuf) encoding = 'buffer';else if (!encoding) encoding = state.defaultEncoding; if (typeof cb !== 'function') cb = nop; if (state.ending) writeAfterEnd(this, cb);else if (isBuf || validChunk(this, state, chunk, cb)) { state.pendingcb++; ret = writeOrBuffer(this, state, isBuf, chunk, encoding, cb); } return ret; }; Writable.prototype.cork = function () { this._writableState.corked++; }; Writable.prototype.uncork = function () { var state = this._writableState; if (state.corked) { state.corked--; if (!state.writing && !state.corked && !state.bufferProcessing && state.bufferedRequest) clearBuffer(this, state); } }; Writable.prototype.setDefaultEncoding = function setDefaultEncoding(encoding) { // node::ParseEncoding() requires lower case. if (typeof encoding === 'string') encoding = encoding.toLowerCase(); if (!(['hex', 'utf8', 'utf-8', 'ascii', 'binary', 'base64', 'ucs2', 'ucs-2', 'utf16le', 'utf-16le', 'raw'].indexOf((encoding + '').toLowerCase()) > -1)) throw new ERR_UNKNOWN_ENCODING(encoding); this._writableState.defaultEncoding = encoding; return this; }; Object.defineProperty(Writable.prototype, 'writableBuffer', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._writableState && this._writableState.getBuffer(); } }); function decodeChunk(state, chunk, encoding) { if (!state.objectMode && state.decodeStrings !== false && typeof chunk === 'string') { chunk = Buffer.from(chunk, encoding); } return chunk; } Object.defineProperty(Writable.prototype, 'writableHighWaterMark', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._writableState.highWaterMark; } }); // if we're already writing something, then just put this // in the queue, and wait our turn. Otherwise, call _write // If we return false, then we need a drain event, so set that flag. function writeOrBuffer(stream, state, isBuf, chunk, encoding, cb) { if (!isBuf) { var newChunk = decodeChunk(state, chunk, encoding); if (chunk !== newChunk) { isBuf = true; encoding = 'buffer'; chunk = newChunk; } } var len = state.objectMode ? 1 : chunk.length; state.length += len; var ret = state.length < state.highWaterMark; // we must ensure that previous needDrain will not be reset to false. if (!ret) state.needDrain = true; if (state.writing || state.corked) { var last = state.lastBufferedRequest; state.lastBufferedRequest = { chunk: chunk, encoding: encoding, isBuf: isBuf, callback: cb, next: null }; if (last) { last.next = state.lastBufferedRequest; } else { state.bufferedRequest = state.lastBufferedRequest; } state.bufferedRequestCount += 1; } else { doWrite(stream, state, false, len, chunk, encoding, cb); } return ret; } function doWrite(stream, state, writev, len, chunk, encoding, cb) { state.writelen = len; state.writecb = cb; state.writing = true; state.sync = true; if (state.destroyed) state.onwrite(new ERR_STREAM_DESTROYED('write'));else if (writev) stream._writev(chunk, state.onwrite);else stream._write(chunk, encoding, state.onwrite); state.sync = false; } function onwriteError(stream, state, sync, er, cb) { --state.pendingcb; if (sync) { // defer the callback if we are being called synchronously // to avoid piling up things on the stack process.nextTick(cb, er); // this can emit finish, and it will always happen // after error process.nextTick(finishMaybe, stream, state); stream._writableState.errorEmitted = true; errorOrDestroy(stream, er); } else { // the caller expect this to happen before if // it is async cb(er); stream._writableState.errorEmitted = true; errorOrDestroy(stream, er); // this can emit finish, but finish must // always follow error finishMaybe(stream, state); } } function onwriteStateUpdate(state) { state.writing = false; state.writecb = null; state.length -= state.writelen; state.writelen = 0; } function onwrite(stream, er) { var state = stream._writableState; var sync = state.sync; var cb = state.writecb; if (typeof cb !== 'function') throw new ERR_MULTIPLE_CALLBACK(); onwriteStateUpdate(state); if (er) onwriteError(stream, state, sync, er, cb);else { // Check if we're actually ready to finish, but don't emit yet var finished = needFinish(state) || stream.destroyed; if (!finished && !state.corked && !state.bufferProcessing && state.bufferedRequest) { clearBuffer(stream, state); } if (sync) { process.nextTick(afterWrite, stream, state, finished, cb); } else { afterWrite(stream, state, finished, cb); } } } function afterWrite(stream, state, finished, cb) { if (!finished) onwriteDrain(stream, state); state.pendingcb--; cb(); finishMaybe(stream, state); } // Must force callback to be called on nextTick, so that we don't // emit 'drain' before the write() consumer gets the 'false' return // value, and has a chance to attach a 'drain' listener. function onwriteDrain(stream, state) { if (state.length === 0 && state.needDrain) { state.needDrain = false; stream.emit('drain'); } } // if there's something in the buffer waiting, then process it function clearBuffer(stream, state) { state.bufferProcessing = true; var entry = state.bufferedRequest; if (stream._writev && entry && entry.next) { // Fast case, write everything using _writev() var l = state.bufferedRequestCount; var buffer = new Array(l); var holder = state.corkedRequestsFree; holder.entry = entry; var count = 0; var allBuffers = true; while (entry) { buffer[count] = entry; if (!entry.isBuf) allBuffers = false; entry = entry.next; count += 1; } buffer.allBuffers = allBuffers; doWrite(stream, state, true, state.length, buffer, '', holder.finish); // doWrite is almost always async, defer these to save a bit of time // as the hot path ends with doWrite state.pendingcb++; state.lastBufferedRequest = null; if (holder.next) { state.corkedRequestsFree = holder.next; holder.next = null; } else { state.corkedRequestsFree = new CorkedRequest(state); } state.bufferedRequestCount = 0; } else { // Slow case, write chunks one-by-one while (entry) { var chunk = entry.chunk; var encoding = entry.encoding; var cb = entry.callback; var len = state.objectMode ? 1 : chunk.length; doWrite(stream, state, false, len, chunk, encoding, cb); entry = entry.next; state.bufferedRequestCount--; // if we didn't call the onwrite immediately, then // it means that we need to wait until it does. // also, that means that the chunk and cb are currently // being processed, so move the buffer counter past them. if (state.writing) { break; } } if (entry === null) state.lastBufferedRequest = null; } state.bufferedRequest = entry; state.bufferProcessing = false; } Writable.prototype._write = function (chunk, encoding, cb) { cb(new ERR_METHOD_NOT_IMPLEMENTED('_write()')); }; Writable.prototype._writev = null; Writable.prototype.end = function (chunk, encoding, cb) { var state = this._writableState; if (typeof chunk === 'function') { cb = chunk; chunk = null; encoding = null; } else if (typeof encoding === 'function') { cb = encoding; encoding = null; } if (chunk !== null && chunk !== undefined) this.write(chunk, encoding); // .end() fully uncorks if (state.corked) { state.corked = 1; this.uncork(); } // ignore unnecessary end() calls. if (!state.ending) endWritable(this, state, cb); return this; }; Object.defineProperty(Writable.prototype, 'writableLength', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { return this._writableState.length; } }); function needFinish(state) { return state.ending && state.length === 0 && state.bufferedRequest === null && !state.finished && !state.writing; } function callFinal(stream, state) { stream._final(function (err) { state.pendingcb--; if (err) { errorOrDestroy(stream, err); } state.prefinished = true; stream.emit('prefinish'); finishMaybe(stream, state); }); } function prefinish(stream, state) { if (!state.prefinished && !state.finalCalled) { if (typeof stream._final === 'function' && !state.destroyed) { state.pendingcb++; state.finalCalled = true; process.nextTick(callFinal, stream, state); } else { state.prefinished = true; stream.emit('prefinish'); } } } function finishMaybe(stream, state) { var need = needFinish(state); if (need) { prefinish(stream, state); if (state.pendingcb === 0) { state.finished = true; stream.emit('finish'); if (state.autoDestroy) { // In case of duplex streams we need a way to detect // if the readable side is ready for autoDestroy as well var rState = stream._readableState; if (!rState || rState.autoDestroy && rState.endEmitted) { stream.destroy(); } } } } return need; } function endWritable(stream, state, cb) { state.ending = true; finishMaybe(stream, state); if (cb) { if (state.finished) process.nextTick(cb);else stream.once('finish', cb); } state.ended = true; stream.writable = false; } function onCorkedFinish(corkReq, state, err) { var entry = corkReq.entry; corkReq.entry = null; while (entry) { var cb = entry.callback; state.pendingcb--; cb(err); entry = entry.next; } // reuse the free corkReq. state.corkedRequestsFree.next = corkReq; } Object.defineProperty(Writable.prototype, 'destroyed', { // making it explicit this property is not enumerable // because otherwise some prototype manipulation in // userland will fail enumerable: false, get: function get() { if (this._writableState === undefined) { return false; } return this._writableState.destroyed; }, set: function set(value) { // we ignore the value if the stream // has not been initialized yet if (!this._writableState) { return; } // backward compatibility, the user is explicitly // managing destroyed this._writableState.destroyed = value; } }); Writable.prototype.destroy = destroyImpl.destroy; Writable.prototype._undestroy = destroyImpl.undestroy; Writable.prototype._destroy = function (err, cb) { cb(err); }; }).call(this)}).call(this,_dereq_('_process'),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {}) },{"../errors":101,"./_stream_duplex":102,"./internal/streams/destroy":109,"./internal/streams/state":113,"./internal/streams/stream":114,"_process":98,"buffer":28,"inherits":67,"util-deprecate":122}],107:[function(_dereq_,module,exports){ (function (process){(function (){ 'use strict'; var _Object$setPrototypeO; function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; } var finished = _dereq_('./end-of-stream'); var kLastResolve = Symbol('lastResolve'); var kLastReject = Symbol('lastReject'); var kError = Symbol('error'); var kEnded = Symbol('ended'); var kLastPromise = Symbol('lastPromise'); var kHandlePromise = Symbol('handlePromise'); var kStream = Symbol('stream'); function createIterResult(value, done) { return { value: value, done: done }; } function readAndResolve(iter) { var resolve = iter[kLastResolve]; if (resolve !== null) { var data = iter[kStream].read(); // we defer if data is null // we can be expecting either 'end' or // 'error' if (data !== null) { iter[kLastPromise] = null; iter[kLastResolve] = null; iter[kLastReject] = null; resolve(createIterResult(data, false)); } } } function onReadable(iter) { // we wait for the next tick, because it might // emit an error with process.nextTick process.nextTick(readAndResolve, iter); } function wrapForNext(lastPromise, iter) { return function (resolve, reject) { lastPromise.then(function () { if (iter[kEnded]) { resolve(createIterResult(undefined, true)); return; } iter[kHandlePromise](resolve, reject); }, reject); }; } var AsyncIteratorPrototype = Object.getPrototypeOf(function () {}); var ReadableStreamAsyncIteratorPrototype = Object.setPrototypeOf((_Object$setPrototypeO = { get stream() { return this[kStream]; }, next: function next() { var _this = this; // if we have detected an error in the meanwhile // reject straight away var error = this[kError]; if (error !== null) { return Promise.reject(error); } if (this[kEnded]) { return Promise.resolve(createIterResult(undefined, true)); } if (this[kStream].destroyed) { // We need to defer via nextTick because if .destroy(err) is // called, the error will be emitted via nextTick, and // we cannot guarantee that there is no error lingering around // waiting to be emitted. return new Promise(function (resolve, reject) { process.nextTick(function () { if (_this[kError]) { reject(_this[kError]); } else { resolve(createIterResult(undefined, true)); } }); }); } // if we have multiple next() calls // we will wait for the previous Promise to finish // this logic is optimized to support for await loops, // where next() is only called once at a time var lastPromise = this[kLastPromise]; var promise; if (lastPromise) { promise = new Promise(wrapForNext(lastPromise, this)); } else { // fast path needed to support multiple this.push() // without triggering the next() queue var data = this[kStream].read(); if (data !== null) { return Promise.resolve(createIterResult(data, false)); } promise = new Promise(this[kHandlePromise]); } this[kLastPromise] = promise; return promise; } }, _defineProperty(_Object$setPrototypeO, Symbol.asyncIterator, function () { return this; }), _defineProperty(_Object$setPrototypeO, "return", function _return() { var _this2 = this; // destroy(err, cb) is a private API // we can guarantee we have that here, because we control the // Readable class this is attached to return new Promise(function (resolve, reject) { _this2[kStream].destroy(null, function (err) { if (err) { reject(err); return; } resolve(createIterResult(undefined, true)); }); }); }), _Object$setPrototypeO), AsyncIteratorPrototype); var createReadableStreamAsyncIterator = function createReadableStreamAsyncIterator(stream) { var _Object$create; var iterator = Object.create(ReadableStreamAsyncIteratorPrototype, (_Object$create = {}, _defineProperty(_Object$create, kStream, { value: stream, writable: true }), _defineProperty(_Object$create, kLastResolve, { value: null, writable: true }), _defineProperty(_Object$create, kLastReject, { value: null, writable: true }), _defineProperty(_Object$create, kError, { value: null, writable: true }), _defineProperty(_Object$create, kEnded, { value: stream._readableState.endEmitted, writable: true }), _defineProperty(_Object$create, kHandlePromise, { value: function value(resolve, reject) { var data = iterator[kStream].read(); if (data) { iterator[kLastPromise] = null; iterator[kLastResolve] = null; iterator[kLastReject] = null; resolve(createIterResult(data, false)); } else { iterator[kLastResolve] = resolve; iterator[kLastReject] = reject; } }, writable: true }), _Object$create)); iterator[kLastPromise] = null; finished(stream, function (err) { if (err && err.code !== 'ERR_STREAM_PREMATURE_CLOSE') { var reject = iterator[kLastReject]; // reject if we are waiting for data in the Promise // returned by next() and store the error if (reject !== null) { iterator[kLastPromise] = null; iterator[kLastResolve] = null; iterator[kLastReject] = null; reject(err); } iterator[kError] = err; return; } var resolve = iterator[kLastResolve]; if (resolve !== null) { iterator[kLastPromise] = null; iterator[kLastResolve] = null; iterator[kLastReject] = null; resolve(createIterResult(undefined, true)); } iterator[kEnded] = true; }); stream.on('readable', onReadable.bind(null, iterator)); return iterator; }; module.exports = createReadableStreamAsyncIterator; }).call(this)}).call(this,_dereq_('_process')) },{"./end-of-stream":110,"_process":98}],108:[function(_dereq_,module,exports){ 'use strict'; function ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); keys.push.apply(keys, symbols); } return keys; } function _objectSpread(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; } function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; } function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; } var _require = _dereq_('buffer'), Buffer = _require.Buffer; var _require2 = _dereq_('util'), inspect = _require2.inspect; var custom = inspect && inspect.custom || 'inspect'; function copyBuffer(src, target, offset) { Buffer.prototype.copy.call(src, target, offset); } module.exports = /*#__PURE__*/ function () { function BufferList() { _classCallCheck(this, BufferList); this.head = null; this.tail = null; this.length = 0; } _createClass(BufferList, [{ key: "push", value: function push(v) { var entry = { data: v, next: null }; if (this.length > 0) this.tail.next = entry;else this.head = entry; this.tail = entry; ++this.length; } }, { key: "unshift", value: function unshift(v) { var entry = { data: v, next: this.head }; if (this.length === 0) this.tail = entry; this.head = entry; ++this.length; } }, { key: "shift", value: function shift() { if (this.length === 0) return; var ret = this.head.data; if (this.length === 1) this.head = this.tail = null;else this.head = this.head.next; --this.length; return ret; } }, { key: "clear", value: function clear() { this.head = this.tail = null; this.length = 0; } }, { key: "join", value: function join(s) { if (this.length === 0) return ''; var p = this.head; var ret = '' + p.data; while (p = p.next) { ret += s + p.data; } return ret; } }, { key: "concat", value: function concat(n) { if (this.length === 0) return Buffer.alloc(0); var ret = Buffer.allocUnsafe(n >>> 0); var p = this.head; var i = 0; while (p) { copyBuffer(p.data, ret, i); i += p.data.length; p = p.next; } return ret; } // Consumes a specified amount of bytes or characters from the buffered data. }, { key: "consume", value: function consume(n, hasStrings) { var ret; if (n < this.head.data.length) { // `slice` is the same for buffers and strings. ret = this.head.data.slice(0, n); this.head.data = this.head.data.slice(n); } else if (n === this.head.data.length) { // First chunk is a perfect match. ret = this.shift(); } else { // Result spans more than one buffer. ret = hasStrings ? this._getString(n) : this._getBuffer(n); } return ret; } }, { key: "first", value: function first() { return this.head.data; } // Consumes a specified amount of characters from the buffered data. }, { key: "_getString", value: function _getString(n) { var p = this.head; var c = 1; var ret = p.data; n -= ret.length; while (p = p.next) { var str = p.data; var nb = n > str.length ? str.length : n; if (nb === str.length) ret += str;else ret += str.slice(0, n); n -= nb; if (n === 0) { if (nb === str.length) { ++c; if (p.next) this.head = p.next;else this.head = this.tail = null; } else { this.head = p; p.data = str.slice(nb); } break; } ++c; } this.length -= c; return ret; } // Consumes a specified amount of bytes from the buffered data. }, { key: "_getBuffer", value: function _getBuffer(n) { var ret = Buffer.allocUnsafe(n); var p = this.head; var c = 1; p.data.copy(ret); n -= p.data.length; while (p = p.next) { var buf = p.data; var nb = n > buf.length ? buf.length : n; buf.copy(ret, ret.length - n, 0, nb); n -= nb; if (n === 0) { if (nb === buf.length) { ++c; if (p.next) this.head = p.next;else this.head = this.tail = null; } else { this.head = p; p.data = buf.slice(nb); } break; } ++c; } this.length -= c; return ret; } // Make sure the linked list only shows the minimal necessary information. }, { key: custom, value: function value(_, options) { return inspect(this, _objectSpread({}, options, { // Only inspect one level. depth: 0, // It should not recurse. customInspect: false })); } }]); return BufferList; }(); },{"buffer":28,"util":26}],109:[function(_dereq_,module,exports){ (function (process){(function (){ 'use strict'; // undocumented cb() API, needed for core, not for public API function destroy(err, cb) { var _this = this; var readableDestroyed = this._readableState && this._readableState.destroyed; var writableDestroyed = this._writableState && this._writableState.destroyed; if (readableDestroyed || writableDestroyed) { if (cb) { cb(err); } else if (err) { if (!this._writableState) { process.nextTick(emitErrorNT, this, err); } else if (!this._writableState.errorEmitted) { this._writableState.errorEmitted = true; process.nextTick(emitErrorNT, this, err); } } return this; } // we set destroyed to true before firing error callbacks in order // to make it re-entrance safe in case destroy() is called within callbacks if (this._readableState) { this._readableState.destroyed = true; } // if this is a duplex stream mark the writable part as destroyed as well if (this._writableState) { this._writableState.destroyed = true; } this._destroy(err || null, function (err) { if (!cb && err) { if (!_this._writableState) { process.nextTick(emitErrorAndCloseNT, _this, err); } else if (!_this._writableState.errorEmitted) { _this._writableState.errorEmitted = true; process.nextTick(emitErrorAndCloseNT, _this, err); } else { process.nextTick(emitCloseNT, _this); } } else if (cb) { process.nextTick(emitCloseNT, _this); cb(err); } else { process.nextTick(emitCloseNT, _this); } }); return this; } function emitErrorAndCloseNT(self, err) { emitErrorNT(self, err); emitCloseNT(self); } function emitCloseNT(self) { if (self._writableState && !self._writableState.emitClose) return; if (self._readableState && !self._readableState.emitClose) return; self.emit('close'); } function undestroy() { if (this._readableState) { this._readableState.destroyed = false; this._readableState.reading = false; this._readableState.ended = false; this._readableState.endEmitted = false; } if (this._writableState) { this._writableState.destroyed = false; this._writableState.ended = false; this._writableState.ending = false; this._writableState.finalCalled = false; this._writableState.prefinished = false; this._writableState.finished = false; this._writableState.errorEmitted = false; } } function emitErrorNT(self, err) { self.emit('error', err); } function errorOrDestroy(stream, err) { // We have tests that rely on errors being emitted // in the same tick, so changing this is semver major. // For now when you opt-in to autoDestroy we allow // the error to be emitted nextTick. In a future // semver major update we should change the default to this. var rState = stream._readableState; var wState = stream._writableState; if (rState && rState.autoDestroy || wState && wState.autoDestroy) stream.destroy(err);else stream.emit('error', err); } module.exports = { destroy: destroy, undestroy: undestroy, errorOrDestroy: errorOrDestroy }; }).call(this)}).call(this,_dereq_('_process')) },{"_process":98}],110:[function(_dereq_,module,exports){ // Ported from https://github.com/mafintosh/end-of-stream with // permission from the author, Mathias Buus (@mafintosh). 'use strict'; var ERR_STREAM_PREMATURE_CLOSE = _dereq_('../../../errors').codes.ERR_STREAM_PREMATURE_CLOSE; function once(callback) { var called = false; return function () { if (called) return; called = true; for (var _len = arguments.length, args = new Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } callback.apply(this, args); }; } function noop() {} function isRequest(stream) { return stream.setHeader && typeof stream.abort === 'function'; } function eos(stream, opts, callback) { if (typeof opts === 'function') return eos(stream, null, opts); if (!opts) opts = {}; callback = once(callback || noop); var readable = opts.readable || opts.readable !== false && stream.readable; var writable = opts.writable || opts.writable !== false && stream.writable; var onlegacyfinish = function onlegacyfinish() { if (!stream.writable) onfinish(); }; var writableEnded = stream._writableState && stream._writableState.finished; var onfinish = function onfinish() { writable = false; writableEnded = true; if (!readable) callback.call(stream); }; var readableEnded = stream._readableState && stream._readableState.endEmitted; var onend = function onend() { readable = false; readableEnded = true; if (!writable) callback.call(stream); }; var onerror = function onerror(err) { callback.call(stream, err); }; var onclose = function onclose() { var err; if (readable && !readableEnded) { if (!stream._readableState || !stream._readableState.ended) err = new ERR_STREAM_PREMATURE_CLOSE(); return callback.call(stream, err); } if (writable && !writableEnded) { if (!stream._writableState || !stream._writableState.ended) err = new ERR_STREAM_PREMATURE_CLOSE(); return callback.call(stream, err); } }; var onrequest = function onrequest() { stream.req.on('finish', onfinish); }; if (isRequest(stream)) { stream.on('complete', onfinish); stream.on('abort', onclose); if (stream.req) onrequest();else stream.on('request', onrequest); } else if (writable && !stream._writableState) { // legacy streams stream.on('end', onlegacyfinish); stream.on('close', onlegacyfinish); } stream.on('end', onend); stream.on('finish', onfinish); if (opts.error !== false) stream.on('error', onerror); stream.on('close', onclose); return function () { stream.removeListener('complete', onfinish); stream.removeListener('abort', onclose); stream.removeListener('request', onrequest); if (stream.req) stream.req.removeListener('finish', onfinish); stream.removeListener('end', onlegacyfinish); stream.removeListener('close', onlegacyfinish); stream.removeListener('finish', onfinish); stream.removeListener('end', onend); stream.removeListener('error', onerror); stream.removeListener('close', onclose); }; } module.exports = eos; },{"../../../errors":101}],111:[function(_dereq_,module,exports){ module.exports = function () { throw new Error('Readable.from is not available in the browser') }; },{}],112:[function(_dereq_,module,exports){ // Ported from https://github.com/mafintosh/pump with // permission from the author, Mathias Buus (@mafintosh). 'use strict'; var eos; function once(callback) { var called = false; return function () { if (called) return; called = true; callback.apply(void 0, arguments); }; } var _require$codes = _dereq_('../../../errors').codes, ERR_MISSING_ARGS = _require$codes.ERR_MISSING_ARGS, ERR_STREAM_DESTROYED = _require$codes.ERR_STREAM_DESTROYED; function noop(err) { // Rethrow the error if it exists to avoid swallowing it if (err) throw err; } function isRequest(stream) { return stream.setHeader && typeof stream.abort === 'function'; } function destroyer(stream, reading, writing, callback) { callback = once(callback); var closed = false; stream.on('close', function () { closed = true; }); if (eos === undefined) eos = _dereq_('./end-of-stream'); eos(stream, { readable: reading, writable: writing }, function (err) { if (err) return callback(err); closed = true; callback(); }); var destroyed = false; return function (err) { if (closed) return; if (destroyed) return; destroyed = true; // request.destroy just do .end - .abort is what we want if (isRequest(stream)) return stream.abort(); if (typeof stream.destroy === 'function') return stream.destroy(); callback(err || new ERR_STREAM_DESTROYED('pipe')); }; } function call(fn) { fn(); } function pipe(from, to) { return from.pipe(to); } function popCallback(streams) { if (!streams.length) return noop; if (typeof streams[streams.length - 1] !== 'function') return noop; return streams.pop(); } function pipeline() { for (var _len = arguments.length, streams = new Array(_len), _key = 0; _key < _len; _key++) { streams[_key] = arguments[_key]; } var callback = popCallback(streams); if (Array.isArray(streams[0])) streams = streams[0]; if (streams.length < 2) { throw new ERR_MISSING_ARGS('streams'); } var error; var destroys = streams.map(function (stream, i) { var reading = i < streams.length - 1; var writing = i > 0; return destroyer(stream, reading, writing, function (err) { if (!error) error = err; if (err) destroys.forEach(call); if (reading) return; destroys.forEach(call); callback(error); }); }); return streams.reduce(pipe); } module.exports = pipeline; },{"../../../errors":101,"./end-of-stream":110}],113:[function(_dereq_,module,exports){ 'use strict'; var ERR_INVALID_OPT_VALUE = _dereq_('../../../errors').codes.ERR_INVALID_OPT_VALUE; function highWaterMarkFrom(options, isDuplex, duplexKey) { return options.highWaterMark != null ? options.highWaterMark : isDuplex ? options[duplexKey] : null; } function getHighWaterMark(state, options, duplexKey, isDuplex) { var hwm = highWaterMarkFrom(options, isDuplex, duplexKey); if (hwm != null) { if (!(isFinite(hwm) && Math.floor(hwm) === hwm) || hwm < 0) { var name = isDuplex ? duplexKey : 'highWaterMark'; throw new ERR_INVALID_OPT_VALUE(name, hwm); } return Math.floor(hwm); } // Default value return state.objectMode ? 16 : 16 * 1024; } module.exports = { getHighWaterMark: getHighWaterMark }; },{"../../../errors":101}],114:[function(_dereq_,module,exports){ module.exports = _dereq_('events').EventEmitter; },{"events":27}],115:[function(_dereq_,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. 'use strict'; /**/ var Buffer = _dereq_('safe-buffer').Buffer; /**/ var isEncoding = Buffer.isEncoding || function (encoding) { encoding = '' + encoding; switch (encoding && encoding.toLowerCase()) { case 'hex':case 'utf8':case 'utf-8':case 'ascii':case 'binary':case 'base64':case 'ucs2':case 'ucs-2':case 'utf16le':case 'utf-16le':case 'raw': return true; default: return false; } }; function _normalizeEncoding(enc) { if (!enc) return 'utf8'; var retried; while (true) { switch (enc) { case 'utf8': case 'utf-8': return 'utf8'; case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return 'utf16le'; case 'latin1': case 'binary': return 'latin1'; case 'base64': case 'ascii': case 'hex': return enc; default: if (retried) return; // undefined enc = ('' + enc).toLowerCase(); retried = true; } } }; // Do not cache `Buffer.isEncoding` when checking encoding names as some // modules monkey-patch it to support additional encodings function normalizeEncoding(enc) { var nenc = _normalizeEncoding(enc); if (typeof nenc !== 'string' && (Buffer.isEncoding === isEncoding || !isEncoding(enc))) throw new Error('Unknown encoding: ' + enc); return nenc || enc; } // StringDecoder provides an interface for efficiently splitting a series of // buffers into a series of JS strings without breaking apart multi-byte // characters. exports.StringDecoder = StringDecoder; function StringDecoder(encoding) { this.encoding = normalizeEncoding(encoding); var nb; switch (this.encoding) { case 'utf16le': this.text = utf16Text; this.end = utf16End; nb = 4; break; case 'utf8': this.fillLast = utf8FillLast; nb = 4; break; case 'base64': this.text = base64Text; this.end = base64End; nb = 3; break; default: this.write = simpleWrite; this.end = simpleEnd; return; } this.lastNeed = 0; this.lastTotal = 0; this.lastChar = Buffer.allocUnsafe(nb); } StringDecoder.prototype.write = function (buf) { if (buf.length === 0) return ''; var r; var i; if (this.lastNeed) { r = this.fillLast(buf); if (r === undefined) return ''; i = this.lastNeed; this.lastNeed = 0; } else { i = 0; } if (i < buf.length) return r ? r + this.text(buf, i) : this.text(buf, i); return r || ''; }; StringDecoder.prototype.end = utf8End; // Returns only complete characters in a Buffer StringDecoder.prototype.text = utf8Text; // Attempts to complete a partial non-UTF-8 character using bytes from a Buffer StringDecoder.prototype.fillLast = function (buf) { if (this.lastNeed <= buf.length) { buf.copy(this.lastChar, this.lastTotal - this.lastNeed, 0, this.lastNeed); return this.lastChar.toString(this.encoding, 0, this.lastTotal); } buf.copy(this.lastChar, this.lastTotal - this.lastNeed, 0, buf.length); this.lastNeed -= buf.length; }; // Checks the type of a UTF-8 byte, whether it's ASCII, a leading byte, or a // continuation byte. If an invalid byte is detected, -2 is returned. function utf8CheckByte(byte) { if (byte <= 0x7F) return 0;else if (byte >> 5 === 0x06) return 2;else if (byte >> 4 === 0x0E) return 3;else if (byte >> 3 === 0x1E) return 4; return byte >> 6 === 0x02 ? -1 : -2; } // Checks at most 3 bytes at the end of a Buffer in order to detect an // incomplete multi-byte UTF-8 character. The total number of bytes (2, 3, or 4) // needed to complete the UTF-8 character (if applicable) are returned. function utf8CheckIncomplete(self, buf, i) { var j = buf.length - 1; if (j < i) return 0; var nb = utf8CheckByte(buf[j]); if (nb >= 0) { if (nb > 0) self.lastNeed = nb - 1; return nb; } if (--j < i || nb === -2) return 0; nb = utf8CheckByte(buf[j]); if (nb >= 0) { if (nb > 0) self.lastNeed = nb - 2; return nb; } if (--j < i || nb === -2) return 0; nb = utf8CheckByte(buf[j]); if (nb >= 0) { if (nb > 0) { if (nb === 2) nb = 0;else self.lastNeed = nb - 3; } return nb; } return 0; } // Validates as many continuation bytes for a multi-byte UTF-8 character as // needed or are available. If we see a non-continuation byte where we expect // one, we "replace" the validated continuation bytes we've seen so far with // a single UTF-8 replacement character ('\ufffd'), to match v8's UTF-8 decoding // behavior. The continuation byte check is included three times in the case // where all of the continuation bytes for a character exist in the same buffer. // It is also done this way as a slight performance increase instead of using a // loop. function utf8CheckExtraBytes(self, buf, p) { if ((buf[0] & 0xC0) !== 0x80) { self.lastNeed = 0; return '\ufffd'; } if (self.lastNeed > 1 && buf.length > 1) { if ((buf[1] & 0xC0) !== 0x80) { self.lastNeed = 1; return '\ufffd'; } if (self.lastNeed > 2 && buf.length > 2) { if ((buf[2] & 0xC0) !== 0x80) { self.lastNeed = 2; return '\ufffd'; } } } } // Attempts to complete a multi-byte UTF-8 character using bytes from a Buffer. function utf8FillLast(buf) { var p = this.lastTotal - this.lastNeed; var r = utf8CheckExtraBytes(this, buf, p); if (r !== undefined) return r; if (this.lastNeed <= buf.length) { buf.copy(this.lastChar, p, 0, this.lastNeed); return this.lastChar.toString(this.encoding, 0, this.lastTotal); } buf.copy(this.lastChar, p, 0, buf.length); this.lastNeed -= buf.length; } // Returns all complete UTF-8 characters in a Buffer. If the Buffer ended on a // partial character, the character's bytes are buffered until the required // number of bytes are available. function utf8Text(buf, i) { var total = utf8CheckIncomplete(this, buf, i); if (!this.lastNeed) return buf.toString('utf8', i); this.lastTotal = total; var end = buf.length - (total - this.lastNeed); buf.copy(this.lastChar, 0, end); return buf.toString('utf8', i, end); } // For UTF-8, a replacement character is added when ending on a partial // character. function utf8End(buf) { var r = buf && buf.length ? this.write(buf) : ''; if (this.lastNeed) return r + '\ufffd'; return r; } // UTF-16LE typically needs two bytes per character, but even if we have an even // number of bytes available, we need to check if we end on a leading/high // surrogate. In that case, we need to wait for the next two bytes in order to // decode the last character properly. function utf16Text(buf, i) { if ((buf.length - i) % 2 === 0) { var r = buf.toString('utf16le', i); if (r) { var c = r.charCodeAt(r.length - 1); if (c >= 0xD800 && c <= 0xDBFF) { this.lastNeed = 2; this.lastTotal = 4; this.lastChar[0] = buf[buf.length - 2]; this.lastChar[1] = buf[buf.length - 1]; return r.slice(0, -1); } } return r; } this.lastNeed = 1; this.lastTotal = 2; this.lastChar[0] = buf[buf.length - 1]; return buf.toString('utf16le', i, buf.length - 1); } // For UTF-16LE we do not explicitly append special replacement characters if we // end on a partial character, we simply let v8 handle that. function utf16End(buf) { var r = buf && buf.length ? this.write(buf) : ''; if (this.lastNeed) { var end = this.lastTotal - this.lastNeed; return r + this.lastChar.toString('utf16le', 0, end); } return r; } function base64Text(buf, i) { var n = (buf.length - i) % 3; if (n === 0) return buf.toString('base64', i); this.lastNeed = 3 - n; this.lastTotal = 3; if (n === 1) { this.lastChar[0] = buf[buf.length - 1]; } else { this.lastChar[0] = buf[buf.length - 2]; this.lastChar[1] = buf[buf.length - 1]; } return buf.toString('base64', i, buf.length - n); } function base64End(buf) { var r = buf && buf.length ? this.write(buf) : ''; if (this.lastNeed) return r + this.lastChar.toString('base64', 0, 3 - this.lastNeed); return r; } // Pass bytes on through for single-byte encodings (e.g. ascii, latin1, hex) function simpleWrite(buf) { return buf.toString(this.encoding); } function simpleEnd(buf) { return buf && buf.length ? this.write(buf) : ''; } },{"safe-buffer":99}],116:[function(_dereq_,module,exports){ (function (process,Buffer){(function (){ /** * Module dependencies. */ var assert = _dereq_('assert'); var debug = _dereq_('debug')('stream-parser'); /** * Module exports. */ module.exports = Parser; /** * Parser states. */ var INIT = -1; var BUFFERING = 0; var SKIPPING = 1; var PASSTHROUGH = 2; /** * The `Parser` stream mixin works with either `Writable` or `Transform` stream * instances/subclasses. Provides a convenient generic "parsing" API: * * _bytes(n, cb) - buffers "n" bytes and then calls "cb" with the "chunk" * _skipBytes(n, cb) - skips "n" bytes and then calls "cb" when done * * If you extend a `Transform` stream, then the `_passthrough()` function is also * added: * * _passthrough(n, cb) - passes through "n" bytes untouched and then calls "cb" * * @param {Stream} stream Transform or Writable stream instance to extend * @api public */ function Parser (stream) { var isTransform = stream && 'function' == typeof stream._transform; var isWritable = stream && 'function' == typeof stream._write; if (!isTransform && !isWritable) throw new Error('must pass a Writable or Transform stream in'); debug('extending Parser into stream'); // Transform streams and Writable streams get `_bytes()` and `_skipBytes()` stream._bytes = _bytes; stream._skipBytes = _skipBytes; // only Transform streams get the `_passthrough()` function if (isTransform) stream._passthrough = _passthrough; // take control of the streams2 callback functions for this stream if (isTransform) { stream._transform = transform; } else { stream._write = write; } } function init (stream) { debug('initializing parser stream'); // number of bytes left to parser for the next "chunk" stream._parserBytesLeft = 0; // array of Buffer instances that make up the next "chunk" stream._parserBuffers = []; // number of bytes parsed so far for the next "chunk" stream._parserBuffered = 0; // flag that keeps track of if what the parser should do with bytes received stream._parserState = INIT; // the callback for the next "chunk" stream._parserCallback = null; // XXX: backwards compat with the old Transform API... remove at some point.. if ('function' == typeof stream.push) { stream._parserOutput = stream.push.bind(stream); } stream._parserInit = true; } /** * Buffers `n` bytes and then invokes `fn` once that amount has been collected. * * @param {Number} n the number of bytes to buffer * @param {Function} fn callback function to invoke when `n` bytes are buffered * @api public */ function _bytes (n, fn) { assert(!this._parserCallback, 'there is already a "callback" set!'); assert(isFinite(n) && n > 0, 'can only buffer a finite number of bytes > 0, got "' + n + '"'); if (!this._parserInit) init(this); debug('buffering %o bytes', n); this._parserBytesLeft = n; this._parserCallback = fn; this._parserState = BUFFERING; } /** * Skips over the next `n` bytes, then invokes `fn` once that amount has * been discarded. * * @param {Number} n the number of bytes to discard * @param {Function} fn callback function to invoke when `n` bytes have been skipped * @api public */ function _skipBytes (n, fn) { assert(!this._parserCallback, 'there is already a "callback" set!'); assert(n > 0, 'can only skip > 0 bytes, got "' + n + '"'); if (!this._parserInit) init(this); debug('skipping %o bytes', n); this._parserBytesLeft = n; this._parserCallback = fn; this._parserState = SKIPPING; } /** * Passes through `n` bytes to the readable side of this stream untouched, * then invokes `fn` once that amount has been passed through. * * @param {Number} n the number of bytes to pass through * @param {Function} fn callback function to invoke when `n` bytes have passed through * @api public */ function _passthrough (n, fn) { assert(!this._parserCallback, 'There is already a "callback" set!'); assert(n > 0, 'can only pass through > 0 bytes, got "' + n + '"'); if (!this._parserInit) init(this); debug('passing through %o bytes', n); this._parserBytesLeft = n; this._parserCallback = fn; this._parserState = PASSTHROUGH; } /** * The `_write()` callback function implementation. * * @api private */ function write (chunk, encoding, fn) { if (!this._parserInit) init(this); debug('write(%o bytes)', chunk.length); // XXX: old Writable stream API compat... remove at some point... if ('function' == typeof encoding) fn = encoding; data(this, chunk, null, fn); } /** * The `_transform()` callback function implementation. * * @api private */ function transform (chunk, output, fn) { if (!this._parserInit) init(this); debug('transform(%o bytes)', chunk.length); // XXX: old Transform stream API compat... remove at some point... if ('function' != typeof output) { output = this._parserOutput; } data(this, chunk, output, fn); } /** * The internal buffering/passthrough logic... * * This `_data` function get's "trampolined" to prevent stack overflows for tight * loops. This technique requires us to return a "thunk" function for any * synchronous action. Async stuff breaks the trampoline, but that's ok since it's * working with a new stack at that point anyway. * * @api private */ function _data (stream, chunk, output, fn) { if (stream._parserBytesLeft <= 0) { return fn(new Error('got data but not currently parsing anything')); } if (chunk.length <= stream._parserBytesLeft) { // small buffer fits within the "_parserBytesLeft" window return function () { return process(stream, chunk, output, fn); }; } else { // large buffer needs to be sliced on "_parserBytesLeft" and processed return function () { var b = chunk.slice(0, stream._parserBytesLeft); return process(stream, b, output, function (err) { if (err) return fn(err); if (chunk.length > b.length) { return function () { return _data(stream, chunk.slice(b.length), output, fn); }; } }); }; } } /** * The internal `process` function gets called by the `data` function when * something "interesting" happens. This function takes care of buffering the * bytes when buffering, passing through the bytes when doing that, and invoking * the user callback when the number of bytes has been reached. * * @api private */ function process (stream, chunk, output, fn) { stream._parserBytesLeft -= chunk.length; debug('%o bytes left for stream piece', stream._parserBytesLeft); if (stream._parserState === BUFFERING) { // buffer stream._parserBuffers.push(chunk); stream._parserBuffered += chunk.length; } else if (stream._parserState === PASSTHROUGH) { // passthrough output(chunk); } // don't need to do anything for the SKIPPING case if (0 === stream._parserBytesLeft) { // done with stream "piece", invoke the callback var cb = stream._parserCallback; if (cb && stream._parserState === BUFFERING && stream._parserBuffers.length > 1) { chunk = Buffer.concat(stream._parserBuffers, stream._parserBuffered); } if (stream._parserState !== BUFFERING) { chunk = null; } stream._parserCallback = null; stream._parserBuffered = 0; stream._parserState = INIT; stream._parserBuffers.splice(0); // empty if (cb) { var args = []; if (chunk) { // buffered args.push(chunk); } else { // passthrough } if (output) { // on a Transform stream, has "output" function args.push(output); } var async = cb.length > args.length; if (async) { args.push(trampoline(fn)); } // invoke cb var rtn = cb.apply(stream, args); if (!async || fn === rtn) return fn; } } else { // need more bytes return fn; } } var data = trampoline(_data); /** * Generic thunk-based "trampoline" helper function. * * @param {Function} input function * @return {Function} "trampolined" function * @api private */ function trampoline (fn) { return function () { var result = fn.apply(this, arguments); while ('function' == typeof result) { result = result(); } return result; }; } }).call(this)}).call(this,_dereq_('_process'),_dereq_("buffer").Buffer) },{"_process":98,"assert":21,"buffer":28,"debug":117}],117:[function(_dereq_,module,exports){ (function (process){(function (){ /** * This is the web browser implementation of `debug()`. * * Expose `debug()` as the module. */ exports = module.exports = _dereq_('./debug'); exports.log = log; exports.formatArgs = formatArgs; exports.save = save; exports.load = load; exports.useColors = useColors; exports.storage = 'undefined' != typeof chrome && 'undefined' != typeof chrome.storage ? chrome.storage.local : localstorage(); /** * Colors. */ exports.colors = [ 'lightseagreen', 'forestgreen', 'goldenrod', 'dodgerblue', 'darkorchid', 'crimson' ]; /** * Currently only WebKit-based Web Inspectors, Firefox >= v31, * and the Firebug extension (any Firefox version) are known * to support "%c" CSS customizations. * * TODO: add a `localStorage` variable to explicitly enable/disable colors */ function useColors() { // NB: In an Electron preload script, document will be defined but not fully // initialized. Since we know we're in Chrome, we'll just detect this case // explicitly if (typeof window !== 'undefined' && window.process && window.process.type === 'renderer') { return true; } // is webkit? http://stackoverflow.com/a/16459606/376773 // document is undefined in react-native: https://github.com/facebook/react-native/pull/1632 return (typeof document !== 'undefined' && document.documentElement && document.documentElement.style && document.documentElement.style.WebkitAppearance) || // is firebug? http://stackoverflow.com/a/398120/376773 (typeof window !== 'undefined' && window.console && (window.console.firebug || (window.console.exception && window.console.table))) || // is firefox >= v31? // https://developer.mozilla.org/en-US/docs/Tools/Web_Console#Styling_messages (typeof navigator !== 'undefined' && navigator.userAgent && navigator.userAgent.toLowerCase().match(/firefox\/(\d+)/) && parseInt(RegExp.$1, 10) >= 31) || // double check webkit in userAgent just in case we are in a worker (typeof navigator !== 'undefined' && navigator.userAgent && navigator.userAgent.toLowerCase().match(/applewebkit\/(\d+)/)); } /** * Map %j to `JSON.stringify()`, since no Web Inspectors do that by default. */ exports.formatters.j = function(v) { try { return JSON.stringify(v); } catch (err) { return '[UnexpectedJSONParseError]: ' + err.message; } }; /** * Colorize log arguments if enabled. * * @api public */ function formatArgs(args) { var useColors = this.useColors; args[0] = (useColors ? '%c' : '') + this.namespace + (useColors ? ' %c' : ' ') + args[0] + (useColors ? '%c ' : ' ') + '+' + exports.humanize(this.diff); if (!useColors) return; var c = 'color: ' + this.color; args.splice(1, 0, c, 'color: inherit') // the final "%c" is somewhat tricky, because there could be other // arguments passed either before or after the %c, so we need to // figure out the correct index to insert the CSS into var index = 0; var lastC = 0; args[0].replace(/%[a-zA-Z%]/g, function(match) { if ('%%' === match) return; index++; if ('%c' === match) { // we only are interested in the *last* %c // (the user may have provided their own) lastC = index; } }); args.splice(lastC, 0, c); } /** * Invokes `console.log()` when available. * No-op when `console.log` is not a "function". * * @api public */ function log() { // this hackery is required for IE8/9, where // the `console.log` function doesn't have 'apply' return 'object' === typeof console && console.log && Function.prototype.apply.call(console.log, console, arguments); } /** * Save `namespaces`. * * @param {String} namespaces * @api private */ function save(namespaces) { try { if (null == namespaces) { exports.storage.removeItem('debug'); } else { exports.storage.debug = namespaces; } } catch(e) {} } /** * Load `namespaces`. * * @return {String} returns the previously persisted debug modes * @api private */ function load() { var r; try { r = exports.storage.debug; } catch(e) {} // If debug isn't set in LS, and we're in Electron, try to load $DEBUG if (!r && typeof process !== 'undefined' && 'env' in process) { r = process.env.DEBUG; } return r; } /** * Enable namespaces listed in `localStorage.debug` initially. */ exports.enable(load()); /** * Localstorage attempts to return the localstorage. * * This is necessary because safari throws * when a user disables cookies/localstorage * and you attempt to access it. * * @return {LocalStorage} * @api private */ function localstorage() { try { return window.localStorage; } catch (e) {} } }).call(this)}).call(this,_dereq_('_process')) },{"./debug":118,"_process":98}],118:[function(_dereq_,module,exports){ /** * This is the common logic for both the Node.js and web browser * implementations of `debug()`. * * Expose `debug()` as the module. */ exports = module.exports = createDebug.debug = createDebug['default'] = createDebug; exports.coerce = coerce; exports.disable = disable; exports.enable = enable; exports.enabled = enabled; exports.humanize = _dereq_('ms'); /** * The currently active debug mode names, and names to skip. */ exports.names = []; exports.skips = []; /** * Map of special "%n" handling functions, for the debug "format" argument. * * Valid key names are a single, lower or upper-case letter, i.e. "n" and "N". */ exports.formatters = {}; /** * Previous log timestamp. */ var prevTime; /** * Select a color. * @param {String} namespace * @return {Number} * @api private */ function selectColor(namespace) { var hash = 0, i; for (i in namespace) { hash = ((hash << 5) - hash) + namespace.charCodeAt(i); hash |= 0; // Convert to 32bit integer } return exports.colors[Math.abs(hash) % exports.colors.length]; } /** * Create a debugger with the given `namespace`. * * @param {String} namespace * @return {Function} * @api public */ function createDebug(namespace) { function debug() { // disabled? if (!debug.enabled) return; var self = debug; // set `diff` timestamp var curr = +new Date(); var ms = curr - (prevTime || curr); self.diff = ms; self.prev = prevTime; self.curr = curr; prevTime = curr; // turn the `arguments` into a proper Array var args = new Array(arguments.length); for (var i = 0; i < args.length; i++) { args[i] = arguments[i]; } args[0] = exports.coerce(args[0]); if ('string' !== typeof args[0]) { // anything else let's inspect with %O args.unshift('%O'); } // apply any `formatters` transformations var index = 0; args[0] = args[0].replace(/%([a-zA-Z%])/g, function(match, format) { // if we encounter an escaped % then don't increase the array index if (match === '%%') return match; index++; var formatter = exports.formatters[format]; if ('function' === typeof formatter) { var val = args[index]; match = formatter.call(self, val); // now we need to remove `args[index]` since it's inlined in the `format` args.splice(index, 1); index--; } return match; }); // apply env-specific formatting (colors, etc.) exports.formatArgs.call(self, args); var logFn = debug.log || exports.log || console.log.bind(console); logFn.apply(self, args); } debug.namespace = namespace; debug.enabled = exports.enabled(namespace); debug.useColors = exports.useColors(); debug.color = selectColor(namespace); // env-specific initialization logic for debug instances if ('function' === typeof exports.init) { exports.init(debug); } return debug; } /** * Enables a debug mode by namespaces. This can include modes * separated by a colon and wildcards. * * @param {String} namespaces * @api public */ function enable(namespaces) { exports.save(namespaces); exports.names = []; exports.skips = []; var split = (typeof namespaces === 'string' ? namespaces : '').split(/[\s,]+/); var len = split.length; for (var i = 0; i < len; i++) { if (!split[i]) continue; // ignore empty strings namespaces = split[i].replace(/\*/g, '.*?'); if (namespaces[0] === '-') { exports.skips.push(new RegExp('^' + namespaces.substr(1) + '$')); } else { exports.names.push(new RegExp('^' + namespaces + '$')); } } } /** * Disable debug output. * * @api public */ function disable() { exports.enable(''); } /** * Returns true if the given mode name is enabled, false otherwise. * * @param {String} name * @return {Boolean} * @api public */ function enabled(name) { var i, len; for (i = 0, len = exports.skips.length; i < len; i++) { if (exports.skips[i].test(name)) { return false; } } for (i = 0, len = exports.names.length; i < len; i++) { if (exports.names[i].test(name)) { return true; } } return false; } /** * Coerce `val`. * * @param {Mixed} val * @return {Mixed} * @api private */ function coerce(val) { if (val instanceof Error) return val.stack || val.message; return val; } },{"ms":119}],119:[function(_dereq_,module,exports){ /** * Helpers. */ var s = 1000; var m = s * 60; var h = m * 60; var d = h * 24; var y = d * 365.25; /** * Parse or format the given `val`. * * Options: * * - `long` verbose formatting [false] * * @param {String|Number} val * @param {Object} [options] * @throws {Error} throw an error if val is not a non-empty string or a number * @return {String|Number} * @api public */ module.exports = function(val, options) { options = options || {}; var type = typeof val; if (type === 'string' && val.length > 0) { return parse(val); } else if (type === 'number' && isNaN(val) === false) { return options.long ? fmtLong(val) : fmtShort(val); } throw new Error( 'val is not a non-empty string or a valid number. val=' + JSON.stringify(val) ); }; /** * Parse the given `str` and return milliseconds. * * @param {String} str * @return {Number} * @api private */ function parse(str) { str = String(str); if (str.length > 100) { return; } var match = /^((?:\d+)?\.?\d+) *(milliseconds?|msecs?|ms|seconds?|secs?|s|minutes?|mins?|m|hours?|hrs?|h|days?|d|years?|yrs?|y)?$/i.exec( str ); if (!match) { return; } var n = parseFloat(match[1]); var type = (match[2] || 'ms').toLowerCase(); switch (type) { case 'years': case 'year': case 'yrs': case 'yr': case 'y': return n * y; case 'days': case 'day': case 'd': return n * d; case 'hours': case 'hour': case 'hrs': case 'hr': case 'h': return n * h; case 'minutes': case 'minute': case 'mins': case 'min': case 'm': return n * m; case 'seconds': case 'second': case 'secs': case 'sec': case 's': return n * s; case 'milliseconds': case 'millisecond': case 'msecs': case 'msec': case 'ms': return n; default: return undefined; } } /** * Short format for `ms`. * * @param {Number} ms * @return {String} * @api private */ function fmtShort(ms) { if (ms >= d) { return Math.round(ms / d) + 'd'; } if (ms >= h) { return Math.round(ms / h) + 'h'; } if (ms >= m) { return Math.round(ms / m) + 'm'; } if (ms >= s) { return Math.round(ms / s) + 's'; } return ms + 'ms'; } /** * Long format for `ms`. * * @param {Number} ms * @return {String} * @api private */ function fmtLong(ms) { return plural(ms, d, 'day') || plural(ms, h, 'hour') || plural(ms, m, 'minute') || plural(ms, s, 'second') || ms + ' ms'; } /** * Pluralization helper. */ function plural(ms, n, name) { if (ms < n) { return; } if (ms < n * 1.5) { return Math.floor(ms / n) + ' ' + name; } return Math.ceil(ms / n) + ' ' + name + 's'; } },{}],120:[function(_dereq_,module,exports){ (function (setImmediate,clearImmediate){(function (){ var nextTick = _dereq_('process/browser.js').nextTick; var apply = Function.prototype.apply; var slice = Array.prototype.slice; var immediateIds = {}; var nextImmediateId = 0; // DOM APIs, for completeness exports.setTimeout = function() { return new Timeout(apply.call(setTimeout, window, arguments), clearTimeout); }; exports.setInterval = function() { return new Timeout(apply.call(setInterval, window, arguments), clearInterval); }; exports.clearTimeout = exports.clearInterval = function(timeout) { timeout.close(); }; function Timeout(id, clearFn) { this._id = id; this._clearFn = clearFn; } Timeout.prototype.unref = Timeout.prototype.ref = function() {}; Timeout.prototype.close = function() { this._clearFn.call(window, this._id); }; // Does not start the time, just sets up the members needed. exports.enroll = function(item, msecs) { clearTimeout(item._idleTimeoutId); item._idleTimeout = msecs; }; exports.unenroll = function(item) { clearTimeout(item._idleTimeoutId); item._idleTimeout = -1; }; exports._unrefActive = exports.active = function(item) { clearTimeout(item._idleTimeoutId); var msecs = item._idleTimeout; if (msecs >= 0) { item._idleTimeoutId = setTimeout(function onTimeout() { if (item._onTimeout) item._onTimeout(); }, msecs); } }; // That's not how node.js implements it but the exposed api is the same. exports.setImmediate = typeof setImmediate === "function" ? setImmediate : function(fn) { var id = nextImmediateId++; var args = arguments.length < 2 ? false : slice.call(arguments, 1); immediateIds[id] = true; nextTick(function onNextTick() { if (immediateIds[id]) { // fn.call() is faster so we optimize for the common use-case // @see http://jsperf.com/call-apply-segu if (args) { fn.apply(null, args); } else { fn.call(null); } // Prevent ids from leaking exports.clearImmediate(id); } }); return id; }; exports.clearImmediate = typeof clearImmediate === "function" ? clearImmediate : function(id) { delete immediateIds[id]; }; }).call(this)}).call(this,_dereq_("timers").setImmediate,_dereq_("timers").clearImmediate) },{"process/browser.js":98,"timers":120}],121:[function(_dereq_,module,exports){ // TinyColor v1.4.2 // https://github.com/bgrins/TinyColor // Brian Grinstead, MIT License (function(Math) { var trimLeft = /^\s+/, trimRight = /\s+$/, tinyCounter = 0, mathRound = Math.round, mathMin = Math.min, mathMax = Math.max, mathRandom = Math.random; function tinycolor (color, opts) { color = (color) ? color : ''; opts = opts || { }; // If input is already a tinycolor, return itself if (color instanceof tinycolor) { return color; } // If we are called as a function, call using new instead if (!(this instanceof tinycolor)) { return new tinycolor(color, opts); } var rgb = inputToRGB(color); this._originalInput = color, this._r = rgb.r, this._g = rgb.g, this._b = rgb.b, this._a = rgb.a, this._roundA = mathRound(100*this._a) / 100, this._format = opts.format || rgb.format; this._gradientType = opts.gradientType; // Don't let the range of [0,255] come back in [0,1]. // Potentially lose a little bit of precision here, but will fix issues where // .5 gets interpreted as half of the total, instead of half of 1 // If it was supposed to be 128, this was already taken care of by `inputToRgb` if (this._r < 1) { this._r = mathRound(this._r); } if (this._g < 1) { this._g = mathRound(this._g); } if (this._b < 1) { this._b = mathRound(this._b); } this._ok = rgb.ok; this._tc_id = tinyCounter++; } tinycolor.prototype = { isDark: function() { return this.getBrightness() < 128; }, isLight: function() { return !this.isDark(); }, isValid: function() { return this._ok; }, getOriginalInput: function() { return this._originalInput; }, getFormat: function() { return this._format; }, getAlpha: function() { return this._a; }, getBrightness: function() { //http://www.w3.org/TR/AERT#color-contrast var rgb = this.toRgb(); return (rgb.r * 299 + rgb.g * 587 + rgb.b * 114) / 1000; }, getLuminance: function() { //http://www.w3.org/TR/2008/REC-WCAG20-20081211/#relativeluminancedef var rgb = this.toRgb(); var RsRGB, GsRGB, BsRGB, R, G, B; RsRGB = rgb.r/255; GsRGB = rgb.g/255; BsRGB = rgb.b/255; if (RsRGB <= 0.03928) {R = RsRGB / 12.92;} else {R = Math.pow(((RsRGB + 0.055) / 1.055), 2.4);} if (GsRGB <= 0.03928) {G = GsRGB / 12.92;} else {G = Math.pow(((GsRGB + 0.055) / 1.055), 2.4);} if (BsRGB <= 0.03928) {B = BsRGB / 12.92;} else {B = Math.pow(((BsRGB + 0.055) / 1.055), 2.4);} return (0.2126 * R) + (0.7152 * G) + (0.0722 * B); }, setAlpha: function(value) { this._a = boundAlpha(value); this._roundA = mathRound(100*this._a) / 100; return this; }, toHsv: function() { var hsv = rgbToHsv(this._r, this._g, this._b); return { h: hsv.h * 360, s: hsv.s, v: hsv.v, a: this._a }; }, toHsvString: function() { var hsv = rgbToHsv(this._r, this._g, this._b); var h = mathRound(hsv.h * 360), s = mathRound(hsv.s * 100), v = mathRound(hsv.v * 100); return (this._a == 1) ? "hsv(" + h + ", " + s + "%, " + v + "%)" : "hsva(" + h + ", " + s + "%, " + v + "%, "+ this._roundA + ")"; }, toHsl: function() { var hsl = rgbToHsl(this._r, this._g, this._b); return { h: hsl.h * 360, s: hsl.s, l: hsl.l, a: this._a }; }, toHslString: function() { var hsl = rgbToHsl(this._r, this._g, this._b); var h = mathRound(hsl.h * 360), s = mathRound(hsl.s * 100), l = mathRound(hsl.l * 100); return (this._a == 1) ? "hsl(" + h + ", " + s + "%, " + l + "%)" : "hsla(" + h + ", " + s + "%, " + l + "%, "+ this._roundA + ")"; }, toHex: function(allow3Char) { return rgbToHex(this._r, this._g, this._b, allow3Char); }, toHexString: function(allow3Char) { return '#' + this.toHex(allow3Char); }, toHex8: function(allow4Char) { return rgbaToHex(this._r, this._g, this._b, this._a, allow4Char); }, toHex8String: function(allow4Char) { return '#' + this.toHex8(allow4Char); }, toRgb: function() { return { r: mathRound(this._r), g: mathRound(this._g), b: mathRound(this._b), a: this._a }; }, toRgbString: function() { return (this._a == 1) ? "rgb(" + mathRound(this._r) + ", " + mathRound(this._g) + ", " + mathRound(this._b) + ")" : "rgba(" + mathRound(this._r) + ", " + mathRound(this._g) + ", " + mathRound(this._b) + ", " + this._roundA + ")"; }, toPercentageRgb: function() { return { r: mathRound(bound01(this._r, 255) * 100) + "%", g: mathRound(bound01(this._g, 255) * 100) + "%", b: mathRound(bound01(this._b, 255) * 100) + "%", a: this._a }; }, toPercentageRgbString: function() { return (this._a == 1) ? "rgb(" + mathRound(bound01(this._r, 255) * 100) + "%, " + mathRound(bound01(this._g, 255) * 100) + "%, " + mathRound(bound01(this._b, 255) * 100) + "%)" : "rgba(" + mathRound(bound01(this._r, 255) * 100) + "%, " + mathRound(bound01(this._g, 255) * 100) + "%, " + mathRound(bound01(this._b, 255) * 100) + "%, " + this._roundA + ")"; }, toName: function() { if (this._a === 0) { return "transparent"; } if (this._a < 1) { return false; } return hexNames[rgbToHex(this._r, this._g, this._b, true)] || false; }, toFilter: function(secondColor) { var hex8String = '#' + rgbaToArgbHex(this._r, this._g, this._b, this._a); var secondHex8String = hex8String; var gradientType = this._gradientType ? "GradientType = 1, " : ""; if (secondColor) { var s = tinycolor(secondColor); secondHex8String = '#' + rgbaToArgbHex(s._r, s._g, s._b, s._a); } return "progid:DXImageTransform.Microsoft.gradient("+gradientType+"startColorstr="+hex8String+",endColorstr="+secondHex8String+")"; }, toString: function(format) { var formatSet = !!format; format = format || this._format; var formattedString = false; var hasAlpha = this._a < 1 && this._a >= 0; var needsAlphaFormat = !formatSet && hasAlpha && (format === "hex" || format === "hex6" || format === "hex3" || format === "hex4" || format === "hex8" || format === "name"); if (needsAlphaFormat) { // Special case for "transparent", all other non-alpha formats // will return rgba when there is transparency. if (format === "name" && this._a === 0) { return this.toName(); } return this.toRgbString(); } if (format === "rgb") { formattedString = this.toRgbString(); } if (format === "prgb") { formattedString = this.toPercentageRgbString(); } if (format === "hex" || format === "hex6") { formattedString = this.toHexString(); } if (format === "hex3") { formattedString = this.toHexString(true); } if (format === "hex4") { formattedString = this.toHex8String(true); } if (format === "hex8") { formattedString = this.toHex8String(); } if (format === "name") { formattedString = this.toName(); } if (format === "hsl") { formattedString = this.toHslString(); } if (format === "hsv") { formattedString = this.toHsvString(); } return formattedString || this.toHexString(); }, clone: function() { return tinycolor(this.toString()); }, _applyModification: function(fn, args) { var color = fn.apply(null, [this].concat([].slice.call(args))); this._r = color._r; this._g = color._g; this._b = color._b; this.setAlpha(color._a); return this; }, lighten: function() { return this._applyModification(lighten, arguments); }, brighten: function() { return this._applyModification(brighten, arguments); }, darken: function() { return this._applyModification(darken, arguments); }, desaturate: function() { return this._applyModification(desaturate, arguments); }, saturate: function() { return this._applyModification(saturate, arguments); }, greyscale: function() { return this._applyModification(greyscale, arguments); }, spin: function() { return this._applyModification(spin, arguments); }, _applyCombination: function(fn, args) { return fn.apply(null, [this].concat([].slice.call(args))); }, analogous: function() { return this._applyCombination(analogous, arguments); }, complement: function() { return this._applyCombination(complement, arguments); }, monochromatic: function() { return this._applyCombination(monochromatic, arguments); }, splitcomplement: function() { return this._applyCombination(splitcomplement, arguments); }, triad: function() { return this._applyCombination(triad, arguments); }, tetrad: function() { return this._applyCombination(tetrad, arguments); } }; // If input is an object, force 1 into "1.0" to handle ratios properly // String input requires "1.0" as input, so 1 will be treated as 1 tinycolor.fromRatio = function(color, opts) { if (typeof color == "object") { var newColor = {}; for (var i in color) { if (color.hasOwnProperty(i)) { if (i === "a") { newColor[i] = color[i]; } else { newColor[i] = convertToPercentage(color[i]); } } } color = newColor; } return tinycolor(color, opts); }; // Given a string or object, convert that input to RGB // Possible string inputs: // // "red" // "#f00" or "f00" // "#ff0000" or "ff0000" // "#ff000000" or "ff000000" // "rgb 255 0 0" or "rgb (255, 0, 0)" // "rgb 1.0 0 0" or "rgb (1, 0, 0)" // "rgba (255, 0, 0, 1)" or "rgba 255, 0, 0, 1" // "rgba (1.0, 0, 0, 1)" or "rgba 1.0, 0, 0, 1" // "hsl(0, 100%, 50%)" or "hsl 0 100% 50%" // "hsla(0, 100%, 50%, 1)" or "hsla 0 100% 50%, 1" // "hsv(0, 100%, 100%)" or "hsv 0 100% 100%" // function inputToRGB(color) { var rgb = { r: 0, g: 0, b: 0 }; var a = 1; var s = null; var v = null; var l = null; var ok = false; var format = false; if (typeof color == "string") { color = stringInputToObject(color); } if (typeof color == "object") { if (isValidCSSUnit(color.r) && isValidCSSUnit(color.g) && isValidCSSUnit(color.b)) { rgb = rgbToRgb(color.r, color.g, color.b); ok = true; format = String(color.r).substr(-1) === "%" ? "prgb" : "rgb"; } else if (isValidCSSUnit(color.h) && isValidCSSUnit(color.s) && isValidCSSUnit(color.v)) { s = convertToPercentage(color.s); v = convertToPercentage(color.v); rgb = hsvToRgb(color.h, s, v); ok = true; format = "hsv"; } else if (isValidCSSUnit(color.h) && isValidCSSUnit(color.s) && isValidCSSUnit(color.l)) { s = convertToPercentage(color.s); l = convertToPercentage(color.l); rgb = hslToRgb(color.h, s, l); ok = true; format = "hsl"; } if (color.hasOwnProperty("a")) { a = color.a; } } a = boundAlpha(a); return { ok: ok, format: color.format || format, r: mathMin(255, mathMax(rgb.r, 0)), g: mathMin(255, mathMax(rgb.g, 0)), b: mathMin(255, mathMax(rgb.b, 0)), a: a }; } // Conversion Functions // -------------------- // `rgbToHsl`, `rgbToHsv`, `hslToRgb`, `hsvToRgb` modified from: // // `rgbToRgb` // Handle bounds / percentage checking to conform to CSS color spec // // *Assumes:* r, g, b in [0, 255] or [0, 1] // *Returns:* { r, g, b } in [0, 255] function rgbToRgb(r, g, b){ return { r: bound01(r, 255) * 255, g: bound01(g, 255) * 255, b: bound01(b, 255) * 255 }; } // `rgbToHsl` // Converts an RGB color value to HSL. // *Assumes:* r, g, and b are contained in [0, 255] or [0, 1] // *Returns:* { h, s, l } in [0,1] function rgbToHsl(r, g, b) { r = bound01(r, 255); g = bound01(g, 255); b = bound01(b, 255); var max = mathMax(r, g, b), min = mathMin(r, g, b); var h, s, l = (max + min) / 2; if(max == min) { h = s = 0; // achromatic } else { var d = max - min; s = l > 0.5 ? d / (2 - max - min) : d / (max + min); switch(max) { case r: h = (g - b) / d + (g < b ? 6 : 0); break; case g: h = (b - r) / d + 2; break; case b: h = (r - g) / d + 4; break; } h /= 6; } return { h: h, s: s, l: l }; } // `hslToRgb` // Converts an HSL color value to RGB. // *Assumes:* h is contained in [0, 1] or [0, 360] and s and l are contained [0, 1] or [0, 100] // *Returns:* { r, g, b } in the set [0, 255] function hslToRgb(h, s, l) { var r, g, b; h = bound01(h, 360); s = bound01(s, 100); l = bound01(l, 100); function hue2rgb(p, q, t) { if(t < 0) t += 1; if(t > 1) t -= 1; if(t < 1/6) return p + (q - p) * 6 * t; if(t < 1/2) return q; if(t < 2/3) return p + (q - p) * (2/3 - t) * 6; return p; } if(s === 0) { r = g = b = l; // achromatic } else { var q = l < 0.5 ? l * (1 + s) : l + s - l * s; var p = 2 * l - q; r = hue2rgb(p, q, h + 1/3); g = hue2rgb(p, q, h); b = hue2rgb(p, q, h - 1/3); } return { r: r * 255, g: g * 255, b: b * 255 }; } // `rgbToHsv` // Converts an RGB color value to HSV // *Assumes:* r, g, and b are contained in the set [0, 255] or [0, 1] // *Returns:* { h, s, v } in [0,1] function rgbToHsv(r, g, b) { r = bound01(r, 255); g = bound01(g, 255); b = bound01(b, 255); var max = mathMax(r, g, b), min = mathMin(r, g, b); var h, s, v = max; var d = max - min; s = max === 0 ? 0 : d / max; if(max == min) { h = 0; // achromatic } else { switch(max) { case r: h = (g - b) / d + (g < b ? 6 : 0); break; case g: h = (b - r) / d + 2; break; case b: h = (r - g) / d + 4; break; } h /= 6; } return { h: h, s: s, v: v }; } // `hsvToRgb` // Converts an HSV color value to RGB. // *Assumes:* h is contained in [0, 1] or [0, 360] and s and v are contained in [0, 1] or [0, 100] // *Returns:* { r, g, b } in the set [0, 255] function hsvToRgb(h, s, v) { h = bound01(h, 360) * 6; s = bound01(s, 100); v = bound01(v, 100); var i = Math.floor(h), f = h - i, p = v * (1 - s), q = v * (1 - f * s), t = v * (1 - (1 - f) * s), mod = i % 6, r = [v, q, p, p, t, v][mod], g = [t, v, v, q, p, p][mod], b = [p, p, t, v, v, q][mod]; return { r: r * 255, g: g * 255, b: b * 255 }; } // `rgbToHex` // Converts an RGB color to hex // Assumes r, g, and b are contained in the set [0, 255] // Returns a 3 or 6 character hex function rgbToHex(r, g, b, allow3Char) { var hex = [ pad2(mathRound(r).toString(16)), pad2(mathRound(g).toString(16)), pad2(mathRound(b).toString(16)) ]; // Return a 3 character hex if possible if (allow3Char && hex[0].charAt(0) == hex[0].charAt(1) && hex[1].charAt(0) == hex[1].charAt(1) && hex[2].charAt(0) == hex[2].charAt(1)) { return hex[0].charAt(0) + hex[1].charAt(0) + hex[2].charAt(0); } return hex.join(""); } // `rgbaToHex` // Converts an RGBA color plus alpha transparency to hex // Assumes r, g, b are contained in the set [0, 255] and // a in [0, 1]. Returns a 4 or 8 character rgba hex function rgbaToHex(r, g, b, a, allow4Char) { var hex = [ pad2(mathRound(r).toString(16)), pad2(mathRound(g).toString(16)), pad2(mathRound(b).toString(16)), pad2(convertDecimalToHex(a)) ]; // Return a 4 character hex if possible if (allow4Char && hex[0].charAt(0) == hex[0].charAt(1) && hex[1].charAt(0) == hex[1].charAt(1) && hex[2].charAt(0) == hex[2].charAt(1) && hex[3].charAt(0) == hex[3].charAt(1)) { return hex[0].charAt(0) + hex[1].charAt(0) + hex[2].charAt(0) + hex[3].charAt(0); } return hex.join(""); } // `rgbaToArgbHex` // Converts an RGBA color to an ARGB Hex8 string // Rarely used, but required for "toFilter()" function rgbaToArgbHex(r, g, b, a) { var hex = [ pad2(convertDecimalToHex(a)), pad2(mathRound(r).toString(16)), pad2(mathRound(g).toString(16)), pad2(mathRound(b).toString(16)) ]; return hex.join(""); } // `equals` // Can be called with any tinycolor input tinycolor.equals = function (color1, color2) { if (!color1 || !color2) { return false; } return tinycolor(color1).toRgbString() == tinycolor(color2).toRgbString(); }; tinycolor.random = function() { return tinycolor.fromRatio({ r: mathRandom(), g: mathRandom(), b: mathRandom() }); }; // Modification Functions // ---------------------- // Thanks to less.js for some of the basics here // function desaturate(color, amount) { amount = (amount === 0) ? 0 : (amount || 10); var hsl = tinycolor(color).toHsl(); hsl.s -= amount / 100; hsl.s = clamp01(hsl.s); return tinycolor(hsl); } function saturate(color, amount) { amount = (amount === 0) ? 0 : (amount || 10); var hsl = tinycolor(color).toHsl(); hsl.s += amount / 100; hsl.s = clamp01(hsl.s); return tinycolor(hsl); } function greyscale(color) { return tinycolor(color).desaturate(100); } function lighten (color, amount) { amount = (amount === 0) ? 0 : (amount || 10); var hsl = tinycolor(color).toHsl(); hsl.l += amount / 100; hsl.l = clamp01(hsl.l); return tinycolor(hsl); } function brighten(color, amount) { amount = (amount === 0) ? 0 : (amount || 10); var rgb = tinycolor(color).toRgb(); rgb.r = mathMax(0, mathMin(255, rgb.r - mathRound(255 * - (amount / 100)))); rgb.g = mathMax(0, mathMin(255, rgb.g - mathRound(255 * - (amount / 100)))); rgb.b = mathMax(0, mathMin(255, rgb.b - mathRound(255 * - (amount / 100)))); return tinycolor(rgb); } function darken (color, amount) { amount = (amount === 0) ? 0 : (amount || 10); var hsl = tinycolor(color).toHsl(); hsl.l -= amount / 100; hsl.l = clamp01(hsl.l); return tinycolor(hsl); } // Spin takes a positive or negative amount within [-360, 360] indicating the change of hue. // Values outside of this range will be wrapped into this range. function spin(color, amount) { var hsl = tinycolor(color).toHsl(); var hue = (hsl.h + amount) % 360; hsl.h = hue < 0 ? 360 + hue : hue; return tinycolor(hsl); } // Combination Functions // --------------------- // Thanks to jQuery xColor for some of the ideas behind these // function complement(color) { var hsl = tinycolor(color).toHsl(); hsl.h = (hsl.h + 180) % 360; return tinycolor(hsl); } function triad(color) { var hsl = tinycolor(color).toHsl(); var h = hsl.h; return [ tinycolor(color), tinycolor({ h: (h + 120) % 360, s: hsl.s, l: hsl.l }), tinycolor({ h: (h + 240) % 360, s: hsl.s, l: hsl.l }) ]; } function tetrad(color) { var hsl = tinycolor(color).toHsl(); var h = hsl.h; return [ tinycolor(color), tinycolor({ h: (h + 90) % 360, s: hsl.s, l: hsl.l }), tinycolor({ h: (h + 180) % 360, s: hsl.s, l: hsl.l }), tinycolor({ h: (h + 270) % 360, s: hsl.s, l: hsl.l }) ]; } function splitcomplement(color) { var hsl = tinycolor(color).toHsl(); var h = hsl.h; return [ tinycolor(color), tinycolor({ h: (h + 72) % 360, s: hsl.s, l: hsl.l}), tinycolor({ h: (h + 216) % 360, s: hsl.s, l: hsl.l}) ]; } function analogous(color, results, slices) { results = results || 6; slices = slices || 30; var hsl = tinycolor(color).toHsl(); var part = 360 / slices; var ret = [tinycolor(color)]; for (hsl.h = ((hsl.h - (part * results >> 1)) + 720) % 360; --results; ) { hsl.h = (hsl.h + part) % 360; ret.push(tinycolor(hsl)); } return ret; } function monochromatic(color, results) { results = results || 6; var hsv = tinycolor(color).toHsv(); var h = hsv.h, s = hsv.s, v = hsv.v; var ret = []; var modification = 1 / results; while (results--) { ret.push(tinycolor({ h: h, s: s, v: v})); v = (v + modification) % 1; } return ret; } // Utility Functions // --------------------- tinycolor.mix = function(color1, color2, amount) { amount = (amount === 0) ? 0 : (amount || 50); var rgb1 = tinycolor(color1).toRgb(); var rgb2 = tinycolor(color2).toRgb(); var p = amount / 100; var rgba = { r: ((rgb2.r - rgb1.r) * p) + rgb1.r, g: ((rgb2.g - rgb1.g) * p) + rgb1.g, b: ((rgb2.b - rgb1.b) * p) + rgb1.b, a: ((rgb2.a - rgb1.a) * p) + rgb1.a }; return tinycolor(rgba); }; // Readability Functions // --------------------- // false // tinycolor.isReadable("#000", "#111",{level:"AA",size:"large"}) => false tinycolor.isReadable = function(color1, color2, wcag2) { var readability = tinycolor.readability(color1, color2); var wcag2Parms, out; out = false; wcag2Parms = validateWCAG2Parms(wcag2); switch (wcag2Parms.level + wcag2Parms.size) { case "AAsmall": case "AAAlarge": out = readability >= 4.5; break; case "AAlarge": out = readability >= 3; break; case "AAAsmall": out = readability >= 7; break; } return out; }; // `mostReadable` // Given a base color and a list of possible foreground or background // colors for that base, returns the most readable color. // Optionally returns Black or White if the most readable color is unreadable. // *Example* // tinycolor.mostReadable(tinycolor.mostReadable("#123", ["#124", "#125"],{includeFallbackColors:false}).toHexString(); // "#112255" // tinycolor.mostReadable(tinycolor.mostReadable("#123", ["#124", "#125"],{includeFallbackColors:true}).toHexString(); // "#ffffff" // tinycolor.mostReadable("#a8015a", ["#faf3f3"],{includeFallbackColors:true,level:"AAA",size:"large"}).toHexString(); // "#faf3f3" // tinycolor.mostReadable("#a8015a", ["#faf3f3"],{includeFallbackColors:true,level:"AAA",size:"small"}).toHexString(); // "#ffffff" tinycolor.mostReadable = function(baseColor, colorList, args) { var bestColor = null; var bestScore = 0; var readability; var includeFallbackColors, level, size ; args = args || {}; includeFallbackColors = args.includeFallbackColors ; level = args.level; size = args.size; for (var i= 0; i < colorList.length ; i++) { readability = tinycolor.readability(baseColor, colorList[i]); if (readability > bestScore) { bestScore = readability; bestColor = tinycolor(colorList[i]); } } if (tinycolor.isReadable(baseColor, bestColor, {"level":level,"size":size}) || !includeFallbackColors) { return bestColor; } else { args.includeFallbackColors=false; return tinycolor.mostReadable(baseColor,["#fff", "#000"],args); } }; // Big List of Colors // ------------------ // var names = tinycolor.names = { aliceblue: "f0f8ff", antiquewhite: "faebd7", aqua: "0ff", aquamarine: "7fffd4", azure: "f0ffff", beige: "f5f5dc", bisque: "ffe4c4", black: "000", blanchedalmond: "ffebcd", blue: "00f", blueviolet: "8a2be2", brown: "a52a2a", burlywood: "deb887", burntsienna: "ea7e5d", cadetblue: "5f9ea0", chartreuse: "7fff00", chocolate: "d2691e", coral: "ff7f50", cornflowerblue: "6495ed", cornsilk: "fff8dc", crimson: "dc143c", cyan: "0ff", darkblue: "00008b", darkcyan: "008b8b", darkgoldenrod: "b8860b", darkgray: "a9a9a9", darkgreen: "006400", darkgrey: "a9a9a9", darkkhaki: "bdb76b", darkmagenta: "8b008b", darkolivegreen: "556b2f", darkorange: "ff8c00", darkorchid: "9932cc", darkred: "8b0000", darksalmon: "e9967a", darkseagreen: "8fbc8f", darkslateblue: "483d8b", darkslategray: "2f4f4f", darkslategrey: "2f4f4f", darkturquoise: "00ced1", darkviolet: "9400d3", deeppink: "ff1493", deepskyblue: "00bfff", dimgray: "696969", dimgrey: "696969", dodgerblue: "1e90ff", firebrick: "b22222", floralwhite: "fffaf0", forestgreen: "228b22", fuchsia: "f0f", gainsboro: "dcdcdc", ghostwhite: "f8f8ff", gold: "ffd700", goldenrod: "daa520", gray: "808080", green: "008000", greenyellow: "adff2f", grey: "808080", honeydew: "f0fff0", hotpink: "ff69b4", indianred: "cd5c5c", indigo: "4b0082", ivory: "fffff0", khaki: "f0e68c", lavender: "e6e6fa", lavenderblush: "fff0f5", lawngreen: "7cfc00", lemonchiffon: "fffacd", lightblue: "add8e6", lightcoral: "f08080", lightcyan: "e0ffff", lightgoldenrodyellow: "fafad2", lightgray: "d3d3d3", lightgreen: "90ee90", lightgrey: "d3d3d3", lightpink: "ffb6c1", lightsalmon: "ffa07a", lightseagreen: "20b2aa", lightskyblue: "87cefa", lightslategray: "789", lightslategrey: "789", lightsteelblue: "b0c4de", lightyellow: "ffffe0", lime: "0f0", limegreen: "32cd32", linen: "faf0e6", magenta: "f0f", maroon: "800000", mediumaquamarine: "66cdaa", mediumblue: "0000cd", mediumorchid: "ba55d3", mediumpurple: "9370db", mediumseagreen: "3cb371", mediumslateblue: "7b68ee", mediumspringgreen: "00fa9a", mediumturquoise: "48d1cc", mediumvioletred: "c71585", midnightblue: "191970", mintcream: "f5fffa", mistyrose: "ffe4e1", moccasin: "ffe4b5", navajowhite: "ffdead", navy: "000080", oldlace: "fdf5e6", olive: "808000", olivedrab: "6b8e23", orange: "ffa500", orangered: "ff4500", orchid: "da70d6", palegoldenrod: "eee8aa", palegreen: "98fb98", paleturquoise: "afeeee", palevioletred: "db7093", papayawhip: "ffefd5", peachpuff: "ffdab9", peru: "cd853f", pink: "ffc0cb", plum: "dda0dd", powderblue: "b0e0e6", purple: "800080", rebeccapurple: "663399", red: "f00", rosybrown: "bc8f8f", royalblue: "4169e1", saddlebrown: "8b4513", salmon: "fa8072", sandybrown: "f4a460", seagreen: "2e8b57", seashell: "fff5ee", sienna: "a0522d", silver: "c0c0c0", skyblue: "87ceeb", slateblue: "6a5acd", slategray: "708090", slategrey: "708090", snow: "fffafa", springgreen: "00ff7f", steelblue: "4682b4", tan: "d2b48c", teal: "008080", thistle: "d8bfd8", tomato: "ff6347", turquoise: "40e0d0", violet: "ee82ee", wheat: "f5deb3", white: "fff", whitesmoke: "f5f5f5", yellow: "ff0", yellowgreen: "9acd32" }; // Make it easy to access colors via `hexNames[hex]` var hexNames = tinycolor.hexNames = flip(names); // Utilities // --------- // `{ 'name1': 'val1' }` becomes `{ 'val1': 'name1' }` function flip(o) { var flipped = { }; for (var i in o) { if (o.hasOwnProperty(i)) { flipped[o[i]] = i; } } return flipped; } // Return a valid alpha value [0,1] with all invalid values being set to 1 function boundAlpha(a) { a = parseFloat(a); if (isNaN(a) || a < 0 || a > 1) { a = 1; } return a; } // Take input from [0, n] and return it as [0, 1] function bound01(n, max) { if (isOnePointZero(n)) { n = "100%"; } var processPercent = isPercentage(n); n = mathMin(max, mathMax(0, parseFloat(n))); // Automatically convert percentage into number if (processPercent) { n = parseInt(n * max, 10) / 100; } // Handle floating point rounding errors if ((Math.abs(n - max) < 0.000001)) { return 1; } // Convert into [0, 1] range if it isn't already return (n % max) / parseFloat(max); } // Force a number between 0 and 1 function clamp01(val) { return mathMin(1, mathMax(0, val)); } // Parse a base-16 hex value into a base-10 integer function parseIntFromHex(val) { return parseInt(val, 16); } // Need to handle 1.0 as 100%, since once it is a number, there is no difference between it and 1 // function isOnePointZero(n) { return typeof n == "string" && n.indexOf('.') != -1 && parseFloat(n) === 1; } // Check to see if string passed in is a percentage function isPercentage(n) { return typeof n === "string" && n.indexOf('%') != -1; } // Force a hex value to have 2 characters function pad2(c) { return c.length == 1 ? '0' + c : '' + c; } // Replace a decimal with it's percentage value function convertToPercentage(n) { if (n <= 1) { n = (n * 100) + "%"; } return n; } // Converts a decimal to a hex value function convertDecimalToHex(d) { return Math.round(parseFloat(d) * 255).toString(16); } // Converts a hex value to a decimal function convertHexToDecimal(h) { return (parseIntFromHex(h) / 255); } var matchers = (function() { // var CSS_INTEGER = "[-\\+]?\\d+%?"; // var CSS_NUMBER = "[-\\+]?\\d*\\.\\d+%?"; // Allow positive/negative integer/number. Don't capture the either/or, just the entire outcome. var CSS_UNIT = "(?:" + CSS_NUMBER + ")|(?:" + CSS_INTEGER + ")"; // Actual matching. // Parentheses and commas are optional, but not required. // Whitespace can take the place of commas or opening paren var PERMISSIVE_MATCH3 = "[\\s|\\(]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")\\s*\\)?"; var PERMISSIVE_MATCH4 = "[\\s|\\(]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")[,|\\s]+(" + CSS_UNIT + ")\\s*\\)?"; return { CSS_UNIT: new RegExp(CSS_UNIT), rgb: new RegExp("rgb" + PERMISSIVE_MATCH3), rgba: new RegExp("rgba" + PERMISSIVE_MATCH4), hsl: new RegExp("hsl" + PERMISSIVE_MATCH3), hsla: new RegExp("hsla" + PERMISSIVE_MATCH4), hsv: new RegExp("hsv" + PERMISSIVE_MATCH3), hsva: new RegExp("hsva" + PERMISSIVE_MATCH4), hex3: /^#?([0-9a-fA-F]{1})([0-9a-fA-F]{1})([0-9a-fA-F]{1})$/, hex6: /^#?([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})$/, hex4: /^#?([0-9a-fA-F]{1})([0-9a-fA-F]{1})([0-9a-fA-F]{1})([0-9a-fA-F]{1})$/, hex8: /^#?([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})$/ }; })(); // `isValidCSSUnit` // Take in a single string / number and check to see if it looks like a CSS unit // (see `matchers` above for definition). function isValidCSSUnit(color) { return !!matchers.CSS_UNIT.exec(color); } // `stringInputToObject` // Permissive string parsing. Take in a number of formats, and output an object // based on detected format. Returns `{ r, g, b }` or `{ h, s, l }` or `{ h, s, v}` function stringInputToObject(color) { color = color.replace(trimLeft,'').replace(trimRight, '').toLowerCase(); var named = false; if (names[color]) { color = names[color]; named = true; } else if (color == 'transparent') { return { r: 0, g: 0, b: 0, a: 0, format: "name" }; } // Try to match string input using regular expressions. // Keep most of the number bounding out of this function - don't worry about [0,1] or [0,100] or [0,360] // Just return an object and let the conversion functions handle that. // This way the result will be the same whether the tinycolor is initialized with string or object. var match; if ((match = matchers.rgb.exec(color))) { return { r: match[1], g: match[2], b: match[3] }; } if ((match = matchers.rgba.exec(color))) { return { r: match[1], g: match[2], b: match[3], a: match[4] }; } if ((match = matchers.hsl.exec(color))) { return { h: match[1], s: match[2], l: match[3] }; } if ((match = matchers.hsla.exec(color))) { return { h: match[1], s: match[2], l: match[3], a: match[4] }; } if ((match = matchers.hsv.exec(color))) { return { h: match[1], s: match[2], v: match[3] }; } if ((match = matchers.hsva.exec(color))) { return { h: match[1], s: match[2], v: match[3], a: match[4] }; } if ((match = matchers.hex8.exec(color))) { return { r: parseIntFromHex(match[1]), g: parseIntFromHex(match[2]), b: parseIntFromHex(match[3]), a: convertHexToDecimal(match[4]), format: named ? "name" : "hex8" }; } if ((match = matchers.hex6.exec(color))) { return { r: parseIntFromHex(match[1]), g: parseIntFromHex(match[2]), b: parseIntFromHex(match[3]), format: named ? "name" : "hex" }; } if ((match = matchers.hex4.exec(color))) { return { r: parseIntFromHex(match[1] + '' + match[1]), g: parseIntFromHex(match[2] + '' + match[2]), b: parseIntFromHex(match[3] + '' + match[3]), a: convertHexToDecimal(match[4] + '' + match[4]), format: named ? "name" : "hex8" }; } if ((match = matchers.hex3.exec(color))) { return { r: parseIntFromHex(match[1] + '' + match[1]), g: parseIntFromHex(match[2] + '' + match[2]), b: parseIntFromHex(match[3] + '' + match[3]), format: named ? "name" : "hex" }; } return false; } function validateWCAG2Parms(parms) { // return valid WCAG2 parms for isReadable. // If input parms are invalid, return {"level":"AA", "size":"small"} var level, size; parms = parms || {"level":"AA", "size":"small"}; level = (parms.level || "AA").toUpperCase(); size = (parms.size || "small").toLowerCase(); if (level !== "AA" && level !== "AAA") { level = "AA"; } if (size !== "small" && size !== "large") { size = "small"; } return {"level":level, "size":size}; } // Node: Export function if (typeof module !== "undefined" && module.exports) { module.exports = tinycolor; } // AMD/requirejs: Define the module else if (typeof define === 'function' && define.amd) { define(function () {return tinycolor;}); } // Browser: Expose to window else { window.tinycolor = tinycolor; } })(Math); },{}],122:[function(_dereq_,module,exports){ (function (global){(function (){ /** * Module exports. */ module.exports = deprecate; /** * Mark that a method should not be used. * Returns a modified function which warns once by default. * * If `localStorage.noDeprecation = true` is set, then it is a no-op. * * If `localStorage.throwDeprecation = true` is set, then deprecated functions * will throw an Error when invoked. * * If `localStorage.traceDeprecation = true` is set, then deprecated functions * will invoke `console.trace()` instead of `console.error()`. * * @param {Function} fn - the function to deprecate * @param {String} msg - the string to print to the console when `fn` is invoked * @returns {Function} a new "deprecated" version of `fn` * @api public */ function deprecate (fn, msg) { if (config('noDeprecation')) { return fn; } var warned = false; function deprecated() { if (!warned) { if (config('throwDeprecation')) { throw new Error(msg); } else if (config('traceDeprecation')) { console.trace(msg); } else { console.warn(msg); } warned = true; } return fn.apply(this, arguments); } return deprecated; } /** * Checks `localStorage` for boolean values for the given `name`. * * @param {String} name * @returns {Boolean} * @api private */ function config (name) { // accessing global.localStorage can trigger a DOMException in sandboxed iframes try { if (!global.localStorage) return false; } catch (_) { return false; } var val = global.localStorage[name]; if (null == val) return false; return String(val).toLowerCase() === 'true'; } }).call(this)}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {}) },{}],123:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Traditional Chinese calendar for jQuery v2.0.2. Written by Nicolas Riesco (enquiries@nicolasriesco.net) December 2016. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); var gregorianCalendar = main.instance(); /** Implementation of the traditional Chinese calendar. Source of calendar tables https://github.com/isee15/Lunar-Solar-Calendar-Converter . @class ChineseCalendar @param [language=''] {string} The language code (default English) for localisation. */ function ChineseCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } ChineseCalendar.prototype = new main.baseCalendar; assign(ChineseCalendar.prototype, { /** The calendar name. @memberof ChineseCalendar */ name: 'Chinese', /** Julian date of start of Gregorian epoch: 1 January 0001 CE. @memberof GregorianCalendar */ jdEpoch: 1721425.5, /** true if has a year zero, false if not. @memberof ChineseCalendar */ hasYearZero: false, /** The minimum month number. This calendar uses month indices to account for intercalary months. @memberof ChineseCalendar */ minMonth: 0, /** The first month in the year. This calendar uses month indices to account for intercalary months. @memberof ChineseCalendar */ firstMonth: 0, /** The minimum day number. @memberof ChineseCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof ChineseCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Chinese', epochs: ['BEC', 'EC'], monthNumbers: function(date, padded) { if (typeof date === 'string') { var match = date.match(MONTH_NUMBER_REGEXP); return (match) ? match[0] : ''; } var year = this._validateYear(date); var monthIndex = date.month(); var month = '' + this.toChineseMonth(year, monthIndex); if (padded && month.length < 2) { month = "0" + month; } if (this.isIntercalaryMonth(year, monthIndex)) { month += 'i'; } return month; }, monthNames: function(date) { if (typeof date === 'string') { var match = date.match(MONTH_NAME_REGEXP); return (match) ? match[0] : ''; } var year = this._validateYear(date); var monthIndex = date.month(); var month = this.toChineseMonth(year, monthIndex); var monthName = ['一月','二月','三月','四月','五月','六月', '七月','八月','九月','十月','十一月','十二月'][month - 1]; if (this.isIntercalaryMonth(year, monthIndex)) { monthName = '闰' + monthName; } return monthName; }, monthNamesShort: function(date) { if (typeof date === 'string') { var match = date.match(MONTH_SHORT_NAME_REGEXP); return (match) ? match[0] : ''; } var year = this._validateYear(date); var monthIndex = date.month(); var month = this.toChineseMonth(year, monthIndex); var monthName = ['一','二','三','四','五','六', '七','八','九','十','十一','十二'][month - 1]; if (this.isIntercalaryMonth(year, monthIndex)) { monthName = '闰' + monthName; } return monthName; }, parseMonth: function(year, monthString) { year = this._validateYear(year); var month = parseInt(monthString); var isIntercalary; if (!isNaN(month)) { var i = monthString[monthString.length - 1]; isIntercalary = (i === 'i' || i === 'I'); } else { if (monthString[0] === '闰') { isIntercalary = true; monthString = monthString.substring(1); } if (monthString[monthString.length - 1] === '月') { monthString = monthString.substring(0, monthString.length - 1); } month = 1 + ['一','二','三','四','五','六', '七','八','九','十','十一','十二'].indexOf(monthString); } var monthIndex = this.toMonthIndex(year, month, isIntercalary); return monthIndex; }, dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'], dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'], dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'], digits: null, dateFormat: 'yyyy/mm/dd', firstDay: 1, isRTL: false } }, /** Check that a candidate date is from the same calendar and is valid. @memberof BaseCalendar @private @param year {CDate|number} The date or the year to validate. @param error {string} Error message if invalid. @return {number} The year. @throws Error if year out of range. */ _validateYear: function(year, error) { if (year.year) { year = year.year(); } if (typeof year !== 'number' || year < 1888 || year > 2111) { throw error.replace(/\{0\}/, this.local.name); } return year; }, /** Retrieve the month index (i.e. accounting for intercalary months). @memberof ChineseCalendar @param year {number} The year. @param month {number} The month (1 for first month). @param [isIntercalary=false] {boolean} If month is intercalary. @return {number} The month index (0 for first month). @throws Error if an invalid month/year or a different calendar used. */ toMonthIndex: function(year, month, isIntercalary) { // compute intercalary month in the year (0 if none) var intercalaryMonth = this.intercalaryMonth(year); // validate month var invalidIntercalaryMonth = (isIntercalary && month !== intercalaryMonth); if (invalidIntercalaryMonth || month < 1 || month > 12) { throw main.local.invalidMonth .replace(/\{0\}/, this.local.name); } // compute month index var monthIndex; if (!intercalaryMonth) { monthIndex = month - 1; } else if(!isIntercalary && month <= intercalaryMonth) { monthIndex = month - 1; } else { monthIndex = month; } return monthIndex; }, /** Retrieve the month (i.e. accounting for intercalary months). @memberof ChineseCalendar @param year {CDate|number} The date or the year to examine. @param monthIndex {number} The month index (0 for first month). @return {number} The month (1 for first month). @throws Error if an invalid month/year or a different calendar used. */ toChineseMonth: function(year, monthIndex) { if (year.year) { year = year.year(); monthIndex = year.month(); } // compute intercalary month in the year (0 if none) var intercalaryMonth = this.intercalaryMonth(year); // validate month var maxMonthIndex = (intercalaryMonth) ? 12 : 11; if (monthIndex < 0 || monthIndex > maxMonthIndex) { throw main.local.invalidMonth .replace(/\{0\}/, this.local.name); } // compute Chinese month var month; if (!intercalaryMonth) { month = monthIndex + 1; } else if(monthIndex < intercalaryMonth) { month = monthIndex + 1; } else { month = monthIndex; } return month; }, /** Determine the intercalary month of a year (if any). @memberof ChineseCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The intercalary month number, or 0 if none. @throws Error if an invalid year or a different calendar used. */ intercalaryMonth: function(year) { year = this._validateYear(year); var monthDaysTable = LUNAR_MONTH_DAYS[year - LUNAR_MONTH_DAYS[0]]; var intercalaryMonth = monthDaysTable >> 13; return intercalaryMonth; }, /** Determine whether this date is an intercalary month. @memberof ChineseCalendar @param year {CDate|number} The date to examine or the year to examine. @param [monthIndex] {number} The month index to examine. @return {boolean} true if this is an intercalary month, false if not. @throws Error if an invalid year or a different calendar used. */ isIntercalaryMonth: function(year, monthIndex) { if (year.year) { year = year.year(); monthIndex = year.month(); } var intercalaryMonth = this.intercalaryMonth(year); return !!intercalaryMonth && intercalaryMonth === monthIndex; }, /** Determine whether this date is in a leap year. @memberof ChineseCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { return (this.intercalaryMonth(year) !== 0); }, /** Determine the week of the year for a date - ISO 8601. @memberof ChineseCalendar @param year {CDate|number} The date to examine or the year to examine. @param [monthIndex] {number} The month index to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, monthIndex, day) { // compute Chinese new year var validatedYear = this._validateYear(year, main.local.invalidyear); var packedDate = CHINESE_NEW_YEAR[validatedYear - CHINESE_NEW_YEAR[0]]; var y = (packedDate >> 9) & 0xFFF; var m = (packedDate >> 5) & 0x0F; var d = packedDate & 0x1F; // find first Thrusday of the year var firstThursday; firstThursday = gregorianCalendar.newDate(y, m, d); firstThursday.add(4 - (firstThursday.dayOfWeek() || 7), 'd'); // compute days from first Thursday var offset = this.toJD(year, monthIndex, day) - firstThursday.toJD(); return 1 + Math.floor(offset / 7); }, /** Retrieve the number of months in a year. @memberof ChineseCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of months. @throws Error if an invalid year or a different calendar used. */ monthsInYear: function(year) { return (this.leapYear(year)) ? 13 : 12; }, /** Retrieve the number of days in a month. @memberof ChineseCalendar @param year {CDate|number} The date to examine or the year of the month. @param [monthIndex] {number} The month index. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, monthIndex) { if (year.year) { monthIndex = year.month(); year = year.year(); } year = this._validateYear(year); var monthDaysTable = LUNAR_MONTH_DAYS[year - LUNAR_MONTH_DAYS[0]]; var intercalaryMonth = monthDaysTable >> 13; var maxMonthIndex = (intercalaryMonth) ? 12 : 11; if (monthIndex > maxMonthIndex) { throw main.local.invalidMonth .replace(/\{0\}/, this.local.name); } var daysInMonth = (monthDaysTable & (1 << (12 - monthIndex))) ? 30 : 29; return daysInMonth; }, /** Determine whether this date is a week day. @memberof ChineseCalendar @param year {CDate|number} The date to examine or the year to examine. @param [monthIndex] {number} The month index to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, monthIndex, day) { return (this.dayOfWeek(year, monthIndex, day) || 7) < 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof ChineseCalendar @param year {CDate|number} The date to convert or the year to convert. @param [monthIndex] {number} The month index to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, monthIndex, day) { var date = this._validate(year, month, day, main.local.invalidDate); year = this._validateYear(date.year()); monthIndex = date.month(); day = date.day(); var isIntercalary = this.isIntercalaryMonth(year, monthIndex); var month = this.toChineseMonth(year, monthIndex); var solar = toSolar(year, month, day, isIntercalary); return gregorianCalendar.toJD(solar.year, solar.month, solar.day); }, /** Create a new date from a Julian date. @memberof ChineseCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { var date = gregorianCalendar.fromJD(jd); var lunar = toLunar(date.year(), date.month(), date.day()); var monthIndex = this.toMonthIndex( lunar.year, lunar.month, lunar.isIntercalary); return this.newDate(lunar.year, monthIndex, lunar.day); }, /** Create a new date from a string. @memberof ChineseCalendar @param dateString {string} String representing a Chinese date @return {CDate} The new date. @throws Error if an invalid date. */ fromString: function(dateString) { var match = dateString.match(DATE_REGEXP); var year = this._validateYear(+match[1]); var month = +match[2]; var isIntercalary = !!match[3]; var monthIndex = this.toMonthIndex(year, month, isIntercalary); var day = +match[4]; return this.newDate(year, monthIndex, day); }, /** Add period(s) to a date. Cater for no year zero. @memberof ChineseCalendar @param date {CDate} The starting date. @param offset {number} The number of periods to adjust by. @param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day. @return {CDate} The updated date. @throws Error if a different calendar used. */ add: function(date, offset, period) { var year = date.year(); var monthIndex = date.month(); var isIntercalary = this.isIntercalaryMonth(year, monthIndex); var month = this.toChineseMonth(year, monthIndex); var cdate = Object.getPrototypeOf(ChineseCalendar.prototype) .add.call(this, date, offset, period); if (period === 'y') { // Resync month var resultYear = cdate.year(); var resultMonthIndex = cdate.month(); // Using the fact the month index of an intercalary month // equals its month number: var resultCanBeIntercalaryMonth = this.isIntercalaryMonth(resultYear, month); var correctedMonthIndex = (isIntercalary && resultCanBeIntercalaryMonth) ? this.toMonthIndex(resultYear, month, true) : this.toMonthIndex(resultYear, month, false); if (correctedMonthIndex !== resultMonthIndex) { cdate.month(correctedMonthIndex); } } return cdate; }, }); // Used by ChineseCalendar.prototype.fromString var DATE_REGEXP = /^\s*(-?\d\d\d\d|\d\d)[-/](\d?\d)([iI]?)[-/](\d?\d)/m; var MONTH_NUMBER_REGEXP = /^\d?\d[iI]?/m; var MONTH_NAME_REGEXP = /^闰?十?[一二三四五六七八九]?月/m; var MONTH_SHORT_NAME_REGEXP = /^闰?十?[一二三四五六七八九]?/m; // Chinese calendar implementation main.calendars.chinese = ChineseCalendar; // Chinese calendar tables from year 1888 to 2111 // // Source: // https://github.com/isee15/Lunar-Solar-Calendar-Converter.git // Table of intercalary months and days per month from year 1888 to 2111 // // bit (12 - i): days in the i^th month // (= 0 if i^th lunar month has 29 days) // (= 1 if i^th lunar month has 30 days) // (first month in lunar year is i = 0) // bits (13,14,15,16): intercalary month // (= 0 if lunar year has no intercalary month) var LUNAR_MONTH_DAYS = [1887, 0x1694, 0x16aa, 0x4ad5, 0xab6, 0xc4b7, 0x4ae, 0xa56, 0xb52a, 0x1d2a, 0xd54, 0x75aa, 0x156a, 0x1096d, 0x95c, 0x14ae, 0xaa4d, 0x1a4c, 0x1b2a, 0x8d55, 0xad4, 0x135a, 0x495d, 0x95c, 0xd49b, 0x149a, 0x1a4a, 0xbaa5, 0x16a8, 0x1ad4, 0x52da, 0x12b6, 0xe937, 0x92e, 0x1496, 0xb64b, 0xd4a, 0xda8, 0x95b5, 0x56c, 0x12ae, 0x492f, 0x92e, 0xcc96, 0x1a94, 0x1d4a, 0xada9, 0xb5a, 0x56c, 0x726e, 0x125c, 0xf92d, 0x192a, 0x1a94, 0xdb4a, 0x16aa, 0xad4, 0x955b, 0x4ba, 0x125a, 0x592b, 0x152a, 0xf695, 0xd94, 0x16aa, 0xaab5, 0x9b4, 0x14b6, 0x6a57, 0xa56, 0x1152a, 0x1d2a, 0xd54, 0xd5aa, 0x156a, 0x96c, 0x94ae, 0x14ae, 0xa4c, 0x7d26, 0x1b2a, 0xeb55, 0xad4, 0x12da, 0xa95d, 0x95a, 0x149a, 0x9a4d, 0x1a4a, 0x11aa5, 0x16a8, 0x16d4, 0xd2da, 0x12b6, 0x936, 0x9497, 0x1496, 0x1564b, 0xd4a, 0xda8, 0xd5b4, 0x156c, 0x12ae, 0xa92f, 0x92e, 0xc96, 0x6d4a, 0x1d4a, 0x10d65, 0xb58, 0x156c, 0xb26d, 0x125c, 0x192c, 0x9a95, 0x1a94, 0x1b4a, 0x4b55, 0xad4, 0xf55b, 0x4ba, 0x125a, 0xb92b, 0x152a, 0x1694, 0x96aa, 0x15aa, 0x12ab5, 0x974, 0x14b6, 0xca57, 0xa56, 0x1526, 0x8e95, 0xd54, 0x15aa, 0x49b5, 0x96c, 0xd4ae, 0x149c, 0x1a4c, 0xbd26, 0x1aa6, 0xb54, 0x6d6a, 0x12da, 0x1695d, 0x95a, 0x149a, 0xda4b, 0x1a4a, 0x1aa4, 0xbb54, 0x16b4, 0xada, 0x495b, 0x936, 0xf497, 0x1496, 0x154a, 0xb6a5, 0xda4, 0x15b4, 0x6ab6, 0x126e, 0x1092f, 0x92e, 0xc96, 0xcd4a, 0x1d4a, 0xd64, 0x956c, 0x155c, 0x125c, 0x792e, 0x192c, 0xfa95, 0x1a94, 0x1b4a, 0xab55, 0xad4, 0x14da, 0x8a5d, 0xa5a, 0x1152b, 0x152a, 0x1694, 0xd6aa, 0x15aa, 0xab4, 0x94ba, 0x14b6, 0xa56, 0x7527, 0xd26, 0xee53, 0xd54, 0x15aa, 0xa9b5, 0x96c, 0x14ae, 0x8a4e, 0x1a4c, 0x11d26, 0x1aa4, 0x1b54, 0xcd6a, 0xada, 0x95c, 0x949d, 0x149a, 0x1a2a, 0x5b25, 0x1aa4, 0xfb52, 0x16b4, 0xaba, 0xa95b, 0x936, 0x1496, 0x9a4b, 0x154a, 0x136a5, 0xda4, 0x15ac]; // Table of Chinese New Years from year 1888 to 2111 // // bits (0 to 4): solar day // bits (5 to 8): solar month // bits (9 to 20): solar year var CHINESE_NEW_YEAR = [1887, 0xec04c, 0xec23f, 0xec435, 0xec649, 0xec83e, 0xeca51, 0xecc46, 0xece3a, 0xed04d, 0xed242, 0xed436, 0xed64a, 0xed83f, 0xeda53, 0xedc48, 0xede3d, 0xee050, 0xee244, 0xee439, 0xee64d, 0xee842, 0xeea36, 0xeec4a, 0xeee3e, 0xef052, 0xef246, 0xef43a, 0xef64e, 0xef843, 0xefa37, 0xefc4b, 0xefe41, 0xf0054, 0xf0248, 0xf043c, 0xf0650, 0xf0845, 0xf0a38, 0xf0c4d, 0xf0e42, 0xf1037, 0xf124a, 0xf143e, 0xf1651, 0xf1846, 0xf1a3a, 0xf1c4e, 0xf1e44, 0xf2038, 0xf224b, 0xf243f, 0xf2653, 0xf2848, 0xf2a3b, 0xf2c4f, 0xf2e45, 0xf3039, 0xf324d, 0xf3442, 0xf3636, 0xf384a, 0xf3a3d, 0xf3c51, 0xf3e46, 0xf403b, 0xf424e, 0xf4443, 0xf4638, 0xf484c, 0xf4a3f, 0xf4c52, 0xf4e48, 0xf503c, 0xf524f, 0xf5445, 0xf5639, 0xf584d, 0xf5a42, 0xf5c35, 0xf5e49, 0xf603e, 0xf6251, 0xf6446, 0xf663b, 0xf684f, 0xf6a43, 0xf6c37, 0xf6e4b, 0xf703f, 0xf7252, 0xf7447, 0xf763c, 0xf7850, 0xf7a45, 0xf7c39, 0xf7e4d, 0xf8042, 0xf8254, 0xf8449, 0xf863d, 0xf8851, 0xf8a46, 0xf8c3b, 0xf8e4f, 0xf9044, 0xf9237, 0xf944a, 0xf963f, 0xf9853, 0xf9a47, 0xf9c3c, 0xf9e50, 0xfa045, 0xfa238, 0xfa44c, 0xfa641, 0xfa836, 0xfaa49, 0xfac3d, 0xfae52, 0xfb047, 0xfb23a, 0xfb44e, 0xfb643, 0xfb837, 0xfba4a, 0xfbc3f, 0xfbe53, 0xfc048, 0xfc23c, 0xfc450, 0xfc645, 0xfc839, 0xfca4c, 0xfcc41, 0xfce36, 0xfd04a, 0xfd23d, 0xfd451, 0xfd646, 0xfd83a, 0xfda4d, 0xfdc43, 0xfde37, 0xfe04b, 0xfe23f, 0xfe453, 0xfe648, 0xfe83c, 0xfea4f, 0xfec44, 0xfee38, 0xff04c, 0xff241, 0xff436, 0xff64a, 0xff83e, 0xffa51, 0xffc46, 0xffe3a, 0x10004e, 0x100242, 0x100437, 0x10064b, 0x100841, 0x100a53, 0x100c48, 0x100e3c, 0x10104f, 0x101244, 0x101438, 0x10164c, 0x101842, 0x101a35, 0x101c49, 0x101e3d, 0x102051, 0x102245, 0x10243a, 0x10264e, 0x102843, 0x102a37, 0x102c4b, 0x102e3f, 0x103053, 0x103247, 0x10343b, 0x10364f, 0x103845, 0x103a38, 0x103c4c, 0x103e42, 0x104036, 0x104249, 0x10443d, 0x104651, 0x104846, 0x104a3a, 0x104c4e, 0x104e43, 0x105038, 0x10524a, 0x10543e, 0x105652, 0x105847, 0x105a3b, 0x105c4f, 0x105e45, 0x106039, 0x10624c, 0x106441, 0x106635, 0x106849, 0x106a3d, 0x106c51, 0x106e47, 0x10703c, 0x10724f, 0x107444, 0x107638, 0x10784c, 0x107a3f, 0x107c53, 0x107e48]; function toLunar(yearOrDate, monthOrResult, day, result) { var solarDate; var lunarDate; if(typeof yearOrDate === 'object') { solarDate = yearOrDate; lunarDate = monthOrResult || {}; } else { var isValidYear = (typeof yearOrDate === 'number') && (yearOrDate >= 1888) && (yearOrDate <= 2111); if(!isValidYear) throw new Error("Solar year outside range 1888-2111"); var isValidMonth = (typeof monthOrResult === 'number') && (monthOrResult >= 1) && (monthOrResult <= 12); if(!isValidMonth) throw new Error("Solar month outside range 1 - 12"); var isValidDay = (typeof day === 'number') && (day >= 1) && (day <= 31); if(!isValidDay) throw new Error("Solar day outside range 1 - 31"); solarDate = { year: yearOrDate, month: monthOrResult, day: day, }; lunarDate = result || {}; } // Compute Chinese new year and lunar year var chineseNewYearPackedDate = CHINESE_NEW_YEAR[solarDate.year - CHINESE_NEW_YEAR[0]]; var packedDate = (solarDate.year << 9) | (solarDate.month << 5) | solarDate.day; lunarDate.year = (packedDate >= chineseNewYearPackedDate) ? solarDate.year : solarDate.year - 1; chineseNewYearPackedDate = CHINESE_NEW_YEAR[lunarDate.year - CHINESE_NEW_YEAR[0]]; var y = (chineseNewYearPackedDate >> 9) & 0xFFF; var m = (chineseNewYearPackedDate >> 5) & 0x0F; var d = chineseNewYearPackedDate & 0x1F; // Compute days from new year var daysFromNewYear; var chineseNewYearJSDate = new Date(y, m -1, d); var jsDate = new Date(solarDate.year, solarDate.month - 1, solarDate.day); daysFromNewYear = Math.round( (jsDate - chineseNewYearJSDate) / (24 * 3600 * 1000)); // Compute lunar month and day var monthDaysTable = LUNAR_MONTH_DAYS[lunarDate.year - LUNAR_MONTH_DAYS[0]]; var i; for(i = 0; i < 13; i++) { var daysInMonth = (monthDaysTable & (1 << (12 - i))) ? 30 : 29; if (daysFromNewYear < daysInMonth) { break; } daysFromNewYear -= daysInMonth; } var intercalaryMonth = monthDaysTable >> 13; if (!intercalaryMonth || i < intercalaryMonth) { lunarDate.isIntercalary = false; lunarDate.month = 1 + i; } else if (i === intercalaryMonth) { lunarDate.isIntercalary = true; lunarDate.month = i; } else { lunarDate.isIntercalary = false; lunarDate.month = i; } lunarDate.day = 1 + daysFromNewYear; return lunarDate; } function toSolar(yearOrDate, monthOrResult, day, isIntercalaryOrResult, result) { var solarDate; var lunarDate; if(typeof yearOrDate === 'object') { lunarDate = yearOrDate; solarDate = monthOrResult || {}; } else { var isValidYear = (typeof yearOrDate === 'number') && (yearOrDate >= 1888) && (yearOrDate <= 2111); if(!isValidYear) throw new Error("Lunar year outside range 1888-2111"); var isValidMonth = (typeof monthOrResult === 'number') && (monthOrResult >= 1) && (monthOrResult <= 12); if(!isValidMonth) throw new Error("Lunar month outside range 1 - 12"); var isValidDay = (typeof day === 'number') && (day >= 1) && (day <= 30); if(!isValidDay) throw new Error("Lunar day outside range 1 - 30"); var isIntercalary; if(typeof isIntercalaryOrResult === 'object') { isIntercalary = false; solarDate = isIntercalaryOrResult; } else { isIntercalary = !!isIntercalaryOrResult; solarDate = result || {}; } lunarDate = { year: yearOrDate, month: monthOrResult, day: day, isIntercalary: isIntercalary, }; } // Compute days from new year var daysFromNewYear; daysFromNewYear = lunarDate.day - 1; var monthDaysTable = LUNAR_MONTH_DAYS[lunarDate.year - LUNAR_MONTH_DAYS[0]]; var intercalaryMonth = monthDaysTable >> 13; var monthsFromNewYear; if (!intercalaryMonth) { monthsFromNewYear = lunarDate.month - 1; } else if (lunarDate.month > intercalaryMonth) { monthsFromNewYear = lunarDate.month; } else if (lunarDate.isIntercalary) { monthsFromNewYear = lunarDate.month; } else { monthsFromNewYear = lunarDate.month - 1; } for(var i = 0; i < monthsFromNewYear; i++) { var daysInMonth = (monthDaysTable & (1 << (12 - i))) ? 30 : 29; daysFromNewYear += daysInMonth; } // Compute Chinese new year var packedDate = CHINESE_NEW_YEAR[lunarDate.year - CHINESE_NEW_YEAR[0]]; var y = (packedDate >> 9) & 0xFFF; var m = (packedDate >> 5) & 0x0F; var d = packedDate & 0x1F; // Compute solar date var jsDate = new Date(y, m - 1, d + daysFromNewYear); solarDate.year = jsDate.getFullYear(); solarDate.month = 1 + jsDate.getMonth(); solarDate.day = jsDate.getDate(); return solarDate; } },{"../main":137,"object-assign":73}],124:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Coptic calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) February 2010. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Coptic calendar. See http://en.wikipedia.org/wiki/Coptic_calendar. See also Calendrical Calculations: The Millennium Edition (http://emr.cs.iit.edu/home/reingold/calendar-book/index.shtml). @class CopticCalendar @param [language=''] {string} The language code (default English) for localisation. */ function CopticCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } CopticCalendar.prototype = new main.baseCalendar; assign(CopticCalendar.prototype, { /** The calendar name. @memberof CopticCalendar */ name: 'Coptic', /** Julian date of start of Coptic epoch: 29 August 284 CE (Gregorian). @memberof CopticCalendar */ jdEpoch: 1825029.5, /** Days per month in a common year. @memberof CopticCalendar */ daysPerMonth: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 5], /** true if has a year zero, false if not. @memberof CopticCalendar */ hasYearZero: false, /** The minimum month number. @memberof CopticCalendar */ minMonth: 1, /** The first month in the year. @memberof CopticCalendar */ firstMonth: 1, /** The minimum day number. @memberof CopticCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof CopticCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Coptic', epochs: ['BAM', 'AM'], monthNames: ['Thout', 'Paopi', 'Hathor', 'Koiak', 'Tobi', 'Meshir', 'Paremhat', 'Paremoude', 'Pashons', 'Paoni', 'Epip', 'Mesori', 'Pi Kogi Enavot'], monthNamesShort: ['Tho', 'Pao', 'Hath', 'Koi', 'Tob', 'Mesh', 'Pat', 'Pad', 'Pash', 'Pao', 'Epi', 'Meso', 'PiK'], dayNames: ['Tkyriaka', 'Pesnau', 'Pshoment', 'Peftoou', 'Ptiou', 'Psoou', 'Psabbaton'], dayNamesShort: ['Tky', 'Pes', 'Psh', 'Pef', 'Pti', 'Pso', 'Psa'], dayNamesMin: ['Tk', 'Pes', 'Psh', 'Pef', 'Pt', 'Pso', 'Psa'], digits: null, dateFormat: 'dd/mm/yyyy', firstDay: 0, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof CopticCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); var year = date.year() + (date.year() < 0 ? 1 : 0); // No year zero return year % 4 === 3 || year % 4 === -1; }, /** Retrieve the number of months in a year. @memberof CopticCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of months. @throws Error if an invalid year or a different calendar used. */ monthsInYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear || main.regionalOptions[''].invalidYear); return 13; }, /** Determine the week of the year for a date. @memberof CopticCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number) the month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Sunday of this week starting on Sunday var checkDate = this.newDate(year, month, day); checkDate.add(-checkDate.dayOfWeek(), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a month. @memberof CopticCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 13 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof CopticCalendar @param year {CDate|number} The date to examine or the year to examine. @param month {number} The month to examine. @param day {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return (this.dayOfWeek(year, month, day) || 7) < 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof CopticCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number) the month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); year = date.year(); if (year < 0) { year++; } // No year zero return date.day() + (date.month() - 1) * 30 + (year - 1) * 365 + Math.floor(year / 4) + this.jdEpoch - 1; }, /** Create a new date from a Julian date. @memberof CopticCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { var c = Math.floor(jd) + 0.5 - this.jdEpoch; var year = Math.floor((c - Math.floor((c + 366) / 1461)) / 365) + 1; if (year <= 0) { year--; } // No year zero c = Math.floor(jd) + 0.5 - this.newDate(year, 1, 1).toJD(); var month = Math.floor(c / 30) + 1; var day = c - (month - 1) * 30 + 1; return this.newDate(year, month, day); } }); // Coptic calendar implementation main.calendars.coptic = CopticCalendar; },{"../main":137,"object-assign":73}],125:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Discworld calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) January 2016. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Discworld calendar - Unseen University version. See also http://wiki.lspace.org/mediawiki/Discworld_calendar and http://discworld.wikia.com/wiki/Discworld_calendar. @class DiscworldCalendar @param [language=''] {string} The language code (default English) for localisation. */ function DiscworldCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } DiscworldCalendar.prototype = new main.baseCalendar; assign(DiscworldCalendar.prototype, { /** The calendar name. @memberof DiscworldCalendar */ name: 'Discworld', /** Julian date of start of Discworld epoch: 1 January 0001 CE. @memberof DiscworldCalendar */ jdEpoch: 1721425.5, /** Days per month in a common year. @memberof DiscworldCalendar */ daysPerMonth: [16, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32], /** true if has a year zero, false if not. @memberof DiscworldCalendar */ hasYearZero: false, /** The minimum month number. @memberof DiscworldCalendar */ minMonth: 1, /** The first month in the year. @memberof DiscworldCalendar */ firstMonth: 1, /** The minimum day number. @memberof DiscworldCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof DiscworldCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Discworld', epochs: ['BUC', 'UC'], monthNames: ['Ick', 'Offle', 'February', 'March', 'April', 'May', 'June', 'Grune', 'August', 'Spune', 'Sektober', 'Ember', 'December'], monthNamesShort: ['Ick', 'Off', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Gru', 'Aug', 'Spu', 'Sek', 'Emb', 'Dec'], dayNames: ['Sunday', 'Octeday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'], dayNamesShort: ['Sun', 'Oct', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'], dayNamesMin: ['Su', 'Oc', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'], digits: null, dateFormat: 'yyyy/mm/dd', firstDay: 2, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof DiscworldCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return false; }, /** Retrieve the number of months in a year. @memberof DiscworldCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of months. @throws Error if an invalid year or a different calendar used. */ monthsInYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return 13; }, /** Retrieve the number of days in a year. @memberof DiscworldCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of days. @throws Error if an invalid year or a different calendar used. */ daysInYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return 400; }, /** Determine the week of the year for a date. @memberof DiscworldCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Sunday of this week starting on Sunday var checkDate = this.newDate(year, month, day); checkDate.add(-checkDate.dayOfWeek(), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 8) + 1; }, /** Retrieve the number of days in a month. @memberof DiscworldCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1]; }, /** Retrieve the number of days in a week. @memberof DiscworldCalendar @return {number} The number of days. */ daysInWeek: function() { return 8; }, /** Retrieve the day of the week for a date. @memberof DiscworldCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The day of the week: 0 to number of days - 1. @throws Error if an invalid date or a different calendar used. */ dayOfWeek: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); return (date.day() + 1) % 8; }, /** Determine whether this date is a week day. @memberof DiscworldCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { var dow = this.dayOfWeek(year, month, day); return (dow >= 2 && dow <= 6); }, /** Retrieve additional information about a date. @memberof DiscworldCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {object} Additional information - contents depends on calendar. @throws Error if an invalid date or a different calendar used. */ extraInfo: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); return {century: centuries[Math.floor((date.year() - 1) / 100) + 1] || ''}; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof DiscworldCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); year = date.year() + (date.year() < 0 ? 1 : 0); month = date.month(); day = date.day(); return day + (month > 1 ? 16 : 0) + (month > 2 ? (month - 2) * 32 : 0) + (year - 1) * 400 + this.jdEpoch - 1; }, /** Create a new date from a Julian date. @memberof DiscworldCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { jd = Math.floor(jd + 0.5) - Math.floor(this.jdEpoch) - 1; var year = Math.floor(jd / 400) + 1; jd -= (year - 1) * 400; jd += (jd > 15 ? 16 : 0); var month = Math.floor(jd / 32) + 1; var day = jd - (month - 1) * 32 + 1; return this.newDate(year <= 0 ? year - 1 : year, month, day); } }); // Names of the centuries var centuries = { 20: 'Fruitbat', 21: 'Anchovy' }; // Discworld calendar implementation main.calendars.discworld = DiscworldCalendar; },{"../main":137,"object-assign":73}],126:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Ethiopian calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) February 2010. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Ethiopian calendar. See http://en.wikipedia.org/wiki/Ethiopian_calendar. See also Calendrical Calculations: The Millennium Edition (http://emr.cs.iit.edu/home/reingold/calendar-book/index.shtml). @class EthiopianCalendar @param [language=''] {string} The language code (default English) for localisation. */ function EthiopianCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } EthiopianCalendar.prototype = new main.baseCalendar; assign(EthiopianCalendar.prototype, { /** The calendar name. @memberof EthiopianCalendar */ name: 'Ethiopian', /** Julian date of start of Ethiopian epoch: 27 August 8 CE (Gregorian). @memberof EthiopianCalendar */ jdEpoch: 1724220.5, /** Days per month in a common year. @memberof EthiopianCalendar */ daysPerMonth: [30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 30, 5], /** true if has a year zero, false if not. @memberof EthiopianCalendar */ hasYearZero: false, /** The minimum month number. @memberof EthiopianCalendar */ minMonth: 1, /** The first month in the year. @memberof EthiopianCalendar */ firstMonth: 1, /** The minimum day number. @memberof EthiopianCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof EthiopianCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Ethiopian', epochs: ['BEE', 'EE'], monthNames: ['Meskerem', 'Tikemet', 'Hidar', 'Tahesas', 'Tir', 'Yekatit', 'Megabit', 'Miazia', 'Genbot', 'Sene', 'Hamle', 'Nehase', 'Pagume'], monthNamesShort: ['Mes', 'Tik', 'Hid', 'Tah', 'Tir', 'Yek', 'Meg', 'Mia', 'Gen', 'Sen', 'Ham', 'Neh', 'Pag'], dayNames: ['Ehud', 'Segno', 'Maksegno', 'Irob', 'Hamus', 'Arb', 'Kidame'], dayNamesShort: ['Ehu', 'Seg', 'Mak', 'Iro', 'Ham', 'Arb', 'Kid'], dayNamesMin: ['Eh', 'Se', 'Ma', 'Ir', 'Ha', 'Ar', 'Ki'], digits: null, dateFormat: 'dd/mm/yyyy', firstDay: 0, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof EthiopianCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); var year = date.year() + (date.year() < 0 ? 1 : 0); // No year zero return year % 4 === 3 || year % 4 === -1; }, /** Retrieve the number of months in a year. @memberof EthiopianCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of months. @throws Error if an invalid year or a different calendar used. */ monthsInYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear || main.regionalOptions[''].invalidYear); return 13; }, /** Determine the week of the year for a date. @memberof EthiopianCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Sunday of this week starting on Sunday var checkDate = this.newDate(year, month, day); checkDate.add(-checkDate.dayOfWeek(), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a month. @memberof EthiopianCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 13 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof EthiopianCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return (this.dayOfWeek(year, month, day) || 7) < 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof EthiopianCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); year = date.year(); if (year < 0) { year++; } // No year zero return date.day() + (date.month() - 1) * 30 + (year - 1) * 365 + Math.floor(year / 4) + this.jdEpoch - 1; }, /** Create a new date from a Julian date. @memberof EthiopianCalendar @param jd {number} the Julian date to convert. @return {CDate} the equivalent date. */ fromJD: function(jd) { var c = Math.floor(jd) + 0.5 - this.jdEpoch; var year = Math.floor((c - Math.floor((c + 366) / 1461)) / 365) + 1; if (year <= 0) { year--; } // No year zero c = Math.floor(jd) + 0.5 - this.newDate(year, 1, 1).toJD(); var month = Math.floor(c / 30) + 1; var day = c - (month - 1) * 30 + 1; return this.newDate(year, month, day); } }); // Ethiopian calendar implementation main.calendars.ethiopian = EthiopianCalendar; },{"../main":137,"object-assign":73}],127:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Hebrew calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Hebrew civil calendar. Based on code from http://www.fourmilab.ch/documents/calendar/. See also http://en.wikipedia.org/wiki/Hebrew_calendar. @class HebrewCalendar @param [language=''] {string} The language code (default English) for localisation. */ function HebrewCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } HebrewCalendar.prototype = new main.baseCalendar; assign(HebrewCalendar.prototype, { /** The calendar name. @memberof HebrewCalendar */ name: 'Hebrew', /** Julian date of start of Hebrew epoch: 7 October 3761 BCE. @memberof HebrewCalendar */ jdEpoch: 347995.5, /** Days per month in a common year. @memberof HebrewCalendar */ daysPerMonth: [30, 29, 30, 29, 30, 29, 30, 29, 30, 29, 30, 29, 29], /** true if has a year zero, false if not. @memberof HebrewCalendar */ hasYearZero: false, /** The minimum month number. @memberof HebrewCalendar */ minMonth: 1, /** The first month in the year. @memberof HebrewCalendar */ firstMonth: 7, /** The minimum day number. @memberof HebrewCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof HebrewCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Hebrew', epochs: ['BAM', 'AM'], monthNames: ['Nisan', 'Iyar', 'Sivan', 'Tammuz', 'Av', 'Elul', 'Tishrei', 'Cheshvan', 'Kislev', 'Tevet', 'Shevat', 'Adar', 'Adar II'], monthNamesShort: ['Nis', 'Iya', 'Siv', 'Tam', 'Av', 'Elu', 'Tis', 'Che', 'Kis', 'Tev', 'She', 'Ada', 'Ad2'], dayNames: ['Yom Rishon', 'Yom Sheni', 'Yom Shlishi', 'Yom Revi\'i', 'Yom Chamishi', 'Yom Shishi', 'Yom Shabbat'], dayNamesShort: ['Ris', 'She', 'Shl', 'Rev', 'Cha', 'Shi', 'Sha'], dayNamesMin: ['Ri','She','Shl','Re','Ch','Shi','Sha'], digits: null, dateFormat: 'dd/mm/yyyy', firstDay: 0, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof HebrewCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return this._leapYear(date.year()); }, /** Determine whether this date is in a leap year. @memberof HebrewCalendar @private @param year {number} The year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ _leapYear: function(year) { year = (year < 0 ? year + 1 : year); return mod(year * 7 + 1, 19) < 7; }, /** Retrieve the number of months in a year. @memberof HebrewCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of months. @throws Error if an invalid year or a different calendar used. */ monthsInYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return this._leapYear(year.year ? year.year() : year) ? 13 : 12; }, /** Determine the week of the year for a date. @memberof HebrewCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Sunday of this week starting on Sunday var checkDate = this.newDate(year, month, day); checkDate.add(-checkDate.dayOfWeek(), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a year. @memberof HebrewCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of days. @throws Error if an invalid year or a different calendar used. */ daysInYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); year = date.year(); return this.toJD((year === -1 ? +1 : year + 1), 7, 1) - this.toJD(year, 7, 1); }, /** Retrieve the number of days in a month. @memberof HebrewCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { if (year.year) { month = year.month(); year = year.year(); } this._validate(year, month, this.minDay, main.local.invalidMonth); return (month === 12 && this.leapYear(year) ? 30 : // Adar I (month === 8 && mod(this.daysInYear(year), 10) === 5 ? 30 : // Cheshvan in shlemah year (month === 9 && mod(this.daysInYear(year), 10) === 3 ? 29 : // Kislev in chaserah year this.daysPerMonth[month - 1]))); }, /** Determine whether this date is a week day. @memberof HebrewCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return this.dayOfWeek(year, month, day) !== 6; }, /** Retrieve additional information about a date - year type. @memberof HebrewCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {object} Additional information - contents depends on calendar. @throws Error if an invalid date or a different calendar used. */ extraInfo: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); return {yearType: (this.leapYear(date) ? 'embolismic' : 'common') + ' ' + ['deficient', 'regular', 'complete'][this.daysInYear(date) % 10 - 3]}; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof HebrewCalendar @param year {CDate)|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); year = date.year(); month = date.month(); day = date.day(); var adjYear = (year <= 0 ? year + 1 : year); var jd = this.jdEpoch + this._delay1(adjYear) + this._delay2(adjYear) + day + 1; if (month < 7) { for (var m = 7; m <= this.monthsInYear(year); m++) { jd += this.daysInMonth(year, m); } for (var m = 1; m < month; m++) { jd += this.daysInMonth(year, m); } } else { for (var m = 7; m < month; m++) { jd += this.daysInMonth(year, m); } } return jd; }, /** Test for delay of start of new year and to avoid Sunday, Wednesday, or Friday as start of the new year. @memberof HebrewCalendar @private @param year {number} The year to examine. @return {number} The days to offset by. */ _delay1: function(year) { var months = Math.floor((235 * year - 234) / 19); var parts = 12084 + 13753 * months; var day = months * 29 + Math.floor(parts / 25920); if (mod(3 * (day + 1), 7) < 3) { day++; } return day; }, /** Check for delay in start of new year due to length of adjacent years. @memberof HebrewCalendar @private @param year {number} The year to examine. @return {number} The days to offset by. */ _delay2: function(year) { var last = this._delay1(year - 1); var present = this._delay1(year); var next = this._delay1(year + 1); return ((next - present) === 356 ? 2 : ((present - last) === 382 ? 1 : 0)); }, /** Create a new date from a Julian date. @memberof HebrewCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { jd = Math.floor(jd) + 0.5; var year = Math.floor(((jd - this.jdEpoch) * 98496.0) / 35975351.0) - 1; while (jd >= this.toJD((year === -1 ? +1 : year + 1), 7, 1)) { year++; } var month = (jd < this.toJD(year, 1, 1)) ? 7 : 1; while (jd > this.toJD(year, month, this.daysInMonth(year, month))) { month++; } var day = jd - this.toJD(year, month, 1) + 1; return this.newDate(year, month, day); } }); // Modulus function which works for non-integers. function mod(a, b) { return a - (b * Math.floor(a / b)); } // Hebrew calendar implementation main.calendars.hebrew = HebrewCalendar; },{"../main":137,"object-assign":73}],128:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Islamic calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Islamic or '16 civil' calendar. Based on code from http://www.iranchamber.com/calendar/converter/iranian_calendar_converter.php. See also http://en.wikipedia.org/wiki/Islamic_calendar. @class IslamicCalendar @param [language=''] {string} The language code (default English) for localisation. */ function IslamicCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } IslamicCalendar.prototype = new main.baseCalendar; assign(IslamicCalendar.prototype, { /** The calendar name. @memberof IslamicCalendar */ name: 'Islamic', /** Julian date of start of Islamic epoch: 16 July 622 CE. @memberof IslamicCalendar */ jdEpoch: 1948439.5, /** Days per month in a common year. @memberof IslamicCalendar */ daysPerMonth: [30, 29, 30, 29, 30, 29, 30, 29, 30, 29, 30, 29], /** true if has a year zero, false if not. @memberof IslamicCalendar */ hasYearZero: false, /** The minimum month number. @memberof IslamicCalendar */ minMonth: 1, /** The first month in the year. @memberof IslamicCalendar */ firstMonth: 1, /** The minimum day number. @memberof IslamicCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof IslamicCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Islamic', epochs: ['BH', 'AH'], monthNames: ['Muharram', 'Safar', 'Rabi\' al-awwal', 'Rabi\' al-thani', 'Jumada al-awwal', 'Jumada al-thani', 'Rajab', 'Sha\'aban', 'Ramadan', 'Shawwal', 'Dhu al-Qi\'dah', 'Dhu al-Hijjah'], monthNamesShort: ['Muh', 'Saf', 'Rab1', 'Rab2', 'Jum1', 'Jum2', 'Raj', 'Sha\'', 'Ram', 'Shaw', 'DhuQ', 'DhuH'], dayNames: ['Yawm al-ahad', 'Yawm al-ithnayn', 'Yawm ath-thulaathaa\'', 'Yawm al-arbi\'aa\'', 'Yawm al-khamīs', 'Yawm al-jum\'a', 'Yawm as-sabt'], dayNamesShort: ['Aha', 'Ith', 'Thu', 'Arb', 'Kha', 'Jum', 'Sab'], dayNamesMin: ['Ah','It','Th','Ar','Kh','Ju','Sa'], digits: null, dateFormat: 'yyyy/mm/dd', firstDay: 6, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof IslamicCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return (date.year() * 11 + 14) % 30 < 11; }, /** Determine the week of the year for a date. @memberof IslamicCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Sunday of this week starting on Sunday var checkDate = this.newDate(year, month, day); checkDate.add(-checkDate.dayOfWeek(), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a year. @memberof IslamicCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of days. @throws Error if an invalid year or a different calendar used. */ daysInYear: function(year) { return (this.leapYear(year) ? 355 : 354); }, /** Retrieve the number of days in a month. @memberof IslamicCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 12 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof IslamicCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return this.dayOfWeek(year, month, day) !== 5; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof IslamicCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); year = date.year(); month = date.month(); day = date.day(); year = (year <= 0 ? year + 1 : year); return day + Math.ceil(29.5 * (month - 1)) + (year - 1) * 354 + Math.floor((3 + (11 * year)) / 30) + this.jdEpoch - 1; }, /** Create a new date from a Julian date. @memberof IslamicCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { jd = Math.floor(jd) + 0.5; var year = Math.floor((30 * (jd - this.jdEpoch) + 10646) / 10631); year = (year <= 0 ? year - 1 : year); var month = Math.min(12, Math.ceil((jd - 29 - this.toJD(year, 1, 1)) / 29.5) + 1); var day = jd - this.toJD(year, month, 1) + 1; return this.newDate(year, month, day); } }); // Islamic (16 civil) calendar implementation main.calendars.islamic = IslamicCalendar; },{"../main":137,"object-assign":73}],129:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Julian calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Julian calendar. Based on code from http://www.fourmilab.ch/documents/calendar/. See also http://en.wikipedia.org/wiki/Julian_calendar. @class JulianCalendar @augments BaseCalendar @param [language=''] {string} The language code (default English) for localisation. */ function JulianCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } JulianCalendar.prototype = new main.baseCalendar; assign(JulianCalendar.prototype, { /** The calendar name. @memberof JulianCalendar */ name: 'Julian', /** Julian date of start of Julian epoch: 1 January 0001 AD = 30 December 0001 BCE. @memberof JulianCalendar */ jdEpoch: 1721423.5, /** Days per month in a common year. @memberof JulianCalendar */ daysPerMonth: [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31], /** true if has a year zero, false if not. @memberof JulianCalendar */ hasYearZero: false, /** The minimum month number. @memberof JulianCalendar */ minMonth: 1, /** The first month in the year. @memberof JulianCalendar */ firstMonth: 1, /** The minimum day number. @memberof JulianCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof JulianCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Julian', epochs: ['BC', 'AD'], monthNames: ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December'], monthNamesShort: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'], dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'], dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'], dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'], digits: null, dateFormat: 'mm/dd/yyyy', firstDay: 0, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof JulianCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); var year = (date.year() < 0 ? date.year() + 1 : date.year()); // No year zero return (year % 4) === 0; }, /** Determine the week of the year for a date - ISO 8601. @memberof JulianCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Thursday of this week starting on Monday var checkDate = this.newDate(year, month, day); checkDate.add(4 - (checkDate.dayOfWeek() || 7), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a month. @memberof JulianCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 2 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof JulianCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} True if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return (this.dayOfWeek(year, month, day) || 7) < 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof JulianCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); year = date.year(); month = date.month(); day = date.day(); if (year < 0) { year++; } // No year zero // Jean Meeus algorithm, "Astronomical Algorithms", 1991 if (month <= 2) { year--; month += 12; } return Math.floor(365.25 * (year + 4716)) + Math.floor(30.6001 * (month + 1)) + day - 1524.5; }, /** Create a new date from a Julian date. @memberof JulianCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { // Jean Meeus algorithm, "Astronomical Algorithms", 1991 var a = Math.floor(jd + 0.5); var b = a + 1524; var c = Math.floor((b - 122.1) / 365.25); var d = Math.floor(365.25 * c); var e = Math.floor((b - d) / 30.6001); var month = e - Math.floor(e < 14 ? 1 : 13); var year = c - Math.floor(month > 2 ? 4716 : 4715); var day = b - d - Math.floor(30.6001 * e); if (year <= 0) { year--; } // No year zero return this.newDate(year, month, day); } }); // Julian calendar implementation main.calendars.julian = JulianCalendar; },{"../main":137,"object-assign":73}],130:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Mayan calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Mayan Long Count calendar. See also http://en.wikipedia.org/wiki/Mayan_calendar. @class MayanCalendar @param [language=''] {string} The language code (default English) for localisation. */ function MayanCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } MayanCalendar.prototype = new main.baseCalendar; assign(MayanCalendar.prototype, { /** The calendar name. @memberof MayanCalendar */ name: 'Mayan', /** Julian date of start of Mayan epoch: 11 August 3114 BCE. @memberof MayanCalendar */ jdEpoch: 584282.5, /** true if has a year zero, false if not. @memberof MayanCalendar */ hasYearZero: true, /** The minimum month number. @memberof MayanCalendar */ minMonth: 0, /** The first month in the year. @memberof MayanCalendar */ firstMonth: 0, /** The minimum day number. @memberof MayanCalendar */ minDay: 0, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof MayanCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. @property haabMonths {string[]} The names of the Haab months. @property tzolkinMonths {string[]} The names of the Tzolkin months. */ regionalOptions: { // Localisations '': { name: 'Mayan', epochs: ['', ''], monthNames: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17'], monthNamesShort: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17'], dayNames: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19'], dayNamesShort: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19'], dayNamesMin: ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11', '12', '13', '14', '15', '16', '17', '18', '19'], digits: null, dateFormat: 'YYYY.m.d', firstDay: 0, isRTL: false, haabMonths: ['Pop', 'Uo', 'Zip', 'Zotz', 'Tzec', 'Xul', 'Yaxkin', 'Mol', 'Chen', 'Yax', 'Zac', 'Ceh', 'Mac', 'Kankin', 'Muan', 'Pax', 'Kayab', 'Cumku', 'Uayeb'], tzolkinMonths: ['Imix', 'Ik', 'Akbal', 'Kan', 'Chicchan', 'Cimi', 'Manik', 'Lamat', 'Muluc', 'Oc', 'Chuen', 'Eb', 'Ben', 'Ix', 'Men', 'Cib', 'Caban', 'Etznab', 'Cauac', 'Ahau'] } }, /** Determine whether this date is in a leap year. @memberof MayanCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return false; }, /** Format the year, if not a simple sequential number. @memberof MayanCalendar @param year {CDate|number} The date to format or the year to format. @return {string} The formatted year. @throws Error if an invalid year or a different calendar used. */ formatYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); year = date.year(); var baktun = Math.floor(year / 400); year = year % 400; year += (year < 0 ? 400 : 0); var katun = Math.floor(year / 20); return baktun + '.' + katun + '.' + (year % 20); }, /** Convert from the formatted year back to a single number. @memberof MayanCalendar @param years {string} The year as n.n.n. @return {number} The sequential year. @throws Error if an invalid value is supplied. */ forYear: function(years) { years = years.split('.'); if (years.length < 3) { throw 'Invalid Mayan year'; } var year = 0; for (var i = 0; i < years.length; i++) { var y = parseInt(years[i], 10); if (Math.abs(y) > 19 || (i > 0 && y < 0)) { throw 'Invalid Mayan year'; } year = year * 20 + y; } return year; }, /** Retrieve the number of months in a year. @memberof MayanCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of months. @throws Error if an invalid year or a different calendar used. */ monthsInYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return 18; }, /** Determine the week of the year for a date. @memberof MayanCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { this._validate(year, month, day, main.local.invalidDate); return 0; }, /** Retrieve the number of days in a year. @memberof MayanCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of days. @throws Error if an invalid year or a different calendar used. */ daysInYear: function(year) { this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return 360; }, /** Retrieve the number of days in a month. @memberof MayanCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { this._validate(year, month, this.minDay, main.local.invalidMonth); return 20; }, /** Retrieve the number of days in a week. @memberof MayanCalendar @return {number} The number of days. */ daysInWeek: function() { return 5; // Just for formatting }, /** Retrieve the day of the week for a date. @memberof MayanCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The day of the week: 0 to number of days - 1. @throws Error if an invalid date or a different calendar used. */ dayOfWeek: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); return date.day(); }, /** Determine whether this date is a week day. @memberof MayanCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { this._validate(year, month, day, main.local.invalidDate); return true; }, /** Retrieve additional information about a date - Haab and Tzolkin equivalents. @memberof MayanCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {object} Additional information - contents depends on calendar. @throws Error if an invalid date or a different calendar used. */ extraInfo: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); var jd = date.toJD(); var haab = this._toHaab(jd); var tzolkin = this._toTzolkin(jd); return {haabMonthName: this.local.haabMonths[haab[0] - 1], haabMonth: haab[0], haabDay: haab[1], tzolkinDayName: this.local.tzolkinMonths[tzolkin[0] - 1], tzolkinDay: tzolkin[0], tzolkinTrecena: tzolkin[1]}; }, /** Retrieve Haab date from a Julian date. @memberof MayanCalendar @private @param jd {number} The Julian date. @return {number[]} Corresponding Haab month and day. */ _toHaab: function(jd) { jd -= this.jdEpoch; var day = mod(jd + 8 + ((18 - 1) * 20), 365); return [Math.floor(day / 20) + 1, mod(day, 20)]; }, /** Retrieve Tzolkin date from a Julian date. @memberof MayanCalendar @private @param jd {number} The Julian date. @return {number[]} Corresponding Tzolkin day and trecena. */ _toTzolkin: function(jd) { jd -= this.jdEpoch; return [amod(jd + 20, 20), amod(jd + 4, 13)]; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof MayanCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); return date.day() + (date.month() * 20) + (date.year() * 360) + this.jdEpoch; }, /** Create a new date from a Julian date. @memberof MayanCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { jd = Math.floor(jd) + 0.5 - this.jdEpoch; var year = Math.floor(jd / 360); jd = jd % 360; jd += (jd < 0 ? 360 : 0); var month = Math.floor(jd / 20); var day = jd % 20; return this.newDate(year, month, day); } }); // Modulus function which works for non-integers. function mod(a, b) { return a - (b * Math.floor(a / b)); } // Modulus function which returns numerator if modulus is zero. function amod(a, b) { return mod(a - 1, b) + 1; } // Mayan calendar implementation main.calendars.mayan = MayanCalendar; },{"../main":137,"object-assign":73}],131:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Nanakshahi calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) January 2016. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Nanakshahi calendar. See also https://en.wikipedia.org/wiki/Nanakshahi_calendar. @class NanakshahiCalendar @param [language=''] {string} The language code (default English) for localisation. */ function NanakshahiCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } NanakshahiCalendar.prototype = new main.baseCalendar; var gregorian = main.instance('gregorian'); assign(NanakshahiCalendar.prototype, { /** The calendar name. @memberof NanakshahiCalendar */ name: 'Nanakshahi', /** Julian date of start of Nanakshahi epoch: 14 March 1469 CE. @memberof NanakshahiCalendar */ jdEpoch: 2257673.5, /** Days per month in a common year. @memberof NanakshahiCalendar */ daysPerMonth: [31, 31, 31, 31, 31, 30, 30, 30, 30, 30, 30, 30], /** true if has a year zero, false if not. @memberof NanakshahiCalendar */ hasYearZero: false, /** The minimum month number. @memberof NanakshahiCalendar */ minMonth: 1, /** The first month in the year. @memberof NanakshahiCalendar */ firstMonth: 1, /** The minimum day number. @memberof NanakshahiCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof NanakshahiCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Nanakshahi', epochs: ['BN', 'AN'], monthNames: ['Chet', 'Vaisakh', 'Jeth', 'Harh', 'Sawan', 'Bhadon', 'Assu', 'Katak', 'Maghar', 'Poh', 'Magh', 'Phagun'], monthNamesShort: ['Che', 'Vai', 'Jet', 'Har', 'Saw', 'Bha', 'Ass', 'Kat', 'Mgr', 'Poh', 'Mgh', 'Pha'], dayNames: ['Somvaar', 'Mangalvar', 'Budhvaar', 'Veervaar', 'Shukarvaar', 'Sanicharvaar', 'Etvaar'], dayNamesShort: ['Som', 'Mangal', 'Budh', 'Veer', 'Shukar', 'Sanichar', 'Et'], dayNamesMin: ['So', 'Ma', 'Bu', 'Ve', 'Sh', 'Sa', 'Et'], digits: null, dateFormat: 'dd-mm-yyyy', firstDay: 0, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof NanakshahiCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear || main.regionalOptions[''].invalidYear); return gregorian.leapYear(date.year() + (date.year() < 1 ? 1 : 0) + 1469); }, /** Determine the week of the year for a date. @memberof NanakshahiCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Monday of this week starting on Monday var checkDate = this.newDate(year, month, day); checkDate.add(1 - (checkDate.dayOfWeek() || 7), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a month. @memberof NanakshahiCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 12 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof NanakshahiCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return (this.dayOfWeek(year, month, day) || 7) < 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof NanakshahiCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidMonth); var year = date.year(); if (year < 0) { year++; } // No year zero var doy = date.day(); for (var m = 1; m < date.month(); m++) { doy += this.daysPerMonth[m - 1]; } return doy + gregorian.toJD(year + 1468, 3, 13); }, /** Create a new date from a Julian date. @memberof NanakshahiCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { jd = Math.floor(jd + 0.5); var year = Math.floor((jd - (this.jdEpoch - 1)) / 366); while (jd >= this.toJD(year + 1, 1, 1)) { year++; } var day = jd - Math.floor(this.toJD(year, 1, 1) + 0.5) + 1; var month = 1; while (day > this.daysInMonth(year, month)) { day -= this.daysInMonth(year, month); month++; } return this.newDate(year, month, day); } }); // Nanakshahi calendar implementation main.calendars.nanakshahi = NanakshahiCalendar; },{"../main":137,"object-assign":73}],132:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Nepali calendar for jQuery v2.0.2. Written by Artur Neumann (ict.projects{at}nepal.inf.org) April 2013. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Nepali civil calendar. Based on the ideas from http://codeissue.com/articles/a04e050dea7468f/algorithm-to-convert-english-date-to-nepali-date-using-c-net and http://birenj2ee.blogspot.com/2011/04/nepali-calendar-in-java.html See also http://en.wikipedia.org/wiki/Nepali_calendar and https://en.wikipedia.org/wiki/Bikram_Samwat. @class NepaliCalendar @param [language=''] {string} The language code (default English) for localisation. */ function NepaliCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } NepaliCalendar.prototype = new main.baseCalendar; assign(NepaliCalendar.prototype, { /** The calendar name. @memberof NepaliCalendar */ name: 'Nepali', /** Julian date of start of Nepali epoch: 14 April 57 BCE. @memberof NepaliCalendar */ jdEpoch: 1700709.5, /** Days per month in a common year. @memberof NepaliCalendar */ daysPerMonth: [31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], /** true if has a year zero, false if not. @memberof NepaliCalendar */ hasYearZero: false, /** The minimum month number. @memberof NepaliCalendar */ minMonth: 1, /** The first month in the year. @memberof NepaliCalendar */ firstMonth: 1, /** The minimum day number. @memberof NepaliCalendar */ minDay: 1, /** The number of days in the year. @memberof NepaliCalendar */ daysPerYear: 365, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof NepaliCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Nepali', epochs: ['BBS', 'ABS'], monthNames: ['Baisakh', 'Jestha', 'Ashadh', 'Shrawan', 'Bhadra', 'Ashwin', 'Kartik', 'Mangsir', 'Paush', 'Mangh', 'Falgun', 'Chaitra'], monthNamesShort: ['Bai', 'Je', 'As', 'Shra', 'Bha', 'Ash', 'Kar', 'Mang', 'Pau', 'Ma', 'Fal', 'Chai'], dayNames: ['Aaitabaar', 'Sombaar', 'Manglbaar', 'Budhabaar', 'Bihibaar', 'Shukrabaar', 'Shanibaar'], dayNamesShort: ['Aaita', 'Som', 'Mangl', 'Budha', 'Bihi', 'Shukra', 'Shani'], dayNamesMin: ['Aai', 'So', 'Man', 'Bu', 'Bi', 'Shu', 'Sha'], digits: null, dateFormat: 'dd/mm/yyyy', firstDay: 1, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof NepaliCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { return this.daysInYear(year) !== this.daysPerYear; }, /** Determine the week of the year for a date. @memberof NepaliCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Sunday of this week starting on Sunday var checkDate = this.newDate(year, month, day); checkDate.add(-checkDate.dayOfWeek(), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a year. @memberof NepaliCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of days. @throws Error if an invalid year or a different calendar used. */ daysInYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); year = date.year(); if (typeof this.NEPALI_CALENDAR_DATA[year] === 'undefined') { return this.daysPerYear; } var daysPerYear = 0; for (var month_number = this.minMonth; month_number <= 12; month_number++) { daysPerYear += this.NEPALI_CALENDAR_DATA[year][month_number]; } return daysPerYear; }, /** Retrieve the number of days in a month. @memberof NepaliCalendar @param year {CDate|number| The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { if (year.year) { month = year.month(); year = year.year(); } this._validate(year, month, this.minDay, main.local.invalidMonth); return (typeof this.NEPALI_CALENDAR_DATA[year] === 'undefined' ? this.daysPerMonth[month - 1] : this.NEPALI_CALENDAR_DATA[year][month]); }, /** Determine whether this date is a week day. @memberof NepaliCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return this.dayOfWeek(year, month, day) !== 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof NepaliCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(nepaliYear, nepaliMonth, nepaliDay) { var date = this._validate(nepaliYear, nepaliMonth, nepaliDay, main.local.invalidDate); nepaliYear = date.year(); nepaliMonth = date.month(); nepaliDay = date.day(); var gregorianCalendar = main.instance(); var gregorianDayOfYear = 0; // We will add all the days that went by since // the 1st. January and then we can get the Gregorian Date var nepaliMonthToCheck = nepaliMonth; var nepaliYearToCheck = nepaliYear; this._createMissingCalendarData(nepaliYear); // Get the correct year var gregorianYear = nepaliYear - (nepaliMonthToCheck > 9 || (nepaliMonthToCheck === 9 && nepaliDay >= this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][0]) ? 56 : 57); // First we add the amount of days in the actual Nepali month as the day of year in the // Gregorian one because at least this days are gone since the 1st. Jan. if (nepaliMonth !== 9) { gregorianDayOfYear = nepaliDay; nepaliMonthToCheck--; } // Now we loop throw all Nepali month and add the amount of days to gregorianDayOfYear // we do this till we reach Paush (9th month). 1st. January always falls in this month while (nepaliMonthToCheck !== 9) { if (nepaliMonthToCheck <= 0) { nepaliMonthToCheck = 12; nepaliYearToCheck--; } gregorianDayOfYear += this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][nepaliMonthToCheck]; nepaliMonthToCheck--; } // If the date that has to be converted is in Paush (month no. 9) we have to do some other calculation if (nepaliMonth === 9) { // Add the days that are passed since the first day of Paush and substract the // amount of days that lie between 1st. Jan and 1st Paush gregorianDayOfYear += nepaliDay - this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][0]; // For the first days of Paush we are now in negative values, // because in the end of the gregorian year we substract // 365 / 366 days (P.S. remember math in school + - gives -) if (gregorianDayOfYear < 0) { gregorianDayOfYear += gregorianCalendar.daysInYear(gregorianYear); } } else { gregorianDayOfYear += this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][9] - this.NEPALI_CALENDAR_DATA[nepaliYearToCheck][0]; } return gregorianCalendar.newDate(gregorianYear, 1 ,1).add(gregorianDayOfYear, 'd').toJD(); }, /** Create a new date from a Julian date. @memberof NepaliCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { var gregorianCalendar = main.instance(); var gregorianDate = gregorianCalendar.fromJD(jd); var gregorianYear = gregorianDate.year(); var gregorianDayOfYear = gregorianDate.dayOfYear(); var nepaliYear = gregorianYear + 56; //this is not final, it could be also +57 but +56 is always true for 1st Jan. this._createMissingCalendarData(nepaliYear); var nepaliMonth = 9; // Jan 1 always fall in Nepali month Paush which is the 9th month of Nepali calendar. // Get the Nepali day in Paush (month 9) of 1st January var dayOfFirstJanInPaush = this.NEPALI_CALENDAR_DATA[nepaliYear][0]; // Check how many days are left of Paush . // Days calculated from 1st Jan till the end of the actual Nepali month, // we use this value to check if the gregorian Date is in the actual Nepali month. var daysSinceJanFirstToEndOfNepaliMonth = this.NEPALI_CALENDAR_DATA[nepaliYear][nepaliMonth] - dayOfFirstJanInPaush + 1; // If the gregorian day-of-year is smaller o equal than the sum of days between the 1st January and // the end of the actual nepali month we found the correct nepali month. // Example: // The 4th February 2011 is the gregorianDayOfYear 35 (31 days of January + 4) // 1st January 2011 is in the nepali year 2067, where 1st. January is in the 17th day of Paush (9th month) // In 2067 Paush has 30days, This means (30-17+1=14) there are 14days between 1st January and end of Paush // (including 17th January) // The gregorianDayOfYear (35) is bigger than 14, so we check the next month // The next nepali month (Mangh) has 29 days // 29+14=43, this is bigger than gregorianDayOfYear(35) so, we found the correct nepali month while (gregorianDayOfYear > daysSinceJanFirstToEndOfNepaliMonth) { nepaliMonth++; if (nepaliMonth > 12) { nepaliMonth = 1; nepaliYear++; } daysSinceJanFirstToEndOfNepaliMonth += this.NEPALI_CALENDAR_DATA[nepaliYear][nepaliMonth]; } // The last step is to calculate the nepali day-of-month // to continue our example from before: // we calculated there are 43 days from 1st. January (17 Paush) till end of Mangh (29 days) // when we subtract from this 43 days the day-of-year of the the Gregorian date (35), // we know how far the searched day is away from the end of the Nepali month. // So we simply subtract this number from the amount of days in this month (30) var nepaliDayOfMonth = this.NEPALI_CALENDAR_DATA[nepaliYear][nepaliMonth] - (daysSinceJanFirstToEndOfNepaliMonth - gregorianDayOfYear); return this.newDate(nepaliYear, nepaliMonth, nepaliDayOfMonth); }, /** Creates missing data in the NEPALI_CALENDAR_DATA table. This data will not be correct but just give an estimated result. Mostly -/+ 1 day @private @param nepaliYear {number} The missing year number. */ _createMissingCalendarData: function(nepaliYear) { var tmp_calendar_data = this.daysPerMonth.slice(0); tmp_calendar_data.unshift(17); for (var nepaliYearToCreate = (nepaliYear - 1); nepaliYearToCreate < (nepaliYear + 2); nepaliYearToCreate++) { if (typeof this.NEPALI_CALENDAR_DATA[nepaliYearToCreate] === 'undefined') { this.NEPALI_CALENDAR_DATA[nepaliYearToCreate] = tmp_calendar_data; } } }, NEPALI_CALENDAR_DATA: { // These data are from http://www.ashesh.com.np 1970: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 1971: [18, 31, 31, 32, 31, 32, 30, 30, 29, 30, 29, 30, 30], 1972: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30], 1973: [19, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 1974: [19, 31, 31, 32, 30, 31, 31, 30, 29, 30, 29, 30, 30], 1975: [18, 31, 31, 32, 32, 30, 31, 30, 29, 30, 29, 30, 30], 1976: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 1977: [18, 31, 32, 31, 32, 31, 31, 29, 30, 29, 30, 29, 31], 1978: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 1979: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 1980: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 1981: [18, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30], 1982: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 1983: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 1984: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 1985: [18, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30], 1986: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 1987: [18, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30], 1988: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 1989: [18, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30], 1990: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 1991: [18, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30], // These data are from http://nepalicalendar.rat32.com/index.php 1992: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 1993: [18, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30], 1994: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 1995: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30], 1996: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 1997: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 1998: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 1999: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2000: [17, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2001: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2002: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2003: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2004: [17, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2005: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2006: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2007: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2008: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 29, 31], 2009: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2010: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2011: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2012: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30], 2013: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2014: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2015: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2016: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30], 2017: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2018: [18, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2019: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2020: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30], 2021: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2022: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30], 2023: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2024: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30], 2025: [18, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2026: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2027: [17, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2028: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2029: [18, 31, 31, 32, 31, 32, 30, 30, 29, 30, 29, 30, 30], 2030: [17, 31, 32, 31, 32, 31, 30, 30, 30, 30, 30, 30, 31], 2031: [17, 31, 32, 31, 32, 31, 31, 31, 31, 31, 31, 31, 31], 2032: [17, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32], 2033: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2034: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2035: [17, 30, 32, 31, 32, 31, 31, 29, 30, 30, 29, 29, 31], 2036: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2037: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2038: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2039: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30], 2040: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2041: [18, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2042: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2043: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30], 2044: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2045: [18, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2046: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2047: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30], 2048: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2049: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30], 2050: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2051: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30], 2052: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2053: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30], 2054: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2055: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 30, 29, 30], 2056: [17, 31, 31, 32, 31, 32, 30, 30, 29, 30, 29, 30, 30], 2057: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2058: [17, 30, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2059: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2060: [17, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2061: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2062: [17, 30, 32, 31, 32, 31, 31, 29, 30, 29, 30, 29, 31], 2063: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2064: [17, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2065: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2066: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 29, 31], 2067: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2068: [17, 31, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2069: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2070: [17, 31, 31, 31, 32, 31, 31, 29, 30, 30, 29, 30, 30], 2071: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2072: [17, 31, 32, 31, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2073: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 31], 2074: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30], 2075: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2076: [16, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30], 2077: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 29, 31], 2078: [17, 31, 31, 31, 32, 31, 31, 30, 29, 30, 29, 30, 30], 2079: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 29, 30, 30], 2080: [16, 31, 32, 31, 32, 31, 30, 30, 30, 29, 29, 30, 30], // These data are from http://www.ashesh.com.np/nepali-calendar/ 2081: [17, 31, 31, 32, 32, 31, 30, 30, 30, 29, 30, 30, 30], 2082: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30], 2083: [17, 31, 31, 32, 31, 31, 30, 30, 30, 29, 30, 30, 30], 2084: [17, 31, 31, 32, 31, 31, 30, 30, 30, 29, 30, 30, 30], 2085: [17, 31, 32, 31, 32, 31, 31, 30, 30, 29, 30, 30, 30], 2086: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30], 2087: [16, 31, 31, 32, 31, 31, 31, 30, 30, 29, 30, 30, 30], 2088: [16, 30, 31, 32, 32, 30, 31, 30, 30, 29, 30, 30, 30], 2089: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30], 2090: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30], 2091: [16, 31, 31, 32, 31, 31, 31, 30, 30, 29, 30, 30, 30], 2092: [16, 31, 31, 32, 32, 31, 30, 30, 30, 29, 30, 30, 30], 2093: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30], 2094: [17, 31, 31, 32, 31, 31, 30, 30, 30, 29, 30, 30, 30], 2095: [17, 31, 31, 32, 31, 31, 31, 30, 29, 30, 30, 30, 30], 2096: [17, 30, 31, 32, 32, 31, 30, 30, 29, 30, 29, 30, 30], 2097: [17, 31, 32, 31, 32, 31, 30, 30, 30, 29, 30, 30, 30], 2098: [17, 31, 31, 32, 31, 31, 31, 29, 30, 29, 30, 30, 31], 2099: [17, 31, 31, 32, 31, 31, 31, 30, 29, 29, 30, 30, 30], 2100: [17, 31, 32, 31, 32, 30, 31, 30, 29, 30, 29, 30, 30] } }); // Nepali calendar implementation main.calendars.nepali = NepaliCalendar; },{"../main":137,"object-assign":73}],133:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Persian calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the Persian or Jalali calendar. Based on code from http://www.iranchamber.com/calendar/converter/iranian_calendar_converter.php. See also http://en.wikipedia.org/wiki/Iranian_calendar. @class PersianCalendar @param [language=''] {string} The language code (default English) for localisation. */ function PersianCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } PersianCalendar.prototype = new main.baseCalendar; assign(PersianCalendar.prototype, { /** The calendar name. @memberof PersianCalendar */ name: 'Persian', /** Julian date of start of Persian epoch: 19 March 622 CE. @memberof PersianCalendar */ jdEpoch: 1948320.5, /** Days per month in a common year. @memberof PersianCalendar */ daysPerMonth: [31, 31, 31, 31, 31, 31, 30, 30, 30, 30, 30, 29], /** true if has a year zero, false if not. @memberof PersianCalendar */ hasYearZero: false, /** The minimum month number. @memberof PersianCalendar */ minMonth: 1, /** The first month in the year. @memberof PersianCalendar */ firstMonth: 1, /** The minimum day number. @memberof PersianCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof PersianCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Persian', epochs: ['BP', 'AP'], monthNames: ['Farvardin', 'Ordibehesht', 'Khordad', 'Tir', 'Mordad', 'Shahrivar', 'Mehr', 'Aban', 'Azar', 'Day', 'Bahman', 'Esfand'], monthNamesShort: ['Far', 'Ord', 'Kho', 'Tir', 'Mor', 'Sha', 'Meh', 'Aba', 'Aza', 'Day', 'Bah', 'Esf'], dayNames: ['Yekshambe', 'Doshambe', 'Seshambe', 'Chæharshambe', 'Panjshambe', 'Jom\'e', 'Shambe'], dayNamesShort: ['Yek', 'Do', 'Se', 'Chæ', 'Panj', 'Jom', 'Sha'], dayNamesMin: ['Ye','Do','Se','Ch','Pa','Jo','Sh'], digits: null, dateFormat: 'yyyy/mm/dd', firstDay: 6, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof PersianCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return (((((date.year() - (date.year() > 0 ? 474 : 473)) % 2820) + 474 + 38) * 682) % 2816) < 682; }, /** Determine the week of the year for a date. @memberof PersianCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Saturday of this week starting on Saturday var checkDate = this.newDate(year, month, day); checkDate.add(-((checkDate.dayOfWeek() + 1) % 7), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a month. @memberof PersianCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 12 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof PersianCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return this.dayOfWeek(year, month, day) !== 5; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof PersianCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); year = date.year(); month = date.month(); day = date.day(); var epBase = year - (year >= 0 ? 474 : 473); var epYear = 474 + mod(epBase, 2820); return day + (month <= 7 ? (month - 1) * 31 : (month - 1) * 30 + 6) + Math.floor((epYear * 682 - 110) / 2816) + (epYear - 1) * 365 + Math.floor(epBase / 2820) * 1029983 + this.jdEpoch - 1; }, /** Create a new date from a Julian date. @memberof PersianCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { jd = Math.floor(jd) + 0.5; var depoch = jd - this.toJD(475, 1, 1); var cycle = Math.floor(depoch / 1029983); var cyear = mod(depoch, 1029983); var ycycle = 2820; if (cyear !== 1029982) { var aux1 = Math.floor(cyear / 366); var aux2 = mod(cyear, 366); ycycle = Math.floor(((2134 * aux1) + (2816 * aux2) + 2815) / 1028522) + aux1 + 1; } var year = ycycle + (2820 * cycle) + 474; year = (year <= 0 ? year - 1 : year); var yday = jd - this.toJD(year, 1, 1) + 1; var month = (yday <= 186 ? Math.ceil(yday / 31) : Math.ceil((yday - 6) / 30)); var day = jd - this.toJD(year, month, 1) + 1; return this.newDate(year, month, day); } }); // Modulus function which works for non-integers. function mod(a, b) { return a - (b * Math.floor(a / b)); } // Persian (Jalali) calendar implementation main.calendars.persian = PersianCalendar; main.calendars.jalali = PersianCalendar; },{"../main":137,"object-assign":73}],134:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Taiwanese (Minguo) calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) February 2010. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); var gregorianCalendar = main.instance(); /** Implementation of the Taiwanese calendar. See http://en.wikipedia.org/wiki/Minguo_calendar. @class TaiwanCalendar @param [language=''] {string} The language code (default English) for localisation. */ function TaiwanCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } TaiwanCalendar.prototype = new main.baseCalendar; assign(TaiwanCalendar.prototype, { /** The calendar name. @memberof TaiwanCalendar */ name: 'Taiwan', /** Julian date of start of Taiwan epoch: 1 January 1912 CE (Gregorian). @memberof TaiwanCalendar */ jdEpoch: 2419402.5, /** Difference in years between Taiwan and Gregorian calendars. @memberof TaiwanCalendar */ yearsOffset: 1911, /** Days per month in a common year. @memberof TaiwanCalendar */ daysPerMonth: [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31], /** true if has a year zero, false if not. @memberof TaiwanCalendar */ hasYearZero: false, /** The minimum month number. @memberof TaiwanCalendar */ minMonth: 1, /** The first month in the year. @memberof TaiwanCalendar */ firstMonth: 1, /** The minimum day number. @memberof TaiwanCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof TaiwanCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Taiwan', epochs: ['BROC', 'ROC'], monthNames: ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December'], monthNamesShort: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'], dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'], dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'], dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'], digits: null, dateFormat: 'yyyy/mm/dd', firstDay: 1, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof TaiwanCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); var year = this._t2gYear(date.year()); return gregorianCalendar.leapYear(year); }, /** Determine the week of the year for a date - ISO 8601. @memberof TaiwanCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); var year = this._t2gYear(date.year()); return gregorianCalendar.weekOfYear(year, date.month(), date.day()); }, /** Retrieve the number of days in a month. @memberof TaiwanCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 2 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof TaiwanCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return (this.dayOfWeek(year, month, day) || 7) < 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof TaiwanCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); var year = this._t2gYear(date.year()); return gregorianCalendar.toJD(year, date.month(), date.day()); }, /** Create a new date from a Julian date. @memberof TaiwanCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { var date = gregorianCalendar.fromJD(jd); var year = this._g2tYear(date.year()); return this.newDate(year, date.month(), date.day()); }, /** Convert Taiwanese to Gregorian year. @memberof TaiwanCalendar @private @param year {number} The Taiwanese year. @return {number} The corresponding Gregorian year. */ _t2gYear: function(year) { return year + this.yearsOffset + (year >= -this.yearsOffset && year <= -1 ? 1 : 0); }, /** Convert Gregorian to Taiwanese year. @memberof TaiwanCalendar @private @param year {number} The Gregorian year. @return {number} The corresponding Taiwanese year. */ _g2tYear: function(year) { return year - this.yearsOffset - (year >= 1 && year <= this.yearsOffset ? 1 : 0); } }); // Taiwan calendar implementation main.calendars.taiwan = TaiwanCalendar; },{"../main":137,"object-assign":73}],135:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Thai calendar for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) February 2010. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); var gregorianCalendar = main.instance(); /** Implementation of the Thai calendar. See http://en.wikipedia.org/wiki/Thai_calendar. @class ThaiCalendar @param [language=''] {string} The language code (default English) for localisation. */ function ThaiCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } ThaiCalendar.prototype = new main.baseCalendar; assign(ThaiCalendar.prototype, { /** The calendar name. @memberof ThaiCalendar */ name: 'Thai', /** Julian date of start of Thai epoch: 1 January 543 BCE (Gregorian). @memberof ThaiCalendar */ jdEpoch: 1523098.5, /** Difference in years between Thai and Gregorian calendars. @memberof ThaiCalendar */ yearsOffset: 543, /** Days per month in a common year. @memberof ThaiCalendar */ daysPerMonth: [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31], /** true if has a year zero, false if not. @memberof ThaiCalendar */ hasYearZero: false, /** The minimum month number. @memberof ThaiCalendar */ minMonth: 1, /** The first month in the year. @memberof ThaiCalendar */ firstMonth: 1, /** The minimum day number. @memberof ThaiCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof ThaiCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Thai', epochs: ['BBE', 'BE'], monthNames: ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December'], monthNamesShort: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'], dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'], dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'], dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'], digits: null, dateFormat: 'dd/mm/yyyy', firstDay: 0, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof ThaiCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); var year = this._t2gYear(date.year()); return gregorianCalendar.leapYear(year); }, /** Determine the week of the year for a date - ISO 8601. @memberof ThaiCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); var year = this._t2gYear(date.year()); return gregorianCalendar.weekOfYear(year, date.month(), date.day()); }, /** Retrieve the number of days in a month. @memberof ThaiCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 2 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof ThaiCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return (this.dayOfWeek(year, month, day) || 7) < 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof ThaiCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); var year = this._t2gYear(date.year()); return gregorianCalendar.toJD(year, date.month(), date.day()); }, /** Create a new date from a Julian date. @memberof ThaiCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { var date = gregorianCalendar.fromJD(jd); var year = this._g2tYear(date.year()); return this.newDate(year, date.month(), date.day()); }, /** Convert Thai to Gregorian year. @memberof ThaiCalendar @private @param year {number} The Thai year. @return {number} The corresponding Gregorian year. */ _t2gYear: function(year) { return year - this.yearsOffset - (year >= 1 && year <= this.yearsOffset ? 1 : 0); }, /** Convert Gregorian to Thai year. @memberof ThaiCalendar @private @param year {number} The Gregorian year. @return {number} The corresponding Thai year. */ _g2tYear: function(year) { return year + this.yearsOffset + (year >= -this.yearsOffset && year <= -1 ? 1 : 0); } }); // Thai calendar implementation main.calendars.thai = ThaiCalendar; },{"../main":137,"object-assign":73}],136:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html UmmAlQura calendar for jQuery v2.0.2. Written by Amro Osama March 2013. Modified by Binnooh.com & www.elm.sa - 2014 - Added dates back to 1276 Hijri year. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var main = _dereq_('../main'); var assign = _dereq_('object-assign'); /** Implementation of the UmmAlQura or 'saudi' calendar. See also http://en.wikipedia.org/wiki/Islamic_calendar#Saudi_Arabia.27s_Umm_al-Qura_calendar. http://www.ummulqura.org.sa/About.aspx http://www.staff.science.uu.nl/~gent0113/islam/ummalqura.htm @class UmmAlQuraCalendar @param [language=''] {string} The language code (default English) for localisation. */ function UmmAlQuraCalendar(language) { this.local = this.regionalOptions[language || ''] || this.regionalOptions['']; } UmmAlQuraCalendar.prototype = new main.baseCalendar; assign(UmmAlQuraCalendar.prototype, { /** The calendar name. @memberof UmmAlQuraCalendar */ name: 'UmmAlQura', //jdEpoch: 1948440, // Julian date of start of UmmAlQura epoch: 14 March 1937 CE //daysPerMonth: // Days per month in a common year, replaced by a method. /** true if has a year zero, false if not. @memberof UmmAlQuraCalendar */ hasYearZero: false, /** The minimum month number. @memberof UmmAlQuraCalendar */ minMonth: 1, /** The first month in the year. @memberof UmmAlQuraCalendar */ firstMonth: 1, /** The minimum day number. @memberof UmmAlQuraCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof UmmAlQuraCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Umm al-Qura', epochs: ['BH', 'AH'], monthNames: ['Al-Muharram', 'Safar', 'Rabi\' al-awwal', 'Rabi\' Al-Thani', 'Jumada Al-Awwal', 'Jumada Al-Thani', 'Rajab', 'Sha\'aban', 'Ramadan', 'Shawwal', 'Dhu al-Qi\'dah', 'Dhu al-Hijjah'], monthNamesShort: ['Muh', 'Saf', 'Rab1', 'Rab2', 'Jum1', 'Jum2', 'Raj', 'Sha\'', 'Ram', 'Shaw', 'DhuQ', 'DhuH'], dayNames: ['Yawm al-Ahad', 'Yawm al-Ithnain', 'Yawm al-Thalāthā’', 'Yawm al-Arba‘ā’', 'Yawm al-Khamīs', 'Yawm al-Jum‘a', 'Yawm al-Sabt'], dayNamesMin: ['Ah', 'Ith', 'Th', 'Ar', 'Kh', 'Ju', 'Sa'], digits: null, dateFormat: 'yyyy/mm/dd', firstDay: 6, isRTL: true } }, /** Determine whether this date is in a leap year. @memberof UmmAlQuraCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function (year) { var date = this._validate(year, this.minMonth, this.minDay, main.local.invalidYear); return (this.daysInYear(date.year()) === 355); }, /** Determine the week of the year for a date. @memberof UmmAlQuraCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function (year, month, day) { // Find Sunday of this week starting on Sunday var checkDate = this.newDate(year, month, day); checkDate.add(-checkDate.dayOfWeek(), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a year. @memberof UmmAlQuraCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of days. @throws Error if an invalid year or a different calendar used. */ daysInYear: function (year) { var daysCount = 0; for (var i = 1; i <= 12; i++) { daysCount += this.daysInMonth(year, i); } return daysCount; }, /** Retrieve the number of days in a month. @memberof UmmAlQuraCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function (year, month) { var date = this._validate(year, month, this.minDay, main.local.invalidMonth); var mcjdn = date.toJD() - 2400000 + 0.5; // Modified Chronological Julian Day Number (MCJDN) // the MCJDN's of the start of the lunations in the Umm al-Qura calendar are stored in the 'ummalqura_dat' array var index = 0; for (var i = 0; i < ummalqura_dat.length; i++) { if (ummalqura_dat[i] > mcjdn) { return (ummalqura_dat[index] - ummalqura_dat[index - 1]); } index++; } return 30; // Unknown outside }, /** Determine whether this date is a week day. @memberof UmmAlQuraCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function (year, month, day) { return this.dayOfWeek(year, month, day) !== 5; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof UmmAlQuraCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function (year, month, day) { var date = this._validate(year, month, day, main.local.invalidDate); var index = (12 * (date.year() - 1)) + date.month() - 15292; var mcjdn = date.day() + ummalqura_dat[index - 1] - 1; return mcjdn + 2400000 - 0.5; // Modified Chronological Julian Day Number (MCJDN) }, /** Create a new date from a Julian date. @memberof UmmAlQuraCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function (jd) { var mcjdn = jd - 2400000 + 0.5; // Modified Chronological Julian Day Number (MCJDN) // the MCJDN's of the start of the lunations in the Umm al-Qura calendar // are stored in the 'ummalqura_dat' array var index = 0; for (var i = 0; i < ummalqura_dat.length; i++) { if (ummalqura_dat[i] > mcjdn) break; index++; } var lunation = index + 15292; //UmmAlQura Lunation Number var ii = Math.floor((lunation - 1) / 12); var year = ii + 1; var month = lunation - 12 * ii; var day = mcjdn - ummalqura_dat[index - 1] + 1; return this.newDate(year, month, day); }, /** Determine whether a date is valid for this calendar. @memberof UmmAlQuraCalendar @param year {number} The year to examine. @param month {number} The month to examine. @param day {number} The day to examine. @return {boolean} true if a valid date, false if not. */ isValid: function(year, month, day) { var valid = main.baseCalendar.prototype.isValid.apply(this, arguments); if (valid) { year = (year.year != null ? year.year : year); valid = (year >= 1276 && year <= 1500); } return valid; }, /** Check that a candidate date is from the same calendar and is valid. @memberof UmmAlQuraCalendar @private @param year {CDate|number} The date to validate or the year to validate. @param month {number} The month to validate. @param day {number} The day to validate. @param error {string} Error message if invalid. @throws Error if different calendars used or invalid date. */ _validate: function(year, month, day, error) { var date = main.baseCalendar.prototype._validate.apply(this, arguments); if (date.year < 1276 || date.year > 1500) { throw error.replace(/\{0\}/, this.local.name); } return date; } }); // UmmAlQura calendar implementation main.calendars.ummalqura = UmmAlQuraCalendar; var ummalqura_dat = [ 20, 50, 79, 109, 138, 168, 197, 227, 256, 286, 315, 345, 374, 404, 433, 463, 492, 522, 551, 581, 611, 641, 670, 700, 729, 759, 788, 818, 847, 877, 906, 936, 965, 995, 1024, 1054, 1083, 1113, 1142, 1172, 1201, 1231, 1260, 1290, 1320, 1350, 1379, 1409, 1438, 1468, 1497, 1527, 1556, 1586, 1615, 1645, 1674, 1704, 1733, 1763, 1792, 1822, 1851, 1881, 1910, 1940, 1969, 1999, 2028, 2058, 2087, 2117, 2146, 2176, 2205, 2235, 2264, 2294, 2323, 2353, 2383, 2413, 2442, 2472, 2501, 2531, 2560, 2590, 2619, 2649, 2678, 2708, 2737, 2767, 2796, 2826, 2855, 2885, 2914, 2944, 2973, 3003, 3032, 3062, 3091, 3121, 3150, 3180, 3209, 3239, 3268, 3298, 3327, 3357, 3386, 3416, 3446, 3476, 3505, 3535, 3564, 3594, 3623, 3653, 3682, 3712, 3741, 3771, 3800, 3830, 3859, 3889, 3918, 3948, 3977, 4007, 4036, 4066, 4095, 4125, 4155, 4185, 4214, 4244, 4273, 4303, 4332, 4362, 4391, 4421, 4450, 4480, 4509, 4539, 4568, 4598, 4627, 4657, 4686, 4716, 4745, 4775, 4804, 4834, 4863, 4893, 4922, 4952, 4981, 5011, 5040, 5070, 5099, 5129, 5158, 5188, 5218, 5248, 5277, 5307, 5336, 5366, 5395, 5425, 5454, 5484, 5513, 5543, 5572, 5602, 5631, 5661, 5690, 5720, 5749, 5779, 5808, 5838, 5867, 5897, 5926, 5956, 5985, 6015, 6044, 6074, 6103, 6133, 6162, 6192, 6221, 6251, 6281, 6311, 6340, 6370, 6399, 6429, 6458, 6488, 6517, 6547, 6576, 6606, 6635, 6665, 6694, 6724, 6753, 6783, 6812, 6842, 6871, 6901, 6930, 6960, 6989, 7019, 7048, 7078, 7107, 7137, 7166, 7196, 7225, 7255, 7284, 7314, 7344, 7374, 7403, 7433, 7462, 7492, 7521, 7551, 7580, 7610, 7639, 7669, 7698, 7728, 7757, 7787, 7816, 7846, 7875, 7905, 7934, 7964, 7993, 8023, 8053, 8083, 8112, 8142, 8171, 8201, 8230, 8260, 8289, 8319, 8348, 8378, 8407, 8437, 8466, 8496, 8525, 8555, 8584, 8614, 8643, 8673, 8702, 8732, 8761, 8791, 8821, 8850, 8880, 8909, 8938, 8968, 8997, 9027, 9056, 9086, 9115, 9145, 9175, 9205, 9234, 9264, 9293, 9322, 9352, 9381, 9410, 9440, 9470, 9499, 9529, 9559, 9589, 9618, 9648, 9677, 9706, 9736, 9765, 9794, 9824, 9853, 9883, 9913, 9943, 9972, 10002, 10032, 10061, 10090, 10120, 10149, 10178, 10208, 10237, 10267, 10297, 10326, 10356, 10386, 10415, 10445, 10474, 10504, 10533, 10562, 10592, 10621, 10651, 10680, 10710, 10740, 10770, 10799, 10829, 10858, 10888, 10917, 10947, 10976, 11005, 11035, 11064, 11094, 11124, 11153, 11183, 11213, 11242, 11272, 11301, 11331, 11360, 11389, 11419, 11448, 11478, 11507, 11537, 11567, 11596, 11626, 11655, 11685, 11715, 11744, 11774, 11803, 11832, 11862, 11891, 11921, 11950, 11980, 12010, 12039, 12069, 12099, 12128, 12158, 12187, 12216, 12246, 12275, 12304, 12334, 12364, 12393, 12423, 12453, 12483, 12512, 12542, 12571, 12600, 12630, 12659, 12688, 12718, 12747, 12777, 12807, 12837, 12866, 12896, 12926, 12955, 12984, 13014, 13043, 13072, 13102, 13131, 13161, 13191, 13220, 13250, 13280, 13310, 13339, 13368, 13398, 13427, 13456, 13486, 13515, 13545, 13574, 13604, 13634, 13664, 13693, 13723, 13752, 13782, 13811, 13840, 13870, 13899, 13929, 13958, 13988, 14018, 14047, 14077, 14107, 14136, 14166, 14195, 14224, 14254, 14283, 14313, 14342, 14372, 14401, 14431, 14461, 14490, 14520, 14550, 14579, 14609, 14638, 14667, 14697, 14726, 14756, 14785, 14815, 14844, 14874, 14904, 14933, 14963, 14993, 15021, 15051, 15081, 15110, 15140, 15169, 15199, 15228, 15258, 15287, 15317, 15347, 15377, 15406, 15436, 15465, 15494, 15524, 15553, 15582, 15612, 15641, 15671, 15701, 15731, 15760, 15790, 15820, 15849, 15878, 15908, 15937, 15966, 15996, 16025, 16055, 16085, 16114, 16144, 16174, 16204, 16233, 16262, 16292, 16321, 16350, 16380, 16409, 16439, 16468, 16498, 16528, 16558, 16587, 16617, 16646, 16676, 16705, 16734, 16764, 16793, 16823, 16852, 16882, 16912, 16941, 16971, 17001, 17030, 17060, 17089, 17118, 17148, 17177, 17207, 17236, 17266, 17295, 17325, 17355, 17384, 17414, 17444, 17473, 17502, 17532, 17561, 17591, 17620, 17650, 17679, 17709, 17738, 17768, 17798, 17827, 17857, 17886, 17916, 17945, 17975, 18004, 18034, 18063, 18093, 18122, 18152, 18181, 18211, 18241, 18270, 18300, 18330, 18359, 18388, 18418, 18447, 18476, 18506, 18535, 18565, 18595, 18625, 18654, 18684, 18714, 18743, 18772, 18802, 18831, 18860, 18890, 18919, 18949, 18979, 19008, 19038, 19068, 19098, 19127, 19156, 19186, 19215, 19244, 19274, 19303, 19333, 19362, 19392, 19422, 19452, 19481, 19511, 19540, 19570, 19599, 19628, 19658, 19687, 19717, 19746, 19776, 19806, 19836, 19865, 19895, 19924, 19954, 19983, 20012, 20042, 20071, 20101, 20130, 20160, 20190, 20219, 20249, 20279, 20308, 20338, 20367, 20396, 20426, 20455, 20485, 20514, 20544, 20573, 20603, 20633, 20662, 20692, 20721, 20751, 20780, 20810, 20839, 20869, 20898, 20928, 20957, 20987, 21016, 21046, 21076, 21105, 21135, 21164, 21194, 21223, 21253, 21282, 21312, 21341, 21371, 21400, 21430, 21459, 21489, 21519, 21548, 21578, 21607, 21637, 21666, 21696, 21725, 21754, 21784, 21813, 21843, 21873, 21902, 21932, 21962, 21991, 22021, 22050, 22080, 22109, 22138, 22168, 22197, 22227, 22256, 22286, 22316, 22346, 22375, 22405, 22434, 22464, 22493, 22522, 22552, 22581, 22611, 22640, 22670, 22700, 22730, 22759, 22789, 22818, 22848, 22877, 22906, 22936, 22965, 22994, 23024, 23054, 23083, 23113, 23143, 23173, 23202, 23232, 23261, 23290, 23320, 23349, 23379, 23408, 23438, 23467, 23497, 23527, 23556, 23586, 23616, 23645, 23674, 23704, 23733, 23763, 23792, 23822, 23851, 23881, 23910, 23940, 23970, 23999, 24029, 24058, 24088, 24117, 24147, 24176, 24206, 24235, 24265, 24294, 24324, 24353, 24383, 24413, 24442, 24472, 24501, 24531, 24560, 24590, 24619, 24648, 24678, 24707, 24737, 24767, 24796, 24826, 24856, 24885, 24915, 24944, 24974, 25003, 25032, 25062, 25091, 25121, 25150, 25180, 25210, 25240, 25269, 25299, 25328, 25358, 25387, 25416, 25446, 25475, 25505, 25534, 25564, 25594, 25624, 25653, 25683, 25712, 25742, 25771, 25800, 25830, 25859, 25888, 25918, 25948, 25977, 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Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Calendars for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var assign = _dereq_('object-assign'); function Calendars() { this.regionalOptions = []; this.regionalOptions[''] = { invalidCalendar: 'Calendar {0} not found', invalidDate: 'Invalid {0} date', invalidMonth: 'Invalid {0} month', invalidYear: 'Invalid {0} year', differentCalendars: 'Cannot mix {0} and {1} dates' }; this.local = this.regionalOptions['']; this.calendars = {}; this._localCals = {}; } /** Create the calendars plugin.

Provides support for various world calendars in a consistent manner.

@class Calendars @example _exports.instance('julian').newDate(2014, 12, 25) */ assign(Calendars.prototype, { /** Obtain a calendar implementation and localisation. @memberof Calendars @param [name='gregorian'] {string} The name of the calendar, e.g. 'gregorian', 'persian', 'islamic'. @param [language=''] {string} The language code to use for localisation (default is English). @return {Calendar} The calendar and localisation. @throws Error if calendar not found. */ instance: function(name, language) { name = (name || 'gregorian').toLowerCase(); language = language || ''; var cal = this._localCals[name + '-' + language]; if (!cal && this.calendars[name]) { cal = new this.calendars[name](language); this._localCals[name + '-' + language] = cal; } if (!cal) { throw (this.local.invalidCalendar || this.regionalOptions[''].invalidCalendar). replace(/\{0\}/, name); } return cal; }, /** Create a new date - for today if no other parameters given. @memberof Calendars @param year {CDate|number} The date to copy or the year for the date. @param [month] {number} The month for the date. @param [day] {number} The day for the date. @param [calendar='gregorian'] {BaseCalendar|string} The underlying calendar or the name of the calendar. @param [language=''] {string} The language to use for localisation (default English). @return {CDate} The new date. @throws Error if an invalid date. */ newDate: function(year, month, day, calendar, language) { calendar = (year != null && year.year ? year.calendar() : (typeof calendar === 'string' ? this.instance(calendar, language) : calendar)) || this.instance(); return calendar.newDate(year, month, day); }, /** A simple digit substitution function for localising numbers via the Calendar digits option. @member Calendars @param digits {string[]} The substitute digits, for 0 through 9. @return {function} The substitution function. */ substituteDigits: function(digits) { return function(value) { return (value + '').replace(/[0-9]/g, function(digit) { return digits[digit]; }); } }, /** Digit substitution function for localising Chinese style numbers via the Calendar digits option. @member Calendars @param digits {string[]} The substitute digits, for 0 through 9. @param powers {string[]} The characters denoting powers of 10, i.e. 1, 10, 100, 1000. @return {function} The substitution function. */ substituteChineseDigits: function(digits, powers) { return function(value) { var localNumber = ''; var power = 0; while (value > 0) { var units = value % 10; localNumber = (units === 0 ? '' : digits[units] + powers[power]) + localNumber; power++; value = Math.floor(value / 10); } if (localNumber.indexOf(digits[1] + powers[1]) === 0) { localNumber = localNumber.substr(1); } return localNumber || digits[0]; } } }); /** Generic date, based on a particular calendar. @class CDate @param calendar {BaseCalendar} The underlying calendar implementation. @param year {number} The year for this date. @param month {number} The month for this date. @param day {number} The day for this date. @return {CDate} The date object. @throws Error if an invalid date. */ function CDate(calendar, year, month, day) { this._calendar = calendar; this._year = year; this._month = month; this._day = day; if (this._calendar._validateLevel === 0 && !this._calendar.isValid(this._year, this._month, this._day)) { throw (_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate). replace(/\{0\}/, this._calendar.local.name); } } /** Pad a numeric value with leading zeroes. @private @param value {number} The number to format. @param length {number} The minimum length. @return {string} The formatted number. */ function pad(value, length) { value = '' + value; return '000000'.substring(0, length - value.length) + value; } assign(CDate.prototype, { /** Create a new date. @memberof CDate @param [year] {CDate|number} The date to copy or the year for the date (default this date). @param [month] {number} The month for the date. @param [day] {number} The day for the date. @return {CDate} The new date. @throws Error if an invalid date. */ newDate: function(year, month, day) { return this._calendar.newDate((year == null ? this : year), month, day); }, /** Set or retrieve the year for this date. @memberof CDate @param [year] {number} The year for the date. @return {number|CDate} The date's year (if no parameter) or the updated date. @throws Error if an invalid date. */ year: function(year) { return (arguments.length === 0 ? this._year : this.set(year, 'y')); }, /** Set or retrieve the month for this date. @memberof CDate @param [month] {number} The month for the date. @return {number|CDate} The date's month (if no parameter) or the updated date. @throws Error if an invalid date. */ month: function(month) { return (arguments.length === 0 ? this._month : this.set(month, 'm')); }, /** Set or retrieve the day for this date. @memberof CDate @param [day] {number} The day for the date. @return {number|CData} The date's day (if no parameter) or the updated date. @throws Error if an invalid date. */ day: function(day) { return (arguments.length === 0 ? this._day : this.set(day, 'd')); }, /** Set new values for this date. @memberof CDate @param year {number} The year for the date. @param month {number} The month for the date. @param day {number} The day for the date. @return {CDate} The updated date. @throws Error if an invalid date. */ date: function(year, month, day) { if (!this._calendar.isValid(year, month, day)) { throw (_exports.local.invalidDate || _exports.regionalOptions[''].invalidDate). replace(/\{0\}/, this._calendar.local.name); } this._year = year; this._month = month; this._day = day; return this; }, /** Determine whether this date is in a leap year. @memberof CDate @return {boolean} true if this is a leap year, false if not. */ leapYear: function() { return this._calendar.leapYear(this); }, /** Retrieve the epoch designator for this date, e.g. BCE or CE. @memberof CDate @return {string} The current epoch. */ epoch: function() { return this._calendar.epoch(this); }, /** Format the year, if not a simple sequential number. @memberof CDate @return {string} The formatted year. */ formatYear: function() { return this._calendar.formatYear(this); }, /** Retrieve the month of the year for this date, i.e. the month's position within a numbered year. @memberof CDate @return {number} The month of the year: minMonth to months per year. */ monthOfYear: function() { return this._calendar.monthOfYear(this); }, /** Retrieve the week of the year for this date. @memberof CDate @return {number} The week of the year: 1 to weeks per year. */ weekOfYear: function() { return this._calendar.weekOfYear(this); }, /** Retrieve the number of days in the year for this date. @memberof CDate @return {number} The number of days in this year. */ daysInYear: function() { return this._calendar.daysInYear(this); }, /** Retrieve the day of the year for this date. @memberof CDate @return {number} The day of the year: 1 to days per year. */ dayOfYear: function() { return this._calendar.dayOfYear(this); }, /** Retrieve the number of days in the month for this date. @memberof CDate @return {number} The number of days. */ daysInMonth: function() { return this._calendar.daysInMonth(this); }, /** Retrieve the day of the week for this date. @memberof CDate @return {number} The day of the week: 0 to number of days - 1. */ dayOfWeek: function() { return this._calendar.dayOfWeek(this); }, /** Determine whether this date is a week day. @memberof CDate @return {boolean} true if a week day, false if not. */ weekDay: function() { return this._calendar.weekDay(this); }, /** Retrieve additional information about this date. @memberof CDate @return {object} Additional information - contents depends on calendar. */ extraInfo: function() { return this._calendar.extraInfo(this); }, /** Add period(s) to a date. @memberof CDate @param offset {number} The number of periods to adjust by. @param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day. @return {CDate} The updated date. */ add: function(offset, period) { return this._calendar.add(this, offset, period); }, /** Set a portion of the date. @memberof CDate @param value {number} The new value for the period. @param period {string} One of 'y' for year, 'm' for month, 'd' for day. @return {CDate} The updated date. @throws Error if not a valid date. */ set: function(value, period) { return this._calendar.set(this, value, period); }, /** Compare this date to another date. @memberof CDate @param date {CDate} The other date. @return {number} -1 if this date is before the other date, 0 if they are equal, or +1 if this date is after the other date. */ compareTo: function(date) { if (this._calendar.name !== date._calendar.name) { throw (_exports.local.differentCalendars || _exports.regionalOptions[''].differentCalendars). replace(/\{0\}/, this._calendar.local.name).replace(/\{1\}/, date._calendar.local.name); } var c = (this._year !== date._year ? this._year - date._year : this._month !== date._month ? this.monthOfYear() - date.monthOfYear() : this._day - date._day); return (c === 0 ? 0 : (c < 0 ? -1 : +1)); }, /** Retrieve the calendar backing this date. @memberof CDate @return {BaseCalendar} The calendar implementation. */ calendar: function() { return this._calendar; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof CDate @return {number} The equivalent Julian date. */ toJD: function() { return this._calendar.toJD(this); }, /** Create a new date from a Julian date. @memberof CDate @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { return this._calendar.fromJD(jd); }, /** Convert this date to a standard (Gregorian) JavaScript Date. @memberof CDate @return {Date} The equivalent JavaScript date. */ toJSDate: function() { return this._calendar.toJSDate(this); }, /** Create a new date from a standard (Gregorian) JavaScript Date. @memberof CDate @param jsd {Date} The JavaScript date to convert. @return {CDate} The equivalent date. */ fromJSDate: function(jsd) { return this._calendar.fromJSDate(jsd); }, /** Convert to a string for display. @memberof CDate @return {string} This date as a string. */ toString: function() { return (this.year() < 0 ? '-' : '') + pad(Math.abs(this.year()), 4) + '-' + pad(this.month(), 2) + '-' + pad(this.day(), 2); } }); /** Basic functionality for all calendars. Other calendars should extend this:
OtherCalendar.prototype = new BaseCalendar;
@class BaseCalendar */ function BaseCalendar() { this.shortYearCutoff = '+10'; } assign(BaseCalendar.prototype, { _validateLevel: 0, // "Stack" to turn validation on/off /** Create a new date within this calendar - today if no parameters given. @memberof BaseCalendar @param year {CDate|number} The date to duplicate or the year for the date. @param [month] {number} The month for the date. @param [day] {number} The day for the date. @return {CDate} The new date. @throws Error if not a valid date or a different calendar used. */ newDate: function(year, month, day) { if (year == null) { return this.today(); } if (year.year) { this._validate(year, month, day, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); day = year.day(); month = year.month(); year = year.year(); } return new CDate(this, year, month, day); }, /** Create a new date for today. @memberof BaseCalendar @return {CDate} Today's date. */ today: function() { return this.fromJSDate(new Date()); }, /** Retrieve the epoch designator for this date. @memberof BaseCalendar @param year {CDate|number} The date to examine or the year to examine. @return {string} The current epoch. @throws Error if an invalid year or a different calendar used. */ epoch: function(year) { var date = this._validate(year, this.minMonth, this.minDay, _exports.local.invalidYear || _exports.regionalOptions[''].invalidYear); return (date.year() < 0 ? this.local.epochs[0] : this.local.epochs[1]); }, /** Format the year, if not a simple sequential number @memberof BaseCalendar @param year {CDate|number} The date to format or the year to format. @return {string} The formatted year. @throws Error if an invalid year or a different calendar used. */ formatYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, _exports.local.invalidYear || _exports.regionalOptions[''].invalidYear); return (date.year() < 0 ? '-' : '') + pad(Math.abs(date.year()), 4) }, /** Retrieve the number of months in a year. @memberof BaseCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of months. @throws Error if an invalid year or a different calendar used. */ monthsInYear: function(year) { this._validate(year, this.minMonth, this.minDay, _exports.local.invalidYear || _exports.regionalOptions[''].invalidYear); return 12; }, /** Calculate the month's ordinal position within the year - for those calendars that don't start at month 1! @memberof BaseCalendar @param year {CDate|number} The date to examine or the year to examine. @param month {number} The month to examine. @return {number} The ordinal position, starting from minMonth. @throws Error if an invalid year/month or a different calendar used. */ monthOfYear: function(year, month) { var date = this._validate(year, month, this.minDay, _exports.local.invalidMonth || _exports.regionalOptions[''].invalidMonth); return (date.month() + this.monthsInYear(date) - this.firstMonth) % this.monthsInYear(date) + this.minMonth; }, /** Calculate actual month from ordinal position, starting from minMonth. @memberof BaseCalendar @param year {number} The year to examine. @param ord {number} The month's ordinal position. @return {number} The month's number. @throws Error if an invalid year/month. */ fromMonthOfYear: function(year, ord) { var m = (ord + this.firstMonth - 2 * this.minMonth) % this.monthsInYear(year) + this.minMonth; this._validate(year, m, this.minDay, _exports.local.invalidMonth || _exports.regionalOptions[''].invalidMonth); return m; }, /** Retrieve the number of days in a year. @memberof BaseCalendar @param year {CDate|number} The date to examine or the year to examine. @return {number} The number of days. @throws Error if an invalid year or a different calendar used. */ daysInYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, _exports.local.invalidYear || _exports.regionalOptions[''].invalidYear); return (this.leapYear(date) ? 366 : 365); }, /** Retrieve the day of the year for a date. @memberof BaseCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The day of the year. @throws Error if an invalid date or a different calendar used. */ dayOfYear: function(year, month, day) { var date = this._validate(year, month, day, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); return date.toJD() - this.newDate(date.year(), this.fromMonthOfYear(date.year(), this.minMonth), this.minDay).toJD() + 1; }, /** Retrieve the number of days in a week. @memberof BaseCalendar @return {number} The number of days. */ daysInWeek: function() { return 7; }, /** Retrieve the day of the week for a date. @memberof BaseCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The day of the week: 0 to number of days - 1. @throws Error if an invalid date or a different calendar used. */ dayOfWeek: function(year, month, day) { var date = this._validate(year, month, day, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); return (Math.floor(this.toJD(date)) + 2) % this.daysInWeek(); }, /** Retrieve additional information about a date. @memberof BaseCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {object} Additional information - contents depends on calendar. @throws Error if an invalid date or a different calendar used. */ extraInfo: function(year, month, day) { this._validate(year, month, day, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); return {}; }, /** Add period(s) to a date. Cater for no year zero. @memberof BaseCalendar @param date {CDate} The starting date. @param offset {number} The number of periods to adjust by. @param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day. @return {CDate} The updated date. @throws Error if a different calendar used. */ add: function(date, offset, period) { this._validate(date, this.minMonth, this.minDay, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); return this._correctAdd(date, this._add(date, offset, period), offset, period); }, /** Add period(s) to a date. @memberof BaseCalendar @private @param date {CDate} The starting date. @param offset {number} The number of periods to adjust by. @param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day. @return {CDate} The updated date. */ _add: function(date, offset, period) { this._validateLevel++; if (period === 'd' || period === 'w') { var jd = date.toJD() + offset * (period === 'w' ? this.daysInWeek() : 1); var d = date.calendar().fromJD(jd); this._validateLevel--; return [d.year(), d.month(), d.day()]; } try { var y = date.year() + (period === 'y' ? offset : 0); var m = date.monthOfYear() + (period === 'm' ? offset : 0); var d = date.day();// + (period === 'd' ? offset : 0) + //(period === 'w' ? offset * this.daysInWeek() : 0); var resyncYearMonth = function(calendar) { while (m < calendar.minMonth) { y--; m += calendar.monthsInYear(y); } var yearMonths = calendar.monthsInYear(y); while (m > yearMonths - 1 + calendar.minMonth) { y++; m -= yearMonths; yearMonths = calendar.monthsInYear(y); } }; if (period === 'y') { if (date.month() !== this.fromMonthOfYear(y, m)) { // Hebrew m = this.newDate(y, date.month(), this.minDay).monthOfYear(); } m = Math.min(m, this.monthsInYear(y)); d = Math.min(d, this.daysInMonth(y, this.fromMonthOfYear(y, m))); } else if (period === 'm') { resyncYearMonth(this); d = Math.min(d, this.daysInMonth(y, this.fromMonthOfYear(y, m))); } var ymd = [y, this.fromMonthOfYear(y, m), d]; this._validateLevel--; return ymd; } catch (e) { this._validateLevel--; throw e; } }, /** Correct a candidate date after adding period(s) to a date. Handle no year zero if necessary. @memberof BaseCalendar @private @param date {CDate} The starting date. @param ymd {number[]} The added date. @param offset {number} The number of periods to adjust by. @param period {string} One of 'y' for year, 'm' for month, 'w' for week, 'd' for day. @return {CDate} The updated date. */ _correctAdd: function(date, ymd, offset, period) { if (!this.hasYearZero && (period === 'y' || period === 'm')) { if (ymd[0] === 0 || // In year zero (date.year() > 0) !== (ymd[0] > 0)) { // Crossed year zero var adj = {y: [1, 1, 'y'], m: [1, this.monthsInYear(-1), 'm'], w: [this.daysInWeek(), this.daysInYear(-1), 'd'], d: [1, this.daysInYear(-1), 'd']}[period]; var dir = (offset < 0 ? -1 : +1); ymd = this._add(date, offset * adj[0] + dir * adj[1], adj[2]); } } return date.date(ymd[0], ymd[1], ymd[2]); }, /** Set a portion of the date. @memberof BaseCalendar @param date {CDate} The starting date. @param value {number} The new value for the period. @param period {string} One of 'y' for year, 'm' for month, 'd' for day. @return {CDate} The updated date. @throws Error if an invalid date or a different calendar used. */ set: function(date, value, period) { this._validate(date, this.minMonth, this.minDay, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); var y = (period === 'y' ? value : date.year()); var m = (period === 'm' ? value : date.month()); var d = (period === 'd' ? value : date.day()); if (period === 'y' || period === 'm') { d = Math.min(d, this.daysInMonth(y, m)); } return date.date(y, m, d); }, /** Determine whether a date is valid for this calendar. @memberof BaseCalendar @param year {number} The year to examine. @param month {number} The month to examine. @param day {number} The day to examine. @return {boolean} true if a valid date, false if not. */ isValid: function(year, month, day) { this._validateLevel++; var valid = (this.hasYearZero || year !== 0); if (valid) { var date = this.newDate(year, month, this.minDay); valid = (month >= this.minMonth && month - this.minMonth < this.monthsInYear(date)) && (day >= this.minDay && day - this.minDay < this.daysInMonth(date)); } this._validateLevel--; return valid; }, /** Convert the date to a standard (Gregorian) JavaScript Date. @memberof BaseCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {Date} The equivalent JavaScript date. @throws Error if an invalid date or a different calendar used. */ toJSDate: function(year, month, day) { var date = this._validate(year, month, day, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); return _exports.instance().fromJD(this.toJD(date)).toJSDate(); }, /** Convert the date from a standard (Gregorian) JavaScript Date. @memberof BaseCalendar @param jsd {Date} The JavaScript date. @return {CDate} The equivalent calendar date. */ fromJSDate: function(jsd) { return this.fromJD(_exports.instance().fromJSDate(jsd).toJD()); }, /** Check that a candidate date is from the same calendar and is valid. @memberof BaseCalendar @private @param year {CDate|number} The date to validate or the year to validate. @param [month] {number} The month to validate. @param [day] {number} The day to validate. @param error {string} Rrror message if invalid. @throws Error if different calendars used or invalid date. */ _validate: function(year, month, day, error) { if (year.year) { if (this._validateLevel === 0 && this.name !== year.calendar().name) { throw (_exports.local.differentCalendars || _exports.regionalOptions[''].differentCalendars). replace(/\{0\}/, this.local.name).replace(/\{1\}/, year.calendar().local.name); } return year; } try { this._validateLevel++; if (this._validateLevel === 1 && !this.isValid(year, month, day)) { throw error.replace(/\{0\}/, this.local.name); } var date = this.newDate(year, month, day); this._validateLevel--; return date; } catch (e) { this._validateLevel--; throw e; } } }); /** Implementation of the Proleptic Gregorian Calendar. See http://en.wikipedia.org/wiki/Gregorian_calendar and http://en.wikipedia.org/wiki/Proleptic_Gregorian_calendar. @class GregorianCalendar @augments BaseCalendar @param [language=''] {string} The language code (default English) for localisation. */ function GregorianCalendar(language) { this.local = this.regionalOptions[language] || this.regionalOptions['']; } GregorianCalendar.prototype = new BaseCalendar; assign(GregorianCalendar.prototype, { /** The calendar name. @memberof GregorianCalendar */ name: 'Gregorian', /** Julian date of start of Gregorian epoch: 1 January 0001 CE. @memberof GregorianCalendar */ jdEpoch: 1721425.5, /** Days per month in a common year. @memberof GregorianCalendar */ daysPerMonth: [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31], /** true if has a year zero, false if not. @memberof GregorianCalendar */ hasYearZero: false, /** The minimum month number. @memberof GregorianCalendar */ minMonth: 1, /** The first month in the year. @memberof GregorianCalendar */ firstMonth: 1, /** The minimum day number. @memberof GregorianCalendar */ minDay: 1, /** Localisations for the plugin. Entries are objects indexed by the language code ('' being the default US/English). Each object has the following attributes. @memberof GregorianCalendar @property name {string} The calendar name. @property epochs {string[]} The epoch names. @property monthNames {string[]} The long names of the months of the year. @property monthNamesShort {string[]} The short names of the months of the year. @property dayNames {string[]} The long names of the days of the week. @property dayNamesShort {string[]} The short names of the days of the week. @property dayNamesMin {string[]} The minimal names of the days of the week. @property dateFormat {string} The date format for this calendar. See the options on formatDate for details. @property firstDay {number} The number of the first day of the week, starting at 0. @property isRTL {number} true if this localisation reads right-to-left. */ regionalOptions: { // Localisations '': { name: 'Gregorian', epochs: ['BCE', 'CE'], monthNames: ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December'], monthNamesShort: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'], dayNames: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'], dayNamesShort: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'], dayNamesMin: ['Su', 'Mo', 'Tu', 'We', 'Th', 'Fr', 'Sa'], digits: null, dateFormat: 'mm/dd/yyyy', firstDay: 0, isRTL: false } }, /** Determine whether this date is in a leap year. @memberof GregorianCalendar @param year {CDate|number} The date to examine or the year to examine. @return {boolean} true if this is a leap year, false if not. @throws Error if an invalid year or a different calendar used. */ leapYear: function(year) { var date = this._validate(year, this.minMonth, this.minDay, _exports.local.invalidYear || _exports.regionalOptions[''].invalidYear); var year = date.year() + (date.year() < 0 ? 1 : 0); // No year zero return year % 4 === 0 && (year % 100 !== 0 || year % 400 === 0); }, /** Determine the week of the year for a date - ISO 8601. @memberof GregorianCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {number} The week of the year, starting from 1. @throws Error if an invalid date or a different calendar used. */ weekOfYear: function(year, month, day) { // Find Thursday of this week starting on Monday var checkDate = this.newDate(year, month, day); checkDate.add(4 - (checkDate.dayOfWeek() || 7), 'd'); return Math.floor((checkDate.dayOfYear() - 1) / 7) + 1; }, /** Retrieve the number of days in a month. @memberof GregorianCalendar @param year {CDate|number} The date to examine or the year of the month. @param [month] {number} The month. @return {number} The number of days in this month. @throws Error if an invalid month/year or a different calendar used. */ daysInMonth: function(year, month) { var date = this._validate(year, month, this.minDay, _exports.local.invalidMonth || _exports.regionalOptions[''].invalidMonth); return this.daysPerMonth[date.month() - 1] + (date.month() === 2 && this.leapYear(date.year()) ? 1 : 0); }, /** Determine whether this date is a week day. @memberof GregorianCalendar @param year {CDate|number} The date to examine or the year to examine. @param [month] {number} The month to examine. @param [day] {number} The day to examine. @return {boolean} true if a week day, false if not. @throws Error if an invalid date or a different calendar used. */ weekDay: function(year, month, day) { return (this.dayOfWeek(year, month, day) || 7) < 6; }, /** Retrieve the Julian date equivalent for this date, i.e. days since January 1, 4713 BCE Greenwich noon. @memberof GregorianCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {number} The equivalent Julian date. @throws Error if an invalid date or a different calendar used. */ toJD: function(year, month, day) { var date = this._validate(year, month, day, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); year = date.year(); month = date.month(); day = date.day(); if (year < 0) { year++; } // No year zero // Jean Meeus algorithm, "Astronomical Algorithms", 1991 if (month < 3) { month += 12; year--; } var a = Math.floor(year / 100); var b = 2 - a + Math.floor(a / 4); return Math.floor(365.25 * (year + 4716)) + Math.floor(30.6001 * (month + 1)) + day + b - 1524.5; }, /** Create a new date from a Julian date. @memberof GregorianCalendar @param jd {number} The Julian date to convert. @return {CDate} The equivalent date. */ fromJD: function(jd) { // Jean Meeus algorithm, "Astronomical Algorithms", 1991 var z = Math.floor(jd + 0.5); var a = Math.floor((z - 1867216.25) / 36524.25); a = z + 1 + a - Math.floor(a / 4); var b = a + 1524; var c = Math.floor((b - 122.1) / 365.25); var d = Math.floor(365.25 * c); var e = Math.floor((b - d) / 30.6001); var day = b - d - Math.floor(e * 30.6001); var month = e - (e > 13.5 ? 13 : 1); var year = c - (month > 2.5 ? 4716 : 4715); if (year <= 0) { year--; } // No year zero return this.newDate(year, month, day); }, /** Convert this date to a standard (Gregorian) JavaScript Date. @memberof GregorianCalendar @param year {CDate|number} The date to convert or the year to convert. @param [month] {number} The month to convert. @param [day] {number} The day to convert. @return {Date} The equivalent JavaScript date. @throws Error if an invalid date or a different calendar used. */ toJSDate: function(year, month, day) { var date = this._validate(year, month, day, _exports.local.invalidDate || _exports.regionalOptions[''].invalidDate); var jsd = new Date(date.year(), date.month() - 1, date.day()); jsd.setHours(0); jsd.setMinutes(0); jsd.setSeconds(0); jsd.setMilliseconds(0); // Hours may be non-zero on daylight saving cut-over: // > 12 when midnight changeover, but then cannot generate // midnight datetime, so jump to 1AM, otherwise reset. jsd.setHours(jsd.getHours() > 12 ? jsd.getHours() + 2 : 0); return jsd; }, /** Create a new date from a standard (Gregorian) JavaScript Date. @memberof GregorianCalendar @param jsd {Date} The JavaScript date to convert. @return {CDate} The equivalent date. */ fromJSDate: function(jsd) { return this.newDate(jsd.getFullYear(), jsd.getMonth() + 1, jsd.getDate()); } }); // Singleton manager var _exports = module.exports = new Calendars(); // Date template _exports.cdate = CDate; // Base calendar template _exports.baseCalendar = BaseCalendar; // Gregorian calendar implementation _exports.calendars.gregorian = GregorianCalendar; },{"object-assign":73}],138:[function(_dereq_,module,exports){ /* * World Calendars * https://github.com/alexcjohnson/world-calendars * * Batch-converted from kbwood/calendars * Many thanks to Keith Wood and all of the contributors to the original project! * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ /* http://keith-wood.name/calendars.html Calendars extras for jQuery v2.0.2. Written by Keith Wood (wood.keith{at}optusnet.com.au) August 2009. Available under the MIT (http://keith-wood.name/licence.html) license. Please attribute the author if you use it. */ var assign = _dereq_('object-assign'); var main = _dereq_('./main'); assign(main.regionalOptions[''], { invalidArguments: 'Invalid arguments', invalidFormat: 'Cannot format a date from another calendar', missingNumberAt: 'Missing number at position {0}', unknownNameAt: 'Unknown name at position {0}', unexpectedLiteralAt: 'Unexpected literal at position {0}', unexpectedText: 'Additional text found at end' }); main.local = main.regionalOptions['']; assign(main.cdate.prototype, { /** Format this date. Found in the jquery.calendars.plus.js module. @memberof CDate @param [format] {string} The date format to use (see formatDate). @param [settings] {object} Options for the formatDate function. @return {string} The formatted date. */ formatDate: function(format, settings) { if (typeof format !== 'string') { settings = format; format = ''; } return this._calendar.formatDate(format || '', this, settings); } }); assign(main.baseCalendar.prototype, { UNIX_EPOCH: main.instance().newDate(1970, 1, 1).toJD(), SECS_PER_DAY: 24 * 60 * 60, TICKS_EPOCH: main.instance().jdEpoch, // 1 January 0001 CE TICKS_PER_DAY: 24 * 60 * 60 * 10000000, /** Date form for ATOM (RFC 3339/ISO 8601). Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ ATOM: 'yyyy-mm-dd', /** Date form for cookies. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ COOKIE: 'D, dd M yyyy', /** Date form for full date. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ FULL: 'DD, MM d, yyyy', /** Date form for ISO 8601. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ ISO_8601: 'yyyy-mm-dd', /** Date form for Julian date. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ JULIAN: 'J', /** Date form for RFC 822. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ RFC_822: 'D, d M yy', /** Date form for RFC 850. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ RFC_850: 'DD, dd-M-yy', /** Date form for RFC 1036. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ RFC_1036: 'D, d M yy', /** Date form for RFC 1123. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ RFC_1123: 'D, d M yyyy', /** Date form for RFC 2822. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ RFC_2822: 'D, d M yyyy', /** Date form for RSS (RFC 822). Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ RSS: 'D, d M yy', /** Date form for Windows ticks. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ TICKS: '!', /** Date form for Unix timestamp. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ TIMESTAMP: '@', /** Date form for W3c (ISO 8601). Found in the jquery.calendars.plus.js module. @memberof BaseCalendar */ W3C: 'yyyy-mm-dd', /** Format a date object into a string value. The format can be combinations of the following:
  • d - day of month (no leading zero)
  • dd - day of month (two digit)
  • o - day of year (no leading zeros)
  • oo - day of year (three digit)
  • D - day name short
  • DD - day name long
  • w - week of year (no leading zero)
  • ww - week of year (two digit)
  • m - month of year (no leading zero)
  • mm - month of year (two digit)
  • M - month name short
  • MM - month name long
  • yy - year (two digit)
  • yyyy - year (four digit)
  • YYYY - formatted year
  • J - Julian date (days since January 1, 4713 BCE Greenwich noon)
  • @ - Unix timestamp (s since 01/01/1970)
  • ! - Windows ticks (100ns since 01/01/0001)
  • '...' - literal text
  • '' - single quote
Found in the jquery.calendars.plus.js module. @memberof BaseCalendar @param [format] {string} The desired format of the date (defaults to calendar format). @param date {CDate} The date value to format. @param [settings] {object} Addition options, whose attributes include: @property [dayNamesShort] {string[]} Abbreviated names of the days from Sunday. @property [dayNames] {string[]} Names of the days from Sunday. @property [monthNamesShort] {string[]} Abbreviated names of the months. @property [monthNames] {string[]} Names of the months. @property [calculateWeek] {CalendarsPickerCalculateWeek} Function that determines week of the year. @property [localNumbers=false] {boolean} true to localise numbers (if available), false to use normal Arabic numerals. @return {string} The date in the above format. @throws Errors if the date is from a different calendar. */ formatDate: function(format, date, settings) { if (typeof format !== 'string') { settings = date; date = format; format = ''; } if (!date) { return ''; } if (date.calendar() !== this) { throw main.local.invalidFormat || main.regionalOptions[''].invalidFormat; } format = format || this.local.dateFormat; settings = settings || {}; var dayNamesShort = settings.dayNamesShort || this.local.dayNamesShort; var dayNames = settings.dayNames || this.local.dayNames; var monthNumbers = settings.monthNumbers || this.local.monthNumbers; var monthNamesShort = settings.monthNamesShort || this.local.monthNamesShort; var monthNames = settings.monthNames || this.local.monthNames; var calculateWeek = settings.calculateWeek || this.local.calculateWeek; // Check whether a format character is doubled var doubled = function(match, step) { var matches = 1; while (iFormat + matches < format.length && format.charAt(iFormat + matches) === match) { matches++; } iFormat += matches - 1; return Math.floor(matches / (step || 1)) > 1; }; // Format a number, with leading zeroes if necessary var formatNumber = function(match, value, len, step) { var num = '' + value; if (doubled(match, step)) { while (num.length < len) { num = '0' + num; } } return num; }; // Format a name, short or long as requested var formatName = function(match, value, shortNames, longNames) { return (doubled(match) ? longNames[value] : shortNames[value]); }; // Format month number // (e.g. Chinese calendar needs to account for intercalary months) var calendar = this; var formatMonth = function(date) { return (typeof monthNumbers === 'function') ? monthNumbers.call(calendar, date, doubled('m')) : localiseNumbers(formatNumber('m', date.month(), 2)); }; // Format a month name, short or long as requested var formatMonthName = function(date, useLongName) { if (useLongName) { return (typeof monthNames === 'function') ? monthNames.call(calendar, date) : monthNames[date.month() - calendar.minMonth]; } else { return (typeof monthNamesShort === 'function') ? monthNamesShort.call(calendar, date) : monthNamesShort[date.month() - calendar.minMonth]; } }; // Localise numbers if requested and available var digits = this.local.digits; var localiseNumbers = function(value) { return (settings.localNumbers && digits ? digits(value) : value); }; var output = ''; var literal = false; for (var iFormat = 0; iFormat < format.length; iFormat++) { if (literal) { if (format.charAt(iFormat) === "'" && !doubled("'")) { literal = false; } else { output += format.charAt(iFormat); } } else { switch (format.charAt(iFormat)) { case 'd': output += localiseNumbers(formatNumber('d', date.day(), 2)); break; case 'D': output += formatName('D', date.dayOfWeek(), dayNamesShort, dayNames); break; case 'o': output += formatNumber('o', date.dayOfYear(), 3); break; case 'w': output += formatNumber('w', date.weekOfYear(), 2); break; case 'm': output += formatMonth(date); break; case 'M': output += formatMonthName(date, doubled('M')); break; case 'y': output += (doubled('y', 2) ? date.year() : (date.year() % 100 < 10 ? '0' : '') + date.year() % 100); break; case 'Y': doubled('Y', 2); output += date.formatYear(); break; case 'J': output += date.toJD(); break; case '@': output += (date.toJD() - this.UNIX_EPOCH) * this.SECS_PER_DAY; break; case '!': output += (date.toJD() - this.TICKS_EPOCH) * this.TICKS_PER_DAY; break; case "'": if (doubled("'")) { output += "'"; } else { literal = true; } break; default: output += format.charAt(iFormat); } } } return output; }, /** Parse a string value into a date object. See formatDate for the possible formats, plus:
  • * - ignore rest of string
Found in the jquery.calendars.plus.js module. @memberof BaseCalendar @param format {string} The expected format of the date ('' for default calendar format). @param value {string} The date in the above format. @param [settings] {object} Additional options whose attributes include: @property [shortYearCutoff] {number} The cutoff year for determining the century. @property [dayNamesShort] {string[]} Abbreviated names of the days from Sunday. @property [dayNames] {string[]} Names of the days from Sunday. @property [monthNamesShort] {string[]} Abbreviated names of the months. @property [monthNames] {string[]} Names of the months. @return {CDate} The extracted date value or null if value is blank. @throws Errors if the format and/or value are missing, if the value doesn't match the format, or if the date is invalid. */ parseDate: function(format, value, settings) { if (value == null) { throw main.local.invalidArguments || main.regionalOptions[''].invalidArguments; } value = (typeof value === 'object' ? value.toString() : value + ''); if (value === '') { return null; } format = format || this.local.dateFormat; settings = settings || {}; var shortYearCutoff = settings.shortYearCutoff || this.shortYearCutoff; shortYearCutoff = (typeof shortYearCutoff !== 'string' ? shortYearCutoff : this.today().year() % 100 + parseInt(shortYearCutoff, 10)); var dayNamesShort = settings.dayNamesShort || this.local.dayNamesShort; var dayNames = settings.dayNames || this.local.dayNames; var parseMonth = settings.parseMonth || this.local.parseMonth; var monthNumbers = settings.monthNumbers || this.local.monthNumbers; var monthNamesShort = settings.monthNamesShort || this.local.monthNamesShort; var monthNames = settings.monthNames || this.local.monthNames; var jd = -1; var year = -1; var month = -1; var day = -1; var doy = -1; var shortYear = false; var literal = false; // Check whether a format character is doubled var doubled = function(match, step) { var matches = 1; while (iFormat + matches < format.length && format.charAt(iFormat + matches) === match) { matches++; } iFormat += matches - 1; return Math.floor(matches / (step || 1)) > 1; }; // Extract a number from the string value var getNumber = function(match, step) { var isDoubled = doubled(match, step); var size = [2, 3, isDoubled ? 4 : 2, isDoubled ? 4 : 2, 10, 11, 20]['oyYJ@!'.indexOf(match) + 1]; var digits = new RegExp('^-?\\d{1,' + size + '}'); var num = value.substring(iValue).match(digits); if (!num) { throw (main.local.missingNumberAt || main.regionalOptions[''].missingNumberAt). replace(/\{0\}/, iValue); } iValue += num[0].length; return parseInt(num[0], 10); }; // Extract a month number from the string value var calendar = this; var getMonthNumber = function() { if (typeof monthNumbers === 'function') { doubled('m'); // update iFormat var month = monthNumbers.call(calendar, value.substring(iValue)); iValue += month.length; return month; } return getNumber('m'); }; // Extract a name from the string value and convert to an index var getName = function(match, shortNames, longNames, step) { var names = (doubled(match, step) ? longNames : shortNames); for (var i = 0; i < names.length; i++) { if (value.substr(iValue, names[i].length).toLowerCase() === names[i].toLowerCase()) { iValue += names[i].length; return i + calendar.minMonth; } } throw (main.local.unknownNameAt || main.regionalOptions[''].unknownNameAt). replace(/\{0\}/, iValue); }; // Extract a month number from the string value var getMonthName = function() { if (typeof monthNames === 'function') { var month = doubled('M') ? monthNames.call(calendar, value.substring(iValue)) : monthNamesShort.call(calendar, value.substring(iValue)); iValue += month.length; return month; } return getName('M', monthNamesShort, monthNames); }; // Confirm that a literal character matches the string value var checkLiteral = function() { if (value.charAt(iValue) !== format.charAt(iFormat)) { throw (main.local.unexpectedLiteralAt || main.regionalOptions[''].unexpectedLiteralAt).replace(/\{0\}/, iValue); } iValue++; }; var iValue = 0; for (var iFormat = 0; iFormat < format.length; iFormat++) { if (literal) { if (format.charAt(iFormat) === "'" && !doubled("'")) { literal = false; } else { checkLiteral(); } } else { switch (format.charAt(iFormat)) { case 'd': day = getNumber('d'); break; case 'D': getName('D', dayNamesShort, dayNames); break; case 'o': doy = getNumber('o'); break; case 'w': getNumber('w'); break; case 'm': month = getMonthNumber(); break; case 'M': month = getMonthName(); break; case 'y': var iSave = iFormat; shortYear = !doubled('y', 2); iFormat = iSave; year = getNumber('y', 2); break; case 'Y': year = getNumber('Y', 2); break; case 'J': jd = getNumber('J') + 0.5; if (value.charAt(iValue) === '.') { iValue++; getNumber('J'); } break; case '@': jd = getNumber('@') / this.SECS_PER_DAY + this.UNIX_EPOCH; break; case '!': jd = getNumber('!') / this.TICKS_PER_DAY + this.TICKS_EPOCH; break; case '*': iValue = value.length; break; case "'": if (doubled("'")) { checkLiteral(); } else { literal = true; } break; default: checkLiteral(); } } } if (iValue < value.length) { throw main.local.unexpectedText || main.regionalOptions[''].unexpectedText; } if (year === -1) { year = this.today().year(); } else if (year < 100 && shortYear) { year += (shortYearCutoff === -1 ? 1900 : this.today().year() - this.today().year() % 100 - (year <= shortYearCutoff ? 0 : 100)); } if (typeof month === 'string') { month = parseMonth.call(this, year, month); } if (doy > -1) { month = 1; day = doy; for (var dim = this.daysInMonth(year, month); day > dim; dim = this.daysInMonth(year, month)) { month++; day -= dim; } } return (jd > -1 ? this.fromJD(jd) : this.newDate(year, month, day)); }, /** A date may be specified as an exact value or a relative one. Found in the jquery.calendars.plus.js module. @memberof BaseCalendar @param dateSpec {CDate|number|string} The date as an object or string in the given format or an offset - numeric days from today, or string amounts and periods, e.g. '+1m +2w'. @param defaultDate {CDate} The date to use if no other supplied, may be null. @param currentDate {CDate} The current date as a possible basis for relative dates, if null today is used (optional) @param [dateFormat] {string} The expected date format - see formatDate. @param [settings] {object} Additional options whose attributes include: @property [shortYearCutoff] {number} The cutoff year for determining the century. @property [dayNamesShort] {string[]} Abbreviated names of the days from Sunday. @property [dayNames] {string[]} Names of the days from Sunday. @property [monthNamesShort] {string[]} Abbreviated names of the months. @property [monthNames] {string[]} Names of the months. @return {CDate} The decoded date. */ determineDate: function(dateSpec, defaultDate, currentDate, dateFormat, settings) { if (currentDate && typeof currentDate !== 'object') { settings = dateFormat; dateFormat = currentDate; currentDate = null; } if (typeof dateFormat !== 'string') { settings = dateFormat; dateFormat = ''; } var calendar = this; var offsetString = function(offset) { try { return calendar.parseDate(dateFormat, offset, settings); } catch (e) { // Ignore } offset = offset.toLowerCase(); var date = (offset.match(/^c/) && currentDate ? currentDate.newDate() : null) || calendar.today(); var pattern = /([+-]?[0-9]+)\s*(d|w|m|y)?/g; var matches = pattern.exec(offset); while (matches) { date.add(parseInt(matches[1], 10), matches[2] || 'd'); matches = pattern.exec(offset); } return date; }; defaultDate = (defaultDate ? defaultDate.newDate() : null); dateSpec = (dateSpec == null ? defaultDate : (typeof dateSpec === 'string' ? offsetString(dateSpec) : (typeof dateSpec === 'number' ? (isNaN(dateSpec) || dateSpec === Infinity || dateSpec === -Infinity ? defaultDate : calendar.today().add(dateSpec, 'd')) : calendar.newDate(dateSpec)))); return dateSpec; } }); },{"./main":137,"object-assign":73}],139:[function(_dereq_,module,exports){ 'use strict'; /** * All paths are tuned for maximum scalability of the arrowhead, * ie throughout arrowwidth=0.3..3 the head is joined smoothly * to the line, with the line coming from the left and ending at (0, 0). * * `backoff` is the distance to move the arrowhead and the end of the line, * in order that the arrowhead points to the desired place, either at * the tip of the arrow or (in the case of circle or square) * the center of the symbol. * * `noRotate`, if truthy, says that this arrowhead should not rotate with the * arrow. That's the case for squares, which should always be straight, and * circles, for which it's irrelevant. */ module.exports = [ // no arrow { path: '', backoff: 0 }, // wide with flat back { path: 'M-2.4,-3V3L0.6,0Z', backoff: 0.6 }, // narrower with flat back { path: 'M-3.7,-2.5V2.5L1.3,0Z', backoff: 1.3 }, // barbed { path: 'M-4.45,-3L-1.65,-0.2V0.2L-4.45,3L1.55,0Z', backoff: 1.55 }, // wide line-drawn { path: 'M-2.2,-2.2L-0.2,-0.2V0.2L-2.2,2.2L-1.4,3L1.6,0L-1.4,-3Z', backoff: 1.6 }, // narrower line-drawn { path: 'M-4.4,-2.1L-0.6,-0.2V0.2L-4.4,2.1L-4,3L2,0L-4,-3Z', backoff: 2 }, // circle { path: 'M2,0A2,2 0 1,1 0,-2A2,2 0 0,1 2,0Z', backoff: 0, noRotate: true }, // square { path: 'M2,2V-2H-2V2Z', backoff: 0, noRotate: true } ]; },{}],140:[function(_dereq_,module,exports){ 'use strict'; var ARROWPATHS = _dereq_('./arrow_paths'); var fontAttrs = _dereq_('../../plots/font_attributes'); var cartesianConstants = _dereq_('../../plots/cartesian/constants'); var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray; var axisPlaceableObjs = _dereq_('../../constants/axis_placeable_objects'); function arrowAxisRefDescription(axis) { return [ 'In order for absolute positioning of the arrow to work, *a' + axis + 'ref* must be exactly the same as *' + axis + 'ref*, otherwise *a' + axis + 'ref* will revert to *pixel* (explained next).', 'For relative positioning, *a' + axis + 'ref* can be set to *pixel*,', 'in which case the *a' + axis + '* value is specified in pixels', 'relative to *' + axis + '*.', 'Absolute positioning is useful', 'for trendline annotations which should continue to indicate', 'the correct trend when zoomed. Relative positioning is useful', 'for specifying the text offset for an annotated point.' ].join(' '); } function arrowCoordinateDescription(axis, lower, upper) { return [ 'Sets the', axis, 'component of the arrow tail about the arrow head.', 'If `a' + axis + 'ref` is `pixel`, a positive (negative)', 'component corresponds to an arrow pointing', 'from', upper, 'to', lower, '(' + lower, 'to', upper + ').', 'If `a' + axis + 'ref` is not `pixel` and is exactly the same as `' + axis + 'ref`,', 'this is an absolute value on that axis,', 'like `' + axis + '`, specified in the same coordinates as `' + axis + 'ref`.' ].join(' '); } module.exports = templatedArray('annotation', { visible: { valType: 'boolean', dflt: true, editType: 'calc+arraydraw', }, text: { valType: 'string', editType: 'calc+arraydraw', }, textangle: { valType: 'angle', dflt: 0, editType: 'calc+arraydraw', }, font: fontAttrs({ editType: 'calc+arraydraw', colorEditType: 'arraydraw', }), width: { valType: 'number', min: 1, dflt: null, editType: 'calc+arraydraw', }, height: { valType: 'number', min: 1, dflt: null, editType: 'calc+arraydraw', }, opacity: { valType: 'number', min: 0, max: 1, dflt: 1, editType: 'arraydraw', }, align: { valType: 'enumerated', values: ['left', 'center', 'right'], dflt: 'center', editType: 'arraydraw', }, valign: { valType: 'enumerated', values: ['top', 'middle', 'bottom'], dflt: 'middle', editType: 'arraydraw', }, bgcolor: { valType: 'color', dflt: 'rgba(0,0,0,0)', editType: 'arraydraw', }, bordercolor: { valType: 'color', dflt: 'rgba(0,0,0,0)', editType: 'arraydraw', }, borderpad: { valType: 'number', min: 0, dflt: 1, editType: 'calc+arraydraw', }, borderwidth: { valType: 'number', min: 0, dflt: 1, editType: 'calc+arraydraw', }, // arrow showarrow: { valType: 'boolean', dflt: true, editType: 'calc+arraydraw', }, arrowcolor: { valType: 'color', editType: 'arraydraw', }, arrowhead: { valType: 'integer', min: 0, max: ARROWPATHS.length, dflt: 1, editType: 'arraydraw', }, startarrowhead: { valType: 'integer', min: 0, max: ARROWPATHS.length, dflt: 1, editType: 'arraydraw', }, arrowside: { valType: 'flaglist', flags: ['end', 'start'], extras: ['none'], dflt: 'end', editType: 'arraydraw', }, arrowsize: { valType: 'number', min: 0.3, dflt: 1, editType: 'calc+arraydraw', }, startarrowsize: { valType: 'number', min: 0.3, dflt: 1, editType: 'calc+arraydraw', }, arrowwidth: { valType: 'number', min: 0.1, editType: 'calc+arraydraw', }, standoff: { valType: 'number', min: 0, dflt: 0, editType: 'calc+arraydraw', }, startstandoff: { valType: 'number', min: 0, dflt: 0, editType: 'calc+arraydraw', }, ax: { valType: 'any', editType: 'calc+arraydraw', }, ay: { valType: 'any', editType: 'calc+arraydraw', }, axref: { valType: 'enumerated', dflt: 'pixel', values: [ 'pixel', cartesianConstants.idRegex.x.toString() ], editType: 'calc', }, ayref: { valType: 'enumerated', dflt: 'pixel', values: [ 'pixel', cartesianConstants.idRegex.y.toString() ], editType: 'calc', }, // positioning xref: { valType: 'enumerated', values: [ 'paper', cartesianConstants.idRegex.x.toString() ], editType: 'calc', }, x: { valType: 'any', editType: 'calc+arraydraw', }, xanchor: { valType: 'enumerated', values: ['auto', 'left', 'center', 'right'], dflt: 'auto', editType: 'calc+arraydraw', }, xshift: { valType: 'number', dflt: 0, editType: 'calc+arraydraw', }, yref: { valType: 'enumerated', values: [ 'paper', cartesianConstants.idRegex.y.toString() ], editType: 'calc', }, y: { valType: 'any', editType: 'calc+arraydraw', }, yanchor: { valType: 'enumerated', values: ['auto', 'top', 'middle', 'bottom'], dflt: 'auto', editType: 'calc+arraydraw', }, yshift: { valType: 'number', dflt: 0, editType: 'calc+arraydraw', }, clicktoshow: { valType: 'enumerated', values: [false, 'onoff', 'onout'], dflt: false, editType: 'arraydraw', }, xclick: { valType: 'any', editType: 'arraydraw', }, yclick: { valType: 'any', editType: 'arraydraw', }, hovertext: { valType: 'string', editType: 'arraydraw', }, hoverlabel: { bgcolor: { valType: 'color', editType: 'arraydraw', }, bordercolor: { valType: 'color', editType: 'arraydraw', }, font: fontAttrs({ editType: 'arraydraw', }), editType: 'arraydraw' }, captureevents: { valType: 'boolean', editType: 'arraydraw', }, editType: 'calc', _deprecated: { ref: { valType: 'string', editType: 'calc', } } }); },{"../../constants/axis_placeable_objects":263,"../../plot_api/plot_template":323,"../../plots/cartesian/constants":341,"../../plots/font_attributes":365,"./arrow_paths":139}],141:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var draw = _dereq_('./draw').draw; module.exports = function calcAutorange(gd) { var fullLayout = gd._fullLayout; var annotationList = Lib.filterVisible(fullLayout.annotations); if(annotationList.length && gd._fullData.length) { return Lib.syncOrAsync([draw, annAutorange], gd); } }; function annAutorange(gd) { var fullLayout = gd._fullLayout; // find the bounding boxes for each of these annotations' // relative to their anchor points // use the arrow and the text bg rectangle, // as the whole anno may include hidden text in its bbox Lib.filterVisible(fullLayout.annotations).forEach(function(ann) { var xa = Axes.getFromId(gd, ann.xref); var ya = Axes.getFromId(gd, ann.yref); var xRefType = Axes.getRefType(ann.xref); var yRefType = Axes.getRefType(ann.yref); ann._extremes = {}; if(xRefType === 'range') calcAxisExpansion(ann, xa); if(yRefType === 'range') calcAxisExpansion(ann, ya); }); } function calcAxisExpansion(ann, ax) { var axId = ax._id; var letter = axId.charAt(0); var pos = ann[letter]; var apos = ann['a' + letter]; var ref = ann[letter + 'ref']; var aref = ann['a' + letter + 'ref']; var padplus = ann['_' + letter + 'padplus']; var padminus = ann['_' + letter + 'padminus']; var shift = {x: 1, y: -1}[letter] * ann[letter + 'shift']; var headSize = 3 * ann.arrowsize * ann.arrowwidth || 0; var headPlus = headSize + shift; var headMinus = headSize - shift; var startHeadSize = 3 * ann.startarrowsize * ann.arrowwidth || 0; var startHeadPlus = startHeadSize + shift; var startHeadMinus = startHeadSize - shift; var extremes; if(aref === ref) { // expand for the arrowhead (padded by arrowhead) var extremeArrowHead = Axes.findExtremes(ax, [ax.r2c(pos)], { ppadplus: headPlus, ppadminus: headMinus }); // again for the textbox (padded by textbox) var extremeText = Axes.findExtremes(ax, [ax.r2c(apos)], { ppadplus: Math.max(padplus, startHeadPlus), ppadminus: Math.max(padminus, startHeadMinus) }); extremes = { min: [extremeArrowHead.min[0], extremeText.min[0]], max: [extremeArrowHead.max[0], extremeText.max[0]] }; } else { startHeadPlus = apos ? startHeadPlus + apos : startHeadPlus; startHeadMinus = apos ? startHeadMinus - apos : startHeadMinus; extremes = Axes.findExtremes(ax, [ax.r2c(pos)], { ppadplus: Math.max(padplus, headPlus, startHeadPlus), ppadminus: Math.max(padminus, headMinus, startHeadMinus) }); } ann._extremes[axId] = extremes; } },{"../../lib":287,"../../plots/cartesian/axes":334,"./draw":146}],142:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor; module.exports = { hasClickToShow: hasClickToShow, onClick: onClick }; /* * hasClickToShow: does the given hoverData have ANY annotations which will * turn ON if we click here? (used by hover events to set cursor) * * gd: graphDiv * hoverData: a hoverData array, as included with the *plotly_hover* or * *plotly_click* events in the `points` attribute * * returns: boolean */ function hasClickToShow(gd, hoverData) { var sets = getToggleSets(gd, hoverData); return sets.on.length > 0 || sets.explicitOff.length > 0; } /* * onClick: perform the toggling (via Plotly.update) implied by clicking * at this hoverData * * gd: graphDiv * hoverData: a hoverData array, as included with the *plotly_hover* or * *plotly_click* events in the `points` attribute * * returns: Promise that the update is complete */ function onClick(gd, hoverData) { var toggleSets = getToggleSets(gd, hoverData); var onSet = toggleSets.on; var offSet = toggleSets.off.concat(toggleSets.explicitOff); var update = {}; var annotationsOut = gd._fullLayout.annotations; var i, editHelpers; if(!(onSet.length || offSet.length)) return; for(i = 0; i < onSet.length; i++) { editHelpers = arrayEditor(gd.layout, 'annotations', annotationsOut[onSet[i]]); editHelpers.modifyItem('visible', true); Lib.extendFlat(update, editHelpers.getUpdateObj()); } for(i = 0; i < offSet.length; i++) { editHelpers = arrayEditor(gd.layout, 'annotations', annotationsOut[offSet[i]]); editHelpers.modifyItem('visible', false); Lib.extendFlat(update, editHelpers.getUpdateObj()); } return Registry.call('update', gd, {}, update); } /* * getToggleSets: find the annotations which will turn on or off at this * hoverData * * gd: graphDiv * hoverData: a hoverData array, as included with the *plotly_hover* or * *plotly_click* events in the `points` attribute * * returns: { * on: Array (indices of annotations to turn on), * off: Array (indices to turn off because you're not hovering on them), * explicitOff: Array (indices to turn off because you *are* hovering on them) * } */ function getToggleSets(gd, hoverData) { var annotations = gd._fullLayout.annotations; var onSet = []; var offSet = []; var explicitOffSet = []; var hoverLen = (hoverData || []).length; var i, j, anni, showMode, pointj, xa, ya, toggleType; for(i = 0; i < annotations.length; i++) { anni = annotations[i]; showMode = anni.clicktoshow; if(showMode) { for(j = 0; j < hoverLen; j++) { pointj = hoverData[j]; xa = pointj.xaxis; ya = pointj.yaxis; if(xa._id === anni.xref && ya._id === anni.yref && xa.d2r(pointj.x) === clickData2r(anni._xclick, xa) && ya.d2r(pointj.y) === clickData2r(anni._yclick, ya) ) { // match! toggle this annotation // regardless of its clicktoshow mode // but if it's onout mode, off is implicit if(anni.visible) { if(showMode === 'onout') toggleType = offSet; else toggleType = explicitOffSet; } else { toggleType = onSet; } toggleType.push(i); break; } } if(j === hoverLen) { // no match - only turn this annotation OFF, and only if // showmode is 'onout' if(anni.visible && showMode === 'onout') offSet.push(i); } } } return {on: onSet, off: offSet, explicitOff: explicitOffSet}; } // to handle log axes until v3 function clickData2r(d, ax) { return ax.type === 'log' ? ax.l2r(d) : ax.d2r(d); } },{"../../lib":287,"../../plot_api/plot_template":323,"../../registry":378}],143:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Color = _dereq_('../color'); // defaults common to 'annotations' and 'annotations3d' module.exports = function handleAnnotationCommonDefaults(annIn, annOut, fullLayout, coerce) { coerce('opacity'); var bgColor = coerce('bgcolor'); var borderColor = coerce('bordercolor'); var borderOpacity = Color.opacity(borderColor); coerce('borderpad'); var borderWidth = coerce('borderwidth'); var showArrow = coerce('showarrow'); coerce('text', showArrow ? ' ' : fullLayout._dfltTitle.annotation); coerce('textangle'); Lib.coerceFont(coerce, 'font', fullLayout.font); coerce('width'); coerce('align'); var h = coerce('height'); if(h) coerce('valign'); if(showArrow) { var arrowside = coerce('arrowside'); var arrowhead; var arrowsize; if(arrowside.indexOf('end') !== -1) { arrowhead = coerce('arrowhead'); arrowsize = coerce('arrowsize'); } if(arrowside.indexOf('start') !== -1) { coerce('startarrowhead', arrowhead); coerce('startarrowsize', arrowsize); } coerce('arrowcolor', borderOpacity ? annOut.bordercolor : Color.defaultLine); coerce('arrowwidth', ((borderOpacity && borderWidth) || 1) * 2); coerce('standoff'); coerce('startstandoff'); } var hoverText = coerce('hovertext'); var globalHoverLabel = fullLayout.hoverlabel || {}; if(hoverText) { var hoverBG = coerce('hoverlabel.bgcolor', globalHoverLabel.bgcolor || (Color.opacity(bgColor) ? Color.rgb(bgColor) : Color.defaultLine) ); var hoverBorder = coerce('hoverlabel.bordercolor', globalHoverLabel.bordercolor || Color.contrast(hoverBG) ); Lib.coerceFont(coerce, 'hoverlabel.font', { family: globalHoverLabel.font.family, size: globalHoverLabel.font.size, color: globalHoverLabel.font.color || hoverBorder }); } coerce('captureevents', !!hoverText); }; },{"../../lib":287,"../color":157}],144:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var toLogRange = _dereq_('../../lib/to_log_range'); /* * convertCoords: when converting an axis between log and linear * you need to alter any annotations on that axis to keep them * pointing at the same data point. * In v3.0 this will become obsolete * * gd: the plot div * ax: the axis being changed * newType: the type it's getting * doExtra: function(attr, val) from inside relayout that sets the attribute. * Use this to make the changes as it's aware if any other changes in the * same relayout call should override this conversion. */ module.exports = function convertCoords(gd, ax, newType, doExtra) { ax = ax || {}; var toLog = (newType === 'log') && (ax.type === 'linear'); var fromLog = (newType === 'linear') && (ax.type === 'log'); if(!(toLog || fromLog)) return; var annotations = gd._fullLayout.annotations; var axLetter = ax._id.charAt(0); var ann; var attrPrefix; function convert(attr) { var currentVal = ann[attr]; var newVal = null; if(toLog) newVal = toLogRange(currentVal, ax.range); else newVal = Math.pow(10, currentVal); // if conversion failed, delete the value so it gets a default value if(!isNumeric(newVal)) newVal = null; doExtra(attrPrefix + attr, newVal); } for(var i = 0; i < annotations.length; i++) { ann = annotations[i]; attrPrefix = 'annotations[' + i + '].'; if(ann[axLetter + 'ref'] === ax._id) convert(axLetter); if(ann['a' + axLetter + 'ref'] === ax._id) convert('a' + axLetter); } }; },{"../../lib/to_log_range":312,"fast-isnumeric":33}],145:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults'); var handleAnnotationCommonDefaults = _dereq_('./common_defaults'); var attributes = _dereq_('./attributes'); module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) { handleArrayContainerDefaults(layoutIn, layoutOut, { name: 'annotations', handleItemDefaults: handleAnnotationDefaults }); }; function handleAnnotationDefaults(annIn, annOut, fullLayout) { function coerce(attr, dflt) { return Lib.coerce(annIn, annOut, attributes, attr, dflt); } var visible = coerce('visible'); var clickToShow = coerce('clicktoshow'); if(!(visible || clickToShow)) return; handleAnnotationCommonDefaults(annIn, annOut, fullLayout, coerce); var showArrow = annOut.showarrow; // positioning var axLetters = ['x', 'y']; var arrowPosDflt = [-10, -30]; var gdMock = {_fullLayout: fullLayout}; for(var i = 0; i < 2; i++) { var axLetter = axLetters[i]; // xref, yref var axRef = Axes.coerceRef(annIn, annOut, gdMock, axLetter, '', 'paper'); if(axRef !== 'paper') { var ax = Axes.getFromId(gdMock, axRef); ax._annIndices.push(annOut._index); } // x, y Axes.coercePosition(annOut, gdMock, coerce, axRef, axLetter, 0.5); if(showArrow) { var arrowPosAttr = 'a' + axLetter; // axref, ayref var aaxRef = Axes.coerceRef(annIn, annOut, gdMock, arrowPosAttr, 'pixel', ['pixel', 'paper']); // for now the arrow can only be on the same axis or specified as pixels // TODO: sometime it might be interesting to allow it to be on *any* axis // but that would require updates to drawing & autorange code and maybe more if(aaxRef !== 'pixel' && aaxRef !== axRef) { aaxRef = annOut[arrowPosAttr] = 'pixel'; } // ax, ay var aDflt = (aaxRef === 'pixel') ? arrowPosDflt[i] : 0.4; Axes.coercePosition(annOut, gdMock, coerce, aaxRef, arrowPosAttr, aDflt); } // xanchor, yanchor coerce(axLetter + 'anchor'); // xshift, yshift coerce(axLetter + 'shift'); } // if you have one coordinate you should have both Lib.noneOrAll(annIn, annOut, ['x', 'y']); // if you have one part of arrow length you should have both if(showArrow) { Lib.noneOrAll(annIn, annOut, ['ax', 'ay']); } if(clickToShow) { var xClick = coerce('xclick'); var yClick = coerce('yclick'); // put the actual click data to bind to into private attributes // so we don't have to do this little bit of logic on every hover event annOut._xclick = (xClick === undefined) ? annOut.x : Axes.cleanPosition(xClick, gdMock, annOut.xref); annOut._yclick = (yClick === undefined) ? annOut.y : Axes.cleanPosition(yClick, gdMock, annOut.yref); } } },{"../../lib":287,"../../plots/array_container_defaults":329,"../../plots/cartesian/axes":334,"./attributes":140,"./common_defaults":143}],146:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Registry = _dereq_('../../registry'); var Plots = _dereq_('../../plots/plots'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var Axes = _dereq_('../../plots/cartesian/axes'); var Color = _dereq_('../color'); var Drawing = _dereq_('../drawing'); var Fx = _dereq_('../fx'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var setCursor = _dereq_('../../lib/setcursor'); var dragElement = _dereq_('../dragelement'); var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor; var drawArrowHead = _dereq_('./draw_arrow_head'); // Annotations are stored in gd.layout.annotations, an array of objects // index can point to one item in this array, // or non-numeric to simply add a new one // or -1 to modify all existing // opt can be the full options object, or one key (to be set to value) // or undefined to simply redraw // if opt is blank, val can be 'add' or a full options object to add a new // annotation at that point in the array, or 'remove' to delete this one module.exports = { draw: draw, drawOne: drawOne, drawRaw: drawRaw }; /* * draw: draw all annotations without any new modifications */ function draw(gd) { var fullLayout = gd._fullLayout; fullLayout._infolayer.selectAll('.annotation').remove(); for(var i = 0; i < fullLayout.annotations.length; i++) { if(fullLayout.annotations[i].visible) { drawOne(gd, i); } } return Plots.previousPromises(gd); } /* * drawOne: draw a single cartesian or paper-ref annotation, potentially with modifications * * index (int): the annotation to draw */ function drawOne(gd, index) { var fullLayout = gd._fullLayout; var options = fullLayout.annotations[index] || {}; var xa = Axes.getFromId(gd, options.xref); var ya = Axes.getFromId(gd, options.yref); if(xa) xa.setScale(); if(ya) ya.setScale(); drawRaw(gd, options, index, false, xa, ya); } // Convert pixels to the coordinates relevant for the axis referred to. For // example, for paper it would convert to a value normalized by the dimension of // the plot. // axDomainRef: if true and axa defined, draws relative to axis domain, // otherwise draws relative to data (if axa defined) or paper (if not). function shiftPosition(axa, dAx, axLetter, gs, options) { var optAx = options[axLetter]; var axRef = options[axLetter + 'ref']; var vertical = axLetter.indexOf('y') !== -1; var axDomainRef = Axes.getRefType(axRef) === 'domain'; var gsDim = vertical ? gs.h : gs.w; if(axa) { if(axDomainRef) { // here optAx normalized to length of axis (e.g., normally in range // 0 to 1). But dAx is in pixels. So we normalize dAx to length of // axis before doing the math. return optAx + (vertical ? -dAx : dAx) / axa._length; } else { return axa.p2r(axa.r2p(optAx) + dAx); } } else { return optAx + (vertical ? -dAx : dAx) / gsDim; } } /** * drawRaw: draw a single annotation, potentially with modifications * * @param {DOM element} gd * @param {object} options : this annotation's fullLayout options * @param {integer} index : index in 'annotations' container of the annotation to draw * @param {string} subplotId : id of the annotation's subplot * - use false for 2d (i.e. cartesian or paper-ref) annotations * @param {object | undefined} xa : full x-axis object to compute subplot pos-to-px * @param {object | undefined} ya : ... y-axis */ function drawRaw(gd, options, index, subplotId, xa, ya) { var fullLayout = gd._fullLayout; var gs = gd._fullLayout._size; var edits = gd._context.edits; var className, containerStr; if(subplotId) { className = 'annotation-' + subplotId; containerStr = subplotId + '.annotations'; } else { className = 'annotation'; containerStr = 'annotations'; } var editHelpers = arrayEditor(gd.layout, containerStr, options); var modifyBase = editHelpers.modifyBase; var modifyItem = editHelpers.modifyItem; var getUpdateObj = editHelpers.getUpdateObj; // remove the existing annotation if there is one fullLayout._infolayer .selectAll('.' + className + '[data-index="' + index + '"]') .remove(); var annClipID = 'clip' + fullLayout._uid + '_ann' + index; // this annotation is gone - quit now after deleting it // TODO: use d3 idioms instead of deleting and redrawing every time if(!options._input || options.visible === false) { d3.selectAll('#' + annClipID).remove(); return; } // calculated pixel positions // x & y each will get text, head, and tail as appropriate var annPosPx = {x: {}, y: {}}; var textangle = +options.textangle || 0; // create the components // made a single group to contain all, so opacity can work right // with border/arrow together this could handle a whole bunch of // cleanup at this point, but works for now var annGroup = fullLayout._infolayer.append('g') .classed(className, true) .attr('data-index', String(index)) .style('opacity', options.opacity); // another group for text+background so that they can rotate together var annTextGroup = annGroup.append('g') .classed('annotation-text-g', true); var editTextPosition = edits[options.showarrow ? 'annotationTail' : 'annotationPosition']; var textEvents = options.captureevents || edits.annotationText || editTextPosition; function makeEventData(initialEvent) { var eventData = { index: index, annotation: options._input, fullAnnotation: options, event: initialEvent }; if(subplotId) { eventData.subplotId = subplotId; } return eventData; } var annTextGroupInner = annTextGroup.append('g') .style('pointer-events', textEvents ? 'all' : null) .call(setCursor, 'pointer') .on('click', function() { gd._dragging = false; gd.emit('plotly_clickannotation', makeEventData(d3.event)); }); if(options.hovertext) { annTextGroupInner .on('mouseover', function() { var hoverOptions = options.hoverlabel; var hoverFont = hoverOptions.font; var bBox = this.getBoundingClientRect(); var bBoxRef = gd.getBoundingClientRect(); Fx.loneHover({ x0: bBox.left - bBoxRef.left, x1: bBox.right - bBoxRef.left, y: (bBox.top + bBox.bottom) / 2 - bBoxRef.top, text: options.hovertext, color: hoverOptions.bgcolor, borderColor: hoverOptions.bordercolor, fontFamily: hoverFont.family, fontSize: hoverFont.size, fontColor: hoverFont.color }, { container: fullLayout._hoverlayer.node(), outerContainer: fullLayout._paper.node(), gd: gd }); }) .on('mouseout', function() { Fx.loneUnhover(fullLayout._hoverlayer.node()); }); } var borderwidth = options.borderwidth; var borderpad = options.borderpad; var borderfull = borderwidth + borderpad; var annTextBG = annTextGroupInner.append('rect') .attr('class', 'bg') .style('stroke-width', borderwidth + 'px') .call(Color.stroke, options.bordercolor) .call(Color.fill, options.bgcolor); var isSizeConstrained = options.width || options.height; var annTextClip = fullLayout._topclips .selectAll('#' + annClipID) .data(isSizeConstrained ? [0] : []); annTextClip.enter().append('clipPath') .classed('annclip', true) .attr('id', annClipID) .append('rect'); annTextClip.exit().remove(); var font = options.font; var text = fullLayout._meta ? Lib.templateString(options.text, fullLayout._meta) : options.text; var annText = annTextGroupInner.append('text') .classed('annotation-text', true) .text(text); function textLayout(s) { s.call(Drawing.font, font) .attr({ 'text-anchor': { left: 'start', right: 'end' }[options.align] || 'middle' }); svgTextUtils.convertToTspans(s, gd, drawGraphicalElements); return s; } function drawGraphicalElements() { // if the text has *only* a link, make the whole box into a link var anchor3 = annText.selectAll('a'); if(anchor3.size() === 1 && anchor3.text() === annText.text()) { var wholeLink = annTextGroupInner.insert('a', ':first-child').attr({ 'xlink:xlink:href': anchor3.attr('xlink:href'), 'xlink:xlink:show': anchor3.attr('xlink:show') }) .style({cursor: 'pointer'}); wholeLink.node().appendChild(annTextBG.node()); } var mathjaxGroup = annTextGroupInner.select('.annotation-text-math-group'); var hasMathjax = !mathjaxGroup.empty(); var anntextBB = Drawing.bBox( (hasMathjax ? mathjaxGroup : annText).node()); var textWidth = anntextBB.width; var textHeight = anntextBB.height; var annWidth = options.width || textWidth; var annHeight = options.height || textHeight; var outerWidth = Math.round(annWidth + 2 * borderfull); var outerHeight = Math.round(annHeight + 2 * borderfull); function shiftFraction(v, anchor) { if(anchor === 'auto') { if(v < 1 / 3) anchor = 'left'; else if(v > 2 / 3) anchor = 'right'; else anchor = 'center'; } return { center: 0, middle: 0, left: 0.5, bottom: -0.5, right: -0.5, top: 0.5 }[anchor]; } var annotationIsOffscreen = false; var letters = ['x', 'y']; for(var i = 0; i < letters.length; i++) { var axLetter = letters[i]; var axRef = options[axLetter + 'ref'] || axLetter; var tailRef = options['a' + axLetter + 'ref']; var ax = {x: xa, y: ya}[axLetter]; var dimAngle = (textangle + (axLetter === 'x' ? 0 : -90)) * Math.PI / 180; // note that these two can be either positive or negative var annSizeFromWidth = outerWidth * Math.cos(dimAngle); var annSizeFromHeight = outerHeight * Math.sin(dimAngle); // but this one is the positive total size var annSize = Math.abs(annSizeFromWidth) + Math.abs(annSizeFromHeight); var anchor = options[axLetter + 'anchor']; var overallShift = options[axLetter + 'shift'] * (axLetter === 'x' ? 1 : -1); var posPx = annPosPx[axLetter]; var basePx; var textPadShift; var alignPosition; var autoAlignFraction; var textShift; var axRefType = Axes.getRefType(axRef); /* * calculate the *primary* pixel position * which is the arrowhead if there is one, * otherwise the text anchor point */ if(ax && (axRefType !== 'domain')) { // check if annotation is off screen, to bypass DOM manipulations var posFraction = ax.r2fraction(options[axLetter]); if(posFraction < 0 || posFraction > 1) { if(tailRef === axRef) { posFraction = ax.r2fraction(options['a' + axLetter]); if(posFraction < 0 || posFraction > 1) { annotationIsOffscreen = true; } } else { annotationIsOffscreen = true; } } basePx = ax._offset + ax.r2p(options[axLetter]); autoAlignFraction = 0.5; } else { var axRefTypeEqDomain = axRefType === 'domain'; if(axLetter === 'x') { alignPosition = options[axLetter]; basePx = axRefTypeEqDomain ? ax._offset + ax._length * alignPosition : basePx = gs.l + gs.w * alignPosition; } else { alignPosition = 1 - options[axLetter]; basePx = axRefTypeEqDomain ? ax._offset + ax._length * alignPosition : basePx = gs.t + gs.h * alignPosition; } autoAlignFraction = options.showarrow ? 0.5 : alignPosition; } // now translate this into pixel positions of head, tail, and text // as well as paddings for autorange if(options.showarrow) { posPx.head = basePx; var arrowLength = options['a' + axLetter]; // with an arrow, the text rotates around the anchor point textShift = annSizeFromWidth * shiftFraction(0.5, options.xanchor) - annSizeFromHeight * shiftFraction(0.5, options.yanchor); if(tailRef === axRef) { // In the case tailRefType is 'domain' or 'paper', the arrow's // position is set absolutely, which is consistent with how // it behaves when its position is set in data ('range') // coordinates. var tailRefType = Axes.getRefType(tailRef); if(tailRefType === 'domain') { if(axLetter === 'y') { arrowLength = 1 - arrowLength; } posPx.tail = ax._offset + ax._length * arrowLength; } else if(tailRefType === 'paper') { if(axLetter === 'y') { arrowLength = 1 - arrowLength; posPx.tail = gs.t + gs.h * arrowLength; } else { posPx.tail = gs.l + gs.w * arrowLength; } } else { // assumed tailRef is range or paper referenced posPx.tail = ax._offset + ax.r2p(arrowLength); } // tail is range- or domain-referenced: autorange pads the // text in px from the tail textPadShift = textShift; } else { posPx.tail = basePx + arrowLength; // tail is specified in px from head, so autorange also pads vs head textPadShift = textShift + arrowLength; } posPx.text = posPx.tail + textShift; // constrain pixel/paper referenced so the draggers are at least // partially visible var maxPx = fullLayout[(axLetter === 'x') ? 'width' : 'height']; if(axRef === 'paper') { posPx.head = Lib.constrain(posPx.head, 1, maxPx - 1); } if(tailRef === 'pixel') { var shiftPlus = -Math.max(posPx.tail - 3, posPx.text); var shiftMinus = Math.min(posPx.tail + 3, posPx.text) - maxPx; if(shiftPlus > 0) { posPx.tail += shiftPlus; posPx.text += shiftPlus; } else if(shiftMinus > 0) { posPx.tail -= shiftMinus; posPx.text -= shiftMinus; } } posPx.tail += overallShift; posPx.head += overallShift; } else { // with no arrow, the text rotates and *then* we put the anchor // relative to the new bounding box textShift = annSize * shiftFraction(autoAlignFraction, anchor); textPadShift = textShift; posPx.text = basePx + textShift; } posPx.text += overallShift; textShift += overallShift; textPadShift += overallShift; // padplus/minus are used by autorange options['_' + axLetter + 'padplus'] = (annSize / 2) + textPadShift; options['_' + axLetter + 'padminus'] = (annSize / 2) - textPadShift; // size/shift are used during dragging options['_' + axLetter + 'size'] = annSize; options['_' + axLetter + 'shift'] = textShift; } if(annotationIsOffscreen) { annTextGroupInner.remove(); return; } var xShift = 0; var yShift = 0; if(options.align !== 'left') { xShift = (annWidth - textWidth) * (options.align === 'center' ? 0.5 : 1); } if(options.valign !== 'top') { yShift = (annHeight - textHeight) * (options.valign === 'middle' ? 0.5 : 1); } if(hasMathjax) { mathjaxGroup.select('svg').attr({ x: borderfull + xShift - 1, y: borderfull + yShift }) .call(Drawing.setClipUrl, isSizeConstrained ? annClipID : null, gd); } else { var texty = borderfull + yShift - anntextBB.top; var textx = borderfull + xShift - anntextBB.left; annText.call(svgTextUtils.positionText, textx, texty) .call(Drawing.setClipUrl, isSizeConstrained ? annClipID : null, gd); } annTextClip.select('rect').call(Drawing.setRect, borderfull, borderfull, annWidth, annHeight); annTextBG.call(Drawing.setRect, borderwidth / 2, borderwidth / 2, outerWidth - borderwidth, outerHeight - borderwidth); annTextGroupInner.call(Drawing.setTranslate, Math.round(annPosPx.x.text - outerWidth / 2), Math.round(annPosPx.y.text - outerHeight / 2)); /* * rotate text and background * we already calculated the text center position *as rotated* * because we needed that for autoranging anyway, so now whether * we have an arrow or not, we rotate about the text center. */ annTextGroup.attr({transform: 'rotate(' + textangle + ',' + annPosPx.x.text + ',' + annPosPx.y.text + ')'}); /* * add the arrow * uses options[arrowwidth,arrowcolor,arrowhead] for styling * dx and dy are normally zero, but when you are dragging the textbox * while the head stays put, dx and dy are the pixel offsets */ var drawArrow = function(dx, dy) { annGroup .selectAll('.annotation-arrow-g') .remove(); var headX = annPosPx.x.head; var headY = annPosPx.y.head; var tailX = annPosPx.x.tail + dx; var tailY = annPosPx.y.tail + dy; var textX = annPosPx.x.text + dx; var textY = annPosPx.y.text + dy; // find the edge of the text box, where we'll start the arrow: // create transform matrix to rotate the text box corners var transform = Lib.rotationXYMatrix(textangle, textX, textY); var applyTransform = Lib.apply2DTransform(transform); var applyTransform2 = Lib.apply2DTransform2(transform); // calculate and transform bounding box var width = +annTextBG.attr('width'); var height = +annTextBG.attr('height'); var xLeft = textX - 0.5 * width; var xRight = xLeft + width; var yTop = textY - 0.5 * height; var yBottom = yTop + height; var edges = [ [xLeft, yTop, xLeft, yBottom], [xLeft, yBottom, xRight, yBottom], [xRight, yBottom, xRight, yTop], [xRight, yTop, xLeft, yTop] ].map(applyTransform2); // Remove the line if it ends inside the box. Use ray // casting for rotated boxes: see which edges intersect a // line from the arrowhead to far away and reduce with xor // to get the parity of the number of intersections. if(edges.reduce(function(a, x) { return a ^ !!Lib.segmentsIntersect(headX, headY, headX + 1e6, headY + 1e6, x[0], x[1], x[2], x[3]); }, false)) { // no line or arrow - so quit drawArrow now return; } edges.forEach(function(x) { var p = Lib.segmentsIntersect(tailX, tailY, headX, headY, x[0], x[1], x[2], x[3]); if(p) { tailX = p.x; tailY = p.y; } }); var strokewidth = options.arrowwidth; var arrowColor = options.arrowcolor; var arrowSide = options.arrowside; var arrowGroup = annGroup.append('g') .style({opacity: Color.opacity(arrowColor)}) .classed('annotation-arrow-g', true); var arrow = arrowGroup.append('path') .attr('d', 'M' + tailX + ',' + tailY + 'L' + headX + ',' + headY) .style('stroke-width', strokewidth + 'px') .call(Color.stroke, Color.rgb(arrowColor)); drawArrowHead(arrow, arrowSide, options); // the arrow dragger is a small square right at the head, then a line to the tail, // all expanded by a stroke width of 6px plus the arrow line width if(edits.annotationPosition && arrow.node().parentNode && !subplotId) { var arrowDragHeadX = headX; var arrowDragHeadY = headY; if(options.standoff) { var arrowLength = Math.sqrt(Math.pow(headX - tailX, 2) + Math.pow(headY - tailY, 2)); arrowDragHeadX += options.standoff * (tailX - headX) / arrowLength; arrowDragHeadY += options.standoff * (tailY - headY) / arrowLength; } var arrowDrag = arrowGroup.append('path') .classed('annotation-arrow', true) .classed('anndrag', true) .classed('cursor-move', true) .attr({ d: 'M3,3H-3V-3H3ZM0,0L' + (tailX - arrowDragHeadX) + ',' + (tailY - arrowDragHeadY), transform: strTranslate(arrowDragHeadX, arrowDragHeadY) }) .style('stroke-width', (strokewidth + 6) + 'px') .call(Color.stroke, 'rgba(0,0,0,0)') .call(Color.fill, 'rgba(0,0,0,0)'); var annx0, anny0; // dragger for the arrow & head: translates the whole thing // (head/tail/text) all together dragElement.init({ element: arrowDrag.node(), gd: gd, prepFn: function() { var pos = Drawing.getTranslate(annTextGroupInner); annx0 = pos.x; anny0 = pos.y; if(xa && xa.autorange) { modifyBase(xa._name + '.autorange', true); } if(ya && ya.autorange) { modifyBase(ya._name + '.autorange', true); } }, moveFn: function(dx, dy) { var annxy0 = applyTransform(annx0, anny0); var xcenter = annxy0[0] + dx; var ycenter = annxy0[1] + dy; annTextGroupInner.call(Drawing.setTranslate, xcenter, ycenter); modifyItem('x', shiftPosition(xa, dx, 'x', gs, options)); modifyItem('y', shiftPosition(ya, dy, 'y', gs, options)); // for these 2 calls to shiftPosition, it is assumed xa, ya are // defined, so gsDim will not be used, but we put it in // anyways for consistency if(options.axref === options.xref) { modifyItem('ax', shiftPosition(xa, dx, 'ax', gs, options)); } if(options.ayref === options.yref) { modifyItem('ay', shiftPosition(ya, dy, 'ay', gs, options)); } arrowGroup.attr('transform', strTranslate(dx, dy)); annTextGroup.attr({ transform: 'rotate(' + textangle + ',' + xcenter + ',' + ycenter + ')' }); }, doneFn: function() { Registry.call('_guiRelayout', gd, getUpdateObj()); var notesBox = document.querySelector('.js-notes-box-panel'); if(notesBox) notesBox.redraw(notesBox.selectedObj); } }); } }; if(options.showarrow) drawArrow(0, 0); // user dragging the annotation (text, not arrow) if(editTextPosition) { var baseTextTransform; // dragger for the textbox: if there's an arrow, just drag the // textbox and tail, leave the head untouched dragElement.init({ element: annTextGroupInner.node(), gd: gd, prepFn: function() { baseTextTransform = annTextGroup.attr('transform'); }, moveFn: function(dx, dy) { var csr = 'pointer'; if(options.showarrow) { // for these 2 calls to shiftPosition, it is assumed xa, ya are // defined, so gsDim will not be used, but we put it in // anyways for consistency if(options.axref === options.xref) { modifyItem('ax', shiftPosition(xa, dx, 'ax', gs, options)); } else { modifyItem('ax', options.ax + dx); } if(options.ayref === options.yref) { modifyItem('ay', shiftPosition(ya, dy, 'ay', gs.w, options)); } else { modifyItem('ay', options.ay + dy); } drawArrow(dx, dy); } else if(!subplotId) { var xUpdate, yUpdate; if(xa) { // shiftPosition will not execute code where xa was // undefined, so we use to calculate xUpdate too xUpdate = shiftPosition(xa, dx, 'x', gs, options); } else { var widthFraction = options._xsize / gs.w; var xLeft = options.x + (options._xshift - options.xshift) / gs.w - widthFraction / 2; xUpdate = dragElement.align(xLeft + dx / gs.w, widthFraction, 0, 1, options.xanchor); } if(ya) { // shiftPosition will not execute code where ya was // undefined, so we use to calculate yUpdate too yUpdate = shiftPosition(ya, dy, 'y', gs, options); } else { var heightFraction = options._ysize / gs.h; var yBottom = options.y - (options._yshift + options.yshift) / gs.h - heightFraction / 2; yUpdate = dragElement.align(yBottom - dy / gs.h, heightFraction, 0, 1, options.yanchor); } modifyItem('x', xUpdate); modifyItem('y', yUpdate); if(!xa || !ya) { csr = dragElement.getCursor( xa ? 0.5 : xUpdate, ya ? 0.5 : yUpdate, options.xanchor, options.yanchor ); } } else return; annTextGroup.attr({ transform: strTranslate(dx, dy) + baseTextTransform }); setCursor(annTextGroupInner, csr); }, clickFn: function(_, initialEvent) { if(options.captureevents) { gd.emit('plotly_clickannotation', makeEventData(initialEvent)); } }, doneFn: function() { setCursor(annTextGroupInner); Registry.call('_guiRelayout', gd, getUpdateObj()); var notesBox = document.querySelector('.js-notes-box-panel'); if(notesBox) notesBox.redraw(notesBox.selectedObj); } }); } } if(edits.annotationText) { annText.call(svgTextUtils.makeEditable, {delegate: annTextGroupInner, gd: gd}) .call(textLayout) .on('edit', function(_text) { options.text = _text; this.call(textLayout); modifyItem('text', _text); if(xa && xa.autorange) { modifyBase(xa._name + '.autorange', true); } if(ya && ya.autorange) { modifyBase(ya._name + '.autorange', true); } Registry.call('_guiRelayout', gd, getUpdateObj()); }); } else annText.call(textLayout); } },{"../../lib":287,"../../lib/setcursor":307,"../../lib/svg_text_utils":310,"../../plot_api/plot_template":323,"../../plots/cartesian/axes":334,"../../plots/plots":371,"../../registry":378,"../color":157,"../dragelement":176,"../drawing":179,"../fx":197,"./draw_arrow_head":147,"@plotly/d3":20}],147:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Color = _dereq_('../color'); var ARROWPATHS = _dereq_('./arrow_paths'); var Lib = _dereq_('../../lib'); var strScale = Lib.strScale; var strRotate = Lib.strRotate; var strTranslate = Lib.strTranslate; /** * Add arrowhead(s) to a path or line element * * @param {d3.selection} el3: a d3-selected line or path element * * @param {string} ends: 'none', 'start', 'end', or 'start+end' for which ends get arrowheads * * @param {object} options: style information. Must have all the following: * @param {number} options.arrowhead: end head style - see ./arrow_paths * @param {number} options.startarrowhead: start head style - see ./arrow_paths * @param {number} options.arrowsize: relative size of the end head vs line width * @param {number} options.startarrowsize: relative size of the start head vs line width * @param {number} options.standoff: distance in px to move the end arrow point from its target * @param {number} options.startstandoff: distance in px to move the start arrow point from its target * @param {number} options.arrowwidth: width of the arrow line * @param {string} options.arrowcolor: color of the arrow line, for the head to match * Note that the opacity of this color is ignored, as it's assumed the container * of both the line and head has opacity applied to it so there isn't greater opacity * where they overlap. */ module.exports = function drawArrowHead(el3, ends, options) { var el = el3.node(); var headStyle = ARROWPATHS[options.arrowhead || 0]; var startHeadStyle = ARROWPATHS[options.startarrowhead || 0]; var scale = (options.arrowwidth || 1) * (options.arrowsize || 1); var startScale = (options.arrowwidth || 1) * (options.startarrowsize || 1); var doStart = ends.indexOf('start') >= 0; var doEnd = ends.indexOf('end') >= 0; var backOff = headStyle.backoff * scale + options.standoff; var startBackOff = startHeadStyle.backoff * startScale + options.startstandoff; var start, end, startRot, endRot; if(el.nodeName === 'line') { start = {x: +el3.attr('x1'), y: +el3.attr('y1')}; end = {x: +el3.attr('x2'), y: +el3.attr('y2')}; var dx = start.x - end.x; var dy = start.y - end.y; startRot = Math.atan2(dy, dx); endRot = startRot + Math.PI; if(backOff && startBackOff) { if(backOff + startBackOff > Math.sqrt(dx * dx + dy * dy)) { hideLine(); return; } } if(backOff) { if(backOff * backOff > dx * dx + dy * dy) { hideLine(); return; } var backOffX = backOff * Math.cos(startRot); var backOffY = backOff * Math.sin(startRot); end.x += backOffX; end.y += backOffY; el3.attr({x2: end.x, y2: end.y}); } if(startBackOff) { if(startBackOff * startBackOff > dx * dx + dy * dy) { hideLine(); return; } var startBackOffX = startBackOff * Math.cos(startRot); var startbackOffY = startBackOff * Math.sin(startRot); start.x -= startBackOffX; start.y -= startbackOffY; el3.attr({x1: start.x, y1: start.y}); } } else if(el.nodeName === 'path') { var pathlen = el.getTotalLength(); // using dash to hide the backOff region of the path. // if we ever allow dash for the arrow we'll have to // do better than this hack... maybe just manually // combine the two var dashArray = ''; if(pathlen < backOff + startBackOff) { hideLine(); return; } var start0 = el.getPointAtLength(0); var dstart = el.getPointAtLength(0.1); startRot = Math.atan2(start0.y - dstart.y, start0.x - dstart.x); start = el.getPointAtLength(Math.min(startBackOff, pathlen)); dashArray = '0px,' + startBackOff + 'px,'; var end0 = el.getPointAtLength(pathlen); var dend = el.getPointAtLength(pathlen - 0.1); endRot = Math.atan2(end0.y - dend.y, end0.x - dend.x); end = el.getPointAtLength(Math.max(0, pathlen - backOff)); var shortening = dashArray ? startBackOff + backOff : backOff; dashArray += (pathlen - shortening) + 'px,' + pathlen + 'px'; el3.style('stroke-dasharray', dashArray); } function hideLine() { el3.style('stroke-dasharray', '0px,100px'); } function drawhead(arrowHeadStyle, p, rot, arrowScale) { if(!arrowHeadStyle.path) return; if(arrowHeadStyle.noRotate) rot = 0; d3.select(el.parentNode).append('path') .attr({ 'class': el3.attr('class'), d: arrowHeadStyle.path, transform: strTranslate(p.x, p.y) + strRotate(rot * 180 / Math.PI) + strScale(arrowScale) }) .style({ fill: Color.rgb(options.arrowcolor), 'stroke-width': 0 }); } if(doStart) drawhead(startHeadStyle, start, startRot, startScale); if(doEnd) drawhead(headStyle, end, endRot, scale); }; },{"../../lib":287,"../color":157,"./arrow_paths":139,"@plotly/d3":20}],148:[function(_dereq_,module,exports){ 'use strict'; var drawModule = _dereq_('./draw'); var clickModule = _dereq_('./click'); module.exports = { moduleType: 'component', name: 'annotations', layoutAttributes: _dereq_('./attributes'), supplyLayoutDefaults: _dereq_('./defaults'), includeBasePlot: _dereq_('../../plots/cartesian/include_components')('annotations'), calcAutorange: _dereq_('./calc_autorange'), draw: drawModule.draw, drawOne: drawModule.drawOne, drawRaw: drawModule.drawRaw, hasClickToShow: clickModule.hasClickToShow, onClick: clickModule.onClick, convertCoords: _dereq_('./convert_coords') }; },{"../../plots/cartesian/include_components":347,"./attributes":140,"./calc_autorange":141,"./click":142,"./convert_coords":144,"./defaults":145,"./draw":146}],149:[function(_dereq_,module,exports){ 'use strict'; var annAttrs = _dereq_('../annotations/attributes'); var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll; var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray; module.exports = overrideAll(templatedArray('annotation', { visible: annAttrs.visible, x: { valType: 'any', }, y: { valType: 'any', }, z: { valType: 'any', }, ax: { valType: 'number', }, ay: { valType: 'number', }, xanchor: annAttrs.xanchor, xshift: annAttrs.xshift, yanchor: annAttrs.yanchor, yshift: annAttrs.yshift, text: annAttrs.text, textangle: annAttrs.textangle, font: annAttrs.font, width: annAttrs.width, height: annAttrs.height, opacity: annAttrs.opacity, align: annAttrs.align, valign: annAttrs.valign, bgcolor: annAttrs.bgcolor, bordercolor: annAttrs.bordercolor, borderpad: annAttrs.borderpad, borderwidth: annAttrs.borderwidth, showarrow: annAttrs.showarrow, arrowcolor: annAttrs.arrowcolor, arrowhead: annAttrs.arrowhead, startarrowhead: annAttrs.startarrowhead, arrowside: annAttrs.arrowside, arrowsize: annAttrs.arrowsize, startarrowsize: annAttrs.startarrowsize, arrowwidth: annAttrs.arrowwidth, standoff: annAttrs.standoff, startstandoff: annAttrs.startstandoff, hovertext: annAttrs.hovertext, hoverlabel: annAttrs.hoverlabel, captureevents: annAttrs.captureevents, // maybes later? // clicktoshow: annAttrs.clicktoshow, // xclick: annAttrs.xclick, // yclick: annAttrs.yclick, // not needed! // axref: 'pixel' // ayref: 'pixel' // xref: 'x' // yref: 'y // zref: 'z' }), 'calc', 'from-root'); },{"../../plot_api/edit_types":316,"../../plot_api/plot_template":323,"../annotations/attributes":140}],150:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); module.exports = function convert(scene) { var fullSceneLayout = scene.fullSceneLayout; var anns = fullSceneLayout.annotations; for(var i = 0; i < anns.length; i++) { mockAnnAxes(anns[i], scene); } scene.fullLayout._infolayer .selectAll('.annotation-' + scene.id) .remove(); }; function mockAnnAxes(ann, scene) { var fullSceneLayout = scene.fullSceneLayout; var domain = fullSceneLayout.domain; var size = scene.fullLayout._size; var base = { // this gets fill in on render pdata: null, // to get setConvert to not execute cleanly type: 'linear', // don't try to update them on `editable: true` autorange: false, // set infinite range so that annotation draw routine // does not try to remove 'outside-range' annotations, // this case is handled in the render loop range: [-Infinity, Infinity] }; ann._xa = {}; Lib.extendFlat(ann._xa, base); Axes.setConvert(ann._xa); ann._xa._offset = size.l + domain.x[0] * size.w; ann._xa.l2p = function() { return 0.5 * (1 + ann._pdata[0] / ann._pdata[3]) * size.w * (domain.x[1] - domain.x[0]); }; ann._ya = {}; Lib.extendFlat(ann._ya, base); Axes.setConvert(ann._ya); ann._ya._offset = size.t + (1 - domain.y[1]) * size.h; ann._ya.l2p = function() { return 0.5 * (1 - ann._pdata[1] / ann._pdata[3]) * size.h * (domain.y[1] - domain.y[0]); }; } },{"../../lib":287,"../../plots/cartesian/axes":334}],151:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults'); var handleAnnotationCommonDefaults = _dereq_('../annotations/common_defaults'); var attributes = _dereq_('./attributes'); module.exports = function handleDefaults(sceneLayoutIn, sceneLayoutOut, opts) { handleArrayContainerDefaults(sceneLayoutIn, sceneLayoutOut, { name: 'annotations', handleItemDefaults: handleAnnotationDefaults, fullLayout: opts.fullLayout }); }; function handleAnnotationDefaults(annIn, annOut, sceneLayout, opts) { function coerce(attr, dflt) { return Lib.coerce(annIn, annOut, attributes, attr, dflt); } function coercePosition(axLetter) { var axName = axLetter + 'axis'; // mock in such way that getFromId grabs correct 3D axis var gdMock = { _fullLayout: {} }; gdMock._fullLayout[axName] = sceneLayout[axName]; return Axes.coercePosition(annOut, gdMock, coerce, axLetter, axLetter, 0.5); } var visible = coerce('visible'); if(!visible) return; handleAnnotationCommonDefaults(annIn, annOut, opts.fullLayout, coerce); coercePosition('x'); coercePosition('y'); coercePosition('z'); // if you have one coordinate you should all three Lib.noneOrAll(annIn, annOut, ['x', 'y', 'z']); // hard-set here for completeness annOut.xref = 'x'; annOut.yref = 'y'; annOut.zref = 'z'; coerce('xanchor'); coerce('yanchor'); coerce('xshift'); coerce('yshift'); if(annOut.showarrow) { annOut.axref = 'pixel'; annOut.ayref = 'pixel'; // TODO maybe default values should be bigger than the 2D case? coerce('ax', -10); coerce('ay', -30); // if you have one part of arrow length you should have both Lib.noneOrAll(annIn, annOut, ['ax', 'ay']); } } },{"../../lib":287,"../../plots/array_container_defaults":329,"../../plots/cartesian/axes":334,"../annotations/common_defaults":143,"./attributes":149}],152:[function(_dereq_,module,exports){ 'use strict'; var drawRaw = _dereq_('../annotations/draw').drawRaw; var project = _dereq_('../../plots/gl3d/project'); var axLetters = ['x', 'y', 'z']; module.exports = function draw(scene) { var fullSceneLayout = scene.fullSceneLayout; var dataScale = scene.dataScale; var anns = fullSceneLayout.annotations; for(var i = 0; i < anns.length; i++) { var ann = anns[i]; var annotationIsOffscreen = false; for(var j = 0; j < 3; j++) { var axLetter = axLetters[j]; var pos = ann[axLetter]; var ax = fullSceneLayout[axLetter + 'axis']; var posFraction = ax.r2fraction(pos); if(posFraction < 0 || posFraction > 1) { annotationIsOffscreen = true; break; } } if(annotationIsOffscreen) { scene.fullLayout._infolayer .select('.annotation-' + scene.id + '[data-index="' + i + '"]') .remove(); } else { ann._pdata = project(scene.glplot.cameraParams, [ fullSceneLayout.xaxis.r2l(ann.x) * dataScale[0], fullSceneLayout.yaxis.r2l(ann.y) * dataScale[1], fullSceneLayout.zaxis.r2l(ann.z) * dataScale[2] ]); drawRaw(scene.graphDiv, ann, i, scene.id, ann._xa, ann._ya); } } }; },{"../../plots/gl3d/project":368,"../annotations/draw":146}],153:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); module.exports = { moduleType: 'component', name: 'annotations3d', schema: { subplots: { scene: {annotations: _dereq_('./attributes')} } }, layoutAttributes: _dereq_('./attributes'), handleDefaults: _dereq_('./defaults'), includeBasePlot: includeGL3D, convert: _dereq_('./convert'), draw: _dereq_('./draw') }; function includeGL3D(layoutIn, layoutOut) { var GL3D = Registry.subplotsRegistry.gl3d; if(!GL3D) return; var attrRegex = GL3D.attrRegex; var keys = Object.keys(layoutIn); for(var i = 0; i < keys.length; i++) { var k = keys[i]; if(attrRegex.test(k) && (layoutIn[k].annotations || []).length) { Lib.pushUnique(layoutOut._basePlotModules, GL3D); Lib.pushUnique(layoutOut._subplots.gl3d, k); } } } },{"../../lib":287,"../../registry":378,"./attributes":149,"./convert":150,"./defaults":151,"./draw":152}],154:[function(_dereq_,module,exports){ 'use strict'; // a trimmed down version of: // https://github.com/alexcjohnson/world-calendars/blob/master/dist/index.js module.exports = _dereq_('world-calendars/dist/main'); _dereq_('world-calendars/dist/plus'); _dereq_('world-calendars/dist/calendars/chinese'); _dereq_('world-calendars/dist/calendars/coptic'); _dereq_('world-calendars/dist/calendars/discworld'); _dereq_('world-calendars/dist/calendars/ethiopian'); _dereq_('world-calendars/dist/calendars/hebrew'); _dereq_('world-calendars/dist/calendars/islamic'); _dereq_('world-calendars/dist/calendars/julian'); _dereq_('world-calendars/dist/calendars/mayan'); _dereq_('world-calendars/dist/calendars/nanakshahi'); _dereq_('world-calendars/dist/calendars/nepali'); _dereq_('world-calendars/dist/calendars/persian'); _dereq_('world-calendars/dist/calendars/taiwan'); _dereq_('world-calendars/dist/calendars/thai'); _dereq_('world-calendars/dist/calendars/ummalqura'); },{"world-calendars/dist/calendars/chinese":123,"world-calendars/dist/calendars/coptic":124,"world-calendars/dist/calendars/discworld":125,"world-calendars/dist/calendars/ethiopian":126,"world-calendars/dist/calendars/hebrew":127,"world-calendars/dist/calendars/islamic":128,"world-calendars/dist/calendars/julian":129,"world-calendars/dist/calendars/mayan":130,"world-calendars/dist/calendars/nanakshahi":131,"world-calendars/dist/calendars/nepali":132,"world-calendars/dist/calendars/persian":133,"world-calendars/dist/calendars/taiwan":134,"world-calendars/dist/calendars/thai":135,"world-calendars/dist/calendars/ummalqura":136,"world-calendars/dist/main":137,"world-calendars/dist/plus":138}],155:[function(_dereq_,module,exports){ 'use strict'; var calendars = _dereq_('./calendars'); var Lib = _dereq_('../../lib'); var constants = _dereq_('../../constants/numerical'); var EPOCHJD = constants.EPOCHJD; var ONEDAY = constants.ONEDAY; var attributes = { valType: 'enumerated', values: Lib.sortObjectKeys(calendars.calendars), editType: 'calc', dflt: 'gregorian' }; var handleDefaults = function(contIn, contOut, attr, dflt) { var attrs = {}; attrs[attr] = attributes; return Lib.coerce(contIn, contOut, attrs, attr, dflt); }; var handleTraceDefaults = function(traceIn, traceOut, coords, layout) { for(var i = 0; i < coords.length; i++) { handleDefaults(traceIn, traceOut, coords[i] + 'calendar', layout.calendar); } }; // each calendar needs its own default canonical tick. I would love to use // 2000-01-01 (or even 0000-01-01) for them all but they don't necessarily // all support either of those dates. Instead I'll use the most significant // number they *do* support, biased toward the present day. var CANONICAL_TICK = { chinese: '2000-01-01', coptic: '2000-01-01', discworld: '2000-01-01', ethiopian: '2000-01-01', hebrew: '5000-01-01', islamic: '1000-01-01', julian: '2000-01-01', mayan: '5000-01-01', nanakshahi: '1000-01-01', nepali: '2000-01-01', persian: '1000-01-01', jalali: '1000-01-01', taiwan: '1000-01-01', thai: '2000-01-01', ummalqura: '1400-01-01' }; // Start on a Sunday - for week ticks // Discworld and Mayan calendars don't have 7-day weeks but we're going to give them // 7-day week ticks so start on our Sundays. // If anyone really cares we can customize the auto tick spacings for these calendars. var CANONICAL_SUNDAY = { chinese: '2000-01-02', coptic: '2000-01-03', discworld: '2000-01-03', ethiopian: '2000-01-05', hebrew: '5000-01-01', islamic: '1000-01-02', julian: '2000-01-03', mayan: '5000-01-01', nanakshahi: '1000-01-05', nepali: '2000-01-05', persian: '1000-01-01', jalali: '1000-01-01', taiwan: '1000-01-04', thai: '2000-01-04', ummalqura: '1400-01-06' }; var DFLTRANGE = { chinese: ['2000-01-01', '2001-01-01'], coptic: ['1700-01-01', '1701-01-01'], discworld: ['1800-01-01', '1801-01-01'], ethiopian: ['2000-01-01', '2001-01-01'], hebrew: ['5700-01-01', '5701-01-01'], islamic: ['1400-01-01', '1401-01-01'], julian: ['2000-01-01', '2001-01-01'], mayan: ['5200-01-01', '5201-01-01'], nanakshahi: ['0500-01-01', '0501-01-01'], nepali: ['2000-01-01', '2001-01-01'], persian: ['1400-01-01', '1401-01-01'], jalali: ['1400-01-01', '1401-01-01'], taiwan: ['0100-01-01', '0101-01-01'], thai: ['2500-01-01', '2501-01-01'], ummalqura: ['1400-01-01', '1401-01-01'] }; /* * convert d3 templates to world-calendars templates, so our users only need * to know d3's specifiers. Map space padding to no padding, and unknown fields * to an ugly placeholder */ var UNKNOWN = '##'; var d3ToWorldCalendars = { 'd': {'0': 'dd', '-': 'd'}, // 2-digit or unpadded day of month 'e': {'0': 'd', '-': 'd'}, // alternate, always unpadded day of month 'a': {'0': 'D', '-': 'D'}, // short weekday name 'A': {'0': 'DD', '-': 'DD'}, // full weekday name 'j': {'0': 'oo', '-': 'o'}, // 3-digit or unpadded day of the year 'W': {'0': 'ww', '-': 'w'}, // 2-digit or unpadded week of the year (Monday first) 'm': {'0': 'mm', '-': 'm'}, // 2-digit or unpadded month number 'b': {'0': 'M', '-': 'M'}, // short month name 'B': {'0': 'MM', '-': 'MM'}, // full month name 'y': {'0': 'yy', '-': 'yy'}, // 2-digit year (map unpadded to zero-padded) 'Y': {'0': 'yyyy', '-': 'yyyy'}, // 4-digit year (map unpadded to zero-padded) 'U': UNKNOWN, // Sunday-first week of the year 'w': UNKNOWN, // day of the week [0(sunday),6] // combined format, we replace the date part with the world-calendar version // and the %X stays there for d3 to handle with time parts 'c': {'0': 'D M d %X yyyy', '-': 'D M d %X yyyy'}, 'x': {'0': 'mm/dd/yyyy', '-': 'mm/dd/yyyy'} }; function worldCalFmt(fmt, x, calendar) { var dateJD = Math.floor((x + 0.05) / ONEDAY) + EPOCHJD; var cDate = getCal(calendar).fromJD(dateJD); var i = 0; var modifier, directive, directiveLen, directiveObj, replacementPart; while((i = fmt.indexOf('%', i)) !== -1) { modifier = fmt.charAt(i + 1); if(modifier === '0' || modifier === '-' || modifier === '_') { directiveLen = 3; directive = fmt.charAt(i + 2); if(modifier === '_') modifier = '-'; } else { directive = modifier; modifier = '0'; directiveLen = 2; } directiveObj = d3ToWorldCalendars[directive]; if(!directiveObj) { i += directiveLen; } else { // code is recognized as a date part but world-calendars doesn't support it if(directiveObj === UNKNOWN) replacementPart = UNKNOWN; // format the cDate according to the translated directive else replacementPart = cDate.formatDate(directiveObj[modifier]); fmt = fmt.substr(0, i) + replacementPart + fmt.substr(i + directiveLen); i += replacementPart.length; } } return fmt; } // cache world calendars, so we don't have to reinstantiate // during each date-time conversion var allCals = {}; function getCal(calendar) { var calendarObj = allCals[calendar]; if(calendarObj) return calendarObj; calendarObj = allCals[calendar] = calendars.instance(calendar); return calendarObj; } function makeAttrs(description) { return Lib.extendFlat({}, attributes, { description: description }); } function makeTraceAttrsDescription(coord) { return 'Sets the calendar system to use with `' + coord + '` date data.'; } var xAttrs = { xcalendar: makeAttrs(makeTraceAttrsDescription('x')) }; var xyAttrs = Lib.extendFlat({}, xAttrs, { ycalendar: makeAttrs(makeTraceAttrsDescription('y')) }); var xyzAttrs = Lib.extendFlat({}, xyAttrs, { zcalendar: makeAttrs(makeTraceAttrsDescription('z')) }); var axisAttrs = makeAttrs([ 'Sets the calendar system to use for `range` and `tick0`', 'if this is a date axis. This does not set the calendar for', 'interpreting data on this axis, that\'s specified in the trace', 'or via the global `layout.calendar`' ].join(' ')); module.exports = { moduleType: 'component', name: 'calendars', schema: { traces: { scatter: xyAttrs, bar: xyAttrs, box: xyAttrs, heatmap: xyAttrs, contour: xyAttrs, histogram: xyAttrs, histogram2d: xyAttrs, histogram2dcontour: xyAttrs, scatter3d: xyzAttrs, surface: xyzAttrs, mesh3d: xyzAttrs, scattergl: xyAttrs, ohlc: xAttrs, candlestick: xAttrs }, layout: { calendar: makeAttrs([ 'Sets the default calendar system to use for interpreting and', 'displaying dates throughout the plot.' ].join(' ')) }, subplots: { xaxis: {calendar: axisAttrs}, yaxis: {calendar: axisAttrs}, scene: { xaxis: {calendar: axisAttrs}, // TODO: it's actually redundant to include yaxis and zaxis here // because in the scene attributes these are the same object so merging // into one merges into them all. However, I left them in for parity with // cartesian, where yaxis is unused until we Plotschema.get() when we // use its presence or absence to determine whether to delete attributes // from yaxis if they only apply to x (rangeselector/rangeslider) yaxis: {calendar: axisAttrs}, zaxis: {calendar: axisAttrs} }, polar: { radialaxis: {calendar: axisAttrs} } }, transforms: { filter: { valuecalendar: makeAttrs([ 'WARNING: All transforms are deprecated and may be removed from the API in next major version.', 'Sets the calendar system to use for `value`, if it is a date.' ].join(' ')), targetcalendar: makeAttrs([ 'WARNING: All transforms are deprecated and may be removed from the API in next major version.', 'Sets the calendar system to use for `target`, if it is an', 'array of dates. If `target` is a string (eg *x*) we use the', 'corresponding trace attribute (eg `xcalendar`) if it exists,', 'even if `targetcalendar` is provided.' ].join(' ')) } } }, layoutAttributes: attributes, handleDefaults: handleDefaults, handleTraceDefaults: handleTraceDefaults, CANONICAL_SUNDAY: CANONICAL_SUNDAY, CANONICAL_TICK: CANONICAL_TICK, DFLTRANGE: DFLTRANGE, getCal: getCal, worldCalFmt: worldCalFmt }; },{"../../constants/numerical":267,"../../lib":287,"./calendars":154}],156:[function(_dereq_,module,exports){ 'use strict'; // IMPORTANT - default colors should be in hex for compatibility exports.defaults = [ '#1f77b4', // muted blue '#ff7f0e', // safety orange '#2ca02c', // cooked asparagus green '#d62728', // brick red '#9467bd', // muted purple '#8c564b', // chestnut brown '#e377c2', // raspberry yogurt pink '#7f7f7f', // middle gray '#bcbd22', // curry yellow-green '#17becf' // blue-teal ]; exports.defaultLine = '#444'; exports.lightLine = '#eee'; exports.background = '#fff'; exports.borderLine = '#BEC8D9'; // with axis.color and Color.interp we aren't using lightLine // itself anymore, instead interpolating between axis.color // and the background color using tinycolor.mix. lightFraction // gives back exactly lightLine if the other colors are defaults. exports.lightFraction = 100 * (0xe - 0x4) / (0xf - 0x4); },{}],157:[function(_dereq_,module,exports){ 'use strict'; var tinycolor = _dereq_('tinycolor2'); var isNumeric = _dereq_('fast-isnumeric'); var isTypedArray = _dereq_('../../lib/array').isTypedArray; var color = module.exports = {}; var colorAttrs = _dereq_('./attributes'); color.defaults = colorAttrs.defaults; var defaultLine = color.defaultLine = colorAttrs.defaultLine; color.lightLine = colorAttrs.lightLine; var background = color.background = colorAttrs.background; /* * tinyRGB: turn a tinycolor into an rgb string, but * unlike the built-in tinycolor.toRgbString this never includes alpha */ color.tinyRGB = function(tc) { var c = tc.toRgb(); return 'rgb(' + Math.round(c.r) + ', ' + Math.round(c.g) + ', ' + Math.round(c.b) + ')'; }; color.rgb = function(cstr) { return color.tinyRGB(tinycolor(cstr)); }; color.opacity = function(cstr) { return cstr ? tinycolor(cstr).getAlpha() : 0; }; color.addOpacity = function(cstr, op) { var c = tinycolor(cstr).toRgb(); return 'rgba(' + Math.round(c.r) + ', ' + Math.round(c.g) + ', ' + Math.round(c.b) + ', ' + op + ')'; }; // combine two colors into one apparent color // if back has transparency or is missing, // color.background is assumed behind it color.combine = function(front, back) { var fc = tinycolor(front).toRgb(); if(fc.a === 1) return tinycolor(front).toRgbString(); var bc = tinycolor(back || background).toRgb(); var bcflat = bc.a === 1 ? bc : { r: 255 * (1 - bc.a) + bc.r * bc.a, g: 255 * (1 - bc.a) + bc.g * bc.a, b: 255 * (1 - bc.a) + bc.b * bc.a }; var fcflat = { r: bcflat.r * (1 - fc.a) + fc.r * fc.a, g: bcflat.g * (1 - fc.a) + fc.g * fc.a, b: bcflat.b * (1 - fc.a) + fc.b * fc.a }; return tinycolor(fcflat).toRgbString(); }; /* * Create a color that contrasts with cstr. * * If cstr is a dark color, we lighten it; if it's light, we darken. * * If lightAmount / darkAmount are used, we adjust by these percentages, * otherwise we go all the way to white or black. */ color.contrast = function(cstr, lightAmount, darkAmount) { var tc = tinycolor(cstr); if(tc.getAlpha() !== 1) tc = tinycolor(color.combine(cstr, background)); var newColor = tc.isDark() ? (lightAmount ? tc.lighten(lightAmount) : background) : (darkAmount ? tc.darken(darkAmount) : defaultLine); return newColor.toString(); }; color.stroke = function(s, c) { var tc = tinycolor(c); s.style({'stroke': color.tinyRGB(tc), 'stroke-opacity': tc.getAlpha()}); }; color.fill = function(s, c) { var tc = tinycolor(c); s.style({ 'fill': color.tinyRGB(tc), 'fill-opacity': tc.getAlpha() }); }; // search container for colors with the deprecated rgb(fractions) format // and convert them to rgb(0-255 values) color.clean = function(container) { if(!container || typeof container !== 'object') return; var keys = Object.keys(container); var i, j, key, val; for(i = 0; i < keys.length; i++) { key = keys[i]; val = container[key]; if(key.substr(key.length - 5) === 'color') { // only sanitize keys that end in "color" or "colorscale" if(Array.isArray(val)) { for(j = 0; j < val.length; j++) val[j] = cleanOne(val[j]); } else container[key] = cleanOne(val); } else if(key.substr(key.length - 10) === 'colorscale' && Array.isArray(val)) { // colorscales have the format [[0, color1], [frac, color2], ... [1, colorN]] for(j = 0; j < val.length; j++) { if(Array.isArray(val[j])) val[j][1] = cleanOne(val[j][1]); } } else if(Array.isArray(val)) { // recurse into arrays of objects, and plain objects var el0 = val[0]; if(!Array.isArray(el0) && el0 && typeof el0 === 'object') { for(j = 0; j < val.length; j++) color.clean(val[j]); } } else if(val && typeof val === 'object' && !isTypedArray(val)) color.clean(val); } }; function cleanOne(val) { if(isNumeric(val) || typeof val !== 'string') return val; var valTrim = val.trim(); if(valTrim.substr(0, 3) !== 'rgb') return val; var match = valTrim.match(/^rgba?\s*\(([^()]*)\)$/); if(!match) return val; var parts = match[1].trim().split(/\s*[\s,]\s*/); var rgba = valTrim.charAt(3) === 'a' && parts.length === 4; if(!rgba && parts.length !== 3) return val; for(var i = 0; i < parts.length; i++) { if(!parts[i].length) return val; parts[i] = Number(parts[i]); if(!(parts[i] >= 0)) { // all parts must be non-negative numbers return val; } if(i === 3) { // alpha>1 gets clipped to 1 if(parts[i] > 1) parts[i] = 1; } else if(parts[i] >= 1) { // r, g, b must be < 1 (ie 1 itself is not allowed) return val; } } var rgbStr = Math.round(parts[0] * 255) + ', ' + Math.round(parts[1] * 255) + ', ' + Math.round(parts[2] * 255); if(rgba) return 'rgba(' + rgbStr + ', ' + parts[3] + ')'; return 'rgb(' + rgbStr + ')'; } },{"../../lib/array":273,"./attributes":156,"fast-isnumeric":33,"tinycolor2":121}],158:[function(_dereq_,module,exports){ 'use strict'; var axesAttrs = _dereq_('../../plots/cartesian/layout_attributes'); var fontAttrs = _dereq_('../../plots/font_attributes'); var extendFlat = _dereq_('../../lib/extend').extendFlat; var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll; module.exports = overrideAll({ orientation: { valType: 'enumerated', values: ['h', 'v'], dflt: 'v', }, thicknessmode: { valType: 'enumerated', values: ['fraction', 'pixels'], dflt: 'pixels', }, thickness: { valType: 'number', min: 0, dflt: 30, }, lenmode: { valType: 'enumerated', values: ['fraction', 'pixels'], dflt: 'fraction', }, len: { valType: 'number', min: 0, dflt: 1, }, x: { valType: 'number', min: -2, max: 3, }, xanchor: { valType: 'enumerated', values: ['left', 'center', 'right'], }, xpad: { valType: 'number', min: 0, dflt: 10, }, y: { valType: 'number', min: -2, max: 3, }, yanchor: { valType: 'enumerated', values: ['top', 'middle', 'bottom'], }, ypad: { valType: 'number', min: 0, dflt: 10, }, // a possible line around the bar itself outlinecolor: axesAttrs.linecolor, outlinewidth: axesAttrs.linewidth, // Should outlinewidth have {dflt: 0} ? // another possible line outside the padding and tick labels bordercolor: axesAttrs.linecolor, borderwidth: { valType: 'number', min: 0, dflt: 0, }, bgcolor: { valType: 'color', dflt: 'rgba(0,0,0,0)', }, // tick and title properties named and function exactly as in axes tickmode: axesAttrs.tickmode, nticks: axesAttrs.nticks, tick0: axesAttrs.tick0, dtick: axesAttrs.dtick, tickvals: axesAttrs.tickvals, ticktext: axesAttrs.ticktext, ticks: extendFlat({}, axesAttrs.ticks, {dflt: ''}), ticklabeloverflow: extendFlat({}, axesAttrs.ticklabeloverflow, { }), // ticklabelposition: not used directly, as values depend on orientation // left/right options are for x axes, and top/bottom options are for y axes ticklabelposition: { valType: 'enumerated', values: [ 'outside', 'inside', 'outside top', 'inside top', 'outside left', 'inside left', 'outside right', 'inside right', 'outside bottom', 'inside bottom' ], dflt: 'outside', }, ticklen: axesAttrs.ticklen, tickwidth: axesAttrs.tickwidth, tickcolor: axesAttrs.tickcolor, ticklabelstep: axesAttrs.ticklabelstep, showticklabels: axesAttrs.showticklabels, tickfont: fontAttrs({ }), tickangle: axesAttrs.tickangle, tickformat: axesAttrs.tickformat, tickformatstops: axesAttrs.tickformatstops, tickprefix: axesAttrs.tickprefix, showtickprefix: axesAttrs.showtickprefix, ticksuffix: axesAttrs.ticksuffix, showticksuffix: axesAttrs.showticksuffix, separatethousands: axesAttrs.separatethousands, exponentformat: axesAttrs.exponentformat, minexponent: axesAttrs.minexponent, showexponent: axesAttrs.showexponent, title: { text: { valType: 'string', }, font: fontAttrs({ }), side: { valType: 'enumerated', values: ['right', 'top', 'bottom'], } }, _deprecated: { title: { valType: 'string', }, titlefont: fontAttrs({ }), titleside: { valType: 'enumerated', values: ['right', 'top', 'bottom'], dflt: 'top', } } }, 'colorbars', 'from-root'); },{"../../lib/extend":281,"../../plot_api/edit_types":316,"../../plots/cartesian/layout_attributes":349,"../../plots/font_attributes":365}],159:[function(_dereq_,module,exports){ 'use strict'; module.exports = { cn: { colorbar: 'colorbar', cbbg: 'cbbg', cbfill: 'cbfill', cbfills: 'cbfills', cbline: 'cbline', cblines: 'cblines', cbaxis: 'cbaxis', cbtitleunshift: 'cbtitleunshift', cbtitle: 'cbtitle', cboutline: 'cboutline', crisp: 'crisp', jsPlaceholder: 'js-placeholder' } }; },{}],160:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Template = _dereq_('../../plot_api/plot_template'); var handleTickValueDefaults = _dereq_('../../plots/cartesian/tick_value_defaults'); var handleTickMarkDefaults = _dereq_('../../plots/cartesian/tick_mark_defaults'); var handleTickLabelDefaults = _dereq_('../../plots/cartesian/tick_label_defaults'); var handlePrefixSuffixDefaults = _dereq_('../../plots/cartesian/prefix_suffix_defaults'); var attributes = _dereq_('./attributes'); module.exports = function colorbarDefaults(containerIn, containerOut, layout) { var colorbarOut = Template.newContainer(containerOut, 'colorbar'); var colorbarIn = containerIn.colorbar || {}; function coerce(attr, dflt) { return Lib.coerce(colorbarIn, colorbarOut, attributes, attr, dflt); } var margin = layout.margin || {t: 0, b: 0, l: 0, r: 0}; var w = layout.width - margin.l - margin.r; var h = layout.height - margin.t - margin.b; var orientation = coerce('orientation'); var isVertical = orientation === 'v'; var thicknessmode = coerce('thicknessmode'); coerce('thickness', (thicknessmode === 'fraction') ? 30 / (isVertical ? w : h) : 30 ); var lenmode = coerce('lenmode'); coerce('len', (lenmode === 'fraction') ? 1 : isVertical ? h : w ); coerce('x', isVertical ? 1.02 : 0.5); coerce('xanchor', isVertical ? 'left' : 'center'); coerce('xpad'); coerce('y', isVertical ? 0.5 : 1.02); coerce('yanchor', isVertical ? 'middle' : 'bottom'); coerce('ypad'); Lib.noneOrAll(colorbarIn, colorbarOut, ['x', 'y']); coerce('outlinecolor'); coerce('outlinewidth'); coerce('bordercolor'); coerce('borderwidth'); coerce('bgcolor'); var ticklabelposition = Lib.coerce(colorbarIn, colorbarOut, { ticklabelposition: { valType: 'enumerated', dflt: 'outside', values: isVertical ? [ 'outside', 'inside', 'outside top', 'inside top', 'outside bottom', 'inside bottom' ] : [ 'outside', 'inside', 'outside left', 'inside left', 'outside right', 'inside right' ] } }, 'ticklabelposition'); coerce('ticklabeloverflow', ticklabelposition.indexOf('inside') !== -1 ? 'hide past domain' : 'hide past div'); handleTickValueDefaults(colorbarIn, colorbarOut, coerce, 'linear'); var font = layout.font; var opts = {outerTicks: false, font: font}; if(ticklabelposition.indexOf('inside') !== -1) { opts.bgColor = 'black'; // could we instead use the average of colors in the scale? } handlePrefixSuffixDefaults(colorbarIn, colorbarOut, coerce, 'linear', opts); handleTickLabelDefaults(colorbarIn, colorbarOut, coerce, 'linear', opts); handleTickMarkDefaults(colorbarIn, colorbarOut, coerce, 'linear', opts); coerce('title.text', layout._dfltTitle.colorbar); var tickFont = colorbarOut.tickfont; var dfltTitleFont = Lib.extendFlat({}, tickFont, { color: font.color, size: Lib.bigFont(tickFont.size) }); Lib.coerceFont(coerce, 'title.font', dfltTitleFont); coerce('title.side', isVertical ? 'top' : 'right'); }; },{"../../lib":287,"../../plot_api/plot_template":323,"../../plots/cartesian/prefix_suffix_defaults":353,"../../plots/cartesian/tick_label_defaults":358,"../../plots/cartesian/tick_mark_defaults":359,"../../plots/cartesian/tick_value_defaults":360,"./attributes":158}],161:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var tinycolor = _dereq_('tinycolor2'); var Plots = _dereq_('../../plots/plots'); var Registry = _dereq_('../../registry'); var Axes = _dereq_('../../plots/cartesian/axes'); var dragElement = _dereq_('../dragelement'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var extendFlat = _dereq_('../../lib/extend').extendFlat; var setCursor = _dereq_('../../lib/setcursor'); var Drawing = _dereq_('../drawing'); var Color = _dereq_('../color'); var Titles = _dereq_('../titles'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var flipScale = _dereq_('../colorscale/helpers').flipScale; var handleAxisDefaults = _dereq_('../../plots/cartesian/axis_defaults'); var handleAxisPositionDefaults = _dereq_('../../plots/cartesian/position_defaults'); var axisLayoutAttrs = _dereq_('../../plots/cartesian/layout_attributes'); var alignmentConstants = _dereq_('../../constants/alignment'); var LINE_SPACING = alignmentConstants.LINE_SPACING; var FROM_TL = alignmentConstants.FROM_TL; var FROM_BR = alignmentConstants.FROM_BR; var cn = _dereq_('./constants').cn; function draw(gd) { var fullLayout = gd._fullLayout; var colorBars = fullLayout._infolayer .selectAll('g.' + cn.colorbar) .data(makeColorBarData(gd), function(opts) { return opts._id; }); colorBars.enter().append('g') .attr('class', function(opts) { return opts._id; }) .classed(cn.colorbar, true); colorBars.each(function(opts) { var g = d3.select(this); Lib.ensureSingle(g, 'rect', cn.cbbg); Lib.ensureSingle(g, 'g', cn.cbfills); Lib.ensureSingle(g, 'g', cn.cblines); Lib.ensureSingle(g, 'g', cn.cbaxis, function(s) { s.classed(cn.crisp, true); }); Lib.ensureSingle(g, 'g', cn.cbtitleunshift, function(s) { s.append('g').classed(cn.cbtitle, true); }); Lib.ensureSingle(g, 'rect', cn.cboutline); var done = drawColorBar(g, opts, gd); if(done && done.then) (gd._promises || []).push(done); if(gd._context.edits.colorbarPosition) { makeEditable(g, opts, gd); } }); colorBars.exit() .each(function(opts) { Plots.autoMargin(gd, opts._id); }) .remove(); colorBars.order(); } function makeColorBarData(gd) { var fullLayout = gd._fullLayout; var calcdata = gd.calcdata; var out = []; // single out item var opts; // colorbar attr parent container var cont; // trace attr container var trace; // colorbar options var cbOpt; function initOpts(opts) { return extendFlat(opts, { // fillcolor can be a d3 scale, domain is z values, range is colors // or leave it out for no fill, // or set to a string constant for single-color fill _fillcolor: null, // line.color has the same options as fillcolor _line: {color: null, width: null, dash: null}, // levels of lines to draw. // note that this DOES NOT determine the extent of the bar // that's given by the domain of fillcolor // (or line.color if no fillcolor domain) _levels: {start: null, end: null, size: null}, // separate fill levels (for example, heatmap coloring of a // contour map) if this is omitted, fillcolors will be // evaluated halfway between levels _filllevels: null, // for continuous colorscales: fill with a gradient instead of explicit levels // value should be the colorscale [[0, c0], [v1, c1], ..., [1, cEnd]] _fillgradient: null, // when using a gradient, we need the data range specified separately _zrange: null }); } function calcOpts() { if(typeof cbOpt.calc === 'function') { cbOpt.calc(gd, trace, opts); } else { opts._fillgradient = cont.reversescale ? flipScale(cont.colorscale) : cont.colorscale; opts._zrange = [cont[cbOpt.min], cont[cbOpt.max]]; } } for(var i = 0; i < calcdata.length; i++) { var cd = calcdata[i]; trace = cd[0].trace; var moduleOpts = trace._module.colorbar; if(trace.visible === true && moduleOpts) { var allowsMultiplotCbs = Array.isArray(moduleOpts); var cbOpts = allowsMultiplotCbs ? moduleOpts : [moduleOpts]; for(var j = 0; j < cbOpts.length; j++) { cbOpt = cbOpts[j]; var contName = cbOpt.container; cont = contName ? trace[contName] : trace; if(cont && cont.showscale) { opts = initOpts(cont.colorbar); opts._id = 'cb' + trace.uid + (allowsMultiplotCbs && contName ? '-' + contName : ''); opts._traceIndex = trace.index; opts._propPrefix = (contName ? contName + '.' : '') + 'colorbar.'; opts._meta = trace._meta; calcOpts(); out.push(opts); } } } } for(var k in fullLayout._colorAxes) { cont = fullLayout[k]; if(cont.showscale) { var colorAxOpts = fullLayout._colorAxes[k]; opts = initOpts(cont.colorbar); opts._id = 'cb' + k; opts._propPrefix = k + '.colorbar.'; opts._meta = fullLayout._meta; cbOpt = {min: 'cmin', max: 'cmax'}; if(colorAxOpts[0] !== 'heatmap') { trace = colorAxOpts[1]; cbOpt.calc = trace._module.colorbar.calc; } calcOpts(); out.push(opts); } } return out; } function drawColorBar(g, opts, gd) { var isVertical = opts.orientation === 'v'; var len = opts.len; var lenmode = opts.lenmode; var thickness = opts.thickness; var thicknessmode = opts.thicknessmode; var outlinewidth = opts.outlinewidth; var borderwidth = opts.borderwidth; var bgcolor = opts.bgcolor; var xanchor = opts.xanchor; var yanchor = opts.yanchor; var xpad = opts.xpad; var ypad = opts.ypad; var optsX = opts.x; var optsY = isVertical ? opts.y : 1 - opts.y; var fullLayout = gd._fullLayout; var gs = fullLayout._size; var fillColor = opts._fillcolor; var line = opts._line; var title = opts.title; var titleSide = title.side; var zrange = opts._zrange || d3.extent((typeof fillColor === 'function' ? fillColor : line.color).domain()); var lineColormap = typeof line.color === 'function' ? line.color : function() { return line.color; }; var fillColormap = typeof fillColor === 'function' ? fillColor : function() { return fillColor; }; var levelsIn = opts._levels; var levelsOut = calcLevels(gd, opts, zrange); var fillLevels = levelsOut.fill; var lineLevels = levelsOut.line; // we calculate pixel sizes based on the specified graph size, // not the actual (in case something pushed the margins around) // which is a little odd but avoids an odd iterative effect // when the colorbar itself is pushing the margins. // but then the fractional size is calculated based on the // actual graph size, so that the axes will size correctly. var thickPx = Math.round(thickness * (thicknessmode === 'fraction' ? (isVertical ? gs.w : gs.h) : 1)); var thickFrac = thickPx / (isVertical ? gs.w : gs.h); var lenPx = Math.round(len * (lenmode === 'fraction' ? (isVertical ? gs.h : gs.w) : 1)); var lenFrac = lenPx / (isVertical ? gs.h : gs.w); // x positioning: do it initially just for left anchor, // then fix at the end (since we don't know the width yet) var uPx = Math.round(isVertical ? optsX * gs.w + xpad : optsY * gs.h + ypad ); var xRatio = {center: 0.5, right: 1}[xanchor] || 0; var yRatio = {top: 1, middle: 0.5}[yanchor] || 0; // for dragging... this is getting a little muddled... var uFrac = isVertical ? optsX - xRatio * thickFrac : optsY - yRatio * thickFrac; // y/x positioning (for v/h) we can do correctly from the start var vFrac = isVertical ? optsY - yRatio * lenFrac : optsX - xRatio * lenFrac; var vPx = Math.round(isVertical ? gs.h * (1 - vFrac) : gs.w * vFrac ); // stash a few things for makeEditable opts._lenFrac = lenFrac; opts._thickFrac = thickFrac; opts._uFrac = uFrac; opts._vFrac = vFrac; // stash mocked axis for contour label formatting var ax = opts._axis = mockColorBarAxis(gd, opts, zrange); // position can't go in through supplyDefaults // because that restricts it to [0,1] ax.position = thickFrac + (isVertical ? optsX + xpad / gs.w : optsY + ypad / gs.h ); var topOrBottom = ['top', 'bottom'].indexOf(titleSide) !== -1; if(isVertical && topOrBottom) { ax.title.side = titleSide; ax.titlex = optsX + xpad / gs.w; ax.titley = vFrac + (title.side === 'top' ? lenFrac - ypad / gs.h : ypad / gs.h); } if(!isVertical && !topOrBottom) { ax.title.side = titleSide; ax.titley = optsY + ypad / gs.h; ax.titlex = vFrac + xpad / gs.w; // right side } if(line.color && opts.tickmode === 'auto') { ax.tickmode = 'linear'; ax.tick0 = levelsIn.start; var dtick = levelsIn.size; // expand if too many contours, so we don't get too many ticks var autoNtick = Lib.constrain(lenPx / 50, 4, 15) + 1; var dtFactor = (zrange[1] - zrange[0]) / ((opts.nticks || autoNtick) * dtick); if(dtFactor > 1) { var dtexp = Math.pow(10, Math.floor(Math.log(dtFactor) / Math.LN10)); dtick *= dtexp * Lib.roundUp(dtFactor / dtexp, [2, 5, 10]); // if the contours are at round multiples, reset tick0 // so they're still at round multiples. Otherwise, // keep the first label on the first contour level if((Math.abs(levelsIn.start) / levelsIn.size + 1e-6) % 1 < 2e-6) { ax.tick0 = 0; } } ax.dtick = dtick; } // set domain after init, because we may want to // allow it outside [0,1] ax.domain = isVertical ? [ vFrac + ypad / gs.h, vFrac + lenFrac - ypad / gs.h ] : [ vFrac + xpad / gs.w, vFrac + lenFrac - xpad / gs.w ]; ax.setScale(); g.attr('transform', strTranslate(Math.round(gs.l), Math.round(gs.t))); var titleCont = g.select('.' + cn.cbtitleunshift) .attr('transform', strTranslate(-Math.round(gs.l), -Math.round(gs.t))); var ticklabelposition = ax.ticklabelposition; var titleFontSize = ax.title.font.size; var axLayer = g.select('.' + cn.cbaxis); var titleEl; var titleHeight = 0; var titleWidth = 0; function drawTitle(titleClass, titleOpts) { var dfltTitleOpts = { propContainer: ax, propName: opts._propPrefix + 'title', traceIndex: opts._traceIndex, _meta: opts._meta, placeholder: fullLayout._dfltTitle.colorbar, containerGroup: g.select('.' + cn.cbtitle) }; // this class-to-rotate thing with convertToTspans is // getting hackier and hackier... delete groups with the // wrong class (in case earlier the colorbar was drawn on // a different side, I think?) var otherClass = titleClass.charAt(0) === 'h' ? titleClass.substr(1) : 'h' + titleClass; g.selectAll('.' + otherClass + ',.' + otherClass + '-math-group').remove(); Titles.draw(gd, titleClass, extendFlat(dfltTitleOpts, titleOpts || {})); } function drawDummyTitle() { // draw the title so we know how much room it needs // when we squish the axis. // On vertical colorbars this only applies to top or bottom titles, not right side. // On horizontal colorbars this only applies to right, etc. if( (isVertical && topOrBottom) || (!isVertical && !topOrBottom) ) { var x, y; if(titleSide === 'top') { x = xpad + gs.l + gs.w * optsX; y = ypad + gs.t + gs.h * (1 - vFrac - lenFrac) + 3 + titleFontSize * 0.75; } if(titleSide === 'bottom') { x = xpad + gs.l + gs.w * optsX; y = ypad + gs.t + gs.h * (1 - vFrac) - 3 - titleFontSize * 0.25; } if(titleSide === 'right') { y = ypad + gs.t + gs.h * optsY + 3 + titleFontSize * 0.75; x = xpad + gs.l + gs.w * vFrac; } drawTitle(ax._id + 'title', { attributes: {x: x, y: y, 'text-anchor': isVertical ? 'start' : 'middle'} }); } } function drawCbTitle() { if( (isVertical && !topOrBottom) || (!isVertical && topOrBottom) ) { var pos = ax.position || 0; var mid = ax._offset + ax._length / 2; var x, y; if(titleSide === 'right') { y = mid; x = gs.l + gs.w * pos + 10 + titleFontSize * ( ax.showticklabels ? 1 : 0.5 ); } else { x = mid; if(titleSide === 'bottom') { y = gs.t + gs.h * pos + 10 + ( ticklabelposition.indexOf('inside') === -1 ? ax.tickfont.size : 0 ) + ( ax.ticks !== 'intside' ? opts.ticklen || 0 : 0 ); } if(titleSide === 'top') { var nlines = title.text.split('
').length; y = gs.t + gs.h * pos + 10 - thickPx - LINE_SPACING * titleFontSize * nlines; } } drawTitle((isVertical ? // the 'h' + is a hack to get around the fact that // convertToTspans rotates any 'y...' class by 90 degrees. // TODO: find a better way to control this. 'h' : 'v' ) + ax._id + 'title', { avoid: { selection: d3.select(gd).selectAll('g.' + ax._id + 'tick'), side: titleSide, offsetTop: isVertical ? 0 : gs.t, offsetLeft: isVertical ? gs.l : 0, maxShift: isVertical ? fullLayout.width : fullLayout.height }, attributes: {x: x, y: y, 'text-anchor': 'middle'}, transform: {rotate: isVertical ? -90 : 0, offset: 0} }); } } function drawAxis() { if( (!isVertical && !topOrBottom) || (isVertical && topOrBottom) ) { // squish the axis top to make room for the title var titleGroup = g.select('.' + cn.cbtitle); var titleText = titleGroup.select('text'); var titleTrans = [-outlinewidth / 2, outlinewidth / 2]; var mathJaxNode = titleGroup .select('.h' + ax._id + 'title-math-group') .node(); var lineSize = 15.6; if(titleText.node()) { lineSize = parseInt(titleText.node().style.fontSize, 10) * LINE_SPACING; } var bb; if(mathJaxNode) { bb = Drawing.bBox(mathJaxNode); titleWidth = bb.width; titleHeight = bb.height; if(titleHeight > lineSize) { // not entirely sure how mathjax is doing // vertical alignment, but this seems to work. titleTrans[1] -= (titleHeight - lineSize) / 2; } } else if(titleText.node() && !titleText.classed(cn.jsPlaceholder)) { bb = Drawing.bBox(titleText.node()); titleWidth = bb.width; titleHeight = bb.height; } if(isVertical) { if(titleHeight) { // buffer btwn colorbar and title // TODO: configurable titleHeight += 5; if(titleSide === 'top') { ax.domain[1] -= titleHeight / gs.h; titleTrans[1] *= -1; } else { ax.domain[0] += titleHeight / gs.h; var nlines = svgTextUtils.lineCount(titleText); titleTrans[1] += (1 - nlines) * lineSize; } titleGroup.attr('transform', strTranslate(titleTrans[0], titleTrans[1])); ax.setScale(); } } else { // horizontal colorbars if(titleWidth) { if(titleSide === 'right') { ax.domain[0] += (titleWidth + titleFontSize / 2) / gs.w; } titleGroup.attr('transform', strTranslate(titleTrans[0], titleTrans[1])); ax.setScale(); } } } g.selectAll('.' + cn.cbfills + ',.' + cn.cblines) .attr('transform', isVertical ? strTranslate(0, Math.round(gs.h * (1 - ax.domain[1]))) : strTranslate(Math.round(gs.w * ax.domain[0]), 0) ); axLayer.attr('transform', isVertical ? strTranslate(0, Math.round(-gs.t)) : strTranslate(Math.round(-gs.l), 0) ); var fills = g.select('.' + cn.cbfills) .selectAll('rect.' + cn.cbfill) .attr('style', '') .data(fillLevels); fills.enter().append('rect') .classed(cn.cbfill, true) .style('stroke', 'none'); fills.exit().remove(); var zBounds = zrange .map(ax.c2p) .map(Math.round) .sort(function(a, b) { return a - b; }); fills.each(function(d, i) { var z = [ (i === 0) ? zrange[0] : (fillLevels[i] + fillLevels[i - 1]) / 2, (i === fillLevels.length - 1) ? zrange[1] : (fillLevels[i] + fillLevels[i + 1]) / 2 ] .map(ax.c2p) .map(Math.round); // offset the side adjoining the next rectangle so they // overlap, to prevent antialiasing gaps if(isVertical) { z[1] = Lib.constrain(z[1] + (z[1] > z[0]) ? 1 : -1, zBounds[0], zBounds[1]); } /* else { // TODO: horizontal case } */ // Colorbar cannot currently support opacities so we // use an opaque fill even when alpha channels present var fillEl = d3.select(this) .attr(isVertical ? 'x' : 'y', uPx) .attr(isVertical ? 'y' : 'x', d3.min(z)) .attr(isVertical ? 'width' : 'height', Math.max(thickPx, 2)) .attr(isVertical ? 'height' : 'width', Math.max(d3.max(z) - d3.min(z), 2)); if(opts._fillgradient) { Drawing.gradient(fillEl, gd, opts._id, isVertical ? 'vertical' : 'horizontalreversed', opts._fillgradient, 'fill'); } else { // tinycolor can't handle exponents and // at this scale, removing it makes no difference. var colorString = fillColormap(d).replace('e-', ''); fillEl.attr('fill', tinycolor(colorString).toHexString()); } }); var lines = g.select('.' + cn.cblines) .selectAll('path.' + cn.cbline) .data(line.color && line.width ? lineLevels : []); lines.enter().append('path') .classed(cn.cbline, true); lines.exit().remove(); lines.each(function(d) { var a = uPx; var b = (Math.round(ax.c2p(d)) + (line.width / 2) % 1); d3.select(this) .attr('d', 'M' + (isVertical ? a + ',' + b : b + ',' + a) + (isVertical ? 'h' : 'v') + thickPx ) .call(Drawing.lineGroupStyle, line.width, lineColormap(d), line.dash); }); // force full redraw of labels and ticks axLayer.selectAll('g.' + ax._id + 'tick,path').remove(); var shift = uPx + thickPx + (outlinewidth || 0) / 2 - (opts.ticks === 'outside' ? 1 : 0); var vals = Axes.calcTicks(ax); var tickSign = Axes.getTickSigns(ax)[2]; Axes.drawTicks(gd, ax, { vals: ax.ticks === 'inside' ? Axes.clipEnds(ax, vals) : vals, layer: axLayer, path: Axes.makeTickPath(ax, shift, tickSign), transFn: Axes.makeTransTickFn(ax) }); return Axes.drawLabels(gd, ax, { vals: vals, layer: axLayer, transFn: Axes.makeTransTickLabelFn(ax), labelFns: Axes.makeLabelFns(ax, shift) }); } // wait for the axis & title to finish rendering before // continuing positioning // TODO: why are we redrawing multiple times now with this? // I guess autoMargin doesn't like being post-promise? function positionCB() { var bb; var innerThickness = thickPx + outlinewidth / 2; if(ticklabelposition.indexOf('inside') === -1) { bb = Drawing.bBox(axLayer.node()); innerThickness += isVertical ? bb.width : bb.height; } titleEl = titleCont.select('text'); var titleWidth = 0; var topSideVertical = isVertical && titleSide === 'top'; var rightSideHorizontal = !isVertical && titleSide === 'right'; var moveY = 0; if(titleEl.node() && !titleEl.classed(cn.jsPlaceholder)) { var _titleHeight; var mathJaxNode = titleCont.select('.h' + ax._id + 'title-math-group').node(); if(mathJaxNode && ( (isVertical && topOrBottom) || (!isVertical && !topOrBottom) )) { bb = Drawing.bBox(mathJaxNode); titleWidth = bb.width; _titleHeight = bb.height; } else { // note: the formula below works for all title sides, // (except for top/bottom mathjax, above) // but the weird gs.l is because the titleunshift // transform gets removed by Drawing.bBox bb = Drawing.bBox(titleCont.node()); titleWidth = bb.right - gs.l - (isVertical ? uPx : vPx); _titleHeight = bb.bottom - gs.t - (isVertical ? vPx : uPx); if( !isVertical && titleSide === 'top' ) { innerThickness += bb.height; moveY = bb.height; } } if(rightSideHorizontal) { titleEl.attr('transform', strTranslate(titleWidth / 2 + titleFontSize / 2, 0)); titleWidth *= 2; } innerThickness = Math.max(innerThickness, isVertical ? titleWidth : _titleHeight ); } var outerThickness = (isVertical ? xpad : ypad ) * 2 + innerThickness + borderwidth + outlinewidth / 2; var hColorbarMoveTitle = 0; if(!isVertical && title.text && yanchor === 'bottom' && optsY <= 0) { hColorbarMoveTitle = outerThickness / 2; outerThickness += hColorbarMoveTitle; moveY += hColorbarMoveTitle; } fullLayout._hColorbarMoveTitle = hColorbarMoveTitle; fullLayout._hColorbarMoveCBTitle = moveY; var extraW = borderwidth + outlinewidth; g.select('.' + cn.cbbg) .attr('x', (isVertical ? uPx : vPx) - extraW / 2 - (isVertical ? xpad : 0)) .attr('y', (isVertical ? vPx : uPx) - (isVertical ? lenPx : ypad + moveY - hColorbarMoveTitle)) .attr(isVertical ? 'width' : 'height', Math.max(outerThickness - hColorbarMoveTitle, 2)) .attr(isVertical ? 'height' : 'width', Math.max(lenPx + extraW, 2)) .call(Color.fill, bgcolor) .call(Color.stroke, opts.bordercolor) .style('stroke-width', borderwidth); var moveX = rightSideHorizontal ? Math.max(titleWidth - 10, 0) : 0; g.selectAll('.' + cn.cboutline) .attr('x', (isVertical ? uPx : vPx + xpad) + moveX) .attr('y', (isVertical ? vPx + ypad - lenPx : uPx) + (topSideVertical ? titleHeight : 0)) .attr(isVertical ? 'width' : 'height', Math.max(thickPx, 2)) .attr(isVertical ? 'height' : 'width', Math.max(lenPx - (isVertical ? 2 * ypad + titleHeight : 2 * xpad + moveX ), 2)) .call(Color.stroke, opts.outlinecolor) .style({ fill: 'none', 'stroke-width': outlinewidth }); g.attr('transform', strTranslate( gs.l - (isVertical ? xRatio * outerThickness : 0), gs.t - (isVertical ? 0 : (1 - yRatio) * outerThickness - moveY) )); if(!isVertical && ( borderwidth || ( tinycolor(bgcolor).getAlpha() && !tinycolor.equals(fullLayout.paper_bgcolor, bgcolor) ) )) { // for horizontal colorbars when there is a border line or having different background color // hide/adjust x positioning for the first/last tick labels if they go outside the border var tickLabels = axLayer.selectAll('text'); var numTicks = tickLabels[0].length; var border = g.select('.' + cn.cbbg).node(); var oBb = Drawing.bBox(border); var oTr = Drawing.getTranslate(g); var TEXTPAD = 2; tickLabels.each(function(d, i) { var first = 0; var last = numTicks - 1; if(i === first || i === last) { var iBb = Drawing.bBox(this); var iTr = Drawing.getTranslate(this); var deltaX; if(i === last) { var iRight = iBb.right + iTr.x; var oRight = oBb.right + oTr.x + vPx - borderwidth - TEXTPAD + optsX; deltaX = oRight - iRight; if(deltaX > 0) deltaX = 0; } else if(i === first) { var iLeft = iBb.left + iTr.x; var oLeft = oBb.left + oTr.x + vPx + borderwidth + TEXTPAD; deltaX = oLeft - iLeft; if(deltaX < 0) deltaX = 0; } if(deltaX) { if(numTicks < 3) { // adjust position this.setAttribute('transform', 'translate(' + deltaX + ',0) ' + this.getAttribute('transform') ); } else { // hide this.setAttribute('visibility', 'hidden'); } } } }); } // auto margin adjustment var marginOpts = {}; var lFrac = FROM_TL[xanchor]; var rFrac = FROM_BR[xanchor]; var tFrac = FROM_TL[yanchor]; var bFrac = FROM_BR[yanchor]; var extraThickness = outerThickness - thickPx; if(isVertical) { if(lenmode === 'pixels') { marginOpts.y = optsY; marginOpts.t = lenPx * tFrac; marginOpts.b = lenPx * bFrac; } else { marginOpts.t = marginOpts.b = 0; marginOpts.yt = optsY + len * tFrac; marginOpts.yb = optsY - len * bFrac; } if(thicknessmode === 'pixels') { marginOpts.x = optsX; marginOpts.l = outerThickness * lFrac; marginOpts.r = outerThickness * rFrac; } else { marginOpts.l = extraThickness * lFrac; marginOpts.r = extraThickness * rFrac; marginOpts.xl = optsX - thickness * lFrac; marginOpts.xr = optsX + thickness * rFrac; } } else { // horizontal colorbars if(lenmode === 'pixels') { marginOpts.x = optsX; marginOpts.l = lenPx * lFrac; marginOpts.r = lenPx * rFrac; } else { marginOpts.l = marginOpts.r = 0; marginOpts.xl = optsX + len * lFrac; marginOpts.xr = optsX - len * rFrac; } if(thicknessmode === 'pixels') { marginOpts.y = 1 - optsY; marginOpts.t = outerThickness * tFrac; marginOpts.b = outerThickness * bFrac; } else { marginOpts.t = extraThickness * tFrac; marginOpts.b = extraThickness * bFrac; marginOpts.yt = optsY - thickness * tFrac; marginOpts.yb = optsY + thickness * bFrac; } } Plots.autoMargin(gd, opts._id, marginOpts); } return Lib.syncOrAsync([ Plots.previousPromises, drawDummyTitle, drawAxis, drawCbTitle, Plots.previousPromises, positionCB ], gd); } function makeEditable(g, opts, gd) { var isVertical = opts.orientation === 'v'; var fullLayout = gd._fullLayout; var gs = fullLayout._size; var t0, xf, yf; dragElement.init({ element: g.node(), gd: gd, prepFn: function() { t0 = g.attr('transform'); setCursor(g); }, moveFn: function(dx, dy) { g.attr('transform', t0 + strTranslate(dx, dy)); xf = dragElement.align( (isVertical ? opts._uFrac : opts._vFrac) + (dx / gs.w), isVertical ? opts._thickFrac : opts._lenFrac, 0, 1, opts.xanchor); yf = dragElement.align( (isVertical ? opts._vFrac : (1 - opts._uFrac)) - (dy / gs.h), isVertical ? opts._lenFrac : opts._thickFrac, 0, 1, opts.yanchor); var csr = dragElement.getCursor(xf, yf, opts.xanchor, opts.yanchor); setCursor(g, csr); }, doneFn: function() { setCursor(g); if(xf !== undefined && yf !== undefined) { var update = {}; update[opts._propPrefix + 'x'] = xf; update[opts._propPrefix + 'y'] = yf; if(opts._traceIndex !== undefined) { Registry.call('_guiRestyle', gd, update, opts._traceIndex); } else { Registry.call('_guiRelayout', gd, update); } } } }); } function calcLevels(gd, opts, zrange) { var levelsIn = opts._levels; var lineLevels = []; var fillLevels = []; var l; var i; var l0 = levelsIn.end + levelsIn.size / 100; var ls = levelsIn.size; var zr0 = (1.001 * zrange[0] - 0.001 * zrange[1]); var zr1 = (1.001 * zrange[1] - 0.001 * zrange[0]); for(i = 0; i < 1e5; i++) { l = levelsIn.start + i * ls; if(ls > 0 ? (l >= l0) : (l <= l0)) break; if(l > zr0 && l < zr1) lineLevels.push(l); } if(opts._fillgradient) { fillLevels = [0]; } else if(typeof opts._fillcolor === 'function') { var fillLevelsIn = opts._filllevels; if(fillLevelsIn) { l0 = fillLevelsIn.end + fillLevelsIn.size / 100; ls = fillLevelsIn.size; for(i = 0; i < 1e5; i++) { l = fillLevelsIn.start + i * ls; if(ls > 0 ? (l >= l0) : (l <= l0)) break; if(l > zrange[0] && l < zrange[1]) fillLevels.push(l); } } else { fillLevels = lineLevels.map(function(v) { return v - levelsIn.size / 2; }); fillLevels.push(fillLevels[fillLevels.length - 1] + levelsIn.size); } } else if(opts._fillcolor && typeof opts._fillcolor === 'string') { // doesn't matter what this value is, with a single value // we'll make a single fill rect covering the whole bar fillLevels = [0]; } if(levelsIn.size < 0) { lineLevels.reverse(); fillLevels.reverse(); } return {line: lineLevels, fill: fillLevels}; } function mockColorBarAxis(gd, opts, zrange) { var fullLayout = gd._fullLayout; var isVertical = opts.orientation === 'v'; var cbAxisIn = { type: 'linear', range: zrange, tickmode: opts.tickmode, nticks: opts.nticks, tick0: opts.tick0, dtick: opts.dtick, tickvals: opts.tickvals, ticktext: opts.ticktext, ticks: opts.ticks, ticklen: opts.ticklen, tickwidth: opts.tickwidth, tickcolor: opts.tickcolor, showticklabels: opts.showticklabels, ticklabelposition: opts.ticklabelposition, ticklabeloverflow: opts.ticklabeloverflow, ticklabelstep: opts.ticklabelstep, tickfont: opts.tickfont, tickangle: opts.tickangle, tickformat: opts.tickformat, exponentformat: opts.exponentformat, minexponent: opts.minexponent, separatethousands: opts.separatethousands, showexponent: opts.showexponent, showtickprefix: opts.showtickprefix, tickprefix: opts.tickprefix, showticksuffix: opts.showticksuffix, ticksuffix: opts.ticksuffix, title: opts.title, showline: true, anchor: 'free', side: isVertical ? 'right' : 'bottom', position: 1 }; var letter = isVertical ? 'y' : 'x'; var cbAxisOut = { type: 'linear', _id: letter + opts._id }; var axisOptions = { letter: letter, font: fullLayout.font, noHover: true, noTickson: true, noTicklabelmode: true, calendar: fullLayout.calendar // not really necessary (yet?) }; function coerce(attr, dflt) { return Lib.coerce(cbAxisIn, cbAxisOut, axisLayoutAttrs, attr, dflt); } handleAxisDefaults(cbAxisIn, cbAxisOut, coerce, axisOptions, fullLayout); handleAxisPositionDefaults(cbAxisIn, cbAxisOut, coerce, axisOptions); return cbAxisOut; } module.exports = { draw: draw }; },{"../../constants/alignment":262,"../../lib":287,"../../lib/extend":281,"../../lib/setcursor":307,"../../lib/svg_text_utils":310,"../../plots/cartesian/axes":334,"../../plots/cartesian/axis_defaults":336,"../../plots/cartesian/layout_attributes":349,"../../plots/cartesian/position_defaults":352,"../../plots/plots":371,"../../registry":378,"../color":157,"../colorscale/helpers":168,"../dragelement":176,"../drawing":179,"../titles":255,"./constants":159,"@plotly/d3":20,"tinycolor2":121}],162:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); module.exports = function hasColorbar(container) { return Lib.isPlainObject(container.colorbar); }; },{"../../lib":287}],163:[function(_dereq_,module,exports){ 'use strict'; module.exports = { moduleType: 'component', name: 'colorbar', attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults'), draw: _dereq_('./draw').draw, hasColorbar: _dereq_('./has_colorbar') }; },{"./attributes":158,"./defaults":160,"./draw":161,"./has_colorbar":162}],164:[function(_dereq_,module,exports){ 'use strict'; var colorbarAttrs = _dereq_('../colorbar/attributes'); var counterRegex = _dereq_('../../lib/regex').counter; var sortObjectKeys = _dereq_('../../lib/sort_object_keys'); var palettes = _dereq_('./scales.js').scales; var paletteStr = sortObjectKeys(palettes); function code(s) { return '`' + s + '`'; } /** * Make colorscale attribute declarations for * * - colorscale, * - (c|z)auto, (c|z)min, (c|z)max, * - autocolorscale, reversescale, * - showscale (optionally) * - color (optionally) * * @param {string} context (dflt: '', i.e. from trace root): * the container this is in ('', *marker*, *marker.line* etc) * * @param {object} opts: * - cLetter {string} (dflt: 'c'): * leading letter for 'min', 'max and 'auto' attribute (either 'z' or 'c') * * - colorAttr {string} (dflt: 'z' if `cLetter: 'z'`, 'color' if `cLetter: 'c'`): * (for descriptions) sets the name of the color attribute that maps to the colorscale. * * N.B. if `colorAttr: 'color'`, we include the `color` declaration here. * * - onlyIfNumerical {string} (dflt: false' if `cLetter: 'z'`, true if `cLetter: 'c'`): * (for descriptions) set to true if colorscale attribute only * * - colorscaleDflt {string}: * overrides the colorscale dflt * * - autoColorDflt {boolean} (dflt true): * normally autocolorscale.dflt is `true`, but pass `false` to override * * - noScale {boolean} (dflt: true if `context: 'marker.line'`, false otherwise): * set to `false` to not include showscale attribute (e.g. for 'marker.line') * * - showScaleDflt {boolean} (dflt: true if `cLetter: 'z'`, false otherwise) * * - editTypeOverride {boolean} (dflt: ''): * most of these attributes already require a recalc, but the ones that do not * have editType *style* or *plot* unless you override (presumably with *calc*) * * - anim {boolean) (dflt: undefined): is 'color' animatable? * * @return {object} */ module.exports = function colorScaleAttrs(context, opts) { context = context || ''; opts = opts || {}; var cLetter = opts.cLetter || 'c'; var onlyIfNumerical = ('onlyIfNumerical' in opts) ? opts.onlyIfNumerical : Boolean(context); var noScale = ('noScale' in opts) ? opts.noScale : context === 'marker.line'; var showScaleDflt = ('showScaleDflt' in opts) ? opts.showScaleDflt : cLetter === 'z'; var colorscaleDflt = typeof opts.colorscaleDflt === 'string' ? palettes[opts.colorscaleDflt] : null; var editTypeOverride = opts.editTypeOverride || ''; var contextHead = context ? (context + '.') : ''; var colorAttr, colorAttrFull; if('colorAttr' in opts) { colorAttr = opts.colorAttr; colorAttrFull = opts.colorAttr; } else { colorAttr = {z: 'z', c: 'color'}[cLetter]; colorAttrFull = 'in ' + code(contextHead + colorAttr); } var effectDesc = onlyIfNumerical ? ' Has an effect only if ' + colorAttrFull + ' is set to a numerical array.' : ''; var auto = cLetter + 'auto'; var min = cLetter + 'min'; var max = cLetter + 'max'; var mid = cLetter + 'mid'; var autoFull = code(contextHead + auto); var minFull = code(contextHead + min); var maxFull = code(contextHead + max); var minmaxFull = minFull + ' and ' + maxFull; var autoImpliedEdits = {}; autoImpliedEdits[min] = autoImpliedEdits[max] = undefined; var minmaxImpliedEdits = {}; minmaxImpliedEdits[auto] = false; var attrs = {}; if(colorAttr === 'color') { attrs.color = { valType: 'color', arrayOk: true, editType: editTypeOverride || 'style', }; if(opts.anim) { attrs.color.anim = true; } } attrs[auto] = { valType: 'boolean', dflt: true, editType: 'calc', impliedEdits: autoImpliedEdits, }; attrs[min] = { valType: 'number', dflt: null, editType: editTypeOverride || 'plot', impliedEdits: minmaxImpliedEdits, }; attrs[max] = { valType: 'number', dflt: null, editType: editTypeOverride || 'plot', impliedEdits: minmaxImpliedEdits, }; attrs[mid] = { valType: 'number', dflt: null, editType: 'calc', impliedEdits: autoImpliedEdits, }; attrs.colorscale = { valType: 'colorscale', editType: 'calc', dflt: colorscaleDflt, impliedEdits: {autocolorscale: false}, }; attrs.autocolorscale = { valType: 'boolean', // gets overrode in 'heatmap' & 'surface' for backwards comp. dflt: opts.autoColorDflt === false ? false : true, editType: 'calc', impliedEdits: {colorscale: undefined}, }; attrs.reversescale = { valType: 'boolean', dflt: false, editType: 'plot', }; if(!noScale) { attrs.showscale = { valType: 'boolean', dflt: showScaleDflt, editType: 'calc', }; attrs.colorbar = colorbarAttrs; } if(!opts.noColorAxis) { attrs.coloraxis = { valType: 'subplotid', regex: counterRegex('coloraxis'), dflt: null, editType: 'calc', }; } return attrs; }; },{"../../lib/regex":303,"../../lib/sort_object_keys":308,"../colorbar/attributes":158,"./scales.js":172}],165:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var extractOpts = _dereq_('./helpers').extractOpts; module.exports = function calc(gd, trace, opts) { var fullLayout = gd._fullLayout; var vals = opts.vals; var containerStr = opts.containerStr; var container = containerStr ? Lib.nestedProperty(trace, containerStr).get() : trace; var cOpts = extractOpts(container); var auto = cOpts.auto !== false; var min = cOpts.min; var max = cOpts.max; var mid = cOpts.mid; var minVal = function() { return Lib.aggNums(Math.min, null, vals); }; var maxVal = function() { return Lib.aggNums(Math.max, null, vals); }; if(min === undefined) { min = minVal(); } else if(auto) { if(container._colorAx && isNumeric(min)) { min = Math.min(min, minVal()); } else { min = minVal(); } } if(max === undefined) { max = maxVal(); } else if(auto) { if(container._colorAx && isNumeric(max)) { max = Math.max(max, maxVal()); } else { max = maxVal(); } } if(auto && mid !== undefined) { if(max - mid > mid - min) { min = mid - (max - mid); } else if(max - mid < mid - min) { max = mid + (mid - min); } } if(min === max) { min -= 0.5; max += 0.5; } cOpts._sync('min', min); cOpts._sync('max', max); if(cOpts.autocolorscale) { var scl; if(min * max < 0) scl = fullLayout.colorscale.diverging; else if(min >= 0) scl = fullLayout.colorscale.sequential; else scl = fullLayout.colorscale.sequentialminus; cOpts._sync('colorscale', scl); } }; },{"../../lib":287,"./helpers":168,"fast-isnumeric":33}],166:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var hasColorscale = _dereq_('./helpers').hasColorscale; var extractOpts = _dereq_('./helpers').extractOpts; module.exports = function crossTraceDefaults(fullData, fullLayout) { function replace(cont, k) { var val = cont['_' + k]; if(val !== undefined) { cont[k] = val; } } function relinkColorAttrs(outerCont, cbOpt) { var cont = cbOpt.container ? Lib.nestedProperty(outerCont, cbOpt.container).get() : outerCont; if(cont) { if(cont.coloraxis) { // stash ref to color axis cont._colorAx = fullLayout[cont.coloraxis]; } else { var cOpts = extractOpts(cont); var isAuto = cOpts.auto; if(isAuto || cOpts.min === undefined) { replace(cont, cbOpt.min); } if(isAuto || cOpts.max === undefined) { replace(cont, cbOpt.max); } if(cOpts.autocolorscale) { replace(cont, 'colorscale'); } } } } for(var i = 0; i < fullData.length; i++) { var trace = fullData[i]; var cbOpts = trace._module.colorbar; if(cbOpts) { if(Array.isArray(cbOpts)) { for(var j = 0; j < cbOpts.length; j++) { relinkColorAttrs(trace, cbOpts[j]); } } else { relinkColorAttrs(trace, cbOpts); } } if(hasColorscale(trace, 'marker.line')) { relinkColorAttrs(trace, { container: 'marker.line', min: 'cmin', max: 'cmax' }); } } for(var k in fullLayout._colorAxes) { relinkColorAttrs(fullLayout[k], {min: 'cmin', max: 'cmax'}); } }; },{"../../lib":287,"./helpers":168}],167:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var hasColorbar = _dereq_('../colorbar/has_colorbar'); var colorbarDefaults = _dereq_('../colorbar/defaults'); var isValidScale = _dereq_('./scales').isValid; var traceIs = _dereq_('../../registry').traceIs; function npMaybe(parentCont, prefix) { var containerStr = prefix.slice(0, prefix.length - 1); return prefix ? Lib.nestedProperty(parentCont, containerStr).get() || {} : parentCont; } /** * Colorscale / colorbar default handler * * @param {object} parentContIn : user (input) parent container (e.g. trace or layout coloraxis object) * @param {object} parentContOut : full parent container * @param {object} layout : (full) layout object * @param {fn} coerce : Lib.coerce wrapper * @param {object} opts : * - prefix {string} : attr string prefix to colorscale container from parent root * - cLetter {string} : 'c or 'z' color letter */ module.exports = function colorScaleDefaults(parentContIn, parentContOut, layout, coerce, opts) { var prefix = opts.prefix; var cLetter = opts.cLetter; var inTrace = '_module' in parentContOut; var containerIn = npMaybe(parentContIn, prefix); var containerOut = npMaybe(parentContOut, prefix); var template = npMaybe(parentContOut._template || {}, prefix) || {}; // colorScaleDefaults wrapper called if-ever we need to reset the colorscale // attributes for containers that were linked to invalid color axes var thisFn = function() { delete parentContIn.coloraxis; delete parentContOut.coloraxis; return colorScaleDefaults(parentContIn, parentContOut, layout, coerce, opts); }; if(inTrace) { var colorAxes = layout._colorAxes || {}; var colorAx = coerce(prefix + 'coloraxis'); if(colorAx) { var colorbarVisuals = ( traceIs(parentContOut, 'contour') && Lib.nestedProperty(parentContOut, 'contours.coloring').get() ) || 'heatmap'; var stash = colorAxes[colorAx]; if(stash) { stash[2].push(thisFn); if(stash[0] !== colorbarVisuals) { stash[0] = false; Lib.warn([ 'Ignoring coloraxis:', colorAx, 'setting', 'as it is linked to incompatible colorscales.' ].join(' ')); } } else { // stash: // - colorbar visual 'type' // - colorbar options to help in Colorbar.draw // - list of colorScaleDefaults wrapper functions colorAxes[colorAx] = [colorbarVisuals, parentContOut, [thisFn]]; } return; } } var minIn = containerIn[cLetter + 'min']; var maxIn = containerIn[cLetter + 'max']; var validMinMax = isNumeric(minIn) && isNumeric(maxIn) && (minIn < maxIn); var auto = coerce(prefix + cLetter + 'auto', !validMinMax); if(auto) { coerce(prefix + cLetter + 'mid'); } else { coerce(prefix + cLetter + 'min'); coerce(prefix + cLetter + 'max'); } // handles both the trace case (autocolorscale is false by default) and // the marker and marker.line case (autocolorscale is true by default) var sclIn = containerIn.colorscale; var sclTemplate = template.colorscale; var autoColorscaleDflt; if(sclIn !== undefined) autoColorscaleDflt = !isValidScale(sclIn); if(sclTemplate !== undefined) autoColorscaleDflt = !isValidScale(sclTemplate); coerce(prefix + 'autocolorscale', autoColorscaleDflt); coerce(prefix + 'colorscale'); coerce(prefix + 'reversescale'); if(prefix !== 'marker.line.') { // handles both the trace case where the dflt is listed in attributes and // the marker case where the dflt is determined by hasColorbar var showScaleDflt; if(prefix && inTrace) showScaleDflt = hasColorbar(containerIn); var showScale = coerce(prefix + 'showscale', showScaleDflt); if(showScale) { if(prefix && template) containerOut._template = template; colorbarDefaults(containerIn, containerOut, layout); } } }; },{"../../lib":287,"../../registry":378,"../colorbar/defaults":160,"../colorbar/has_colorbar":162,"./scales":172,"fast-isnumeric":33}],168:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var tinycolor = _dereq_('tinycolor2'); var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var Color = _dereq_('../color'); var isValidScale = _dereq_('./scales').isValid; function hasColorscale(trace, containerStr, colorKey) { var container = containerStr ? Lib.nestedProperty(trace, containerStr).get() || {} : trace; var color = container[colorKey || 'color']; var isArrayWithOneNumber = false; if(Lib.isArrayOrTypedArray(color)) { for(var i = 0; i < color.length; i++) { if(isNumeric(color[i])) { isArrayWithOneNumber = true; break; } } } return ( Lib.isPlainObject(container) && ( isArrayWithOneNumber || container.showscale === true || (isNumeric(container.cmin) && isNumeric(container.cmax)) || isValidScale(container.colorscale) || Lib.isPlainObject(container.colorbar) ) ); } var constantAttrs = ['showscale', 'autocolorscale', 'colorscale', 'reversescale', 'colorbar']; var letterAttrs = ['min', 'max', 'mid', 'auto']; /** * Extract 'c' / 'z', trace / color axis colorscale options * * Note that it would be nice to replace all z* with c* equivalents in v3 * * @param {object} cont : attribute container * @return {object}: * - min: cmin or zmin * - max: cmax or zmax * - mid: cmid or zmid * - auto: cauto or zauto * - *scale: *scale attrs * - colorbar: colorbar * - _sync: function syncing attr and underscore dual (useful when calc'ing min/max) */ function extractOpts(cont) { var colorAx = cont._colorAx; var cont2 = colorAx ? colorAx : cont; var out = {}; var cLetter; var i, k; for(i = 0; i < constantAttrs.length; i++) { k = constantAttrs[i]; out[k] = cont2[k]; } if(colorAx) { cLetter = 'c'; for(i = 0; i < letterAttrs.length; i++) { k = letterAttrs[i]; out[k] = cont2['c' + k]; } } else { var k2; for(i = 0; i < letterAttrs.length; i++) { k = letterAttrs[i]; k2 = 'c' + k; if(k2 in cont2) { out[k] = cont2[k2]; continue; } k2 = 'z' + k; if(k2 in cont2) { out[k] = cont2[k2]; } } cLetter = k2.charAt(0); } out._sync = function(k, v) { var k2 = letterAttrs.indexOf(k) !== -1 ? cLetter + k : k; cont2[k2] = cont2['_' + k2] = v; }; return out; } /** * Extract colorscale into numeric domain and color range. * * @param {object} cont colorscale container (e.g. trace, marker) * - colorscale {array of arrays} * - cmin/zmin {number} * - cmax/zmax {number} * - reversescale {boolean} * * @return {object} * - domain {array} * - range {array} */ function extractScale(cont) { var cOpts = extractOpts(cont); var cmin = cOpts.min; var cmax = cOpts.max; var scl = cOpts.reversescale ? flipScale(cOpts.colorscale) : cOpts.colorscale; var N = scl.length; var domain = new Array(N); var range = new Array(N); for(var i = 0; i < N; i++) { var si = scl[i]; domain[i] = cmin + si[0] * (cmax - cmin); range[i] = si[1]; } return {domain: domain, range: range}; } function flipScale(scl) { var N = scl.length; var sclNew = new Array(N); for(var i = N - 1, j = 0; i >= 0; i--, j++) { var si = scl[i]; sclNew[j] = [1 - si[0], si[1]]; } return sclNew; } /** * General colorscale function generator. * * @param {object} specs output of Colorscale.extractScale or precomputed domain, range. * - domain {array} * - range {array} * * @param {object} opts * - noNumericCheck {boolean} if true, scale func bypasses numeric checks * - returnArray {boolean} if true, scale func return 4-item array instead of color strings * * @return {function} */ function makeColorScaleFunc(specs, opts) { opts = opts || {}; var domain = specs.domain; var range = specs.range; var N = range.length; var _range = new Array(N); for(var i = 0; i < N; i++) { var rgba = tinycolor(range[i]).toRgb(); _range[i] = [rgba.r, rgba.g, rgba.b, rgba.a]; } var _sclFunc = d3.scale.linear() .domain(domain) .range(_range) .clamp(true); var noNumericCheck = opts.noNumericCheck; var returnArray = opts.returnArray; var sclFunc; if(noNumericCheck && returnArray) { sclFunc = _sclFunc; } else if(noNumericCheck) { sclFunc = function(v) { return colorArray2rbga(_sclFunc(v)); }; } else if(returnArray) { sclFunc = function(v) { if(isNumeric(v)) return _sclFunc(v); else if(tinycolor(v).isValid()) return v; else return Color.defaultLine; }; } else { sclFunc = function(v) { if(isNumeric(v)) return colorArray2rbga(_sclFunc(v)); else if(tinycolor(v).isValid()) return v; else return Color.defaultLine; }; } // colorbar draw looks into the d3 scale closure for domain and range sclFunc.domain = _sclFunc.domain; sclFunc.range = function() { return range; }; return sclFunc; } function makeColorScaleFuncFromTrace(trace, opts) { return makeColorScaleFunc(extractScale(trace), opts); } function colorArray2rbga(colorArray) { var colorObj = { r: colorArray[0], g: colorArray[1], b: colorArray[2], a: colorArray[3] }; return tinycolor(colorObj).toRgbString(); } module.exports = { hasColorscale: hasColorscale, extractOpts: extractOpts, extractScale: extractScale, flipScale: flipScale, makeColorScaleFunc: makeColorScaleFunc, makeColorScaleFuncFromTrace: makeColorScaleFuncFromTrace }; },{"../../lib":287,"../color":157,"./scales":172,"@plotly/d3":20,"fast-isnumeric":33,"tinycolor2":121}],169:[function(_dereq_,module,exports){ 'use strict'; var scales = _dereq_('./scales'); var helpers = _dereq_('./helpers'); module.exports = { moduleType: 'component', name: 'colorscale', attributes: _dereq_('./attributes'), layoutAttributes: _dereq_('./layout_attributes'), supplyLayoutDefaults: _dereq_('./layout_defaults'), handleDefaults: _dereq_('./defaults'), crossTraceDefaults: _dereq_('./cross_trace_defaults'), calc: _dereq_('./calc'), // ./scales.js is required in lib/coerce.js ; // it needs to be a separate module to avoid circular a dependency scales: scales.scales, defaultScale: scales.defaultScale, getScale: scales.get, isValidScale: scales.isValid, hasColorscale: helpers.hasColorscale, extractOpts: helpers.extractOpts, extractScale: helpers.extractScale, flipScale: helpers.flipScale, makeColorScaleFunc: helpers.makeColorScaleFunc, makeColorScaleFuncFromTrace: helpers.makeColorScaleFuncFromTrace }; },{"./attributes":164,"./calc":165,"./cross_trace_defaults":166,"./defaults":167,"./helpers":168,"./layout_attributes":170,"./layout_defaults":171,"./scales":172}],170:[function(_dereq_,module,exports){ 'use strict'; var extendFlat = _dereq_('../../lib/extend').extendFlat; var colorScaleAttrs = _dereq_('./attributes'); var scales = _dereq_('./scales').scales; var msg = 'Note that `autocolorscale` must be true for this attribute to work.'; module.exports = { editType: 'calc', colorscale: { editType: 'calc', sequential: { valType: 'colorscale', dflt: scales.Reds, editType: 'calc', }, sequentialminus: { valType: 'colorscale', dflt: scales.Blues, editType: 'calc', }, diverging: { valType: 'colorscale', dflt: scales.RdBu, editType: 'calc', } }, coloraxis: extendFlat({ // not really a 'subplot' attribute container, // but this is the flag we use to denote attributes that // support yaxis, yaxis2, yaxis3, ... counters _isSubplotObj: true, editType: 'calc', }, colorScaleAttrs('', { colorAttr: 'corresponding trace color array(s)', noColorAxis: true, showScaleDflt: true })) }; },{"../../lib/extend":281,"./attributes":164,"./scales":172}],171:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Template = _dereq_('../../plot_api/plot_template'); var colorScaleAttrs = _dereq_('./layout_attributes'); var colorScaleDefaults = _dereq_('./defaults'); module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) { function coerce(attr, dflt) { return Lib.coerce(layoutIn, layoutOut, colorScaleAttrs, attr, dflt); } coerce('colorscale.sequential'); coerce('colorscale.sequentialminus'); coerce('colorscale.diverging'); var colorAxes = layoutOut._colorAxes; var colorAxIn, colorAxOut; function coerceAx(attr, dflt) { return Lib.coerce(colorAxIn, colorAxOut, colorScaleAttrs.coloraxis, attr, dflt); } for(var k in colorAxes) { var stash = colorAxes[k]; if(stash[0]) { colorAxIn = layoutIn[k] || {}; colorAxOut = Template.newContainer(layoutOut, k, 'coloraxis'); colorAxOut._name = k; colorScaleDefaults(colorAxIn, colorAxOut, layoutOut, coerceAx, {prefix: '', cLetter: 'c'}); } else { // re-coerce colorscale attributes w/o coloraxis for(var i = 0; i < stash[2].length; i++) { stash[2][i](); } delete layoutOut._colorAxes[k]; } } }; },{"../../lib":287,"../../plot_api/plot_template":323,"./defaults":167,"./layout_attributes":170}],172:[function(_dereq_,module,exports){ 'use strict'; var tinycolor = _dereq_('tinycolor2'); var scales = { 'Greys': [ [0, 'rgb(0,0,0)'], [1, 'rgb(255,255,255)'] ], 'YlGnBu': [ [0, 'rgb(8,29,88)'], [0.125, 'rgb(37,52,148)'], [0.25, 'rgb(34,94,168)'], [0.375, 'rgb(29,145,192)'], [0.5, 'rgb(65,182,196)'], [0.625, 'rgb(127,205,187)'], [0.75, 'rgb(199,233,180)'], [0.875, 'rgb(237,248,217)'], [1, 'rgb(255,255,217)'] ], 'Greens': [ [0, 'rgb(0,68,27)'], [0.125, 'rgb(0,109,44)'], [0.25, 'rgb(35,139,69)'], [0.375, 'rgb(65,171,93)'], [0.5, 'rgb(116,196,118)'], [0.625, 'rgb(161,217,155)'], [0.75, 'rgb(199,233,192)'], [0.875, 'rgb(229,245,224)'], [1, 'rgb(247,252,245)'] ], 'YlOrRd': [ [0, 'rgb(128,0,38)'], [0.125, 'rgb(189,0,38)'], [0.25, 'rgb(227,26,28)'], [0.375, 'rgb(252,78,42)'], [0.5, 'rgb(253,141,60)'], [0.625, 'rgb(254,178,76)'], [0.75, 'rgb(254,217,118)'], [0.875, 'rgb(255,237,160)'], [1, 'rgb(255,255,204)'] ], 'Bluered': [ [0, 'rgb(0,0,255)'], [1, 'rgb(255,0,0)'] ], // modified RdBu based on // http://www.kennethmoreland.com/color-maps/ 'RdBu': [ [0, 'rgb(5,10,172)'], [0.35, 'rgb(106,137,247)'], [0.5, 'rgb(190,190,190)'], [0.6, 'rgb(220,170,132)'], [0.7, 'rgb(230,145,90)'], [1, 'rgb(178,10,28)'] ], // Scale for non-negative numeric values 'Reds': [ [0, 'rgb(220,220,220)'], [0.2, 'rgb(245,195,157)'], [0.4, 'rgb(245,160,105)'], [1, 'rgb(178,10,28)'] ], // Scale for non-positive numeric values 'Blues': [ [0, 'rgb(5,10,172)'], [0.35, 'rgb(40,60,190)'], [0.5, 'rgb(70,100,245)'], [0.6, 'rgb(90,120,245)'], [0.7, 'rgb(106,137,247)'], [1, 'rgb(220,220,220)'] ], 'Picnic': [ [0, 'rgb(0,0,255)'], [0.1, 'rgb(51,153,255)'], [0.2, 'rgb(102,204,255)'], [0.3, 'rgb(153,204,255)'], [0.4, 'rgb(204,204,255)'], [0.5, 'rgb(255,255,255)'], [0.6, 'rgb(255,204,255)'], [0.7, 'rgb(255,153,255)'], [0.8, 'rgb(255,102,204)'], [0.9, 'rgb(255,102,102)'], [1, 'rgb(255,0,0)'] ], 'Rainbow': [ [0, 'rgb(150,0,90)'], [0.125, 'rgb(0,0,200)'], [0.25, 'rgb(0,25,255)'], [0.375, 'rgb(0,152,255)'], [0.5, 'rgb(44,255,150)'], [0.625, 'rgb(151,255,0)'], [0.75, 'rgb(255,234,0)'], [0.875, 'rgb(255,111,0)'], [1, 'rgb(255,0,0)'] ], 'Portland': [ [0, 'rgb(12,51,131)'], [0.25, 'rgb(10,136,186)'], [0.5, 'rgb(242,211,56)'], [0.75, 'rgb(242,143,56)'], [1, 'rgb(217,30,30)'] ], 'Jet': [ [0, 'rgb(0,0,131)'], [0.125, 'rgb(0,60,170)'], [0.375, 'rgb(5,255,255)'], [0.625, 'rgb(255,255,0)'], [0.875, 'rgb(250,0,0)'], [1, 'rgb(128,0,0)'] ], 'Hot': [ [0, 'rgb(0,0,0)'], [0.3, 'rgb(230,0,0)'], [0.6, 'rgb(255,210,0)'], [1, 'rgb(255,255,255)'] ], 'Blackbody': [ [0, 'rgb(0,0,0)'], [0.2, 'rgb(230,0,0)'], [0.4, 'rgb(230,210,0)'], [0.7, 'rgb(255,255,255)'], [1, 'rgb(160,200,255)'] ], 'Earth': [ [0, 'rgb(0,0,130)'], [0.1, 'rgb(0,180,180)'], [0.2, 'rgb(40,210,40)'], [0.4, 'rgb(230,230,50)'], [0.6, 'rgb(120,70,20)'], [1, 'rgb(255,255,255)'] ], 'Electric': [ [0, 'rgb(0,0,0)'], [0.15, 'rgb(30,0,100)'], [0.4, 'rgb(120,0,100)'], [0.6, 'rgb(160,90,0)'], [0.8, 'rgb(230,200,0)'], [1, 'rgb(255,250,220)'] ], 'Viridis': [ [0, '#440154'], [0.06274509803921569, '#48186a'], [0.12549019607843137, '#472d7b'], [0.18823529411764706, '#424086'], [0.25098039215686274, '#3b528b'], [0.3137254901960784, '#33638d'], [0.3764705882352941, '#2c728e'], [0.4392156862745098, '#26828e'], [0.5019607843137255, '#21918c'], [0.5647058823529412, '#1fa088'], [0.6274509803921569, '#28ae80'], [0.6901960784313725, '#3fbc73'], [0.7529411764705882, '#5ec962'], [0.8156862745098039, '#84d44b'], [0.8784313725490196, '#addc30'], [0.9411764705882353, '#d8e219'], [1, '#fde725'] ], 'Cividis': [ [0.000000, 'rgb(0,32,76)'], [0.058824, 'rgb(0,42,102)'], [0.117647, 'rgb(0,52,110)'], [0.176471, 'rgb(39,63,108)'], [0.235294, 'rgb(60,74,107)'], [0.294118, 'rgb(76,85,107)'], [0.352941, 'rgb(91,95,109)'], [0.411765, 'rgb(104,106,112)'], [0.470588, 'rgb(117,117,117)'], [0.529412, 'rgb(131,129,120)'], [0.588235, 'rgb(146,140,120)'], [0.647059, 'rgb(161,152,118)'], [0.705882, 'rgb(176,165,114)'], [0.764706, 'rgb(192,177,109)'], [0.823529, 'rgb(209,191,102)'], [0.882353, 'rgb(225,204,92)'], [0.941176, 'rgb(243,219,79)'], [1.000000, 'rgb(255,233,69)'] ] }; var defaultScale = scales.RdBu; function getScale(scl, dflt) { if(!dflt) dflt = defaultScale; if(!scl) return dflt; function parseScale() { try { scl = scales[scl] || JSON.parse(scl); } catch(e) { scl = dflt; } } if(typeof scl === 'string') { parseScale(); // occasionally scl is double-JSON encoded... if(typeof scl === 'string') parseScale(); } if(!isValidScaleArray(scl)) return dflt; return scl; } function isValidScaleArray(scl) { var highestVal = 0; if(!Array.isArray(scl) || scl.length < 2) return false; if(!scl[0] || !scl[scl.length - 1]) return false; if(+scl[0][0] !== 0 || +scl[scl.length - 1][0] !== 1) return false; for(var i = 0; i < scl.length; i++) { var si = scl[i]; if(si.length !== 2 || +si[0] < highestVal || !tinycolor(si[1]).isValid()) { return false; } highestVal = +si[0]; } return true; } function isValidScale(scl) { if(scales[scl] !== undefined) return true; else return isValidScaleArray(scl); } module.exports = { scales: scales, defaultScale: defaultScale, get: getScale, isValid: isValidScale }; },{"tinycolor2":121}],173:[function(_dereq_,module,exports){ 'use strict'; // for automatic alignment on dragging, <1/3 means left align, // >2/3 means right, and between is center. Pick the right fraction // based on where you are, and return the fraction corresponding to // that position on the object module.exports = function align(v, dv, v0, v1, anchor) { var vmin = (v - v0) / (v1 - v0); var vmax = vmin + dv / (v1 - v0); var vc = (vmin + vmax) / 2; // explicitly specified anchor if(anchor === 'left' || anchor === 'bottom') return vmin; if(anchor === 'center' || anchor === 'middle') return vc; if(anchor === 'right' || anchor === 'top') return vmax; // automatic based on position if(vmin < (2 / 3) - vc) return vmin; if(vmax > (4 / 3) - vc) return vmax; return vc; }; },{}],174:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); // set cursors pointing toward the closest corner/side, // to indicate alignment // x and y are 0-1, fractions of the plot area var cursorset = [ ['sw-resize', 's-resize', 'se-resize'], ['w-resize', 'move', 'e-resize'], ['nw-resize', 'n-resize', 'ne-resize'] ]; module.exports = function getCursor(x, y, xanchor, yanchor) { if(xanchor === 'left') x = 0; else if(xanchor === 'center') x = 1; else if(xanchor === 'right') x = 2; else x = Lib.constrain(Math.floor(x * 3), 0, 2); if(yanchor === 'bottom') y = 0; else if(yanchor === 'middle') y = 1; else if(yanchor === 'top') y = 2; else y = Lib.constrain(Math.floor(y * 3), 0, 2); return cursorset[y][x]; }; },{"../../lib":287}],175:[function(_dereq_,module,exports){ 'use strict'; exports.selectMode = function(dragmode) { return ( dragmode === 'lasso' || dragmode === 'select' ); }; exports.drawMode = function(dragmode) { return ( dragmode === 'drawclosedpath' || dragmode === 'drawopenpath' || dragmode === 'drawline' || dragmode === 'drawrect' || dragmode === 'drawcircle' ); }; exports.openMode = function(dragmode) { return ( dragmode === 'drawline' || dragmode === 'drawopenpath' ); }; exports.rectMode = function(dragmode) { return ( dragmode === 'select' || dragmode === 'drawline' || dragmode === 'drawrect' || dragmode === 'drawcircle' ); }; exports.freeMode = function(dragmode) { return ( dragmode === 'lasso' || dragmode === 'drawclosedpath' || dragmode === 'drawopenpath' ); }; exports.selectingOrDrawing = function(dragmode) { return ( exports.freeMode(dragmode) || exports.rectMode(dragmode) ); }; },{}],176:[function(_dereq_,module,exports){ 'use strict'; var mouseOffset = _dereq_('mouse-event-offset'); var hasHover = _dereq_('has-hover'); var supportsPassive = _dereq_('has-passive-events'); var removeElement = _dereq_('../../lib').removeElement; var constants = _dereq_('../../plots/cartesian/constants'); var dragElement = module.exports = {}; dragElement.align = _dereq_('./align'); dragElement.getCursor = _dereq_('./cursor'); var unhover = _dereq_('./unhover'); dragElement.unhover = unhover.wrapped; dragElement.unhoverRaw = unhover.raw; /** * Abstracts click & drag interactions * * During the interaction, a "coverSlip" element - a transparent * div covering the whole page - is created, which has two key effects: * - Lets you drag beyond the boundaries of the plot itself without * dropping (but if you drag all the way out of the browser window the * interaction will end) * - Freezes the cursor: whatever mouse cursor the drag element had when the * interaction started gets copied to the coverSlip for use until mouseup * * If the user executes a drag bigger than MINDRAG, callbacks will fire as: * prepFn, moveFn (1 or more times), doneFn * If the user does not drag enough, prepFn and clickFn will fire. * * Note: If you cancel contextmenu, clickFn will fire even with a right click * (unlike native events) so you'll get a `plotly_click` event. Cancel context eg: * gd.addEventListener('contextmenu', function(e) { e.preventDefault(); }); * TODO: we should probably turn this into a `config` parameter, so we can fix it * such that if you *don't* cancel contextmenu, we can prevent partial drags, which * put you in a weird state. * * If the user clicks multiple times quickly, clickFn will fire each time * but numClicks will increase to help you recognize doubleclicks. * * @param {object} options with keys: * element (required) the DOM element to drag * prepFn (optional) function(event, startX, startY) * executed on mousedown * startX and startY are the clientX and clientY pixel position * of the mousedown event * moveFn (optional) function(dx, dy) * executed on move, ONLY after we've exceeded MINDRAG * (we keep executing moveFn if you move back to where you started) * dx and dy are the net pixel offset of the drag, * dragged is true/false, has the mouse moved enough to * constitute a drag * doneFn (optional) function(e) * executed on mouseup, ONLY if we exceeded MINDRAG (so you can be * sure that moveFn has been called at least once) * numClicks is how many clicks we've registered within * a doubleclick time * e is the original mouseup event * clickFn (optional) function(numClicks, e) * executed on mouseup if we have NOT exceeded MINDRAG (ie moveFn * has not been called at all) * numClicks is how many clicks we've registered within * a doubleclick time * e is the original mousedown event * clampFn (optional, function(dx, dy) return [dx2, dy2]) * Provide custom clamping function for small displacements. * By default, clamping is done using `minDrag` to x and y displacements * independently. */ dragElement.init = function init(options) { var gd = options.gd; var numClicks = 1; var doubleClickDelay = gd._context.doubleClickDelay; var element = options.element; var startX, startY, newMouseDownTime, cursor, dragCover, initialEvent, initialTarget, rightClick; if(!gd._mouseDownTime) gd._mouseDownTime = 0; element.style.pointerEvents = 'all'; element.onmousedown = onStart; if(!supportsPassive) { element.ontouchstart = onStart; } else { if(element._ontouchstart) { element.removeEventListener('touchstart', element._ontouchstart); } element._ontouchstart = onStart; element.addEventListener('touchstart', onStart, {passive: false}); } function _clampFn(dx, dy, minDrag) { if(Math.abs(dx) < minDrag) dx = 0; if(Math.abs(dy) < minDrag) dy = 0; return [dx, dy]; } var clampFn = options.clampFn || _clampFn; function onStart(e) { // make dragging and dragged into properties of gd // so that others can look at and modify them gd._dragged = false; gd._dragging = true; var offset = pointerOffset(e); startX = offset[0]; startY = offset[1]; initialTarget = e.target; initialEvent = e; rightClick = e.buttons === 2 || e.ctrlKey; // fix Fx.hover for touch events if(typeof e.clientX === 'undefined' && typeof e.clientY === 'undefined') { e.clientX = startX; e.clientY = startY; } newMouseDownTime = (new Date()).getTime(); if(newMouseDownTime - gd._mouseDownTime < doubleClickDelay) { // in a click train numClicks += 1; } else { // new click train numClicks = 1; gd._mouseDownTime = newMouseDownTime; } if(options.prepFn) options.prepFn(e, startX, startY); if(hasHover && !rightClick) { dragCover = coverSlip(); dragCover.style.cursor = window.getComputedStyle(element).cursor; } else if(!hasHover) { // document acts as a dragcover for mobile, bc we can't create dragcover dynamically dragCover = document; cursor = window.getComputedStyle(document.documentElement).cursor; document.documentElement.style.cursor = window.getComputedStyle(element).cursor; } document.addEventListener('mouseup', onDone); document.addEventListener('touchend', onDone); if(options.dragmode !== false) { e.preventDefault(); document.addEventListener('mousemove', onMove); document.addEventListener('touchmove', onMove, {passive: false}); } return; } function onMove(e) { e.preventDefault(); var offset = pointerOffset(e); var minDrag = options.minDrag || constants.MINDRAG; var dxdy = clampFn(offset[0] - startX, offset[1] - startY, minDrag); var dx = dxdy[0]; var dy = dxdy[1]; if(dx || dy) { gd._dragged = true; dragElement.unhover(gd, e); } if(gd._dragged && options.moveFn && !rightClick) { gd._dragdata = { element: element, dx: dx, dy: dy }; options.moveFn(dx, dy); } return; } function onDone(e) { delete gd._dragdata; if(options.dragmode !== false) { e.preventDefault(); document.removeEventListener('mousemove', onMove); document.removeEventListener('touchmove', onMove); } document.removeEventListener('mouseup', onDone); document.removeEventListener('touchend', onDone); if(hasHover) { removeElement(dragCover); } else if(cursor) { dragCover.documentElement.style.cursor = cursor; cursor = null; } if(!gd._dragging) { gd._dragged = false; return; } gd._dragging = false; // don't count as a dblClick unless the mouseUp is also within // the dblclick delay if((new Date()).getTime() - gd._mouseDownTime > doubleClickDelay) { numClicks = Math.max(numClicks - 1, 1); } if(gd._dragged) { if(options.doneFn) options.doneFn(); } else { if(options.clickFn) options.clickFn(numClicks, initialEvent); // If we haven't dragged, this should be a click. But because of the // coverSlip changing the element, the natural system might not generate one, // so we need to make our own. But right clicks don't normally generate // click events, only contextmenu events, which happen on mousedown. if(!rightClick) { var e2; try { e2 = new MouseEvent('click', e); } catch(err) { var offset = pointerOffset(e); e2 = document.createEvent('MouseEvents'); e2.initMouseEvent('click', e.bubbles, e.cancelable, e.view, e.detail, e.screenX, e.screenY, offset[0], offset[1], e.ctrlKey, e.altKey, e.shiftKey, e.metaKey, e.button, e.relatedTarget); } initialTarget.dispatchEvent(e2); } } gd._dragging = false; gd._dragged = false; return; } }; function coverSlip() { var cover = document.createElement('div'); cover.className = 'dragcover'; var cStyle = cover.style; cStyle.position = 'fixed'; cStyle.left = 0; cStyle.right = 0; cStyle.top = 0; cStyle.bottom = 0; cStyle.zIndex = 999999999; cStyle.background = 'none'; document.body.appendChild(cover); return cover; } dragElement.coverSlip = coverSlip; function pointerOffset(e) { return mouseOffset( e.changedTouches ? e.changedTouches[0] : e, document.body ); } },{"../../lib":287,"../../plots/cartesian/constants":341,"./align":173,"./cursor":174,"./unhover":177,"has-hover":64,"has-passive-events":65,"mouse-event-offset":71}],177:[function(_dereq_,module,exports){ 'use strict'; var Events = _dereq_('../../lib/events'); var throttle = _dereq_('../../lib/throttle'); var getGraphDiv = _dereq_('../../lib/dom').getGraphDiv; var hoverConstants = _dereq_('../fx/constants'); var unhover = module.exports = {}; unhover.wrapped = function(gd, evt, subplot) { gd = getGraphDiv(gd); // Important, clear any queued hovers if(gd._fullLayout) { throttle.clear(gd._fullLayout._uid + hoverConstants.HOVERID); } unhover.raw(gd, evt, subplot); }; // remove hover effects on mouse out, and emit unhover event unhover.raw = function raw(gd, evt) { var fullLayout = gd._fullLayout; var oldhoverdata = gd._hoverdata; if(!evt) evt = {}; if(evt.target && !gd._dragged && Events.triggerHandler(gd, 'plotly_beforehover', evt) === false) { return; } fullLayout._hoverlayer.selectAll('g').remove(); fullLayout._hoverlayer.selectAll('line').remove(); fullLayout._hoverlayer.selectAll('circle').remove(); gd._hoverdata = undefined; if(evt.target && oldhoverdata) { gd.emit('plotly_unhover', { event: evt, points: oldhoverdata }); } }; },{"../../lib/dom":279,"../../lib/events":280,"../../lib/throttle":311,"../fx/constants":191}],178:[function(_dereq_,module,exports){ 'use strict'; exports.dash = { valType: 'string', // string type usually doesn't take values... this one should really be // a special type or at least a special coercion function, from the GUI // you only get these values but elsewhere the user can supply a list of // dash lengths in px, and it will be honored values: ['solid', 'dot', 'dash', 'longdash', 'dashdot', 'longdashdot'], dflt: 'solid', editType: 'style', }; exports.pattern = { shape: { valType: 'enumerated', values: ['', '/', '\\', 'x', '-', '|', '+', '.'], dflt: '', arrayOk: true, editType: 'style', }, fillmode: { valType: 'enumerated', values: ['replace', 'overlay'], dflt: 'replace', editType: 'style', }, bgcolor: { valType: 'color', arrayOk: true, editType: 'style', }, fgcolor: { valType: 'color', arrayOk: true, editType: 'style', }, fgopacity: { valType: 'number', editType: 'style', min: 0, max: 1, }, size: { valType: 'number', min: 0, dflt: 8, arrayOk: true, editType: 'style', }, solidity: { valType: 'number', min: 0, max: 1, dflt: 0.3, arrayOk: true, editType: 'style', }, editType: 'style', }; },{}],179:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); var numberFormat = Lib.numberFormat; var isNumeric = _dereq_('fast-isnumeric'); var tinycolor = _dereq_('tinycolor2'); var Registry = _dereq_('../../registry'); var Color = _dereq_('../color'); var Colorscale = _dereq_('../colorscale'); var strTranslate = Lib.strTranslate; var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces'); var alignment = _dereq_('../../constants/alignment'); var LINE_SPACING = alignment.LINE_SPACING; var DESELECTDIM = _dereq_('../../constants/interactions').DESELECTDIM; var subTypes = _dereq_('../../traces/scatter/subtypes'); var makeBubbleSizeFn = _dereq_('../../traces/scatter/make_bubble_size_func'); var appendArrayPointValue = _dereq_('../../components/fx/helpers').appendArrayPointValue; var drawing = module.exports = {}; // ----------------------------------------------------- // styling functions for plot elements // ----------------------------------------------------- drawing.font = function(s, family, size, color) { // also allow the form font(s, {family, size, color}) if(Lib.isPlainObject(family)) { color = family.color; size = family.size; family = family.family; } if(family) s.style('font-family', family); if(size + 1) s.style('font-size', size + 'px'); if(color) s.call(Color.fill, color); }; /* * Positioning helpers * Note: do not use `setPosition` with nodes modified by * `svgTextUtils.convertToTspans`. Use `svgTextUtils.positionText` * instead, so that elements get updated to match. */ drawing.setPosition = function(s, x, y) { s.attr('x', x).attr('y', y); }; drawing.setSize = function(s, w, h) { s.attr('width', w).attr('height', h); }; drawing.setRect = function(s, x, y, w, h) { s.call(drawing.setPosition, x, y).call(drawing.setSize, w, h); }; /** Translate node * * @param {object} d : calcdata point item * @param {sel} sel : d3 selction of node to translate * @param {object} xa : corresponding full xaxis object * @param {object} ya : corresponding full yaxis object * * @return {boolean} : * true if selection got translated * false if selection could not get translated */ drawing.translatePoint = function(d, sel, xa, ya) { var x = xa.c2p(d.x); var y = ya.c2p(d.y); if(isNumeric(x) && isNumeric(y) && sel.node()) { // for multiline text this works better if(sel.node().nodeName === 'text') { sel.attr('x', x).attr('y', y); } else { sel.attr('transform', strTranslate(x, y)); } } else { return false; } return true; }; drawing.translatePoints = function(s, xa, ya) { s.each(function(d) { var sel = d3.select(this); drawing.translatePoint(d, sel, xa, ya); }); }; drawing.hideOutsideRangePoint = function(d, sel, xa, ya, xcalendar, ycalendar) { sel.attr( 'display', (xa.isPtWithinRange(d, xcalendar) && ya.isPtWithinRange(d, ycalendar)) ? null : 'none' ); }; drawing.hideOutsideRangePoints = function(traceGroups, subplot) { if(!subplot._hasClipOnAxisFalse) return; var xa = subplot.xaxis; var ya = subplot.yaxis; traceGroups.each(function(d) { var trace = d[0].trace; var xcalendar = trace.xcalendar; var ycalendar = trace.ycalendar; var selector = Registry.traceIs(trace, 'bar-like') ? '.bartext' : '.point,.textpoint'; traceGroups.selectAll(selector).each(function(d) { drawing.hideOutsideRangePoint(d, d3.select(this), xa, ya, xcalendar, ycalendar); }); }); }; drawing.crispRound = function(gd, lineWidth, dflt) { // for lines that disable antialiasing we want to // make sure the width is an integer, and at least 1 if it's nonzero if(!lineWidth || !isNumeric(lineWidth)) return dflt || 0; // but not for static plots - these don't get antialiased anyway. if(gd._context.staticPlot) return lineWidth; if(lineWidth < 1) return 1; return Math.round(lineWidth); }; drawing.singleLineStyle = function(d, s, lw, lc, ld) { s.style('fill', 'none'); var line = (((d || [])[0] || {}).trace || {}).line || {}; var lw1 = lw || line.width || 0; var dash = ld || line.dash || ''; Color.stroke(s, lc || line.color); drawing.dashLine(s, dash, lw1); }; drawing.lineGroupStyle = function(s, lw, lc, ld) { s.style('fill', 'none') .each(function(d) { var line = (((d || [])[0] || {}).trace || {}).line || {}; var lw1 = lw || line.width || 0; var dash = ld || line.dash || ''; d3.select(this) .call(Color.stroke, lc || line.color) .call(drawing.dashLine, dash, lw1); }); }; drawing.dashLine = function(s, dash, lineWidth) { lineWidth = +lineWidth || 0; dash = drawing.dashStyle(dash, lineWidth); s.style({ 'stroke-dasharray': dash, 'stroke-width': lineWidth + 'px' }); }; drawing.dashStyle = function(dash, lineWidth) { lineWidth = +lineWidth || 1; var dlw = Math.max(lineWidth, 3); if(dash === 'solid') dash = ''; else if(dash === 'dot') dash = dlw + 'px,' + dlw + 'px'; else if(dash === 'dash') dash = (3 * dlw) + 'px,' + (3 * dlw) + 'px'; else if(dash === 'longdash') dash = (5 * dlw) + 'px,' + (5 * dlw) + 'px'; else if(dash === 'dashdot') { dash = (3 * dlw) + 'px,' + dlw + 'px,' + dlw + 'px,' + dlw + 'px'; } else if(dash === 'longdashdot') { dash = (5 * dlw) + 'px,' + (2 * dlw) + 'px,' + dlw + 'px,' + (2 * dlw) + 'px'; } // otherwise user wrote the dasharray themselves - leave it be return dash; }; function setFillStyle(sel, trace, gd) { var markerPattern = trace.fillpattern; var patternShape = markerPattern && drawing.getPatternAttr(markerPattern.shape, 0, ''); if(patternShape) { var patternBGColor = drawing.getPatternAttr(markerPattern.bgcolor, 0, null); var patternFGColor = drawing.getPatternAttr(markerPattern.fgcolor, 0, null); var patternFGOpacity = markerPattern.fgopacity; var patternSize = drawing.getPatternAttr(markerPattern.size, 0, 8); var patternSolidity = drawing.getPatternAttr(markerPattern.solidity, 0, 0.3); var patternID = trace.uid; drawing.pattern(sel, 'point', gd, patternID, patternShape, patternSize, patternSolidity, undefined, markerPattern.fillmode, patternBGColor, patternFGColor, patternFGOpacity ); } else if(trace.fillcolor) { sel.call(Color.fill, trace.fillcolor); } } // Same as fillGroupStyle, except in this case the selection may be a transition drawing.singleFillStyle = function(sel, gd) { var node = d3.select(sel.node()); var data = node.data(); var trace = ((data[0] || [])[0] || {}).trace || {}; setFillStyle(sel, trace, gd); }; drawing.fillGroupStyle = function(s, gd) { s.style('stroke-width', 0) .each(function(d) { var shape = d3.select(this); // N.B. 'd' won't be a calcdata item when // fill !== 'none' on a segment-less and marker-less trace if(d[0].trace) { setFillStyle(shape, d[0].trace, gd); } }); }; var SYMBOLDEFS = _dereq_('./symbol_defs'); drawing.symbolNames = []; drawing.symbolFuncs = []; drawing.symbolNeedLines = {}; drawing.symbolNoDot = {}; drawing.symbolNoFill = {}; drawing.symbolList = []; Object.keys(SYMBOLDEFS).forEach(function(k) { var symDef = SYMBOLDEFS[k]; var n = symDef.n; drawing.symbolList.push( n, String(n), k, n + 100, String(n + 100), k + '-open' ); drawing.symbolNames[n] = k; drawing.symbolFuncs[n] = symDef.f; if(symDef.needLine) { drawing.symbolNeedLines[n] = true; } if(symDef.noDot) { drawing.symbolNoDot[n] = true; } else { drawing.symbolList.push( n + 200, String(n + 200), k + '-dot', n + 300, String(n + 300), k + '-open-dot' ); } if(symDef.noFill) { drawing.symbolNoFill[n] = true; } }); var MAXSYMBOL = drawing.symbolNames.length; // add a dot in the middle of the symbol var DOTPATH = 'M0,0.5L0.5,0L0,-0.5L-0.5,0Z'; drawing.symbolNumber = function(v) { if(isNumeric(v)) { v = +v; } else if(typeof v === 'string') { var vbase = 0; if(v.indexOf('-open') > 0) { vbase = 100; v = v.replace('-open', ''); } if(v.indexOf('-dot') > 0) { vbase += 200; v = v.replace('-dot', ''); } v = drawing.symbolNames.indexOf(v); if(v >= 0) { v += vbase; } } return (v % 100 >= MAXSYMBOL || v >= 400) ? 0 : Math.floor(Math.max(v, 0)); }; function makePointPath(symbolNumber, r) { var base = symbolNumber % 100; return drawing.symbolFuncs[base](r) + (symbolNumber >= 200 ? DOTPATH : ''); } var HORZGRADIENT = {x1: 1, x2: 0, y1: 0, y2: 0}; var VERTGRADIENT = {x1: 0, x2: 0, y1: 1, y2: 0}; var stopFormatter = numberFormat('~f'); var gradientInfo = { radial: {node: 'radialGradient'}, radialreversed: {node: 'radialGradient', reversed: true}, horizontal: {node: 'linearGradient', attrs: HORZGRADIENT}, horizontalreversed: {node: 'linearGradient', attrs: HORZGRADIENT, reversed: true}, vertical: {node: 'linearGradient', attrs: VERTGRADIENT}, verticalreversed: {node: 'linearGradient', attrs: VERTGRADIENT, reversed: true} }; /** * gradient: create and apply a gradient fill * * @param {object} sel: d3 selection to apply this gradient to * You can use `selection.call(Drawing.gradient, ...)` * @param {DOM element} gd: the graph div `sel` is part of * @param {string} gradientID: a unique (within this plot) identifier * for this gradient, so that we don't create unnecessary definitions * @param {string} type: 'radial', 'horizontal', or 'vertical', optionally with * 'reversed' at the end. Normally radial goes center to edge, * horizontal goes right to left, and vertical goes bottom to top * @param {array} colorscale: as in attribute values, [[fraction, color], ...] * @param {string} prop: the property to apply to, 'fill' or 'stroke' */ drawing.gradient = function(sel, gd, gradientID, type, colorscale, prop) { var len = colorscale.length; var info = gradientInfo[type]; var colorStops = new Array(len); for(var i = 0; i < len; i++) { if(info.reversed) { colorStops[len - 1 - i] = [stopFormatter((1 - colorscale[i][0]) * 100), colorscale[i][1]]; } else { colorStops[i] = [stopFormatter(colorscale[i][0] * 100), colorscale[i][1]]; } } var fullLayout = gd._fullLayout; var fullID = 'g' + fullLayout._uid + '-' + gradientID; var gradient = fullLayout._defs.select('.gradients') .selectAll('#' + fullID) .data([type + colorStops.join(';')], Lib.identity); gradient.exit().remove(); gradient.enter() .append(info.node) .each(function() { var el = d3.select(this); if(info.attrs) el.attr(info.attrs); el.attr('id', fullID); var stops = el.selectAll('stop') .data(colorStops); stops.exit().remove(); stops.enter().append('stop'); stops.each(function(d) { var tc = tinycolor(d[1]); d3.select(this).attr({ offset: d[0] + '%', 'stop-color': Color.tinyRGB(tc), 'stop-opacity': tc.getAlpha() }); }); }); sel.style(prop, getFullUrl(fullID, gd)) .style(prop + '-opacity', null); sel.classed('gradient_filled', true); }; /** * pattern: create and apply a pattern fill * * @param {object} sel: d3 selection to apply this pattern to * You can use `selection.call(Drawing.pattern, ...)` * @param {string} calledBy: option to know the caller component * @param {DOM element} gd: the graph div `sel` is part of * @param {string} patternID: a unique (within this plot) identifier * for this pattern, so that we don't create unnecessary definitions * @param {number} size: size of unit squares for repetition of this pattern * @param {number} solidity: how solid lines of this pattern are * @param {string} mcc: color when painted with colorscale * @param {string} fillmode: fillmode for this pattern * @param {string} bgcolor: background color for this pattern * @param {string} fgcolor: foreground color for this pattern * @param {number} fgopacity: foreground opacity for this pattern */ drawing.pattern = function(sel, calledBy, gd, patternID, shape, size, solidity, mcc, fillmode, bgcolor, fgcolor, fgopacity) { var isLegend = calledBy === 'legend'; if(mcc) { if(fillmode === 'overlay') { bgcolor = mcc; fgcolor = Color.contrast(bgcolor); } else { bgcolor = undefined; fgcolor = mcc; } } var fullLayout = gd._fullLayout; var fullID = 'p' + fullLayout._uid + '-' + patternID; var width, height; // linear interpolation var linearFn = function(x, x0, x1, y0, y1) { return y0 + (y1 - y0) * (x - x0) / (x1 - x0); }; var path, linewidth, radius; var patternTag; var patternAttrs = {}; switch(shape) { case '/': width = size * Math.sqrt(2); height = size * Math.sqrt(2); path = 'M-' + (width / 4) + ',' + (height / 4) + 'l' + (width / 2) + ',-' + (height / 2) + 'M0,' + height + 'L' + width + ',0' + 'M' + (width / 4 * 3) + ',' + (height / 4 * 5) + 'l' + (width / 2) + ',-' + (height / 2); linewidth = solidity * size; patternTag = 'path'; patternAttrs = { 'd': path, 'opacity': fgopacity, 'stroke': fgcolor, 'stroke-width': linewidth + 'px' }; break; case '\\': width = size * Math.sqrt(2); height = size * Math.sqrt(2); path = 'M' + (width / 4 * 3) + ',-' + (height / 4) + 'l' + (width / 2) + ',' + (height / 2) + 'M0,0L' + width + ',' + height + 'M-' + (width / 4) + ',' + (height / 4 * 3) + 'l' + (width / 2) + ',' + (height / 2); linewidth = solidity * size; patternTag = 'path'; patternAttrs = { 'd': path, 'opacity': fgopacity, 'stroke': fgcolor, 'stroke-width': linewidth + 'px' }; break; case 'x': width = size * Math.sqrt(2); height = size * Math.sqrt(2); path = 'M-' + (width / 4) + ',' + (height / 4) + 'l' + (width / 2) + ',-' + (height / 2) + 'M0,' + height + 'L' + width + ',0' + 'M' + (width / 4 * 3) + ',' + (height / 4 * 5) + 'l' + (width / 2) + ',-' + (height / 2) + 'M' + (width / 4 * 3) + ',-' + (height / 4) + 'l' + (width / 2) + ',' + (height / 2) + 'M0,0L' + width + ',' + height + 'M-' + (width / 4) + ',' + (height / 4 * 3) + 'l' + (width / 2) + ',' + (height / 2); linewidth = size - size * Math.sqrt(1.0 - solidity); patternTag = 'path'; patternAttrs = { 'd': path, 'opacity': fgopacity, 'stroke': fgcolor, 'stroke-width': linewidth + 'px' }; break; case '|': width = size; height = size; patternTag = 'path'; path = 'M' + (width / 2) + ',0L' + (width / 2) + ',' + height; linewidth = solidity * size; patternTag = 'path'; patternAttrs = { 'd': path, 'opacity': fgopacity, 'stroke': fgcolor, 'stroke-width': linewidth + 'px' }; break; case '-': width = size; height = size; patternTag = 'path'; path = 'M0,' + (height / 2) + 'L' + width + ',' + (height / 2); linewidth = solidity * size; patternTag = 'path'; patternAttrs = { 'd': path, 'opacity': fgopacity, 'stroke': fgcolor, 'stroke-width': linewidth + 'px' }; break; case '+': width = size; height = size; patternTag = 'path'; path = 'M' + (width / 2) + ',0L' + (width / 2) + ',' + height + 'M0,' + (height / 2) + 'L' + width + ',' + (height / 2); linewidth = size - size * Math.sqrt(1.0 - solidity); patternTag = 'path'; patternAttrs = { 'd': path, 'opacity': fgopacity, 'stroke': fgcolor, 'stroke-width': linewidth + 'px' }; break; case '.': width = size; height = size; if(solidity < Math.PI / 4) { radius = Math.sqrt(solidity * size * size / Math.PI); } else { radius = linearFn(solidity, Math.PI / 4, 1.0, size / 2, size / Math.sqrt(2)); } patternTag = 'circle'; patternAttrs = { 'cx': width / 2, 'cy': height / 2, 'r': radius, 'opacity': fgopacity, 'fill': fgcolor }; break; } var str = [ shape || 'noSh', bgcolor || 'noBg', fgcolor || 'noFg', size, solidity ].join(';'); var pattern = fullLayout._defs.select('.patterns') .selectAll('#' + fullID) .data([str], Lib.identity); pattern.exit().remove(); pattern.enter() .append('pattern') .each(function() { var el = d3.select(this); el.attr({ 'id': fullID, 'width': width + 'px', 'height': height + 'px', 'patternUnits': 'userSpaceOnUse', // for legends scale down patterns just a bit so that default size (i.e 8) nicely fit in small icons 'patternTransform': isLegend ? 'scale(0.8)' : '' }); if(bgcolor) { var rects = el.selectAll('rect').data([0]); rects.exit().remove(); rects.enter() .append('rect') .attr({ 'width': width + 'px', 'height': height + 'px', 'fill': bgcolor }); } var patterns = el.selectAll(patternTag).data([0]); patterns.exit().remove(); patterns.enter() .append(patternTag) .attr(patternAttrs); }); sel.style('fill', getFullUrl(fullID, gd)) .style('fill-opacity', null); sel.classed('pattern_filled', true); }; /* * Make the gradients container and clear out any previous gradients. * We never collect all the gradients we need in one place, * so we can't ever remove gradients that have stopped being useful, * except all at once before a full redraw. * The upside of this is arbitrary points can share gradient defs */ drawing.initGradients = function(gd) { var fullLayout = gd._fullLayout; var gradientsGroup = Lib.ensureSingle(fullLayout._defs, 'g', 'gradients'); gradientsGroup.selectAll('linearGradient,radialGradient').remove(); d3.select(gd).selectAll('.gradient_filled').classed('gradient_filled', false); }; drawing.initPatterns = function(gd) { var fullLayout = gd._fullLayout; var patternsGroup = Lib.ensureSingle(fullLayout._defs, 'g', 'patterns'); patternsGroup.selectAll('pattern').remove(); d3.select(gd).selectAll('.pattern_filled').classed('pattern_filled', false); }; drawing.getPatternAttr = function(mp, i, dflt) { if(mp && Lib.isArrayOrTypedArray(mp)) { return i < mp.length ? mp[i] : dflt; } return mp; }; drawing.pointStyle = function(s, trace, gd) { if(!s.size()) return; var fns = drawing.makePointStyleFns(trace); s.each(function(d) { drawing.singlePointStyle(d, d3.select(this), trace, fns, gd); }); }; drawing.singlePointStyle = function(d, sel, trace, fns, gd) { var marker = trace.marker; var markerLine = marker.line; sel.style('opacity', fns.selectedOpacityFn ? fns.selectedOpacityFn(d) : (d.mo === undefined ? marker.opacity : d.mo) ); if(fns.ms2mrc) { var r; // handle multi-trace graph edit case if(d.ms === 'various' || marker.size === 'various') { r = 3; } else { r = fns.ms2mrc(d.ms); } // store the calculated size so hover can use it d.mrc = r; if(fns.selectedSizeFn) { r = d.mrc = fns.selectedSizeFn(d); } // turn the symbol into a sanitized number var x = drawing.symbolNumber(d.mx || marker.symbol) || 0; // save if this marker is open // because that impacts how to handle colors d.om = x % 200 >= 100; sel.attr('d', makePointPath(x, r)); } var perPointGradient = false; var fillColor, lineColor, lineWidth; // 'so' is suspected outliers, for box plots if(d.so) { lineWidth = markerLine.outlierwidth; lineColor = markerLine.outliercolor; fillColor = marker.outliercolor; } else { var markerLineWidth = (markerLine || {}).width; lineWidth = ( d.mlw + 1 || markerLineWidth + 1 || // TODO: we need the latter for legends... can we get rid of it? (d.trace ? (d.trace.marker.line || {}).width : 0) + 1 ) - 1 || 0; if('mlc' in d) lineColor = d.mlcc = fns.lineScale(d.mlc); // weird case: array wasn't long enough to apply to every point else if(Lib.isArrayOrTypedArray(markerLine.color)) lineColor = Color.defaultLine; else lineColor = markerLine.color; if(Lib.isArrayOrTypedArray(marker.color)) { fillColor = Color.defaultLine; perPointGradient = true; } if('mc' in d) { fillColor = d.mcc = fns.markerScale(d.mc); } else { fillColor = marker.color || 'rgba(0,0,0,0)'; } if(fns.selectedColorFn) { fillColor = fns.selectedColorFn(d); } } if(d.om) { // open markers can't have zero linewidth, default to 1px, // and use fill color as stroke color sel.call(Color.stroke, fillColor) .style({ 'stroke-width': (lineWidth || 1) + 'px', fill: 'none' }); } else { sel.style('stroke-width', (d.isBlank ? 0 : lineWidth) + 'px'); var markerGradient = marker.gradient; var gradientType = d.mgt; if(gradientType) perPointGradient = true; else gradientType = markerGradient && markerGradient.type; // for legend - arrays will propagate through here, but we don't need // to treat it as per-point. if(Lib.isArrayOrTypedArray(gradientType)) { gradientType = gradientType[0]; if(!gradientInfo[gradientType]) gradientType = 0; } var markerPattern = marker.pattern; var patternShape = markerPattern && drawing.getPatternAttr(markerPattern.shape, d.i, ''); if(gradientType && gradientType !== 'none') { var gradientColor = d.mgc; if(gradientColor) perPointGradient = true; else gradientColor = markerGradient.color; var gradientID = trace.uid; if(perPointGradient) gradientID += '-' + d.i; drawing.gradient(sel, gd, gradientID, gradientType, [[0, gradientColor], [1, fillColor]], 'fill'); } else if(patternShape) { var patternBGColor = drawing.getPatternAttr(markerPattern.bgcolor, d.i, null); var patternFGColor = drawing.getPatternAttr(markerPattern.fgcolor, d.i, null); var patternFGOpacity = markerPattern.fgopacity; var patternSize = drawing.getPatternAttr(markerPattern.size, d.i, 8); var patternSolidity = drawing.getPatternAttr(markerPattern.solidity, d.i, 0.3); var perPointPattern = d.mcc || Lib.isArrayOrTypedArray(markerPattern.shape) || Lib.isArrayOrTypedArray(markerPattern.bgcolor) || Lib.isArrayOrTypedArray(markerPattern.size) || Lib.isArrayOrTypedArray(markerPattern.solidity); var patternID = trace.uid; if(perPointPattern) patternID += '-' + d.i; drawing.pattern( sel, 'point', gd, patternID, patternShape, patternSize, patternSolidity, d.mcc, markerPattern.fillmode, patternBGColor, patternFGColor, patternFGOpacity ); } else { Color.fill(sel, fillColor); } if(lineWidth) { Color.stroke(sel, lineColor); } } }; drawing.makePointStyleFns = function(trace) { var out = {}; var marker = trace.marker; // allow array marker and marker line colors to be // scaled by given max and min to colorscales out.markerScale = drawing.tryColorscale(marker, ''); out.lineScale = drawing.tryColorscale(marker, 'line'); if(Registry.traceIs(trace, 'symbols')) { out.ms2mrc = subTypes.isBubble(trace) ? makeBubbleSizeFn(trace) : function() { return (marker.size || 6) / 2; }; } if(trace.selectedpoints) { Lib.extendFlat(out, drawing.makeSelectedPointStyleFns(trace)); } return out; }; drawing.makeSelectedPointStyleFns = function(trace) { var out = {}; var selectedAttrs = trace.selected || {}; var unselectedAttrs = trace.unselected || {}; var marker = trace.marker || {}; var selectedMarker = selectedAttrs.marker || {}; var unselectedMarker = unselectedAttrs.marker || {}; var mo = marker.opacity; var smo = selectedMarker.opacity; var usmo = unselectedMarker.opacity; var smoIsDefined = smo !== undefined; var usmoIsDefined = usmo !== undefined; if(Lib.isArrayOrTypedArray(mo) || smoIsDefined || usmoIsDefined) { out.selectedOpacityFn = function(d) { var base = d.mo === undefined ? marker.opacity : d.mo; if(d.selected) { return smoIsDefined ? smo : base; } else { return usmoIsDefined ? usmo : DESELECTDIM * base; } }; } var mc = marker.color; var smc = selectedMarker.color; var usmc = unselectedMarker.color; if(smc || usmc) { out.selectedColorFn = function(d) { var base = d.mcc || mc; if(d.selected) { return smc || base; } else { return usmc || base; } }; } var ms = marker.size; var sms = selectedMarker.size; var usms = unselectedMarker.size; var smsIsDefined = sms !== undefined; var usmsIsDefined = usms !== undefined; if(Registry.traceIs(trace, 'symbols') && (smsIsDefined || usmsIsDefined)) { out.selectedSizeFn = function(d) { var base = d.mrc || ms / 2; if(d.selected) { return smsIsDefined ? sms / 2 : base; } else { return usmsIsDefined ? usms / 2 : base; } }; } return out; }; drawing.makeSelectedTextStyleFns = function(trace) { var out = {}; var selectedAttrs = trace.selected || {}; var unselectedAttrs = trace.unselected || {}; var textFont = trace.textfont || {}; var selectedTextFont = selectedAttrs.textfont || {}; var unselectedTextFont = unselectedAttrs.textfont || {}; var tc = textFont.color; var stc = selectedTextFont.color; var utc = unselectedTextFont.color; out.selectedTextColorFn = function(d) { var base = d.tc || tc; if(d.selected) { return stc || base; } else { if(utc) return utc; else return stc ? base : Color.addOpacity(base, DESELECTDIM); } }; return out; }; drawing.selectedPointStyle = function(s, trace) { if(!s.size() || !trace.selectedpoints) return; var fns = drawing.makeSelectedPointStyleFns(trace); var marker = trace.marker || {}; var seq = []; if(fns.selectedOpacityFn) { seq.push(function(pt, d) { pt.style('opacity', fns.selectedOpacityFn(d)); }); } if(fns.selectedColorFn) { seq.push(function(pt, d) { Color.fill(pt, fns.selectedColorFn(d)); }); } if(fns.selectedSizeFn) { seq.push(function(pt, d) { var mx = d.mx || marker.symbol || 0; var mrc2 = fns.selectedSizeFn(d); pt.attr('d', makePointPath(drawing.symbolNumber(mx), mrc2)); // save for Drawing.selectedTextStyle d.mrc2 = mrc2; }); } if(seq.length) { s.each(function(d) { var pt = d3.select(this); for(var i = 0; i < seq.length; i++) { seq[i](pt, d); } }); } }; drawing.tryColorscale = function(marker, prefix) { var cont = prefix ? Lib.nestedProperty(marker, prefix).get() : marker; if(cont) { var colorArray = cont.color; if((cont.colorscale || cont._colorAx) && Lib.isArrayOrTypedArray(colorArray)) { return Colorscale.makeColorScaleFuncFromTrace(cont); } } return Lib.identity; }; var TEXTOFFSETSIGN = { start: 1, end: -1, middle: 0, bottom: 1, top: -1 }; function textPointPosition(s, textPosition, fontSize, markerRadius, dontTouchParent) { var group = d3.select(s.node().parentNode); var v = textPosition.indexOf('top') !== -1 ? 'top' : textPosition.indexOf('bottom') !== -1 ? 'bottom' : 'middle'; var h = textPosition.indexOf('left') !== -1 ? 'end' : textPosition.indexOf('right') !== -1 ? 'start' : 'middle'; // if markers are shown, offset a little more than // the nominal marker size // ie 2/1.6 * nominal, bcs some markers are a bit bigger var r = markerRadius ? markerRadius / 0.8 + 1 : 0; var numLines = (svgTextUtils.lineCount(s) - 1) * LINE_SPACING + 1; var dx = TEXTOFFSETSIGN[h] * r; var dy = fontSize * 0.75 + TEXTOFFSETSIGN[v] * r + (TEXTOFFSETSIGN[v] - 1) * numLines * fontSize / 2; // fix the overall text group position s.attr('text-anchor', h); if(!dontTouchParent) { group.attr('transform', strTranslate(dx, dy)); } } function extracTextFontSize(d, trace) { var fontSize = d.ts || trace.textfont.size; return (isNumeric(fontSize) && fontSize > 0) ? fontSize : 0; } // draw text at points drawing.textPointStyle = function(s, trace, gd) { if(!s.size()) return; var selectedTextColorFn; if(trace.selectedpoints) { var fns = drawing.makeSelectedTextStyleFns(trace); selectedTextColorFn = fns.selectedTextColorFn; } var texttemplate = trace.texttemplate; var fullLayout = gd._fullLayout; s.each(function(d) { var p = d3.select(this); var text = texttemplate ? Lib.extractOption(d, trace, 'txt', 'texttemplate') : Lib.extractOption(d, trace, 'tx', 'text'); if(!text && text !== 0) { p.remove(); return; } if(texttemplate) { var fn = trace._module.formatLabels; var labels = fn ? fn(d, trace, fullLayout) : {}; var pointValues = {}; appendArrayPointValue(pointValues, trace, d.i); var meta = trace._meta || {}; text = Lib.texttemplateString(text, labels, fullLayout._d3locale, pointValues, d, meta); } var pos = d.tp || trace.textposition; var fontSize = extracTextFontSize(d, trace); var fontColor = selectedTextColorFn ? selectedTextColorFn(d) : (d.tc || trace.textfont.color); p.call(drawing.font, d.tf || trace.textfont.family, fontSize, fontColor) .text(text) .call(svgTextUtils.convertToTspans, gd) .call(textPointPosition, pos, fontSize, d.mrc); }); }; drawing.selectedTextStyle = function(s, trace) { if(!s.size() || !trace.selectedpoints) return; var fns = drawing.makeSelectedTextStyleFns(trace); s.each(function(d) { var tx = d3.select(this); var tc = fns.selectedTextColorFn(d); var tp = d.tp || trace.textposition; var fontSize = extracTextFontSize(d, trace); Color.fill(tx, tc); var dontTouchParent = Registry.traceIs(trace, 'bar-like'); textPointPosition(tx, tp, fontSize, d.mrc2 || d.mrc, dontTouchParent); }); }; // generalized Catmull-Rom splines, per // http://www.cemyuksel.com/research/catmullrom_param/catmullrom.pdf var CatmullRomExp = 0.5; drawing.smoothopen = function(pts, smoothness) { if(pts.length < 3) { return 'M' + pts.join('L');} var path = 'M' + pts[0]; var tangents = []; var i; for(i = 1; i < pts.length - 1; i++) { tangents.push(makeTangent(pts[i - 1], pts[i], pts[i + 1], smoothness)); } path += 'Q' + tangents[0][0] + ' ' + pts[1]; for(i = 2; i < pts.length - 1; i++) { path += 'C' + tangents[i - 2][1] + ' ' + tangents[i - 1][0] + ' ' + pts[i]; } path += 'Q' + tangents[pts.length - 3][1] + ' ' + pts[pts.length - 1]; return path; }; drawing.smoothclosed = function(pts, smoothness) { if(pts.length < 3) { return 'M' + pts.join('L') + 'Z'; } var path = 'M' + pts[0]; var pLast = pts.length - 1; var tangents = [makeTangent(pts[pLast], pts[0], pts[1], smoothness)]; var i; for(i = 1; i < pLast; i++) { tangents.push(makeTangent(pts[i - 1], pts[i], pts[i + 1], smoothness)); } tangents.push( makeTangent(pts[pLast - 1], pts[pLast], pts[0], smoothness) ); for(i = 1; i <= pLast; i++) { path += 'C' + tangents[i - 1][1] + ' ' + tangents[i][0] + ' ' + pts[i]; } path += 'C' + tangents[pLast][1] + ' ' + tangents[0][0] + ' ' + pts[0] + 'Z'; return path; }; function makeTangent(prevpt, thispt, nextpt, smoothness) { var d1x = prevpt[0] - thispt[0]; var d1y = prevpt[1] - thispt[1]; var d2x = nextpt[0] - thispt[0]; var d2y = nextpt[1] - thispt[1]; var d1a = Math.pow(d1x * d1x + d1y * d1y, CatmullRomExp / 2); var d2a = Math.pow(d2x * d2x + d2y * d2y, CatmullRomExp / 2); var numx = (d2a * d2a * d1x - d1a * d1a * d2x) * smoothness; var numy = (d2a * d2a * d1y - d1a * d1a * d2y) * smoothness; var denom1 = 3 * d2a * (d1a + d2a); var denom2 = 3 * d1a * (d1a + d2a); return [ [ d3.round(thispt[0] + (denom1 && numx / denom1), 2), d3.round(thispt[1] + (denom1 && numy / denom1), 2) ], [ d3.round(thispt[0] - (denom2 && numx / denom2), 2), d3.round(thispt[1] - (denom2 && numy / denom2), 2) ] ]; } // step paths - returns a generator function for paths // with the given step shape var STEPPATH = { hv: function(p0, p1) { return 'H' + d3.round(p1[0], 2) + 'V' + d3.round(p1[1], 2); }, vh: function(p0, p1) { return 'V' + d3.round(p1[1], 2) + 'H' + d3.round(p1[0], 2); }, hvh: function(p0, p1) { return 'H' + d3.round((p0[0] + p1[0]) / 2, 2) + 'V' + d3.round(p1[1], 2) + 'H' + d3.round(p1[0], 2); }, vhv: function(p0, p1) { return 'V' + d3.round((p0[1] + p1[1]) / 2, 2) + 'H' + d3.round(p1[0], 2) + 'V' + d3.round(p1[1], 2); } }; var STEPLINEAR = function(p0, p1) { return 'L' + d3.round(p1[0], 2) + ',' + d3.round(p1[1], 2); }; drawing.steps = function(shape) { var onestep = STEPPATH[shape] || STEPLINEAR; return function(pts) { var path = 'M' + d3.round(pts[0][0], 2) + ',' + d3.round(pts[0][1], 2); for(var i = 1; i < pts.length; i++) { path += onestep(pts[i - 1], pts[i]); } return path; }; }; // off-screen svg render testing element, shared by the whole page // uses the id 'js-plotly-tester' and stores it in drawing.tester drawing.makeTester = function() { var tester = Lib.ensureSingleById(d3.select('body'), 'svg', 'js-plotly-tester', function(s) { s.attr(xmlnsNamespaces.svgAttrs) .style({ position: 'absolute', left: '-10000px', top: '-10000px', width: '9000px', height: '9000px', 'z-index': '1' }); }); // browsers differ on how they describe the bounding rect of // the svg if its contents spill over... so make a 1x1px // reference point we can measure off of. var testref = Lib.ensureSingle(tester, 'path', 'js-reference-point', function(s) { s.attr('d', 'M0,0H1V1H0Z') .style({ 'stroke-width': 0, fill: 'black' }); }); drawing.tester = tester; drawing.testref = testref; }; /* * use our offscreen tester to get a clientRect for an element, * in a reference frame where it isn't translated (or transformed) and * its anchor point is at (0,0) * always returns a copy of the bbox, so the caller can modify it safely * * @param {SVGElement} node: the element to measure. If possible this should be * a or MathJax element that's already passed through * `convertToTspans` because in that case we can cache the results, but it's * possible to pass in any svg element. * * @param {boolean} inTester: is this element already in `drawing.tester`? * If you are measuring a dummy element, rather than one you really intend * to use on the plot, making it in `drawing.tester` in the first place * allows us to test faster because it cuts out cloning and appending it. * * @param {string} hash: for internal use only, if we already know the cache key * for this element beforehand. * * @return {object}: a plain object containing the width, height, left, right, * top, and bottom of `node` */ drawing.savedBBoxes = {}; var savedBBoxesCount = 0; var maxSavedBBoxes = 10000; drawing.bBox = function(node, inTester, hash) { /* * Cache elements we've already measured so we don't have to * remeasure the same thing many times * We have a few bBox callers though who pass a node larger than * a or a MathJax , such as an axis group containing many labels. * These will not generate a hash (unless we figure out an appropriate * hash key for them) and thus we will not hash them. */ if(!hash) hash = nodeHash(node); var out; if(hash) { out = drawing.savedBBoxes[hash]; if(out) return Lib.extendFlat({}, out); } else if(node.childNodes.length === 1) { /* * If we have only one child element, which is itself hashable, make * a new hash from this element plus its x,y,transform * These bounding boxes *include* x,y,transform - mostly for use by * callers trying to avoid overlaps (ie titles) */ var innerNode = node.childNodes[0]; hash = nodeHash(innerNode); if(hash) { var x = +innerNode.getAttribute('x') || 0; var y = +innerNode.getAttribute('y') || 0; var transform = innerNode.getAttribute('transform'); if(!transform) { // in this case, just varying x and y, don't bother caching // the final bBox because the alteration is quick. var innerBB = drawing.bBox(innerNode, false, hash); if(x) { innerBB.left += x; innerBB.right += x; } if(y) { innerBB.top += y; innerBB.bottom += y; } return innerBB; } /* * else we have a transform - rather than make a complicated * (and error-prone and probably slow) transform parser/calculator, * just continue on calculating the boundingClientRect of the group * and use the new composite hash to cache it. * That said, `innerNode.transform.baseVal` is an array of * `SVGTransform` objects, that *do* seem to have a nice matrix * multiplication interface that we could use to avoid making * another getBoundingClientRect call... */ hash += '~' + x + '~' + y + '~' + transform; out = drawing.savedBBoxes[hash]; if(out) return Lib.extendFlat({}, out); } } var testNode, tester; if(inTester) { testNode = node; } else { tester = drawing.tester.node(); // copy the node to test into the tester testNode = node.cloneNode(true); tester.appendChild(testNode); } // standardize its position (and newline tspans if any) d3.select(testNode) .attr('transform', null) .call(svgTextUtils.positionText, 0, 0); var testRect = testNode.getBoundingClientRect(); var refRect = drawing.testref .node() .getBoundingClientRect(); if(!inTester) tester.removeChild(testNode); var bb = { height: testRect.height, width: testRect.width, left: testRect.left - refRect.left, top: testRect.top - refRect.top, right: testRect.right - refRect.left, bottom: testRect.bottom - refRect.top }; // make sure we don't have too many saved boxes, // or a long session could overload on memory // by saving boxes for long-gone elements if(savedBBoxesCount >= maxSavedBBoxes) { drawing.savedBBoxes = {}; savedBBoxesCount = 0; } // cache this bbox if(hash) drawing.savedBBoxes[hash] = bb; savedBBoxesCount++; return Lib.extendFlat({}, bb); }; // capture everything about a node (at least in our usage) that // impacts its bounding box, given that bBox clears x, y, and transform function nodeHash(node) { var inputText = node.getAttribute('data-unformatted'); if(inputText === null) return; return inputText + node.getAttribute('data-math') + node.getAttribute('text-anchor') + node.getAttribute('style'); } /** * Set clipPath URL in a way that work for all situations. * * In details, graphs on pages with HTML tags need to prepend * the clip path ids with the page's base url EXCEPT during toImage exports. * * @param {d3 selection} s : node to add clip-path attribute * @param {string} localId : local clip-path (w/o base url) id * @param {DOM element || object} gd * - context._baseUrl {string} * - context._exportedPlot {boolean} */ drawing.setClipUrl = function(s, localId, gd) { s.attr('clip-path', getFullUrl(localId, gd)); }; function getFullUrl(localId, gd) { if(!localId) return null; var context = gd._context; var baseUrl = context._exportedPlot ? '' : (context._baseUrl || ''); return baseUrl ? 'url(\'' + baseUrl + '#' + localId + '\')' : 'url(#' + localId + ')'; } drawing.getTranslate = function(element) { // Note the separator [^\d] between x and y in this regex // We generally use ',' but IE will convert it to ' ' var re = /.*\btranslate\((-?\d*\.?\d*)[^-\d]*(-?\d*\.?\d*)[^\d].*/; var getter = element.attr ? 'attr' : 'getAttribute'; var transform = element[getter]('transform') || ''; var translate = transform.replace(re, function(match, p1, p2) { return [p1, p2].join(' '); }) .split(' '); return { x: +translate[0] || 0, y: +translate[1] || 0 }; }; drawing.setTranslate = function(element, x, y) { var re = /(\btranslate\(.*?\);?)/; var getter = element.attr ? 'attr' : 'getAttribute'; var setter = element.attr ? 'attr' : 'setAttribute'; var transform = element[getter]('transform') || ''; x = x || 0; y = y || 0; transform = transform.replace(re, '').trim(); transform += strTranslate(x, y); transform = transform.trim(); element[setter]('transform', transform); return transform; }; drawing.getScale = function(element) { var re = /.*\bscale\((\d*\.?\d*)[^\d]*(\d*\.?\d*)[^\d].*/; var getter = element.attr ? 'attr' : 'getAttribute'; var transform = element[getter]('transform') || ''; var translate = transform.replace(re, function(match, p1, p2) { return [p1, p2].join(' '); }) .split(' '); return { x: +translate[0] || 1, y: +translate[1] || 1 }; }; drawing.setScale = function(element, x, y) { var re = /(\bscale\(.*?\);?)/; var getter = element.attr ? 'attr' : 'getAttribute'; var setter = element.attr ? 'attr' : 'setAttribute'; var transform = element[getter]('transform') || ''; x = x || 1; y = y || 1; transform = transform.replace(re, '').trim(); transform += 'scale(' + x + ',' + y + ')'; transform = transform.trim(); element[setter]('transform', transform); return transform; }; var SCALE_RE = /\s*sc.*/; drawing.setPointGroupScale = function(selection, xScale, yScale) { xScale = xScale || 1; yScale = yScale || 1; if(!selection) return; // The same scale transform for every point: var scale = (xScale === 1 && yScale === 1) ? '' : 'scale(' + xScale + ',' + yScale + ')'; selection.each(function() { var t = (this.getAttribute('transform') || '').replace(SCALE_RE, ''); t += scale; t = t.trim(); this.setAttribute('transform', t); }); }; var TEXT_POINT_LAST_TRANSLATION_RE = /translate\([^)]*\)\s*$/; drawing.setTextPointsScale = function(selection, xScale, yScale) { if(!selection) return; selection.each(function() { var transforms; var el = d3.select(this); var text = el.select('text'); if(!text.node()) return; var x = parseFloat(text.attr('x') || 0); var y = parseFloat(text.attr('y') || 0); var existingTransform = (el.attr('transform') || '').match(TEXT_POINT_LAST_TRANSLATION_RE); if(xScale === 1 && yScale === 1) { transforms = []; } else { transforms = [ strTranslate(x, y), 'scale(' + xScale + ',' + yScale + ')', strTranslate(-x, -y), ]; } if(existingTransform) { transforms.push(existingTransform); } el.attr('transform', transforms.join('')); }); }; },{"../../components/fx/helpers":193,"../../constants/alignment":262,"../../constants/interactions":266,"../../constants/xmlns_namespaces":268,"../../lib":287,"../../lib/svg_text_utils":310,"../../registry":378,"../../traces/scatter/make_bubble_size_func":517,"../../traces/scatter/subtypes":525,"../color":157,"../colorscale":169,"./symbol_defs":180,"@plotly/d3":20,"fast-isnumeric":33,"tinycolor2":121}],180:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); /** Marker symbol definitions * users can specify markers either by number or name * add 100 (or '-open') and you get an open marker * open markers have no fill and use line color as the stroke color * add 200 (or '-dot') and you get a dot in the middle * add both and you get both */ module.exports = { circle: { n: 0, f: function(r) { var rs = d3.round(r, 2); return 'M' + rs + ',0A' + rs + ',' + rs + ' 0 1,1 0,-' + rs + 'A' + rs + ',' + rs + ' 0 0,1 ' + rs + ',0Z'; } }, square: { n: 1, f: function(r) { var rs = d3.round(r, 2); return 'M' + rs + ',' + rs + 'H-' + rs + 'V-' + rs + 'H' + rs + 'Z'; } }, diamond: { n: 2, f: function(r) { var rd = d3.round(r * 1.3, 2); return 'M' + rd + ',0L0,' + rd + 'L-' + rd + ',0L0,-' + rd + 'Z'; } }, cross: { n: 3, f: function(r) { var rc = d3.round(r * 0.4, 2); var rc2 = d3.round(r * 1.2, 2); return 'M' + rc2 + ',' + rc + 'H' + rc + 'V' + rc2 + 'H-' + rc + 'V' + rc + 'H-' + rc2 + 'V-' + rc + 'H-' + rc + 'V-' + rc2 + 'H' + rc + 'V-' + rc + 'H' + rc2 + 'Z'; } }, x: { n: 4, f: function(r) { var rx = d3.round(r * 0.8 / Math.sqrt(2), 2); var ne = 'l' + rx + ',' + rx; var se = 'l' + rx + ',-' + rx; var sw = 'l-' + rx + ',-' + rx; var nw = 'l-' + rx + ',' + rx; return 'M0,' + rx + ne + se + sw + se + sw + nw + sw + nw + ne + nw + ne + 'Z'; } }, 'triangle-up': { n: 5, f: function(r) { var rt = d3.round(r * 2 / Math.sqrt(3), 2); var r2 = d3.round(r / 2, 2); var rs = d3.round(r, 2); return 'M-' + rt + ',' + r2 + 'H' + rt + 'L0,-' + rs + 'Z'; } }, 'triangle-down': { n: 6, f: function(r) { var rt = d3.round(r * 2 / Math.sqrt(3), 2); var r2 = d3.round(r / 2, 2); var rs = d3.round(r, 2); return 'M-' + rt + ',-' + r2 + 'H' + rt + 'L0,' + rs + 'Z'; } }, 'triangle-left': { n: 7, f: function(r) { var rt = d3.round(r * 2 / Math.sqrt(3), 2); var r2 = d3.round(r / 2, 2); var rs = d3.round(r, 2); return 'M' + r2 + ',-' + rt + 'V' + rt + 'L-' + rs + ',0Z'; } }, 'triangle-right': { n: 8, f: function(r) { var rt = d3.round(r * 2 / Math.sqrt(3), 2); var r2 = d3.round(r / 2, 2); var rs = d3.round(r, 2); return 'M-' + r2 + ',-' + rt + 'V' + rt + 'L' + rs + ',0Z'; } }, 'triangle-ne': { n: 9, f: function(r) { var r1 = d3.round(r * 0.6, 2); var r2 = d3.round(r * 1.2, 2); return 'M-' + r2 + ',-' + r1 + 'H' + r1 + 'V' + r2 + 'Z'; } }, 'triangle-se': { n: 10, f: function(r) { var r1 = d3.round(r * 0.6, 2); var r2 = d3.round(r * 1.2, 2); return 'M' + r1 + ',-' + r2 + 'V' + r1 + 'H-' + r2 + 'Z'; } }, 'triangle-sw': { n: 11, f: function(r) { var r1 = d3.round(r * 0.6, 2); var r2 = d3.round(r * 1.2, 2); return 'M' + r2 + ',' + r1 + 'H-' + r1 + 'V-' + r2 + 'Z'; } }, 'triangle-nw': { n: 12, f: function(r) { var r1 = d3.round(r * 0.6, 2); var r2 = d3.round(r * 1.2, 2); return 'M-' + r1 + ',' + r2 + 'V-' + r1 + 'H' + r2 + 'Z'; } }, pentagon: { n: 13, f: function(r) { var x1 = d3.round(r * 0.951, 2); var x2 = d3.round(r * 0.588, 2); var y0 = d3.round(-r, 2); var y1 = d3.round(r * -0.309, 2); var y2 = d3.round(r * 0.809, 2); return 'M' + x1 + ',' + y1 + 'L' + x2 + ',' + y2 + 'H-' + x2 + 'L-' + x1 + ',' + y1 + 'L0,' + y0 + 'Z'; } }, hexagon: { n: 14, f: function(r) { var y0 = d3.round(r, 2); var y1 = d3.round(r / 2, 2); var x = d3.round(r * Math.sqrt(3) / 2, 2); return 'M' + x + ',-' + y1 + 'V' + y1 + 'L0,' + y0 + 'L-' + x + ',' + y1 + 'V-' + y1 + 'L0,-' + y0 + 'Z'; } }, hexagon2: { n: 15, f: function(r) { var x0 = d3.round(r, 2); var x1 = d3.round(r / 2, 2); var y = d3.round(r * Math.sqrt(3) / 2, 2); return 'M-' + x1 + ',' + y + 'H' + x1 + 'L' + x0 + ',0L' + x1 + ',-' + y + 'H-' + x1 + 'L-' + x0 + ',0Z'; } }, octagon: { n: 16, f: function(r) { var a = d3.round(r * 0.924, 2); var b = d3.round(r * 0.383, 2); return 'M-' + b + ',-' + a + 'H' + b + 'L' + a + ',-' + b + 'V' + b + 'L' + b + ',' + a + 'H-' + b + 'L-' + a + ',' + b + 'V-' + b + 'Z'; } }, star: { n: 17, f: function(r) { var rs = r * 1.4; var x1 = d3.round(rs * 0.225, 2); var x2 = d3.round(rs * 0.951, 2); var x3 = d3.round(rs * 0.363, 2); var x4 = d3.round(rs * 0.588, 2); var y0 = d3.round(-rs, 2); var y1 = d3.round(rs * -0.309, 2); var y3 = d3.round(rs * 0.118, 2); var y4 = d3.round(rs * 0.809, 2); var y5 = d3.round(rs * 0.382, 2); return 'M' + x1 + ',' + y1 + 'H' + x2 + 'L' + x3 + ',' + y3 + 'L' + x4 + ',' + y4 + 'L0,' + y5 + 'L-' + x4 + ',' + y4 + 'L-' + x3 + ',' + y3 + 'L-' + x2 + ',' + y1 + 'H-' + x1 + 'L0,' + y0 + 'Z'; } }, hexagram: { n: 18, f: function(r) { var y = d3.round(r * 0.66, 2); var x1 = d3.round(r * 0.38, 2); var x2 = d3.round(r * 0.76, 2); return 'M-' + x2 + ',0l-' + x1 + ',-' + y + 'h' + x2 + 'l' + x1 + ',-' + y + 'l' + x1 + ',' + y + 'h' + x2 + 'l-' + x1 + ',' + y + 'l' + x1 + ',' + y + 'h-' + x2 + 'l-' + x1 + ',' + y + 'l-' + x1 + ',-' + y + 'h-' + x2 + 'Z'; } }, 'star-triangle-up': { n: 19, f: function(r) { var x = d3.round(r * Math.sqrt(3) * 0.8, 2); var y1 = d3.round(r * 0.8, 2); var y2 = d3.round(r * 1.6, 2); var rc = d3.round(r * 4, 2); var aPart = 'A ' + rc + ',' + rc + ' 0 0 1 '; return 'M-' + x + ',' + y1 + aPart + x + ',' + y1 + aPart + '0,-' + y2 + aPart + '-' + x + ',' + y1 + 'Z'; } }, 'star-triangle-down': { n: 20, f: function(r) { var x = d3.round(r * Math.sqrt(3) * 0.8, 2); var y1 = d3.round(r * 0.8, 2); var y2 = d3.round(r * 1.6, 2); var rc = d3.round(r * 4, 2); var aPart = 'A ' + rc + ',' + rc + ' 0 0 1 '; return 'M' + x + ',-' + y1 + aPart + '-' + x + ',-' + y1 + aPart + '0,' + y2 + aPart + x + ',-' + y1 + 'Z'; } }, 'star-square': { n: 21, f: function(r) { var rp = d3.round(r * 1.1, 2); var rc = d3.round(r * 2, 2); var aPart = 'A ' + rc + ',' + rc + ' 0 0 1 '; return 'M-' + rp + ',-' + rp + aPart + '-' + rp + ',' + rp + aPart + rp + ',' + rp + aPart + rp + ',-' + rp + aPart + '-' + rp + ',-' + rp + 'Z'; } }, 'star-diamond': { n: 22, f: function(r) { var rp = d3.round(r * 1.4, 2); var rc = d3.round(r * 1.9, 2); var aPart = 'A ' + rc + ',' + rc + ' 0 0 1 '; return 'M-' + rp + ',0' + aPart + '0,' + rp + aPart + rp + ',0' + aPart + '0,-' + rp + aPart + '-' + rp + ',0' + 'Z'; } }, 'diamond-tall': { n: 23, f: function(r) { var x = d3.round(r * 0.7, 2); var y = d3.round(r * 1.4, 2); return 'M0,' + y + 'L' + x + ',0L0,-' + y + 'L-' + x + ',0Z'; } }, 'diamond-wide': { n: 24, f: function(r) { var x = d3.round(r * 1.4, 2); var y = d3.round(r * 0.7, 2); return 'M0,' + y + 'L' + x + ',0L0,-' + y + 'L-' + x + ',0Z'; } }, hourglass: { n: 25, f: function(r) { var rs = d3.round(r, 2); return 'M' + rs + ',' + rs + 'H-' + rs + 'L' + rs + ',-' + rs + 'H-' + rs + 'Z'; }, noDot: true }, bowtie: { n: 26, f: function(r) { var rs = d3.round(r, 2); return 'M' + rs + ',' + rs + 'V-' + rs + 'L-' + rs + ',' + rs + 'V-' + rs + 'Z'; }, noDot: true }, 'circle-cross': { n: 27, f: function(r) { var rs = d3.round(r, 2); return 'M0,' + rs + 'V-' + rs + 'M' + rs + ',0H-' + rs + 'M' + rs + ',0A' + rs + ',' + rs + ' 0 1,1 0,-' + rs + 'A' + rs + ',' + rs + ' 0 0,1 ' + rs + ',0Z'; }, needLine: true, noDot: true }, 'circle-x': { n: 28, f: function(r) { var rs = d3.round(r, 2); var rc = d3.round(r / Math.sqrt(2), 2); return 'M' + rc + ',' + rc + 'L-' + rc + ',-' + rc + 'M' + rc + ',-' + rc + 'L-' + rc + ',' + rc + 'M' + rs + ',0A' + rs + ',' + rs + ' 0 1,1 0,-' + rs + 'A' + rs + ',' + rs + ' 0 0,1 ' + rs + ',0Z'; }, needLine: true, noDot: true }, 'square-cross': { n: 29, f: function(r) { var rs = d3.round(r, 2); return 'M0,' + rs + 'V-' + rs + 'M' + rs + ',0H-' + rs + 'M' + rs + ',' + rs + 'H-' + rs + 'V-' + rs + 'H' + rs + 'Z'; }, needLine: true, noDot: true }, 'square-x': { n: 30, f: function(r) { var rs = d3.round(r, 2); return 'M' + rs + ',' + rs + 'L-' + rs + ',-' + rs + 'M' + rs + ',-' + rs + 'L-' + rs + ',' + rs + 'M' + rs + ',' + rs + 'H-' + rs + 'V-' + rs + 'H' + rs + 'Z'; }, needLine: true, noDot: true }, 'diamond-cross': { n: 31, f: function(r) { var rd = d3.round(r * 1.3, 2); return 'M' + rd + ',0L0,' + rd + 'L-' + rd + ',0L0,-' + rd + 'Z' + 'M0,-' + rd + 'V' + rd + 'M-' + rd + ',0H' + rd; }, needLine: true, noDot: true }, 'diamond-x': { n: 32, f: function(r) { var rd = d3.round(r * 1.3, 2); var r2 = d3.round(r * 0.65, 2); return 'M' + rd + ',0L0,' + rd + 'L-' + rd + ',0L0,-' + rd + 'Z' + 'M-' + r2 + ',-' + r2 + 'L' + r2 + ',' + r2 + 'M-' + r2 + ',' + r2 + 'L' + r2 + ',-' + r2; }, needLine: true, noDot: true }, 'cross-thin': { n: 33, f: function(r) { var rc = d3.round(r * 1.4, 2); return 'M0,' + rc + 'V-' + rc + 'M' + rc + ',0H-' + rc; }, needLine: true, noDot: true, noFill: true }, 'x-thin': { n: 34, f: function(r) { var rx = d3.round(r, 2); return 'M' + rx + ',' + rx + 'L-' + rx + ',-' + rx + 'M' + rx + ',-' + rx + 'L-' + rx + ',' + rx; }, needLine: true, noDot: true, noFill: true }, asterisk: { n: 35, f: function(r) { var rc = d3.round(r * 1.2, 2); var rs = d3.round(r * 0.85, 2); return 'M0,' + rc + 'V-' + rc + 'M' + rc + ',0H-' + rc + 'M' + rs + ',' + rs + 'L-' + rs + ',-' + rs + 'M' + rs + ',-' + rs + 'L-' + rs + ',' + rs; }, needLine: true, noDot: true, noFill: true }, hash: { n: 36, f: function(r) { var r1 = d3.round(r / 2, 2); var r2 = d3.round(r, 2); return 'M' + r1 + ',' + r2 + 'V-' + r2 + 'm-' + r2 + ',0V' + r2 + 'M' + r2 + ',' + r1 + 'H-' + r2 + 'm0,-' + r2 + 'H' + r2; }, needLine: true, noFill: true }, 'y-up': { n: 37, f: function(r) { var x = d3.round(r * 1.2, 2); var y0 = d3.round(r * 1.6, 2); var y1 = d3.round(r * 0.8, 2); return 'M-' + x + ',' + y1 + 'L0,0M' + x + ',' + y1 + 'L0,0M0,-' + y0 + 'L0,0'; }, needLine: true, noDot: true, noFill: true }, 'y-down': { n: 38, f: function(r) { var x = d3.round(r * 1.2, 2); var y0 = d3.round(r * 1.6, 2); var y1 = d3.round(r * 0.8, 2); return 'M-' + x + ',-' + y1 + 'L0,0M' + x + ',-' + y1 + 'L0,0M0,' + y0 + 'L0,0'; }, needLine: true, noDot: true, noFill: true }, 'y-left': { n: 39, f: function(r) { var y = d3.round(r * 1.2, 2); var x0 = d3.round(r * 1.6, 2); var x1 = d3.round(r * 0.8, 2); return 'M' + x1 + ',' + y + 'L0,0M' + x1 + ',-' + y + 'L0,0M-' + x0 + ',0L0,0'; }, needLine: true, noDot: true, noFill: true }, 'y-right': { n: 40, f: function(r) { var y = d3.round(r * 1.2, 2); var x0 = d3.round(r * 1.6, 2); var x1 = d3.round(r * 0.8, 2); return 'M-' + x1 + ',' + y + 'L0,0M-' + x1 + ',-' + y + 'L0,0M' + x0 + ',0L0,0'; }, needLine: true, noDot: true, noFill: true }, 'line-ew': { n: 41, f: function(r) { var rc = d3.round(r * 1.4, 2); return 'M' + rc + ',0H-' + rc; }, needLine: true, noDot: true, noFill: true }, 'line-ns': { n: 42, f: function(r) { var rc = d3.round(r * 1.4, 2); return 'M0,' + rc + 'V-' + rc; }, needLine: true, noDot: true, noFill: true }, 'line-ne': { n: 43, f: function(r) { var rx = d3.round(r, 2); return 'M' + rx + ',-' + rx + 'L-' + rx + ',' + rx; }, needLine: true, noDot: true, noFill: true }, 'line-nw': { n: 44, f: function(r) { var rx = d3.round(r, 2); return 'M' + rx + ',' + rx + 'L-' + rx + ',-' + rx; }, needLine: true, noDot: true, noFill: true }, 'arrow-up': { n: 45, f: function(r) { var rx = d3.round(r, 2); var ry = d3.round(r * 2, 2); return 'M0,0L-' + rx + ',' + ry + 'H' + rx + 'Z'; }, noDot: true }, 'arrow-down': { n: 46, f: function(r) { var rx = d3.round(r, 2); var ry = d3.round(r * 2, 2); return 'M0,0L-' + rx + ',-' + ry + 'H' + rx + 'Z'; }, noDot: true }, 'arrow-left': { n: 47, f: function(r) { var rx = d3.round(r * 2, 2); var ry = d3.round(r, 2); return 'M0,0L' + rx + ',-' + ry + 'V' + ry + 'Z'; }, noDot: true }, 'arrow-right': { n: 48, f: function(r) { var rx = d3.round(r * 2, 2); var ry = d3.round(r, 2); return 'M0,0L-' + rx + ',-' + ry + 'V' + ry + 'Z'; }, noDot: true }, 'arrow-bar-up': { n: 49, f: function(r) { var rx = d3.round(r, 2); var ry = d3.round(r * 2, 2); return 'M-' + rx + ',0H' + rx + 'M0,0L-' + rx + ',' + ry + 'H' + rx + 'Z'; }, needLine: true, noDot: true }, 'arrow-bar-down': { n: 50, f: function(r) { var rx = d3.round(r, 2); var ry = d3.round(r * 2, 2); return 'M-' + rx + ',0H' + rx + 'M0,0L-' + rx + ',-' + ry + 'H' + rx + 'Z'; }, needLine: true, noDot: true }, 'arrow-bar-left': { n: 51, f: function(r) { var rx = d3.round(r * 2, 2); var ry = d3.round(r, 2); return 'M0,-' + ry + 'V' + ry + 'M0,0L' + rx + ',-' + ry + 'V' + ry + 'Z'; }, needLine: true, noDot: true }, 'arrow-bar-right': { n: 52, f: function(r) { var rx = d3.round(r * 2, 2); var ry = d3.round(r, 2); return 'M0,-' + ry + 'V' + ry + 'M0,0L-' + rx + ',-' + ry + 'V' + ry + 'Z'; }, needLine: true, noDot: true } }; },{"@plotly/d3":20}],181:[function(_dereq_,module,exports){ 'use strict'; module.exports = { visible: { valType: 'boolean', editType: 'calc', }, type: { valType: 'enumerated', values: ['percent', 'constant', 'sqrt', 'data'], editType: 'calc', }, symmetric: { valType: 'boolean', editType: 'calc', }, array: { valType: 'data_array', editType: 'calc', }, arrayminus: { valType: 'data_array', editType: 'calc', }, value: { valType: 'number', min: 0, dflt: 10, editType: 'calc', }, valueminus: { valType: 'number', min: 0, dflt: 10, editType: 'calc', }, traceref: { valType: 'integer', min: 0, dflt: 0, editType: 'style' }, tracerefminus: { valType: 'integer', min: 0, dflt: 0, editType: 'style' }, copy_ystyle: { valType: 'boolean', editType: 'plot' }, copy_zstyle: { valType: 'boolean', editType: 'style' }, color: { valType: 'color', editType: 'style', }, thickness: { valType: 'number', min: 0, dflt: 2, editType: 'style', }, width: { valType: 'number', min: 0, editType: 'plot', }, editType: 'calc', _deprecated: { opacity: { valType: 'number', editType: 'style', } } }; },{}],182:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Registry = _dereq_('../../registry'); var Axes = _dereq_('../../plots/cartesian/axes'); var Lib = _dereq_('../../lib'); var makeComputeError = _dereq_('./compute_error'); module.exports = function calc(gd) { var calcdata = gd.calcdata; for(var i = 0; i < calcdata.length; i++) { var calcTrace = calcdata[i]; var trace = calcTrace[0].trace; if(trace.visible === true && Registry.traceIs(trace, 'errorBarsOK')) { var xa = Axes.getFromId(gd, trace.xaxis); var ya = Axes.getFromId(gd, trace.yaxis); calcOneAxis(calcTrace, trace, xa, 'x'); calcOneAxis(calcTrace, trace, ya, 'y'); } } }; function calcOneAxis(calcTrace, trace, axis, coord) { var opts = trace['error_' + coord] || {}; var isVisible = (opts.visible && ['linear', 'log'].indexOf(axis.type) !== -1); var vals = []; if(!isVisible) return; var computeError = makeComputeError(opts); for(var i = 0; i < calcTrace.length; i++) { var calcPt = calcTrace[i]; var iIn = calcPt.i; // for types that don't include `i` in each calcdata point if(iIn === undefined) iIn = i; // for stacked area inserted points // TODO: errorbars have been tested cursorily with stacked area, // but not thoroughly. It's not even really clear what you want to do: // Should it just be calculated based on that trace's size data? // Should you add errors from below in quadrature? // And what about normalization, where in principle the errors shrink // again when you get up to the top end? // One option would be to forbid errorbars with stacking until we // decide how to handle these questions. else if(iIn === null) continue; var calcCoord = calcPt[coord]; if(!isNumeric(axis.c2l(calcCoord))) continue; var errors = computeError(calcCoord, iIn); if(isNumeric(errors[0]) && isNumeric(errors[1])) { var shoe = calcPt[coord + 's'] = calcCoord - errors[0]; var hat = calcPt[coord + 'h'] = calcCoord + errors[1]; vals.push(shoe, hat); } } var axId = axis._id; var baseExtremes = trace._extremes[axId]; var extremes = Axes.findExtremes( axis, vals, Lib.extendFlat({tozero: baseExtremes.opts.tozero}, {padded: true}) ); baseExtremes.min = baseExtremes.min.concat(extremes.min); baseExtremes.max = baseExtremes.max.concat(extremes.max); } },{"../../lib":287,"../../plots/cartesian/axes":334,"../../registry":378,"./compute_error":183,"fast-isnumeric":33}],183:[function(_dereq_,module,exports){ 'use strict'; /** * Error bar computing function generator * * N.B. The generated function does not clean the dataPt entries. Non-numeric * entries result in undefined error magnitudes. * * @param {object} opts error bar attributes * * @return {function} : * @param {numeric} dataPt data point from where to compute the error magnitude * @param {number} index index of dataPt in its corresponding data array * @return {array} * - error[0] : error magnitude in the negative direction * - error[1] : " " " " positive " */ module.exports = function makeComputeError(opts) { var type = opts.type; var symmetric = opts.symmetric; if(type === 'data') { var array = opts.array || []; if(symmetric) { return function computeError(dataPt, index) { var val = +(array[index]); return [val, val]; }; } else { var arrayminus = opts.arrayminus || []; return function computeError(dataPt, index) { var val = +array[index]; var valMinus = +arrayminus[index]; // in case one is present and the other is missing, fill in 0 // so we still see the present one. Mostly useful during manual // data entry. if(!isNaN(val) || !isNaN(valMinus)) { return [valMinus || 0, val || 0]; } return [NaN, NaN]; }; } } else { var computeErrorValue = makeComputeErrorValue(type, opts.value); var computeErrorValueMinus = makeComputeErrorValue(type, opts.valueminus); if(symmetric || opts.valueminus === undefined) { return function computeError(dataPt) { var val = computeErrorValue(dataPt); return [val, val]; }; } else { return function computeError(dataPt) { return [ computeErrorValueMinus(dataPt), computeErrorValue(dataPt) ]; }; } } }; /** * Compute error bar magnitude (for all types except data) * * @param {string} type error bar type * @param {numeric} value error bar value * * @return {function} : * @param {numeric} dataPt */ function makeComputeErrorValue(type, value) { if(type === 'percent') { return function(dataPt) { return Math.abs(dataPt * value / 100); }; } if(type === 'constant') { return function() { return Math.abs(value); }; } if(type === 'sqrt') { return function(dataPt) { return Math.sqrt(Math.abs(dataPt)); }; } } },{}],184:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var Template = _dereq_('../../plot_api/plot_template'); var attributes = _dereq_('./attributes'); module.exports = function(traceIn, traceOut, defaultColor, opts) { var objName = 'error_' + opts.axis; var containerOut = Template.newContainer(traceOut, objName); var containerIn = traceIn[objName] || {}; function coerce(attr, dflt) { return Lib.coerce(containerIn, containerOut, attributes, attr, dflt); } var hasErrorBars = ( containerIn.array !== undefined || containerIn.value !== undefined || containerIn.type === 'sqrt' ); var visible = coerce('visible', hasErrorBars); if(visible === false) return; var type = coerce('type', 'array' in containerIn ? 'data' : 'percent'); var symmetric = true; if(type !== 'sqrt') { symmetric = coerce('symmetric', !((type === 'data' ? 'arrayminus' : 'valueminus') in containerIn)); } if(type === 'data') { coerce('array'); coerce('traceref'); if(!symmetric) { coerce('arrayminus'); coerce('tracerefminus'); } } else if(type === 'percent' || type === 'constant') { coerce('value'); if(!symmetric) coerce('valueminus'); } var copyAttr = 'copy_' + opts.inherit + 'style'; if(opts.inherit) { var inheritObj = traceOut['error_' + opts.inherit]; if((inheritObj || {}).visible) { coerce(copyAttr, !(containerIn.color || isNumeric(containerIn.thickness) || isNumeric(containerIn.width))); } } if(!opts.inherit || !containerOut[copyAttr]) { coerce('color', defaultColor); coerce('thickness'); coerce('width', Registry.traceIs(traceOut, 'gl3d') ? 0 : 4); } }; },{"../../lib":287,"../../plot_api/plot_template":323,"../../registry":378,"./attributes":181,"fast-isnumeric":33}],185:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll; var attributes = _dereq_('./attributes'); var xyAttrs = { error_x: Lib.extendFlat({}, attributes), error_y: Lib.extendFlat({}, attributes) }; delete xyAttrs.error_x.copy_zstyle; delete xyAttrs.error_y.copy_zstyle; delete xyAttrs.error_y.copy_ystyle; var xyzAttrs = { error_x: Lib.extendFlat({}, attributes), error_y: Lib.extendFlat({}, attributes), error_z: Lib.extendFlat({}, attributes) }; delete xyzAttrs.error_x.copy_ystyle; delete xyzAttrs.error_y.copy_ystyle; delete xyzAttrs.error_z.copy_ystyle; delete xyzAttrs.error_z.copy_zstyle; module.exports = { moduleType: 'component', name: 'errorbars', schema: { traces: { scatter: xyAttrs, bar: xyAttrs, histogram: xyAttrs, scatter3d: overrideAll(xyzAttrs, 'calc', 'nested'), scattergl: overrideAll(xyAttrs, 'calc', 'nested') } }, supplyDefaults: _dereq_('./defaults'), calc: _dereq_('./calc'), makeComputeError: _dereq_('./compute_error'), plot: _dereq_('./plot'), style: _dereq_('./style'), hoverInfo: hoverInfo }; function hoverInfo(calcPoint, trace, hoverPoint) { if((trace.error_y || {}).visible) { hoverPoint.yerr = calcPoint.yh - calcPoint.y; if(!trace.error_y.symmetric) hoverPoint.yerrneg = calcPoint.y - calcPoint.ys; } if((trace.error_x || {}).visible) { hoverPoint.xerr = calcPoint.xh - calcPoint.x; if(!trace.error_x.symmetric) hoverPoint.xerrneg = calcPoint.x - calcPoint.xs; } } },{"../../lib":287,"../../plot_api/edit_types":316,"./attributes":181,"./calc":182,"./compute_error":183,"./defaults":184,"./plot":186,"./style":187}],186:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var Drawing = _dereq_('../drawing'); var subTypes = _dereq_('../../traces/scatter/subtypes'); module.exports = function plot(gd, traces, plotinfo, transitionOpts) { var isNew; var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var hasAnimation = transitionOpts && transitionOpts.duration > 0; traces.each(function(d) { var trace = d[0].trace; // || {} is in case the trace (specifically scatterternary) // doesn't support error bars at all, but does go through // the scatter.plot mechanics, which calls ErrorBars.plot // internally var xObj = trace.error_x || {}; var yObj = trace.error_y || {}; var keyFunc; if(trace.ids) { keyFunc = function(d) {return d.id;}; } var sparse = ( subTypes.hasMarkers(trace) && trace.marker.maxdisplayed > 0 ); if(!yObj.visible && !xObj.visible) d = []; var errorbars = d3.select(this).selectAll('g.errorbar') .data(d, keyFunc); errorbars.exit().remove(); if(!d.length) return; if(!xObj.visible) errorbars.selectAll('path.xerror').remove(); if(!yObj.visible) errorbars.selectAll('path.yerror').remove(); errorbars.style('opacity', 1); var enter = errorbars.enter().append('g') .classed('errorbar', true); if(hasAnimation) { enter.style('opacity', 0).transition() .duration(transitionOpts.duration) .style('opacity', 1); } Drawing.setClipUrl(errorbars, plotinfo.layerClipId, gd); errorbars.each(function(d) { var errorbar = d3.select(this); var coords = errorCoords(d, xa, ya); if(sparse && !d.vis) return; var path; var yerror = errorbar.select('path.yerror'); if(yObj.visible && isNumeric(coords.x) && isNumeric(coords.yh) && isNumeric(coords.ys)) { var yw = yObj.width; path = 'M' + (coords.x - yw) + ',' + coords.yh + 'h' + (2 * yw) + // hat 'm-' + yw + ',0V' + coords.ys; // bar if(!coords.noYS) path += 'm-' + yw + ',0h' + (2 * yw); // shoe isNew = !yerror.size(); if(isNew) { yerror = errorbar.append('path') .style('vector-effect', 'non-scaling-stroke') .classed('yerror', true); } else if(hasAnimation) { yerror = yerror .transition() .duration(transitionOpts.duration) .ease(transitionOpts.easing); } yerror.attr('d', path); } else yerror.remove(); var xerror = errorbar.select('path.xerror'); if(xObj.visible && isNumeric(coords.y) && isNumeric(coords.xh) && isNumeric(coords.xs)) { var xw = (xObj.copy_ystyle ? yObj : xObj).width; path = 'M' + coords.xh + ',' + (coords.y - xw) + 'v' + (2 * xw) + // hat 'm0,-' + xw + 'H' + coords.xs; // bar if(!coords.noXS) path += 'm0,-' + xw + 'v' + (2 * xw); // shoe isNew = !xerror.size(); if(isNew) { xerror = errorbar.append('path') .style('vector-effect', 'non-scaling-stroke') .classed('xerror', true); } else if(hasAnimation) { xerror = xerror .transition() .duration(transitionOpts.duration) .ease(transitionOpts.easing); } xerror.attr('d', path); } else xerror.remove(); }); }); }; // compute the coordinates of the error-bar objects function errorCoords(d, xa, ya) { var out = { x: xa.c2p(d.x), y: ya.c2p(d.y) }; // calculate the error bar size and hat and shoe locations if(d.yh !== undefined) { out.yh = ya.c2p(d.yh); out.ys = ya.c2p(d.ys); // if the shoes go off-scale (ie log scale, error bars past zero) // clip the bar and hide the shoes if(!isNumeric(out.ys)) { out.noYS = true; out.ys = ya.c2p(d.ys, true); } } if(d.xh !== undefined) { out.xh = xa.c2p(d.xh); out.xs = xa.c2p(d.xs); if(!isNumeric(out.xs)) { out.noXS = true; out.xs = xa.c2p(d.xs, true); } } return out; } },{"../../traces/scatter/subtypes":525,"../drawing":179,"@plotly/d3":20,"fast-isnumeric":33}],187:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Color = _dereq_('../color'); module.exports = function style(traces) { traces.each(function(d) { var trace = d[0].trace; var yObj = trace.error_y || {}; var xObj = trace.error_x || {}; var s = d3.select(this); s.selectAll('path.yerror') .style('stroke-width', yObj.thickness + 'px') .call(Color.stroke, yObj.color); if(xObj.copy_ystyle) xObj = yObj; s.selectAll('path.xerror') .style('stroke-width', xObj.thickness + 'px') .call(Color.stroke, xObj.color); }); }; },{"../color":157,"@plotly/d3":20}],188:[function(_dereq_,module,exports){ 'use strict'; var fontAttrs = _dereq_('../../plots/font_attributes'); var hoverLabelAttrs = _dereq_('./layout_attributes').hoverlabel; var extendFlat = _dereq_('../../lib/extend').extendFlat; module.exports = { hoverlabel: { bgcolor: extendFlat({}, hoverLabelAttrs.bgcolor, { arrayOk: true, }), bordercolor: extendFlat({}, hoverLabelAttrs.bordercolor, { arrayOk: true, }), font: fontAttrs({ arrayOk: true, editType: 'none', }), align: extendFlat({}, hoverLabelAttrs.align, {arrayOk: true}), namelength: extendFlat({}, hoverLabelAttrs.namelength, {arrayOk: true}), editType: 'none' } }; },{"../../lib/extend":281,"../../plots/font_attributes":365,"./layout_attributes":198}],189:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); module.exports = function calc(gd) { var calcdata = gd.calcdata; var fullLayout = gd._fullLayout; function makeCoerceHoverInfo(trace) { return function(val) { return Lib.coerceHoverinfo({hoverinfo: val}, {_module: trace._module}, fullLayout); }; } for(var i = 0; i < calcdata.length; i++) { var cd = calcdata[i]; var trace = cd[0].trace; // don't include hover calc fields for pie traces // as calcdata items might be sorted by value and // won't match the data array order. if(Registry.traceIs(trace, 'pie-like')) continue; var fillFn = Registry.traceIs(trace, '2dMap') ? paste : Lib.fillArray; fillFn(trace.hoverinfo, cd, 'hi', makeCoerceHoverInfo(trace)); if(trace.hovertemplate) fillFn(trace.hovertemplate, cd, 'ht'); if(!trace.hoverlabel) continue; fillFn(trace.hoverlabel.bgcolor, cd, 'hbg'); fillFn(trace.hoverlabel.bordercolor, cd, 'hbc'); fillFn(trace.hoverlabel.font.size, cd, 'hts'); fillFn(trace.hoverlabel.font.color, cd, 'htc'); fillFn(trace.hoverlabel.font.family, cd, 'htf'); fillFn(trace.hoverlabel.namelength, cd, 'hnl'); fillFn(trace.hoverlabel.align, cd, 'hta'); } }; function paste(traceAttr, cd, cdAttr, fn) { fn = fn || Lib.identity; if(Array.isArray(traceAttr)) { cd[0][cdAttr] = fn(traceAttr); } } },{"../../lib":287,"../../registry":378}],190:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var hover = _dereq_('./hover').hover; module.exports = function click(gd, evt, subplot) { var annotationsDone = Registry.getComponentMethod('annotations', 'onClick')(gd, gd._hoverdata); // fallback to fail-safe in case the plot type's hover method doesn't pass the subplot. // Ternary, for example, didn't, but it was caught because tested. if(subplot !== undefined) { // The true flag at the end causes it to re-run the hover computation to figure out *which* // point is being clicked. Without this, clicking is somewhat unreliable. hover(gd, evt, subplot, true); } function emitClick() { gd.emit('plotly_click', {points: gd._hoverdata, event: evt}); } if(gd._hoverdata && evt && evt.target) { if(annotationsDone && annotationsDone.then) { annotationsDone.then(emitClick); } else emitClick(); // why do we get a double event without this??? if(evt.stopImmediatePropagation) evt.stopImmediatePropagation(); } }; },{"../../registry":378,"./hover":194}],191:[function(_dereq_,module,exports){ 'use strict'; module.exports = { // hover labels for multiple horizontal bars get tilted by this angle YANGLE: 60, // size and display constants for hover text // pixel size of hover arrows HOVERARROWSIZE: 6, // pixels padding around text HOVERTEXTPAD: 3, // hover font HOVERFONTSIZE: 13, HOVERFONT: 'Arial, sans-serif', // minimum time (msec) between hover calls HOVERMINTIME: 50, // ID suffix (with fullLayout._uid) for hover events in the throttle cache HOVERID: '-hover' }; },{}],192:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var attributes = _dereq_('./attributes'); var handleHoverLabelDefaults = _dereq_('./hoverlabel_defaults'); module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } var opts = Lib.extendFlat({}, layout.hoverlabel); if(traceOut.hovertemplate) opts.namelength = -1; handleHoverLabelDefaults(traceIn, traceOut, coerce, opts); }; },{"../../lib":287,"./attributes":188,"./hoverlabel_defaults":195}],193:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); // look for either subplot or xaxis and yaxis attributes // does not handle splom case exports.getSubplot = function(trace) { return trace.subplot || (trace.xaxis + trace.yaxis) || trace.geo; }; // is trace in given list of subplots? // does handle splom case exports.isTraceInSubplots = function(trace, subplots) { if(trace.type === 'splom') { var xaxes = trace.xaxes || []; var yaxes = trace.yaxes || []; for(var i = 0; i < xaxes.length; i++) { for(var j = 0; j < yaxes.length; j++) { if(subplots.indexOf(xaxes[i] + yaxes[j]) !== -1) { return true; } } } return false; } return subplots.indexOf(exports.getSubplot(trace)) !== -1; }; // convenience functions for mapping all relevant axes exports.flat = function(subplots, v) { var out = new Array(subplots.length); for(var i = 0; i < subplots.length; i++) { out[i] = v; } return out; }; exports.p2c = function(axArray, v) { var out = new Array(axArray.length); for(var i = 0; i < axArray.length; i++) { out[i] = axArray[i].p2c(v); } return out; }; exports.getDistanceFunction = function(mode, dx, dy, dxy) { if(mode === 'closest') return dxy || exports.quadrature(dx, dy); return mode.charAt(0) === 'x' ? dx : dy; }; exports.getClosest = function(cd, distfn, pointData) { // do we already have a point number? (array mode only) if(pointData.index !== false) { if(pointData.index >= 0 && pointData.index < cd.length) { pointData.distance = 0; } else pointData.index = false; } else { // apply the distance function to each data point // this is the longest loop... if this bogs down, we may need // to create pre-sorted data (by x or y), not sure how to // do this for 'closest' for(var i = 0; i < cd.length; i++) { var newDistance = distfn(cd[i]); if(newDistance <= pointData.distance) { pointData.index = i; pointData.distance = newDistance; } } } return pointData; }; /* * pseudo-distance function for hover effects on areas: inside the region * distance is finite (`passVal`), outside it's Infinity. * * @param {number} v0: signed difference between the current position and the left edge * @param {number} v1: signed difference between the current position and the right edge * @param {number} passVal: the value to return on success */ exports.inbox = function(v0, v1, passVal) { return (v0 * v1 < 0 || v0 === 0) ? passVal : Infinity; }; exports.quadrature = function(dx, dy) { return function(di) { var x = dx(di); var y = dy(di); return Math.sqrt(x * x + y * y); }; }; /** Fill event data point object for hover and selection. * Invokes _module.eventData if present. * * N.B. note that point 'index' corresponds to input data array index * whereas 'number' is its post-transform version. * * If the hovered/selected pt corresponds to an multiple input points * (e.g. for histogram and transformed traces), 'pointNumbers` and 'pointIndices' * are include in the event data. * * @param {object} pt * @param {object} trace * @param {object} cd * @return {object} */ exports.makeEventData = function(pt, trace, cd) { // hover uses 'index', select uses 'pointNumber' var pointNumber = 'index' in pt ? pt.index : pt.pointNumber; var out = { data: trace._input, fullData: trace, curveNumber: trace.index, pointNumber: pointNumber }; if(trace._indexToPoints) { var pointIndices = trace._indexToPoints[pointNumber]; if(pointIndices.length === 1) { out.pointIndex = pointIndices[0]; } else { out.pointIndices = pointIndices; } } else { out.pointIndex = pointNumber; } if(trace._module.eventData) { out = trace._module.eventData(out, pt, trace, cd, pointNumber); } else { if('xVal' in pt) out.x = pt.xVal; else if('x' in pt) out.x = pt.x; if('yVal' in pt) out.y = pt.yVal; else if('y' in pt) out.y = pt.y; if(pt.xa) out.xaxis = pt.xa; if(pt.ya) out.yaxis = pt.ya; if(pt.zLabelVal !== undefined) out.z = pt.zLabelVal; } exports.appendArrayPointValue(out, trace, pointNumber); return out; }; /** Appends values inside array attributes corresponding to given point number * * @param {object} pointData : point data object (gets mutated here) * @param {object} trace : full trace object * @param {number|Array(number)} pointNumber : point number. May be a length-2 array * [row, col] to dig into 2D arrays */ exports.appendArrayPointValue = function(pointData, trace, pointNumber) { var arrayAttrs = trace._arrayAttrs; if(!arrayAttrs) { return; } for(var i = 0; i < arrayAttrs.length; i++) { var astr = arrayAttrs[i]; var key = getPointKey(astr); if(pointData[key] === undefined) { var val = Lib.nestedProperty(trace, astr).get(); var pointVal = getPointData(val, pointNumber); if(pointVal !== undefined) pointData[key] = pointVal; } } }; /** * Appends values inside array attributes corresponding to given point number array * For use when pointData references a plot entity that arose (or potentially arose) * from multiple points in the input data * * @param {object} pointData : point data object (gets mutated here) * @param {object} trace : full trace object * @param {Array(number)|Array(Array(number))} pointNumbers : Array of point numbers. * Each entry in the array may itself be a length-2 array [row, col] to dig into 2D arrays */ exports.appendArrayMultiPointValues = function(pointData, trace, pointNumbers) { var arrayAttrs = trace._arrayAttrs; if(!arrayAttrs) { return; } for(var i = 0; i < arrayAttrs.length; i++) { var astr = arrayAttrs[i]; var key = getPointKey(astr); if(pointData[key] === undefined) { var val = Lib.nestedProperty(trace, astr).get(); var keyVal = new Array(pointNumbers.length); for(var j = 0; j < pointNumbers.length; j++) { keyVal[j] = getPointData(val, pointNumbers[j]); } pointData[key] = keyVal; } } }; var pointKeyMap = { ids: 'id', locations: 'location', labels: 'label', values: 'value', 'marker.colors': 'color', parents: 'parent' }; function getPointKey(astr) { return pointKeyMap[astr] || astr; } function getPointData(val, pointNumber) { if(Array.isArray(pointNumber)) { if(Array.isArray(val) && Array.isArray(val[pointNumber[0]])) { return val[pointNumber[0]][pointNumber[1]]; } } else { return val[pointNumber]; } } var xyHoverMode = { x: true, y: true }; var unifiedHoverMode = { 'x unified': true, 'y unified': true }; exports.isUnifiedHover = function(hovermode) { if(typeof hovermode !== 'string') return false; return !!unifiedHoverMode[hovermode]; }; exports.isXYhover = function(hovermode) { if(typeof hovermode !== 'string') return false; return !!xyHoverMode[hovermode]; }; },{"../../lib":287}],194:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var tinycolor = _dereq_('tinycolor2'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var strRotate = Lib.strRotate; var Events = _dereq_('../../lib/events'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var overrideCursor = _dereq_('../../lib/override_cursor'); var Drawing = _dereq_('../drawing'); var Color = _dereq_('../color'); var dragElement = _dereq_('../dragelement'); var Axes = _dereq_('../../plots/cartesian/axes'); var Registry = _dereq_('../../registry'); var helpers = _dereq_('./helpers'); var constants = _dereq_('./constants'); var legendSupplyDefaults = _dereq_('../legend/defaults'); var legendDraw = _dereq_('../legend/draw'); // hover labels for multiple horizontal bars get tilted by some angle, // then need to be offset differently if they overlap var YANGLE = constants.YANGLE; var YA_RADIANS = Math.PI * YANGLE / 180; // expansion of projected height var YFACTOR = 1 / Math.sin(YA_RADIANS); // to make the appropriate post-rotation x offset, // you need both x and y offsets var YSHIFTX = Math.cos(YA_RADIANS); var YSHIFTY = Math.sin(YA_RADIANS); // size and display constants for hover text var HOVERARROWSIZE = constants.HOVERARROWSIZE; var HOVERTEXTPAD = constants.HOVERTEXTPAD; var multipleHoverPoints = { box: true, ohlc: true, violin: true, candlestick: true }; var cartesianScatterPoints = { scatter: true, scattergl: true, splom: true }; // fx.hover: highlight data on hover // evt can be a mousemove event, or an object with data about what points // to hover on // {xpx,ypx[,hovermode]} - pixel locations from top left // (with optional overriding hovermode) // {xval,yval[,hovermode]} - data values // [{curveNumber,(pointNumber|xval and/or yval)}] - // array of specific points to highlight // pointNumber is a single integer if gd.data[curveNumber] is 1D, // or a two-element array if it's 2D // xval and yval are data values, // 1D data may specify either or both, // 2D data must specify both // subplot is an id string (default "xy") // makes use of gl.hovermode, which can be: // x (find the points with the closest x values, ie a column), // closest (find the single closest point) // internally there are two more that occasionally get used: // y (pick out a row - only used for multiple horizontal bar charts) // array (used when the user specifies an explicit // array of points to hover on) // // We wrap the hovers in a timer, to limit their frequency. // The actual rendering is done by private function _hover. exports.hover = function hover(gd, evt, subplot, noHoverEvent) { gd = Lib.getGraphDiv(gd); // The 'target' property changes when bubbling out of Shadow DOM. // Throttling can delay reading the target, so we save the current value. var eventTarget = evt.target; Lib.throttle( gd._fullLayout._uid + constants.HOVERID, constants.HOVERMINTIME, function() { _hover(gd, evt, subplot, noHoverEvent, eventTarget); } ); }; /* * Draw a single hover item or an array of hover item in a pre-existing svg container somewhere * hoverItem should have keys: * - x and y (or x0, x1, y0, and y1): * the pixel position to mark, relative to opts.container * - xLabel, yLabel, zLabel, text, and name: * info to go in the label * - color: * the background color for the label. * - idealAlign (optional): * 'left' or 'right' for which side of the x/y box to try to put this on first * - borderColor (optional): * color for the border, defaults to strongest contrast with color * - fontFamily (optional): * string, the font for this label, defaults to constants.HOVERFONT * - fontSize (optional): * the label font size, defaults to constants.HOVERFONTSIZE * - fontColor (optional): * defaults to borderColor * opts should have keys: * - bgColor: * the background color this is against, used if the trace is * non-opaque, and for the name, which goes outside the box * - container: * a or element to add the hover label to * - outerContainer: * normally a parent of `container`, sets the bounding box to use to * constrain the hover label and determine whether to show it on the left or right * opts can have optional keys: * - anchorIndex: the index of the hover item used as an anchor for positioning. The other hover items will be pushed up or down to prevent overlap. */ exports.loneHover = function loneHover(hoverItems, opts) { var multiHover = true; if(!Array.isArray(hoverItems)) { multiHover = false; hoverItems = [hoverItems]; } var gd = opts.gd; var gTop = getTopOffset(gd); var gLeft = getLeftOffset(gd); var pointsData = hoverItems.map(function(hoverItem) { var _x0 = hoverItem._x0 || hoverItem.x0 || hoverItem.x || 0; var _x1 = hoverItem._x1 || hoverItem.x1 || hoverItem.x || 0; var _y0 = hoverItem._y0 || hoverItem.y0 || hoverItem.y || 0; var _y1 = hoverItem._y1 || hoverItem.y1 || hoverItem.y || 0; var eventData = hoverItem.eventData; if(eventData) { var x0 = Math.min(_x0, _x1); var x1 = Math.max(_x0, _x1); var y0 = Math.min(_y0, _y1); var y1 = Math.max(_y0, _y1); var trace = hoverItem.trace; if(Registry.traceIs(trace, 'gl3d')) { var container = gd._fullLayout[trace.scene]._scene.container; var dx = container.offsetLeft; var dy = container.offsetTop; x0 += dx; x1 += dx; y0 += dy; y1 += dy; } // TODO: handle heatmapgl eventData.bbox = { x0: x0 + gLeft, x1: x1 + gLeft, y0: y0 + gTop, y1: y1 + gTop }; if(opts.inOut_bbox) { opts.inOut_bbox.push(eventData.bbox); } } else { eventData = false; } return { color: hoverItem.color || Color.defaultLine, x0: hoverItem.x0 || hoverItem.x || 0, x1: hoverItem.x1 || hoverItem.x || 0, y0: hoverItem.y0 || hoverItem.y || 0, y1: hoverItem.y1 || hoverItem.y || 0, xLabel: hoverItem.xLabel, yLabel: hoverItem.yLabel, zLabel: hoverItem.zLabel, text: hoverItem.text, name: hoverItem.name, idealAlign: hoverItem.idealAlign, // optional extra bits of styling borderColor: hoverItem.borderColor, fontFamily: hoverItem.fontFamily, fontSize: hoverItem.fontSize, fontColor: hoverItem.fontColor, nameLength: hoverItem.nameLength, textAlign: hoverItem.textAlign, // filler to make createHoverText happy trace: hoverItem.trace || { index: 0, hoverinfo: '' }, xa: {_offset: 0}, ya: {_offset: 0}, index: 0, hovertemplate: hoverItem.hovertemplate || false, hovertemplateLabels: hoverItem.hovertemplateLabels || false, eventData: eventData }; }); var rotateLabels = false; var hoverLabel = createHoverText(pointsData, { gd: gd, hovermode: 'closest', rotateLabels: rotateLabels, bgColor: opts.bgColor || Color.background, container: d3.select(opts.container), outerContainer: opts.outerContainer || opts.container }); // Fix vertical overlap var tooltipSpacing = 5; var lastBottomY = 0; var anchor = 0; hoverLabel .sort(function(a, b) {return a.y0 - b.y0;}) .each(function(d, i) { var topY = d.y0 - d.by / 2; if((topY - tooltipSpacing) < lastBottomY) { d.offset = (lastBottomY - topY) + tooltipSpacing; } else { d.offset = 0; } lastBottomY = topY + d.by + d.offset; if(i === opts.anchorIndex || 0) anchor = d.offset; }) .each(function(d) { d.offset -= anchor; }); var scaleX = gd._fullLayout._invScaleX; var scaleY = gd._fullLayout._invScaleY; alignHoverText(hoverLabel, rotateLabels, scaleX, scaleY); return multiHover ? hoverLabel : hoverLabel.node(); }; // The actual implementation is here: function _hover(gd, evt, subplot, noHoverEvent, eventTarget) { if(!subplot) subplot = 'xy'; // if the user passed in an array of subplots, // use those instead of finding overlayed plots var subplots = Array.isArray(subplot) ? subplot : [subplot]; var fullLayout = gd._fullLayout; var plots = fullLayout._plots || []; var plotinfo = plots[subplot]; var hasCartesian = fullLayout._has('cartesian'); // list of all overlaid subplots to look at if(plotinfo) { var overlayedSubplots = plotinfo.overlays.map(function(pi) { return pi.id; }); subplots = subplots.concat(overlayedSubplots); } var len = subplots.length; var xaArray = new Array(len); var yaArray = new Array(len); var supportsCompare = false; for(var i = 0; i < len; i++) { var spId = subplots[i]; if(plots[spId]) { // 'cartesian' case supportsCompare = true; xaArray[i] = plots[spId].xaxis; yaArray[i] = plots[spId].yaxis; } else if(fullLayout[spId] && fullLayout[spId]._subplot) { // other subplot types var _subplot = fullLayout[spId]._subplot; xaArray[i] = _subplot.xaxis; yaArray[i] = _subplot.yaxis; } else { Lib.warn('Unrecognized subplot: ' + spId); return; } } var hovermode = evt.hovermode || fullLayout.hovermode; if(hovermode && !supportsCompare) hovermode = 'closest'; if(['x', 'y', 'closest', 'x unified', 'y unified'].indexOf(hovermode) === -1 || !gd.calcdata || gd.querySelector('.zoombox') || gd._dragging) { return dragElement.unhoverRaw(gd, evt); } var hoverdistance = fullLayout.hoverdistance; if(hoverdistance === -1) hoverdistance = Infinity; var spikedistance = fullLayout.spikedistance; if(spikedistance === -1) spikedistance = Infinity; // hoverData: the set of candidate points we've found to highlight var hoverData = []; // searchData: the data to search in. Mostly this is just a copy of // gd.calcdata, filtered to the subplot and overlays we're on // but if a point array is supplied it will be a mapping // of indicated curves var searchData = []; // [x|y]valArray: the axis values of the hover event // mapped onto each of the currently selected overlaid subplots var xvalArray, yvalArray; var itemnum, curvenum, cd, trace, subplotId, subploti, _mode, xval, yval, pointData, closedataPreviousLength; // spikePoints: the set of candidate points we've found to draw spikes to var spikePoints = { hLinePoint: null, vLinePoint: null }; // does subplot have one (or more) horizontal traces? // This is used to determine whether we rotate the labels or not var hasOneHorizontalTrace = false; // Figure out what we're hovering on: // mouse location or user-supplied data if(Array.isArray(evt)) { // user specified an array of points to highlight hovermode = 'array'; for(itemnum = 0; itemnum < evt.length; itemnum++) { cd = gd.calcdata[evt[itemnum].curveNumber || 0]; if(cd) { trace = cd[0].trace; if(cd[0].trace.hoverinfo !== 'skip') { searchData.push(cd); if(trace.orientation === 'h') { hasOneHorizontalTrace = true; } } } } } else { for(curvenum = 0; curvenum < gd.calcdata.length; curvenum++) { cd = gd.calcdata[curvenum]; trace = cd[0].trace; if(trace.hoverinfo !== 'skip' && helpers.isTraceInSubplots(trace, subplots)) { searchData.push(cd); if(trace.orientation === 'h') { hasOneHorizontalTrace = true; } } } // [x|y]px: the pixels (from top left) of the mouse location // on the currently selected plot area // add pointerX|Y property for drawing the spikes in spikesnap 'cursor' situation var hasUserCalledHover = !eventTarget; var xpx, ypx; if(hasUserCalledHover) { if('xpx' in evt) xpx = evt.xpx; else xpx = xaArray[0]._length / 2; if('ypx' in evt) ypx = evt.ypx; else ypx = yaArray[0]._length / 2; } else { // fire the beforehover event and quit if it returns false // note that we're only calling this on real mouse events, so // manual calls to fx.hover will always run. if(Events.triggerHandler(gd, 'plotly_beforehover', evt) === false) { return; } var dbb = eventTarget.getBoundingClientRect(); xpx = evt.clientX - dbb.left; ypx = evt.clientY - dbb.top; fullLayout._calcInverseTransform(gd); var transformedCoords = Lib.apply3DTransform(fullLayout._invTransform)(xpx, ypx); xpx = transformedCoords[0]; ypx = transformedCoords[1]; // in case hover was called from mouseout into hovertext, // it's possible you're not actually over the plot anymore if(xpx < 0 || xpx > xaArray[0]._length || ypx < 0 || ypx > yaArray[0]._length) { return dragElement.unhoverRaw(gd, evt); } } evt.pointerX = xpx + xaArray[0]._offset; evt.pointerY = ypx + yaArray[0]._offset; if('xval' in evt) xvalArray = helpers.flat(subplots, evt.xval); else xvalArray = helpers.p2c(xaArray, xpx); if('yval' in evt) yvalArray = helpers.flat(subplots, evt.yval); else yvalArray = helpers.p2c(yaArray, ypx); if(!isNumeric(xvalArray[0]) || !isNumeric(yvalArray[0])) { Lib.warn('Fx.hover failed', evt, gd); return dragElement.unhoverRaw(gd, evt); } } // the pixel distance to beat as a matching point // in 'x' or 'y' mode this resets for each trace var distance = Infinity; // find the closest point in each trace // this is minimum dx and/or dy, depending on mode // and the pixel position for the label (labelXpx, labelYpx) function findHoverPoints(customXVal, customYVal) { for(curvenum = 0; curvenum < searchData.length; curvenum++) { cd = searchData[curvenum]; // filter out invisible or broken data if(!cd || !cd[0] || !cd[0].trace) continue; trace = cd[0].trace; if(trace.visible !== true || trace._length === 0) continue; // Explicitly bail out for these two. I don't know how to otherwise prevent // the rest of this function from running and failing if(['carpet', 'contourcarpet'].indexOf(trace._module.name) !== -1) continue; if(trace.type === 'splom') { // splom traces do not generate overlay subplots, // it is safe to assume here splom traces correspond to the 0th subplot subploti = 0; subplotId = subplots[subploti]; } else { subplotId = helpers.getSubplot(trace); subploti = subplots.indexOf(subplotId); } // within one trace mode can sometimes be overridden _mode = hovermode; if(helpers.isUnifiedHover(_mode)) { _mode = _mode.charAt(0); } // container for new point, also used to pass info into module.hoverPoints pointData = { // trace properties cd: cd, trace: trace, xa: xaArray[subploti], ya: yaArray[subploti], // max distances for hover and spikes - for points that want to show but do not // want to override other points, set distance/spikeDistance equal to max*Distance // and it will not get filtered out but it will be guaranteed to have a greater // distance than any point that calculated a real distance. maxHoverDistance: hoverdistance, maxSpikeDistance: spikedistance, // point properties - override all of these index: false, // point index in trace - only used by plotly.js hoverdata consumers distance: Math.min(distance, hoverdistance), // pixel distance or pseudo-distance // distance/pseudo-distance for spikes. This distance should always be calculated // as if in "closest" mode, and should only be set if this point should // generate a spike. spikeDistance: Infinity, // in some cases the spikes have different positioning from the hover label // they don't need x0/x1, just one position xSpike: undefined, ySpike: undefined, // where and how to display the hover label color: Color.defaultLine, // trace color name: trace.name, x0: undefined, x1: undefined, y0: undefined, y1: undefined, xLabelVal: undefined, yLabelVal: undefined, zLabelVal: undefined, text: undefined }; // add ref to subplot object (non-cartesian case) if(fullLayout[subplotId]) { pointData.subplot = fullLayout[subplotId]._subplot; } // add ref to splom scene if(fullLayout._splomScenes && fullLayout._splomScenes[trace.uid]) { pointData.scene = fullLayout._splomScenes[trace.uid]; } closedataPreviousLength = hoverData.length; // for a highlighting array, figure out what // we're searching for with this element if(_mode === 'array') { var selection = evt[curvenum]; if('pointNumber' in selection) { pointData.index = selection.pointNumber; _mode = 'closest'; } else { _mode = ''; if('xval' in selection) { xval = selection.xval; _mode = 'x'; } if('yval' in selection) { yval = selection.yval; _mode = _mode ? 'closest' : 'y'; } } } else if(customXVal !== undefined && customYVal !== undefined) { xval = customXVal; yval = customYVal; } else { xval = xvalArray[subploti]; yval = yvalArray[subploti]; } // Now if there is range to look in, find the points to hover. if(hoverdistance !== 0) { if(trace._module && trace._module.hoverPoints) { var newPoints = trace._module.hoverPoints(pointData, xval, yval, _mode, { finiteRange: true, hoverLayer: fullLayout._hoverlayer }); if(newPoints) { var newPoint; for(var newPointNum = 0; newPointNum < newPoints.length; newPointNum++) { newPoint = newPoints[newPointNum]; if(isNumeric(newPoint.x0) && isNumeric(newPoint.y0)) { hoverData.push(cleanPoint(newPoint, hovermode)); } } } } else { Lib.log('Unrecognized trace type in hover:', trace); } } // in closest mode, remove any existing (farther) points // and don't look any farther than this latest point (or points, some // traces like box & violin make multiple hover labels at once) if(hovermode === 'closest' && hoverData.length > closedataPreviousLength) { hoverData.splice(0, closedataPreviousLength); distance = hoverData[0].distance; } // Now if there is range to look in, find the points to draw the spikelines // Do it only if there is no hoverData if(hasCartesian && (spikedistance !== 0)) { if(hoverData.length === 0) { pointData.distance = spikedistance; pointData.index = false; var closestPoints = trace._module.hoverPoints(pointData, xval, yval, 'closest', { hoverLayer: fullLayout._hoverlayer }); if(closestPoints) { closestPoints = closestPoints.filter(function(point) { // some hover points, like scatter fills, do not allow spikes, // so will generate a hover point but without a valid spikeDistance return point.spikeDistance <= spikedistance; }); } if(closestPoints && closestPoints.length) { var tmpPoint; var closestVPoints = closestPoints.filter(function(point) { return point.xa.showspikes && point.xa.spikesnap !== 'hovered data'; }); if(closestVPoints.length) { var closestVPt = closestVPoints[0]; if(isNumeric(closestVPt.x0) && isNumeric(closestVPt.y0)) { tmpPoint = fillSpikePoint(closestVPt); if(!spikePoints.vLinePoint || (spikePoints.vLinePoint.spikeDistance > tmpPoint.spikeDistance)) { spikePoints.vLinePoint = tmpPoint; } } } var closestHPoints = closestPoints.filter(function(point) { return point.ya.showspikes && point.ya.spikesnap !== 'hovered data'; }); if(closestHPoints.length) { var closestHPt = closestHPoints[0]; if(isNumeric(closestHPt.x0) && isNumeric(closestHPt.y0)) { tmpPoint = fillSpikePoint(closestHPt); if(!spikePoints.hLinePoint || (spikePoints.hLinePoint.spikeDistance > tmpPoint.spikeDistance)) { spikePoints.hLinePoint = tmpPoint; } } } } } } } } findHoverPoints(); function selectClosestPoint(pointsData, spikedistance, spikeOnWinning) { var resultPoint = null; var minDistance = Infinity; var thisSpikeDistance; for(var i = 0; i < pointsData.length; i++) { thisSpikeDistance = pointsData[i].spikeDistance; if(spikeOnWinning && i === 0) thisSpikeDistance = -Infinity; if(thisSpikeDistance <= minDistance && thisSpikeDistance <= spikedistance) { resultPoint = pointsData[i]; minDistance = thisSpikeDistance; } } return resultPoint; } function fillSpikePoint(point) { if(!point) return null; return { xa: point.xa, ya: point.ya, x: point.xSpike !== undefined ? point.xSpike : (point.x0 + point.x1) / 2, y: point.ySpike !== undefined ? point.ySpike : (point.y0 + point.y1) / 2, distance: point.distance, spikeDistance: point.spikeDistance, curveNumber: point.trace.index, color: point.color, pointNumber: point.index }; } var spikelineOpts = { fullLayout: fullLayout, container: fullLayout._hoverlayer, event: evt }; var oldspikepoints = gd._spikepoints; var newspikepoints = { vLinePoint: spikePoints.vLinePoint, hLinePoint: spikePoints.hLinePoint }; gd._spikepoints = newspikepoints; var sortHoverData = function() { hoverData.sort(function(d1, d2) { return d1.distance - d2.distance; }); // move period positioned points and box/bar-like traces to the end of the list hoverData = orderRangePoints(hoverData, hovermode); }; sortHoverData(); var axLetter = hovermode.charAt(0); var spikeOnWinning = (axLetter === 'x' || axLetter === 'y') && hoverData[0] && cartesianScatterPoints[hoverData[0].trace.type]; // Now if it is not restricted by spikedistance option, set the points to draw the spikelines if(hasCartesian && (spikedistance !== 0)) { if(hoverData.length !== 0) { var tmpHPointData = hoverData.filter(function(point) { return point.ya.showspikes; }); var tmpHPoint = selectClosestPoint(tmpHPointData, spikedistance, spikeOnWinning); spikePoints.hLinePoint = fillSpikePoint(tmpHPoint); var tmpVPointData = hoverData.filter(function(point) { return point.xa.showspikes; }); var tmpVPoint = selectClosestPoint(tmpVPointData, spikedistance, spikeOnWinning); spikePoints.vLinePoint = fillSpikePoint(tmpVPoint); } } // if hoverData is empty check for the spikes to draw and quit if there are none if(hoverData.length === 0) { var result = dragElement.unhoverRaw(gd, evt); if(hasCartesian && ((spikePoints.hLinePoint !== null) || (spikePoints.vLinePoint !== null))) { if(spikesChanged(oldspikepoints)) { createSpikelines(gd, spikePoints, spikelineOpts); } } return result; } if(hasCartesian) { if(spikesChanged(oldspikepoints)) { createSpikelines(gd, spikePoints, spikelineOpts); } } if( helpers.isXYhover(_mode) && hoverData[0].length !== 0 && hoverData[0].trace.type !== 'splom' // TODO: add support for splom ) { // pick winning point var winningPoint = hoverData[0]; // discard other points if(multipleHoverPoints[winningPoint.trace.type]) { hoverData = hoverData.filter(function(d) { return d.trace.index === winningPoint.trace.index; }); } else { hoverData = [winningPoint]; } var initLen = hoverData.length; var winX = getCoord('x', winningPoint, fullLayout); var winY = getCoord('y', winningPoint, fullLayout); // in compare mode, select every point at position findHoverPoints(winX, winY); var finalPoints = []; var seen = {}; var id = 0; var insert = function(newHd) { var key = multipleHoverPoints[newHd.trace.type] ? hoverDataKey(newHd) : newHd.trace.index; if(!seen[key]) { id++; seen[key] = id; finalPoints.push(newHd); } else { var oldId = seen[key] - 1; var oldHd = finalPoints[oldId]; if(oldId > 0 && Math.abs(newHd.distance) < Math.abs(oldHd.distance) ) { // replace with closest finalPoints[oldId] = newHd; } } }; var k; // insert the winnig point(s) first for(k = 0; k < initLen; k++) { insert(hoverData[k]); } // override from the end for(k = hoverData.length - 1; k > initLen - 1; k--) { insert(hoverData[k]); } hoverData = finalPoints; sortHoverData(); } // lastly, emit custom hover/unhover events var oldhoverdata = gd._hoverdata; var newhoverdata = []; var gTop = getTopOffset(gd); var gLeft = getLeftOffset(gd); // pull out just the data that's useful to // other people and send it to the event for(itemnum = 0; itemnum < hoverData.length; itemnum++) { var pt = hoverData[itemnum]; var eventData = helpers.makeEventData(pt, pt.trace, pt.cd); if(pt.hovertemplate !== false) { var ht = false; if(pt.cd[pt.index] && pt.cd[pt.index].ht) { ht = pt.cd[pt.index].ht; } pt.hovertemplate = ht || pt.trace.hovertemplate || false; } if(pt.xa && pt.ya) { var _x0 = pt.x0 + pt.xa._offset; var _x1 = pt.x1 + pt.xa._offset; var _y0 = pt.y0 + pt.ya._offset; var _y1 = pt.y1 + pt.ya._offset; var x0 = Math.min(_x0, _x1); var x1 = Math.max(_x0, _x1); var y0 = Math.min(_y0, _y1); var y1 = Math.max(_y0, _y1); eventData.bbox = { x0: x0 + gLeft, x1: x1 + gLeft, y0: y0 + gTop, y1: y1 + gTop }; } pt.eventData = [eventData]; newhoverdata.push(eventData); } gd._hoverdata = newhoverdata; var rotateLabels = ( (hovermode === 'y' && (searchData.length > 1 || hoverData.length > 1)) || (hovermode === 'closest' && hasOneHorizontalTrace && hoverData.length > 1) ); var bgColor = Color.combine( fullLayout.plot_bgcolor || Color.background, fullLayout.paper_bgcolor ); var hoverLabels = createHoverText(hoverData, { gd: gd, hovermode: hovermode, rotateLabels: rotateLabels, bgColor: bgColor, container: fullLayout._hoverlayer, outerContainer: fullLayout._paper.node(), commonLabelOpts: fullLayout.hoverlabel, hoverdistance: fullLayout.hoverdistance }); if(!helpers.isUnifiedHover(hovermode)) { hoverAvoidOverlaps(hoverLabels, rotateLabels ? 'xa' : 'ya', fullLayout); alignHoverText(hoverLabels, rotateLabels, fullLayout._invScaleX, fullLayout._invScaleY); } // TODO: tagName hack is needed to appease geo.js's hack of using eventTarget=true // we should improve the "fx" API so other plots can use it without these hack. if(eventTarget && eventTarget.tagName) { var hasClickToShow = Registry.getComponentMethod('annotations', 'hasClickToShow')(gd, newhoverdata); overrideCursor(d3.select(eventTarget), hasClickToShow ? 'pointer' : ''); } // don't emit events if called manually if(!eventTarget || noHoverEvent || !hoverChanged(gd, evt, oldhoverdata)) return; if(oldhoverdata) { gd.emit('plotly_unhover', { event: evt, points: oldhoverdata }); } gd.emit('plotly_hover', { event: evt, points: gd._hoverdata, xaxes: xaArray, yaxes: yaArray, xvals: xvalArray, yvals: yvalArray }); } function hoverDataKey(d) { return [d.trace.index, d.index, d.x0, d.y0, d.name, d.attr, d.xa ? d.xa._id : '', d.ya ? d.ya._id : ''].join(','); } var EXTRA_STRING_REGEX = /([\s\S]*)<\/extra>/; function createHoverText(hoverData, opts) { var gd = opts.gd; var fullLayout = gd._fullLayout; var hovermode = opts.hovermode; var rotateLabels = opts.rotateLabels; var bgColor = opts.bgColor; var container = opts.container; var outerContainer = opts.outerContainer; var commonLabelOpts = opts.commonLabelOpts || {}; // Early exit if no labels are drawn if(hoverData.length === 0) return [[]]; // opts.fontFamily/Size are used for the common label // and as defaults for each hover label, though the individual labels // can override this. var fontFamily = opts.fontFamily || constants.HOVERFONT; var fontSize = opts.fontSize || constants.HOVERFONTSIZE; var c0 = hoverData[0]; var xa = c0.xa; var ya = c0.ya; var axLetter = hovermode.charAt(0); var t0 = c0[axLetter + 'Label']; var outerContainerBB = getBoundingClientRect(gd, outerContainer); var outerTop = outerContainerBB.top; var outerWidth = outerContainerBB.width; var outerHeight = outerContainerBB.height; // show the common label, if any, on the axis // never show a common label in array mode, // even if sometimes there could be one var showCommonLabel = ( (t0 !== undefined) && (c0.distance <= opts.hoverdistance) && (hovermode === 'x' || hovermode === 'y') ); // all hover traces hoverinfo must contain the hovermode // to have common labels if(showCommonLabel) { var allHaveZ = true; var i, traceHoverinfo; for(i = 0; i < hoverData.length; i++) { if(allHaveZ && hoverData[i].zLabel === undefined) allHaveZ = false; traceHoverinfo = hoverData[i].hoverinfo || hoverData[i].trace.hoverinfo; if(traceHoverinfo) { var parts = Array.isArray(traceHoverinfo) ? traceHoverinfo : traceHoverinfo.split('+'); if(parts.indexOf('all') === -1 && parts.indexOf(hovermode) === -1) { showCommonLabel = false; break; } } } // xyz labels put all info in their main label, so have no need of a common label if(allHaveZ) showCommonLabel = false; } var commonLabel = container.selectAll('g.axistext') .data(showCommonLabel ? [0] : []); commonLabel.enter().append('g') .classed('axistext', true); commonLabel.exit().remove(); commonLabel.each(function() { var label = d3.select(this); var lpath = Lib.ensureSingle(label, 'path', '', function(s) { s.style({'stroke-width': '1px'}); }); var ltext = Lib.ensureSingle(label, 'text', '', function(s) { // prohibit tex interpretation until we can handle // tex and regular text together s.attr('data-notex', 1); }); var commonBgColor = commonLabelOpts.bgcolor || Color.defaultLine; var commonStroke = commonLabelOpts.bordercolor || Color.contrast(commonBgColor); var contrastColor = Color.contrast(commonBgColor); var commonLabelFont = { family: commonLabelOpts.font.family || fontFamily, size: commonLabelOpts.font.size || fontSize, color: commonLabelOpts.font.color || contrastColor }; lpath.style({ fill: commonBgColor, stroke: commonStroke }); ltext.text(t0) .call(Drawing.font, commonLabelFont) .call(svgTextUtils.positionText, 0, 0) .call(svgTextUtils.convertToTspans, gd); label.attr('transform', ''); var tbb = getBoundingClientRect(gd, ltext.node()); var lx, ly; if(hovermode === 'x') { var topsign = xa.side === 'top' ? '-' : ''; ltext.attr('text-anchor', 'middle') .call(svgTextUtils.positionText, 0, (xa.side === 'top' ? (outerTop - tbb.bottom - HOVERARROWSIZE - HOVERTEXTPAD) : (outerTop - tbb.top + HOVERARROWSIZE + HOVERTEXTPAD))); lx = xa._offset + (c0.x0 + c0.x1) / 2; ly = ya._offset + (xa.side === 'top' ? 0 : ya._length); var halfWidth = tbb.width / 2 + HOVERTEXTPAD; if(lx < halfWidth) { lx = halfWidth; lpath.attr('d', 'M-' + (halfWidth - HOVERARROWSIZE) + ',0' + 'L-' + (halfWidth - HOVERARROWSIZE * 2) + ',' + topsign + HOVERARROWSIZE + 'H' + (HOVERTEXTPAD + tbb.width / 2) + 'v' + topsign + (HOVERTEXTPAD * 2 + tbb.height) + 'H-' + halfWidth + 'V' + topsign + HOVERARROWSIZE + 'Z'); } else if(lx > (fullLayout.width - halfWidth)) { lx = fullLayout.width - halfWidth; lpath.attr('d', 'M' + (halfWidth - HOVERARROWSIZE) + ',0' + 'L' + halfWidth + ',' + topsign + HOVERARROWSIZE + 'v' + topsign + (HOVERTEXTPAD * 2 + tbb.height) + 'H-' + halfWidth + 'V' + topsign + HOVERARROWSIZE + 'H' + (halfWidth - HOVERARROWSIZE * 2) + 'Z'); } else { lpath.attr('d', 'M0,0' + 'L' + HOVERARROWSIZE + ',' + topsign + HOVERARROWSIZE + 'H' + (HOVERTEXTPAD + tbb.width / 2) + 'v' + topsign + (HOVERTEXTPAD * 2 + tbb.height) + 'H-' + (HOVERTEXTPAD + tbb.width / 2) + 'V' + topsign + HOVERARROWSIZE + 'H-' + HOVERARROWSIZE + 'Z'); } } else { var anchor; var sgn; var leftsign; if(ya.side === 'right') { anchor = 'start'; sgn = 1; leftsign = ''; lx = xa._offset + xa._length; } else { anchor = 'end'; sgn = -1; leftsign = '-'; lx = xa._offset; } ly = ya._offset + (c0.y0 + c0.y1) / 2; ltext.attr('text-anchor', anchor); lpath.attr('d', 'M0,0' + 'L' + leftsign + HOVERARROWSIZE + ',' + HOVERARROWSIZE + 'V' + (HOVERTEXTPAD + tbb.height / 2) + 'h' + leftsign + (HOVERTEXTPAD * 2 + tbb.width) + 'V-' + (HOVERTEXTPAD + tbb.height / 2) + 'H' + leftsign + HOVERARROWSIZE + 'V-' + HOVERARROWSIZE + 'Z'); var halfHeight = tbb.height / 2; var lty = outerTop - tbb.top - halfHeight; var clipId = 'clip' + fullLayout._uid + 'commonlabel' + ya._id; var clipPath; if(lx < (tbb.width + 2 * HOVERTEXTPAD + HOVERARROWSIZE)) { clipPath = 'M-' + (HOVERARROWSIZE + HOVERTEXTPAD) + '-' + halfHeight + 'h-' + (tbb.width - HOVERTEXTPAD) + 'V' + halfHeight + 'h' + (tbb.width - HOVERTEXTPAD) + 'Z'; var ltx = tbb.width - lx + HOVERTEXTPAD; svgTextUtils.positionText(ltext, ltx, lty); // shift each line (except the longest) so that start-of-line // is always visible if(anchor === 'end') { ltext.selectAll('tspan').each(function() { var s = d3.select(this); var dummy = Drawing.tester.append('text') .text(s.text()) .call(Drawing.font, commonLabelFont); var dummyBB = getBoundingClientRect(gd, dummy.node()); if(Math.round(dummyBB.width) < Math.round(tbb.width)) { s.attr('x', ltx - dummyBB.width); } dummy.remove(); }); } } else { svgTextUtils.positionText(ltext, sgn * (HOVERTEXTPAD + HOVERARROWSIZE), lty); clipPath = null; } var textClip = fullLayout._topclips.selectAll('#' + clipId).data(clipPath ? [0] : []); textClip.enter().append('clipPath').attr('id', clipId).append('path'); textClip.exit().remove(); textClip.select('path').attr('d', clipPath); Drawing.setClipUrl(ltext, clipPath ? clipId : null, gd); } label.attr('transform', strTranslate(lx, ly)); }); // Show a single hover label if(helpers.isUnifiedHover(hovermode)) { // Delete leftover hover labels from other hovermodes container.selectAll('g.hovertext').remove(); var groupedHoverData = hoverData.filter(function(data) {return data.hoverinfo !== 'none';}); // Return early if nothing is hovered on if(groupedHoverData.length === 0) return; // mock legend var hoverlabel = fullLayout.hoverlabel; var font = hoverlabel.font; var mockLayoutIn = { showlegend: true, legend: { title: {text: t0, font: font}, font: font, bgcolor: hoverlabel.bgcolor, bordercolor: hoverlabel.bordercolor, borderwidth: 1, tracegroupgap: 7, traceorder: fullLayout.legend ? fullLayout.legend.traceorder : undefined, orientation: 'v' } }; var mockLayoutOut = { font: font }; legendSupplyDefaults(mockLayoutIn, mockLayoutOut, gd._fullData); var mockLegend = mockLayoutOut.legend; // prepare items for the legend mockLegend.entries = []; for(var j = 0; j < groupedHoverData.length; j++) { var pt = groupedHoverData[j]; if(pt.hoverinfo === 'none') continue; var texts = getHoverLabelText(pt, true, hovermode, fullLayout, t0); var text = texts[0]; var name = texts[1]; pt.name = name; if(name !== '') { pt.text = name + ' : ' + text; } else { pt.text = text; } // pass through marker's calcdata to style legend items var cd = pt.cd[pt.index]; if(cd) { if(cd.mc) pt.mc = cd.mc; if(cd.mcc) pt.mc = cd.mcc; if(cd.mlc) pt.mlc = cd.mlc; if(cd.mlcc) pt.mlc = cd.mlcc; if(cd.mlw) pt.mlw = cd.mlw; if(cd.mrc) pt.mrc = cd.mrc; if(cd.dir) pt.dir = cd.dir; } pt._distinct = true; mockLegend.entries.push([pt]); } mockLegend.entries.sort(function(a, b) { return a[0].trace.index - b[0].trace.index;}); mockLegend.layer = container; // Draw unified hover label mockLegend._inHover = true; mockLegend._groupTitleFont = hoverlabel.grouptitlefont; legendDraw(gd, mockLegend); // Position the hover var legendContainer = container.select('g.legend'); var tbb = getBoundingClientRect(gd, legendContainer.node()); var tWidth = tbb.width + 2 * HOVERTEXTPAD; var tHeight = tbb.height + 2 * HOVERTEXTPAD; var winningPoint = groupedHoverData[0]; var avgX = (winningPoint.x0 + winningPoint.x1) / 2; var avgY = (winningPoint.y0 + winningPoint.y1) / 2; // When a scatter (or e.g. heatmap) point wins, it's OK for the hovelabel to occlude the bar and other points. var pointWon = !( Registry.traceIs(winningPoint.trace, 'bar-like') || Registry.traceIs(winningPoint.trace, 'box-violin') ); var lyBottom, lyTop; if(axLetter === 'y') { if(pointWon) { lyTop = avgY - HOVERTEXTPAD; lyBottom = avgY + HOVERTEXTPAD; } else { lyTop = Math.min.apply(null, groupedHoverData.map(function(c) { return Math.min(c.y0, c.y1); })); lyBottom = Math.max.apply(null, groupedHoverData.map(function(c) { return Math.max(c.y0, c.y1); })); } } else { lyTop = lyBottom = Lib.mean(groupedHoverData.map(function(c) { return (c.y0 + c.y1) / 2; })) - tHeight / 2; } var lxRight, lxLeft; if(axLetter === 'x') { if(pointWon) { lxRight = avgX + HOVERTEXTPAD; lxLeft = avgX - HOVERTEXTPAD; } else { lxRight = Math.max.apply(null, groupedHoverData.map(function(c) { return Math.max(c.x0, c.x1); })); lxLeft = Math.min.apply(null, groupedHoverData.map(function(c) { return Math.min(c.x0, c.x1); })); } } else { lxRight = lxLeft = Lib.mean(groupedHoverData.map(function(c) { return (c.x0 + c.x1) / 2; })) - tWidth / 2; } var xOffset = xa._offset; var yOffset = ya._offset; lyBottom += yOffset; lxRight += xOffset; lxLeft += xOffset - tWidth; lyTop += yOffset - tHeight; var lx, ly; // top and left positions of the hover box // horizontal alignment to end up on screen if(lxRight + tWidth < outerWidth && lxRight >= 0) { lx = lxRight; } else if(lxLeft + tWidth < outerWidth && lxLeft >= 0) { lx = lxLeft; } else if(xOffset + tWidth < outerWidth) { lx = xOffset; // subplot left corner } else { // closest left or right side of the paper if(lxRight - avgX < avgX - lxLeft + tWidth) { lx = outerWidth - tWidth; } else { lx = 0; } } lx += HOVERTEXTPAD; // vertical alignement to end up on screen if(lyBottom + tHeight < outerHeight && lyBottom >= 0) { ly = lyBottom; } else if(lyTop + tHeight < outerHeight && lyTop >= 0) { ly = lyTop; } else if(yOffset + tHeight < outerHeight) { ly = yOffset; // subplot top corner } else { // closest top or bottom side of the paper if(lyBottom - avgY < avgY - lyTop + tHeight) { ly = outerHeight - tHeight; } else { ly = 0; } } ly += HOVERTEXTPAD; legendContainer.attr('transform', strTranslate(lx - 1, ly - 1)); return legendContainer; } // show all the individual labels // first create the objects var hoverLabels = container.selectAll('g.hovertext') .data(hoverData, function(d) { // N.B. when multiple items have the same result key-function value, // only the first of those items in hoverData gets rendered return hoverDataKey(d); }); hoverLabels.enter().append('g') .classed('hovertext', true) .each(function() { var g = d3.select(this); // trace name label (rect and text.name) g.append('rect') .call(Color.fill, Color.addOpacity(bgColor, 0.8)); g.append('text').classed('name', true); // trace data label (path and text.nums) g.append('path') .style('stroke-width', '1px'); g.append('text').classed('nums', true) .call(Drawing.font, fontFamily, fontSize); }); hoverLabels.exit().remove(); // then put the text in, position the pointer to the data, // and figure out sizes hoverLabels.each(function(d) { var g = d3.select(this).attr('transform', ''); var dColor = d.color; if(Array.isArray(dColor)) { dColor = dColor[d.eventData[0].pointNumber]; } // combine possible non-opaque trace color with bgColor var color0 = d.bgcolor || dColor; // color for 'nums' part of the label var numsColor = Color.combine( Color.opacity(color0) ? color0 : Color.defaultLine, bgColor ); // color for 'name' part of the label var nameColor = Color.combine( Color.opacity(dColor) ? dColor : Color.defaultLine, bgColor ); // find a contrasting color for border and text var contrastColor = d.borderColor || Color.contrast(numsColor); var texts = getHoverLabelText(d, showCommonLabel, hovermode, fullLayout, t0, g); var text = texts[0]; var name = texts[1]; // main label var tx = g.select('text.nums') .call(Drawing.font, d.fontFamily || fontFamily, d.fontSize || fontSize, d.fontColor || contrastColor) .text(text) .attr('data-notex', 1) .call(svgTextUtils.positionText, 0, 0) .call(svgTextUtils.convertToTspans, gd); var tx2 = g.select('text.name'); var tx2width = 0; var tx2height = 0; // secondary label for non-empty 'name' if(name && name !== text) { tx2.call(Drawing.font, d.fontFamily || fontFamily, d.fontSize || fontSize, nameColor) .text(name) .attr('data-notex', 1) .call(svgTextUtils.positionText, 0, 0) .call(svgTextUtils.convertToTspans, gd); var t2bb = getBoundingClientRect(gd, tx2.node()); tx2width = t2bb.width + 2 * HOVERTEXTPAD; tx2height = t2bb.height + 2 * HOVERTEXTPAD; } else { tx2.remove(); g.select('rect').remove(); } g.select('path').style({ fill: numsColor, stroke: contrastColor }); var htx = d.xa._offset + (d.x0 + d.x1) / 2; var hty = d.ya._offset + (d.y0 + d.y1) / 2; var dx = Math.abs(d.x1 - d.x0); var dy = Math.abs(d.y1 - d.y0); var tbb = getBoundingClientRect(gd, tx.node()); var tbbWidth = tbb.width / fullLayout._invScaleX; var tbbHeight = tbb.height / fullLayout._invScaleY; d.ty0 = (outerTop - tbb.top) / fullLayout._invScaleY; d.bx = tbbWidth + 2 * HOVERTEXTPAD; d.by = Math.max(tbbHeight + 2 * HOVERTEXTPAD, tx2height); d.anchor = 'start'; d.txwidth = tbbWidth; d.tx2width = tx2width; d.offset = 0; var txTotalWidth = (tbbWidth + HOVERARROWSIZE + HOVERTEXTPAD + tx2width) * fullLayout._invScaleX; var anchorStartOK, anchorEndOK; if(rotateLabels) { d.pos = htx; anchorStartOK = hty + dy / 2 + txTotalWidth <= outerHeight; anchorEndOK = hty - dy / 2 - txTotalWidth >= 0; if((d.idealAlign === 'top' || !anchorStartOK) && anchorEndOK) { hty -= dy / 2; d.anchor = 'end'; } else if(anchorStartOK) { hty += dy / 2; d.anchor = 'start'; } else d.anchor = 'middle'; } else { d.pos = hty; anchorStartOK = htx + dx / 2 + txTotalWidth <= outerWidth; anchorEndOK = htx - dx / 2 - txTotalWidth >= 0; if((d.idealAlign === 'left' || !anchorStartOK) && anchorEndOK) { htx -= dx / 2; d.anchor = 'end'; } else if(anchorStartOK) { htx += dx / 2; d.anchor = 'start'; } else { d.anchor = 'middle'; var txHalfWidth = txTotalWidth / 2; var overflowR = htx + txHalfWidth - outerWidth; var overflowL = htx - txHalfWidth; if(overflowR > 0) htx -= overflowR; if(overflowL < 0) htx += -overflowL; } } tx.attr('text-anchor', d.anchor); if(tx2width) tx2.attr('text-anchor', d.anchor); g.attr('transform', strTranslate(htx, hty) + (rotateLabels ? strRotate(YANGLE) : '')); }); return hoverLabels; } function getHoverLabelText(d, showCommonLabel, hovermode, fullLayout, t0, g) { var name = ''; var text = ''; // to get custom 'name' labels pass cleanPoint if(d.nameOverride !== undefined) d.name = d.nameOverride; if(d.name) { if(d.trace._meta) { d.name = Lib.templateString(d.name, d.trace._meta); } name = plainText(d.name, d.nameLength); } var h0 = hovermode.charAt(0); var h1 = h0 === 'x' ? 'y' : 'x'; if(d.zLabel !== undefined) { if(d.xLabel !== undefined) text += 'x: ' + d.xLabel + '
'; if(d.yLabel !== undefined) text += 'y: ' + d.yLabel + '
'; if(d.trace.type !== 'choropleth' && d.trace.type !== 'choroplethmapbox') { text += (text ? 'z: ' : '') + d.zLabel; } } else if(showCommonLabel && d[h0 + 'Label'] === t0) { text = d[h1 + 'Label'] || ''; } else if(d.xLabel === undefined) { if(d.yLabel !== undefined && d.trace.type !== 'scattercarpet') { text = d.yLabel; } } else if(d.yLabel === undefined) text = d.xLabel; else text = '(' + d.xLabel + ', ' + d.yLabel + ')'; if((d.text || d.text === 0) && !Array.isArray(d.text)) { text += (text ? '
' : '') + d.text; } // used by other modules (initially just ternary) that // manage their own hoverinfo independent of cleanPoint // the rest of this will still apply, so such modules // can still put things in (x|y|z)Label, text, and name // and hoverinfo will still determine their visibility if(d.extraText !== undefined) text += (text ? '
' : '') + d.extraText; // if 'text' is empty at this point, // and hovertemplate is not defined, // put 'name' in main label and don't show secondary label if(g && text === '' && !d.hovertemplate) { // if 'name' is also empty, remove entire label if(name === '') g.remove(); text = name; } // hovertemplate var hovertemplate = d.hovertemplate || false; if(hovertemplate) { var labels = d.hovertemplateLabels || d; if(d[h0 + 'Label'] !== t0) { labels[h0 + 'other'] = labels[h0 + 'Val']; labels[h0 + 'otherLabel'] = labels[h0 + 'Label']; } text = Lib.hovertemplateString( hovertemplate, labels, fullLayout._d3locale, d.eventData[0] || {}, d.trace._meta ); text = text.replace(EXTRA_STRING_REGEX, function(match, extra) { // assign name for secondary text label name = plainText(extra, d.nameLength); // remove from main text label return ''; }); } return [text, name]; } // Make groups of touching points, and within each group // move each point so that no labels overlap, but the average // label position is the same as it was before moving. Incidentally, // this is equivalent to saying all the labels are on equal linear // springs about their initial position. Initially, each point is // its own group, but as we find overlaps we will clump the points. // // Also, there are hard constraints at the edges of the graphs, // that push all groups to the middle so they are visible. I don't // know what happens if the group spans all the way from one edge to // the other, though it hardly matters - there's just too much // information then. function hoverAvoidOverlaps(hoverLabels, axKey, fullLayout) { var nummoves = 0; var axSign = 1; var nLabels = hoverLabels.size(); // make groups of touching points var pointgroups = new Array(nLabels); var k = 0; hoverLabels.each(function(d) { var ax = d[axKey]; var axIsX = ax._id.charAt(0) === 'x'; var rng = ax.range; if(k === 0 && rng && ((rng[0] > rng[1]) !== axIsX)) { axSign = -1; } pointgroups[k++] = [{ datum: d, traceIndex: d.trace.index, dp: 0, pos: d.pos, posref: d.posref, size: d.by * (axIsX ? YFACTOR : 1) / 2, pmin: 0, pmax: (axIsX ? fullLayout.width : fullLayout.height) }]; }); pointgroups.sort(function(a, b) { return (a[0].posref - b[0].posref) || // for equal positions, sort trace indices increasing or decreasing // depending on whether the axis is reversed or not... so stacked // traces will generally keep their order even if one trace adds // nothing to the stack. (axSign * (b[0].traceIndex - a[0].traceIndex)); }); var donepositioning, topOverlap, bottomOverlap, i, j, pti, sumdp; function constrainGroup(grp) { var minPt = grp[0]; var maxPt = grp[grp.length - 1]; // overlap with the top - positive vals are overlaps topOverlap = minPt.pmin - minPt.pos - minPt.dp + minPt.size; // overlap with the bottom - positive vals are overlaps bottomOverlap = maxPt.pos + maxPt.dp + maxPt.size - minPt.pmax; // check for min overlap first, so that we always // see the largest labels // allow for .01px overlap, so we don't get an // infinite loop from rounding errors if(topOverlap > 0.01) { for(j = grp.length - 1; j >= 0; j--) grp[j].dp += topOverlap; donepositioning = false; } if(bottomOverlap < 0.01) return; if(topOverlap < -0.01) { // make sure we're not pushing back and forth for(j = grp.length - 1; j >= 0; j--) grp[j].dp -= bottomOverlap; donepositioning = false; } if(!donepositioning) return; // no room to fix positioning, delete off-screen points // first see how many points we need to delete var deleteCount = 0; for(i = 0; i < grp.length; i++) { pti = grp[i]; if(pti.pos + pti.dp + pti.size > minPt.pmax) deleteCount++; } // start by deleting points whose data is off screen for(i = grp.length - 1; i >= 0; i--) { if(deleteCount <= 0) break; pti = grp[i]; // pos has already been constrained to [pmin,pmax] // so look for points close to that to delete if(pti.pos > minPt.pmax - 1) { pti.del = true; deleteCount--; } } for(i = 0; i < grp.length; i++) { if(deleteCount <= 0) break; pti = grp[i]; // pos has already been constrained to [pmin,pmax] // so look for points close to that to delete if(pti.pos < minPt.pmin + 1) { pti.del = true; deleteCount--; // shift the whole group minus into this new space bottomOverlap = pti.size * 2; for(j = grp.length - 1; j >= 0; j--) grp[j].dp -= bottomOverlap; } } // then delete points that go off the bottom for(i = grp.length - 1; i >= 0; i--) { if(deleteCount <= 0) break; pti = grp[i]; if(pti.pos + pti.dp + pti.size > minPt.pmax) { pti.del = true; deleteCount--; } } } // loop through groups, combining them if they overlap, // until nothing moves while(!donepositioning && nummoves <= nLabels) { // to avoid infinite loops, don't move more times // than there are traces nummoves++; // assume nothing will move in this iteration, // reverse this if it does donepositioning = true; i = 0; while(i < pointgroups.length - 1) { // the higher (g0) and lower (g1) point group var g0 = pointgroups[i]; var g1 = pointgroups[i + 1]; // the lowest point in the higher group (p0) // the highest point in the lower group (p1) var p0 = g0[g0.length - 1]; var p1 = g1[0]; topOverlap = p0.pos + p0.dp + p0.size - p1.pos - p1.dp + p1.size; // Only group points that lie on the same axes if(topOverlap > 0.01 && (p0.pmin === p1.pmin) && (p0.pmax === p1.pmax)) { // push the new point(s) added to this group out of the way for(j = g1.length - 1; j >= 0; j--) g1[j].dp += topOverlap; // add them to the group g0.push.apply(g0, g1); pointgroups.splice(i + 1, 1); // adjust for minimum average movement sumdp = 0; for(j = g0.length - 1; j >= 0; j--) sumdp += g0[j].dp; bottomOverlap = sumdp / g0.length; for(j = g0.length - 1; j >= 0; j--) g0[j].dp -= bottomOverlap; donepositioning = false; } else i++; } // check if we're going off the plot on either side and fix pointgroups.forEach(constrainGroup); } // now put these offsets into hoverData for(i = pointgroups.length - 1; i >= 0; i--) { var grp = pointgroups[i]; for(j = grp.length - 1; j >= 0; j--) { var pt = grp[j]; var hoverPt = pt.datum; hoverPt.offset = pt.dp; hoverPt.del = pt.del; } } } function alignHoverText(hoverLabels, rotateLabels, scaleX, scaleY) { var pX = function(x) { return x * scaleX; }; var pY = function(y) { return y * scaleY; }; // finally set the text positioning relative to the data and draw the // box around it hoverLabels.each(function(d) { var g = d3.select(this); if(d.del) return g.remove(); var tx = g.select('text.nums'); var anchor = d.anchor; var horzSign = anchor === 'end' ? -1 : 1; var alignShift = {start: 1, end: -1, middle: 0}[anchor]; var txx = alignShift * (HOVERARROWSIZE + HOVERTEXTPAD); var tx2x = txx + alignShift * (d.txwidth + HOVERTEXTPAD); var offsetX = 0; var offsetY = d.offset; var isMiddle = anchor === 'middle'; if(isMiddle) { txx -= d.tx2width / 2; tx2x += d.txwidth / 2 + HOVERTEXTPAD; } if(rotateLabels) { offsetY *= -YSHIFTY; offsetX = d.offset * YSHIFTX; } g.select('path') .attr('d', isMiddle ? // middle aligned: rect centered on data ('M-' + pX(d.bx / 2 + d.tx2width / 2) + ',' + pY(offsetY - d.by / 2) + 'h' + pX(d.bx) + 'v' + pY(d.by) + 'h-' + pX(d.bx) + 'Z') : // left or right aligned: side rect with arrow to data ('M0,0L' + pX(horzSign * HOVERARROWSIZE + offsetX) + ',' + pY(HOVERARROWSIZE + offsetY) + 'v' + pY(d.by / 2 - HOVERARROWSIZE) + 'h' + pX(horzSign * d.bx) + 'v-' + pY(d.by) + 'H' + pX(horzSign * HOVERARROWSIZE + offsetX) + 'V' + pY(offsetY - HOVERARROWSIZE) + 'Z')); var posX = offsetX + txx; var posY = offsetY + d.ty0 - d.by / 2 + HOVERTEXTPAD; var textAlign = d.textAlign || 'auto'; if(textAlign !== 'auto') { if(textAlign === 'left' && anchor !== 'start') { tx.attr('text-anchor', 'start'); posX = isMiddle ? -d.bx / 2 - d.tx2width / 2 + HOVERTEXTPAD : -d.bx - HOVERTEXTPAD; } else if(textAlign === 'right' && anchor !== 'end') { tx.attr('text-anchor', 'end'); posX = isMiddle ? d.bx / 2 - d.tx2width / 2 - HOVERTEXTPAD : d.bx + HOVERTEXTPAD; } } tx.call(svgTextUtils.positionText, pX(posX), pY(posY)); if(d.tx2width) { g.select('text.name') .call(svgTextUtils.positionText, pX(tx2x + alignShift * HOVERTEXTPAD + offsetX), pY(offsetY + d.ty0 - d.by / 2 + HOVERTEXTPAD)); g.select('rect') .call(Drawing.setRect, pX(tx2x + (alignShift - 1) * d.tx2width / 2 + offsetX), pY(offsetY - d.by / 2 - 1), pX(d.tx2width), pY(d.by + 2)); } }); } function cleanPoint(d, hovermode) { var index = d.index; var trace = d.trace || {}; var cd0 = d.cd[0]; var cd = d.cd[index] || {}; function pass(v) { return v || (isNumeric(v) && v === 0); } var getVal = Array.isArray(index) ? function(calcKey, traceKey) { var v = Lib.castOption(cd0, index, calcKey); return pass(v) ? v : Lib.extractOption({}, trace, '', traceKey); } : function(calcKey, traceKey) { return Lib.extractOption(cd, trace, calcKey, traceKey); }; function fill(key, calcKey, traceKey) { var val = getVal(calcKey, traceKey); if(pass(val)) d[key] = val; } fill('hoverinfo', 'hi', 'hoverinfo'); fill('bgcolor', 'hbg', 'hoverlabel.bgcolor'); fill('borderColor', 'hbc', 'hoverlabel.bordercolor'); fill('fontFamily', 'htf', 'hoverlabel.font.family'); fill('fontSize', 'hts', 'hoverlabel.font.size'); fill('fontColor', 'htc', 'hoverlabel.font.color'); fill('nameLength', 'hnl', 'hoverlabel.namelength'); fill('textAlign', 'hta', 'hoverlabel.align'); d.posref = (hovermode === 'y' || (hovermode === 'closest' && trace.orientation === 'h')) ? (d.xa._offset + (d.x0 + d.x1) / 2) : (d.ya._offset + (d.y0 + d.y1) / 2); // then constrain all the positions to be on the plot d.x0 = Lib.constrain(d.x0, 0, d.xa._length); d.x1 = Lib.constrain(d.x1, 0, d.xa._length); d.y0 = Lib.constrain(d.y0, 0, d.ya._length); d.y1 = Lib.constrain(d.y1, 0, d.ya._length); // and convert the x and y label values into formatted text if(d.xLabelVal !== undefined) { d.xLabel = ('xLabel' in d) ? d.xLabel : Axes.hoverLabelText(d.xa, d.xLabelVal, trace.xhoverformat); d.xVal = d.xa.c2d(d.xLabelVal); } if(d.yLabelVal !== undefined) { d.yLabel = ('yLabel' in d) ? d.yLabel : Axes.hoverLabelText(d.ya, d.yLabelVal, trace.yhoverformat); d.yVal = d.ya.c2d(d.yLabelVal); } // Traces like heatmaps generate the zLabel in their hoverPoints function if(d.zLabelVal !== undefined && d.zLabel === undefined) { d.zLabel = String(d.zLabelVal); } // for box means and error bars, add the range to the label if(!isNaN(d.xerr) && !(d.xa.type === 'log' && d.xerr <= 0)) { var xeText = Axes.tickText(d.xa, d.xa.c2l(d.xerr), 'hover').text; if(d.xerrneg !== undefined) { d.xLabel += ' +' + xeText + ' / -' + Axes.tickText(d.xa, d.xa.c2l(d.xerrneg), 'hover').text; } else d.xLabel += ' ± ' + xeText; // small distance penalty for error bars, so that if there are // traces with errors and some without, the error bar label will // hoist up to the point if(hovermode === 'x') d.distance += 1; } if(!isNaN(d.yerr) && !(d.ya.type === 'log' && d.yerr <= 0)) { var yeText = Axes.tickText(d.ya, d.ya.c2l(d.yerr), 'hover').text; if(d.yerrneg !== undefined) { d.yLabel += ' +' + yeText + ' / -' + Axes.tickText(d.ya, d.ya.c2l(d.yerrneg), 'hover').text; } else d.yLabel += ' ± ' + yeText; if(hovermode === 'y') d.distance += 1; } var infomode = d.hoverinfo || d.trace.hoverinfo; if(infomode && infomode !== 'all') { infomode = Array.isArray(infomode) ? infomode : infomode.split('+'); if(infomode.indexOf('x') === -1) d.xLabel = undefined; if(infomode.indexOf('y') === -1) d.yLabel = undefined; if(infomode.indexOf('z') === -1) d.zLabel = undefined; if(infomode.indexOf('text') === -1) d.text = undefined; if(infomode.indexOf('name') === -1) d.name = undefined; } return d; } function createSpikelines(gd, closestPoints, opts) { var container = opts.container; var fullLayout = opts.fullLayout; var gs = fullLayout._size; var evt = opts.event; var showY = !!closestPoints.hLinePoint; var showX = !!closestPoints.vLinePoint; var xa, ya; // Remove old spikeline items container.selectAll('.spikeline').remove(); if(!(showX || showY)) return; var contrastColor = Color.combine(fullLayout.plot_bgcolor, fullLayout.paper_bgcolor); // Horizontal line (to y-axis) if(showY) { var hLinePoint = closestPoints.hLinePoint; var hLinePointX, hLinePointY; xa = hLinePoint && hLinePoint.xa; ya = hLinePoint && hLinePoint.ya; var ySnap = ya.spikesnap; if(ySnap === 'cursor') { hLinePointX = evt.pointerX; hLinePointY = evt.pointerY; } else { hLinePointX = xa._offset + hLinePoint.x; hLinePointY = ya._offset + hLinePoint.y; } var dfltHLineColor = tinycolor.readability(hLinePoint.color, contrastColor) < 1.5 ? Color.contrast(contrastColor) : hLinePoint.color; var yMode = ya.spikemode; var yThickness = ya.spikethickness; var yColor = ya.spikecolor || dfltHLineColor; var xEdge = Axes.getPxPosition(gd, ya); var xBase, xEndSpike; if(yMode.indexOf('toaxis') !== -1 || yMode.indexOf('across') !== -1) { if(yMode.indexOf('toaxis') !== -1) { xBase = xEdge; xEndSpike = hLinePointX; } if(yMode.indexOf('across') !== -1) { var xAcross0 = ya._counterDomainMin; var xAcross1 = ya._counterDomainMax; if(ya.anchor === 'free') { xAcross0 = Math.min(xAcross0, ya.position); xAcross1 = Math.max(xAcross1, ya.position); } xBase = gs.l + xAcross0 * gs.w; xEndSpike = gs.l + xAcross1 * gs.w; } // Foreground horizontal line (to y-axis) container.insert('line', ':first-child') .attr({ x1: xBase, x2: xEndSpike, y1: hLinePointY, y2: hLinePointY, 'stroke-width': yThickness, stroke: yColor, 'stroke-dasharray': Drawing.dashStyle(ya.spikedash, yThickness) }) .classed('spikeline', true) .classed('crisp', true); // Background horizontal Line (to y-axis) container.insert('line', ':first-child') .attr({ x1: xBase, x2: xEndSpike, y1: hLinePointY, y2: hLinePointY, 'stroke-width': yThickness + 2, stroke: contrastColor }) .classed('spikeline', true) .classed('crisp', true); } // Y axis marker if(yMode.indexOf('marker') !== -1) { container.insert('circle', ':first-child') .attr({ cx: xEdge + (ya.side !== 'right' ? yThickness : -yThickness), cy: hLinePointY, r: yThickness, fill: yColor }) .classed('spikeline', true); } } if(showX) { var vLinePoint = closestPoints.vLinePoint; var vLinePointX, vLinePointY; xa = vLinePoint && vLinePoint.xa; ya = vLinePoint && vLinePoint.ya; var xSnap = xa.spikesnap; if(xSnap === 'cursor') { vLinePointX = evt.pointerX; vLinePointY = evt.pointerY; } else { vLinePointX = xa._offset + vLinePoint.x; vLinePointY = ya._offset + vLinePoint.y; } var dfltVLineColor = tinycolor.readability(vLinePoint.color, contrastColor) < 1.5 ? Color.contrast(contrastColor) : vLinePoint.color; var xMode = xa.spikemode; var xThickness = xa.spikethickness; var xColor = xa.spikecolor || dfltVLineColor; var yEdge = Axes.getPxPosition(gd, xa); var yBase, yEndSpike; if(xMode.indexOf('toaxis') !== -1 || xMode.indexOf('across') !== -1) { if(xMode.indexOf('toaxis') !== -1) { yBase = yEdge; yEndSpike = vLinePointY; } if(xMode.indexOf('across') !== -1) { var yAcross0 = xa._counterDomainMin; var yAcross1 = xa._counterDomainMax; if(xa.anchor === 'free') { yAcross0 = Math.min(yAcross0, xa.position); yAcross1 = Math.max(yAcross1, xa.position); } yBase = gs.t + (1 - yAcross1) * gs.h; yEndSpike = gs.t + (1 - yAcross0) * gs.h; } // Foreground vertical line (to x-axis) container.insert('line', ':first-child') .attr({ x1: vLinePointX, x2: vLinePointX, y1: yBase, y2: yEndSpike, 'stroke-width': xThickness, stroke: xColor, 'stroke-dasharray': Drawing.dashStyle(xa.spikedash, xThickness) }) .classed('spikeline', true) .classed('crisp', true); // Background vertical line (to x-axis) container.insert('line', ':first-child') .attr({ x1: vLinePointX, x2: vLinePointX, y1: yBase, y2: yEndSpike, 'stroke-width': xThickness + 2, stroke: contrastColor }) .classed('spikeline', true) .classed('crisp', true); } // X axis marker if(xMode.indexOf('marker') !== -1) { container.insert('circle', ':first-child') .attr({ cx: vLinePointX, cy: yEdge - (xa.side !== 'top' ? xThickness : -xThickness), r: xThickness, fill: xColor }) .classed('spikeline', true); } } } function hoverChanged(gd, evt, oldhoverdata) { // don't emit any events if nothing changed if(!oldhoverdata || oldhoverdata.length !== gd._hoverdata.length) return true; for(var i = oldhoverdata.length - 1; i >= 0; i--) { var oldPt = oldhoverdata[i]; var newPt = gd._hoverdata[i]; if(oldPt.curveNumber !== newPt.curveNumber || String(oldPt.pointNumber) !== String(newPt.pointNumber) || String(oldPt.pointNumbers) !== String(newPt.pointNumbers) ) { return true; } } return false; } function spikesChanged(gd, oldspikepoints) { // don't relayout the plot because of new spikelines if spikelines points didn't change if(!oldspikepoints) return true; if(oldspikepoints.vLinePoint !== gd._spikepoints.vLinePoint || oldspikepoints.hLinePoint !== gd._spikepoints.hLinePoint ) return true; return false; } function plainText(s, len) { return svgTextUtils.plainText(s || '', { len: len, allowedTags: ['br', 'sub', 'sup', 'b', 'i', 'em'] }); } function orderRangePoints(hoverData, hovermode) { var axLetter = hovermode.charAt(0); var first = []; var second = []; var last = []; for(var i = 0; i < hoverData.length; i++) { var d = hoverData[i]; if( Registry.traceIs(d.trace, 'bar-like') || Registry.traceIs(d.trace, 'box-violin') ) { last.push(d); } else if(d.trace[axLetter + 'period']) { second.push(d); } else { first.push(d); } } return first.concat(second).concat(last); } function getCoord(axLetter, winningPoint, fullLayout) { var ax = winningPoint[axLetter + 'a']; var val = winningPoint[axLetter + 'Val']; var cd0 = winningPoint.cd[0]; if(ax.type === 'category') val = ax._categoriesMap[val]; else if(ax.type === 'date') { var periodalignment = winningPoint.trace[axLetter + 'periodalignment']; if(periodalignment) { var d = winningPoint.cd[winningPoint.index]; var start = d[axLetter + 'Start']; if(start === undefined) start = d[axLetter]; var end = d[axLetter + 'End']; if(end === undefined) end = d[axLetter]; var diff = end - start; if(periodalignment === 'end') { val += diff; } else if(periodalignment === 'middle') { val += diff / 2; } } val = ax.d2c(val); } if(cd0 && cd0.t && cd0.t.posLetter === ax._id) { if( fullLayout.boxmode === 'group' || fullLayout.violinmode === 'group' ) { val += cd0.t.dPos; } } return val; } // Top/left hover offsets relative to graph div. As long as hover content is // a sibling of the graph div, it will be positioned correctly relative to // the offset parent, whatever that may be. function getTopOffset(gd) { return gd.offsetTop + gd.clientTop; } function getLeftOffset(gd) { return gd.offsetLeft + gd.clientLeft; } function getBoundingClientRect(gd, node) { var fullLayout = gd._fullLayout; var rect = node.getBoundingClientRect(); var x0 = rect.x; var y0 = rect.y; var x1 = x0 + rect.width; var y1 = y0 + rect.height; var A = Lib.apply3DTransform(fullLayout._invTransform)(x0, y0); var B = Lib.apply3DTransform(fullLayout._invTransform)(x1, y1); var Ax = A[0]; var Ay = A[1]; var Bx = B[0]; var By = B[1]; return { x: Ax, y: Ay, width: Bx - Ax, height: By - Ay, top: Math.min(Ay, By), left: Math.min(Ax, Bx), right: Math.max(Ax, Bx), bottom: Math.max(Ay, By), }; } },{"../../lib":287,"../../lib/events":280,"../../lib/override_cursor":298,"../../lib/svg_text_utils":310,"../../plots/cartesian/axes":334,"../../registry":378,"../color":157,"../dragelement":176,"../drawing":179,"../legend/defaults":209,"../legend/draw":210,"./constants":191,"./helpers":193,"@plotly/d3":20,"fast-isnumeric":33,"tinycolor2":121}],195:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Color = _dereq_('../color'); var isUnifiedHover = _dereq_('./helpers').isUnifiedHover; module.exports = function handleHoverLabelDefaults(contIn, contOut, coerce, opts) { opts = opts || {}; var hasLegend = contOut.legend; function inheritFontAttr(attr) { if(!opts.font[attr]) { opts.font[attr] = hasLegend ? contOut.legend.font[attr] : contOut.font[attr]; } } // In unified hover, inherit from layout.legend if available or layout if(contOut && isUnifiedHover(contOut.hovermode)) { if(!opts.font) opts.font = {}; inheritFontAttr('size'); inheritFontAttr('family'); inheritFontAttr('color'); if(hasLegend) { if(!opts.bgcolor) opts.bgcolor = Color.combine(contOut.legend.bgcolor, contOut.paper_bgcolor); if(!opts.bordercolor) opts.bordercolor = contOut.legend.bordercolor; } else { if(!opts.bgcolor) opts.bgcolor = contOut.paper_bgcolor; } } coerce('hoverlabel.bgcolor', opts.bgcolor); coerce('hoverlabel.bordercolor', opts.bordercolor); coerce('hoverlabel.namelength', opts.namelength); Lib.coerceFont(coerce, 'hoverlabel.font', opts.font); coerce('hoverlabel.align', opts.align); }; },{"../../lib":287,"../color":157,"./helpers":193}],196:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var layoutAttributes = _dereq_('./layout_attributes'); module.exports = function handleHoverModeDefaults(layoutIn, layoutOut) { function coerce(attr, dflt) { // don't coerce if it is already coerced in other place e.g. in cartesian defaults if(layoutOut[attr] !== undefined) return layoutOut[attr]; return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt); } coerce('clickmode'); return coerce('hovermode'); }; },{"../../lib":287,"./layout_attributes":198}],197:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); var dragElement = _dereq_('../dragelement'); var helpers = _dereq_('./helpers'); var layoutAttributes = _dereq_('./layout_attributes'); var hoverModule = _dereq_('./hover'); module.exports = { moduleType: 'component', name: 'fx', constants: _dereq_('./constants'), schema: { layout: layoutAttributes }, attributes: _dereq_('./attributes'), layoutAttributes: layoutAttributes, supplyLayoutGlobalDefaults: _dereq_('./layout_global_defaults'), supplyDefaults: _dereq_('./defaults'), supplyLayoutDefaults: _dereq_('./layout_defaults'), calc: _dereq_('./calc'), getDistanceFunction: helpers.getDistanceFunction, getClosest: helpers.getClosest, inbox: helpers.inbox, quadrature: helpers.quadrature, appendArrayPointValue: helpers.appendArrayPointValue, castHoverOption: castHoverOption, castHoverinfo: castHoverinfo, hover: hoverModule.hover, unhover: dragElement.unhover, loneHover: hoverModule.loneHover, loneUnhover: loneUnhover, click: _dereq_('./click') }; function loneUnhover(containerOrSelection) { // duck type whether the arg is a d3 selection because ie9 doesn't // handle instanceof like modern browsers do. var selection = Lib.isD3Selection(containerOrSelection) ? containerOrSelection : d3.select(containerOrSelection); selection.selectAll('g.hovertext').remove(); selection.selectAll('.spikeline').remove(); } // helpers for traces that use Fx.loneHover function castHoverOption(trace, ptNumber, attr) { return Lib.castOption(trace, ptNumber, 'hoverlabel.' + attr); } function castHoverinfo(trace, fullLayout, ptNumber) { function _coerce(val) { return Lib.coerceHoverinfo({hoverinfo: val}, {_module: trace._module}, fullLayout); } return Lib.castOption(trace, ptNumber, 'hoverinfo', _coerce); } },{"../../lib":287,"../dragelement":176,"./attributes":188,"./calc":189,"./click":190,"./constants":191,"./defaults":192,"./helpers":193,"./hover":194,"./layout_attributes":198,"./layout_defaults":199,"./layout_global_defaults":200,"@plotly/d3":20}],198:[function(_dereq_,module,exports){ 'use strict'; var constants = _dereq_('./constants'); var fontAttrs = _dereq_('../../plots/font_attributes'); var font = fontAttrs({ editType: 'none', }); font.family.dflt = constants.HOVERFONT; font.size.dflt = constants.HOVERFONTSIZE; module.exports = { clickmode: { valType: 'flaglist', flags: ['event', 'select'], dflt: 'event', editType: 'plot', extras: ['none'], }, dragmode: { valType: 'enumerated', values: [ 'zoom', 'pan', 'select', 'lasso', 'drawclosedpath', 'drawopenpath', 'drawline', 'drawrect', 'drawcircle', 'orbit', 'turntable', false ], dflt: 'zoom', editType: 'modebar', }, hovermode: { valType: 'enumerated', values: ['x', 'y', 'closest', false, 'x unified', 'y unified'], dflt: 'closest', editType: 'modebar', }, hoverdistance: { valType: 'integer', min: -1, dflt: 20, editType: 'none', }, spikedistance: { valType: 'integer', min: -1, dflt: -1, editType: 'none', }, hoverlabel: { bgcolor: { valType: 'color', editType: 'none', }, bordercolor: { valType: 'color', editType: 'none', }, font: font, grouptitlefont: fontAttrs({ editType: 'none', }), align: { valType: 'enumerated', values: ['left', 'right', 'auto'], dflt: 'auto', editType: 'none', }, namelength: { valType: 'integer', min: -1, dflt: 15, editType: 'none', }, editType: 'none' }, selectdirection: { valType: 'enumerated', values: ['h', 'v', 'd', 'any'], dflt: 'any', editType: 'none' } }; },{"../../plots/font_attributes":365,"./constants":191}],199:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var layoutAttributes = _dereq_('./layout_attributes'); var handleHoverModeDefaults = _dereq_('./hovermode_defaults'); var handleHoverLabelDefaults = _dereq_('./hoverlabel_defaults'); module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) { function coerce(attr, dflt) { return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt); } var hoverMode = handleHoverModeDefaults(layoutIn, layoutOut); if(hoverMode) { coerce('hoverdistance'); coerce('spikedistance'); } var dragMode = coerce('dragmode'); if(dragMode === 'select') coerce('selectdirection'); // if only mapbox or geo subplots is present on graph, // reset 'zoom' dragmode to 'pan' until 'zoom' is implemented, // so that the correct modebar button is active var hasMapbox = layoutOut._has('mapbox'); var hasGeo = layoutOut._has('geo'); var len = layoutOut._basePlotModules.length; if(layoutOut.dragmode === 'zoom' && ( ((hasMapbox || hasGeo) && len === 1) || (hasMapbox && hasGeo && len === 2) )) { layoutOut.dragmode = 'pan'; } handleHoverLabelDefaults(layoutIn, layoutOut, coerce); Lib.coerceFont(coerce, 'hoverlabel.grouptitlefont', layoutOut.hoverlabel.font); }; },{"../../lib":287,"./hoverlabel_defaults":195,"./hovermode_defaults":196,"./layout_attributes":198}],200:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var handleHoverLabelDefaults = _dereq_('./hoverlabel_defaults'); var layoutAttributes = _dereq_('./layout_attributes'); module.exports = function supplyLayoutGlobalDefaults(layoutIn, layoutOut) { function coerce(attr, dflt) { return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt); } handleHoverLabelDefaults(layoutIn, layoutOut, coerce); }; },{"../../lib":287,"./hoverlabel_defaults":195,"./layout_attributes":198}],201:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var counterRegex = _dereq_('../../lib/regex').counter; var domainAttrs = _dereq_('../../plots/domain').attributes; var cartesianIdRegex = _dereq_('../../plots/cartesian/constants').idRegex; var Template = _dereq_('../../plot_api/plot_template'); var gridAttrs = { rows: { valType: 'integer', min: 1, editType: 'plot', }, roworder: { valType: 'enumerated', values: ['top to bottom', 'bottom to top'], dflt: 'top to bottom', editType: 'plot', }, columns: { valType: 'integer', min: 1, editType: 'plot', }, subplots: { valType: 'info_array', freeLength: true, dimensions: 2, items: {valType: 'enumerated', values: [counterRegex('xy').toString(), ''], editType: 'plot'}, editType: 'plot', }, xaxes: { valType: 'info_array', freeLength: true, items: {valType: 'enumerated', values: [cartesianIdRegex.x.toString(), ''], editType: 'plot'}, editType: 'plot', }, yaxes: { valType: 'info_array', freeLength: true, items: {valType: 'enumerated', values: [cartesianIdRegex.y.toString(), ''], editType: 'plot'}, editType: 'plot', }, pattern: { valType: 'enumerated', values: ['independent', 'coupled'], dflt: 'coupled', editType: 'plot', }, xgap: { valType: 'number', min: 0, max: 1, editType: 'plot', }, ygap: { valType: 'number', min: 0, max: 1, editType: 'plot', }, domain: domainAttrs({name: 'grid', editType: 'plot', noGridCell: true}, { }), xside: { valType: 'enumerated', values: ['bottom', 'bottom plot', 'top plot', 'top'], dflt: 'bottom plot', editType: 'plot', }, yside: { valType: 'enumerated', values: ['left', 'left plot', 'right plot', 'right'], dflt: 'left plot', editType: 'plot', }, editType: 'plot' }; function getAxes(layout, grid, axLetter) { var gridVal = grid[axLetter + 'axes']; var splomVal = Object.keys((layout._splomAxes || {})[axLetter] || {}); if(Array.isArray(gridVal)) return gridVal; if(splomVal.length) return splomVal; } // the shape of the grid - this needs to be done BEFORE supplyDataDefaults // so that non-subplot traces can place themselves in the grid function sizeDefaults(layoutIn, layoutOut) { var gridIn = layoutIn.grid || {}; var xAxes = getAxes(layoutOut, gridIn, 'x'); var yAxes = getAxes(layoutOut, gridIn, 'y'); if(!layoutIn.grid && !xAxes && !yAxes) return; var hasSubplotGrid = Array.isArray(gridIn.subplots) && Array.isArray(gridIn.subplots[0]); var hasXaxes = Array.isArray(xAxes); var hasYaxes = Array.isArray(yAxes); var isSplomGenerated = ( hasXaxes && xAxes !== gridIn.xaxes && hasYaxes && yAxes !== gridIn.yaxes ); var dfltRows, dfltColumns; if(hasSubplotGrid) { dfltRows = gridIn.subplots.length; dfltColumns = gridIn.subplots[0].length; } else { if(hasYaxes) dfltRows = yAxes.length; if(hasXaxes) dfltColumns = xAxes.length; } var gridOut = Template.newContainer(layoutOut, 'grid'); function coerce(attr, dflt) { return Lib.coerce(gridIn, gridOut, gridAttrs, attr, dflt); } var rows = coerce('rows', dfltRows); var columns = coerce('columns', dfltColumns); if(!(rows * columns > 1)) { delete layoutOut.grid; return; } if(!hasSubplotGrid && !hasXaxes && !hasYaxes) { var useDefaultSubplots = coerce('pattern') === 'independent'; if(useDefaultSubplots) hasSubplotGrid = true; } gridOut._hasSubplotGrid = hasSubplotGrid; var rowOrder = coerce('roworder'); var reversed = rowOrder === 'top to bottom'; var dfltGapX = hasSubplotGrid ? 0.2 : 0.1; var dfltGapY = hasSubplotGrid ? 0.3 : 0.1; var dfltSideX, dfltSideY; if(isSplomGenerated && layoutOut._splomGridDflt) { dfltSideX = layoutOut._splomGridDflt.xside; dfltSideY = layoutOut._splomGridDflt.yside; } gridOut._domains = { x: fillGridPositions('x', coerce, dfltGapX, dfltSideX, columns), y: fillGridPositions('y', coerce, dfltGapY, dfltSideY, rows, reversed) }; } // coerce x or y sizing attributes and return an array of domains for this direction function fillGridPositions(axLetter, coerce, dfltGap, dfltSide, len, reversed) { var dirGap = coerce(axLetter + 'gap', dfltGap); var domain = coerce('domain.' + axLetter); coerce(axLetter + 'side', dfltSide); var out = new Array(len); var start = domain[0]; var step = (domain[1] - start) / (len - dirGap); var cellDomain = step * (1 - dirGap); for(var i = 0; i < len; i++) { var cellStart = start + step * i; out[reversed ? (len - 1 - i) : i] = [cellStart, cellStart + cellDomain]; } return out; } // the (cartesian) contents of the grid - this needs to happen AFTER supplyDataDefaults // so that we know what cartesian subplots are available function contentDefaults(layoutIn, layoutOut) { var gridOut = layoutOut.grid; // make sure we got to the end of handleGridSizing if(!gridOut || !gridOut._domains) return; var gridIn = layoutIn.grid || {}; var subplots = layoutOut._subplots; var hasSubplotGrid = gridOut._hasSubplotGrid; var rows = gridOut.rows; var columns = gridOut.columns; var useDefaultSubplots = gridOut.pattern === 'independent'; var i, j, xId, yId, subplotId, subplotsOut, yPos; var axisMap = gridOut._axisMap = {}; if(hasSubplotGrid) { var subplotsIn = gridIn.subplots || []; subplotsOut = gridOut.subplots = new Array(rows); var index = 1; for(i = 0; i < rows; i++) { var rowOut = subplotsOut[i] = new Array(columns); var rowIn = subplotsIn[i] || []; for(j = 0; j < columns; j++) { if(useDefaultSubplots) { subplotId = (index === 1) ? 'xy' : ('x' + index + 'y' + index); index++; } else subplotId = rowIn[j]; rowOut[j] = ''; if(subplots.cartesian.indexOf(subplotId) !== -1) { yPos = subplotId.indexOf('y'); xId = subplotId.slice(0, yPos); yId = subplotId.slice(yPos); if((axisMap[xId] !== undefined && axisMap[xId] !== j) || (axisMap[yId] !== undefined && axisMap[yId] !== i) ) { continue; } rowOut[j] = subplotId; axisMap[xId] = j; axisMap[yId] = i; } } } } else { var xAxes = getAxes(layoutOut, gridIn, 'x'); var yAxes = getAxes(layoutOut, gridIn, 'y'); gridOut.xaxes = fillGridAxes(xAxes, subplots.xaxis, columns, axisMap, 'x'); gridOut.yaxes = fillGridAxes(yAxes, subplots.yaxis, rows, axisMap, 'y'); } var anchors = gridOut._anchors = {}; var reversed = gridOut.roworder === 'top to bottom'; for(var axisId in axisMap) { var axLetter = axisId.charAt(0); var side = gridOut[axLetter + 'side']; var i0, inc, iFinal; if(side.length < 8) { // grid edge - ie not "* plot" - make these as free axes // since we're not guaranteed to have a subplot there at all anchors[axisId] = 'free'; } else if(axLetter === 'x') { if((side.charAt(0) === 't') === reversed) { i0 = 0; inc = 1; iFinal = rows; } else { i0 = rows - 1; inc = -1; iFinal = -1; } if(hasSubplotGrid) { var column = axisMap[axisId]; for(i = i0; i !== iFinal; i += inc) { subplotId = subplotsOut[i][column]; if(!subplotId) continue; yPos = subplotId.indexOf('y'); if(subplotId.slice(0, yPos) === axisId) { anchors[axisId] = subplotId.slice(yPos); break; } } } else { for(i = i0; i !== iFinal; i += inc) { yId = gridOut.yaxes[i]; if(subplots.cartesian.indexOf(axisId + yId) !== -1) { anchors[axisId] = yId; break; } } } } else { if((side.charAt(0) === 'l')) { i0 = 0; inc = 1; iFinal = columns; } else { i0 = columns - 1; inc = -1; iFinal = -1; } if(hasSubplotGrid) { var row = axisMap[axisId]; for(i = i0; i !== iFinal; i += inc) { subplotId = subplotsOut[row][i]; if(!subplotId) continue; yPos = subplotId.indexOf('y'); if(subplotId.slice(yPos) === axisId) { anchors[axisId] = subplotId.slice(0, yPos); break; } } } else { for(i = i0; i !== iFinal; i += inc) { xId = gridOut.xaxes[i]; if(subplots.cartesian.indexOf(xId + axisId) !== -1) { anchors[axisId] = xId; break; } } } } } } function fillGridAxes(axesIn, axesAllowed, len, axisMap, axLetter) { var out = new Array(len); var i; function fillOneAxis(i, axisId) { if(axesAllowed.indexOf(axisId) !== -1 && axisMap[axisId] === undefined) { out[i] = axisId; axisMap[axisId] = i; } else out[i] = ''; } if(Array.isArray(axesIn)) { for(i = 0; i < len; i++) { fillOneAxis(i, axesIn[i]); } } else { // default axis list is the first `len` axis ids fillOneAxis(0, axLetter); for(i = 1; i < len; i++) { fillOneAxis(i, axLetter + (i + 1)); } } return out; } module.exports = { moduleType: 'component', name: 'grid', schema: { layout: {grid: gridAttrs} }, layoutAttributes: gridAttrs, sizeDefaults: sizeDefaults, contentDefaults: contentDefaults }; },{"../../lib":287,"../../lib/regex":303,"../../plot_api/plot_template":323,"../../plots/cartesian/constants":341,"../../plots/domain":364}],202:[function(_dereq_,module,exports){ 'use strict'; var cartesianConstants = _dereq_('../../plots/cartesian/constants'); var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray; var axisPlaceableObjs = _dereq_('../../constants/axis_placeable_objects'); module.exports = templatedArray('image', { visible: { valType: 'boolean', dflt: true, editType: 'arraydraw', }, source: { valType: 'string', editType: 'arraydraw', }, layer: { valType: 'enumerated', values: ['below', 'above'], dflt: 'above', editType: 'arraydraw', }, sizex: { valType: 'number', dflt: 0, editType: 'arraydraw', }, sizey: { valType: 'number', dflt: 0, editType: 'arraydraw', }, sizing: { valType: 'enumerated', values: ['fill', 'contain', 'stretch'], dflt: 'contain', editType: 'arraydraw', }, opacity: { valType: 'number', min: 0, max: 1, dflt: 1, editType: 'arraydraw', }, x: { valType: 'any', dflt: 0, editType: 'arraydraw', }, y: { valType: 'any', dflt: 0, editType: 'arraydraw', }, xanchor: { valType: 'enumerated', values: ['left', 'center', 'right'], dflt: 'left', editType: 'arraydraw', }, yanchor: { valType: 'enumerated', values: ['top', 'middle', 'bottom'], dflt: 'top', editType: 'arraydraw', }, xref: { valType: 'enumerated', values: [ 'paper', cartesianConstants.idRegex.x.toString() ], dflt: 'paper', editType: 'arraydraw', }, yref: { valType: 'enumerated', values: [ 'paper', cartesianConstants.idRegex.y.toString() ], dflt: 'paper', editType: 'arraydraw', }, editType: 'arraydraw' }); },{"../../constants/axis_placeable_objects":263,"../../plot_api/plot_template":323,"../../plots/cartesian/constants":341}],203:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var toLogRange = _dereq_('../../lib/to_log_range'); /* * convertCoords: when converting an axis between log and linear * you need to alter any images on that axis to keep them * pointing at the same data point. * In v3.0 this will become obsolete (or perhaps size will still need conversion?) * we convert size by declaring that the maximum extent *in data units* should be * the same, assuming the image is anchored by its center (could remove that restriction * if we think it's important) even though the actual left and right values will not be * quite the same since the scale becomes nonlinear (and central anchor means the pixel * center of the image, not the data units center) * * gd: the plot div * ax: the axis being changed * newType: the type it's getting * doExtra: function(attr, val) from inside relayout that sets the attribute. * Use this to make the changes as it's aware if any other changes in the * same relayout call should override this conversion. */ module.exports = function convertCoords(gd, ax, newType, doExtra) { ax = ax || {}; var toLog = (newType === 'log') && (ax.type === 'linear'); var fromLog = (newType === 'linear') && (ax.type === 'log'); if(!(toLog || fromLog)) return; var images = gd._fullLayout.images; var axLetter = ax._id.charAt(0); var image; var attrPrefix; for(var i = 0; i < images.length; i++) { image = images[i]; attrPrefix = 'images[' + i + '].'; if(image[axLetter + 'ref'] === ax._id) { var currentPos = image[axLetter]; var currentSize = image['size' + axLetter]; var newPos = null; var newSize = null; if(toLog) { newPos = toLogRange(currentPos, ax.range); // this is the inverse of the conversion we do in fromLog below // so that the conversion is reversible (notice the fromLog conversion // is like sinh, and this one looks like arcsinh) var dx = currentSize / Math.pow(10, newPos) / 2; newSize = 2 * Math.log(dx + Math.sqrt(1 + dx * dx)) / Math.LN10; } else { newPos = Math.pow(10, currentPos); newSize = newPos * (Math.pow(10, currentSize / 2) - Math.pow(10, -currentSize / 2)); } // if conversion failed, delete the value so it can get a default later on if(!isNumeric(newPos)) { newPos = null; newSize = null; } else if(!isNumeric(newSize)) newSize = null; doExtra(attrPrefix + axLetter, newPos); doExtra(attrPrefix + 'size' + axLetter, newSize); } } }; },{"../../lib/to_log_range":312,"fast-isnumeric":33}],204:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults'); var attributes = _dereq_('./attributes'); var name = 'images'; module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) { var opts = { name: name, handleItemDefaults: imageDefaults }; handleArrayContainerDefaults(layoutIn, layoutOut, opts); }; function imageDefaults(imageIn, imageOut, fullLayout) { function coerce(attr, dflt) { return Lib.coerce(imageIn, imageOut, attributes, attr, dflt); } var source = coerce('source'); var visible = coerce('visible', !!source); if(!visible) return imageOut; coerce('layer'); coerce('xanchor'); coerce('yanchor'); coerce('sizex'); coerce('sizey'); coerce('sizing'); coerce('opacity'); var gdMock = { _fullLayout: fullLayout }; var axLetters = ['x', 'y']; for(var i = 0; i < 2; i++) { // 'paper' is the fallback axref var axLetter = axLetters[i]; var axRef = Axes.coerceRef(imageIn, imageOut, gdMock, axLetter, 'paper', undefined); if(axRef !== 'paper') { var ax = Axes.getFromId(gdMock, axRef); ax._imgIndices.push(imageOut._index); } Axes.coercePosition(imageOut, gdMock, coerce, axRef, axLetter, 0); } return imageOut; } },{"../../lib":287,"../../plots/array_container_defaults":329,"../../plots/cartesian/axes":334,"./attributes":202}],205:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Drawing = _dereq_('../drawing'); var Axes = _dereq_('../../plots/cartesian/axes'); var axisIds = _dereq_('../../plots/cartesian/axis_ids'); var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces'); module.exports = function draw(gd) { var fullLayout = gd._fullLayout; var imageDataAbove = []; var imageDataSubplot = {}; var imageDataBelow = []; var subplot; var i; // Sort into top, subplot, and bottom layers for(i = 0; i < fullLayout.images.length; i++) { var img = fullLayout.images[i]; if(img.visible) { if(img.layer === 'below' && img.xref !== 'paper' && img.yref !== 'paper') { subplot = axisIds.ref2id(img.xref) + axisIds.ref2id(img.yref); var plotinfo = fullLayout._plots[subplot]; if(!plotinfo) { // Fall back to _imageLowerLayer in case the requested subplot doesn't exist. // This can happen if you reference the image to an x / y axis combination // that doesn't have any data on it (and layer is below) imageDataBelow.push(img); continue; } if(plotinfo.mainplot) { subplot = plotinfo.mainplot.id; } if(!imageDataSubplot[subplot]) { imageDataSubplot[subplot] = []; } imageDataSubplot[subplot].push(img); } else if(img.layer === 'above') { imageDataAbove.push(img); } else { imageDataBelow.push(img); } } } var anchors = { x: { left: { sizing: 'xMin', offset: 0 }, center: { sizing: 'xMid', offset: -1 / 2 }, right: { sizing: 'xMax', offset: -1 } }, y: { top: { sizing: 'YMin', offset: 0 }, middle: { sizing: 'YMid', offset: -1 / 2 }, bottom: { sizing: 'YMax', offset: -1 } } }; // Images must be converted to dataURL's for exporting. function setImage(d) { var thisImage = d3.select(this); if(this._imgSrc === d.source) { return; } thisImage.attr('xmlns', xmlnsNamespaces.svg); if(d.source && d.source.slice(0, 5) === 'data:') { thisImage.attr('xlink:href', d.source); this._imgSrc = d.source; } else { var imagePromise = new Promise(function(resolve) { var img = new Image(); this.img = img; // If not set, a `tainted canvas` error is thrown img.setAttribute('crossOrigin', 'anonymous'); img.onerror = errorHandler; img.onload = function() { var canvas = document.createElement('canvas'); canvas.width = this.width; canvas.height = this.height; var ctx = canvas.getContext('2d', {willReadFrequently: true}); ctx.drawImage(this, 0, 0); var dataURL = canvas.toDataURL('image/png'); thisImage.attr('xlink:href', dataURL); // resolve promise in onload handler instead of on 'load' to support IE11 // see https://github.com/plotly/plotly.js/issues/1685 // for more details resolve(); }; thisImage.on('error', errorHandler); img.src = d.source; this._imgSrc = d.source; function errorHandler() { thisImage.remove(); resolve(); } }.bind(this)); gd._promises.push(imagePromise); } } function applyAttributes(d) { var thisImage = d3.select(this); // Axes if specified var xa = Axes.getFromId(gd, d.xref); var ya = Axes.getFromId(gd, d.yref); var xIsDomain = Axes.getRefType(d.xref) === 'domain'; var yIsDomain = Axes.getRefType(d.yref) === 'domain'; var size = fullLayout._size; var width, height; if(xa !== undefined) { width = ((typeof(d.xref) === 'string') && xIsDomain) ? xa._length * d.sizex : Math.abs(xa.l2p(d.sizex) - xa.l2p(0)); } else { width = d.sizex * size.w; } if(ya !== undefined) { height = ((typeof(d.yref) === 'string') && yIsDomain) ? ya._length * d.sizey : Math.abs(ya.l2p(d.sizey) - ya.l2p(0)); } else { height = d.sizey * size.h; } // Offsets for anchor positioning var xOffset = width * anchors.x[d.xanchor].offset; var yOffset = height * anchors.y[d.yanchor].offset; var sizing = anchors.x[d.xanchor].sizing + anchors.y[d.yanchor].sizing; // Final positions var xPos, yPos; if(xa !== undefined) { xPos = ((typeof(d.xref) === 'string') && xIsDomain) ? xa._length * d.x + xa._offset : xa.r2p(d.x) + xa._offset; } else { xPos = d.x * size.w + size.l; } xPos += xOffset; if(ya !== undefined) { yPos = ((typeof(d.yref) === 'string') && yIsDomain) ? // consistent with "paper" yref value, where positive values // move up the page ya._length * (1 - d.y) + ya._offset : ya.r2p(d.y) + ya._offset; } else { yPos = size.h - d.y * size.h + size.t; } yPos += yOffset; // Construct the proper aspectRatio attribute switch(d.sizing) { case 'fill': sizing += ' slice'; break; case 'stretch': sizing = 'none'; break; } thisImage.attr({ x: xPos, y: yPos, width: width, height: height, preserveAspectRatio: sizing, opacity: d.opacity }); // Set proper clipping on images var xId = xa && (Axes.getRefType(d.xref) !== 'domain') ? xa._id : ''; var yId = ya && (Axes.getRefType(d.yref) !== 'domain') ? ya._id : ''; var clipAxes = xId + yId; Drawing.setClipUrl( thisImage, clipAxes ? ('clip' + fullLayout._uid + clipAxes) : null, gd ); } var imagesBelow = fullLayout._imageLowerLayer.selectAll('image') .data(imageDataBelow); var imagesAbove = fullLayout._imageUpperLayer.selectAll('image') .data(imageDataAbove); imagesBelow.enter().append('image'); imagesAbove.enter().append('image'); imagesBelow.exit().remove(); imagesAbove.exit().remove(); imagesBelow.each(function(d) { setImage.bind(this)(d); applyAttributes.bind(this)(d); }); imagesAbove.each(function(d) { setImage.bind(this)(d); applyAttributes.bind(this)(d); }); var allSubplots = Object.keys(fullLayout._plots); for(i = 0; i < allSubplots.length; i++) { subplot = allSubplots[i]; var subplotObj = fullLayout._plots[subplot]; // filter out overlaid plots (which have their images on the main plot) // and gl2d plots (which don't support below images, at least not yet) if(!subplotObj.imagelayer) continue; var imagesOnSubplot = subplotObj.imagelayer.selectAll('image') // even if there are no images on this subplot, we need to run // enter and exit in case there were previously .data(imageDataSubplot[subplot] || []); imagesOnSubplot.enter().append('image'); imagesOnSubplot.exit().remove(); imagesOnSubplot.each(function(d) { setImage.bind(this)(d); applyAttributes.bind(this)(d); }); } }; },{"../../constants/xmlns_namespaces":268,"../../plots/cartesian/axes":334,"../../plots/cartesian/axis_ids":338,"../drawing":179,"@plotly/d3":20}],206:[function(_dereq_,module,exports){ 'use strict'; module.exports = { moduleType: 'component', name: 'images', layoutAttributes: _dereq_('./attributes'), supplyLayoutDefaults: _dereq_('./defaults'), includeBasePlot: _dereq_('../../plots/cartesian/include_components')('images'), draw: _dereq_('./draw'), convertCoords: _dereq_('./convert_coords') }; },{"../../plots/cartesian/include_components":347,"./attributes":202,"./convert_coords":203,"./defaults":204,"./draw":205}],207:[function(_dereq_,module,exports){ 'use strict'; var fontAttrs = _dereq_('../../plots/font_attributes'); var colorAttrs = _dereq_('../color/attributes'); module.exports = { bgcolor: { valType: 'color', editType: 'legend', }, bordercolor: { valType: 'color', dflt: colorAttrs.defaultLine, editType: 'legend', }, borderwidth: { valType: 'number', min: 0, dflt: 0, editType: 'legend', }, font: fontAttrs({ editType: 'legend', }), grouptitlefont: fontAttrs({ editType: 'legend', }), orientation: { valType: 'enumerated', values: ['v', 'h'], dflt: 'v', editType: 'legend', }, traceorder: { valType: 'flaglist', flags: ['reversed', 'grouped'], extras: ['normal'], editType: 'legend', }, tracegroupgap: { valType: 'number', min: 0, dflt: 10, editType: 'legend', }, itemsizing: { valType: 'enumerated', values: ['trace', 'constant'], dflt: 'trace', editType: 'legend', }, itemwidth: { valType: 'number', min: 30, dflt: 30, editType: 'legend', }, itemclick: { valType: 'enumerated', values: ['toggle', 'toggleothers', false], dflt: 'toggle', editType: 'legend', }, itemdoubleclick: { valType: 'enumerated', values: ['toggle', 'toggleothers', false], dflt: 'toggleothers', editType: 'legend', }, groupclick: { valType: 'enumerated', values: ['toggleitem', 'togglegroup'], dflt: 'togglegroup', editType: 'legend', }, x: { valType: 'number', min: -2, max: 3, editType: 'legend', }, xanchor: { valType: 'enumerated', values: ['auto', 'left', 'center', 'right'], dflt: 'left', editType: 'legend', }, y: { valType: 'number', min: -2, max: 3, editType: 'legend', }, yanchor: { valType: 'enumerated', values: ['auto', 'top', 'middle', 'bottom'], editType: 'legend', }, uirevision: { valType: 'any', editType: 'none', }, valign: { valType: 'enumerated', values: ['top', 'middle', 'bottom'], dflt: 'middle', editType: 'legend', }, title: { text: { valType: 'string', dflt: '', editType: 'legend', }, font: fontAttrs({ editType: 'legend', }), side: { valType: 'enumerated', values: ['top', 'left', 'top left'], editType: 'legend', }, editType: 'legend', }, editType: 'legend' }; },{"../../plots/font_attributes":365,"../color/attributes":156}],208:[function(_dereq_,module,exports){ 'use strict'; module.exports = { scrollBarWidth: 6, scrollBarMinHeight: 20, scrollBarColor: '#808BA4', scrollBarMargin: 4, scrollBarEnterAttrs: {rx: 20, ry: 3, width: 0, height: 0}, // number of px between legend title and (left) side of legend (always in x direction and from inner border) titlePad: 2, // number of px between each legend item (x and/or y direction) itemGap: 5 }; },{}],209:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var Template = _dereq_('../../plot_api/plot_template'); var plotsAttrs = _dereq_('../../plots/attributes'); var attributes = _dereq_('./attributes'); var basePlotLayoutAttributes = _dereq_('../../plots/layout_attributes'); var helpers = _dereq_('./helpers'); module.exports = function legendDefaults(layoutIn, layoutOut, fullData) { var containerIn = layoutIn.legend || {}; var containerOut = Template.newContainer(layoutOut, 'legend'); function coerce(attr, dflt) { return Lib.coerce(containerIn, containerOut, attributes, attr, dflt); } var trace; var traceCoerce = function(attr, dflt) { var traceIn = trace._input; var traceOut = trace; return Lib.coerce(traceIn, traceOut, plotsAttrs, attr, dflt); }; var globalFont = layoutOut.font || {}; var grouptitlefont = Lib.coerceFont(coerce, 'grouptitlefont', Lib.extendFlat({}, globalFont, { size: Math.round(globalFont.size * 1.1) })); var legendTraceCount = 0; var legendReallyHasATrace = false; var defaultOrder = 'normal'; for(var i = 0; i < fullData.length; i++) { trace = fullData[i]; if(!trace.visible) continue; // Note that we explicitly count any trace that is either shown or // *would* be shown by default, toward the two traces you need to // ensure the legend is shown by default, because this can still help // disambiguate. if(trace.showlegend || ( trace._dfltShowLegend && !( trace._module && trace._module.attributes && trace._module.attributes.showlegend && trace._module.attributes.showlegend.dflt === false ) )) { legendTraceCount++; if(trace.showlegend) { legendReallyHasATrace = true; // Always show the legend by default if there's a pie, // or if there's only one trace but it's explicitly shown if(Registry.traceIs(trace, 'pie-like') || trace._input.showlegend === true ) { legendTraceCount++; } } Lib.coerceFont(traceCoerce, 'legendgrouptitle.font', grouptitlefont); } if((Registry.traceIs(trace, 'bar') && layoutOut.barmode === 'stack') || ['tonextx', 'tonexty'].indexOf(trace.fill) !== -1) { defaultOrder = helpers.isGrouped({traceorder: defaultOrder}) ? 'grouped+reversed' : 'reversed'; } if(trace.legendgroup !== undefined && trace.legendgroup !== '') { defaultOrder = helpers.isReversed({traceorder: defaultOrder}) ? 'reversed+grouped' : 'grouped'; } } var showLegend = Lib.coerce(layoutIn, layoutOut, basePlotLayoutAttributes, 'showlegend', legendReallyHasATrace && legendTraceCount > 1); // delete legend if(showLegend === false) layoutOut.legend = undefined; if(showLegend === false && !containerIn.uirevision) return; coerce('uirevision', layoutOut.uirevision); if(showLegend === false) return; coerce('bgcolor', layoutOut.paper_bgcolor); coerce('bordercolor'); coerce('borderwidth'); var itemFont = Lib.coerceFont(coerce, 'font', layoutOut.font); var orientation = coerce('orientation'); var isHorizontal = orientation === 'h'; var defaultX, defaultY, defaultYAnchor; if(isHorizontal) { defaultX = 0; if(Registry.getComponentMethod('rangeslider', 'isVisible')(layoutIn.xaxis)) { defaultY = 1.1; defaultYAnchor = 'bottom'; } else { // maybe use y=1.1 / yanchor=bottom as above // to avoid https://github.com/plotly/plotly.js/issues/1199 // in v3 defaultY = -0.1; defaultYAnchor = 'top'; } } else { defaultX = 1.02; defaultY = 1; defaultYAnchor = 'auto'; } coerce('traceorder', defaultOrder); if(helpers.isGrouped(layoutOut.legend)) coerce('tracegroupgap'); coerce('itemsizing'); coerce('itemwidth'); coerce('itemclick'); coerce('itemdoubleclick'); coerce('groupclick'); coerce('x', defaultX); coerce('xanchor'); coerce('y', defaultY); coerce('yanchor', defaultYAnchor); coerce('valign'); Lib.noneOrAll(containerIn, containerOut, ['x', 'y']); var titleText = coerce('title.text'); if(titleText) { coerce('title.side', isHorizontal ? 'left' : 'top'); var dfltTitleFont = Lib.extendFlat({}, itemFont, { size: Lib.bigFont(itemFont.size) }); Lib.coerceFont(coerce, 'title.font', dfltTitleFont); } }; },{"../../lib":287,"../../plot_api/plot_template":323,"../../plots/attributes":330,"../../plots/layout_attributes":369,"../../registry":378,"./attributes":207,"./helpers":213}],210:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); var Plots = _dereq_('../../plots/plots'); var Registry = _dereq_('../../registry'); var Events = _dereq_('../../lib/events'); var dragElement = _dereq_('../dragelement'); var Drawing = _dereq_('../drawing'); var Color = _dereq_('../color'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var handleClick = _dereq_('./handle_click'); var constants = _dereq_('./constants'); var alignmentConstants = _dereq_('../../constants/alignment'); var LINE_SPACING = alignmentConstants.LINE_SPACING; var FROM_TL = alignmentConstants.FROM_TL; var FROM_BR = alignmentConstants.FROM_BR; var getLegendData = _dereq_('./get_legend_data'); var style = _dereq_('./style'); var helpers = _dereq_('./helpers'); var MAIN_TITLE = 1; module.exports = function draw(gd, opts) { if(!opts) opts = gd._fullLayout.legend || {}; return _draw(gd, opts); }; function _draw(gd, legendObj) { var fullLayout = gd._fullLayout; var clipId = 'legend' + fullLayout._uid; var layer; var inHover = legendObj._inHover; if(inHover) { layer = legendObj.layer; clipId += '-hover'; } else { layer = fullLayout._infolayer; } if(!layer) return; if(!gd._legendMouseDownTime) gd._legendMouseDownTime = 0; var legendData; if(!inHover) { if(!gd.calcdata) return; legendData = fullLayout.showlegend && getLegendData(gd.calcdata, legendObj); } else { if(!legendObj.entries) return; legendData = getLegendData(legendObj.entries, legendObj); } var hiddenSlices = fullLayout.hiddenlabels || []; if(!inHover && (!fullLayout.showlegend || !legendData.length)) { layer.selectAll('.legend').remove(); fullLayout._topdefs.select('#' + clipId).remove(); return Plots.autoMargin(gd, 'legend'); } var legend = Lib.ensureSingle(layer, 'g', 'legend', function(s) { if(!inHover) s.attr('pointer-events', 'all'); }); var clipPath = Lib.ensureSingleById(fullLayout._topdefs, 'clipPath', clipId, function(s) { s.append('rect'); }); var bg = Lib.ensureSingle(legend, 'rect', 'bg', function(s) { s.attr('shape-rendering', 'crispEdges'); }); bg.call(Color.stroke, legendObj.bordercolor) .call(Color.fill, legendObj.bgcolor) .style('stroke-width', legendObj.borderwidth + 'px'); var scrollBox = Lib.ensureSingle(legend, 'g', 'scrollbox'); var title = legendObj.title; legendObj._titleWidth = 0; legendObj._titleHeight = 0; if(title.text) { var titleEl = Lib.ensureSingle(scrollBox, 'text', 'legendtitletext'); titleEl.attr('text-anchor', 'start') .call(Drawing.font, title.font) .text(title.text); textLayout(titleEl, scrollBox, gd, legendObj, MAIN_TITLE); // handle mathjax or multi-line text and compute title height } else { scrollBox.selectAll('.legendtitletext').remove(); } var scrollBar = Lib.ensureSingle(legend, 'rect', 'scrollbar', function(s) { s.attr(constants.scrollBarEnterAttrs) .call(Color.fill, constants.scrollBarColor); }); var groups = scrollBox.selectAll('g.groups').data(legendData); groups.enter().append('g').attr('class', 'groups'); groups.exit().remove(); var traces = groups.selectAll('g.traces').data(Lib.identity); traces.enter().append('g').attr('class', 'traces'); traces.exit().remove(); traces.style('opacity', function(d) { var trace = d[0].trace; if(Registry.traceIs(trace, 'pie-like')) { return hiddenSlices.indexOf(d[0].label) !== -1 ? 0.5 : 1; } else { return trace.visible === 'legendonly' ? 0.5 : 1; } }) .each(function() { d3.select(this).call(drawTexts, gd, legendObj); }) .call(style, gd, legendObj) .each(function() { if(!inHover) d3.select(this).call(setupTraceToggle, gd); }); Lib.syncOrAsync([ Plots.previousPromises, function() { return computeLegendDimensions(gd, groups, traces, legendObj); }, function() { var gs = fullLayout._size; var bw = legendObj.borderwidth; if(!inHover) { var expMargin = expandMargin(gd); // IF expandMargin return a Promise (which is truthy), // we're under a doAutoMargin redraw, so we don't have to // draw the remaining pieces below if(expMargin) return; var lx = gs.l + gs.w * legendObj.x - FROM_TL[getXanchor(legendObj)] * legendObj._width; var ly = gs.t + gs.h * (1 - legendObj.y) - FROM_TL[getYanchor(legendObj)] * legendObj._effHeight; if(fullLayout.margin.autoexpand) { var lx0 = lx; var ly0 = ly; lx = Lib.constrain(lx, 0, fullLayout.width - legendObj._width); ly = Lib.constrain(ly, 0, fullLayout.height - legendObj._effHeight); if(lx !== lx0) { Lib.log('Constrain legend.x to make legend fit inside graph'); } if(ly !== ly0) { Lib.log('Constrain legend.y to make legend fit inside graph'); } } // Set size and position of all the elements that make up a legend: // legend, background and border, scroll box and scroll bar as well as title Drawing.setTranslate(legend, lx, ly); } // to be safe, remove previous listeners scrollBar.on('.drag', null); legend.on('wheel', null); if(inHover || legendObj._height <= legendObj._maxHeight || gd._context.staticPlot) { // if scrollbar should not be shown. var height = legendObj._effHeight; // if unified hover, let it be its full size if(inHover) height = legendObj._height; bg.attr({ width: legendObj._width - bw, height: height - bw, x: bw / 2, y: bw / 2 }); Drawing.setTranslate(scrollBox, 0, 0); clipPath.select('rect').attr({ width: legendObj._width - 2 * bw, height: height - 2 * bw, x: bw, y: bw }); Drawing.setClipUrl(scrollBox, clipId, gd); Drawing.setRect(scrollBar, 0, 0, 0, 0); delete legendObj._scrollY; } else { var scrollBarHeight = Math.max(constants.scrollBarMinHeight, legendObj._effHeight * legendObj._effHeight / legendObj._height); var scrollBarYMax = legendObj._effHeight - scrollBarHeight - 2 * constants.scrollBarMargin; var scrollBoxYMax = legendObj._height - legendObj._effHeight; var scrollRatio = scrollBarYMax / scrollBoxYMax; var scrollBoxY = Math.min(legendObj._scrollY || 0, scrollBoxYMax); // increase the background and clip-path width // by the scrollbar width and margin bg.attr({ width: legendObj._width - 2 * bw + constants.scrollBarWidth + constants.scrollBarMargin, height: legendObj._effHeight - bw, x: bw / 2, y: bw / 2 }); clipPath.select('rect').attr({ width: legendObj._width - 2 * bw + constants.scrollBarWidth + constants.scrollBarMargin, height: legendObj._effHeight - 2 * bw, x: bw, y: bw + scrollBoxY }); Drawing.setClipUrl(scrollBox, clipId, gd); scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio); // scroll legend by mousewheel or touchpad swipe up/down legend.on('wheel', function() { scrollBoxY = Lib.constrain( legendObj._scrollY + ((d3.event.deltaY / scrollBarYMax) * scrollBoxYMax), 0, scrollBoxYMax); scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio); if(scrollBoxY !== 0 && scrollBoxY !== scrollBoxYMax) { d3.event.preventDefault(); } }); var eventY0, eventY1, scrollBoxY0; var getScrollBarDragY = function(scrollBoxY0, eventY0, eventY1) { var y = ((eventY1 - eventY0) / scrollRatio) + scrollBoxY0; return Lib.constrain(y, 0, scrollBoxYMax); }; var getNaturalDragY = function(scrollBoxY0, eventY0, eventY1) { var y = ((eventY0 - eventY1) / scrollRatio) + scrollBoxY0; return Lib.constrain(y, 0, scrollBoxYMax); }; // scroll legend by dragging scrollBAR var scrollBarDrag = d3.behavior.drag() .on('dragstart', function() { var e = d3.event.sourceEvent; if(e.type === 'touchstart') { eventY0 = e.changedTouches[0].clientY; } else { eventY0 = e.clientY; } scrollBoxY0 = scrollBoxY; }) .on('drag', function() { var e = d3.event.sourceEvent; if(e.buttons === 2 || e.ctrlKey) return; if(e.type === 'touchmove') { eventY1 = e.changedTouches[0].clientY; } else { eventY1 = e.clientY; } scrollBoxY = getScrollBarDragY(scrollBoxY0, eventY0, eventY1); scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio); }); scrollBar.call(scrollBarDrag); // scroll legend by touch-dragging scrollBOX var scrollBoxTouchDrag = d3.behavior.drag() .on('dragstart', function() { var e = d3.event.sourceEvent; if(e.type === 'touchstart') { eventY0 = e.changedTouches[0].clientY; scrollBoxY0 = scrollBoxY; } }) .on('drag', function() { var e = d3.event.sourceEvent; if(e.type === 'touchmove') { eventY1 = e.changedTouches[0].clientY; scrollBoxY = getNaturalDragY(scrollBoxY0, eventY0, eventY1); scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio); } }); scrollBox.call(scrollBoxTouchDrag); } function scrollHandler(scrollBoxY, scrollBarHeight, scrollRatio) { legendObj._scrollY = gd._fullLayout.legend._scrollY = scrollBoxY; Drawing.setTranslate(scrollBox, 0, -scrollBoxY); Drawing.setRect( scrollBar, legendObj._width, constants.scrollBarMargin + scrollBoxY * scrollRatio, constants.scrollBarWidth, scrollBarHeight ); clipPath.select('rect').attr('y', bw + scrollBoxY); } if(gd._context.edits.legendPosition) { var xf, yf, x0, y0; legend.classed('cursor-move', true); dragElement.init({ element: legend.node(), gd: gd, prepFn: function() { var transform = Drawing.getTranslate(legend); x0 = transform.x; y0 = transform.y; }, moveFn: function(dx, dy) { var newX = x0 + dx; var newY = y0 + dy; Drawing.setTranslate(legend, newX, newY); xf = dragElement.align(newX, 0, gs.l, gs.l + gs.w, legendObj.xanchor); yf = dragElement.align(newY, 0, gs.t + gs.h, gs.t, legendObj.yanchor); }, doneFn: function() { if(xf !== undefined && yf !== undefined) { Registry.call('_guiRelayout', gd, {'legend.x': xf, 'legend.y': yf}); } }, clickFn: function(numClicks, e) { var clickedTrace = layer.selectAll('g.traces').filter(function() { var bbox = this.getBoundingClientRect(); return ( e.clientX >= bbox.left && e.clientX <= bbox.right && e.clientY >= bbox.top && e.clientY <= bbox.bottom ); }); if(clickedTrace.size() > 0) { clickOrDoubleClick(gd, legend, clickedTrace, numClicks, e); } } }); } }], gd); } function clickOrDoubleClick(gd, legend, legendItem, numClicks, evt) { var trace = legendItem.data()[0][0].trace; var evtData = { event: evt, node: legendItem.node(), curveNumber: trace.index, expandedIndex: trace._expandedIndex, data: gd.data, layout: gd.layout, frames: gd._transitionData._frames, config: gd._context, fullData: gd._fullData, fullLayout: gd._fullLayout }; if(trace._group) { evtData.group = trace._group; } if(Registry.traceIs(trace, 'pie-like')) { evtData.label = legendItem.datum()[0].label; } var clickVal = Events.triggerHandler(gd, 'plotly_legendclick', evtData); if(clickVal === false) return; if(numClicks === 1) { legend._clickTimeout = setTimeout(function() { if(!gd._fullLayout) return; handleClick(legendItem, gd, numClicks); }, gd._context.doubleClickDelay); } else if(numClicks === 2) { if(legend._clickTimeout) clearTimeout(legend._clickTimeout); gd._legendMouseDownTime = 0; var dblClickVal = Events.triggerHandler(gd, 'plotly_legenddoubleclick', evtData); if(dblClickVal !== false) handleClick(legendItem, gd, numClicks); } } function drawTexts(g, gd, legendObj) { var legendItem = g.data()[0][0]; var trace = legendItem.trace; var isPieLike = Registry.traceIs(trace, 'pie-like'); var isEditable = !legendObj._inHover && gd._context.edits.legendText && !isPieLike; var maxNameLength = legendObj._maxNameLength; var name, font; if(legendItem.groupTitle) { name = legendItem.groupTitle.text; font = legendItem.groupTitle.font; } else { font = legendObj.font; if(!legendObj.entries) { name = isPieLike ? legendItem.label : trace.name; if(trace._meta) { name = Lib.templateString(name, trace._meta); } } else { name = legendItem.text; } } var textEl = Lib.ensureSingle(g, 'text', 'legendtext'); textEl.attr('text-anchor', 'start') .call(Drawing.font, font) .text(isEditable ? ensureLength(name, maxNameLength) : name); var textGap = legendObj.itemwidth + constants.itemGap * 2; svgTextUtils.positionText(textEl, textGap, 0); if(isEditable) { textEl.call(svgTextUtils.makeEditable, {gd: gd, text: name}) .call(textLayout, g, gd, legendObj) .on('edit', function(newName) { this.text(ensureLength(newName, maxNameLength)) .call(textLayout, g, gd, legendObj); var fullInput = legendItem.trace._fullInput || {}; var update = {}; if(Registry.hasTransform(fullInput, 'groupby')) { var groupbyIndices = Registry.getTransformIndices(fullInput, 'groupby'); var index = groupbyIndices[groupbyIndices.length - 1]; var kcont = Lib.keyedContainer(fullInput, 'transforms[' + index + '].styles', 'target', 'value.name'); kcont.set(legendItem.trace._group, newName); update = kcont.constructUpdate(); } else { update.name = newName; } return Registry.call('_guiRestyle', gd, update, trace.index); }); } else { textLayout(textEl, g, gd, legendObj); } } /* * Make sure we have a reasonably clickable region. * If this string is missing or very short, pad it with spaces out to at least * 4 characters, up to the max length of other labels, on the assumption that * most characters are wider than spaces so a string of spaces will usually be * no wider than the real labels. */ function ensureLength(str, maxLength) { var targetLength = Math.max(4, maxLength); if(str && str.trim().length >= targetLength / 2) return str; str = str || ''; for(var i = targetLength - str.length; i > 0; i--) str += ' '; return str; } function setupTraceToggle(g, gd) { var doubleClickDelay = gd._context.doubleClickDelay; var newMouseDownTime; var numClicks = 1; var traceToggle = Lib.ensureSingle(g, 'rect', 'legendtoggle', function(s) { if(!gd._context.staticPlot) { s.style('cursor', 'pointer').attr('pointer-events', 'all'); } s.call(Color.fill, 'rgba(0,0,0,0)'); }); if(gd._context.staticPlot) return; traceToggle.on('mousedown', function() { newMouseDownTime = (new Date()).getTime(); if(newMouseDownTime - gd._legendMouseDownTime < doubleClickDelay) { // in a click train numClicks += 1; } else { // new click train numClicks = 1; gd._legendMouseDownTime = newMouseDownTime; } }); traceToggle.on('mouseup', function() { if(gd._dragged || gd._editing) return; var legend = gd._fullLayout.legend; if((new Date()).getTime() - gd._legendMouseDownTime > doubleClickDelay) { numClicks = Math.max(numClicks - 1, 1); } clickOrDoubleClick(gd, legend, g, numClicks, d3.event); }); } function textLayout(s, g, gd, legendObj, aTitle) { if(legendObj._inHover) s.attr('data-notex', true); // do not process MathJax for unified hover svgTextUtils.convertToTspans(s, gd, function() { computeTextDimensions(g, gd, legendObj, aTitle); }); } function computeTextDimensions(g, gd, legendObj, aTitle) { var legendItem = g.data()[0][0]; if(!legendObj._inHover && legendItem && !legendItem.trace.showlegend) { g.remove(); return; } var mathjaxGroup = g.select('g[class*=math-group]'); var mathjaxNode = mathjaxGroup.node(); if(!legendObj) legendObj = gd._fullLayout.legend; var bw = legendObj.borderwidth; var font; if(aTitle === MAIN_TITLE) { font = legendObj.title.font; } else if(legendItem.groupTitle) { font = legendItem.groupTitle.font; } else { font = legendObj.font; } var lineHeight = font.size * LINE_SPACING; var height, width; if(mathjaxNode) { var mathjaxBB = Drawing.bBox(mathjaxNode); height = mathjaxBB.height; width = mathjaxBB.width; if(aTitle === MAIN_TITLE) { Drawing.setTranslate(mathjaxGroup, bw, bw + height * 0.75); } else { // legend item Drawing.setTranslate(mathjaxGroup, 0, height * 0.25); } } else { var textEl = g.select(aTitle === MAIN_TITLE ? '.legendtitletext' : '.legendtext' ); var textLines = svgTextUtils.lineCount(textEl); var textNode = textEl.node(); height = lineHeight * textLines; width = textNode ? Drawing.bBox(textNode).width : 0; // approximation to height offset to center the font // to avoid getBoundingClientRect if(aTitle === MAIN_TITLE) { if(legendObj.title.side === 'left') { // add extra space between legend title and itmes width += constants.itemGap * 2; } svgTextUtils.positionText(textEl, bw + constants.titlePad, bw + lineHeight ); } else { // legend item var x = constants.itemGap * 2 + legendObj.itemwidth; if(legendItem.groupTitle) { x = constants.itemGap; width -= legendObj.itemwidth; } svgTextUtils.positionText(textEl, x, -lineHeight * ((textLines - 1) / 2 - 0.3) ); } } if(aTitle === MAIN_TITLE) { legendObj._titleWidth = width; legendObj._titleHeight = height; } else { // legend item legendItem.lineHeight = lineHeight; legendItem.height = Math.max(height, 16) + 3; legendItem.width = width; } } function getTitleSize(legendObj) { var w = 0; var h = 0; var side = legendObj.title.side; if(side) { if(side.indexOf('left') !== -1) { w = legendObj._titleWidth; } if(side.indexOf('top') !== -1) { h = legendObj._titleHeight; } } return [w, h]; } /* * Computes in fullLayout.legend: * * - _height: legend height including items past scrollbox height * - _maxHeight: maximum legend height before scrollbox is required * - _effHeight: legend height w/ or w/o scrollbox * * - _width: legend width * - _maxWidth (for orientation:h only): maximum width before starting new row */ function computeLegendDimensions(gd, groups, traces, legendObj) { var fullLayout = gd._fullLayout; if(!legendObj) legendObj = fullLayout.legend; var gs = fullLayout._size; var isVertical = helpers.isVertical(legendObj); var isGrouped = helpers.isGrouped(legendObj); var bw = legendObj.borderwidth; var bw2 = 2 * bw; var itemGap = constants.itemGap; var textGap = legendObj.itemwidth + itemGap * 2; var endPad = 2 * (bw + itemGap); var yanchor = getYanchor(legendObj); var isBelowPlotArea = legendObj.y < 0 || (legendObj.y === 0 && yanchor === 'top'); var isAbovePlotArea = legendObj.y > 1 || (legendObj.y === 1 && yanchor === 'bottom'); var traceGroupGap = legendObj.tracegroupgap; // - if below/above plot area, give it the maximum potential margin-push value // - otherwise, extend the height of the plot area legendObj._maxHeight = Math.max( (isBelowPlotArea || isAbovePlotArea) ? fullLayout.height / 2 : gs.h, 30 ); var toggleRectWidth = 0; legendObj._width = 0; legendObj._height = 0; var titleSize = getTitleSize(legendObj); if(isVertical) { traces.each(function(d) { var h = d[0].height; Drawing.setTranslate(this, bw + titleSize[0], bw + titleSize[1] + legendObj._height + h / 2 + itemGap ); legendObj._height += h; legendObj._width = Math.max(legendObj._width, d[0].width); }); toggleRectWidth = textGap + legendObj._width; legendObj._width += itemGap + textGap + bw2; legendObj._height += endPad; if(isGrouped) { groups.each(function(d, i) { Drawing.setTranslate(this, 0, i * legendObj.tracegroupgap); }); legendObj._height += (legendObj._lgroupsLength - 1) * legendObj.tracegroupgap; } } else { var xanchor = getXanchor(legendObj); var isLeftOfPlotArea = legendObj.x < 0 || (legendObj.x === 0 && xanchor === 'right'); var isRightOfPlotArea = legendObj.x > 1 || (legendObj.x === 1 && xanchor === 'left'); var isBeyondPlotAreaY = isAbovePlotArea || isBelowPlotArea; var hw = fullLayout.width / 2; // - if placed within x-margins, extend the width of the plot area // - else if below/above plot area and anchored in the margin, extend to opposite margin, // - otherwise give it the maximum potential margin-push value legendObj._maxWidth = Math.max( isLeftOfPlotArea ? ((isBeyondPlotAreaY && xanchor === 'left') ? gs.l + gs.w : hw) : isRightOfPlotArea ? ((isBeyondPlotAreaY && xanchor === 'right') ? gs.r + gs.w : hw) : gs.w, 2 * textGap); var maxItemWidth = 0; var combinedItemWidth = 0; traces.each(function(d) { var w = d[0].width + textGap; maxItemWidth = Math.max(maxItemWidth, w); combinedItemWidth += w; }); toggleRectWidth = null; var maxRowWidth = 0; if(isGrouped) { var maxGroupHeightInRow = 0; var groupOffsetX = 0; var groupOffsetY = 0; groups.each(function() { var maxWidthInGroup = 0; var offsetY = 0; d3.select(this).selectAll('g.traces').each(function(d) { var w = d[0].width; var h = d[0].height; Drawing.setTranslate(this, titleSize[0], titleSize[1] + bw + itemGap + h / 2 + offsetY ); offsetY += h; maxWidthInGroup = Math.max(maxWidthInGroup, textGap + w); }); var next = maxWidthInGroup + itemGap; // horizontal_wrapping if( // not on the first column already groupOffsetX > 0 && // goes beyound limit next + bw + groupOffsetX > legendObj._maxWidth ) { maxRowWidth = Math.max(maxRowWidth, groupOffsetX); groupOffsetX = 0; groupOffsetY += maxGroupHeightInRow + traceGroupGap; maxGroupHeightInRow = offsetY; } else { maxGroupHeightInRow = Math.max(maxGroupHeightInRow, offsetY); } Drawing.setTranslate(this, groupOffsetX, groupOffsetY); groupOffsetX += next; }); legendObj._width = Math.max(maxRowWidth, groupOffsetX) + bw; legendObj._height = groupOffsetY + maxGroupHeightInRow + endPad; } else { var nTraces = traces.size(); var oneRowLegend = (combinedItemWidth + bw2 + (nTraces - 1) * itemGap) < legendObj._maxWidth; var maxItemHeightInRow = 0; var offsetX = 0; var offsetY = 0; var rowWidth = 0; traces.each(function(d) { var h = d[0].height; var w = textGap + d[0].width; var next = (oneRowLegend ? w : maxItemWidth) + itemGap; if((next + bw + offsetX - itemGap) >= legendObj._maxWidth) { maxRowWidth = Math.max(maxRowWidth, rowWidth); offsetX = 0; offsetY += maxItemHeightInRow; legendObj._height += maxItemHeightInRow; maxItemHeightInRow = 0; } Drawing.setTranslate(this, titleSize[0] + bw + offsetX, titleSize[1] + bw + offsetY + h / 2 + itemGap ); rowWidth = offsetX + w + itemGap; offsetX += next; maxItemHeightInRow = Math.max(maxItemHeightInRow, h); }); if(oneRowLegend) { legendObj._width = offsetX + bw2; legendObj._height = maxItemHeightInRow + endPad; } else { legendObj._width = Math.max(maxRowWidth, rowWidth) + bw2; legendObj._height += maxItemHeightInRow + endPad; } } } legendObj._width = Math.ceil( Math.max( legendObj._width + titleSize[0], legendObj._titleWidth + 2 * (bw + constants.titlePad) ) ); legendObj._height = Math.ceil( Math.max( legendObj._height + titleSize[1], legendObj._titleHeight + 2 * (bw + constants.itemGap) ) ); legendObj._effHeight = Math.min(legendObj._height, legendObj._maxHeight); var edits = gd._context.edits; var isEditable = edits.legendText || edits.legendPosition; traces.each(function(d) { var traceToggle = d3.select(this).select('.legendtoggle'); var h = d[0].height; var w = isEditable ? textGap : (toggleRectWidth || (textGap + d[0].width)); if(!isVertical) w += itemGap / 2; Drawing.setRect(traceToggle, 0, -h / 2, w, h); }); } function expandMargin(gd) { var fullLayout = gd._fullLayout; var legendObj = fullLayout.legend; var xanchor = getXanchor(legendObj); var yanchor = getYanchor(legendObj); return Plots.autoMargin(gd, 'legend', { x: legendObj.x, y: legendObj.y, l: legendObj._width * (FROM_TL[xanchor]), r: legendObj._width * (FROM_BR[xanchor]), b: legendObj._effHeight * (FROM_BR[yanchor]), t: legendObj._effHeight * (FROM_TL[yanchor]) }); } function getXanchor(legendObj) { return Lib.isRightAnchor(legendObj) ? 'right' : Lib.isCenterAnchor(legendObj) ? 'center' : 'left'; } function getYanchor(legendObj) { return Lib.isBottomAnchor(legendObj) ? 'bottom' : Lib.isMiddleAnchor(legendObj) ? 'middle' : 'top'; } },{"../../constants/alignment":262,"../../lib":287,"../../lib/events":280,"../../lib/svg_text_utils":310,"../../plots/plots":371,"../../registry":378,"../color":157,"../dragelement":176,"../drawing":179,"./constants":208,"./get_legend_data":211,"./handle_click":212,"./helpers":213,"./style":215,"@plotly/d3":20}],211:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var helpers = _dereq_('./helpers'); module.exports = function getLegendData(calcdata, opts) { var inHover = opts._inHover; var grouped = helpers.isGrouped(opts); var reversed = helpers.isReversed(opts); var lgroupToTraces = {}; var lgroups = []; var hasOneNonBlankGroup = false; var slicesShown = {}; var lgroupi = 0; var maxNameLength = 0; var i, j; function addOneItem(legendGroup, legendItem) { // each '' legend group is treated as a separate group if(legendGroup === '' || !helpers.isGrouped(opts)) { // TODO: check this against fullData legendgroups? var uniqueGroup = '~~i' + lgroupi; lgroups.push(uniqueGroup); lgroupToTraces[uniqueGroup] = [legendItem]; lgroupi++; } else if(lgroups.indexOf(legendGroup) === -1) { lgroups.push(legendGroup); hasOneNonBlankGroup = true; lgroupToTraces[legendGroup] = [legendItem]; } else { lgroupToTraces[legendGroup].push(legendItem); } } // build an { legendgroup: [cd0, cd0], ... } object for(i = 0; i < calcdata.length; i++) { var cd = calcdata[i]; var cd0 = cd[0]; var trace = cd0.trace; var lgroup = trace.legendgroup; if(!inHover && (!trace.visible || !trace.showlegend)) continue; if(Registry.traceIs(trace, 'pie-like')) { if(!slicesShown[lgroup]) slicesShown[lgroup] = {}; for(j = 0; j < cd.length; j++) { var labelj = cd[j].label; if(!slicesShown[lgroup][labelj]) { addOneItem(lgroup, { label: labelj, color: cd[j].color, i: cd[j].i, trace: trace, pts: cd[j].pts }); slicesShown[lgroup][labelj] = true; maxNameLength = Math.max(maxNameLength, (labelj || '').length); } } } else { addOneItem(lgroup, cd0); maxNameLength = Math.max(maxNameLength, (trace.name || '').length); } } // won't draw a legend in this case if(!lgroups.length) return []; // collapse all groups into one if all groups are blank var shouldCollapse = !hasOneNonBlankGroup || !grouped; var legendData = []; for(i = 0; i < lgroups.length; i++) { var t = lgroupToTraces[lgroups[i]]; if(shouldCollapse) { legendData.push(t[0]); } else { legendData.push(t); } } if(shouldCollapse) legendData = [legendData]; for(i = 0; i < legendData.length; i++) { // find minimum rank within group var groupMinRank = Infinity; for(j = 0; j < legendData[i].length; j++) { var rank = legendData[i][j].trace.legendrank; if(groupMinRank > rank) groupMinRank = rank; } // record on first group element legendData[i][0]._groupMinRank = groupMinRank; legendData[i][0]._preGroupSort = i; } var orderFn1 = function(a, b) { return ( (a[0]._groupMinRank - b[0]._groupMinRank) || (a[0]._preGroupSort - b[0]._preGroupSort) // fallback for old Chrome < 70 https://bugs.chromium.org/p/v8/issues/detail?id=90 ); }; var orderFn2 = function(a, b) { return ( (a.trace.legendrank - b.trace.legendrank) || (a._preSort - b._preSort) // fallback for old Chrome < 70 https://bugs.chromium.org/p/v8/issues/detail?id=90 ); }; // sort considering minimum group legendrank legendData.forEach(function(a, k) { a[0]._preGroupSort = k; }); legendData.sort(orderFn1); for(i = 0; i < legendData.length; i++) { // sort considering trace.legendrank and legend.traceorder legendData[i].forEach(function(a, k) { a._preSort = k; }); legendData[i].sort(orderFn2); var firstItemTrace = legendData[i][0].trace; var groupTitle = null; // get group title text for(j = 0; j < legendData[i].length; j++) { var gt = legendData[i][j].trace.legendgrouptitle; if(gt && gt.text) { groupTitle = gt; if(inHover) gt.font = opts._groupTitleFont; break; } } // reverse order if(reversed) legendData[i].reverse(); if(groupTitle) { var hasPieLike = false; for(j = 0; j < legendData[i].length; j++) { if(Registry.traceIs(legendData[i][j].trace, 'pie-like')) { hasPieLike = true; break; } } // set group title text legendData[i].unshift({ i: -1, groupTitle: groupTitle, noClick: hasPieLike, trace: { showlegend: firstItemTrace.showlegend, legendgroup: firstItemTrace.legendgroup, visible: opts.groupclick === 'toggleitem' ? true : firstItemTrace.visible } }); } // rearrange lgroupToTraces into a d3-friendly array of arrays for(j = 0; j < legendData[i].length; j++) { legendData[i][j] = [ legendData[i][j] ]; } } // number of legend groups - needed in legend/draw.js opts._lgroupsLength = legendData.length; // maximum name/label length - needed in legend/draw.js opts._maxNameLength = maxNameLength; return legendData; }; },{"../../registry":378,"./helpers":213}],212:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); var SHOWISOLATETIP = true; module.exports = function handleClick(g, gd, numClicks) { var fullLayout = gd._fullLayout; if(gd._dragged || gd._editing) return; var itemClick = fullLayout.legend.itemclick; var itemDoubleClick = fullLayout.legend.itemdoubleclick; var groupClick = fullLayout.legend.groupclick; if(numClicks === 1 && itemClick === 'toggle' && itemDoubleClick === 'toggleothers' && SHOWISOLATETIP && gd.data && gd._context.showTips ) { Lib.notifier(Lib._(gd, 'Double-click on legend to isolate one trace'), 'long'); SHOWISOLATETIP = false; } else { SHOWISOLATETIP = false; } var mode; if(numClicks === 1) mode = itemClick; else if(numClicks === 2) mode = itemDoubleClick; if(!mode) return; var toggleGroup = groupClick === 'togglegroup'; var hiddenSlices = fullLayout.hiddenlabels ? fullLayout.hiddenlabels.slice() : []; var legendItem = g.data()[0][0]; if(legendItem.groupTitle && legendItem.noClick) return; var fullData = gd._fullData; var fullTrace = legendItem.trace; var legendgroup = fullTrace.legendgroup; var i, j, kcont, key, keys, val; var attrUpdate = {}; var attrIndices = []; var carrs = []; var carrIdx = []; function insertUpdate(traceIndex, key, value) { var attrIndex = attrIndices.indexOf(traceIndex); var valueArray = attrUpdate[key]; if(!valueArray) { valueArray = attrUpdate[key] = []; } if(attrIndices.indexOf(traceIndex) === -1) { attrIndices.push(traceIndex); attrIndex = attrIndices.length - 1; } valueArray[attrIndex] = value; return attrIndex; } function setVisibility(fullTrace, visibility) { if(legendItem.groupTitle && !toggleGroup) return; var fullInput = fullTrace._fullInput; if(Registry.hasTransform(fullInput, 'groupby')) { var kcont = carrs[fullInput.index]; if(!kcont) { var groupbyIndices = Registry.getTransformIndices(fullInput, 'groupby'); var lastGroupbyIndex = groupbyIndices[groupbyIndices.length - 1]; kcont = Lib.keyedContainer(fullInput, 'transforms[' + lastGroupbyIndex + '].styles', 'target', 'value.visible'); carrs[fullInput.index] = kcont; } var curState = kcont.get(fullTrace._group); // If not specified, assume visible. This happens if there are other style // properties set for a group but not the visibility. There are many similar // ways to do this (e.g. why not just `curState = fullTrace.visible`??? The // answer is: because it breaks other things like groupby trace names in // subtle ways.) if(curState === undefined) { curState = true; } if(curState !== false) { // true -> legendonly. All others toggle to true: kcont.set(fullTrace._group, visibility); } carrIdx[fullInput.index] = insertUpdate(fullInput.index, 'visible', fullInput.visible === false ? false : true); } else { // false -> false (not possible since will not be visible in legend) // true -> legendonly // legendonly -> true var nextVisibility = fullInput.visible === false ? false : visibility; insertUpdate(fullInput.index, 'visible', nextVisibility); } } if(Registry.traceIs(fullTrace, 'pie-like')) { var thisLabel = legendItem.label; var thisLabelIndex = hiddenSlices.indexOf(thisLabel); if(mode === 'toggle') { if(thisLabelIndex === -1) hiddenSlices.push(thisLabel); else hiddenSlices.splice(thisLabelIndex, 1); } else if(mode === 'toggleothers') { hiddenSlices = []; gd.calcdata[0].forEach(function(d) { if(thisLabel !== d.label) { hiddenSlices.push(d.label); } }); if(gd._fullLayout.hiddenlabels && gd._fullLayout.hiddenlabels.length === hiddenSlices.length && thisLabelIndex === -1) { hiddenSlices = []; } } Registry.call('_guiRelayout', gd, 'hiddenlabels', hiddenSlices); } else { var hasLegendgroup = legendgroup && legendgroup.length; var traceIndicesInGroup = []; var tracei; if(hasLegendgroup) { for(i = 0; i < fullData.length; i++) { tracei = fullData[i]; if(!tracei.visible) continue; if(tracei.legendgroup === legendgroup) { traceIndicesInGroup.push(i); } } } if(mode === 'toggle') { var nextVisibility; switch(fullTrace.visible) { case true: nextVisibility = 'legendonly'; break; case false: nextVisibility = false; break; case 'legendonly': nextVisibility = true; break; } if(hasLegendgroup) { if(toggleGroup) { for(i = 0; i < fullData.length; i++) { if(fullData[i].visible !== false && fullData[i].legendgroup === legendgroup) { setVisibility(fullData[i], nextVisibility); } } } else { setVisibility(fullTrace, nextVisibility); } } else { setVisibility(fullTrace, nextVisibility); } } else if(mode === 'toggleothers') { // Compute the clicked index. expandedIndex does what we want for expanded traces // but also culls hidden traces. That means we have some work to do. var isClicked, isInGroup, notInLegend, otherState; var isIsolated = true; for(i = 0; i < fullData.length; i++) { isClicked = fullData[i] === fullTrace; notInLegend = fullData[i].showlegend !== true; if(isClicked || notInLegend) continue; isInGroup = (hasLegendgroup && fullData[i].legendgroup === legendgroup); if(!isInGroup && fullData[i].visible === true && !Registry.traceIs(fullData[i], 'notLegendIsolatable')) { isIsolated = false; break; } } for(i = 0; i < fullData.length; i++) { // False is sticky; we don't change it. if(fullData[i].visible === false) continue; if(Registry.traceIs(fullData[i], 'notLegendIsolatable')) { continue; } switch(fullTrace.visible) { case 'legendonly': setVisibility(fullData[i], true); break; case true: otherState = isIsolated ? true : 'legendonly'; isClicked = fullData[i] === fullTrace; // N.B. consider traces that have a set legendgroup as toggleable notInLegend = (fullData[i].showlegend !== true && !fullData[i].legendgroup); isInGroup = isClicked || (hasLegendgroup && fullData[i].legendgroup === legendgroup); setVisibility(fullData[i], (isInGroup || notInLegend) ? true : otherState); break; } } } for(i = 0; i < carrs.length; i++) { kcont = carrs[i]; if(!kcont) continue; var update = kcont.constructUpdate(); var updateKeys = Object.keys(update); for(j = 0; j < updateKeys.length; j++) { key = updateKeys[j]; val = attrUpdate[key] = attrUpdate[key] || []; val[carrIdx[i]] = update[key]; } } // The length of the value arrays should be equal and any unspecified // values should be explicitly undefined for them to get properly culled // as updates and not accidentally reset to the default value. This fills // out sparse arrays with the required number of undefined values: keys = Object.keys(attrUpdate); for(i = 0; i < keys.length; i++) { key = keys[i]; for(j = 0; j < attrIndices.length; j++) { // Use hasOwnProperty to protect against falsy values: if(!attrUpdate[key].hasOwnProperty(j)) { attrUpdate[key][j] = undefined; } } } Registry.call('_guiRestyle', gd, attrUpdate, attrIndices); } }; },{"../../lib":287,"../../registry":378}],213:[function(_dereq_,module,exports){ 'use strict'; exports.isGrouped = function isGrouped(legendLayout) { return (legendLayout.traceorder || '').indexOf('grouped') !== -1; }; exports.isVertical = function isVertical(legendLayout) { return legendLayout.orientation !== 'h'; }; exports.isReversed = function isReversed(legendLayout) { return (legendLayout.traceorder || '').indexOf('reversed') !== -1; }; },{}],214:[function(_dereq_,module,exports){ 'use strict'; module.exports = { moduleType: 'component', name: 'legend', layoutAttributes: _dereq_('./attributes'), supplyLayoutDefaults: _dereq_('./defaults'), draw: _dereq_('./draw'), style: _dereq_('./style') }; },{"./attributes":207,"./defaults":209,"./draw":210,"./style":215}],215:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var Drawing = _dereq_('../drawing'); var Color = _dereq_('../color'); var extractOpts = _dereq_('../colorscale/helpers').extractOpts; var subTypes = _dereq_('../../traces/scatter/subtypes'); var stylePie = _dereq_('../../traces/pie/style_one'); var pieCastOption = _dereq_('../../traces/pie/helpers').castOption; var constants = _dereq_('./constants'); var CST_MARKER_SIZE = 12; var CST_LINE_WIDTH = 5; var CST_MARKER_LINE_WIDTH = 2; var MAX_LINE_WIDTH = 10; var MAX_MARKER_LINE_WIDTH = 5; module.exports = function style(s, gd, legend) { var fullLayout = gd._fullLayout; if(!legend) legend = fullLayout.legend; var constantItemSizing = legend.itemsizing === 'constant'; var itemWidth = legend.itemwidth; var centerPos = (itemWidth + constants.itemGap * 2) / 2; var centerTransform = strTranslate(centerPos, 0); var boundLineWidth = function(mlw, cont, max, cst) { var v; if(mlw + 1) { v = mlw; } else if(cont && cont.width > 0) { v = cont.width; } else { return 0; } return constantItemSizing ? cst : Math.min(v, max); }; s.each(function(d) { var traceGroup = d3.select(this); var layers = Lib.ensureSingle(traceGroup, 'g', 'layers'); layers.style('opacity', d[0].trace.opacity); var valign = legend.valign; var lineHeight = d[0].lineHeight; var height = d[0].height; if(valign === 'middle' || !lineHeight || !height) { layers.attr('transform', null); } else { var factor = {top: 1, bottom: -1}[valign]; var markerOffsetY = factor * (0.5 * (lineHeight - height + 3)); layers.attr('transform', strTranslate(0, markerOffsetY)); } var fill = layers .selectAll('g.legendfill') .data([d]); fill.enter().append('g') .classed('legendfill', true); var line = layers .selectAll('g.legendlines') .data([d]); line.enter().append('g') .classed('legendlines', true); var symbol = layers .selectAll('g.legendsymbols') .data([d]); symbol.enter().append('g') .classed('legendsymbols', true); symbol.selectAll('g.legendpoints') .data([d]) .enter().append('g') .classed('legendpoints', true); }) .each(styleSpatial) .each(styleWaterfalls) .each(styleFunnels) .each(styleBars) .each(styleBoxes) .each(styleFunnelareas) .each(stylePies) .each(styleLines) .each(stylePoints) .each(styleCandles) .each(styleOHLC); function styleLines(d) { var styleGuide = getStyleGuide(d); var showFill = styleGuide.showFill; var showLine = styleGuide.showLine; var showGradientLine = styleGuide.showGradientLine; var showGradientFill = styleGuide.showGradientFill; var anyFill = styleGuide.anyFill; var anyLine = styleGuide.anyLine; var d0 = d[0]; var trace = d0.trace; var dMod, tMod; var cOpts = extractOpts(trace); var colorscale = cOpts.colorscale; var reversescale = cOpts.reversescale; var fillStyle = function(s) { if(s.size()) { if(showFill) { Drawing.fillGroupStyle(s, gd); } else { var gradientID = 'legendfill-' + trace.uid; Drawing.gradient(s, gd, gradientID, getGradientDirection(reversescale), colorscale, 'fill'); } } }; var lineGradient = function(s) { if(s.size()) { var gradientID = 'legendline-' + trace.uid; Drawing.lineGroupStyle(s); Drawing.gradient(s, gd, gradientID, getGradientDirection(reversescale), colorscale, 'stroke'); } }; // with fill and no markers or text, move the line and fill up a bit // so it's more centered var pathStart = (subTypes.hasMarkers(trace) || !anyFill) ? 'M5,0' : // with a line leave it slightly below center, to leave room for the // line thickness and because the line is usually more prominent anyLine ? 'M5,-2' : 'M5,-3'; var this3 = d3.select(this); var fill = this3.select('.legendfill').selectAll('path') .data(showFill || showGradientFill ? [d] : []); fill.enter().append('path').classed('js-fill', true); fill.exit().remove(); fill.attr('d', pathStart + 'h' + itemWidth + 'v6h-' + itemWidth + 'z') .call(fillStyle); if(showLine || showGradientLine) { var lw = boundLineWidth(undefined, trace.line, MAX_LINE_WIDTH, CST_LINE_WIDTH); tMod = Lib.minExtend(trace, {line: {width: lw}}); dMod = [Lib.minExtend(d0, {trace: tMod})]; } var line = this3.select('.legendlines').selectAll('path') .data(showLine || showGradientLine ? [dMod] : []); line.enter().append('path').classed('js-line', true); line.exit().remove(); // this is ugly... but you can't apply a gradient to a perfectly // horizontal or vertical line. Presumably because then // the system doesn't know how to scale vertical variation, even // though there *is* no vertical variation in this case. // so add an invisibly small angle to the line // This issue (and workaround) exist across (Mac) Chrome, FF, and Safari line.attr('d', pathStart + (showGradientLine ? 'l' + itemWidth + ',0.0001' : 'h' + itemWidth)) .call(showLine ? Drawing.lineGroupStyle : lineGradient); } function stylePoints(d) { var styleGuide = getStyleGuide(d); var anyFill = styleGuide.anyFill; var anyLine = styleGuide.anyLine; var showLine = styleGuide.showLine; var showMarker = styleGuide.showMarker; var d0 = d[0]; var trace = d0.trace; var showText = !showMarker && !anyLine && !anyFill && subTypes.hasText(trace); var dMod, tMod; // 'scatter3d' don't use gd.calcdata, // use d0.trace to infer arrayOk attributes function boundVal(attrIn, arrayToValFn, bounds, cst) { var valIn = Lib.nestedProperty(trace, attrIn).get(); var valToBound = (Lib.isArrayOrTypedArray(valIn) && arrayToValFn) ? arrayToValFn(valIn) : valIn; if(constantItemSizing && valToBound && cst !== undefined) { valToBound = cst; } if(bounds) { if(valToBound < bounds[0]) return bounds[0]; else if(valToBound > bounds[1]) return bounds[1]; } return valToBound; } function pickFirst(array) { if(d0._distinct && d0.index && array[d0.index]) return array[d0.index]; return array[0]; } // constrain text, markers, etc so they'll fit on the legend if(showMarker || showText || showLine) { var dEdit = {}; var tEdit = {}; if(showMarker) { dEdit.mc = boundVal('marker.color', pickFirst); dEdit.mx = boundVal('marker.symbol', pickFirst); dEdit.mo = boundVal('marker.opacity', Lib.mean, [0.2, 1]); dEdit.mlc = boundVal('marker.line.color', pickFirst); dEdit.mlw = boundVal('marker.line.width', Lib.mean, [0, 5], CST_MARKER_LINE_WIDTH); tEdit.marker = { sizeref: 1, sizemin: 1, sizemode: 'diameter' }; var ms = boundVal('marker.size', Lib.mean, [2, 16], CST_MARKER_SIZE); dEdit.ms = ms; tEdit.marker.size = ms; } if(showLine) { tEdit.line = { width: boundVal('line.width', pickFirst, [0, 10], CST_LINE_WIDTH) }; } if(showText) { dEdit.tx = 'Aa'; dEdit.tp = boundVal('textposition', pickFirst); dEdit.ts = 10; dEdit.tc = boundVal('textfont.color', pickFirst); dEdit.tf = boundVal('textfont.family', pickFirst); } dMod = [Lib.minExtend(d0, dEdit)]; tMod = Lib.minExtend(trace, tEdit); // always show legend items in base state tMod.selectedpoints = null; // never show texttemplate tMod.texttemplate = null; } var ptgroup = d3.select(this).select('g.legendpoints'); var pts = ptgroup.selectAll('path.scatterpts') .data(showMarker ? dMod : []); // make sure marker is on the bottom, in case it enters after text pts.enter().insert('path', ':first-child') .classed('scatterpts', true) .attr('transform', centerTransform); pts.exit().remove(); pts.call(Drawing.pointStyle, tMod, gd); // 'mrc' is set in pointStyle and used in textPointStyle: // constrain it here if(showMarker) dMod[0].mrc = 3; var txt = ptgroup.selectAll('g.pointtext') .data(showText ? dMod : []); txt.enter() .append('g').classed('pointtext', true) .append('text').attr('transform', centerTransform); txt.exit().remove(); txt.selectAll('text').call(Drawing.textPointStyle, tMod, gd); } function styleWaterfalls(d) { var trace = d[0].trace; var isWaterfall = trace.type === 'waterfall'; if(d[0]._distinct && isWaterfall) { var cont = d[0].trace[d[0].dir].marker; d[0].mc = cont.color; d[0].mlw = cont.line.width; d[0].mlc = cont.line.color; return styleBarLike(d, this, 'waterfall'); } var ptsData = []; if(trace.visible && isWaterfall) { ptsData = d[0].hasTotals ? [['increasing', 'M-6,-6V6H0Z'], ['totals', 'M6,6H0L-6,-6H-0Z'], ['decreasing', 'M6,6V-6H0Z']] : [['increasing', 'M-6,-6V6H6Z'], ['decreasing', 'M6,6V-6H-6Z']]; } var pts = d3.select(this).select('g.legendpoints') .selectAll('path.legendwaterfall') .data(ptsData); pts.enter().append('path').classed('legendwaterfall', true) .attr('transform', centerTransform) .style('stroke-miterlimit', 1); pts.exit().remove(); pts.each(function(dd) { var pt = d3.select(this); var cont = trace[dd[0]].marker; var lw = boundLineWidth(undefined, cont.line, MAX_MARKER_LINE_WIDTH, CST_MARKER_LINE_WIDTH); pt.attr('d', dd[1]) .style('stroke-width', lw + 'px') .call(Color.fill, cont.color); if(lw) { pt.call(Color.stroke, cont.line.color); } }); } function styleBars(d) { styleBarLike(d, this); } function styleFunnels(d) { styleBarLike(d, this, 'funnel'); } function styleBarLike(d, lThis, desiredType) { var trace = d[0].trace; var marker = trace.marker || {}; var markerLine = marker.line || {}; var isVisible = (!desiredType) ? Registry.traceIs(trace, 'bar') : (trace.visible && trace.type === desiredType); var barpath = d3.select(lThis).select('g.legendpoints') .selectAll('path.legend' + desiredType) .data(isVisible ? [d] : []); barpath.enter().append('path').classed('legend' + desiredType, true) .attr('d', 'M6,6H-6V-6H6Z') .attr('transform', centerTransform); barpath.exit().remove(); barpath.each(function(d) { var p = d3.select(this); var d0 = d[0]; var w = boundLineWidth(d0.mlw, marker.line, MAX_MARKER_LINE_WIDTH, CST_MARKER_LINE_WIDTH); p.style('stroke-width', w + 'px'); var mcc = d0.mcc; if(!legend._inHover && 'mc' in d0) { // not in unified hover but // for legend use the color in the middle of scale var cOpts = extractOpts(marker); var mid = cOpts.mid; if(mid === undefined) mid = (cOpts.max + cOpts.min) / 2; mcc = Drawing.tryColorscale(marker, '')(mid); } var fillColor = mcc || d0.mc || marker.color; var markerPattern = marker.pattern; var patternShape = markerPattern && Drawing.getPatternAttr(markerPattern.shape, 0, ''); if(patternShape) { var patternBGColor = Drawing.getPatternAttr(markerPattern.bgcolor, 0, null); var patternFGColor = Drawing.getPatternAttr(markerPattern.fgcolor, 0, null); var patternFGOpacity = markerPattern.fgopacity; var patternSize = dimAttr(markerPattern.size, 8, 10); var patternSolidity = dimAttr(markerPattern.solidity, 0.5, 1); var patternID = 'legend-' + trace.uid; p.call( Drawing.pattern, 'legend', gd, patternID, patternShape, patternSize, patternSolidity, mcc, markerPattern.fillmode, patternBGColor, patternFGColor, patternFGOpacity ); } else { p.call(Color.fill, fillColor); } if(w) Color.stroke(p, d0.mlc || markerLine.color); }); } function styleBoxes(d) { var trace = d[0].trace; var pts = d3.select(this).select('g.legendpoints') .selectAll('path.legendbox') .data(trace.visible && Registry.traceIs(trace, 'box-violin') ? [d] : []); pts.enter().append('path').classed('legendbox', true) // if we want the median bar, prepend M6,0H-6 .attr('d', 'M6,6H-6V-6H6Z') .attr('transform', centerTransform); pts.exit().remove(); pts.each(function() { var p = d3.select(this); if((trace.boxpoints === 'all' || trace.points === 'all') && Color.opacity(trace.fillcolor) === 0 && Color.opacity((trace.line || {}).color) === 0 ) { var tMod = Lib.minExtend(trace, { marker: { size: constantItemSizing ? CST_MARKER_SIZE : Lib.constrain(trace.marker.size, 2, 16), sizeref: 1, sizemin: 1, sizemode: 'diameter' } }); pts.call(Drawing.pointStyle, tMod, gd); } else { var w = boundLineWidth(undefined, trace.line, MAX_MARKER_LINE_WIDTH, CST_MARKER_LINE_WIDTH); p.style('stroke-width', w + 'px') .call(Color.fill, trace.fillcolor); if(w) Color.stroke(p, trace.line.color); } }); } function styleCandles(d) { var trace = d[0].trace; var pts = d3.select(this).select('g.legendpoints') .selectAll('path.legendcandle') .data(trace.visible && trace.type === 'candlestick' ? [d, d] : []); pts.enter().append('path').classed('legendcandle', true) .attr('d', function(_, i) { if(i) return 'M-15,0H-8M-8,6V-6H8Z'; // increasing return 'M15,0H8M8,-6V6H-8Z'; // decreasing }) .attr('transform', centerTransform) .style('stroke-miterlimit', 1); pts.exit().remove(); pts.each(function(_, i) { var p = d3.select(this); var cont = trace[i ? 'increasing' : 'decreasing']; var w = boundLineWidth(undefined, cont.line, MAX_MARKER_LINE_WIDTH, CST_MARKER_LINE_WIDTH); p.style('stroke-width', w + 'px') .call(Color.fill, cont.fillcolor); if(w) Color.stroke(p, cont.line.color); }); } function styleOHLC(d) { var trace = d[0].trace; var pts = d3.select(this).select('g.legendpoints') .selectAll('path.legendohlc') .data(trace.visible && trace.type === 'ohlc' ? [d, d] : []); pts.enter().append('path').classed('legendohlc', true) .attr('d', function(_, i) { if(i) return 'M-15,0H0M-8,-6V0'; // increasing return 'M15,0H0M8,6V0'; // decreasing }) .attr('transform', centerTransform) .style('stroke-miterlimit', 1); pts.exit().remove(); pts.each(function(_, i) { var p = d3.select(this); var cont = trace[i ? 'increasing' : 'decreasing']; var w = boundLineWidth(undefined, cont.line, MAX_MARKER_LINE_WIDTH, CST_MARKER_LINE_WIDTH); p.style('fill', 'none') .call(Drawing.dashLine, cont.line.dash, w); if(w) Color.stroke(p, cont.line.color); }); } function stylePies(d) { stylePieLike(d, this, 'pie'); } function styleFunnelareas(d) { stylePieLike(d, this, 'funnelarea'); } function stylePieLike(d, lThis, desiredType) { var d0 = d[0]; var trace = d0.trace; var isVisible = (!desiredType) ? Registry.traceIs(trace, desiredType) : (trace.visible && trace.type === desiredType); var pts = d3.select(lThis).select('g.legendpoints') .selectAll('path.legend' + desiredType) .data(isVisible ? [d] : []); pts.enter().append('path').classed('legend' + desiredType, true) .attr('d', 'M6,6H-6V-6H6Z') .attr('transform', centerTransform); pts.exit().remove(); if(pts.size()) { var cont = (trace.marker || {}).line; var lw = boundLineWidth(pieCastOption(cont.width, d0.pts), cont, MAX_MARKER_LINE_WIDTH, CST_MARKER_LINE_WIDTH); var tMod = Lib.minExtend(trace, {marker: {line: {width: lw}}}); // since minExtend do not slice more than 3 items we need to patch line.color here tMod.marker.line.color = cont.color; var d0Mod = Lib.minExtend(d0, {trace: tMod}); stylePie(pts, d0Mod, tMod); } } function styleSpatial(d) { // i.e. maninly traces having z and colorscale var trace = d[0].trace; var useGradient; var ptsData = []; if(trace.visible) { switch(trace.type) { case 'histogram2d' : case 'heatmap' : ptsData = [ ['M-15,-2V4H15V-2Z'] // similar to contour ]; useGradient = true; break; case 'choropleth' : case 'choroplethmapbox' : ptsData = [ ['M-6,-6V6H6V-6Z'] ]; useGradient = true; break; case 'densitymapbox' : ptsData = [ ['M-6,0 a6,6 0 1,0 12,0 a 6,6 0 1,0 -12,0'] ]; useGradient = 'radial'; break; case 'cone' : ptsData = [ ['M-6,2 A2,2 0 0,0 -6,6 V6L6,4Z'], ['M-6,-6 A2,2 0 0,0 -6,-2 L6,-4Z'], ['M-6,-2 A2,2 0 0,0 -6,2 L6,0Z'] ]; useGradient = false; break; case 'streamtube' : ptsData = [ ['M-6,2 A2,2 0 0,0 -6,6 H6 A2,2 0 0,1 6,2 Z'], ['M-6,-6 A2,2 0 0,0 -6,-2 H6 A2,2 0 0,1 6,-6 Z'], ['M-6,-2 A2,2 0 0,0 -6,2 H6 A2,2 0 0,1 6,-2 Z'] ]; useGradient = false; break; case 'surface' : ptsData = [ ['M-6,-6 A2,3 0 0,0 -6,0 H6 A2,3 0 0,1 6,-6 Z'], ['M-6,1 A2,3 0 0,1 -6,6 H6 A2,3 0 0,0 6,0 Z'] ]; useGradient = true; break; case 'mesh3d' : ptsData = [ ['M-6,6H0L-6,-6Z'], ['M6,6H0L6,-6Z'], ['M-6,-6H6L0,6Z'] ]; useGradient = false; break; case 'volume' : ptsData = [ ['M-6,6H0L-6,-6Z'], ['M6,6H0L6,-6Z'], ['M-6,-6H6L0,6Z'] ]; useGradient = true; break; case 'isosurface': ptsData = [ ['M-6,6H0L-6,-6Z'], ['M6,6H0L6,-6Z'], ['M-6,-6 A12,24 0 0,0 6,-6 L0,6Z'] ]; useGradient = false; break; } } var pts = d3.select(this).select('g.legendpoints') .selectAll('path.legend3dandfriends') .data(ptsData); pts.enter().append('path').classed('legend3dandfriends', true) .attr('transform', centerTransform) .style('stroke-miterlimit', 1); pts.exit().remove(); pts.each(function(dd, i) { var pt = d3.select(this); var cOpts = extractOpts(trace); var colorscale = cOpts.colorscale; var reversescale = cOpts.reversescale; var fillGradient = function(s) { if(s.size()) { var gradientID = 'legendfill-' + trace.uid; Drawing.gradient(s, gd, gradientID, getGradientDirection(reversescale, useGradient === 'radial'), colorscale, 'fill'); } }; var fillColor; if(!colorscale) { var color = trace.vertexcolor || trace.facecolor || trace.color; fillColor = Lib.isArrayOrTypedArray(color) ? (color[i] || color[0]) : color; } else { if(!useGradient) { var len = colorscale.length; fillColor = i === 0 ? colorscale[reversescale ? len - 1 : 0][1] : // minimum i === 1 ? colorscale[reversescale ? 0 : len - 1][1] : // maximum colorscale[Math.floor((len - 1) / 2)][1]; // middle } } pt.attr('d', dd[0]); if(fillColor) { pt.call(Color.fill, fillColor); } else { pt.call(fillGradient); } }); } }; function getGradientDirection(reversescale, isRadial) { var str = isRadial ? 'radial' : 'horizontal'; return str + (reversescale ? '' : 'reversed'); } function getStyleGuide(d) { var trace = d[0].trace; var contours = trace.contours; var showLine = subTypes.hasLines(trace); var showMarker = subTypes.hasMarkers(trace); var showFill = trace.visible && trace.fill && trace.fill !== 'none'; var showGradientLine = false; var showGradientFill = false; if(contours) { var coloring = contours.coloring; if(coloring === 'lines') { showGradientLine = true; } else { showLine = coloring === 'none' || coloring === 'heatmap' || contours.showlines; } if(contours.type === 'constraint') { showFill = contours._operation !== '='; } else if(coloring === 'fill' || coloring === 'heatmap') { showGradientFill = true; } } return { showMarker: showMarker, showLine: showLine, showFill: showFill, showGradientLine: showGradientLine, showGradientFill: showGradientFill, anyLine: showLine || showGradientLine, anyFill: showFill || showGradientFill, }; } function dimAttr(v, dflt, max) { if(v && Lib.isArrayOrTypedArray(v)) return dflt; if(v > max) return max; return v; } },{"../../lib":287,"../../registry":378,"../../traces/pie/helpers":492,"../../traces/pie/style_one":498,"../../traces/scatter/subtypes":525,"../color":157,"../colorscale/helpers":168,"../drawing":179,"./constants":208,"@plotly/d3":20}],216:[function(_dereq_,module,exports){ 'use strict'; var constants = _dereq_('./constants'); module.exports = { editType: 'modebar', orientation: { valType: 'enumerated', values: ['v', 'h'], dflt: 'h', editType: 'modebar', }, bgcolor: { valType: 'color', editType: 'modebar', }, color: { valType: 'color', editType: 'modebar', }, activecolor: { valType: 'color', editType: 'modebar', }, uirevision: { valType: 'any', editType: 'none', }, add: { valType: 'string', arrayOk: true, dflt: '', editType: 'modebar', }, remove: { valType: 'string', arrayOk: true, dflt: '', editType: 'modebar', } }; },{"./constants":218}],217:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Plots = _dereq_('../../plots/plots'); var axisIds = _dereq_('../../plots/cartesian/axis_ids'); var Icons = _dereq_('../../fonts/ploticon'); var eraseActiveShape = _dereq_('../shapes/draw').eraseActiveShape; var Lib = _dereq_('../../lib'); var _ = Lib._; var modeBarButtons = module.exports = {}; /** * ModeBar buttons configuration * * @param {string} name * name / id of the buttons (for tracking) * @param {string} title * text that appears while hovering over the button, * enter null, false or '' for no hover text * @param {string} icon * svg icon object associated with the button * can be linked to Plotly.Icons to use the default plotly icons * @param {string} [gravity] * icon positioning * @param {function} click * click handler associated with the button, a function of * 'gd' (the main graph object) and * 'ev' (the event object) * @param {string} [attr] * attribute associated with button, * use this with 'val' to keep track of the state * @param {*} [val] * initial 'attr' value, can be a function of gd * @param {boolean} [toggle] * is the button a toggle button? */ modeBarButtons.toImage = { name: 'toImage', title: function(gd) { var opts = gd._context.toImageButtonOptions || {}; var format = opts.format || 'png'; return format === 'png' ? _(gd, 'Download plot as a png') : // legacy text _(gd, 'Download plot'); // generic non-PNG text }, icon: Icons.camera, click: function(gd) { var toImageButtonOptions = gd._context.toImageButtonOptions; var opts = {format: toImageButtonOptions.format || 'png'}; Lib.notifier(_(gd, 'Taking snapshot - this may take a few seconds'), 'long'); if(opts.format !== 'svg' && Lib.isIE()) { Lib.notifier(_(gd, 'IE only supports svg. Changing format to svg.'), 'long'); opts.format = 'svg'; } ['filename', 'width', 'height', 'scale'].forEach(function(key) { if(key in toImageButtonOptions) { opts[key] = toImageButtonOptions[key]; } }); Registry.call('downloadImage', gd, opts) .then(function(filename) { Lib.notifier(_(gd, 'Snapshot succeeded') + ' - ' + filename, 'long'); }) .catch(function() { Lib.notifier(_(gd, 'Sorry, there was a problem downloading your snapshot!'), 'long'); }); } }; modeBarButtons.sendDataToCloud = { name: 'sendDataToCloud', title: function(gd) { return _(gd, 'Edit in Chart Studio'); }, icon: Icons.disk, click: function(gd) { Plots.sendDataToCloud(gd); } }; modeBarButtons.editInChartStudio = { name: 'editInChartStudio', title: function(gd) { return _(gd, 'Edit in Chart Studio'); }, icon: Icons.pencil, click: function(gd) { Plots.sendDataToCloud(gd); } }; modeBarButtons.zoom2d = { name: 'zoom2d', _cat: 'zoom', title: function(gd) { return _(gd, 'Zoom'); }, attr: 'dragmode', val: 'zoom', icon: Icons.zoombox, click: handleCartesian }; modeBarButtons.pan2d = { name: 'pan2d', _cat: 'pan', title: function(gd) { return _(gd, 'Pan'); }, attr: 'dragmode', val: 'pan', icon: Icons.pan, click: handleCartesian }; modeBarButtons.select2d = { name: 'select2d', _cat: 'select', title: function(gd) { return _(gd, 'Box Select'); }, attr: 'dragmode', val: 'select', icon: Icons.selectbox, click: handleCartesian }; modeBarButtons.lasso2d = { name: 'lasso2d', _cat: 'lasso', title: function(gd) { return _(gd, 'Lasso Select'); }, attr: 'dragmode', val: 'lasso', icon: Icons.lasso, click: handleCartesian }; modeBarButtons.drawclosedpath = { name: 'drawclosedpath', title: function(gd) { return _(gd, 'Draw closed freeform'); }, attr: 'dragmode', val: 'drawclosedpath', icon: Icons.drawclosedpath, click: handleCartesian }; modeBarButtons.drawopenpath = { name: 'drawopenpath', title: function(gd) { return _(gd, 'Draw open freeform'); }, attr: 'dragmode', val: 'drawopenpath', icon: Icons.drawopenpath, click: handleCartesian }; modeBarButtons.drawline = { name: 'drawline', title: function(gd) { return _(gd, 'Draw line'); }, attr: 'dragmode', val: 'drawline', icon: Icons.drawline, click: handleCartesian }; modeBarButtons.drawrect = { name: 'drawrect', title: function(gd) { return _(gd, 'Draw rectangle'); }, attr: 'dragmode', val: 'drawrect', icon: Icons.drawrect, click: handleCartesian }; modeBarButtons.drawcircle = { name: 'drawcircle', title: function(gd) { return _(gd, 'Draw circle'); }, attr: 'dragmode', val: 'drawcircle', icon: Icons.drawcircle, click: handleCartesian }; modeBarButtons.eraseshape = { name: 'eraseshape', title: function(gd) { return _(gd, 'Erase active shape'); }, icon: Icons.eraseshape, click: eraseActiveShape }; modeBarButtons.zoomIn2d = { name: 'zoomIn2d', _cat: 'zoomin', title: function(gd) { return _(gd, 'Zoom in'); }, attr: 'zoom', val: 'in', icon: Icons.zoom_plus, click: handleCartesian }; modeBarButtons.zoomOut2d = { name: 'zoomOut2d', _cat: 'zoomout', title: function(gd) { return _(gd, 'Zoom out'); }, attr: 'zoom', val: 'out', icon: Icons.zoom_minus, click: handleCartesian }; modeBarButtons.autoScale2d = { name: 'autoScale2d', _cat: 'autoscale', title: function(gd) { return _(gd, 'Autoscale'); }, attr: 'zoom', val: 'auto', icon: Icons.autoscale, click: handleCartesian }; modeBarButtons.resetScale2d = { name: 'resetScale2d', _cat: 'resetscale', title: function(gd) { return _(gd, 'Reset axes'); }, attr: 'zoom', val: 'reset', icon: Icons.home, click: handleCartesian }; modeBarButtons.hoverClosestCartesian = { name: 'hoverClosestCartesian', _cat: 'hoverclosest', title: function(gd) { return _(gd, 'Show closest data on hover'); }, attr: 'hovermode', val: 'closest', icon: Icons.tooltip_basic, gravity: 'ne', click: handleCartesian }; modeBarButtons.hoverCompareCartesian = { name: 'hoverCompareCartesian', _cat: 'hoverCompare', title: function(gd) { return _(gd, 'Compare data on hover'); }, attr: 'hovermode', val: function(gd) { return gd._fullLayout._isHoriz ? 'y' : 'x'; }, icon: Icons.tooltip_compare, gravity: 'ne', click: handleCartesian }; function handleCartesian(gd, ev) { var button = ev.currentTarget; var astr = button.getAttribute('data-attr'); var val = button.getAttribute('data-val') || true; var fullLayout = gd._fullLayout; var aobj = {}; var axList = axisIds.list(gd, null, true); var allSpikesEnabled = fullLayout._cartesianSpikesEnabled; var ax, i; if(astr === 'zoom') { var mag = (val === 'in') ? 0.5 : 2; var r0 = (1 + mag) / 2; var r1 = (1 - mag) / 2; var axName; for(i = 0; i < axList.length; i++) { ax = axList[i]; if(!ax.fixedrange) { axName = ax._name; if(val === 'auto') { aobj[axName + '.autorange'] = true; } else if(val === 'reset') { if(ax._rangeInitial === undefined) { aobj[axName + '.autorange'] = true; } else { var rangeInitial = ax._rangeInitial.slice(); aobj[axName + '.range[0]'] = rangeInitial[0]; aobj[axName + '.range[1]'] = rangeInitial[1]; } // N.B. "reset" also resets showspikes if(ax._showSpikeInitial !== undefined) { aobj[axName + '.showspikes'] = ax._showSpikeInitial; if(allSpikesEnabled === 'on' && !ax._showSpikeInitial) { allSpikesEnabled = 'off'; } } } else { var rangeNow = [ ax.r2l(ax.range[0]), ax.r2l(ax.range[1]), ]; var rangeNew = [ r0 * rangeNow[0] + r1 * rangeNow[1], r0 * rangeNow[1] + r1 * rangeNow[0] ]; aobj[axName + '.range[0]'] = ax.l2r(rangeNew[0]); aobj[axName + '.range[1]'] = ax.l2r(rangeNew[1]); } } } } else { // if ALL traces have orientation 'h', 'hovermode': 'x' otherwise: 'y' if(astr === 'hovermode' && (val === 'x' || val === 'y')) { val = fullLayout._isHoriz ? 'y' : 'x'; button.setAttribute('data-val', val); } aobj[astr] = val; } fullLayout._cartesianSpikesEnabled = allSpikesEnabled; Registry.call('_guiRelayout', gd, aobj); } modeBarButtons.zoom3d = { name: 'zoom3d', _cat: 'zoom', title: function(gd) { return _(gd, 'Zoom'); }, attr: 'scene.dragmode', val: 'zoom', icon: Icons.zoombox, click: handleDrag3d }; modeBarButtons.pan3d = { name: 'pan3d', _cat: 'pan', title: function(gd) { return _(gd, 'Pan'); }, attr: 'scene.dragmode', val: 'pan', icon: Icons.pan, click: handleDrag3d }; modeBarButtons.orbitRotation = { name: 'orbitRotation', title: function(gd) { return _(gd, 'Orbital rotation'); }, attr: 'scene.dragmode', val: 'orbit', icon: Icons['3d_rotate'], click: handleDrag3d }; modeBarButtons.tableRotation = { name: 'tableRotation', title: function(gd) { return _(gd, 'Turntable rotation'); }, attr: 'scene.dragmode', val: 'turntable', icon: Icons['z-axis'], click: handleDrag3d }; function handleDrag3d(gd, ev) { var button = ev.currentTarget; var attr = button.getAttribute('data-attr'); var val = button.getAttribute('data-val') || true; var sceneIds = gd._fullLayout._subplots.gl3d || []; var layoutUpdate = {}; var parts = attr.split('.'); for(var i = 0; i < sceneIds.length; i++) { layoutUpdate[sceneIds[i] + '.' + parts[1]] = val; } // for multi-type subplots var val2d = (val === 'pan') ? val : 'zoom'; layoutUpdate.dragmode = val2d; Registry.call('_guiRelayout', gd, layoutUpdate); } modeBarButtons.resetCameraDefault3d = { name: 'resetCameraDefault3d', _cat: 'resetCameraDefault', title: function(gd) { return _(gd, 'Reset camera to default'); }, attr: 'resetDefault', icon: Icons.home, click: handleCamera3d }; modeBarButtons.resetCameraLastSave3d = { name: 'resetCameraLastSave3d', _cat: 'resetCameraLastSave', title: function(gd) { return _(gd, 'Reset camera to last save'); }, attr: 'resetLastSave', icon: Icons.movie, click: handleCamera3d }; function handleCamera3d(gd, ev) { var button = ev.currentTarget; var attr = button.getAttribute('data-attr'); var resetLastSave = attr === 'resetLastSave'; var resetDefault = attr === 'resetDefault'; var fullLayout = gd._fullLayout; var sceneIds = fullLayout._subplots.gl3d || []; var aobj = {}; for(var i = 0; i < sceneIds.length; i++) { var sceneId = sceneIds[i]; var camera = sceneId + '.camera'; var aspectratio = sceneId + '.aspectratio'; var aspectmode = sceneId + '.aspectmode'; var scene = fullLayout[sceneId]._scene; var didUpdate; if(resetLastSave) { aobj[camera + '.up'] = scene.viewInitial.up; aobj[camera + '.eye'] = scene.viewInitial.eye; aobj[camera + '.center'] = scene.viewInitial.center; didUpdate = true; } else if(resetDefault) { aobj[camera + '.up'] = null; aobj[camera + '.eye'] = null; aobj[camera + '.center'] = null; didUpdate = true; } if(didUpdate) { aobj[aspectratio + '.x'] = scene.viewInitial.aspectratio.x; aobj[aspectratio + '.y'] = scene.viewInitial.aspectratio.y; aobj[aspectratio + '.z'] = scene.viewInitial.aspectratio.z; aobj[aspectmode] = scene.viewInitial.aspectmode; } } Registry.call('_guiRelayout', gd, aobj); } modeBarButtons.hoverClosest3d = { name: 'hoverClosest3d', _cat: 'hoverclosest', title: function(gd) { return _(gd, 'Toggle show closest data on hover'); }, attr: 'hovermode', val: null, toggle: true, icon: Icons.tooltip_basic, gravity: 'ne', click: handleHover3d }; function getNextHover3d(gd, ev) { var button = ev.currentTarget; var val = button._previousVal; var fullLayout = gd._fullLayout; var sceneIds = fullLayout._subplots.gl3d || []; var axes = ['xaxis', 'yaxis', 'zaxis']; // initialize 'current spike' object to be stored in the DOM var currentSpikes = {}; var layoutUpdate = {}; if(val) { layoutUpdate = val; button._previousVal = null; } else { for(var i = 0; i < sceneIds.length; i++) { var sceneId = sceneIds[i]; var sceneLayout = fullLayout[sceneId]; var hovermodeAStr = sceneId + '.hovermode'; currentSpikes[hovermodeAStr] = sceneLayout.hovermode; layoutUpdate[hovermodeAStr] = false; // copy all the current spike attrs for(var j = 0; j < 3; j++) { var axis = axes[j]; var spikeAStr = sceneId + '.' + axis + '.showspikes'; layoutUpdate[spikeAStr] = false; currentSpikes[spikeAStr] = sceneLayout[axis].showspikes; } } button._previousVal = currentSpikes; } return layoutUpdate; } function handleHover3d(gd, ev) { var layoutUpdate = getNextHover3d(gd, ev); Registry.call('_guiRelayout', gd, layoutUpdate); } modeBarButtons.zoomInGeo = { name: 'zoomInGeo', _cat: 'zoomin', title: function(gd) { return _(gd, 'Zoom in'); }, attr: 'zoom', val: 'in', icon: Icons.zoom_plus, click: handleGeo }; modeBarButtons.zoomOutGeo = { name: 'zoomOutGeo', _cat: 'zoomout', title: function(gd) { return _(gd, 'Zoom out'); }, attr: 'zoom', val: 'out', icon: Icons.zoom_minus, click: handleGeo }; modeBarButtons.resetGeo = { name: 'resetGeo', _cat: 'reset', title: function(gd) { return _(gd, 'Reset'); }, attr: 'reset', val: null, icon: Icons.autoscale, click: handleGeo }; modeBarButtons.hoverClosestGeo = { name: 'hoverClosestGeo', _cat: 'hoverclosest', title: function(gd) { return _(gd, 'Toggle show closest data on hover'); }, attr: 'hovermode', val: null, toggle: true, icon: Icons.tooltip_basic, gravity: 'ne', click: toggleHover }; function handleGeo(gd, ev) { var button = ev.currentTarget; var attr = button.getAttribute('data-attr'); var val = button.getAttribute('data-val') || true; var fullLayout = gd._fullLayout; var geoIds = fullLayout._subplots.geo || []; for(var i = 0; i < geoIds.length; i++) { var id = geoIds[i]; var geoLayout = fullLayout[id]; if(attr === 'zoom') { var scale = geoLayout.projection.scale; var newScale = (val === 'in') ? 2 * scale : 0.5 * scale; Registry.call('_guiRelayout', gd, id + '.projection.scale', newScale); } } if(attr === 'reset') { resetView(gd, 'geo'); } } modeBarButtons.hoverClosestGl2d = { name: 'hoverClosestGl2d', _cat: 'hoverclosest', title: function(gd) { return _(gd, 'Toggle show closest data on hover'); }, attr: 'hovermode', val: null, toggle: true, icon: Icons.tooltip_basic, gravity: 'ne', click: toggleHover }; modeBarButtons.hoverClosestPie = { name: 'hoverClosestPie', _cat: 'hoverclosest', title: function(gd) { return _(gd, 'Toggle show closest data on hover'); }, attr: 'hovermode', val: 'closest', icon: Icons.tooltip_basic, gravity: 'ne', click: toggleHover }; function getNextHover(gd) { var fullLayout = gd._fullLayout; if(fullLayout.hovermode) return false; if(fullLayout._has('cartesian')) { return fullLayout._isHoriz ? 'y' : 'x'; } return 'closest'; } function toggleHover(gd) { var newHover = getNextHover(gd); Registry.call('_guiRelayout', gd, 'hovermode', newHover); } modeBarButtons.resetViewSankey = { name: 'resetSankeyGroup', title: function(gd) { return _(gd, 'Reset view'); }, icon: Icons.home, click: function(gd) { var aObj = { 'node.groups': [], 'node.x': [], 'node.y': [] }; for(var i = 0; i < gd._fullData.length; i++) { var viewInitial = gd._fullData[i]._viewInitial; aObj['node.groups'].push(viewInitial.node.groups.slice()); aObj['node.x'].push(viewInitial.node.x.slice()); aObj['node.y'].push(viewInitial.node.y.slice()); } Registry.call('restyle', gd, aObj); } }; // buttons when more then one plot types are present modeBarButtons.toggleHover = { name: 'toggleHover', title: function(gd) { return _(gd, 'Toggle show closest data on hover'); }, attr: 'hovermode', val: null, toggle: true, icon: Icons.tooltip_basic, gravity: 'ne', click: function(gd, ev) { var layoutUpdate = getNextHover3d(gd, ev); layoutUpdate.hovermode = getNextHover(gd); Registry.call('_guiRelayout', gd, layoutUpdate); } }; modeBarButtons.resetViews = { name: 'resetViews', title: function(gd) { return _(gd, 'Reset views'); }, icon: Icons.home, click: function(gd, ev) { var button = ev.currentTarget; button.setAttribute('data-attr', 'zoom'); button.setAttribute('data-val', 'reset'); handleCartesian(gd, ev); button.setAttribute('data-attr', 'resetLastSave'); handleCamera3d(gd, ev); resetView(gd, 'geo'); resetView(gd, 'mapbox'); } }; modeBarButtons.toggleSpikelines = { name: 'toggleSpikelines', title: function(gd) { return _(gd, 'Toggle Spike Lines'); }, icon: Icons.spikeline, attr: '_cartesianSpikesEnabled', val: 'on', click: function(gd) { var fullLayout = gd._fullLayout; var allSpikesEnabled = fullLayout._cartesianSpikesEnabled; fullLayout._cartesianSpikesEnabled = allSpikesEnabled === 'on' ? 'off' : 'on'; Registry.call('_guiRelayout', gd, setSpikelineVisibility(gd)); } }; function setSpikelineVisibility(gd) { var fullLayout = gd._fullLayout; var areSpikesOn = fullLayout._cartesianSpikesEnabled === 'on'; var axList = axisIds.list(gd, null, true); var aobj = {}; for(var i = 0; i < axList.length; i++) { var ax = axList[i]; aobj[ax._name + '.showspikes'] = areSpikesOn ? true : ax._showSpikeInitial; } return aobj; } modeBarButtons.resetViewMapbox = { name: 'resetViewMapbox', _cat: 'resetView', title: function(gd) { return _(gd, 'Reset view'); }, attr: 'reset', icon: Icons.home, click: function(gd) { resetView(gd, 'mapbox'); } }; modeBarButtons.zoomInMapbox = { name: 'zoomInMapbox', _cat: 'zoomin', title: function(gd) { return _(gd, 'Zoom in'); }, attr: 'zoom', val: 'in', icon: Icons.zoom_plus, click: handleMapboxZoom }; modeBarButtons.zoomOutMapbox = { name: 'zoomOutMapbox', _cat: 'zoomout', title: function(gd) { return _(gd, 'Zoom out'); }, attr: 'zoom', val: 'out', icon: Icons.zoom_minus, click: handleMapboxZoom }; function handleMapboxZoom(gd, ev) { var button = ev.currentTarget; var val = button.getAttribute('data-val'); var fullLayout = gd._fullLayout; var subplotIds = fullLayout._subplots.mapbox || []; var scalar = 1.05; var aObj = {}; for(var i = 0; i < subplotIds.length; i++) { var id = subplotIds[i]; var current = fullLayout[id].zoom; var next = (val === 'in') ? scalar * current : current / scalar; aObj[id + '.zoom'] = next; } Registry.call('_guiRelayout', gd, aObj); } function resetView(gd, subplotType) { var fullLayout = gd._fullLayout; var subplotIds = fullLayout._subplots[subplotType] || []; var aObj = {}; for(var i = 0; i < subplotIds.length; i++) { var id = subplotIds[i]; var subplotObj = fullLayout[id]._subplot; var viewInitial = subplotObj.viewInitial; var viewKeys = Object.keys(viewInitial); for(var j = 0; j < viewKeys.length; j++) { var key = viewKeys[j]; aObj[id + '.' + key] = viewInitial[key]; } } Registry.call('_guiRelayout', gd, aObj); } },{"../../fonts/ploticon":270,"../../lib":287,"../../plots/cartesian/axis_ids":338,"../../plots/plots":371,"../../registry":378,"../shapes/draw":241}],218:[function(_dereq_,module,exports){ 'use strict'; var modeBarButtons = _dereq_('./buttons'); var buttonList = Object.keys(modeBarButtons); var DRAW_MODES = [ 'drawline', 'drawopenpath', 'drawclosedpath', 'drawcircle', 'drawrect', 'eraseshape' ]; var backButtons = [ 'v1hovermode', 'hoverclosest', 'hovercompare', 'togglehover', 'togglespikelines' ].concat(DRAW_MODES); var foreButtons = []; var addToForeButtons = function(b) { if(backButtons.indexOf(b._cat || b.name) !== -1) return; // for convenience add lowercase shotname e.g. zoomin as well fullname zoomInGeo var name = b.name; var _cat = (b._cat || b.name).toLowerCase(); if(foreButtons.indexOf(name) === -1) foreButtons.push(name); if(foreButtons.indexOf(_cat) === -1) foreButtons.push(_cat); }; buttonList.forEach(function(k) { addToForeButtons(modeBarButtons[k]); }); foreButtons.sort(); module.exports = { DRAW_MODES: DRAW_MODES, backButtons: backButtons, foreButtons: foreButtons }; },{"./buttons":217}],219:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Color = _dereq_('../color'); var Template = _dereq_('../../plot_api/plot_template'); var attributes = _dereq_('./attributes'); module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) { var containerIn = layoutIn.modebar || {}; var containerOut = Template.newContainer(layoutOut, 'modebar'); function coerce(attr, dflt) { return Lib.coerce(containerIn, containerOut, attributes, attr, dflt); } coerce('orientation'); coerce('bgcolor', Color.addOpacity(layoutOut.paper_bgcolor, 0.5)); var defaultColor = Color.contrast(Color.rgb(layoutOut.modebar.bgcolor)); coerce('color', Color.addOpacity(defaultColor, 0.3)); coerce('activecolor', Color.addOpacity(defaultColor, 0.7)); coerce('uirevision', layoutOut.uirevision); coerce('add'); coerce('remove'); }; },{"../../lib":287,"../../plot_api/plot_template":323,"../color":157,"./attributes":216}],220:[function(_dereq_,module,exports){ 'use strict'; module.exports = { moduleType: 'component', name: 'modebar', layoutAttributes: _dereq_('./attributes'), supplyLayoutDefaults: _dereq_('./defaults'), manage: _dereq_('./manage') }; },{"./attributes":216,"./defaults":219,"./manage":221}],221:[function(_dereq_,module,exports){ 'use strict'; var axisIds = _dereq_('../../plots/cartesian/axis_ids'); var scatterSubTypes = _dereq_('../../traces/scatter/subtypes'); var Registry = _dereq_('../../registry'); var isUnifiedHover = _dereq_('../fx/helpers').isUnifiedHover; var createModeBar = _dereq_('./modebar'); var modeBarButtons = _dereq_('./buttons'); var DRAW_MODES = _dereq_('./constants').DRAW_MODES; var extendDeep = _dereq_('../../lib').extendDeep; /** * ModeBar wrapper around 'create' and 'update', * chooses buttons to pass to ModeBar constructor based on * plot type and plot config. * * @param {object} gd main plot object * */ module.exports = function manageModeBar(gd) { var fullLayout = gd._fullLayout; var context = gd._context; var modeBar = fullLayout._modeBar; if(!context.displayModeBar && !context.watermark) { if(modeBar) { modeBar.destroy(); delete fullLayout._modeBar; } return; } if(!Array.isArray(context.modeBarButtonsToRemove)) { throw new Error([ '*modeBarButtonsToRemove* configuration options', 'must be an array.' ].join(' ')); } if(!Array.isArray(context.modeBarButtonsToAdd)) { throw new Error([ '*modeBarButtonsToAdd* configuration options', 'must be an array.' ].join(' ')); } var customButtons = context.modeBarButtons; var buttonGroups; if(Array.isArray(customButtons) && customButtons.length) { buttonGroups = fillCustomButton(customButtons); } else if(!context.displayModeBar && context.watermark) { buttonGroups = []; } else { buttonGroups = getButtonGroups(gd); } if(modeBar) modeBar.update(gd, buttonGroups); else fullLayout._modeBar = createModeBar(gd, buttonGroups); }; // logic behind which buttons are displayed by default function getButtonGroups(gd) { var fullLayout = gd._fullLayout; var fullData = gd._fullData; var context = gd._context; function match(name, B) { if(typeof B === 'string') { if(B.toLowerCase() === name.toLowerCase()) return true; } else { var v0 = B.name; var v1 = (B._cat || B.name); if(v0 === name || v1 === name.toLowerCase()) return true; } return false; } var layoutAdd = fullLayout.modebar.add; if(typeof layoutAdd === 'string') layoutAdd = [layoutAdd]; var layoutRemove = fullLayout.modebar.remove; if(typeof layoutRemove === 'string') layoutRemove = [layoutRemove]; var buttonsToAdd = context.modeBarButtonsToAdd.concat( layoutAdd.filter(function(e) { for(var i = 0; i < context.modeBarButtonsToRemove.length; i++) { if(match(e, context.modeBarButtonsToRemove[i])) return false; } return true; }) ); var buttonsToRemove = context.modeBarButtonsToRemove.concat( layoutRemove.filter(function(e) { for(var i = 0; i < context.modeBarButtonsToAdd.length; i++) { if(match(e, context.modeBarButtonsToAdd[i])) return false; } return true; }) ); var hasCartesian = fullLayout._has('cartesian'); var hasGL3D = fullLayout._has('gl3d'); var hasGeo = fullLayout._has('geo'); var hasPie = fullLayout._has('pie'); var hasFunnelarea = fullLayout._has('funnelarea'); var hasGL2D = fullLayout._has('gl2d'); var hasTernary = fullLayout._has('ternary'); var hasMapbox = fullLayout._has('mapbox'); var hasPolar = fullLayout._has('polar'); var hasSmith = fullLayout._has('smith'); var hasSankey = fullLayout._has('sankey'); var allAxesFixed = areAllAxesFixed(fullLayout); var hasUnifiedHoverLabel = isUnifiedHover(fullLayout.hovermode); var groups = []; function addGroup(newGroup) { if(!newGroup.length) return; var out = []; for(var i = 0; i < newGroup.length; i++) { var name = newGroup[i]; var B = modeBarButtons[name]; var v0 = B.name.toLowerCase(); var v1 = (B._cat || B.name).toLowerCase(); var found = false; for(var q = 0; q < buttonsToRemove.length; q++) { var t = buttonsToRemove[q].toLowerCase(); if(t === v0 || t === v1) { found = true; break; } } if(found) continue; out.push(modeBarButtons[name]); } groups.push(out); } // buttons common to all plot types var commonGroup = ['toImage']; if(context.showEditInChartStudio) commonGroup.push('editInChartStudio'); else if(context.showSendToCloud) commonGroup.push('sendDataToCloud'); addGroup(commonGroup); var zoomGroup = []; var hoverGroup = []; var resetGroup = []; var dragModeGroup = []; if((hasCartesian || hasGL2D || hasPie || hasFunnelarea || hasTernary) + hasGeo + hasGL3D + hasMapbox + hasPolar + hasSmith > 1) { // graphs with more than one plot types get 'union buttons' // which reset the view or toggle hover labels across all subplots. hoverGroup = ['toggleHover']; resetGroup = ['resetViews']; } else if(hasGeo) { zoomGroup = ['zoomInGeo', 'zoomOutGeo']; hoverGroup = ['hoverClosestGeo']; resetGroup = ['resetGeo']; } else if(hasGL3D) { hoverGroup = ['hoverClosest3d']; resetGroup = ['resetCameraDefault3d', 'resetCameraLastSave3d']; } else if(hasMapbox) { zoomGroup = ['zoomInMapbox', 'zoomOutMapbox']; hoverGroup = ['toggleHover']; resetGroup = ['resetViewMapbox']; } else if(hasGL2D) { hoverGroup = ['hoverClosestGl2d']; } else if(hasPie) { hoverGroup = ['hoverClosestPie']; } else if(hasSankey) { hoverGroup = ['hoverClosestCartesian', 'hoverCompareCartesian']; resetGroup = ['resetViewSankey']; } else { // hasPolar, hasSmith, hasTernary // always show at least one hover icon. hoverGroup = ['toggleHover']; } // if we have cartesian, allow switching between closest and compare // regardless of what other types are on the plot, since they'll all // just treat any truthy hovermode as 'closest' if(hasCartesian) { hoverGroup = ['toggleSpikelines', 'hoverClosestCartesian', 'hoverCompareCartesian']; } if(hasNoHover(fullData) || hasUnifiedHoverLabel) { hoverGroup = []; } if((hasCartesian || hasGL2D) && !allAxesFixed) { zoomGroup = ['zoomIn2d', 'zoomOut2d', 'autoScale2d']; if(resetGroup[0] !== 'resetViews') resetGroup = ['resetScale2d']; } if(hasGL3D) { dragModeGroup = ['zoom3d', 'pan3d', 'orbitRotation', 'tableRotation']; } else if(((hasCartesian || hasGL2D) && !allAxesFixed) || hasTernary) { dragModeGroup = ['zoom2d', 'pan2d']; } else if(hasMapbox || hasGeo) { dragModeGroup = ['pan2d']; } else if(hasPolar) { dragModeGroup = ['zoom2d']; } if(isSelectable(fullData)) { dragModeGroup.push('select2d', 'lasso2d'); } var enabledHoverGroup = []; var enableHover = function(a) { // return if already added if(enabledHoverGroup.indexOf(a) !== -1) return; // should be in hoverGroup if(hoverGroup.indexOf(a) !== -1) { enabledHoverGroup.push(a); } }; if(Array.isArray(buttonsToAdd)) { var newList = []; for(var i = 0; i < buttonsToAdd.length; i++) { var b = buttonsToAdd[i]; if(typeof b === 'string') { b = b.toLowerCase(); if(DRAW_MODES.indexOf(b) !== -1) { // accept pre-defined drag modes i.e. shape drawing features as string if( fullLayout._has('mapbox') || // draw shapes in paper coordinate (could be improved in future to support data coordinate, when there is no pitch) fullLayout._has('cartesian') // draw shapes in data coordinate ) { dragModeGroup.push(b); } } else if(b === 'togglespikelines') { enableHover('toggleSpikelines'); } else if(b === 'togglehover') { enableHover('toggleHover'); } else if(b === 'hovercompare') { enableHover('hoverCompareCartesian'); } else if(b === 'hoverclosest') { enableHover('hoverClosestCartesian'); enableHover('hoverClosestGeo'); enableHover('hoverClosest3d'); enableHover('hoverClosestGl2d'); enableHover('hoverClosestPie'); } else if(b === 'v1hovermode') { enableHover('toggleHover'); enableHover('hoverClosestCartesian'); enableHover('hoverCompareCartesian'); enableHover('hoverClosestGeo'); enableHover('hoverClosest3d'); enableHover('hoverClosestGl2d'); enableHover('hoverClosestPie'); } } else newList.push(b); } buttonsToAdd = newList; } addGroup(dragModeGroup); addGroup(zoomGroup.concat(resetGroup)); addGroup(enabledHoverGroup); return appendButtonsToGroups(groups, buttonsToAdd); } function areAllAxesFixed(fullLayout) { var axList = axisIds.list({_fullLayout: fullLayout}, null, true); for(var i = 0; i < axList.length; i++) { if(!axList[i].fixedrange) { return false; } } return true; } // look for traces that support selection // to be updated as we add more selectPoints handlers function isSelectable(fullData) { var selectable = false; for(var i = 0; i < fullData.length; i++) { if(selectable) break; var trace = fullData[i]; if(!trace._module || !trace._module.selectPoints) continue; if(Registry.traceIs(trace, 'scatter-like')) { if(scatterSubTypes.hasMarkers(trace) || scatterSubTypes.hasText(trace)) { selectable = true; } } else if(Registry.traceIs(trace, 'box-violin')) { if(trace.boxpoints === 'all' || trace.points === 'all') { selectable = true; } } else { // assume that in general if the trace module has selectPoints, // then it's selectable. Scatter is an exception to this because it must // have markers or text, not just be a scatter type. selectable = true; } } return selectable; } // check whether all trace are 'noHover' function hasNoHover(fullData) { for(var i = 0; i < fullData.length; i++) { if(!Registry.traceIs(fullData[i], 'noHover')) return false; } return true; } function appendButtonsToGroups(groups, buttons) { if(buttons.length) { if(Array.isArray(buttons[0])) { for(var i = 0; i < buttons.length; i++) { groups.push(buttons[i]); } } else groups.push(buttons); } return groups; } // fill in custom buttons referring to default mode bar buttons function fillCustomButton(originalModeBarButtons) { var customButtons = extendDeep([], originalModeBarButtons); for(var i = 0; i < customButtons.length; i++) { var buttonGroup = customButtons[i]; for(var j = 0; j < buttonGroup.length; j++) { var button = buttonGroup[j]; if(typeof button === 'string') { if(modeBarButtons[button] !== undefined) { customButtons[i][j] = modeBarButtons[button]; } else { throw new Error([ '*modeBarButtons* configuration options', 'invalid button name' ].join(' ')); } } } } return customButtons; } },{"../../lib":287,"../../plots/cartesian/axis_ids":338,"../../registry":378,"../../traces/scatter/subtypes":525,"../fx/helpers":193,"./buttons":217,"./constants":218,"./modebar":222}],222:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var Icons = _dereq_('../../fonts/ploticon'); var version = _dereq_('../../version').version; var Parser = new DOMParser(); /** * UI controller for interactive plots * @Class * @Param {object} opts * @Param {object} opts.buttons nested arrays of grouped buttons config objects * @Param {object} opts.container container div to append modeBar * @Param {object} opts.graphInfo primary plot object containing data and layout */ function ModeBar(opts) { this.container = opts.container; this.element = document.createElement('div'); this.update(opts.graphInfo, opts.buttons); this.container.appendChild(this.element); } var proto = ModeBar.prototype; /** * Update modeBar (buttons and logo) * * @param {object} graphInfo primary plot object containing data and layout * @param {array of arrays} buttons nested arrays of grouped buttons to initialize * */ proto.update = function(graphInfo, buttons) { this.graphInfo = graphInfo; var context = this.graphInfo._context; var fullLayout = this.graphInfo._fullLayout; var modeBarId = 'modebar-' + fullLayout._uid; this.element.setAttribute('id', modeBarId); this._uid = modeBarId; this.element.className = 'modebar'; if(context.displayModeBar === 'hover') this.element.className += ' modebar--hover ease-bg'; if(fullLayout.modebar.orientation === 'v') { this.element.className += ' vertical'; buttons = buttons.reverse(); } var style = fullLayout.modebar; var bgSelector = context.displayModeBar === 'hover' ? '.js-plotly-plot .plotly:hover ' : ''; Lib.deleteRelatedStyleRule(modeBarId); Lib.addRelatedStyleRule(modeBarId, bgSelector + '#' + modeBarId + ' .modebar-group', 'background-color: ' + style.bgcolor); Lib.addRelatedStyleRule(modeBarId, '#' + modeBarId + ' .modebar-btn .icon path', 'fill: ' + style.color); Lib.addRelatedStyleRule(modeBarId, '#' + modeBarId + ' .modebar-btn:hover .icon path', 'fill: ' + style.activecolor); Lib.addRelatedStyleRule(modeBarId, '#' + modeBarId + ' .modebar-btn.active .icon path', 'fill: ' + style.activecolor); // if buttons or logo have changed, redraw modebar interior var needsNewButtons = !this.hasButtons(buttons); var needsNewLogo = (this.hasLogo !== context.displaylogo); var needsNewLocale = (this.locale !== context.locale); this.locale = context.locale; if(needsNewButtons || needsNewLogo || needsNewLocale) { this.removeAllButtons(); this.updateButtons(buttons); if(context.watermark || context.displaylogo) { var logoGroup = this.getLogo(); if(context.watermark) { logoGroup.className = logoGroup.className + ' watermark'; } if(fullLayout.modebar.orientation === 'v') { this.element.insertBefore(logoGroup, this.element.childNodes[0]); } else { this.element.appendChild(logoGroup); } this.hasLogo = true; } } this.updateActiveButton(); }; proto.updateButtons = function(buttons) { var _this = this; this.buttons = buttons; this.buttonElements = []; this.buttonsNames = []; this.buttons.forEach(function(buttonGroup) { var group = _this.createGroup(); buttonGroup.forEach(function(buttonConfig) { var buttonName = buttonConfig.name; if(!buttonName) { throw new Error('must provide button \'name\' in button config'); } if(_this.buttonsNames.indexOf(buttonName) !== -1) { throw new Error('button name \'' + buttonName + '\' is taken'); } _this.buttonsNames.push(buttonName); var button = _this.createButton(buttonConfig); _this.buttonElements.push(button); group.appendChild(button); }); _this.element.appendChild(group); }); }; /** * Empty div for containing a group of buttons * @Return {HTMLelement} */ proto.createGroup = function() { var group = document.createElement('div'); group.className = 'modebar-group'; return group; }; /** * Create a new button div and set constant and configurable attributes * @Param {object} config (see ./buttons.js for more info) * @Return {HTMLelement} */ proto.createButton = function(config) { var _this = this; var button = document.createElement('a'); button.setAttribute('rel', 'tooltip'); button.className = 'modebar-btn'; var title = config.title; if(title === undefined) title = config.name; // for localization: allow title to be a callable that takes gd as arg else if(typeof title === 'function') title = title(this.graphInfo); if(title || title === 0) button.setAttribute('data-title', title); if(config.attr !== undefined) button.setAttribute('data-attr', config.attr); var val = config.val; if(val !== undefined) { if(typeof val === 'function') val = val(this.graphInfo); button.setAttribute('data-val', val); } var click = config.click; if(typeof click !== 'function') { throw new Error('must provide button \'click\' function in button config'); } else { button.addEventListener('click', function(ev) { config.click(_this.graphInfo, ev); // only needed for 'hoverClosestGeo' which does not call relayout _this.updateActiveButton(ev.currentTarget); }); } button.setAttribute('data-toggle', config.toggle || false); if(config.toggle) d3.select(button).classed('active', true); var icon = config.icon; if(typeof icon === 'function') { button.appendChild(icon()); } else { button.appendChild(this.createIcon(icon || Icons.question)); } button.setAttribute('data-gravity', config.gravity || 'n'); return button; }; /** * Add an icon to a button * @Param {object} thisIcon * @Param {number} thisIcon.width * @Param {string} thisIcon.path * @Param {string} thisIcon.color * @Return {HTMLelement} */ proto.createIcon = function(thisIcon) { var iconHeight = isNumeric(thisIcon.height) ? Number(thisIcon.height) : thisIcon.ascent - thisIcon.descent; var svgNS = 'http://www.w3.org/2000/svg'; var icon; if(thisIcon.path) { icon = document.createElementNS(svgNS, 'svg'); icon.setAttribute('viewBox', [0, 0, thisIcon.width, iconHeight].join(' ')); icon.setAttribute('class', 'icon'); var path = document.createElementNS(svgNS, 'path'); path.setAttribute('d', thisIcon.path); if(thisIcon.transform) { path.setAttribute('transform', thisIcon.transform); } else if(thisIcon.ascent !== undefined) { // Legacy icon transform calculation path.setAttribute('transform', 'matrix(1 0 0 -1 0 ' + thisIcon.ascent + ')'); } icon.appendChild(path); } if(thisIcon.svg) { var svgDoc = Parser.parseFromString(thisIcon.svg, 'application/xml'); icon = svgDoc.childNodes[0]; } icon.setAttribute('height', '1em'); icon.setAttribute('width', '1em'); return icon; }; /** * Updates active button with attribute specified in layout * @Param {object} graphInfo plot object containing data and layout * @Return {HTMLelement} */ proto.updateActiveButton = function(buttonClicked) { var fullLayout = this.graphInfo._fullLayout; var dataAttrClicked = (buttonClicked !== undefined) ? buttonClicked.getAttribute('data-attr') : null; this.buttonElements.forEach(function(button) { var thisval = button.getAttribute('data-val') || true; var dataAttr = button.getAttribute('data-attr'); var isToggleButton = (button.getAttribute('data-toggle') === 'true'); var button3 = d3.select(button); // Use 'data-toggle' and 'buttonClicked' to toggle buttons // that have no one-to-one equivalent in fullLayout if(isToggleButton) { if(dataAttr === dataAttrClicked) { button3.classed('active', !button3.classed('active')); } } else { var val = (dataAttr === null) ? dataAttr : Lib.nestedProperty(fullLayout, dataAttr).get(); button3.classed('active', val === thisval); } }); }; /** * Check if modeBar is configured as button configuration argument * * @Param {object} buttons 2d array of grouped button config objects * @Return {boolean} */ proto.hasButtons = function(buttons) { var currentButtons = this.buttons; if(!currentButtons) return false; if(buttons.length !== currentButtons.length) return false; for(var i = 0; i < buttons.length; ++i) { if(buttons[i].length !== currentButtons[i].length) return false; for(var j = 0; j < buttons[i].length; j++) { if(buttons[i][j].name !== currentButtons[i][j].name) return false; } } return true; }; function jsVersion(str) { return str + ' (v' + version + ')'; } /** * @return {HTMLDivElement} The logo image wrapped in a group */ proto.getLogo = function() { var group = this.createGroup(); var a = document.createElement('a'); a.href = 'https://plotly.com/'; a.target = '_blank'; a.setAttribute('data-title', jsVersion(Lib._(this.graphInfo, 'Produced with Plotly.js'))); a.className = 'modebar-btn plotlyjsicon modebar-btn--logo'; a.appendChild(this.createIcon(Icons.newplotlylogo)); group.appendChild(a); return group; }; proto.removeAllButtons = function() { while(this.element.firstChild) { this.element.removeChild(this.element.firstChild); } this.hasLogo = false; }; proto.destroy = function() { Lib.removeElement(this.container.querySelector('.modebar')); Lib.deleteRelatedStyleRule(this._uid); }; function createModeBar(gd, buttons) { var fullLayout = gd._fullLayout; var modeBar = new ModeBar({ graphInfo: gd, container: fullLayout._modebardiv.node(), buttons: buttons }); if(fullLayout._privateplot) { d3.select(modeBar.element).append('span') .classed('badge-private float--left', true) .text('PRIVATE'); } return modeBar; } module.exports = createModeBar; },{"../../fonts/ploticon":270,"../../lib":287,"../../version":552,"@plotly/d3":20,"fast-isnumeric":33}],223:[function(_dereq_,module,exports){ 'use strict'; var fontAttrs = _dereq_('../../plots/font_attributes'); var colorAttrs = _dereq_('../color/attributes'); var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray; var buttonAttrs = templatedArray('button', { visible: { valType: 'boolean', dflt: true, editType: 'plot', }, step: { valType: 'enumerated', values: ['month', 'year', 'day', 'hour', 'minute', 'second', 'all'], dflt: 'month', editType: 'plot', }, stepmode: { valType: 'enumerated', values: ['backward', 'todate'], dflt: 'backward', editType: 'plot', }, count: { valType: 'number', min: 0, dflt: 1, editType: 'plot', }, label: { valType: 'string', editType: 'plot', }, editType: 'plot', }); module.exports = { visible: { valType: 'boolean', editType: 'plot', }, buttons: buttonAttrs, x: { valType: 'number', min: -2, max: 3, editType: 'plot', }, xanchor: { valType: 'enumerated', values: ['auto', 'left', 'center', 'right'], dflt: 'left', editType: 'plot', }, y: { valType: 'number', min: -2, max: 3, editType: 'plot', }, yanchor: { valType: 'enumerated', values: ['auto', 'top', 'middle', 'bottom'], dflt: 'bottom', editType: 'plot', }, font: fontAttrs({ editType: 'plot', }), bgcolor: { valType: 'color', dflt: colorAttrs.lightLine, editType: 'plot', }, activecolor: { valType: 'color', editType: 'plot', }, bordercolor: { valType: 'color', dflt: colorAttrs.defaultLine, editType: 'plot', }, borderwidth: { valType: 'number', min: 0, dflt: 0, editType: 'plot', }, editType: 'plot' }; },{"../../plot_api/plot_template":323,"../../plots/font_attributes":365,"../color/attributes":156}],224:[function(_dereq_,module,exports){ 'use strict'; module.exports = { // 'y' position pad above counter axis domain yPad: 0.02, // minimum button width (regardless of text size) minButtonWidth: 30, // buttons rect radii rx: 3, ry: 3, // light fraction used to compute the 'activecolor' default lightAmount: 25, darkAmount: 10 }; },{}],225:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Color = _dereq_('../color'); var Template = _dereq_('../../plot_api/plot_template'); var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults'); var attributes = _dereq_('./attributes'); var constants = _dereq_('./constants'); module.exports = function handleDefaults(containerIn, containerOut, layout, counterAxes, calendar) { var selectorIn = containerIn.rangeselector || {}; var selectorOut = Template.newContainer(containerOut, 'rangeselector'); function coerce(attr, dflt) { return Lib.coerce(selectorIn, selectorOut, attributes, attr, dflt); } var buttons = handleArrayContainerDefaults(selectorIn, selectorOut, { name: 'buttons', handleItemDefaults: buttonDefaults, calendar: calendar }); var visible = coerce('visible', buttons.length > 0); if(visible) { var posDflt = getPosDflt(containerOut, layout, counterAxes); coerce('x', posDflt[0]); coerce('y', posDflt[1]); Lib.noneOrAll(containerIn, containerOut, ['x', 'y']); coerce('xanchor'); coerce('yanchor'); Lib.coerceFont(coerce, 'font', layout.font); var bgColor = coerce('bgcolor'); coerce('activecolor', Color.contrast(bgColor, constants.lightAmount, constants.darkAmount)); coerce('bordercolor'); coerce('borderwidth'); } }; function buttonDefaults(buttonIn, buttonOut, selectorOut, opts) { var calendar = opts.calendar; function coerce(attr, dflt) { return Lib.coerce(buttonIn, buttonOut, attributes.buttons, attr, dflt); } var visible = coerce('visible'); if(visible) { var step = coerce('step'); if(step !== 'all') { if(calendar && calendar !== 'gregorian' && (step === 'month' || step === 'year')) { buttonOut.stepmode = 'backward'; } else { coerce('stepmode'); } coerce('count'); } coerce('label'); } } function getPosDflt(containerOut, layout, counterAxes) { var anchoredList = counterAxes.filter(function(ax) { return layout[ax].anchor === containerOut._id; }); var posY = 0; for(var i = 0; i < anchoredList.length; i++) { var domain = layout[anchoredList[i]].domain; if(domain) posY = Math.max(domain[1], posY); } return [containerOut.domain[0], posY + constants.yPad]; } },{"../../lib":287,"../../plot_api/plot_template":323,"../../plots/array_container_defaults":329,"../color":157,"./attributes":223,"./constants":224}],226:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Registry = _dereq_('../../registry'); var Plots = _dereq_('../../plots/plots'); var Color = _dereq_('../color'); var Drawing = _dereq_('../drawing'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var axisIds = _dereq_('../../plots/cartesian/axis_ids'); var alignmentConstants = _dereq_('../../constants/alignment'); var LINE_SPACING = alignmentConstants.LINE_SPACING; var FROM_TL = alignmentConstants.FROM_TL; var FROM_BR = alignmentConstants.FROM_BR; var constants = _dereq_('./constants'); var getUpdateObject = _dereq_('./get_update_object'); module.exports = function draw(gd) { var fullLayout = gd._fullLayout; var selectors = fullLayout._infolayer.selectAll('.rangeselector') .data(makeSelectorData(gd), selectorKeyFunc); selectors.enter().append('g') .classed('rangeselector', true); selectors.exit().remove(); selectors.style({ cursor: 'pointer', 'pointer-events': 'all' }); selectors.each(function(d) { var selector = d3.select(this); var axisLayout = d; var selectorLayout = axisLayout.rangeselector; var buttons = selector.selectAll('g.button') .data(Lib.filterVisible(selectorLayout.buttons)); buttons.enter().append('g') .classed('button', true); buttons.exit().remove(); buttons.each(function(d) { var button = d3.select(this); var update = getUpdateObject(axisLayout, d); d._isActive = isActive(axisLayout, d, update); button.call(drawButtonRect, selectorLayout, d); button.call(drawButtonText, selectorLayout, d, gd); button.on('click', function() { if(gd._dragged) return; Registry.call('_guiRelayout', gd, update); }); button.on('mouseover', function() { d._isHovered = true; button.call(drawButtonRect, selectorLayout, d); }); button.on('mouseout', function() { d._isHovered = false; button.call(drawButtonRect, selectorLayout, d); }); }); reposition(gd, buttons, selectorLayout, axisLayout._name, selector); }); }; function makeSelectorData(gd) { var axes = axisIds.list(gd, 'x', true); var data = []; for(var i = 0; i < axes.length; i++) { var axis = axes[i]; if(axis.rangeselector && axis.rangeselector.visible) { data.push(axis); } } return data; } function selectorKeyFunc(d) { return d._id; } function isActive(axisLayout, opts, update) { if(opts.step === 'all') { return axisLayout.autorange === true; } else { var keys = Object.keys(update); return ( axisLayout.range[0] === update[keys[0]] && axisLayout.range[1] === update[keys[1]] ); } } function drawButtonRect(button, selectorLayout, d) { var rect = Lib.ensureSingle(button, 'rect', 'selector-rect', function(s) { s.attr('shape-rendering', 'crispEdges'); }); rect.attr({ 'rx': constants.rx, 'ry': constants.ry }); rect.call(Color.stroke, selectorLayout.bordercolor) .call(Color.fill, getFillColor(selectorLayout, d)) .style('stroke-width', selectorLayout.borderwidth + 'px'); } function getFillColor(selectorLayout, d) { return (d._isActive || d._isHovered) ? selectorLayout.activecolor : selectorLayout.bgcolor; } function drawButtonText(button, selectorLayout, d, gd) { function textLayout(s) { svgTextUtils.convertToTspans(s, gd); } var text = Lib.ensureSingle(button, 'text', 'selector-text', function(s) { s.attr('text-anchor', 'middle'); }); text.call(Drawing.font, selectorLayout.font) .text(getLabel(d, gd._fullLayout._meta)) .call(textLayout); } function getLabel(opts, _meta) { if(opts.label) { return _meta ? Lib.templateString(opts.label, _meta) : opts.label; } if(opts.step === 'all') return 'all'; return opts.count + opts.step.charAt(0); } function reposition(gd, buttons, opts, axName, selector) { var width = 0; var height = 0; var borderWidth = opts.borderwidth; buttons.each(function() { var button = d3.select(this); var text = button.select('.selector-text'); var tHeight = opts.font.size * LINE_SPACING; var hEff = Math.max(tHeight * svgTextUtils.lineCount(text), 16) + 3; height = Math.max(height, hEff); }); buttons.each(function() { var button = d3.select(this); var rect = button.select('.selector-rect'); var text = button.select('.selector-text'); var tWidth = text.node() && Drawing.bBox(text.node()).width; var tHeight = opts.font.size * LINE_SPACING; var tLines = svgTextUtils.lineCount(text); var wEff = Math.max(tWidth + 10, constants.minButtonWidth); // TODO add MathJax support // TODO add buttongap attribute button.attr('transform', strTranslate(borderWidth + width, borderWidth)); rect.attr({ x: 0, y: 0, width: wEff, height: height }); svgTextUtils.positionText(text, wEff / 2, height / 2 - ((tLines - 1) * tHeight / 2) + 3); width += wEff + 5; }); var graphSize = gd._fullLayout._size; var lx = graphSize.l + graphSize.w * opts.x; var ly = graphSize.t + graphSize.h * (1 - opts.y); var xanchor = 'left'; if(Lib.isRightAnchor(opts)) { lx -= width; xanchor = 'right'; } if(Lib.isCenterAnchor(opts)) { lx -= width / 2; xanchor = 'center'; } var yanchor = 'top'; if(Lib.isBottomAnchor(opts)) { ly -= height; yanchor = 'bottom'; } if(Lib.isMiddleAnchor(opts)) { ly -= height / 2; yanchor = 'middle'; } width = Math.ceil(width); height = Math.ceil(height); lx = Math.round(lx); ly = Math.round(ly); Plots.autoMargin(gd, axName + '-range-selector', { x: opts.x, y: opts.y, l: width * FROM_TL[xanchor], r: width * FROM_BR[xanchor], b: height * FROM_BR[yanchor], t: height * FROM_TL[yanchor] }); selector.attr('transform', strTranslate(lx, ly)); } },{"../../constants/alignment":262,"../../lib":287,"../../lib/svg_text_utils":310,"../../plots/cartesian/axis_ids":338,"../../plots/plots":371,"../../registry":378,"../color":157,"../drawing":179,"./constants":224,"./get_update_object":227,"@plotly/d3":20}],227:[function(_dereq_,module,exports){ 'use strict'; var d3Time = _dereq_('d3-time'); var titleCase = _dereq_('../../lib').titleCase; module.exports = function getUpdateObject(axisLayout, buttonLayout) { var axName = axisLayout._name; var update = {}; if(buttonLayout.step === 'all') { update[axName + '.autorange'] = true; } else { var xrange = getXRange(axisLayout, buttonLayout); update[axName + '.range[0]'] = xrange[0]; update[axName + '.range[1]'] = xrange[1]; } return update; }; function getXRange(axisLayout, buttonLayout) { var currentRange = axisLayout.range; var base = new Date(axisLayout.r2l(currentRange[1])); var step = buttonLayout.step; var utcStep = d3Time['utc' + titleCase(step)]; var count = buttonLayout.count; var range0; switch(buttonLayout.stepmode) { case 'backward': range0 = axisLayout.l2r(+utcStep.offset(base, -count)); break; case 'todate': var base2 = utcStep.offset(base, -count); range0 = axisLayout.l2r(+utcStep.ceil(base2)); break; } var range1 = currentRange[1]; return [range0, range1]; } },{"../../lib":287,"d3-time":32}],228:[function(_dereq_,module,exports){ 'use strict'; module.exports = { moduleType: 'component', name: 'rangeselector', schema: { subplots: { xaxis: {rangeselector: _dereq_('./attributes')} } }, layoutAttributes: _dereq_('./attributes'), handleDefaults: _dereq_('./defaults'), draw: _dereq_('./draw') }; },{"./attributes":223,"./defaults":225,"./draw":226}],229:[function(_dereq_,module,exports){ 'use strict'; var colorAttributes = _dereq_('../color/attributes'); module.exports = { bgcolor: { valType: 'color', dflt: colorAttributes.background, editType: 'plot', }, bordercolor: { valType: 'color', dflt: colorAttributes.defaultLine, editType: 'plot', }, borderwidth: { valType: 'integer', dflt: 0, min: 0, editType: 'plot', }, autorange: { valType: 'boolean', dflt: true, editType: 'calc', impliedEdits: {'range[0]': undefined, 'range[1]': undefined}, }, range: { valType: 'info_array', items: [ {valType: 'any', editType: 'calc', impliedEdits: {'^autorange': false}}, {valType: 'any', editType: 'calc', impliedEdits: {'^autorange': false}} ], editType: 'calc', impliedEdits: {'autorange': false}, }, thickness: { valType: 'number', dflt: 0.15, min: 0, max: 1, editType: 'plot', }, visible: { valType: 'boolean', dflt: true, editType: 'calc', }, editType: 'calc' }; },{"../color/attributes":156}],230:[function(_dereq_,module,exports){ 'use strict'; var listAxes = _dereq_('../../plots/cartesian/axis_ids').list; var getAutoRange = _dereq_('../../plots/cartesian/autorange').getAutoRange; var constants = _dereq_('./constants'); module.exports = function calcAutorange(gd) { var axes = listAxes(gd, 'x', true); // Compute new slider range using axis autorange if necessary. // // Copy back range to input range slider container to skip // this step in subsequent draw calls. for(var i = 0; i < axes.length; i++) { var ax = axes[i]; var opts = ax[constants.name]; if(opts && opts.visible && opts.autorange) { opts._input.autorange = true; opts._input.range = opts.range = getAutoRange(gd, ax); } } }; },{"../../plots/cartesian/autorange":333,"../../plots/cartesian/axis_ids":338,"./constants":231}],231:[function(_dereq_,module,exports){ 'use strict'; module.exports = { // attribute container name name: 'rangeslider', // class names containerClassName: 'rangeslider-container', bgClassName: 'rangeslider-bg', rangePlotClassName: 'rangeslider-rangeplot', maskMinClassName: 'rangeslider-mask-min', maskMaxClassName: 'rangeslider-mask-max', slideBoxClassName: 'rangeslider-slidebox', grabberMinClassName: 'rangeslider-grabber-min', grabAreaMinClassName: 'rangeslider-grabarea-min', handleMinClassName: 'rangeslider-handle-min', grabberMaxClassName: 'rangeslider-grabber-max', grabAreaMaxClassName: 'rangeslider-grabarea-max', handleMaxClassName: 'rangeslider-handle-max', maskMinOppAxisClassName: 'rangeslider-mask-min-opp-axis', maskMaxOppAxisClassName: 'rangeslider-mask-max-opp-axis', // style constants maskColor: 'rgba(0,0,0,0.4)', maskOppAxisColor: 'rgba(0,0,0,0.2)', slideBoxFill: 'transparent', slideBoxCursor: 'ew-resize', grabAreaFill: 'transparent', grabAreaCursor: 'col-resize', grabAreaWidth: 10, handleWidth: 4, handleRadius: 1, handleStrokeWidth: 1, extraPad: 15 }; },{}],232:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Template = _dereq_('../../plot_api/plot_template'); var axisIds = _dereq_('../../plots/cartesian/axis_ids'); var attributes = _dereq_('./attributes'); var oppAxisAttrs = _dereq_('./oppaxis_attributes'); module.exports = function handleDefaults(layoutIn, layoutOut, axName) { var axIn = layoutIn[axName]; var axOut = layoutOut[axName]; if(!(axIn.rangeslider || layoutOut._requestRangeslider[axOut._id])) return; // not super proud of this (maybe store _ in axis object instead if(!Lib.isPlainObject(axIn.rangeslider)) { axIn.rangeslider = {}; } var containerIn = axIn.rangeslider; var containerOut = Template.newContainer(axOut, 'rangeslider'); function coerce(attr, dflt) { return Lib.coerce(containerIn, containerOut, attributes, attr, dflt); } var rangeContainerIn, rangeContainerOut; function coerceRange(attr, dflt) { return Lib.coerce(rangeContainerIn, rangeContainerOut, oppAxisAttrs, attr, dflt); } var visible = coerce('visible'); if(!visible) return; coerce('bgcolor', layoutOut.plot_bgcolor); coerce('bordercolor'); coerce('borderwidth'); coerce('thickness'); coerce('autorange', !axOut.isValidRange(containerIn.range)); coerce('range'); var subplots = layoutOut._subplots; if(subplots) { var yIds = subplots.cartesian .filter(function(subplotId) { return subplotId.substr(0, subplotId.indexOf('y')) === axisIds.name2id(axName); }) .map(function(subplotId) { return subplotId.substr(subplotId.indexOf('y'), subplotId.length); }); var yNames = Lib.simpleMap(yIds, axisIds.id2name); for(var i = 0; i < yNames.length; i++) { var yName = yNames[i]; rangeContainerIn = containerIn[yName] || {}; rangeContainerOut = Template.newContainer(containerOut, yName, 'yaxis'); var yAxOut = layoutOut[yName]; var rangemodeDflt; if(rangeContainerIn.range && yAxOut.isValidRange(rangeContainerIn.range)) { rangemodeDflt = 'fixed'; } var rangeMode = coerceRange('rangemode', rangemodeDflt); if(rangeMode !== 'match') { coerceRange('range', yAxOut.range.slice()); } } } // to map back range slider (auto) range containerOut._input = containerIn; }; },{"../../lib":287,"../../plot_api/plot_template":323,"../../plots/cartesian/axis_ids":338,"./attributes":229,"./oppaxis_attributes":236}],233:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Registry = _dereq_('../../registry'); var Plots = _dereq_('../../plots/plots'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var Drawing = _dereq_('../drawing'); var Color = _dereq_('../color'); var Titles = _dereq_('../titles'); var Cartesian = _dereq_('../../plots/cartesian'); var axisIDs = _dereq_('../../plots/cartesian/axis_ids'); var dragElement = _dereq_('../dragelement'); var setCursor = _dereq_('../../lib/setcursor'); var constants = _dereq_('./constants'); module.exports = function(gd) { var fullLayout = gd._fullLayout; var rangeSliderData = fullLayout._rangeSliderData; for(var i = 0; i < rangeSliderData.length; i++) { var opts = rangeSliderData[i][constants.name]; // fullLayout._uid may not exist when we call makeData opts._clipId = opts._id + '-' + fullLayout._uid; } /* * * * < .... range plot /> * * * * * * * * * * * ... */ function keyFunction(axisOpts) { return axisOpts._name; } var rangeSliders = fullLayout._infolayer .selectAll('g.' + constants.containerClassName) .data(rangeSliderData, keyFunction); // remove exiting sliders and their corresponding clip paths rangeSliders.exit().each(function(axisOpts) { var opts = axisOpts[constants.name]; fullLayout._topdefs.select('#' + opts._clipId).remove(); }).remove(); // return early if no range slider is visible if(rangeSliderData.length === 0) return; rangeSliders.enter().append('g') .classed(constants.containerClassName, true) .attr('pointer-events', 'all'); // for all present range sliders rangeSliders.each(function(axisOpts) { var rangeSlider = d3.select(this); var opts = axisOpts[constants.name]; var oppAxisOpts = fullLayout[axisIDs.id2name(axisOpts.anchor)]; var oppAxisRangeOpts = opts[axisIDs.id2name(axisOpts.anchor)]; // update range // Expand slider range to the axis range if(opts.range) { var rng = Lib.simpleMap(opts.range, axisOpts.r2l); var axRng = Lib.simpleMap(axisOpts.range, axisOpts.r2l); var newRng; if(axRng[0] < axRng[1]) { newRng = [ Math.min(rng[0], axRng[0]), Math.max(rng[1], axRng[1]) ]; } else { newRng = [ Math.max(rng[0], axRng[0]), Math.min(rng[1], axRng[1]) ]; } opts.range = opts._input.range = Lib.simpleMap(newRng, axisOpts.l2r); } axisOpts.cleanRange('rangeslider.range'); // update range slider dimensions var gs = fullLayout._size; var domain = axisOpts.domain; opts._width = gs.w * (domain[1] - domain[0]); var x = Math.round(gs.l + (gs.w * domain[0])); var y = Math.round( gs.t + gs.h * (1 - axisOpts._counterDomainMin) + (axisOpts.side === 'bottom' ? axisOpts._depth : 0) + opts._offsetShift + constants.extraPad ); rangeSlider.attr('transform', strTranslate(x, y)); // update data <--> pixel coordinate conversion methods opts._rl = Lib.simpleMap(opts.range, axisOpts.r2l); var rl0 = opts._rl[0]; var rl1 = opts._rl[1]; var drl = rl1 - rl0; opts.p2d = function(v) { return (v / opts._width) * drl + rl0; }; opts.d2p = function(v) { return (v - rl0) / drl * opts._width; }; if(axisOpts.rangebreaks) { var rsBreaks = axisOpts.locateBreaks(rl0, rl1); if(rsBreaks.length) { var j, brk; var lBreaks = 0; for(j = 0; j < rsBreaks.length; j++) { brk = rsBreaks[j]; lBreaks += (brk.max - brk.min); } // TODO fix for reversed-range axes !!! // compute slope and piecewise offsets var m2 = opts._width / (rl1 - rl0 - lBreaks); var _B = [-m2 * rl0]; for(j = 0; j < rsBreaks.length; j++) { brk = rsBreaks[j]; _B.push(_B[_B.length - 1] - m2 * (brk.max - brk.min)); } opts.d2p = function(v) { var b = _B[0]; for(var j = 0; j < rsBreaks.length; j++) { var brk = rsBreaks[j]; if(v >= brk.max) b = _B[j + 1]; else if(v < brk.min) break; } return b + m2 * v; }; // fill pixel (i.e. 'p') min/max here, // to not have to loop through the _rangebreaks twice during `p2d` for(j = 0; j < rsBreaks.length; j++) { brk = rsBreaks[j]; brk.pmin = opts.d2p(brk.min); brk.pmax = opts.d2p(brk.max); } opts.p2d = function(v) { var b = _B[0]; for(var j = 0; j < rsBreaks.length; j++) { var brk = rsBreaks[j]; if(v >= brk.pmax) b = _B[j + 1]; else if(v < brk.pmin) break; } return (v - b) / m2; }; } } if(oppAxisRangeOpts.rangemode !== 'match') { var range0OppAxis = oppAxisOpts.r2l(oppAxisRangeOpts.range[0]); var range1OppAxis = oppAxisOpts.r2l(oppAxisRangeOpts.range[1]); var distOppAxis = range1OppAxis - range0OppAxis; opts.d2pOppAxis = function(v) { return (v - range0OppAxis) / distOppAxis * opts._height; }; } // update inner nodes rangeSlider .call(drawBg, gd, axisOpts, opts) .call(addClipPath, gd, axisOpts, opts) .call(drawRangePlot, gd, axisOpts, opts) .call(drawMasks, gd, axisOpts, opts, oppAxisRangeOpts) .call(drawSlideBox, gd, axisOpts, opts) .call(drawGrabbers, gd, axisOpts, opts); // setup drag element setupDragElement(rangeSlider, gd, axisOpts, opts); // update current range setPixelRange(rangeSlider, gd, axisOpts, opts, oppAxisOpts, oppAxisRangeOpts); // title goes next to range slider instead of tick labels, so // just take it over and draw it from here if(axisOpts.side === 'bottom') { Titles.draw(gd, axisOpts._id + 'title', { propContainer: axisOpts, propName: axisOpts._name + '.title', placeholder: fullLayout._dfltTitle.x, attributes: { x: axisOpts._offset + axisOpts._length / 2, y: y + opts._height + opts._offsetShift + 10 + 1.5 * axisOpts.title.font.size, 'text-anchor': 'middle' } }); } }); }; function setupDragElement(rangeSlider, gd, axisOpts, opts) { if(gd._context.staticPlot) return; var slideBox = rangeSlider.select('rect.' + constants.slideBoxClassName).node(); var grabAreaMin = rangeSlider.select('rect.' + constants.grabAreaMinClassName).node(); var grabAreaMax = rangeSlider.select('rect.' + constants.grabAreaMaxClassName).node(); function mouseDownHandler() { var event = d3.event; var target = event.target; var startX = event.clientX || event.touches[0].clientX; var offsetX = startX - rangeSlider.node().getBoundingClientRect().left; var minVal = opts.d2p(axisOpts._rl[0]); var maxVal = opts.d2p(axisOpts._rl[1]); var dragCover = dragElement.coverSlip(); this.addEventListener('touchmove', mouseMove); this.addEventListener('touchend', mouseUp); dragCover.addEventListener('mousemove', mouseMove); dragCover.addEventListener('mouseup', mouseUp); function mouseMove(e) { var clientX = e.clientX || e.touches[0].clientX; var delta = +clientX - startX; var pixelMin, pixelMax, cursor; switch(target) { case slideBox: cursor = 'ew-resize'; pixelMin = minVal + delta; pixelMax = maxVal + delta; break; case grabAreaMin: cursor = 'col-resize'; pixelMin = minVal + delta; pixelMax = maxVal; break; case grabAreaMax: cursor = 'col-resize'; pixelMin = minVal; pixelMax = maxVal + delta; break; default: cursor = 'ew-resize'; pixelMin = offsetX; pixelMax = offsetX + delta; break; } if(pixelMax < pixelMin) { var tmp = pixelMax; pixelMax = pixelMin; pixelMin = tmp; } opts._pixelMin = pixelMin; opts._pixelMax = pixelMax; setCursor(d3.select(dragCover), cursor); setDataRange(rangeSlider, gd, axisOpts, opts); } function mouseUp() { dragCover.removeEventListener('mousemove', mouseMove); dragCover.removeEventListener('mouseup', mouseUp); this.removeEventListener('touchmove', mouseMove); this.removeEventListener('touchend', mouseUp); Lib.removeElement(dragCover); } } rangeSlider.on('mousedown', mouseDownHandler); rangeSlider.on('touchstart', mouseDownHandler); } function setDataRange(rangeSlider, gd, axisOpts, opts) { function clamp(v) { return axisOpts.l2r(Lib.constrain(v, opts._rl[0], opts._rl[1])); } var dataMin = clamp(opts.p2d(opts._pixelMin)); var dataMax = clamp(opts.p2d(opts._pixelMax)); window.requestAnimationFrame(function() { Registry.call('_guiRelayout', gd, axisOpts._name + '.range', [dataMin, dataMax]); }); } function setPixelRange(rangeSlider, gd, axisOpts, opts, oppAxisOpts, oppAxisRangeOpts) { var hw2 = constants.handleWidth / 2; function clamp(v) { return Lib.constrain(v, 0, opts._width); } function clampOppAxis(v) { return Lib.constrain(v, 0, opts._height); } function clampHandle(v) { return Lib.constrain(v, -hw2, opts._width + hw2); } var pixelMin = clamp(opts.d2p(axisOpts._rl[0])); var pixelMax = clamp(opts.d2p(axisOpts._rl[1])); rangeSlider.select('rect.' + constants.slideBoxClassName) .attr('x', pixelMin) .attr('width', pixelMax - pixelMin); rangeSlider.select('rect.' + constants.maskMinClassName) .attr('width', pixelMin); rangeSlider.select('rect.' + constants.maskMaxClassName) .attr('x', pixelMax) .attr('width', opts._width - pixelMax); if(oppAxisRangeOpts.rangemode !== 'match') { var pixelMinOppAxis = opts._height - clampOppAxis(opts.d2pOppAxis(oppAxisOpts._rl[1])); var pixelMaxOppAxis = opts._height - clampOppAxis(opts.d2pOppAxis(oppAxisOpts._rl[0])); rangeSlider.select('rect.' + constants.maskMinOppAxisClassName) .attr('x', pixelMin) .attr('height', pixelMinOppAxis) .attr('width', pixelMax - pixelMin); rangeSlider.select('rect.' + constants.maskMaxOppAxisClassName) .attr('x', pixelMin) .attr('y', pixelMaxOppAxis) .attr('height', opts._height - pixelMaxOppAxis) .attr('width', pixelMax - pixelMin); rangeSlider.select('rect.' + constants.slideBoxClassName) .attr('y', pixelMinOppAxis) .attr('height', pixelMaxOppAxis - pixelMinOppAxis); } // add offset for crispier corners // https://github.com/plotly/plotly.js/pull/1409 var offset = 0.5; var xMin = Math.round(clampHandle(pixelMin - hw2)) - offset; var xMax = Math.round(clampHandle(pixelMax - hw2)) + offset; rangeSlider.select('g.' + constants.grabberMinClassName) .attr('transform', strTranslate(xMin, offset)); rangeSlider.select('g.' + constants.grabberMaxClassName) .attr('transform', strTranslate(xMax, offset)); } function drawBg(rangeSlider, gd, axisOpts, opts) { var bg = Lib.ensureSingle(rangeSlider, 'rect', constants.bgClassName, function(s) { s.attr({ x: 0, y: 0, 'shape-rendering': 'crispEdges' }); }); var borderCorrect = (opts.borderwidth % 2) === 0 ? opts.borderwidth : opts.borderwidth - 1; var offsetShift = -opts._offsetShift; var lw = Drawing.crispRound(gd, opts.borderwidth); bg.attr({ width: opts._width + borderCorrect, height: opts._height + borderCorrect, transform: strTranslate(offsetShift, offsetShift), fill: opts.bgcolor, stroke: opts.bordercolor, 'stroke-width': lw }); } function addClipPath(rangeSlider, gd, axisOpts, opts) { var fullLayout = gd._fullLayout; var clipPath = Lib.ensureSingleById(fullLayout._topdefs, 'clipPath', opts._clipId, function(s) { s.append('rect').attr({ x: 0, y: 0 }); }); clipPath.select('rect').attr({ width: opts._width, height: opts._height }); } function drawRangePlot(rangeSlider, gd, axisOpts, opts) { var calcData = gd.calcdata; var rangePlots = rangeSlider.selectAll('g.' + constants.rangePlotClassName) .data(axisOpts._subplotsWith, Lib.identity); rangePlots.enter().append('g') .attr('class', function(id) { return constants.rangePlotClassName + ' ' + id; }) .call(Drawing.setClipUrl, opts._clipId, gd); rangePlots.order(); rangePlots.exit().remove(); var mainplotinfo; rangePlots.each(function(id, i) { var plotgroup = d3.select(this); var isMainPlot = (i === 0); var oppAxisOpts = axisIDs.getFromId(gd, id, 'y'); var oppAxisName = oppAxisOpts._name; var oppAxisRangeOpts = opts[oppAxisName]; var mockFigure = { data: [], layout: { xaxis: { type: axisOpts.type, domain: [0, 1], range: opts.range.slice(), calendar: axisOpts.calendar }, width: opts._width, height: opts._height, margin: { t: 0, b: 0, l: 0, r: 0 } }, _context: gd._context }; if(axisOpts.rangebreaks) { mockFigure.layout.xaxis.rangebreaks = axisOpts.rangebreaks; } mockFigure.layout[oppAxisName] = { type: oppAxisOpts.type, domain: [0, 1], range: oppAxisRangeOpts.rangemode !== 'match' ? oppAxisRangeOpts.range.slice() : oppAxisOpts.range.slice(), calendar: oppAxisOpts.calendar }; if(oppAxisOpts.rangebreaks) { mockFigure.layout[oppAxisName].rangebreaks = oppAxisOpts.rangebreaks; } Plots.supplyDefaults(mockFigure); var xa = mockFigure._fullLayout.xaxis; var ya = mockFigure._fullLayout[oppAxisName]; xa.clearCalc(); xa.setScale(); ya.clearCalc(); ya.setScale(); var plotinfo = { id: id, plotgroup: plotgroup, xaxis: xa, yaxis: ya, isRangePlot: true }; if(isMainPlot) mainplotinfo = plotinfo; else { plotinfo.mainplot = 'xy'; plotinfo.mainplotinfo = mainplotinfo; } Cartesian.rangePlot(gd, plotinfo, filterRangePlotCalcData(calcData, id)); }); } function filterRangePlotCalcData(calcData, subplotId) { var out = []; for(var i = 0; i < calcData.length; i++) { var calcTrace = calcData[i]; var trace = calcTrace[0].trace; if(trace.xaxis + trace.yaxis === subplotId) { out.push(calcTrace); } } return out; } function drawMasks(rangeSlider, gd, axisOpts, opts, oppAxisRangeOpts) { var maskMin = Lib.ensureSingle(rangeSlider, 'rect', constants.maskMinClassName, function(s) { s.attr({ x: 0, y: 0, 'shape-rendering': 'crispEdges' }); }); maskMin .attr('height', opts._height) .call(Color.fill, constants.maskColor); var maskMax = Lib.ensureSingle(rangeSlider, 'rect', constants.maskMaxClassName, function(s) { s.attr({ y: 0, 'shape-rendering': 'crispEdges' }); }); maskMax .attr('height', opts._height) .call(Color.fill, constants.maskColor); // masks used for oppAxis zoom if(oppAxisRangeOpts.rangemode !== 'match') { var maskMinOppAxis = Lib.ensureSingle(rangeSlider, 'rect', constants.maskMinOppAxisClassName, function(s) { s.attr({ y: 0, 'shape-rendering': 'crispEdges' }); }); maskMinOppAxis .attr('width', opts._width) .call(Color.fill, constants.maskOppAxisColor); var maskMaxOppAxis = Lib.ensureSingle(rangeSlider, 'rect', constants.maskMaxOppAxisClassName, function(s) { s.attr({ y: 0, 'shape-rendering': 'crispEdges' }); }); maskMaxOppAxis .attr('width', opts._width) .style('border-top', constants.maskOppBorder) .call(Color.fill, constants.maskOppAxisColor); } } function drawSlideBox(rangeSlider, gd, axisOpts, opts) { if(gd._context.staticPlot) return; var slideBox = Lib.ensureSingle(rangeSlider, 'rect', constants.slideBoxClassName, function(s) { s.attr({ y: 0, cursor: constants.slideBoxCursor, 'shape-rendering': 'crispEdges' }); }); slideBox.attr({ height: opts._height, fill: constants.slideBoxFill }); } function drawGrabbers(rangeSlider, gd, axisOpts, opts) { // var grabberMin = Lib.ensureSingle(rangeSlider, 'g', constants.grabberMinClassName); var grabberMax = Lib.ensureSingle(rangeSlider, 'g', constants.grabberMaxClassName); // var handleFixAttrs = { x: 0, width: constants.handleWidth, rx: constants.handleRadius, fill: Color.background, stroke: Color.defaultLine, 'stroke-width': constants.handleStrokeWidth, 'shape-rendering': 'crispEdges' }; var handleDynamicAttrs = { y: Math.round(opts._height / 4), height: Math.round(opts._height / 2), }; var handleMin = Lib.ensureSingle(grabberMin, 'rect', constants.handleMinClassName, function(s) { s.attr(handleFixAttrs); }); handleMin.attr(handleDynamicAttrs); var handleMax = Lib.ensureSingle(grabberMax, 'rect', constants.handleMaxClassName, function(s) { s.attr(handleFixAttrs); }); handleMax.attr(handleDynamicAttrs); // var grabAreaFixAttrs = { width: constants.grabAreaWidth, x: 0, y: 0, fill: constants.grabAreaFill, cursor: !gd._context.staticPlot ? constants.grabAreaCursor : undefined, }; var grabAreaMin = Lib.ensureSingle(grabberMin, 'rect', constants.grabAreaMinClassName, function(s) { s.attr(grabAreaFixAttrs); }); grabAreaMin.attr('height', opts._height); var grabAreaMax = Lib.ensureSingle(grabberMax, 'rect', constants.grabAreaMaxClassName, function(s) { s.attr(grabAreaFixAttrs); }); grabAreaMax.attr('height', opts._height); } },{"../../lib":287,"../../lib/setcursor":307,"../../plots/cartesian":348,"../../plots/cartesian/axis_ids":338,"../../plots/plots":371,"../../registry":378,"../color":157,"../dragelement":176,"../drawing":179,"../titles":255,"./constants":231,"@plotly/d3":20}],234:[function(_dereq_,module,exports){ 'use strict'; var axisIDs = _dereq_('../../plots/cartesian/axis_ids'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var constants = _dereq_('./constants'); var LINE_SPACING = _dereq_('../../constants/alignment').LINE_SPACING; var name = constants.name; function isVisible(ax) { var rangeSlider = ax && ax[name]; return rangeSlider && rangeSlider.visible; } exports.isVisible = isVisible; exports.makeData = function(fullLayout) { var axes = axisIDs.list({ _fullLayout: fullLayout }, 'x', true); var margin = fullLayout.margin; var rangeSliderData = []; if(!fullLayout._has('gl2d')) { for(var i = 0; i < axes.length; i++) { var ax = axes[i]; if(isVisible(ax)) { rangeSliderData.push(ax); var opts = ax[name]; opts._id = name + ax._id; opts._height = (fullLayout.height - margin.b - margin.t) * opts.thickness; opts._offsetShift = Math.floor(opts.borderwidth / 2); } } } fullLayout._rangeSliderData = rangeSliderData; }; exports.autoMarginOpts = function(gd, ax) { var fullLayout = gd._fullLayout; var opts = ax[name]; var axLetter = ax._id.charAt(0); var bottomDepth = 0; var titleHeight = 0; if(ax.side === 'bottom') { bottomDepth = ax._depth; if(ax.title.text !== fullLayout._dfltTitle[axLetter]) { // as in rangeslider/draw.js titleHeight = 1.5 * ax.title.font.size + 10 + opts._offsetShift; // multi-line extra bump var extraLines = (ax.title.text.match(svgTextUtils.BR_TAG_ALL) || []).length; titleHeight += extraLines * ax.title.font.size * LINE_SPACING; } } return { x: 0, y: ax._counterDomainMin, l: 0, r: 0, t: 0, b: opts._height + bottomDepth + Math.max(fullLayout.margin.b, titleHeight), pad: constants.extraPad + opts._offsetShift * 2 }; }; },{"../../constants/alignment":262,"../../lib/svg_text_utils":310,"../../plots/cartesian/axis_ids":338,"./constants":231}],235:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var attrs = _dereq_('./attributes'); var oppAxisAttrs = _dereq_('./oppaxis_attributes'); var helpers = _dereq_('./helpers'); module.exports = { moduleType: 'component', name: 'rangeslider', schema: { subplots: { xaxis: { rangeslider: Lib.extendFlat({}, attrs, { yaxis: oppAxisAttrs }) } } }, layoutAttributes: _dereq_('./attributes'), handleDefaults: _dereq_('./defaults'), calcAutorange: _dereq_('./calc_autorange'), draw: _dereq_('./draw'), isVisible: helpers.isVisible, makeData: helpers.makeData, autoMarginOpts: helpers.autoMarginOpts }; },{"../../lib":287,"./attributes":229,"./calc_autorange":230,"./defaults":232,"./draw":233,"./helpers":234,"./oppaxis_attributes":236}],236:[function(_dereq_,module,exports){ 'use strict'; module.exports = { // not really a 'subplot' attribute container, // but this is the flag we use to denote attributes that // support yaxis, yaxis2, yaxis3, ... counters _isSubplotObj: true, rangemode: { valType: 'enumerated', values: ['auto', 'fixed', 'match'], dflt: 'match', editType: 'calc', }, range: { valType: 'info_array', items: [ {valType: 'any', editType: 'plot'}, {valType: 'any', editType: 'plot'} ], editType: 'plot', }, editType: 'calc' }; },{}],237:[function(_dereq_,module,exports){ 'use strict'; var annAttrs = _dereq_('../annotations/attributes'); var scatterLineAttrs = _dereq_('../../traces/scatter/attributes').line; var dash = _dereq_('../drawing/attributes').dash; var extendFlat = _dereq_('../../lib/extend').extendFlat; var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray; var axisPlaceableObjs = _dereq_('../../constants/axis_placeable_objects'); module.exports = templatedArray('shape', { visible: { valType: 'boolean', dflt: true, editType: 'calc+arraydraw', }, type: { valType: 'enumerated', values: ['circle', 'rect', 'path', 'line'], editType: 'calc+arraydraw', }, layer: { valType: 'enumerated', values: ['below', 'above'], dflt: 'above', editType: 'arraydraw', }, xref: extendFlat({}, annAttrs.xref, { }), xsizemode: { valType: 'enumerated', values: ['scaled', 'pixel'], dflt: 'scaled', editType: 'calc+arraydraw', }, xanchor: { valType: 'any', editType: 'calc+arraydraw', }, x0: { valType: 'any', editType: 'calc+arraydraw', }, x1: { valType: 'any', editType: 'calc+arraydraw', }, yref: extendFlat({}, annAttrs.yref, { }), ysizemode: { valType: 'enumerated', values: ['scaled', 'pixel'], dflt: 'scaled', editType: 'calc+arraydraw', }, yanchor: { valType: 'any', editType: 'calc+arraydraw', }, y0: { valType: 'any', editType: 'calc+arraydraw', }, y1: { valType: 'any', editType: 'calc+arraydraw', }, path: { valType: 'string', editType: 'calc+arraydraw', }, opacity: { valType: 'number', min: 0, max: 1, dflt: 1, editType: 'arraydraw', }, line: { color: extendFlat({}, scatterLineAttrs.color, {editType: 'arraydraw'}), width: extendFlat({}, scatterLineAttrs.width, {editType: 'calc+arraydraw'}), dash: extendFlat({}, dash, {editType: 'arraydraw'}), editType: 'calc+arraydraw' }, fillcolor: { valType: 'color', dflt: 'rgba(0,0,0,0)', editType: 'arraydraw', }, fillrule: { valType: 'enumerated', values: ['evenodd', 'nonzero'], dflt: 'evenodd', editType: 'arraydraw', }, editable: { valType: 'boolean', dflt: false, editType: 'calc+arraydraw', }, editType: 'arraydraw' }); },{"../../constants/axis_placeable_objects":263,"../../lib/extend":281,"../../plot_api/plot_template":323,"../../traces/scatter/attributes":500,"../annotations/attributes":140,"../drawing/attributes":178}],238:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var constants = _dereq_('./constants'); var helpers = _dereq_('./helpers'); module.exports = function calcAutorange(gd) { var fullLayout = gd._fullLayout; var shapeList = Lib.filterVisible(fullLayout.shapes); if(!shapeList.length || !gd._fullData.length) return; for(var i = 0; i < shapeList.length; i++) { var shape = shapeList[i]; shape._extremes = {}; var ax; var bounds; var xRefType = Axes.getRefType(shape.xref); var yRefType = Axes.getRefType(shape.yref); // paper and axis domain referenced shapes don't affect autorange if(shape.xref !== 'paper' && xRefType !== 'domain') { var vx0 = shape.xsizemode === 'pixel' ? shape.xanchor : shape.x0; var vx1 = shape.xsizemode === 'pixel' ? shape.xanchor : shape.x1; ax = Axes.getFromId(gd, shape.xref); bounds = shapeBounds(ax, vx0, vx1, shape.path, constants.paramIsX); if(bounds) { shape._extremes[ax._id] = Axes.findExtremes(ax, bounds, calcXPaddingOptions(shape)); } } if(shape.yref !== 'paper' && yRefType !== 'domain') { var vy0 = shape.ysizemode === 'pixel' ? shape.yanchor : shape.y0; var vy1 = shape.ysizemode === 'pixel' ? shape.yanchor : shape.y1; ax = Axes.getFromId(gd, shape.yref); bounds = shapeBounds(ax, vy0, vy1, shape.path, constants.paramIsY); if(bounds) { shape._extremes[ax._id] = Axes.findExtremes(ax, bounds, calcYPaddingOptions(shape)); } } } }; function calcXPaddingOptions(shape) { return calcPaddingOptions(shape.line.width, shape.xsizemode, shape.x0, shape.x1, shape.path, false); } function calcYPaddingOptions(shape) { return calcPaddingOptions(shape.line.width, shape.ysizemode, shape.y0, shape.y1, shape.path, true); } function calcPaddingOptions(lineWidth, sizeMode, v0, v1, path, isYAxis) { var ppad = lineWidth / 2; var axisDirectionReverted = isYAxis; if(sizeMode === 'pixel') { var coords = path ? helpers.extractPathCoords(path, isYAxis ? constants.paramIsY : constants.paramIsX) : [v0, v1]; var maxValue = Lib.aggNums(Math.max, null, coords); var minValue = Lib.aggNums(Math.min, null, coords); var beforePad = minValue < 0 ? Math.abs(minValue) + ppad : ppad; var afterPad = maxValue > 0 ? maxValue + ppad : ppad; return { ppad: ppad, ppadplus: axisDirectionReverted ? beforePad : afterPad, ppadminus: axisDirectionReverted ? afterPad : beforePad }; } else { return {ppad: ppad}; } } function shapeBounds(ax, v0, v1, path, paramsToUse) { var convertVal = (ax.type === 'category' || ax.type === 'multicategory') ? ax.r2c : ax.d2c; if(v0 !== undefined) return [convertVal(v0), convertVal(v1)]; if(!path) return; var min = Infinity; var max = -Infinity; var segments = path.match(constants.segmentRE); var i; var segment; var drawnParam; var params; var val; if(ax.type === 'date') convertVal = helpers.decodeDate(convertVal); for(i = 0; i < segments.length; i++) { segment = segments[i]; drawnParam = paramsToUse[segment.charAt(0)].drawn; if(drawnParam === undefined) continue; params = segments[i].substr(1).match(constants.paramRE); if(!params || params.length < drawnParam) continue; val = convertVal(params[drawnParam]); if(val < min) min = val; if(val > max) max = val; } if(max >= min) return [min, max]; } },{"../../lib":287,"../../plots/cartesian/axes":334,"./constants":239,"./helpers":248}],239:[function(_dereq_,module,exports){ 'use strict'; module.exports = { segmentRE: /[MLHVQCTSZ][^MLHVQCTSZ]*/g, paramRE: /[^\s,]+/g, // which numbers in each path segment are x (or y) values // drawn is which param is a drawn point, as opposed to a // control point (which doesn't count toward autorange. // TODO: this means curved paths could extend beyond the // autorange bounds. This is a bit tricky to get right // unless we revert to bounding boxes, but perhaps there's // a calculation we could do...) paramIsX: { M: {0: true, drawn: 0}, L: {0: true, drawn: 0}, H: {0: true, drawn: 0}, V: {}, Q: {0: true, 2: true, drawn: 2}, C: {0: true, 2: true, 4: true, drawn: 4}, T: {0: true, drawn: 0}, S: {0: true, 2: true, drawn: 2}, // A: {0: true, 5: true}, Z: {} }, paramIsY: { M: {1: true, drawn: 1}, L: {1: true, drawn: 1}, H: {}, V: {0: true, drawn: 0}, Q: {1: true, 3: true, drawn: 3}, C: {1: true, 3: true, 5: true, drawn: 5}, T: {1: true, drawn: 1}, S: {1: true, 3: true, drawn: 5}, // A: {1: true, 6: true}, Z: {} }, numParams: { M: 2, L: 2, H: 1, V: 1, Q: 4, C: 6, T: 2, S: 4, // A: 7, Z: 0 } }; },{}],240:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults'); var attributes = _dereq_('./attributes'); var helpers = _dereq_('./helpers'); module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) { handleArrayContainerDefaults(layoutIn, layoutOut, { name: 'shapes', handleItemDefaults: handleShapeDefaults }); }; function handleShapeDefaults(shapeIn, shapeOut, fullLayout) { function coerce(attr, dflt) { return Lib.coerce(shapeIn, shapeOut, attributes, attr, dflt); } var visible = coerce('visible'); if(!visible) return; var path = coerce('path'); var dfltType = path ? 'path' : 'rect'; var shapeType = coerce('type', dfltType); if(shapeOut.type !== 'path') delete shapeOut.path; coerce('editable'); coerce('layer'); coerce('opacity'); coerce('fillcolor'); coerce('fillrule'); var lineWidth = coerce('line.width'); if(lineWidth) { coerce('line.color'); coerce('line.dash'); } var xSizeMode = coerce('xsizemode'); var ySizeMode = coerce('ysizemode'); // positioning var axLetters = ['x', 'y']; for(var i = 0; i < 2; i++) { var axLetter = axLetters[i]; var attrAnchor = axLetter + 'anchor'; var sizeMode = axLetter === 'x' ? xSizeMode : ySizeMode; var gdMock = {_fullLayout: fullLayout}; var ax; var pos2r; var r2pos; // xref, yref var axRef = Axes.coerceRef(shapeIn, shapeOut, gdMock, axLetter, undefined, 'paper'); var axRefType = Axes.getRefType(axRef); if(axRefType === 'range') { ax = Axes.getFromId(gdMock, axRef); ax._shapeIndices.push(shapeOut._index); r2pos = helpers.rangeToShapePosition(ax); pos2r = helpers.shapePositionToRange(ax); } else { pos2r = r2pos = Lib.identity; } // Coerce x0, x1, y0, y1 if(shapeType !== 'path') { var dflt0 = 0.25; var dflt1 = 0.75; // hack until V3.0 when log has regular range behavior - make it look like other // ranges to send to coerce, then put it back after // this is all to give reasonable default position behavior on log axes, which is // a pretty unimportant edge case so we could just ignore this. var attr0 = axLetter + '0'; var attr1 = axLetter + '1'; var in0 = shapeIn[attr0]; var in1 = shapeIn[attr1]; shapeIn[attr0] = pos2r(shapeIn[attr0], true); shapeIn[attr1] = pos2r(shapeIn[attr1], true); if(sizeMode === 'pixel') { coerce(attr0, 0); coerce(attr1, 10); } else { Axes.coercePosition(shapeOut, gdMock, coerce, axRef, attr0, dflt0); Axes.coercePosition(shapeOut, gdMock, coerce, axRef, attr1, dflt1); } // hack part 2 shapeOut[attr0] = r2pos(shapeOut[attr0]); shapeOut[attr1] = r2pos(shapeOut[attr1]); shapeIn[attr0] = in0; shapeIn[attr1] = in1; } // Coerce xanchor and yanchor if(sizeMode === 'pixel') { // Hack for log axis described above var inAnchor = shapeIn[attrAnchor]; shapeIn[attrAnchor] = pos2r(shapeIn[attrAnchor], true); Axes.coercePosition(shapeOut, gdMock, coerce, axRef, attrAnchor, 0.25); // Hack part 2 shapeOut[attrAnchor] = r2pos(shapeOut[attrAnchor]); shapeIn[attrAnchor] = inAnchor; } } if(shapeType === 'path') { coerce('path'); } else { Lib.noneOrAll(shapeIn, shapeOut, ['x0', 'x1', 'y0', 'y1']); } } },{"../../lib":287,"../../plots/array_container_defaults":329,"../../plots/cartesian/axes":334,"./attributes":237,"./helpers":248}],241:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var readPaths = _dereq_('./draw_newshape/helpers').readPaths; var displayOutlines = _dereq_('./draw_newshape/display_outlines'); var clearOutlineControllers = _dereq_('../../plots/cartesian/handle_outline').clearOutlineControllers; var Color = _dereq_('../color'); var Drawing = _dereq_('../drawing'); var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor; var dragElement = _dereq_('../dragelement'); var setCursor = _dereq_('../../lib/setcursor'); var constants = _dereq_('./constants'); var helpers = _dereq_('./helpers'); // Shapes are stored in gd.layout.shapes, an array of objects // index can point to one item in this array, // or non-numeric to simply add a new one // or -1 to modify all existing // opt can be the full options object, or one key (to be set to value) // or undefined to simply redraw // if opt is blank, val can be 'add' or a full options object to add a new // annotation at that point in the array, or 'remove' to delete this one module.exports = { draw: draw, drawOne: drawOne, eraseActiveShape: eraseActiveShape }; function draw(gd) { var fullLayout = gd._fullLayout; // Remove previous shapes before drawing new in shapes in fullLayout.shapes fullLayout._shapeUpperLayer.selectAll('path').remove(); fullLayout._shapeLowerLayer.selectAll('path').remove(); for(var k in fullLayout._plots) { var shapelayer = fullLayout._plots[k].shapelayer; if(shapelayer) shapelayer.selectAll('path').remove(); } for(var i = 0; i < fullLayout.shapes.length; i++) { if(fullLayout.shapes[i].visible) { drawOne(gd, i); } } // may need to resurrect this if we put text (LaTeX) in shapes // return Plots.previousPromises(gd); } function shouldSkipEdits(gd) { return !!gd._fullLayout._drawing; } function couldHaveActiveShape(gd) { // for now keep config.editable: true as it was before shape-drawing PR return !gd._context.edits.shapePosition; } function drawOne(gd, index) { // remove the existing shape if there is one. // because indices can change, we need to look in all shape layers gd._fullLayout._paperdiv .selectAll('.shapelayer [data-index="' + index + '"]') .remove(); var o = helpers.makeOptionsAndPlotinfo(gd, index); var options = o.options; var plotinfo = o.plotinfo; // this shape is gone - quit now after deleting it // TODO: use d3 idioms instead of deleting and redrawing every time if(!options._input || options.visible === false) return; if(options.layer !== 'below') { drawShape(gd._fullLayout._shapeUpperLayer); } else if(options.xref === 'paper' || options.yref === 'paper') { drawShape(gd._fullLayout._shapeLowerLayer); } else { if(plotinfo._hadPlotinfo) { var mainPlot = plotinfo.mainplotinfo || plotinfo; drawShape(mainPlot.shapelayer); } else { // Fall back to _shapeLowerLayer in case the requested subplot doesn't exist. // This can happen if you reference the shape to an x / y axis combination // that doesn't have any data on it (and layer is below) drawShape(gd._fullLayout._shapeLowerLayer); } } function drawShape(shapeLayer) { var d = getPathString(gd, options); var attrs = { 'data-index': index, 'fill-rule': options.fillrule, d: d }; var opacity = options.opacity; var fillColor = options.fillcolor; var lineColor = options.line.width ? options.line.color : 'rgba(0,0,0,0)'; var lineWidth = options.line.width; var lineDash = options.line.dash; if(!lineWidth && options.editable === true) { // ensure invisible border to activate the shape lineWidth = 5; lineDash = 'solid'; } var isOpen = d[d.length - 1] !== 'Z'; var isActiveShape = couldHaveActiveShape(gd) && options.editable && gd._fullLayout._activeShapeIndex === index; if(isActiveShape) { fillColor = isOpen ? 'rgba(0,0,0,0)' : gd._fullLayout.activeshape.fillcolor; opacity = gd._fullLayout.activeshape.opacity; } var path = shapeLayer.append('path') .attr(attrs) .style('opacity', opacity) .call(Color.stroke, lineColor) .call(Color.fill, fillColor) .call(Drawing.dashLine, lineDash, lineWidth); setClipPath(path, gd, options); var editHelpers; if(isActiveShape || gd._context.edits.shapePosition) editHelpers = arrayEditor(gd.layout, 'shapes', options); if(isActiveShape) { path.style({ 'cursor': 'move', }); var dragOptions = { element: path.node(), plotinfo: plotinfo, gd: gd, editHelpers: editHelpers, isActiveShape: true // i.e. to enable controllers }; var polygons = readPaths(d, gd); // display polygons on the screen displayOutlines(polygons, path, dragOptions); } else { if(gd._context.edits.shapePosition) { setupDragElement(gd, path, options, index, shapeLayer, editHelpers); } else if(options.editable === true) { path.style('pointer-events', (isOpen || Color.opacity(fillColor) * opacity <= 0.5) ? 'stroke' : 'all' ); } } path.node().addEventListener('click', function() { return activateShape(gd, path); }); } } function setClipPath(shapePath, gd, shapeOptions) { // note that for layer="below" the clipAxes can be different from the // subplot we're drawing this in. This could cause problems if the shape // spans two subplots. See https://github.com/plotly/plotly.js/issues/1452 // // if axis is 'paper' or an axis with " domain" appended, then there is no // clip axis var clipAxes = (shapeOptions.xref + shapeOptions.yref).replace(/paper/g, '').replace(/[xyz][1-9]* *domain/g, ''); Drawing.setClipUrl( shapePath, clipAxes ? 'clip' + gd._fullLayout._uid + clipAxes : null, gd ); } function setupDragElement(gd, shapePath, shapeOptions, index, shapeLayer, editHelpers) { var MINWIDTH = 10; var MINHEIGHT = 10; var xPixelSized = shapeOptions.xsizemode === 'pixel'; var yPixelSized = shapeOptions.ysizemode === 'pixel'; var isLine = shapeOptions.type === 'line'; var isPath = shapeOptions.type === 'path'; var modifyItem = editHelpers.modifyItem; var x0, y0, x1, y1, xAnchor, yAnchor; var n0, s0, w0, e0, optN, optS, optW, optE; var pathIn; // setup conversion functions var xa = Axes.getFromId(gd, shapeOptions.xref); var xRefType = Axes.getRefType(shapeOptions.xref); var ya = Axes.getFromId(gd, shapeOptions.yref); var yRefType = Axes.getRefType(shapeOptions.yref); var x2p = helpers.getDataToPixel(gd, xa, false, xRefType); var y2p = helpers.getDataToPixel(gd, ya, true, yRefType); var p2x = helpers.getPixelToData(gd, xa, false, xRefType); var p2y = helpers.getPixelToData(gd, ya, true, yRefType); var sensoryElement = obtainSensoryElement(); var dragOptions = { element: sensoryElement.node(), gd: gd, prepFn: startDrag, doneFn: endDrag, clickFn: abortDrag }; var dragMode; dragElement.init(dragOptions); sensoryElement.node().onmousemove = updateDragMode; function obtainSensoryElement() { return isLine ? createLineDragHandles() : shapePath; } function createLineDragHandles() { var minSensoryWidth = 10; var sensoryWidth = Math.max(shapeOptions.line.width, minSensoryWidth); // Helper shapes group // Note that by setting the `data-index` attr, it is ensured that // the helper group is purged in this modules `draw` function var g = shapeLayer.append('g') .attr('data-index', index); // Helper path for moving g.append('path') .attr('d', shapePath.attr('d')) .style({ 'cursor': 'move', 'stroke-width': sensoryWidth, 'stroke-opacity': '0' // ensure not visible }); // Helper circles for resizing var circleStyle = { 'fill-opacity': '0' // ensure not visible }; var circleRadius = Math.max(sensoryWidth / 2, minSensoryWidth); g.append('circle') .attr({ 'data-line-point': 'start-point', 'cx': xPixelSized ? x2p(shapeOptions.xanchor) + shapeOptions.x0 : x2p(shapeOptions.x0), 'cy': yPixelSized ? y2p(shapeOptions.yanchor) - shapeOptions.y0 : y2p(shapeOptions.y0), 'r': circleRadius }) .style(circleStyle) .classed('cursor-grab', true); g.append('circle') .attr({ 'data-line-point': 'end-point', 'cx': xPixelSized ? x2p(shapeOptions.xanchor) + shapeOptions.x1 : x2p(shapeOptions.x1), 'cy': yPixelSized ? y2p(shapeOptions.yanchor) - shapeOptions.y1 : y2p(shapeOptions.y1), 'r': circleRadius }) .style(circleStyle) .classed('cursor-grab', true); return g; } function updateDragMode(evt) { if(shouldSkipEdits(gd)) { dragMode = null; return; } if(isLine) { if(evt.target.tagName === 'path') { dragMode = 'move'; } else { dragMode = evt.target.attributes['data-line-point'].value === 'start-point' ? 'resize-over-start-point' : 'resize-over-end-point'; } } else { // element might not be on screen at time of setup, // so obtain bounding box here var dragBBox = dragOptions.element.getBoundingClientRect(); // choose 'move' or 'resize' // based on initial position of cursor within the drag element var w = dragBBox.right - dragBBox.left; var h = dragBBox.bottom - dragBBox.top; var x = evt.clientX - dragBBox.left; var y = evt.clientY - dragBBox.top; var cursor = (!isPath && w > MINWIDTH && h > MINHEIGHT && !evt.shiftKey) ? dragElement.getCursor(x / w, 1 - y / h) : 'move'; setCursor(shapePath, cursor); // possible values 'move', 'sw', 'w', 'se', 'e', 'ne', 'n', 'nw' and 'w' dragMode = cursor.split('-')[0]; } } function startDrag(evt) { if(shouldSkipEdits(gd)) return; // setup update strings and initial values if(xPixelSized) { xAnchor = x2p(shapeOptions.xanchor); } if(yPixelSized) { yAnchor = y2p(shapeOptions.yanchor); } if(shapeOptions.type === 'path') { pathIn = shapeOptions.path; } else { x0 = xPixelSized ? shapeOptions.x0 : x2p(shapeOptions.x0); y0 = yPixelSized ? shapeOptions.y0 : y2p(shapeOptions.y0); x1 = xPixelSized ? shapeOptions.x1 : x2p(shapeOptions.x1); y1 = yPixelSized ? shapeOptions.y1 : y2p(shapeOptions.y1); } if(x0 < x1) { w0 = x0; optW = 'x0'; e0 = x1; optE = 'x1'; } else { w0 = x1; optW = 'x1'; e0 = x0; optE = 'x0'; } // For fixed size shapes take opposing direction of y-axis into account. // Hint: For data sized shapes this is done by the y2p function. if((!yPixelSized && y0 < y1) || (yPixelSized && y0 > y1)) { n0 = y0; optN = 'y0'; s0 = y1; optS = 'y1'; } else { n0 = y1; optN = 'y1'; s0 = y0; optS = 'y0'; } // setup dragMode and the corresponding handler updateDragMode(evt); renderVisualCues(shapeLayer, shapeOptions); deactivateClipPathTemporarily(shapePath, shapeOptions, gd); dragOptions.moveFn = (dragMode === 'move') ? moveShape : resizeShape; dragOptions.altKey = evt.altKey; } function endDrag() { if(shouldSkipEdits(gd)) return; setCursor(shapePath); removeVisualCues(shapeLayer); // Don't rely on clipPath being activated during re-layout setClipPath(shapePath, gd, shapeOptions); Registry.call('_guiRelayout', gd, editHelpers.getUpdateObj()); } function abortDrag() { if(shouldSkipEdits(gd)) return; removeVisualCues(shapeLayer); } function moveShape(dx, dy) { if(shapeOptions.type === 'path') { var noOp = function(coord) { return coord; }; var moveX = noOp; var moveY = noOp; if(xPixelSized) { modifyItem('xanchor', shapeOptions.xanchor = p2x(xAnchor + dx)); } else { moveX = function moveX(x) { return p2x(x2p(x) + dx); }; if(xa && xa.type === 'date') moveX = helpers.encodeDate(moveX); } if(yPixelSized) { modifyItem('yanchor', shapeOptions.yanchor = p2y(yAnchor + dy)); } else { moveY = function moveY(y) { return p2y(y2p(y) + dy); }; if(ya && ya.type === 'date') moveY = helpers.encodeDate(moveY); } modifyItem('path', shapeOptions.path = movePath(pathIn, moveX, moveY)); } else { if(xPixelSized) { modifyItem('xanchor', shapeOptions.xanchor = p2x(xAnchor + dx)); } else { modifyItem('x0', shapeOptions.x0 = p2x(x0 + dx)); modifyItem('x1', shapeOptions.x1 = p2x(x1 + dx)); } if(yPixelSized) { modifyItem('yanchor', shapeOptions.yanchor = p2y(yAnchor + dy)); } else { modifyItem('y0', shapeOptions.y0 = p2y(y0 + dy)); modifyItem('y1', shapeOptions.y1 = p2y(y1 + dy)); } } shapePath.attr('d', getPathString(gd, shapeOptions)); renderVisualCues(shapeLayer, shapeOptions); } function resizeShape(dx, dy) { if(isPath) { // TODO: implement path resize, don't forget to update dragMode code var noOp = function(coord) { return coord; }; var moveX = noOp; var moveY = noOp; if(xPixelSized) { modifyItem('xanchor', shapeOptions.xanchor = p2x(xAnchor + dx)); } else { moveX = function moveX(x) { return p2x(x2p(x) + dx); }; if(xa && xa.type === 'date') moveX = helpers.encodeDate(moveX); } if(yPixelSized) { modifyItem('yanchor', shapeOptions.yanchor = p2y(yAnchor + dy)); } else { moveY = function moveY(y) { return p2y(y2p(y) + dy); }; if(ya && ya.type === 'date') moveY = helpers.encodeDate(moveY); } modifyItem('path', shapeOptions.path = movePath(pathIn, moveX, moveY)); } else if(isLine) { if(dragMode === 'resize-over-start-point') { var newX0 = x0 + dx; var newY0 = yPixelSized ? y0 - dy : y0 + dy; modifyItem('x0', shapeOptions.x0 = xPixelSized ? newX0 : p2x(newX0)); modifyItem('y0', shapeOptions.y0 = yPixelSized ? newY0 : p2y(newY0)); } else if(dragMode === 'resize-over-end-point') { var newX1 = x1 + dx; var newY1 = yPixelSized ? y1 - dy : y1 + dy; modifyItem('x1', shapeOptions.x1 = xPixelSized ? newX1 : p2x(newX1)); modifyItem('y1', shapeOptions.y1 = yPixelSized ? newY1 : p2y(newY1)); } } else { var has = function(str) { return dragMode.indexOf(str) !== -1; }; var hasN = has('n'); var hasS = has('s'); var hasW = has('w'); var hasE = has('e'); var newN = hasN ? n0 + dy : n0; var newS = hasS ? s0 + dy : s0; var newW = hasW ? w0 + dx : w0; var newE = hasE ? e0 + dx : e0; if(yPixelSized) { // Do things in opposing direction for y-axis. // Hint: for data-sized shapes the reversal of axis direction is done in p2y. if(hasN) newN = n0 - dy; if(hasS) newS = s0 - dy; } // Update shape eventually. Again, be aware of the // opposing direction of the y-axis of fixed size shapes. if( (!yPixelSized && newS - newN > MINHEIGHT) || (yPixelSized && newN - newS > MINHEIGHT) ) { modifyItem(optN, shapeOptions[optN] = yPixelSized ? newN : p2y(newN)); modifyItem(optS, shapeOptions[optS] = yPixelSized ? newS : p2y(newS)); } if(newE - newW > MINWIDTH) { modifyItem(optW, shapeOptions[optW] = xPixelSized ? newW : p2x(newW)); modifyItem(optE, shapeOptions[optE] = xPixelSized ? newE : p2x(newE)); } } shapePath.attr('d', getPathString(gd, shapeOptions)); renderVisualCues(shapeLayer, shapeOptions); } function renderVisualCues(shapeLayer, shapeOptions) { if(xPixelSized || yPixelSized) { renderAnchor(); } function renderAnchor() { var isNotPath = shapeOptions.type !== 'path'; // d3 join with dummy data to satisfy d3 data-binding var visualCues = shapeLayer.selectAll('.visual-cue').data([0]); // Enter var strokeWidth = 1; visualCues.enter() .append('path') .attr({ 'fill': '#fff', 'fill-rule': 'evenodd', 'stroke': '#000', 'stroke-width': strokeWidth }) .classed('visual-cue', true); // Update var posX = x2p( xPixelSized ? shapeOptions.xanchor : Lib.midRange( isNotPath ? [shapeOptions.x0, shapeOptions.x1] : helpers.extractPathCoords(shapeOptions.path, constants.paramIsX)) ); var posY = y2p( yPixelSized ? shapeOptions.yanchor : Lib.midRange( isNotPath ? [shapeOptions.y0, shapeOptions.y1] : helpers.extractPathCoords(shapeOptions.path, constants.paramIsY)) ); posX = helpers.roundPositionForSharpStrokeRendering(posX, strokeWidth); posY = helpers.roundPositionForSharpStrokeRendering(posY, strokeWidth); if(xPixelSized && yPixelSized) { var crossPath = 'M' + (posX - 1 - strokeWidth) + ',' + (posY - 1 - strokeWidth) + 'h-8v2h8 v8h2v-8 h8v-2h-8 v-8h-2 Z'; visualCues.attr('d', crossPath); } else if(xPixelSized) { var vBarPath = 'M' + (posX - 1 - strokeWidth) + ',' + (posY - 9 - strokeWidth) + 'v18 h2 v-18 Z'; visualCues.attr('d', vBarPath); } else { var hBarPath = 'M' + (posX - 9 - strokeWidth) + ',' + (posY - 1 - strokeWidth) + 'h18 v2 h-18 Z'; visualCues.attr('d', hBarPath); } } } function removeVisualCues(shapeLayer) { shapeLayer.selectAll('.visual-cue').remove(); } function deactivateClipPathTemporarily(shapePath, shapeOptions, gd) { var xref = shapeOptions.xref; var yref = shapeOptions.yref; var xa = Axes.getFromId(gd, xref); var ya = Axes.getFromId(gd, yref); var clipAxes = ''; if(xref !== 'paper' && !xa.autorange) clipAxes += xref; if(yref !== 'paper' && !ya.autorange) clipAxes += yref; Drawing.setClipUrl( shapePath, clipAxes ? 'clip' + gd._fullLayout._uid + clipAxes : null, gd ); } } function getPathString(gd, options) { var type = options.type; var xRefType = Axes.getRefType(options.xref); var yRefType = Axes.getRefType(options.yref); var xa = Axes.getFromId(gd, options.xref); var ya = Axes.getFromId(gd, options.yref); var gs = gd._fullLayout._size; var x2r, x2p, y2r, y2p; var x0, x1, y0, y1; if(xa) { if(xRefType === 'domain') { x2p = function(v) { return xa._offset + xa._length * v; }; } else { x2r = helpers.shapePositionToRange(xa); x2p = function(v) { return xa._offset + xa.r2p(x2r(v, true)); }; } } else { x2p = function(v) { return gs.l + gs.w * v; }; } if(ya) { if(yRefType === 'domain') { y2p = function(v) { return ya._offset + ya._length * (1 - v); }; } else { y2r = helpers.shapePositionToRange(ya); y2p = function(v) { return ya._offset + ya.r2p(y2r(v, true)); }; } } else { y2p = function(v) { return gs.t + gs.h * (1 - v); }; } if(type === 'path') { if(xa && xa.type === 'date') x2p = helpers.decodeDate(x2p); if(ya && ya.type === 'date') y2p = helpers.decodeDate(y2p); return convertPath(options, x2p, y2p); } if(options.xsizemode === 'pixel') { var xAnchorPos = x2p(options.xanchor); x0 = xAnchorPos + options.x0; x1 = xAnchorPos + options.x1; } else { x0 = x2p(options.x0); x1 = x2p(options.x1); } if(options.ysizemode === 'pixel') { var yAnchorPos = y2p(options.yanchor); y0 = yAnchorPos - options.y0; y1 = yAnchorPos - options.y1; } else { y0 = y2p(options.y0); y1 = y2p(options.y1); } if(type === 'line') return 'M' + x0 + ',' + y0 + 'L' + x1 + ',' + y1; if(type === 'rect') return 'M' + x0 + ',' + y0 + 'H' + x1 + 'V' + y1 + 'H' + x0 + 'Z'; // circle var cx = (x0 + x1) / 2; var cy = (y0 + y1) / 2; var rx = Math.abs(cx - x0); var ry = Math.abs(cy - y0); var rArc = 'A' + rx + ',' + ry; var rightPt = (cx + rx) + ',' + cy; var topPt = cx + ',' + (cy - ry); return 'M' + rightPt + rArc + ' 0 1,1 ' + topPt + rArc + ' 0 0,1 ' + rightPt + 'Z'; } function convertPath(options, x2p, y2p) { var pathIn = options.path; var xSizemode = options.xsizemode; var ySizemode = options.ysizemode; var xAnchor = options.xanchor; var yAnchor = options.yanchor; return pathIn.replace(constants.segmentRE, function(segment) { var paramNumber = 0; var segmentType = segment.charAt(0); var xParams = constants.paramIsX[segmentType]; var yParams = constants.paramIsY[segmentType]; var nParams = constants.numParams[segmentType]; var paramString = segment.substr(1).replace(constants.paramRE, function(param) { if(xParams[paramNumber]) { if(xSizemode === 'pixel') param = x2p(xAnchor) + Number(param); else param = x2p(param); } else if(yParams[paramNumber]) { if(ySizemode === 'pixel') param = y2p(yAnchor) - Number(param); else param = y2p(param); } paramNumber++; if(paramNumber > nParams) param = 'X'; return param; }); if(paramNumber > nParams) { paramString = paramString.replace(/[\s,]*X.*/, ''); Lib.log('Ignoring extra params in segment ' + segment); } return segmentType + paramString; }); } function movePath(pathIn, moveX, moveY) { return pathIn.replace(constants.segmentRE, function(segment) { var paramNumber = 0; var segmentType = segment.charAt(0); var xParams = constants.paramIsX[segmentType]; var yParams = constants.paramIsY[segmentType]; var nParams = constants.numParams[segmentType]; var paramString = segment.substr(1).replace(constants.paramRE, function(param) { if(paramNumber >= nParams) return param; if(xParams[paramNumber]) param = moveX(param); else if(yParams[paramNumber]) param = moveY(param); paramNumber++; return param; }); return segmentType + paramString; }); } function activateShape(gd, path) { if(!couldHaveActiveShape(gd)) return; var element = path.node(); var id = +element.getAttribute('data-index'); if(id >= 0) { // deactivate if already active if(id === gd._fullLayout._activeShapeIndex) { deactivateShape(gd); return; } gd._fullLayout._activeShapeIndex = id; gd._fullLayout._deactivateShape = deactivateShape; draw(gd); } } function deactivateShape(gd) { if(!couldHaveActiveShape(gd)) return; var id = gd._fullLayout._activeShapeIndex; if(id >= 0) { clearOutlineControllers(gd); delete gd._fullLayout._activeShapeIndex; draw(gd); } } function eraseActiveShape(gd) { if(!couldHaveActiveShape(gd)) return; clearOutlineControllers(gd); var id = gd._fullLayout._activeShapeIndex; var shapes = (gd.layout || {}).shapes || []; if(id < shapes.length) { var newShapes = []; for(var q = 0; q < shapes.length; q++) { if(q !== id) { newShapes.push(shapes[q]); } } delete gd._fullLayout._activeShapeIndex; Registry.call('_guiRelayout', gd, { shapes: newShapes }); } } },{"../../lib":287,"../../lib/setcursor":307,"../../plot_api/plot_template":323,"../../plots/cartesian/axes":334,"../../plots/cartesian/handle_outline":345,"../../registry":378,"../color":157,"../dragelement":176,"../drawing":179,"./constants":239,"./draw_newshape/display_outlines":245,"./draw_newshape/helpers":246,"./helpers":248}],242:[function(_dereq_,module,exports){ 'use strict'; var dash = _dereq_('../../drawing/attributes').dash; var extendFlat = _dereq_('../../../lib/extend').extendFlat; module.exports = { newshape: { line: { color: { valType: 'color', editType: 'none', }, width: { valType: 'number', min: 0, dflt: 4, editType: 'none', }, dash: extendFlat({}, dash, { dflt: 'solid', editType: 'none' }), editType: 'none' }, fillcolor: { valType: 'color', dflt: 'rgba(0,0,0,0)', editType: 'none', }, fillrule: { valType: 'enumerated', values: ['evenodd', 'nonzero'], dflt: 'evenodd', editType: 'none', }, opacity: { valType: 'number', min: 0, max: 1, dflt: 1, editType: 'none', }, layer: { valType: 'enumerated', values: ['below', 'above'], dflt: 'above', editType: 'none', }, drawdirection: { valType: 'enumerated', values: ['ortho', 'horizontal', 'vertical', 'diagonal'], dflt: 'diagonal', editType: 'none', }, editType: 'none' }, activeshape: { fillcolor: { valType: 'color', dflt: 'rgb(255,0,255)', editType: 'none', }, opacity: { valType: 'number', min: 0, max: 1, dflt: 0.5, editType: 'none', }, editType: 'none' } }; },{"../../../lib/extend":281,"../../drawing/attributes":178}],243:[function(_dereq_,module,exports){ 'use strict'; var CIRCLE_SIDES = 32; // should be divisible by 4 module.exports = { CIRCLE_SIDES: CIRCLE_SIDES, i000: 0, i090: CIRCLE_SIDES / 4, i180: CIRCLE_SIDES / 2, i270: CIRCLE_SIDES / 4 * 3, cos45: Math.cos(Math.PI / 4), sin45: Math.sin(Math.PI / 4), SQRT2: Math.sqrt(2) }; },{}],244:[function(_dereq_,module,exports){ 'use strict'; var Color = _dereq_('../../color'); module.exports = function supplyDrawNewShapeDefaults(layoutIn, layoutOut, coerce) { coerce('newshape.drawdirection'); coerce('newshape.layer'); coerce('newshape.fillcolor'); coerce('newshape.fillrule'); coerce('newshape.opacity'); var newshapeLineWidth = coerce('newshape.line.width'); if(newshapeLineWidth) { var bgcolor = (layoutIn || {}).plot_bgcolor || '#FFF'; coerce('newshape.line.color', Color.contrast(bgcolor)); coerce('newshape.line.dash'); } coerce('activeshape.fillcolor'); coerce('activeshape.opacity'); }; },{"../../color":157}],245:[function(_dereq_,module,exports){ 'use strict'; var dragElement = _dereq_('../../dragelement'); var dragHelpers = _dereq_('../../dragelement/helpers'); var drawMode = dragHelpers.drawMode; var Registry = _dereq_('../../../registry'); var constants = _dereq_('./constants'); var i000 = constants.i000; var i090 = constants.i090; var i180 = constants.i180; var i270 = constants.i270; var handleOutline = _dereq_('../../../plots/cartesian/handle_outline'); var clearOutlineControllers = handleOutline.clearOutlineControllers; var helpers = _dereq_('./helpers'); var pointsShapeRectangle = helpers.pointsShapeRectangle; var pointsShapeEllipse = helpers.pointsShapeEllipse; var writePaths = helpers.writePaths; var newShapes = _dereq_('./newshapes'); module.exports = function displayOutlines(polygons, outlines, dragOptions, nCalls) { if(!nCalls) nCalls = 0; var gd = dragOptions.gd; function redraw() { // recursive call displayOutlines(polygons, outlines, dragOptions, nCalls++); if(pointsShapeEllipse(polygons[0])) { update({redrawing: true}); } } function update(opts) { dragOptions.isActiveShape = false; // i.e. to disable controllers var updateObject = newShapes(outlines, dragOptions); if(Object.keys(updateObject).length) { Registry.call((opts || {}).redrawing ? 'relayout' : '_guiRelayout', gd, updateObject); } } var isActiveShape = dragOptions.isActiveShape; var fullLayout = gd._fullLayout; var zoomLayer = fullLayout._zoomlayer; var dragmode = dragOptions.dragmode; var isDrawMode = drawMode(dragmode); if(isDrawMode) gd._fullLayout._drawing = true; else if(gd._fullLayout._activeShapeIndex >= 0) clearOutlineControllers(gd); // make outline outlines.attr('d', writePaths(polygons)); // add controllers var vertexDragOptions; var shapeDragOptions; var indexI; // cell index var indexJ; // vertex or cell-controller index var copyPolygons; if(isActiveShape && !nCalls) { copyPolygons = recordPositions([], polygons); var g = zoomLayer.append('g').attr('class', 'outline-controllers'); addVertexControllers(g); addShapeControllers(); } function startDragVertex(evt) { indexI = +evt.srcElement.getAttribute('data-i'); indexJ = +evt.srcElement.getAttribute('data-j'); vertexDragOptions[indexI][indexJ].moveFn = moveVertexController; } function moveVertexController(dx, dy) { if(!polygons.length) return; var x0 = copyPolygons[indexI][indexJ][1]; var y0 = copyPolygons[indexI][indexJ][2]; var cell = polygons[indexI]; var len = cell.length; if(pointsShapeRectangle(cell)) { for(var q = 0; q < len; q++) { if(q === indexJ) continue; // move other corners of rectangle var pos = cell[q]; if(pos[1] === cell[indexJ][1]) { pos[1] = x0 + dx; } if(pos[2] === cell[indexJ][2]) { pos[2] = y0 + dy; } } // move the corner cell[indexJ][1] = x0 + dx; cell[indexJ][2] = y0 + dy; if(!pointsShapeRectangle(cell)) { // reject result to rectangles with ensure areas for(var j = 0; j < len; j++) { for(var k = 0; k < cell[j].length; k++) { cell[j][k] = copyPolygons[indexI][j][k]; } } } } else { // other polylines cell[indexJ][1] = x0 + dx; cell[indexJ][2] = y0 + dy; } redraw(); } function endDragVertexController() { update(); } function removeVertex() { if(!polygons.length) return; if(!polygons[indexI]) return; if(!polygons[indexI].length) return; var newPolygon = []; for(var j = 0; j < polygons[indexI].length; j++) { if(j !== indexJ) { newPolygon.push( polygons[indexI][j] ); } } if(newPolygon.length > 1 && !( newPolygon.length === 2 && newPolygon[1][0] === 'Z') ) { if(indexJ === 0) { newPolygon[0][0] = 'M'; } polygons[indexI] = newPolygon; redraw(); update(); } } function clickVertexController(numClicks, evt) { if(numClicks === 2) { indexI = +evt.srcElement.getAttribute('data-i'); indexJ = +evt.srcElement.getAttribute('data-j'); var cell = polygons[indexI]; if( !pointsShapeRectangle(cell) && !pointsShapeEllipse(cell) ) { removeVertex(); } } } function addVertexControllers(g) { vertexDragOptions = []; for(var i = 0; i < polygons.length; i++) { var cell = polygons[i]; var onRect = pointsShapeRectangle(cell); var onEllipse = !onRect && pointsShapeEllipse(cell); vertexDragOptions[i] = []; for(var j = 0; j < cell.length; j++) { if(cell[j][0] === 'Z') continue; if(onEllipse && j !== i000 && j !== i090 && j !== i180 && j !== i270 ) { continue; } var x = cell[j][1]; var y = cell[j][2]; var vertex = g.append('circle') .classed('cursor-grab', true) .attr('data-i', i) .attr('data-j', j) .attr('cx', x) .attr('cy', y) .attr('r', 4) .style({ 'mix-blend-mode': 'luminosity', fill: 'black', stroke: 'white', 'stroke-width': 1 }); vertexDragOptions[i][j] = { element: vertex.node(), gd: gd, prepFn: startDragVertex, doneFn: endDragVertexController, clickFn: clickVertexController }; dragElement.init(vertexDragOptions[i][j]); } } } function moveShape(dx, dy) { if(!polygons.length) return; for(var i = 0; i < polygons.length; i++) { for(var j = 0; j < polygons[i].length; j++) { for(var k = 0; k + 2 < polygons[i][j].length; k += 2) { polygons[i][j][k + 1] = copyPolygons[i][j][k + 1] + dx; polygons[i][j][k + 2] = copyPolygons[i][j][k + 2] + dy; } } } } function moveShapeController(dx, dy) { moveShape(dx, dy); redraw(); } function startDragShapeController(evt) { indexI = +evt.srcElement.getAttribute('data-i'); if(!indexI) indexI = 0; // ensure non-existing move button get zero index shapeDragOptions[indexI].moveFn = moveShapeController; } function endDragShapeController() { update(); } function addShapeControllers() { shapeDragOptions = []; if(!polygons.length) return; var i = 0; shapeDragOptions[i] = { element: outlines[0][0], gd: gd, prepFn: startDragShapeController, doneFn: endDragShapeController }; dragElement.init(shapeDragOptions[i]); } }; function recordPositions(polygonsOut, polygonsIn) { for(var i = 0; i < polygonsIn.length; i++) { var cell = polygonsIn[i]; polygonsOut[i] = []; for(var j = 0; j < cell.length; j++) { polygonsOut[i][j] = []; for(var k = 0; k < cell[j].length; k++) { polygonsOut[i][j][k] = cell[j][k]; } } } return polygonsOut; } },{"../../../plots/cartesian/handle_outline":345,"../../../registry":378,"../../dragelement":176,"../../dragelement/helpers":175,"./constants":243,"./helpers":246,"./newshapes":247}],246:[function(_dereq_,module,exports){ 'use strict'; var parseSvgPath = _dereq_('parse-svg-path'); var constants = _dereq_('./constants'); var CIRCLE_SIDES = constants.CIRCLE_SIDES; var SQRT2 = constants.SQRT2; var cartesianHelpers = _dereq_('../../../plots/cartesian/helpers'); var p2r = cartesianHelpers.p2r; var r2p = cartesianHelpers.r2p; var iC = [0, 3, 4, 5, 6, 1, 2]; var iQS = [0, 3, 4, 1, 2]; exports.writePaths = function(polygons) { var nI = polygons.length; if(!nI) return 'M0,0Z'; var str = ''; for(var i = 0; i < nI; i++) { var nJ = polygons[i].length; for(var j = 0; j < nJ; j++) { var w = polygons[i][j][0]; if(w === 'Z') { str += 'Z'; } else { var nK = polygons[i][j].length; for(var k = 0; k < nK; k++) { var realK = k; if(w === 'Q' || w === 'S') { realK = iQS[k]; } else if(w === 'C') { realK = iC[k]; } str += polygons[i][j][realK]; if(k > 0 && k < nK - 1) { str += ','; } } } } } return str; }; exports.readPaths = function(str, gd, plotinfo, isActiveShape) { var cmd = parseSvgPath(str); var polys = []; var n = -1; var newPoly = function() { n++; polys[n] = []; }; var k; var x = 0; var y = 0; var initX; var initY; var recStart = function() { initX = x; initY = y; }; recStart(); for(var i = 0; i < cmd.length; i++) { var newPos = []; var x1, x2, y1, y2; // i.e. extra params for curves var c = cmd[i][0]; var w = c; switch(c) { case 'M': newPoly(); x = +cmd[i][1]; y = +cmd[i][2]; newPos.push([w, x, y]); recStart(); break; case 'Q': case 'S': x1 = +cmd[i][1]; y1 = +cmd[i][2]; x = +cmd[i][3]; y = +cmd[i][4]; newPos.push([w, x, y, x1, y1]); // -> iQS order break; case 'C': x1 = +cmd[i][1]; y1 = +cmd[i][2]; x2 = +cmd[i][3]; y2 = +cmd[i][4]; x = +cmd[i][5]; y = +cmd[i][6]; newPos.push([w, x, y, x1, y1, x2, y2]); // -> iC order break; case 'T': case 'L': x = +cmd[i][1]; y = +cmd[i][2]; newPos.push([w, x, y]); break; case 'H': w = 'L'; // convert to line (for now) x = +cmd[i][1]; newPos.push([w, x, y]); break; case 'V': w = 'L'; // convert to line (for now) y = +cmd[i][1]; newPos.push([w, x, y]); break; case 'A': w = 'L'; // convert to line to handle circle var rx = +cmd[i][1]; var ry = +cmd[i][2]; if(!+cmd[i][4]) { rx = -rx; ry = -ry; } var cenX = x - rx; var cenY = y; for(k = 1; k <= CIRCLE_SIDES / 2; k++) { var t = 2 * Math.PI * k / CIRCLE_SIDES; newPos.push([ w, cenX + rx * Math.cos(t), cenY + ry * Math.sin(t) ]); } break; case 'Z': if(x !== initX || y !== initY) { x = initX; y = initY; newPos.push([w, x, y]); } break; } var domain = (plotinfo || {}).domain; var size = gd._fullLayout._size; var xPixelSized = plotinfo && plotinfo.xsizemode === 'pixel'; var yPixelSized = plotinfo && plotinfo.ysizemode === 'pixel'; var noOffset = isActiveShape === false; for(var j = 0; j < newPos.length; j++) { for(k = 0; k + 2 < 7; k += 2) { var _x = newPos[j][k + 1]; var _y = newPos[j][k + 2]; if(_x === undefined || _y === undefined) continue; // keep track of end point for Z x = _x; y = _y; if(plotinfo) { if(plotinfo.xaxis && plotinfo.xaxis.p2r) { if(noOffset) _x -= plotinfo.xaxis._offset; if(xPixelSized) { _x = r2p(plotinfo.xaxis, plotinfo.xanchor) + _x; } else { _x = p2r(plotinfo.xaxis, _x); } } else { if(noOffset) _x -= size.l; if(domain) _x = domain.x[0] + _x / size.w; else _x = _x / size.w; } if(plotinfo.yaxis && plotinfo.yaxis.p2r) { if(noOffset) _y -= plotinfo.yaxis._offset; if(yPixelSized) { _y = r2p(plotinfo.yaxis, plotinfo.yanchor) - _y; } else { _y = p2r(plotinfo.yaxis, _y); } } else { if(noOffset) _y -= size.t; if(domain) _y = domain.y[1] - _y / size.h; else _y = 1 - _y / size.h; } } newPos[j][k + 1] = _x; newPos[j][k + 2] = _y; } polys[n].push( newPos[j].slice() ); } } return polys; }; function almostEq(a, b) { return Math.abs(a - b) <= 1e-6; } function dist(a, b) { var dx = b[1] - a[1]; var dy = b[2] - a[2]; return Math.sqrt( dx * dx + dy * dy ); } exports.pointsShapeRectangle = function(cell) { var len = cell.length; if(len !== 5) return false; for(var j = 1; j < 3; j++) { var e01 = cell[0][j] - cell[1][j]; var e32 = cell[3][j] - cell[2][j]; if(!almostEq(e01, e32)) return false; var e03 = cell[0][j] - cell[3][j]; var e12 = cell[1][j] - cell[2][j]; if(!almostEq(e03, e12)) return false; } // N.B. rotated rectangles are not valid rects since rotation is not supported in shapes for now. if( !almostEq(cell[0][1], cell[1][1]) && !almostEq(cell[0][1], cell[3][1]) ) return false; // reject cases with zero area return !!( dist(cell[0], cell[1]) * dist(cell[0], cell[3]) ); }; exports.pointsShapeEllipse = function(cell) { var len = cell.length; if(len !== CIRCLE_SIDES + 1) return false; // opposite diagonals should be the same len = CIRCLE_SIDES; for(var i = 0; i < len; i++) { var k = (len * 2 - i) % len; var k2 = (len / 2 + k) % len; var i2 = (len / 2 + i) % len; if(!almostEq( dist(cell[i], cell[i2]), dist(cell[k], cell[k2]) )) return false; } return true; }; exports.handleEllipse = function(isEllipse, start, end) { if(!isEllipse) return [start, end]; // i.e. case of line var pos = exports.ellipseOver({ x0: start[0], y0: start[1], x1: end[0], y1: end[1] }); var cx = (pos.x1 + pos.x0) / 2; var cy = (pos.y1 + pos.y0) / 2; var rx = (pos.x1 - pos.x0) / 2; var ry = (pos.y1 - pos.y0) / 2; // make a circle when one dimension is zero if(!rx) rx = ry = ry / SQRT2; if(!ry) ry = rx = rx / SQRT2; var cell = []; for(var i = 0; i < CIRCLE_SIDES; i++) { var t = i * 2 * Math.PI / CIRCLE_SIDES; cell.push([ cx + rx * Math.cos(t), cy + ry * Math.sin(t), ]); } return cell; }; exports.ellipseOver = function(pos) { var x0 = pos.x0; var y0 = pos.y0; var x1 = pos.x1; var y1 = pos.y1; var dx = x1 - x0; var dy = y1 - y0; x0 -= dx; y0 -= dy; var cx = (x0 + x1) / 2; var cy = (y0 + y1) / 2; var scale = SQRT2; dx *= scale; dy *= scale; return { x0: cx - dx, y0: cy - dy, x1: cx + dx, y1: cy + dy }; }; },{"../../../plots/cartesian/helpers":346,"./constants":243,"parse-svg-path":74}],247:[function(_dereq_,module,exports){ 'use strict'; var dragHelpers = _dereq_('../../dragelement/helpers'); var drawMode = dragHelpers.drawMode; var openMode = dragHelpers.openMode; var constants = _dereq_('./constants'); var i000 = constants.i000; var i090 = constants.i090; var i180 = constants.i180; var i270 = constants.i270; var cos45 = constants.cos45; var sin45 = constants.sin45; var cartesianHelpers = _dereq_('../../../plots/cartesian/helpers'); var p2r = cartesianHelpers.p2r; var r2p = cartesianHelpers.r2p; var handleOutline = _dereq_('../../../plots/cartesian/handle_outline'); var clearSelect = handleOutline.clearSelect; var helpers = _dereq_('./helpers'); var readPaths = helpers.readPaths; var writePaths = helpers.writePaths; var ellipseOver = helpers.ellipseOver; module.exports = function newShapes(outlines, dragOptions) { if(!outlines.length) return; var e = outlines[0][0]; // pick first if(!e) return; var d = e.getAttribute('d'); var gd = dragOptions.gd; var drwStyle = gd._fullLayout.newshape; var plotinfo = dragOptions.plotinfo; var xaxis = plotinfo.xaxis; var yaxis = plotinfo.yaxis; var xPaper = !!plotinfo.domain || !plotinfo.xaxis; var yPaper = !!plotinfo.domain || !plotinfo.yaxis; var isActiveShape = dragOptions.isActiveShape; var dragmode = dragOptions.dragmode; var shapes = (gd.layout || {}).shapes || []; if(!drawMode(dragmode) && isActiveShape !== undefined) { var id = gd._fullLayout._activeShapeIndex; if(id < shapes.length) { switch(gd._fullLayout.shapes[id].type) { case 'rect': dragmode = 'drawrect'; break; case 'circle': dragmode = 'drawcircle'; break; case 'line': dragmode = 'drawline'; break; case 'path': var path = shapes[id].path || ''; if(path[path.length - 1] === 'Z') { dragmode = 'drawclosedpath'; } else { dragmode = 'drawopenpath'; } break; } } } var isOpenMode = openMode(dragmode); var polygons = readPaths(d, gd, plotinfo, isActiveShape); var newShape = { editable: true, xref: xPaper ? 'paper' : xaxis._id, yref: yPaper ? 'paper' : yaxis._id, layer: drwStyle.layer, opacity: drwStyle.opacity, line: { color: drwStyle.line.color, width: drwStyle.line.width, dash: drwStyle.line.dash } }; if(!isOpenMode) { newShape.fillcolor = drwStyle.fillcolor; newShape.fillrule = drwStyle.fillrule; } var cell; // line, rect and circle can be in one cell // only define cell if there is single cell if(polygons.length === 1) cell = polygons[0]; if( cell && dragmode === 'drawrect' ) { newShape.type = 'rect'; newShape.x0 = cell[0][1]; newShape.y0 = cell[0][2]; newShape.x1 = cell[2][1]; newShape.y1 = cell[2][2]; } else if( cell && dragmode === 'drawline' ) { newShape.type = 'line'; newShape.x0 = cell[0][1]; newShape.y0 = cell[0][2]; newShape.x1 = cell[1][1]; newShape.y1 = cell[1][2]; } else if( cell && dragmode === 'drawcircle' ) { newShape.type = 'circle'; // an ellipse! var xA = cell[i000][1]; var xB = cell[i090][1]; var xC = cell[i180][1]; var xD = cell[i270][1]; var yA = cell[i000][2]; var yB = cell[i090][2]; var yC = cell[i180][2]; var yD = cell[i270][2]; var xDateOrLog = plotinfo.xaxis && ( plotinfo.xaxis.type === 'date' || plotinfo.xaxis.type === 'log' ); var yDateOrLog = plotinfo.yaxis && ( plotinfo.yaxis.type === 'date' || plotinfo.yaxis.type === 'log' ); if(xDateOrLog) { xA = r2p(plotinfo.xaxis, xA); xB = r2p(plotinfo.xaxis, xB); xC = r2p(plotinfo.xaxis, xC); xD = r2p(plotinfo.xaxis, xD); } if(yDateOrLog) { yA = r2p(plotinfo.yaxis, yA); yB = r2p(plotinfo.yaxis, yB); yC = r2p(plotinfo.yaxis, yC); yD = r2p(plotinfo.yaxis, yD); } var x0 = (xB + xD) / 2; var y0 = (yA + yC) / 2; var rx = (xD - xB + xC - xA) / 2; var ry = (yD - yB + yC - yA) / 2; var pos = ellipseOver({ x0: x0, y0: y0, x1: x0 + rx * cos45, y1: y0 + ry * sin45 }); if(xDateOrLog) { pos.x0 = p2r(plotinfo.xaxis, pos.x0); pos.x1 = p2r(plotinfo.xaxis, pos.x1); } if(yDateOrLog) { pos.y0 = p2r(plotinfo.yaxis, pos.y0); pos.y1 = p2r(plotinfo.yaxis, pos.y1); } newShape.x0 = pos.x0; newShape.y0 = pos.y0; newShape.x1 = pos.x1; newShape.y1 = pos.y1; } else { newShape.type = 'path'; if(xaxis && yaxis) fixDatesForPaths(polygons, xaxis, yaxis); newShape.path = writePaths(polygons); cell = null; } clearSelect(gd); var editHelpers = dragOptions.editHelpers; var modifyItem = (editHelpers || {}).modifyItem; var allShapes = []; for(var q = 0; q < shapes.length; q++) { var beforeEdit = gd._fullLayout.shapes[q]; allShapes[q] = beforeEdit._input; if( isActiveShape !== undefined && q === gd._fullLayout._activeShapeIndex ) { var afterEdit = newShape; switch(beforeEdit.type) { case 'line': case 'rect': case 'circle': modifyItem('x0', afterEdit.x0); modifyItem('x1', afterEdit.x1); modifyItem('y0', afterEdit.y0); modifyItem('y1', afterEdit.y1); break; case 'path': modifyItem('path', afterEdit.path); break; } } } if(isActiveShape === undefined) { allShapes.push(newShape); // add new shape return allShapes; } return editHelpers ? editHelpers.getUpdateObj() : {}; }; function fixDatesForPaths(polygons, xaxis, yaxis) { var xIsDate = xaxis.type === 'date'; var yIsDate = yaxis.type === 'date'; if(!xIsDate && !yIsDate) return polygons; for(var i = 0; i < polygons.length; i++) { for(var j = 0; j < polygons[i].length; j++) { for(var k = 0; k + 2 < polygons[i][j].length; k += 2) { if(xIsDate) polygons[i][j][k + 1] = polygons[i][j][k + 1].replace(' ', '_'); if(yIsDate) polygons[i][j][k + 2] = polygons[i][j][k + 2].replace(' ', '_'); } } } return polygons; } },{"../../../plots/cartesian/handle_outline":345,"../../../plots/cartesian/helpers":346,"../../dragelement/helpers":175,"./constants":243,"./helpers":246}],248:[function(_dereq_,module,exports){ 'use strict'; var constants = _dereq_('./constants'); var Lib = _dereq_('../../lib'); // special position conversion functions... category axis positions can't be // specified by their data values, because they don't make a continuous mapping. // so these have to be specified in terms of the category serial numbers, // but can take fractional values. Other axis types we specify position based on // the actual data values. // TODO: in V3.0 (when log axis ranges are in data units) range and shape position // will be identical, so rangeToShapePosition and shapePositionToRange can be // removed entirely. exports.rangeToShapePosition = function(ax) { return (ax.type === 'log') ? ax.r2d : function(v) { return v; }; }; exports.shapePositionToRange = function(ax) { return (ax.type === 'log') ? ax.d2r : function(v) { return v; }; }; exports.decodeDate = function(convertToPx) { return function(v) { if(v.replace) v = v.replace('_', ' '); return convertToPx(v); }; }; exports.encodeDate = function(convertToDate) { return function(v) { return convertToDate(v).replace(' ', '_'); }; }; exports.extractPathCoords = function(path, paramsToUse) { var extractedCoordinates = []; var segments = path.match(constants.segmentRE); segments.forEach(function(segment) { var relevantParamIdx = paramsToUse[segment.charAt(0)].drawn; if(relevantParamIdx === undefined) return; var params = segment.substr(1).match(constants.paramRE); if(!params || params.length < relevantParamIdx) return; extractedCoordinates.push(Lib.cleanNumber(params[relevantParamIdx])); }); return extractedCoordinates; }; exports.getDataToPixel = function(gd, axis, isVertical, refType) { var gs = gd._fullLayout._size; var dataToPixel; if(axis) { if(refType === 'domain') { dataToPixel = function(v) { return axis._length * (isVertical ? (1 - v) : v) + axis._offset; }; } else { var d2r = exports.shapePositionToRange(axis); dataToPixel = function(v) { return axis._offset + axis.r2p(d2r(v, true)); }; if(axis.type === 'date') dataToPixel = exports.decodeDate(dataToPixel); } } else if(isVertical) { dataToPixel = function(v) { return gs.t + gs.h * (1 - v); }; } else { dataToPixel = function(v) { return gs.l + gs.w * v; }; } return dataToPixel; }; exports.getPixelToData = function(gd, axis, isVertical, opt) { var gs = gd._fullLayout._size; var pixelToData; if(axis) { if(opt === 'domain') { pixelToData = function(p) { var q = (p - axis._offset) / axis._length; return isVertical ? 1 - q : q; }; } else { var r2d = exports.rangeToShapePosition(axis); pixelToData = function(p) { return r2d(axis.p2r(p - axis._offset)); }; } } else if(isVertical) { pixelToData = function(p) { return 1 - (p - gs.t) / gs.h; }; } else { pixelToData = function(p) { return (p - gs.l) / gs.w; }; } return pixelToData; }; /** * Based on the given stroke width, rounds the passed * position value to represent either a full or half pixel. * * In case of an odd stroke width (e.g. 1), this measure ensures * that a stroke positioned at the returned position isn't rendered * blurry due to anti-aliasing. * * In case of an even stroke width (e.g. 2), this measure ensures * that the position value is transformed to a full pixel value * so that anti-aliasing doesn't take effect either. * * @param {number} pos The raw position value to be transformed * @param {number} strokeWidth The stroke width * @returns {number} either an integer or a .5 decimal number */ exports.roundPositionForSharpStrokeRendering = function(pos, strokeWidth) { var strokeWidthIsOdd = Math.round(strokeWidth % 2) === 1; var posValAsInt = Math.round(pos); return strokeWidthIsOdd ? posValAsInt + 0.5 : posValAsInt; }; exports.makeOptionsAndPlotinfo = function(gd, index) { var options = gd._fullLayout.shapes[index] || {}; var plotinfo = gd._fullLayout._plots[options.xref + options.yref]; var hasPlotinfo = !!plotinfo; if(hasPlotinfo) { plotinfo._hadPlotinfo = true; } else { plotinfo = {}; if(options.xref && options.xref !== 'paper') plotinfo.xaxis = gd._fullLayout[options.xref + 'axis']; if(options.yref && options.yref !== 'paper') plotinfo.yaxis = gd._fullLayout[options.yref + 'axis']; } plotinfo.xsizemode = options.xsizemode; plotinfo.ysizemode = options.ysizemode; plotinfo.xanchor = options.xanchor; plotinfo.yanchor = options.yanchor; return { options: options, plotinfo: plotinfo }; }; },{"../../lib":287,"./constants":239}],249:[function(_dereq_,module,exports){ 'use strict'; var drawModule = _dereq_('./draw'); module.exports = { moduleType: 'component', name: 'shapes', layoutAttributes: _dereq_('./attributes'), supplyLayoutDefaults: _dereq_('./defaults'), supplyDrawNewShapeDefaults: _dereq_('./draw_newshape/defaults'), includeBasePlot: _dereq_('../../plots/cartesian/include_components')('shapes'), calcAutorange: _dereq_('./calc_autorange'), draw: drawModule.draw, drawOne: drawModule.drawOne }; },{"../../plots/cartesian/include_components":347,"./attributes":237,"./calc_autorange":238,"./defaults":240,"./draw":241,"./draw_newshape/defaults":244}],250:[function(_dereq_,module,exports){ 'use strict'; var fontAttrs = _dereq_('../../plots/font_attributes'); var padAttrs = _dereq_('../../plots/pad_attributes'); var extendDeepAll = _dereq_('../../lib/extend').extendDeepAll; var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll; var animationAttrs = _dereq_('../../plots/animation_attributes'); var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray; var constants = _dereq_('./constants'); var stepsAttrs = templatedArray('step', { visible: { valType: 'boolean', dflt: true, }, method: { valType: 'enumerated', values: ['restyle', 'relayout', 'animate', 'update', 'skip'], dflt: 'restyle', }, args: { valType: 'info_array', freeLength: true, items: [ { valType: 'any' }, { valType: 'any' }, { valType: 'any' } ], }, label: { valType: 'string', }, value: { valType: 'string', }, execute: { valType: 'boolean', dflt: true, } }); module.exports = overrideAll(templatedArray('slider', { visible: { valType: 'boolean', dflt: true, }, active: { valType: 'number', min: 0, dflt: 0, }, steps: stepsAttrs, lenmode: { valType: 'enumerated', values: ['fraction', 'pixels'], dflt: 'fraction', }, len: { valType: 'number', min: 0, dflt: 1, }, x: { valType: 'number', min: -2, max: 3, dflt: 0, }, pad: extendDeepAll(padAttrs({editType: 'arraydraw'}), { }, {t: {dflt: 20}}), xanchor: { valType: 'enumerated', values: ['auto', 'left', 'center', 'right'], dflt: 'left', }, y: { valType: 'number', min: -2, max: 3, dflt: 0, }, yanchor: { valType: 'enumerated', values: ['auto', 'top', 'middle', 'bottom'], dflt: 'top', }, transition: { duration: { valType: 'number', min: 0, dflt: 150, }, easing: { valType: 'enumerated', values: animationAttrs.transition.easing.values, dflt: 'cubic-in-out', } }, currentvalue: { visible: { valType: 'boolean', dflt: true, }, xanchor: { valType: 'enumerated', values: ['left', 'center', 'right'], dflt: 'left', }, offset: { valType: 'number', dflt: 10, }, prefix: { valType: 'string', }, suffix: { valType: 'string', }, font: fontAttrs({ }) }, font: fontAttrs({ }), activebgcolor: { valType: 'color', dflt: constants.gripBgActiveColor, }, bgcolor: { valType: 'color', dflt: constants.railBgColor, }, bordercolor: { valType: 'color', dflt: constants.railBorderColor, }, borderwidth: { valType: 'number', min: 0, dflt: constants.railBorderWidth, }, ticklen: { valType: 'number', min: 0, dflt: constants.tickLength, }, tickcolor: { valType: 'color', dflt: constants.tickColor, }, tickwidth: { valType: 'number', min: 0, dflt: 1, }, minorticklen: { valType: 'number', min: 0, dflt: constants.minorTickLength, } }), 'arraydraw', 'from-root'); },{"../../lib/extend":281,"../../plot_api/edit_types":316,"../../plot_api/plot_template":323,"../../plots/animation_attributes":328,"../../plots/font_attributes":365,"../../plots/pad_attributes":370,"./constants":251}],251:[function(_dereq_,module,exports){ 'use strict'; module.exports = { // layout attribute name name: 'sliders', // class names containerClassName: 'slider-container', groupClassName: 'slider-group', inputAreaClass: 'slider-input-area', railRectClass: 'slider-rail-rect', railTouchRectClass: 'slider-rail-touch-rect', gripRectClass: 'slider-grip-rect', tickRectClass: 'slider-tick-rect', inputProxyClass: 'slider-input-proxy', labelsClass: 'slider-labels', labelGroupClass: 'slider-label-group', labelClass: 'slider-label', currentValueClass: 'slider-current-value', railHeight: 5, // DOM attribute name in button group keeping track // of active update menu menuIndexAttrName: 'slider-active-index', // id root pass to Plots.autoMargin autoMarginIdRoot: 'slider-', // min item width / height minWidth: 30, minHeight: 30, // padding around item text textPadX: 40, // arrow offset off right edge arrowOffsetX: 4, railRadius: 2, railWidth: 5, railBorder: 4, railBorderWidth: 1, railBorderColor: '#bec8d9', railBgColor: '#f8fafc', // The distance of the rail from the edge of the touchable area // Slightly less than the step inset because of the curved edges // of the rail railInset: 8, // The distance from the extremal tick marks to the edge of the // touchable area. This is basically the same as the grip radius, // but for other styles it wouldn't really need to be. stepInset: 10, gripRadius: 10, gripWidth: 20, gripHeight: 20, gripBorder: 20, gripBorderWidth: 1, gripBorderColor: '#bec8d9', gripBgColor: '#f6f8fa', gripBgActiveColor: '#dbdde0', labelPadding: 8, labelOffset: 0, tickWidth: 1, tickColor: '#333', tickOffset: 25, tickLength: 7, minorTickOffset: 25, minorTickColor: '#333', minorTickLength: 4, // Extra space below the current value label: currentValuePadding: 8, currentValueInset: 0, }; },{}],252:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults'); var attributes = _dereq_('./attributes'); var constants = _dereq_('./constants'); var name = constants.name; var stepAttrs = attributes.steps; module.exports = function slidersDefaults(layoutIn, layoutOut) { handleArrayContainerDefaults(layoutIn, layoutOut, { name: name, handleItemDefaults: sliderDefaults }); }; function sliderDefaults(sliderIn, sliderOut, layoutOut) { function coerce(attr, dflt) { return Lib.coerce(sliderIn, sliderOut, attributes, attr, dflt); } var steps = handleArrayContainerDefaults(sliderIn, sliderOut, { name: 'steps', handleItemDefaults: stepDefaults }); var stepCount = 0; for(var i = 0; i < steps.length; i++) { if(steps[i].visible) stepCount++; } var visible; // If it has fewer than two options, it's not really a slider if(stepCount < 2) visible = sliderOut.visible = false; else visible = coerce('visible'); if(!visible) return; sliderOut._stepCount = stepCount; var visSteps = sliderOut._visibleSteps = Lib.filterVisible(steps); var active = coerce('active'); if(!(steps[active] || {}).visible) sliderOut.active = visSteps[0]._index; coerce('x'); coerce('y'); Lib.noneOrAll(sliderIn, sliderOut, ['x', 'y']); coerce('xanchor'); coerce('yanchor'); coerce('len'); coerce('lenmode'); coerce('pad.t'); coerce('pad.r'); coerce('pad.b'); coerce('pad.l'); Lib.coerceFont(coerce, 'font', layoutOut.font); var currentValueIsVisible = coerce('currentvalue.visible'); if(currentValueIsVisible) { coerce('currentvalue.xanchor'); coerce('currentvalue.prefix'); coerce('currentvalue.suffix'); coerce('currentvalue.offset'); Lib.coerceFont(coerce, 'currentvalue.font', sliderOut.font); } coerce('transition.duration'); coerce('transition.easing'); coerce('bgcolor'); coerce('activebgcolor'); coerce('bordercolor'); coerce('borderwidth'); coerce('ticklen'); coerce('tickwidth'); coerce('tickcolor'); coerce('minorticklen'); } function stepDefaults(valueIn, valueOut) { function coerce(attr, dflt) { return Lib.coerce(valueIn, valueOut, stepAttrs, attr, dflt); } var visible; if(valueIn.method !== 'skip' && !Array.isArray(valueIn.args)) { visible = valueOut.visible = false; } else visible = coerce('visible'); if(visible) { coerce('method'); coerce('args'); var label = coerce('label', 'step-' + valueOut._index); coerce('value', label); coerce('execute'); } } },{"../../lib":287,"../../plots/array_container_defaults":329,"./attributes":250,"./constants":251}],253:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Plots = _dereq_('../../plots/plots'); var Color = _dereq_('../color'); var Drawing = _dereq_('../drawing'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor; var constants = _dereq_('./constants'); var alignmentConstants = _dereq_('../../constants/alignment'); var LINE_SPACING = alignmentConstants.LINE_SPACING; var FROM_TL = alignmentConstants.FROM_TL; var FROM_BR = alignmentConstants.FROM_BR; module.exports = function draw(gd) { var fullLayout = gd._fullLayout; var sliderData = makeSliderData(fullLayout, gd); // draw a container for *all* sliders: var sliders = fullLayout._infolayer .selectAll('g.' + constants.containerClassName) .data(sliderData.length > 0 ? [0] : []); sliders.enter().append('g') .classed(constants.containerClassName, true) .style('cursor', 'ew-resize'); function clearSlider(sliderOpts) { if(sliderOpts._commandObserver) { sliderOpts._commandObserver.remove(); delete sliderOpts._commandObserver; } // Most components don't need to explicitly remove autoMargin, because // marginPushers does this - but slider updates don't go through // a full replot so we need to explicitly remove it. Plots.autoMargin(gd, autoMarginId(sliderOpts)); } sliders.exit().each(function() { d3.select(this).selectAll('g.' + constants.groupClassName) .each(clearSlider); }) .remove(); // Return early if no menus visible: if(sliderData.length === 0) return; var sliderGroups = sliders.selectAll('g.' + constants.groupClassName) .data(sliderData, keyFunction); sliderGroups.enter().append('g') .classed(constants.groupClassName, true); sliderGroups.exit() .each(clearSlider) .remove(); // Find the dimensions of the sliders: for(var i = 0; i < sliderData.length; i++) { var sliderOpts = sliderData[i]; findDimensions(gd, sliderOpts); } sliderGroups.each(function(sliderOpts) { var gSlider = d3.select(this); computeLabelSteps(sliderOpts); Plots.manageCommandObserver(gd, sliderOpts, sliderOpts._visibleSteps, function(data) { // NB: Same as below. This is *not* always the same as sliderOpts since // if a new set of steps comes in, the reference in this callback would // be invalid. We need to refetch it from the slider group, which is // the join data that creates this slider. So if this slider still exists, // the group should be valid, *to the best of my knowledge.* If not, // we'd have to look it up by d3 data join index/key. var opts = gSlider.data()[0]; if(opts.active === data.index) return; if(opts._dragging) return; setActive(gd, gSlider, opts, data.index, false, true); }); drawSlider(gd, d3.select(this), sliderOpts); }); }; function autoMarginId(sliderOpts) { return constants.autoMarginIdRoot + sliderOpts._index; } // This really only just filters by visibility: function makeSliderData(fullLayout, gd) { var contOpts = fullLayout[constants.name]; var sliderData = []; for(var i = 0; i < contOpts.length; i++) { var item = contOpts[i]; if(!item.visible) continue; item._gd = gd; sliderData.push(item); } return sliderData; } // This is set in the defaults step: function keyFunction(opts) { return opts._index; } // Compute the dimensions (mutates sliderOpts): function findDimensions(gd, sliderOpts) { var sliderLabels = Drawing.tester.selectAll('g.' + constants.labelGroupClass) .data(sliderOpts._visibleSteps); sliderLabels.enter().append('g') .classed(constants.labelGroupClass, true); // loop over fake buttons to find width / height var maxLabelWidth = 0; var labelHeight = 0; sliderLabels.each(function(stepOpts) { var labelGroup = d3.select(this); var text = drawLabel(labelGroup, {step: stepOpts}, sliderOpts); var textNode = text.node(); if(textNode) { var bBox = Drawing.bBox(textNode); labelHeight = Math.max(labelHeight, bBox.height); maxLabelWidth = Math.max(maxLabelWidth, bBox.width); } }); sliderLabels.remove(); var dims = sliderOpts._dims = {}; dims.inputAreaWidth = Math.max( constants.railWidth, constants.gripHeight ); // calculate some overall dimensions - some of these are needed for // calculating the currentValue dimensions var graphSize = gd._fullLayout._size; dims.lx = graphSize.l + graphSize.w * sliderOpts.x; dims.ly = graphSize.t + graphSize.h * (1 - sliderOpts.y); if(sliderOpts.lenmode === 'fraction') { // fraction: dims.outerLength = Math.round(graphSize.w * sliderOpts.len); } else { // pixels: dims.outerLength = sliderOpts.len; } // The length of the rail, *excluding* padding on either end: dims.inputAreaStart = 0; dims.inputAreaLength = Math.round(dims.outerLength - sliderOpts.pad.l - sliderOpts.pad.r); var textableInputLength = dims.inputAreaLength - 2 * constants.stepInset; var availableSpacePerLabel = textableInputLength / (sliderOpts._stepCount - 1); var computedSpacePerLabel = maxLabelWidth + constants.labelPadding; dims.labelStride = Math.max(1, Math.ceil(computedSpacePerLabel / availableSpacePerLabel)); dims.labelHeight = labelHeight; // loop over all possible values for currentValue to find the // area we need for it dims.currentValueMaxWidth = 0; dims.currentValueHeight = 0; dims.currentValueTotalHeight = 0; dims.currentValueMaxLines = 1; if(sliderOpts.currentvalue.visible) { // Get the dimensions of the current value label: var dummyGroup = Drawing.tester.append('g'); sliderLabels.each(function(stepOpts) { var curValPrefix = drawCurrentValue(dummyGroup, sliderOpts, stepOpts.label); var curValSize = (curValPrefix.node() && Drawing.bBox(curValPrefix.node())) || {width: 0, height: 0}; var lines = svgTextUtils.lineCount(curValPrefix); dims.currentValueMaxWidth = Math.max(dims.currentValueMaxWidth, Math.ceil(curValSize.width)); dims.currentValueHeight = Math.max(dims.currentValueHeight, Math.ceil(curValSize.height)); dims.currentValueMaxLines = Math.max(dims.currentValueMaxLines, lines); }); dims.currentValueTotalHeight = dims.currentValueHeight + sliderOpts.currentvalue.offset; dummyGroup.remove(); } dims.height = dims.currentValueTotalHeight + constants.tickOffset + sliderOpts.ticklen + constants.labelOffset + dims.labelHeight + sliderOpts.pad.t + sliderOpts.pad.b; var xanchor = 'left'; if(Lib.isRightAnchor(sliderOpts)) { dims.lx -= dims.outerLength; xanchor = 'right'; } if(Lib.isCenterAnchor(sliderOpts)) { dims.lx -= dims.outerLength / 2; xanchor = 'center'; } var yanchor = 'top'; if(Lib.isBottomAnchor(sliderOpts)) { dims.ly -= dims.height; yanchor = 'bottom'; } if(Lib.isMiddleAnchor(sliderOpts)) { dims.ly -= dims.height / 2; yanchor = 'middle'; } dims.outerLength = Math.ceil(dims.outerLength); dims.height = Math.ceil(dims.height); dims.lx = Math.round(dims.lx); dims.ly = Math.round(dims.ly); var marginOpts = { y: sliderOpts.y, b: dims.height * FROM_BR[yanchor], t: dims.height * FROM_TL[yanchor] }; if(sliderOpts.lenmode === 'fraction') { marginOpts.l = 0; marginOpts.xl = sliderOpts.x - sliderOpts.len * FROM_TL[xanchor]; marginOpts.r = 0; marginOpts.xr = sliderOpts.x + sliderOpts.len * FROM_BR[xanchor]; } else { marginOpts.x = sliderOpts.x; marginOpts.l = dims.outerLength * FROM_TL[xanchor]; marginOpts.r = dims.outerLength * FROM_BR[xanchor]; } Plots.autoMargin(gd, autoMarginId(sliderOpts), marginOpts); } function drawSlider(gd, sliderGroup, sliderOpts) { // This is related to the other long notes in this file regarding what happens // when slider steps disappear. This particular fix handles what happens when // the *current* slider step is removed. The drawing functions will error out // when they fail to find it, so the fix for now is that it will just draw the // slider in the first position but will not execute the command. if(!((sliderOpts.steps[sliderOpts.active] || {}).visible)) { sliderOpts.active = sliderOpts._visibleSteps[0]._index; } // These are carefully ordered for proper z-ordering: sliderGroup .call(drawCurrentValue, sliderOpts) .call(drawRail, sliderOpts) .call(drawLabelGroup, sliderOpts) .call(drawTicks, sliderOpts) .call(drawTouchRect, gd, sliderOpts) .call(drawGrip, gd, sliderOpts); var dims = sliderOpts._dims; // Position the rectangle: Drawing.setTranslate(sliderGroup, dims.lx + sliderOpts.pad.l, dims.ly + sliderOpts.pad.t); sliderGroup.call(setGripPosition, sliderOpts, false); sliderGroup.call(drawCurrentValue, sliderOpts); } function drawCurrentValue(sliderGroup, sliderOpts, valueOverride) { if(!sliderOpts.currentvalue.visible) return; var dims = sliderOpts._dims; var x0, textAnchor; switch(sliderOpts.currentvalue.xanchor) { case 'right': // This is anchored left and adjusted by the width of the longest label // so that the prefix doesn't move. The goal of this is to emphasize // what's actually changing and make the update less distracting. x0 = dims.inputAreaLength - constants.currentValueInset - dims.currentValueMaxWidth; textAnchor = 'left'; break; case 'center': x0 = dims.inputAreaLength * 0.5; textAnchor = 'middle'; break; default: x0 = constants.currentValueInset; textAnchor = 'left'; } var text = Lib.ensureSingle(sliderGroup, 'text', constants.labelClass, function(s) { s.attr({ 'text-anchor': textAnchor, 'data-notex': 1 }); }); var str = sliderOpts.currentvalue.prefix ? sliderOpts.currentvalue.prefix : ''; if(typeof valueOverride === 'string') { str += valueOverride; } else { var curVal = sliderOpts.steps[sliderOpts.active].label; var _meta = sliderOpts._gd._fullLayout._meta; if(_meta) curVal = Lib.templateString(curVal, _meta); str += curVal; } if(sliderOpts.currentvalue.suffix) { str += sliderOpts.currentvalue.suffix; } text.call(Drawing.font, sliderOpts.currentvalue.font) .text(str) .call(svgTextUtils.convertToTspans, sliderOpts._gd); var lines = svgTextUtils.lineCount(text); var y0 = (dims.currentValueMaxLines + 1 - lines) * sliderOpts.currentvalue.font.size * LINE_SPACING; svgTextUtils.positionText(text, x0, y0); return text; } function drawGrip(sliderGroup, gd, sliderOpts) { var grip = Lib.ensureSingle(sliderGroup, 'rect', constants.gripRectClass, function(s) { s.call(attachGripEvents, gd, sliderGroup, sliderOpts) .style('pointer-events', 'all'); }); grip.attr({ width: constants.gripWidth, height: constants.gripHeight, rx: constants.gripRadius, ry: constants.gripRadius, }) .call(Color.stroke, sliderOpts.bordercolor) .call(Color.fill, sliderOpts.bgcolor) .style('stroke-width', sliderOpts.borderwidth + 'px'); } function drawLabel(item, data, sliderOpts) { var text = Lib.ensureSingle(item, 'text', constants.labelClass, function(s) { s.attr({ 'text-anchor': 'middle', 'data-notex': 1 }); }); var tx = data.step.label; var _meta = sliderOpts._gd._fullLayout._meta; if(_meta) tx = Lib.templateString(tx, _meta); text.call(Drawing.font, sliderOpts.font) .text(tx) .call(svgTextUtils.convertToTspans, sliderOpts._gd); return text; } function drawLabelGroup(sliderGroup, sliderOpts) { var labels = Lib.ensureSingle(sliderGroup, 'g', constants.labelsClass); var dims = sliderOpts._dims; var labelItems = labels.selectAll('g.' + constants.labelGroupClass) .data(dims.labelSteps); labelItems.enter().append('g') .classed(constants.labelGroupClass, true); labelItems.exit().remove(); labelItems.each(function(d) { var item = d3.select(this); item.call(drawLabel, d, sliderOpts); Drawing.setTranslate(item, normalizedValueToPosition(sliderOpts, d.fraction), constants.tickOffset + sliderOpts.ticklen + // position is the baseline of the top line of text only, even // if the label spans multiple lines sliderOpts.font.size * LINE_SPACING + constants.labelOffset + dims.currentValueTotalHeight ); }); } function handleInput(gd, sliderGroup, sliderOpts, normalizedPosition, doTransition) { var quantizedPosition = Math.round(normalizedPosition * (sliderOpts._stepCount - 1)); var quantizedIndex = sliderOpts._visibleSteps[quantizedPosition]._index; if(quantizedIndex !== sliderOpts.active) { setActive(gd, sliderGroup, sliderOpts, quantizedIndex, true, doTransition); } } function setActive(gd, sliderGroup, sliderOpts, index, doCallback, doTransition) { var previousActive = sliderOpts.active; sliderOpts.active = index; // due to templating, it's possible this slider doesn't even exist yet arrayEditor(gd.layout, constants.name, sliderOpts) .applyUpdate('active', index); var step = sliderOpts.steps[sliderOpts.active]; sliderGroup.call(setGripPosition, sliderOpts, doTransition); sliderGroup.call(drawCurrentValue, sliderOpts); gd.emit('plotly_sliderchange', { slider: sliderOpts, step: sliderOpts.steps[sliderOpts.active], interaction: doCallback, previousActive: previousActive }); if(step && step.method && doCallback) { if(sliderGroup._nextMethod) { // If we've already queued up an update, just overwrite it with the most recent: sliderGroup._nextMethod.step = step; sliderGroup._nextMethod.doCallback = doCallback; sliderGroup._nextMethod.doTransition = doTransition; } else { sliderGroup._nextMethod = {step: step, doCallback: doCallback, doTransition: doTransition}; sliderGroup._nextMethodRaf = window.requestAnimationFrame(function() { var _step = sliderGroup._nextMethod.step; if(!_step.method) return; if(_step.execute) { Plots.executeAPICommand(gd, _step.method, _step.args); } sliderGroup._nextMethod = null; sliderGroup._nextMethodRaf = null; }); } } } function attachGripEvents(item, gd, sliderGroup) { var node = sliderGroup.node(); var $gd = d3.select(gd); // NB: This is *not* the same as sliderOpts itself! These callbacks // are in a closure so this array won't actually be correct if the // steps have changed since this was initialized. The sliderGroup, // however, has not changed since that *is* the slider, so it must // be present to receive mouse events. function getSliderOpts() { return sliderGroup.data()[0]; } function mouseDownHandler() { var sliderOpts = getSliderOpts(); gd.emit('plotly_sliderstart', {slider: sliderOpts}); var grip = sliderGroup.select('.' + constants.gripRectClass); d3.event.stopPropagation(); d3.event.preventDefault(); grip.call(Color.fill, sliderOpts.activebgcolor); var normalizedPosition = positionToNormalizedValue(sliderOpts, d3.mouse(node)[0]); handleInput(gd, sliderGroup, sliderOpts, normalizedPosition, true); sliderOpts._dragging = true; function mouseMoveHandler() { var sliderOpts = getSliderOpts(); var normalizedPosition = positionToNormalizedValue(sliderOpts, d3.mouse(node)[0]); handleInput(gd, sliderGroup, sliderOpts, normalizedPosition, false); } $gd.on('mousemove', mouseMoveHandler); $gd.on('touchmove', mouseMoveHandler); function mouseUpHandler() { var sliderOpts = getSliderOpts(); sliderOpts._dragging = false; grip.call(Color.fill, sliderOpts.bgcolor); $gd.on('mouseup', null); $gd.on('mousemove', null); $gd.on('touchend', null); $gd.on('touchmove', null); gd.emit('plotly_sliderend', { slider: sliderOpts, step: sliderOpts.steps[sliderOpts.active] }); } $gd.on('mouseup', mouseUpHandler); $gd.on('touchend', mouseUpHandler); } item.on('mousedown', mouseDownHandler); item.on('touchstart', mouseDownHandler); } function drawTicks(sliderGroup, sliderOpts) { var tick = sliderGroup.selectAll('rect.' + constants.tickRectClass) .data(sliderOpts._visibleSteps); var dims = sliderOpts._dims; tick.enter().append('rect') .classed(constants.tickRectClass, true); tick.exit().remove(); tick.attr({ width: sliderOpts.tickwidth + 'px', 'shape-rendering': 'crispEdges' }); tick.each(function(d, i) { var isMajor = i % dims.labelStride === 0; var item = d3.select(this); item .attr({height: isMajor ? sliderOpts.ticklen : sliderOpts.minorticklen}) .call(Color.fill, isMajor ? sliderOpts.tickcolor : sliderOpts.tickcolor); Drawing.setTranslate(item, normalizedValueToPosition(sliderOpts, i / (sliderOpts._stepCount - 1)) - 0.5 * sliderOpts.tickwidth, (isMajor ? constants.tickOffset : constants.minorTickOffset) + dims.currentValueTotalHeight ); }); } function computeLabelSteps(sliderOpts) { var dims = sliderOpts._dims; dims.labelSteps = []; var nsteps = sliderOpts._stepCount; for(var i = 0; i < nsteps; i += dims.labelStride) { dims.labelSteps.push({ fraction: i / (nsteps - 1), step: sliderOpts._visibleSteps[i] }); } } function setGripPosition(sliderGroup, sliderOpts, doTransition) { var grip = sliderGroup.select('rect.' + constants.gripRectClass); var quantizedIndex = 0; for(var i = 0; i < sliderOpts._stepCount; i++) { if(sliderOpts._visibleSteps[i]._index === sliderOpts.active) { quantizedIndex = i; break; } } var x = normalizedValueToPosition(sliderOpts, quantizedIndex / (sliderOpts._stepCount - 1)); // If this is true, then *this component* is already invoking its own command // and has triggered its own animation. if(sliderOpts._invokingCommand) return; var el = grip; if(doTransition && sliderOpts.transition.duration > 0) { el = el.transition() .duration(sliderOpts.transition.duration) .ease(sliderOpts.transition.easing); } // Drawing.setTranslate doesn't work here because of the transition duck-typing. // It's also not necessary because there are no other transitions to preserve. el.attr('transform', strTranslate(x - constants.gripWidth * 0.5, sliderOpts._dims.currentValueTotalHeight)); } // Convert a number from [0-1] to a pixel position relative to the slider group container: function normalizedValueToPosition(sliderOpts, normalizedPosition) { var dims = sliderOpts._dims; return dims.inputAreaStart + constants.stepInset + (dims.inputAreaLength - 2 * constants.stepInset) * Math.min(1, Math.max(0, normalizedPosition)); } // Convert a position relative to the slider group to a nubmer in [0, 1] function positionToNormalizedValue(sliderOpts, position) { var dims = sliderOpts._dims; return Math.min(1, Math.max(0, (position - constants.stepInset - dims.inputAreaStart) / (dims.inputAreaLength - 2 * constants.stepInset - 2 * dims.inputAreaStart))); } function drawTouchRect(sliderGroup, gd, sliderOpts) { var dims = sliderOpts._dims; var rect = Lib.ensureSingle(sliderGroup, 'rect', constants.railTouchRectClass, function(s) { s.call(attachGripEvents, gd, sliderGroup, sliderOpts) .style('pointer-events', 'all'); }); rect.attr({ width: dims.inputAreaLength, height: Math.max(dims.inputAreaWidth, constants.tickOffset + sliderOpts.ticklen + dims.labelHeight) }) .call(Color.fill, sliderOpts.bgcolor) .attr('opacity', 0); Drawing.setTranslate(rect, 0, dims.currentValueTotalHeight); } function drawRail(sliderGroup, sliderOpts) { var dims = sliderOpts._dims; var computedLength = dims.inputAreaLength - constants.railInset * 2; var rect = Lib.ensureSingle(sliderGroup, 'rect', constants.railRectClass); rect.attr({ width: computedLength, height: constants.railWidth, rx: constants.railRadius, ry: constants.railRadius, 'shape-rendering': 'crispEdges' }) .call(Color.stroke, sliderOpts.bordercolor) .call(Color.fill, sliderOpts.bgcolor) .style('stroke-width', sliderOpts.borderwidth + 'px'); Drawing.setTranslate(rect, constants.railInset, (dims.inputAreaWidth - constants.railWidth) * 0.5 + dims.currentValueTotalHeight ); } },{"../../constants/alignment":262,"../../lib":287,"../../lib/svg_text_utils":310,"../../plot_api/plot_template":323,"../../plots/plots":371,"../color":157,"../drawing":179,"./constants":251,"@plotly/d3":20}],254:[function(_dereq_,module,exports){ 'use strict'; var constants = _dereq_('./constants'); module.exports = { moduleType: 'component', name: constants.name, layoutAttributes: _dereq_('./attributes'), supplyLayoutDefaults: _dereq_('./defaults'), draw: _dereq_('./draw') }; },{"./attributes":250,"./constants":251,"./defaults":252,"./draw":253}],255:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var Plots = _dereq_('../../plots/plots'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var Drawing = _dereq_('../drawing'); var Color = _dereq_('../color'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var interactConstants = _dereq_('../../constants/interactions'); var OPPOSITE_SIDE = _dereq_('../../constants/alignment').OPPOSITE_SIDE; var numStripRE = / [XY][0-9]* /; /** * Titles - (re)draw titles on the axes and plot: * @param {DOM element} gd - the graphDiv * @param {string} titleClass - the css class of this title * @param {object} options - how and what to draw * propContainer - the layout object containing `title` and `titlefont` * attributes that apply to this title * propName - the full name of the title property (for Plotly.relayout) * [traceIndex] - include only if this property applies to one trace * (such as a colorbar title) - then editing pipes to Plotly.restyle * instead of Plotly.relayout * placeholder - placeholder text for an empty editable title * [avoid] {object} - include if this title should move to avoid other elements * selection - d3 selection of elements to avoid * side - which direction to move if there is a conflict * [offsetLeft] - if these elements are subject to a translation * wrt the title element * [offsetTop] * attributes {object} - position and alignment attributes * x - pixels * y - pixels * text-anchor - start|middle|end * transform {object} - how to transform the title after positioning * rotate - degrees * offset - shift up/down in the rotated frame (unused?) * containerGroup - if an svg element already exists to hold this * title, include here. Otherwise it will go in fullLayout._infolayer * _meta {object (optional} - meta key-value to for title with * Lib.templateString, default to fullLayout._meta, if not provided * * @return {selection} d3 selection of title container group */ function draw(gd, titleClass, options) { var cont = options.propContainer; var prop = options.propName; var placeholder = options.placeholder; var traceIndex = options.traceIndex; var avoid = options.avoid || {}; var attributes = options.attributes; var transform = options.transform; var group = options.containerGroup; var fullLayout = gd._fullLayout; var opacity = 1; var isplaceholder = false; var title = cont.title; var txt = (title && title.text ? title.text : '').trim(); var font = title && title.font ? title.font : {}; var fontFamily = font.family; var fontSize = font.size; var fontColor = font.color; // only make this title editable if we positively identify its property // as one that has editing enabled. var editAttr; if(prop === 'title.text') editAttr = 'titleText'; else if(prop.indexOf('axis') !== -1) editAttr = 'axisTitleText'; else if(prop.indexOf('colorbar' !== -1)) editAttr = 'colorbarTitleText'; var editable = gd._context.edits[editAttr]; if(txt === '') opacity = 0; // look for placeholder text while stripping out numbers from eg X2, Y3 // this is just for backward compatibility with the old version that had // "Click to enter X2 title" and may have gotten saved in some old plots, // we don't want this to show up when these are displayed. else if(txt.replace(numStripRE, ' % ') === placeholder.replace(numStripRE, ' % ')) { opacity = 0.2; isplaceholder = true; if(!editable) txt = ''; } if(options._meta) { txt = Lib.templateString(txt, options._meta); } else if(fullLayout._meta) { txt = Lib.templateString(txt, fullLayout._meta); } var elShouldExist = txt || editable; var hColorbarMoveTitle; if(!group) { group = Lib.ensureSingle(fullLayout._infolayer, 'g', 'g-' + titleClass); hColorbarMoveTitle = fullLayout._hColorbarMoveTitle; } var el = group.selectAll('text') .data(elShouldExist ? [0] : []); el.enter().append('text'); el.text(txt) // this is hacky, but convertToTspans uses the class // to determine whether to rotate mathJax... // so we need to clear out any old class and put the // correct one (only relevant for colorbars, at least // for now) - ie don't use .classed .attr('class', titleClass); el.exit().remove(); if(!elShouldExist) return group; function titleLayout(titleEl) { Lib.syncOrAsync([drawTitle, scootTitle], titleEl); } function drawTitle(titleEl) { var transformVal; if(!transform && hColorbarMoveTitle) { transform = {}; } if(transform) { transformVal = ''; if(transform.rotate) { transformVal += 'rotate(' + [transform.rotate, attributes.x, attributes.y] + ')'; } if(transform.offset || hColorbarMoveTitle) { transformVal += strTranslate(0, (transform.offset || 0) - (hColorbarMoveTitle || 0)); } } else { transformVal = null; } titleEl.attr('transform', transformVal); titleEl.style({ 'font-family': fontFamily, 'font-size': d3.round(fontSize, 2) + 'px', fill: Color.rgb(fontColor), opacity: opacity * Color.opacity(fontColor), 'font-weight': Plots.fontWeight }) .attr(attributes) .call(svgTextUtils.convertToTspans, gd); return Plots.previousPromises(gd); } function scootTitle(titleElIn) { var titleGroup = d3.select(titleElIn.node().parentNode); if(avoid && avoid.selection && avoid.side && txt) { titleGroup.attr('transform', null); // move toward avoid.side (= left, right, top, bottom) if needed // can include pad (pixels, default 2) var backside = OPPOSITE_SIDE[avoid.side]; var shiftSign = (avoid.side === 'left' || avoid.side === 'top') ? -1 : 1; var pad = isNumeric(avoid.pad) ? avoid.pad : 2; var titlebb = Drawing.bBox(titleGroup.node()); var paperbb = { left: 0, top: 0, right: fullLayout.width, bottom: fullLayout.height }; var maxshift = avoid.maxShift || shiftSign * (paperbb[avoid.side] - titlebb[avoid.side]); var shift = 0; // Prevent the title going off the paper if(maxshift < 0) { shift = maxshift; } else { // so we don't have to offset each avoided element, // give the title the opposite offset var offsetLeft = avoid.offsetLeft || 0; var offsetTop = avoid.offsetTop || 0; titlebb.left -= offsetLeft; titlebb.right -= offsetLeft; titlebb.top -= offsetTop; titlebb.bottom -= offsetTop; // iterate over a set of elements (avoid.selection) // to avoid collisions with avoid.selection.each(function() { var avoidbb = Drawing.bBox(this); if(Lib.bBoxIntersect(titlebb, avoidbb, pad)) { shift = Math.max(shift, shiftSign * ( avoidbb[avoid.side] - titlebb[backside]) + pad); } }); shift = Math.min(maxshift, shift); } if(shift > 0 || maxshift < 0) { var shiftTemplate = { left: [-shift, 0], right: [shift, 0], top: [0, -shift], bottom: [0, shift] }[avoid.side]; titleGroup.attr('transform', strTranslate(shiftTemplate[0], shiftTemplate[1])); } } } el.call(titleLayout); function setPlaceholder() { opacity = 0; isplaceholder = true; el.text(placeholder) .on('mouseover.opacity', function() { d3.select(this).transition() .duration(interactConstants.SHOW_PLACEHOLDER).style('opacity', 1); }) .on('mouseout.opacity', function() { d3.select(this).transition() .duration(interactConstants.HIDE_PLACEHOLDER).style('opacity', 0); }); } if(editable) { if(!txt) setPlaceholder(); else el.on('.opacity', null); el.call(svgTextUtils.makeEditable, {gd: gd}) .on('edit', function(text) { if(traceIndex !== undefined) { Registry.call('_guiRestyle', gd, prop, text, traceIndex); } else { Registry.call('_guiRelayout', gd, prop, text); } }) .on('cancel', function() { this.text(this.attr('data-unformatted')) .call(titleLayout); }) .on('input', function(d) { this.text(d || ' ') .call(svgTextUtils.positionText, attributes.x, attributes.y); }); } el.classed('js-placeholder', isplaceholder); return group; } module.exports = { draw: draw }; },{"../../constants/alignment":262,"../../constants/interactions":266,"../../lib":287,"../../lib/svg_text_utils":310,"../../plots/plots":371,"../../registry":378,"../color":157,"../drawing":179,"@plotly/d3":20,"fast-isnumeric":33}],256:[function(_dereq_,module,exports){ 'use strict'; var fontAttrs = _dereq_('../../plots/font_attributes'); var colorAttrs = _dereq_('../color/attributes'); var extendFlat = _dereq_('../../lib/extend').extendFlat; var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll; var padAttrs = _dereq_('../../plots/pad_attributes'); var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray; var buttonsAttrs = templatedArray('button', { visible: { valType: 'boolean', }, method: { valType: 'enumerated', values: ['restyle', 'relayout', 'animate', 'update', 'skip'], dflt: 'restyle', }, args: { valType: 'info_array', freeLength: true, items: [ {valType: 'any'}, {valType: 'any'}, {valType: 'any'} ], }, args2: { valType: 'info_array', freeLength: true, items: [ {valType: 'any'}, {valType: 'any'}, {valType: 'any'} ], }, label: { valType: 'string', dflt: '', }, execute: { valType: 'boolean', dflt: true, } }); module.exports = overrideAll(templatedArray('updatemenu', { _arrayAttrRegexps: [/^updatemenus\[(0|[1-9][0-9]+)\]\.buttons/], visible: { valType: 'boolean', }, type: { valType: 'enumerated', values: ['dropdown', 'buttons'], dflt: 'dropdown', }, direction: { valType: 'enumerated', values: ['left', 'right', 'up', 'down'], dflt: 'down', }, active: { valType: 'integer', min: -1, dflt: 0, }, showactive: { valType: 'boolean', dflt: true, }, buttons: buttonsAttrs, x: { valType: 'number', min: -2, max: 3, dflt: -0.05, }, xanchor: { valType: 'enumerated', values: ['auto', 'left', 'center', 'right'], dflt: 'right', }, y: { valType: 'number', min: -2, max: 3, dflt: 1, }, yanchor: { valType: 'enumerated', values: ['auto', 'top', 'middle', 'bottom'], dflt: 'top', }, pad: extendFlat(padAttrs({editType: 'arraydraw'}), { }), font: fontAttrs({ }), bgcolor: { valType: 'color', }, bordercolor: { valType: 'color', dflt: colorAttrs.borderLine, }, borderwidth: { valType: 'number', min: 0, dflt: 1, editType: 'arraydraw', } }), 'arraydraw', 'from-root'); },{"../../lib/extend":281,"../../plot_api/edit_types":316,"../../plot_api/plot_template":323,"../../plots/font_attributes":365,"../../plots/pad_attributes":370,"../color/attributes":156}],257:[function(_dereq_,module,exports){ 'use strict'; module.exports = { // layout attribute name name: 'updatemenus', // class names containerClassName: 'updatemenu-container', headerGroupClassName: 'updatemenu-header-group', headerClassName: 'updatemenu-header', headerArrowClassName: 'updatemenu-header-arrow', dropdownButtonGroupClassName: 'updatemenu-dropdown-button-group', dropdownButtonClassName: 'updatemenu-dropdown-button', buttonClassName: 'updatemenu-button', itemRectClassName: 'updatemenu-item-rect', itemTextClassName: 'updatemenu-item-text', // DOM attribute name in button group keeping track // of active update menu menuIndexAttrName: 'updatemenu-active-index', // id root pass to Plots.autoMargin autoMarginIdRoot: 'updatemenu-', // options when 'active: -1' blankHeaderOpts: { label: ' ' }, // min item width / height minWidth: 30, minHeight: 30, // padding around item text textPadX: 24, arrowPadX: 16, // item rect radii rx: 2, ry: 2, // item text x offset off left edge textOffsetX: 12, // item text y offset (w.r.t. middle) textOffsetY: 3, // arrow offset off right edge arrowOffsetX: 4, // gap between header and buttons gapButtonHeader: 5, // gap between between buttons gapButton: 2, // color given to active buttons activeColor: '#F4FAFF', // color given to hovered buttons hoverColor: '#F4FAFF', // symbol for menu open arrow arrowSymbol: { left: '◄', right: '►', up: '▲', down: '▼' } }; },{}],258:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var handleArrayContainerDefaults = _dereq_('../../plots/array_container_defaults'); var attributes = _dereq_('./attributes'); var constants = _dereq_('./constants'); var name = constants.name; var buttonAttrs = attributes.buttons; module.exports = function updateMenusDefaults(layoutIn, layoutOut) { var opts = { name: name, handleItemDefaults: menuDefaults }; handleArrayContainerDefaults(layoutIn, layoutOut, opts); }; function menuDefaults(menuIn, menuOut, layoutOut) { function coerce(attr, dflt) { return Lib.coerce(menuIn, menuOut, attributes, attr, dflt); } var buttons = handleArrayContainerDefaults(menuIn, menuOut, { name: 'buttons', handleItemDefaults: buttonDefaults }); var visible = coerce('visible', buttons.length > 0); if(!visible) return; coerce('active'); coerce('direction'); coerce('type'); coerce('showactive'); coerce('x'); coerce('y'); Lib.noneOrAll(menuIn, menuOut, ['x', 'y']); coerce('xanchor'); coerce('yanchor'); coerce('pad.t'); coerce('pad.r'); coerce('pad.b'); coerce('pad.l'); Lib.coerceFont(coerce, 'font', layoutOut.font); coerce('bgcolor', layoutOut.paper_bgcolor); coerce('bordercolor'); coerce('borderwidth'); } function buttonDefaults(buttonIn, buttonOut) { function coerce(attr, dflt) { return Lib.coerce(buttonIn, buttonOut, buttonAttrs, attr, dflt); } var visible = coerce('visible', (buttonIn.method === 'skip' || Array.isArray(buttonIn.args))); if(visible) { coerce('method'); coerce('args'); coerce('args2'); coerce('label'); coerce('execute'); } } },{"../../lib":287,"../../plots/array_container_defaults":329,"./attributes":256,"./constants":257}],259:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Plots = _dereq_('../../plots/plots'); var Color = _dereq_('../color'); var Drawing = _dereq_('../drawing'); var Lib = _dereq_('../../lib'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var arrayEditor = _dereq_('../../plot_api/plot_template').arrayEditor; var LINE_SPACING = _dereq_('../../constants/alignment').LINE_SPACING; var constants = _dereq_('./constants'); var ScrollBox = _dereq_('./scrollbox'); module.exports = function draw(gd) { var fullLayout = gd._fullLayout; var menuData = Lib.filterVisible(fullLayout[constants.name]); /* Update menu data is bound to the header-group. * The items in the header group are always present. * * Upon clicking on a header its corresponding button * data is bound to the button-group. * * We draw all headers in one group before all buttons * so that the buttons *always* appear above the headers. * * Note that only one set of buttons are visible at once. * * * * * * * * * * ... * * * * * ... */ function clearAutoMargin(menuOpts) { Plots.autoMargin(gd, autoMarginId(menuOpts)); } // draw update menu container var menus = fullLayout._menulayer .selectAll('g.' + constants.containerClassName) .data(menuData.length > 0 ? [0] : []); menus.enter().append('g') .classed(constants.containerClassName, true) .style('cursor', 'pointer'); menus.exit().each(function() { // Most components don't need to explicitly remove autoMargin, because // marginPushers does this - but updatemenu updates don't go through // a full replot so we need to explicitly remove it. // This is for removing *all* updatemenus, removing individuals is // handled below, in headerGroups.exit d3.select(this).selectAll('g.' + constants.headerGroupClassName) .each(clearAutoMargin); }).remove(); // return early if no update menus are visible if(menuData.length === 0) return; // join header group var headerGroups = menus.selectAll('g.' + constants.headerGroupClassName) .data(menuData, keyFunction); headerGroups.enter().append('g') .classed(constants.headerGroupClassName, true); // draw dropdown button container var gButton = Lib.ensureSingle(menus, 'g', constants.dropdownButtonGroupClassName, function(s) { s.style('pointer-events', 'all'); }); // find dimensions before plotting anything (this mutates menuOpts) for(var i = 0; i < menuData.length; i++) { var menuOpts = menuData[i]; findDimensions(gd, menuOpts); } // setup scrollbox var scrollBoxId = 'updatemenus' + fullLayout._uid; var scrollBox = new ScrollBox(gd, gButton, scrollBoxId); // remove exiting header, remove dropped buttons and reset margins if(headerGroups.enter().size()) { // make sure gButton is on top of all headers gButton.node().parentNode.appendChild(gButton.node()); gButton.call(removeAllButtons); } headerGroups.exit().each(function(menuOpts) { gButton.call(removeAllButtons); clearAutoMargin(menuOpts); }).remove(); // draw headers! headerGroups.each(function(menuOpts) { var gHeader = d3.select(this); var _gButton = menuOpts.type === 'dropdown' ? gButton : null; Plots.manageCommandObserver(gd, menuOpts, menuOpts.buttons, function(data) { setActive(gd, menuOpts, menuOpts.buttons[data.index], gHeader, _gButton, scrollBox, data.index, true); }); if(menuOpts.type === 'dropdown') { drawHeader(gd, gHeader, gButton, scrollBox, menuOpts); // if this menu is active, update the dropdown container if(isActive(gButton, menuOpts)) { drawButtons(gd, gHeader, gButton, scrollBox, menuOpts); } } else { drawButtons(gd, gHeader, null, null, menuOpts); } }); }; // Note that '_index' is set at the default step, // it corresponds to the menu index in the user layout update menu container. // Because a menu can be set invisible, // this is a more 'consistent' field than the index in the menuData. function keyFunction(menuOpts) { return menuOpts._index; } function isFolded(gButton) { return +gButton.attr(constants.menuIndexAttrName) === -1; } function isActive(gButton, menuOpts) { return +gButton.attr(constants.menuIndexAttrName) === menuOpts._index; } function setActive(gd, menuOpts, buttonOpts, gHeader, gButton, scrollBox, buttonIndex, isSilentUpdate) { // update 'active' attribute in menuOpts menuOpts.active = buttonIndex; // due to templating, it's possible this slider doesn't even exist yet arrayEditor(gd.layout, constants.name, menuOpts) .applyUpdate('active', buttonIndex); if(menuOpts.type === 'buttons') { drawButtons(gd, gHeader, null, null, menuOpts); } else if(menuOpts.type === 'dropdown') { // fold up buttons and redraw header gButton.attr(constants.menuIndexAttrName, '-1'); drawHeader(gd, gHeader, gButton, scrollBox, menuOpts); if(!isSilentUpdate) { drawButtons(gd, gHeader, gButton, scrollBox, menuOpts); } } } function drawHeader(gd, gHeader, gButton, scrollBox, menuOpts) { var header = Lib.ensureSingle(gHeader, 'g', constants.headerClassName, function(s) { s.style('pointer-events', 'all'); }); var dims = menuOpts._dims; var active = menuOpts.active; var headerOpts = menuOpts.buttons[active] || constants.blankHeaderOpts; var posOpts = { y: menuOpts.pad.t, yPad: 0, x: menuOpts.pad.l, xPad: 0, index: 0 }; var positionOverrides = { width: dims.headerWidth, height: dims.headerHeight }; header .call(drawItem, menuOpts, headerOpts, gd) .call(setItemPosition, menuOpts, posOpts, positionOverrides); // draw drop arrow at the right edge var arrow = Lib.ensureSingle(gHeader, 'text', constants.headerArrowClassName, function(s) { s.attr('text-anchor', 'end') .call(Drawing.font, menuOpts.font) .text(constants.arrowSymbol[menuOpts.direction]); }); arrow.attr({ x: dims.headerWidth - constants.arrowOffsetX + menuOpts.pad.l, y: dims.headerHeight / 2 + constants.textOffsetY + menuOpts.pad.t }); header.on('click', function() { gButton.call(removeAllButtons, String(isActive(gButton, menuOpts) ? -1 : menuOpts._index) ); drawButtons(gd, gHeader, gButton, scrollBox, menuOpts); }); header.on('mouseover', function() { header.call(styleOnMouseOver); }); header.on('mouseout', function() { header.call(styleOnMouseOut, menuOpts); }); // translate header group Drawing.setTranslate(gHeader, dims.lx, dims.ly); } function drawButtons(gd, gHeader, gButton, scrollBox, menuOpts) { // If this is a set of buttons, set pointer events = all since we play // some minor games with which container is which in order to simplify // the drawing of *either* buttons or menus if(!gButton) { gButton = gHeader; gButton.attr('pointer-events', 'all'); } var buttonData = (!isFolded(gButton) || menuOpts.type === 'buttons') ? menuOpts.buttons : []; var klass = menuOpts.type === 'dropdown' ? constants.dropdownButtonClassName : constants.buttonClassName; var buttons = gButton.selectAll('g.' + klass) .data(Lib.filterVisible(buttonData)); var enter = buttons.enter().append('g') .classed(klass, true); var exit = buttons.exit(); if(menuOpts.type === 'dropdown') { enter.attr('opacity', '0') .transition() .attr('opacity', '1'); exit.transition() .attr('opacity', '0') .remove(); } else { exit.remove(); } var x0 = 0; var y0 = 0; var dims = menuOpts._dims; var isVertical = ['up', 'down'].indexOf(menuOpts.direction) !== -1; if(menuOpts.type === 'dropdown') { if(isVertical) { y0 = dims.headerHeight + constants.gapButtonHeader; } else { x0 = dims.headerWidth + constants.gapButtonHeader; } } if(menuOpts.type === 'dropdown' && menuOpts.direction === 'up') { y0 = -constants.gapButtonHeader + constants.gapButton - dims.openHeight; } if(menuOpts.type === 'dropdown' && menuOpts.direction === 'left') { x0 = -constants.gapButtonHeader + constants.gapButton - dims.openWidth; } var posOpts = { x: dims.lx + x0 + menuOpts.pad.l, y: dims.ly + y0 + menuOpts.pad.t, yPad: constants.gapButton, xPad: constants.gapButton, index: 0, }; var scrollBoxPosition = { l: posOpts.x + menuOpts.borderwidth, t: posOpts.y + menuOpts.borderwidth }; buttons.each(function(buttonOpts, buttonIndex) { var button = d3.select(this); button .call(drawItem, menuOpts, buttonOpts, gd) .call(setItemPosition, menuOpts, posOpts); button.on('click', function() { // skip `dragend` events if(d3.event.defaultPrevented) return; if(buttonOpts.execute) { if(buttonOpts.args2 && menuOpts.active === buttonIndex) { setActive(gd, menuOpts, buttonOpts, gHeader, gButton, scrollBox, -1); Plots.executeAPICommand(gd, buttonOpts.method, buttonOpts.args2); } else { setActive(gd, menuOpts, buttonOpts, gHeader, gButton, scrollBox, buttonIndex); Plots.executeAPICommand(gd, buttonOpts.method, buttonOpts.args); } } gd.emit('plotly_buttonclicked', {menu: menuOpts, button: buttonOpts, active: menuOpts.active}); }); button.on('mouseover', function() { button.call(styleOnMouseOver); }); button.on('mouseout', function() { button.call(styleOnMouseOut, menuOpts); buttons.call(styleButtons, menuOpts); }); }); buttons.call(styleButtons, menuOpts); if(isVertical) { scrollBoxPosition.w = Math.max(dims.openWidth, dims.headerWidth); scrollBoxPosition.h = posOpts.y - scrollBoxPosition.t; } else { scrollBoxPosition.w = posOpts.x - scrollBoxPosition.l; scrollBoxPosition.h = Math.max(dims.openHeight, dims.headerHeight); } scrollBoxPosition.direction = menuOpts.direction; if(scrollBox) { if(buttons.size()) { drawScrollBox(gd, gHeader, gButton, scrollBox, menuOpts, scrollBoxPosition); } else { hideScrollBox(scrollBox); } } } function drawScrollBox(gd, gHeader, gButton, scrollBox, menuOpts, position) { // enable the scrollbox var direction = menuOpts.direction; var isVertical = (direction === 'up' || direction === 'down'); var dims = menuOpts._dims; var active = menuOpts.active; var translateX, translateY; var i; if(isVertical) { translateY = 0; for(i = 0; i < active; i++) { translateY += dims.heights[i] + constants.gapButton; } } else { translateX = 0; for(i = 0; i < active; i++) { translateX += dims.widths[i] + constants.gapButton; } } scrollBox.enable(position, translateX, translateY); if(scrollBox.hbar) { scrollBox.hbar .attr('opacity', '0') .transition() .attr('opacity', '1'); } if(scrollBox.vbar) { scrollBox.vbar .attr('opacity', '0') .transition() .attr('opacity', '1'); } } function hideScrollBox(scrollBox) { var hasHBar = !!scrollBox.hbar; var hasVBar = !!scrollBox.vbar; if(hasHBar) { scrollBox.hbar .transition() .attr('opacity', '0') .each('end', function() { hasHBar = false; if(!hasVBar) scrollBox.disable(); }); } if(hasVBar) { scrollBox.vbar .transition() .attr('opacity', '0') .each('end', function() { hasVBar = false; if(!hasHBar) scrollBox.disable(); }); } } function drawItem(item, menuOpts, itemOpts, gd) { item.call(drawItemRect, menuOpts) .call(drawItemText, menuOpts, itemOpts, gd); } function drawItemRect(item, menuOpts) { var rect = Lib.ensureSingle(item, 'rect', constants.itemRectClassName, function(s) { s.attr({ rx: constants.rx, ry: constants.ry, 'shape-rendering': 'crispEdges' }); }); rect.call(Color.stroke, menuOpts.bordercolor) .call(Color.fill, menuOpts.bgcolor) .style('stroke-width', menuOpts.borderwidth + 'px'); } function drawItemText(item, menuOpts, itemOpts, gd) { var text = Lib.ensureSingle(item, 'text', constants.itemTextClassName, function(s) { s.attr({ 'text-anchor': 'start', 'data-notex': 1 }); }); var tx = itemOpts.label; var _meta = gd._fullLayout._meta; if(_meta) tx = Lib.templateString(tx, _meta); text.call(Drawing.font, menuOpts.font) .text(tx) .call(svgTextUtils.convertToTspans, gd); } function styleButtons(buttons, menuOpts) { var active = menuOpts.active; buttons.each(function(buttonOpts, i) { var button = d3.select(this); if(i === active && menuOpts.showactive) { button.select('rect.' + constants.itemRectClassName) .call(Color.fill, constants.activeColor); } }); } function styleOnMouseOver(item) { item.select('rect.' + constants.itemRectClassName) .call(Color.fill, constants.hoverColor); } function styleOnMouseOut(item, menuOpts) { item.select('rect.' + constants.itemRectClassName) .call(Color.fill, menuOpts.bgcolor); } // find item dimensions (this mutates menuOpts) function findDimensions(gd, menuOpts) { var dims = menuOpts._dims = { width1: 0, height1: 0, heights: [], widths: [], totalWidth: 0, totalHeight: 0, openWidth: 0, openHeight: 0, lx: 0, ly: 0 }; var fakeButtons = Drawing.tester.selectAll('g.' + constants.dropdownButtonClassName) .data(Lib.filterVisible(menuOpts.buttons)); fakeButtons.enter().append('g') .classed(constants.dropdownButtonClassName, true); var isVertical = ['up', 'down'].indexOf(menuOpts.direction) !== -1; // loop over fake buttons to find width / height fakeButtons.each(function(buttonOpts, i) { var button = d3.select(this); button.call(drawItem, menuOpts, buttonOpts, gd); var text = button.select('.' + constants.itemTextClassName); // width is given by max width of all buttons var tWidth = text.node() && Drawing.bBox(text.node()).width; var wEff = Math.max(tWidth + constants.textPadX, constants.minWidth); // height is determined by item text var tHeight = menuOpts.font.size * LINE_SPACING; var tLines = svgTextUtils.lineCount(text); var hEff = Math.max(tHeight * tLines, constants.minHeight) + constants.textOffsetY; hEff = Math.ceil(hEff); wEff = Math.ceil(wEff); // Store per-item sizes since a row of horizontal buttons, for example, // don't all need to be the same width: dims.widths[i] = wEff; dims.heights[i] = hEff; // Height and width of individual element: dims.height1 = Math.max(dims.height1, hEff); dims.width1 = Math.max(dims.width1, wEff); if(isVertical) { dims.totalWidth = Math.max(dims.totalWidth, wEff); dims.openWidth = dims.totalWidth; dims.totalHeight += hEff + constants.gapButton; dims.openHeight += hEff + constants.gapButton; } else { dims.totalWidth += wEff + constants.gapButton; dims.openWidth += wEff + constants.gapButton; dims.totalHeight = Math.max(dims.totalHeight, hEff); dims.openHeight = dims.totalHeight; } }); if(isVertical) { dims.totalHeight -= constants.gapButton; } else { dims.totalWidth -= constants.gapButton; } dims.headerWidth = dims.width1 + constants.arrowPadX; dims.headerHeight = dims.height1; if(menuOpts.type === 'dropdown') { if(isVertical) { dims.width1 += constants.arrowPadX; dims.totalHeight = dims.height1; } else { dims.totalWidth = dims.width1; } dims.totalWidth += constants.arrowPadX; } fakeButtons.remove(); var paddedWidth = dims.totalWidth + menuOpts.pad.l + menuOpts.pad.r; var paddedHeight = dims.totalHeight + menuOpts.pad.t + menuOpts.pad.b; var graphSize = gd._fullLayout._size; dims.lx = graphSize.l + graphSize.w * menuOpts.x; dims.ly = graphSize.t + graphSize.h * (1 - menuOpts.y); var xanchor = 'left'; if(Lib.isRightAnchor(menuOpts)) { dims.lx -= paddedWidth; xanchor = 'right'; } if(Lib.isCenterAnchor(menuOpts)) { dims.lx -= paddedWidth / 2; xanchor = 'center'; } var yanchor = 'top'; if(Lib.isBottomAnchor(menuOpts)) { dims.ly -= paddedHeight; yanchor = 'bottom'; } if(Lib.isMiddleAnchor(menuOpts)) { dims.ly -= paddedHeight / 2; yanchor = 'middle'; } dims.totalWidth = Math.ceil(dims.totalWidth); dims.totalHeight = Math.ceil(dims.totalHeight); dims.lx = Math.round(dims.lx); dims.ly = Math.round(dims.ly); Plots.autoMargin(gd, autoMarginId(menuOpts), { x: menuOpts.x, y: menuOpts.y, l: paddedWidth * ({right: 1, center: 0.5}[xanchor] || 0), r: paddedWidth * ({left: 1, center: 0.5}[xanchor] || 0), b: paddedHeight * ({top: 1, middle: 0.5}[yanchor] || 0), t: paddedHeight * ({bottom: 1, middle: 0.5}[yanchor] || 0) }); } function autoMarginId(menuOpts) { return constants.autoMarginIdRoot + menuOpts._index; } // set item positions (mutates posOpts) function setItemPosition(item, menuOpts, posOpts, overrideOpts) { overrideOpts = overrideOpts || {}; var rect = item.select('.' + constants.itemRectClassName); var text = item.select('.' + constants.itemTextClassName); var borderWidth = menuOpts.borderwidth; var index = posOpts.index; var dims = menuOpts._dims; Drawing.setTranslate(item, borderWidth + posOpts.x, borderWidth + posOpts.y); var isVertical = ['up', 'down'].indexOf(menuOpts.direction) !== -1; var finalHeight = overrideOpts.height || (isVertical ? dims.heights[index] : dims.height1); rect.attr({ x: 0, y: 0, width: overrideOpts.width || (isVertical ? dims.width1 : dims.widths[index]), height: finalHeight }); var tHeight = menuOpts.font.size * LINE_SPACING; var tLines = svgTextUtils.lineCount(text); var spanOffset = ((tLines - 1) * tHeight / 2); svgTextUtils.positionText(text, constants.textOffsetX, finalHeight / 2 - spanOffset + constants.textOffsetY); if(isVertical) { posOpts.y += dims.heights[index] + posOpts.yPad; } else { posOpts.x += dims.widths[index] + posOpts.xPad; } posOpts.index++; } function removeAllButtons(gButton, newMenuIndexAttr) { gButton .attr(constants.menuIndexAttrName, newMenuIndexAttr || '-1') .selectAll('g.' + constants.dropdownButtonClassName).remove(); } },{"../../constants/alignment":262,"../../lib":287,"../../lib/svg_text_utils":310,"../../plot_api/plot_template":323,"../../plots/plots":371,"../color":157,"../drawing":179,"./constants":257,"./scrollbox":261,"@plotly/d3":20}],260:[function(_dereq_,module,exports){ arguments[4][254][0].apply(exports,arguments) },{"./attributes":256,"./constants":257,"./defaults":258,"./draw":259,"dup":254}],261:[function(_dereq_,module,exports){ 'use strict'; module.exports = ScrollBox; var d3 = _dereq_('@plotly/d3'); var Color = _dereq_('../color'); var Drawing = _dereq_('../drawing'); var Lib = _dereq_('../../lib'); /** * Helper class to setup a scroll box * * @class * @param gd Plotly's graph div * @param container Container to be scroll-boxed (as a D3 selection) * @param {string} id Id for the clip path to implement the scroll box */ function ScrollBox(gd, container, id) { this.gd = gd; this.container = container; this.id = id; // See ScrollBox.prototype.enable for further definition this.position = null; // scrollbox position this.translateX = null; // scrollbox horizontal translation this.translateY = null; // scrollbox vertical translation this.hbar = null; // horizontal scrollbar D3 selection this.vbar = null; // vertical scrollbar D3 selection // element to capture pointer events this.bg = this.container.selectAll('rect.scrollbox-bg').data([0]); this.bg.exit() .on('.drag', null) .on('wheel', null) .remove(); this.bg.enter().append('rect') .classed('scrollbox-bg', true) .style('pointer-events', 'all') .attr({ opacity: 0, x: 0, y: 0, width: 0, height: 0 }); } // scroll bar dimensions ScrollBox.barWidth = 2; ScrollBox.barLength = 20; ScrollBox.barRadius = 2; ScrollBox.barPad = 1; ScrollBox.barColor = '#808BA4'; /** * If needed, setup a clip path and scrollbars * * @method * @param {Object} position * @param {number} position.l Left side position (in pixels) * @param {number} position.t Top side (in pixels) * @param {number} position.w Width (in pixels) * @param {number} position.h Height (in pixels) * @param {string} [position.direction='down'] * Either 'down', 'left', 'right' or 'up' * @param {number} [translateX=0] Horizontal offset (in pixels) * @param {number} [translateY=0] Vertical offset (in pixels) */ ScrollBox.prototype.enable = function enable(position, translateX, translateY) { var fullLayout = this.gd._fullLayout; var fullWidth = fullLayout.width; var fullHeight = fullLayout.height; // compute position of scrollbox this.position = position; var l = this.position.l; var w = this.position.w; var t = this.position.t; var h = this.position.h; var direction = this.position.direction; var isDown = (direction === 'down'); var isLeft = (direction === 'left'); var isRight = (direction === 'right'); var isUp = (direction === 'up'); var boxW = w; var boxH = h; var boxL, boxR; var boxT, boxB; if(!isDown && !isLeft && !isRight && !isUp) { this.position.direction = 'down'; isDown = true; } var isVertical = isDown || isUp; if(isVertical) { boxL = l; boxR = boxL + boxW; if(isDown) { // anchor to top side boxT = t; boxB = Math.min(boxT + boxH, fullHeight); boxH = boxB - boxT; } else { // anchor to bottom side boxB = t + boxH; boxT = Math.max(boxB - boxH, 0); boxH = boxB - boxT; } } else { boxT = t; boxB = boxT + boxH; if(isLeft) { // anchor to right side boxR = l + boxW; boxL = Math.max(boxR - boxW, 0); boxW = boxR - boxL; } else { // anchor to left side boxL = l; boxR = Math.min(boxL + boxW, fullWidth); boxW = boxR - boxL; } } this._box = { l: boxL, t: boxT, w: boxW, h: boxH }; // compute position of horizontal scroll bar var needsHorizontalScrollBar = (w > boxW); var hbarW = ScrollBox.barLength + 2 * ScrollBox.barPad; var hbarH = ScrollBox.barWidth + 2 * ScrollBox.barPad; // draw horizontal scrollbar on the bottom side var hbarL = l; var hbarT = t + h; if(hbarT + hbarH > fullHeight) hbarT = fullHeight - hbarH; var hbar = this.container.selectAll('rect.scrollbar-horizontal').data( (needsHorizontalScrollBar) ? [0] : []); hbar.exit() .on('.drag', null) .remove(); hbar.enter().append('rect') .classed('scrollbar-horizontal', true) .call(Color.fill, ScrollBox.barColor); if(needsHorizontalScrollBar) { this.hbar = hbar.attr({ 'rx': ScrollBox.barRadius, 'ry': ScrollBox.barRadius, 'x': hbarL, 'y': hbarT, 'width': hbarW, 'height': hbarH }); // hbar center moves between hbarXMin and hbarXMin + hbarTranslateMax this._hbarXMin = hbarL + hbarW / 2; this._hbarTranslateMax = boxW - hbarW; } else { delete this.hbar; delete this._hbarXMin; delete this._hbarTranslateMax; } // compute position of vertical scroll bar var needsVerticalScrollBar = (h > boxH); var vbarW = ScrollBox.barWidth + 2 * ScrollBox.barPad; var vbarH = ScrollBox.barLength + 2 * ScrollBox.barPad; // draw vertical scrollbar on the right side var vbarL = l + w; var vbarT = t; if(vbarL + vbarW > fullWidth) vbarL = fullWidth - vbarW; var vbar = this.container.selectAll('rect.scrollbar-vertical').data( (needsVerticalScrollBar) ? [0] : []); vbar.exit() .on('.drag', null) .remove(); vbar.enter().append('rect') .classed('scrollbar-vertical', true) .call(Color.fill, ScrollBox.barColor); if(needsVerticalScrollBar) { this.vbar = vbar.attr({ 'rx': ScrollBox.barRadius, 'ry': ScrollBox.barRadius, 'x': vbarL, 'y': vbarT, 'width': vbarW, 'height': vbarH }); // vbar center moves between vbarYMin and vbarYMin + vbarTranslateMax this._vbarYMin = vbarT + vbarH / 2; this._vbarTranslateMax = boxH - vbarH; } else { delete this.vbar; delete this._vbarYMin; delete this._vbarTranslateMax; } // setup a clip path (if scroll bars are needed) var clipId = this.id; var clipL = boxL - 0.5; var clipR = (needsVerticalScrollBar) ? boxR + vbarW + 0.5 : boxR + 0.5; var clipT = boxT - 0.5; var clipB = (needsHorizontalScrollBar) ? boxB + hbarH + 0.5 : boxB + 0.5; var clipPath = fullLayout._topdefs.selectAll('#' + clipId) .data((needsHorizontalScrollBar || needsVerticalScrollBar) ? [0] : []); clipPath.exit().remove(); clipPath.enter() .append('clipPath').attr('id', clipId) .append('rect'); if(needsHorizontalScrollBar || needsVerticalScrollBar) { this._clipRect = clipPath.select('rect').attr({ x: Math.floor(clipL), y: Math.floor(clipT), width: Math.ceil(clipR) - Math.floor(clipL), height: Math.ceil(clipB) - Math.floor(clipT) }); this.container.call(Drawing.setClipUrl, clipId, this.gd); this.bg.attr({ x: l, y: t, width: w, height: h }); } else { this.bg.attr({ width: 0, height: 0 }); this.container .on('wheel', null) .on('.drag', null) .call(Drawing.setClipUrl, null); delete this._clipRect; } // set up drag listeners (if scroll bars are needed) if(needsHorizontalScrollBar || needsVerticalScrollBar) { var onBoxDrag = d3.behavior.drag() .on('dragstart', function() { d3.event.sourceEvent.preventDefault(); }) .on('drag', this._onBoxDrag.bind(this)); this.container .on('wheel', null) .on('wheel', this._onBoxWheel.bind(this)) .on('.drag', null) .call(onBoxDrag); var onBarDrag = d3.behavior.drag() .on('dragstart', function() { d3.event.sourceEvent.preventDefault(); d3.event.sourceEvent.stopPropagation(); }) .on('drag', this._onBarDrag.bind(this)); if(needsHorizontalScrollBar) { this.hbar .on('.drag', null) .call(onBarDrag); } if(needsVerticalScrollBar) { this.vbar .on('.drag', null) .call(onBarDrag); } } // set scrollbox translation this.setTranslate(translateX, translateY); }; /** * If present, remove clip-path and scrollbars * * @method */ ScrollBox.prototype.disable = function disable() { if(this.hbar || this.vbar) { this.bg.attr({ width: 0, height: 0 }); this.container .on('wheel', null) .on('.drag', null) .call(Drawing.setClipUrl, null); delete this._clipRect; } if(this.hbar) { this.hbar.on('.drag', null); this.hbar.remove(); delete this.hbar; delete this._hbarXMin; delete this._hbarTranslateMax; } if(this.vbar) { this.vbar.on('.drag', null); this.vbar.remove(); delete this.vbar; delete this._vbarYMin; delete this._vbarTranslateMax; } }; /** * Handles scroll box drag events * * @method */ ScrollBox.prototype._onBoxDrag = function _onBoxDrag() { var translateX = this.translateX; var translateY = this.translateY; if(this.hbar) { translateX -= d3.event.dx; } if(this.vbar) { translateY -= d3.event.dy; } this.setTranslate(translateX, translateY); }; /** * Handles scroll box wheel events * * @method */ ScrollBox.prototype._onBoxWheel = function _onBoxWheel() { var translateX = this.translateX; var translateY = this.translateY; if(this.hbar) { translateX += d3.event.deltaY; } if(this.vbar) { translateY += d3.event.deltaY; } this.setTranslate(translateX, translateY); }; /** * Handles scroll bar drag events * * @method */ ScrollBox.prototype._onBarDrag = function _onBarDrag() { var translateX = this.translateX; var translateY = this.translateY; if(this.hbar) { var xMin = translateX + this._hbarXMin; var xMax = xMin + this._hbarTranslateMax; var x = Lib.constrain(d3.event.x, xMin, xMax); var xf = (x - xMin) / (xMax - xMin); var translateXMax = this.position.w - this._box.w; translateX = xf * translateXMax; } if(this.vbar) { var yMin = translateY + this._vbarYMin; var yMax = yMin + this._vbarTranslateMax; var y = Lib.constrain(d3.event.y, yMin, yMax); var yf = (y - yMin) / (yMax - yMin); var translateYMax = this.position.h - this._box.h; translateY = yf * translateYMax; } this.setTranslate(translateX, translateY); }; /** * Set clip path and scroll bar translate transform * * @method * @param {number} [translateX=0] Horizontal offset (in pixels) * @param {number} [translateY=0] Vertical offset (in pixels) */ ScrollBox.prototype.setTranslate = function setTranslate(translateX, translateY) { // store translateX and translateY (needed by mouse event handlers) var translateXMax = this.position.w - this._box.w; var translateYMax = this.position.h - this._box.h; translateX = Lib.constrain(translateX || 0, 0, translateXMax); translateY = Lib.constrain(translateY || 0, 0, translateYMax); this.translateX = translateX; this.translateY = translateY; this.container.call(Drawing.setTranslate, this._box.l - this.position.l - translateX, this._box.t - this.position.t - translateY); if(this._clipRect) { this._clipRect.attr({ x: Math.floor(this.position.l + translateX - 0.5), y: Math.floor(this.position.t + translateY - 0.5) }); } if(this.hbar) { var xf = translateX / translateXMax; this.hbar.call(Drawing.setTranslate, translateX + xf * this._hbarTranslateMax, translateY); } if(this.vbar) { var yf = translateY / translateYMax; this.vbar.call(Drawing.setTranslate, translateX, translateY + yf * this._vbarTranslateMax); } }; },{"../../lib":287,"../color":157,"../drawing":179,"@plotly/d3":20}],262:[function(_dereq_,module,exports){ 'use strict'; // fraction of some size to get to a named position module.exports = { // from bottom left: this is the origin of our paper-reference // positioning system FROM_BL: { left: 0, center: 0.5, right: 1, bottom: 0, middle: 0.5, top: 1 }, // from top left: this is the screen pixel positioning origin FROM_TL: { left: 0, center: 0.5, right: 1, bottom: 1, middle: 0.5, top: 0 }, // from bottom right: sometimes you just need the opposite of ^^ FROM_BR: { left: 1, center: 0.5, right: 0, bottom: 0, middle: 0.5, top: 1 }, // multiple of fontSize to get the vertical offset between lines LINE_SPACING: 1.3, // multiple of fontSize to shift from the baseline // to the cap (captical letter) line // (to use when we don't calculate this shift from Drawing.bBox) // This is an approximation since in reality cap height can differ // from font to font. However, according to Wikipedia // an "average" font might have a cap height of 70% of the em // https://en.wikipedia.org/wiki/Em_(typography)#History CAP_SHIFT: 0.70, // half the cap height (distance between baseline and cap line) // of an "average" font (for more info see above). MID_SHIFT: 0.35, OPPOSITE_SIDE: { left: 'right', right: 'left', top: 'bottom', bottom: 'top' } }; },{}],263:[function(_dereq_,module,exports){ 'use strict'; module.exports = { axisRefDescription: function(axisname, lower, upper) { return [ 'If set to a', axisname, 'axis id (e.g. *' + axisname + '* or', '*' + axisname + '2*), the `' + axisname + '` position refers to a', axisname, 'coordinate. If set to *paper*, the `' + axisname + '`', 'position refers to the distance from the', lower, 'of the plotting', 'area in normalized coordinates where *0* (*1*) corresponds to the', lower, '(' + upper + '). If set to a', axisname, 'axis ID followed by', '*domain* (separated by a space), the position behaves like for', '*paper*, but refers to the distance in fractions of the domain', 'length from the', lower, 'of the domain of that axis: e.g.,', '*' + axisname + '2 domain* refers to the domain of the second', axisname, ' axis and a', axisname, 'position of 0.5 refers to the', 'point between the', lower, 'and the', upper, 'of the domain of the', 'second', axisname, 'axis.', ].join(' '); } }; },{}],264:[function(_dereq_,module,exports){ 'use strict'; module.exports = { FORMAT_LINK: 'https://github.com/d3/d3-format/tree/v1.4.5#d3-format', DATE_FORMAT_LINK: 'https://github.com/d3/d3-time-format/tree/v2.2.3#locale_format' }; },{}],265:[function(_dereq_,module,exports){ 'use strict'; module.exports = { COMPARISON_OPS: ['=', '!=', '<', '>=', '>', '<='], COMPARISON_OPS2: ['=', '<', '>=', '>', '<='], INTERVAL_OPS: ['[]', '()', '[)', '(]', '][', ')(', '](', ')['], SET_OPS: ['{}', '}{'], CONSTRAINT_REDUCTION: { // for contour constraints, open/closed endpoints are equivalent '=': '=', '<': '<', '<=': '<', '>': '>', '>=': '>', '[]': '[]', '()': '[]', '[)': '[]', '(]': '[]', '][': '][', ')(': '][', '](': '][', ')[': '][' } }; },{}],266:[function(_dereq_,module,exports){ 'use strict'; module.exports = { /** * Timing information for interactive elements */ SHOW_PLACEHOLDER: 100, HIDE_PLACEHOLDER: 1000, // opacity dimming fraction for points that are not in selection DESELECTDIM: 0.2 }; },{}],267:[function(_dereq_,module,exports){ 'use strict'; module.exports = { /** * Standardize all missing data in calcdata to use undefined * never null or NaN. * That way we can use !==undefined, or !== BADNUM, * to test for real data */ BADNUM: undefined, /* * Limit certain operations to well below floating point max value * to avoid glitches: Make sure that even when you multiply it by the * number of pixels on a giant screen it still works */ FP_SAFE: Number.MAX_VALUE * 1e-4, /* * conversion of date units to milliseconds * year and month constants are marked "AVG" * to remind us that not all years and months * have the same length */ ONEMAXYEAR: 31622400000, // 366 * ONEDAY ONEAVGYEAR: 31557600000, // 365.25 days ONEMINYEAR: 31536000000, // 365 * ONEDAY ONEMAXQUARTER: 7948800000, // 92 * ONEDAY ONEAVGQUARTER: 7889400000, // 1/4 of ONEAVGYEAR ONEMINQUARTER: 7689600000, // 89 * ONEDAY ONEMAXMONTH: 2678400000, // 31 * ONEDAY ONEAVGMONTH: 2629800000, // 1/12 of ONEAVGYEAR ONEMINMONTH: 2419200000, // 28 * ONEDAY ONEWEEK: 604800000, // 7 * ONEDAY ONEDAY: 86400000, // 24 * ONEHOUR ONEHOUR: 3600000, ONEMIN: 60000, ONESEC: 1000, /* * For fast conversion btwn world calendars and epoch ms, the Julian Day Number * of the unix epoch. From calendars.instance().newDate(1970, 1, 1).toJD() */ EPOCHJD: 2440587.5, /* * Are two values nearly equal? Compare to 1PPM */ ALMOST_EQUAL: 1 - 1e-6, /* * If we're asked to clip a non-positive log value, how far off-screen * do we put it? */ LOG_CLIP: 10, /* * not a number, but for displaying numbers: the "minus sign" symbol is * wider than the regular ascii dash "-" */ MINUS_SIGN: '\u2212' }; },{}],268:[function(_dereq_,module,exports){ 'use strict'; exports.xmlns = 'http://www.w3.org/2000/xmlns/'; exports.svg = 'http://www.w3.org/2000/svg'; exports.xlink = 'http://www.w3.org/1999/xlink'; // the 'old' d3 quirk got fix in v3.5.7 // https://github.com/mbostock/d3/commit/a6f66e9dd37f764403fc7c1f26be09ab4af24fed exports.svgAttrs = { xmlns: exports.svg, 'xmlns:xlink': exports.xlink }; },{}],269:[function(_dereq_,module,exports){ 'use strict'; exports.version = _dereq_('./version').version; // inject promise polyfill _dereq_('native-promise-only'); // inject plot css _dereq_('../build/plotcss'); // include registry module and expose register method var Registry = _dereq_('./registry'); var register = exports.register = Registry.register; // expose plot api methods var plotApi = _dereq_('./plot_api'); var methodNames = Object.keys(plotApi); for(var i = 0; i < methodNames.length; i++) { var name = methodNames[i]; // _ -> private API methods, but still registered for internal use if(name.charAt(0) !== '_') exports[name] = plotApi[name]; register({ moduleType: 'apiMethod', name: name, fn: plotApi[name] }); } // scatter is the only trace included by default register(_dereq_('./traces/scatter')); // register all registrable components modules register([ _dereq_('./components/legend'), _dereq_('./components/fx'), // fx needs to come after legend _dereq_('./components/annotations'), _dereq_('./components/annotations3d'), _dereq_('./components/shapes'), _dereq_('./components/images'), _dereq_('./components/updatemenus'), _dereq_('./components/sliders'), _dereq_('./components/rangeslider'), _dereq_('./components/rangeselector'), _dereq_('./components/grid'), _dereq_('./components/errorbars'), _dereq_('./components/colorscale'), _dereq_('./components/colorbar'), _dereq_('./components/modebar') ]); // locales en and en-US are required for default behavior register([ _dereq_('./locale-en'), _dereq_('./locale-en-us') ]); // locales that are present in the window should be loaded if(window.PlotlyLocales && Array.isArray(window.PlotlyLocales)) { register(window.PlotlyLocales); delete window.PlotlyLocales; } // plot icons exports.Icons = _dereq_('./fonts/ploticon'); // unofficial 'beta' plot methods, use at your own risk var Fx = _dereq_('./components/fx'); var Plots = _dereq_('./plots/plots'); exports.Plots = { resize: Plots.resize, graphJson: Plots.graphJson, sendDataToCloud: Plots.sendDataToCloud }; exports.Fx = { hover: Fx.hover, unhover: Fx.unhover, loneHover: Fx.loneHover, loneUnhover: Fx.loneUnhover }; exports.Snapshot = _dereq_('./snapshot'); exports.PlotSchema = _dereq_('./plot_api/plot_schema'); 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isRightAnchor(opts) { return ( opts.xanchor === 'right' || (opts.xanchor === 'auto' && opts.x >= 2 / 3) ); }; exports.isTopAnchor = function isTopAnchor(opts) { return ( opts.yanchor === 'top' || (opts.yanchor === 'auto' && opts.y >= 2 / 3) ); }; exports.isMiddleAnchor = function isMiddleAnchor(opts) { return ( opts.yanchor === 'middle' || (opts.yanchor === 'auto' && opts.y > 1 / 3 && opts.y < 2 / 3) ); }; exports.isBottomAnchor = function isBottomAnchor(opts) { return ( opts.yanchor === 'bottom' || (opts.yanchor === 'auto' && opts.y <= 1 / 3) ); }; },{}],272:[function(_dereq_,module,exports){ 'use strict'; var modModule = _dereq_('./mod'); var mod = modModule.mod; var modHalf = modModule.modHalf; var PI = Math.PI; var twoPI = 2 * PI; function deg2rad(deg) { return deg / 180 * PI; } function rad2deg(rad) { return rad / PI * 180; } /** * is sector a full circle? * ... this comes up a lot in SVG path-drawing routines * * N.B. we consider all sectors that span more that 2pi 'full' circles * * @param {2-item array} aBnds : angular bounds in *radians* * @return {boolean} */ function isFullCircle(aBnds) { return Math.abs(aBnds[1] - aBnds[0]) > twoPI - 1e-14; } /** * angular delta between angle 'a' and 'b' * solution taken from: https://stackoverflow.com/a/2007279 * * @param {number} a : first angle in *radians* * @param {number} b : second angle in *radians* * @return {number} angular delta in *radians* */ function angleDelta(a, b) { return modHalf(b - a, twoPI); } /** * angular distance between angle 'a' and 'b' * * @param {number} a : first angle in *radians* * @param {number} b : second angle in *radians* * @return {number} angular distance in *radians* */ function angleDist(a, b) { return Math.abs(angleDelta(a, b)); } /** * is angle inside sector? * * @param {number} a : angle to test in *radians* * @param {2-item array} aBnds : sector's angular bounds in *radians* * @param {boolean} */ function isAngleInsideSector(a, aBnds) { if(isFullCircle(aBnds)) return true; var s0, s1; if(aBnds[0] < aBnds[1]) { s0 = aBnds[0]; s1 = aBnds[1]; } else { s0 = aBnds[1]; s1 = aBnds[0]; } s0 = mod(s0, twoPI); s1 = mod(s1, twoPI); if(s0 > s1) s1 += twoPI; var a0 = mod(a, twoPI); var a1 = a0 + twoPI; return (a0 >= s0 && a0 <= s1) || (a1 >= s0 && a1 <= s1); } /** * is pt (r,a) inside sector? * * @param {number} r : pt's radial coordinate * @param {number} a : pt's angular coordinate in *radians* * @param {2-item array} rBnds : sector's radial bounds * @param {2-item array} aBnds : sector's angular bounds in *radians* * @return {boolean} */ function isPtInsideSector(r, a, rBnds, aBnds) { if(!isAngleInsideSector(a, aBnds)) return false; var r0, r1; if(rBnds[0] < rBnds[1]) { r0 = rBnds[0]; r1 = rBnds[1]; } else { r0 = rBnds[1]; r1 = rBnds[0]; } return r >= r0 && r <= r1; } // common to pathArc, pathSector and pathAnnulus function _path(r0, r1, a0, a1, cx, cy, isClosed) { cx = cx || 0; cy = cy || 0; var isCircle = isFullCircle([a0, a1]); var aStart, aMid, aEnd; var rStart, rEnd; if(isCircle) { aStart = 0; aMid = PI; aEnd = twoPI; } else { if(a0 < a1) { aStart = a0; aEnd = a1; } else { aStart = a1; aEnd = a0; } } if(r0 < r1) { rStart = r0; rEnd = r1; } else { rStart = r1; rEnd = r0; } // N.B. svg coordinates here, where y increases downward function pt(r, a) { return [r * Math.cos(a) + cx, cy - r * Math.sin(a)]; } var largeArc = Math.abs(aEnd - aStart) <= PI ? 0 : 1; function arc(r, a, cw) { return 'A' + [r, r] + ' ' + [0, largeArc, cw] + ' ' + pt(r, a); } var p; if(isCircle) { if(rStart === null) { p = 'M' + pt(rEnd, aStart) + arc(rEnd, aMid, 0) + arc(rEnd, aEnd, 0) + 'Z'; } else { p = 'M' + pt(rStart, aStart) + arc(rStart, aMid, 0) + arc(rStart, aEnd, 0) + 'Z' + 'M' + pt(rEnd, aStart) + arc(rEnd, aMid, 1) + arc(rEnd, aEnd, 1) + 'Z'; } } else { if(rStart === null) { p = 'M' + pt(rEnd, aStart) + arc(rEnd, aEnd, 0); if(isClosed) p += 'L0,0Z'; } else { p = 'M' + pt(rStart, aStart) + 'L' + pt(rEnd, aStart) + arc(rEnd, aEnd, 0) + 'L' + pt(rStart, aEnd) + arc(rStart, aStart, 1) + 'Z'; } } return p; } /** * path an arc * * @param {number} r : radius * @param {number} a0 : first angular coordinate in *radians* * @param {number} a1 : second angular coordinate in *radians* * @param {number (optional)} cx : x coordinate of center * @param {number (optional)} cy : y coordinate of center * @return {string} svg path */ function pathArc(r, a0, a1, cx, cy) { return _path(null, r, a0, a1, cx, cy, 0); } /** * path a sector * * @param {number} r : radius * @param {number} a0 : first angular coordinate in *radians* * @param {number} a1 : second angular coordinate in *radians* * @param {number (optional)} cx : x coordinate of center * @param {number (optional)} cy : y coordinate of center * @return {string} svg path */ function pathSector(r, a0, a1, cx, cy) { return _path(null, r, a0, a1, cx, cy, 1); } /** * path an annulus * * @param {number} r0 : first radial coordinate * @param {number} r1 : second radial coordinate * @param {number} a0 : first angular coordinate in *radians* * @param {number} a1 : second angular coordinate in *radians* * @param {number (optional)} cx : x coordinate of center * @param {number (optional)} cy : y coordinate of center * @return {string} svg path */ function pathAnnulus(r0, r1, a0, a1, cx, cy) { return _path(r0, r1, a0, a1, cx, cy, 1); } module.exports = { deg2rad: deg2rad, rad2deg: rad2deg, angleDelta: angleDelta, angleDist: angleDist, isFullCircle: isFullCircle, isAngleInsideSector: isAngleInsideSector, isPtInsideSector: isPtInsideSector, pathArc: pathArc, pathSector: pathSector, pathAnnulus: pathAnnulus }; },{"./mod":294}],273:[function(_dereq_,module,exports){ 'use strict'; var isArray = Array.isArray; var ab = ArrayBuffer; var dv = DataView; function isTypedArray(a) { return ab.isView(a) && !(a instanceof dv); } exports.isTypedArray = isTypedArray; function isArrayOrTypedArray(a) { return isArray(a) || isTypedArray(a); } exports.isArrayOrTypedArray = isArrayOrTypedArray; /* * Test whether an input object is 1D. * * Assumes we already know the object is an array. * * Looks only at the first element, if the dimensionality is * not consistent we won't figure that out here. */ function isArray1D(a) { return !isArrayOrTypedArray(a[0]); } exports.isArray1D = isArray1D; /* * Ensures an array has the right amount of storage space. If it doesn't * exist, it creates an array. If it does exist, it returns it if too * short or truncates it in-place. * * The goal is to just reuse memory to avoid a bit of excessive garbage * collection. */ exports.ensureArray = function(out, n) { // TODO: typed array support here? This is only used in // traces/carpet/compute_control_points if(!isArray(out)) out = []; // If too long, truncate. (If too short, it will grow // automatically so we don't care about that case) out.length = n; return out; }; /* * TypedArray-compatible concatenation of n arrays * if all arrays are the same type it will preserve that type, * otherwise it falls back on Array. * Also tries to avoid copying, in case one array has zero length * But never mutates an existing array */ exports.concat = function() { var args = []; var allArray = true; var totalLen = 0; var _constructor, arg0, i, argi, posi, leni, out, j; for(i = 0; i < arguments.length; i++) { argi = arguments[i]; leni = argi.length; if(leni) { if(arg0) args.push(argi); else { arg0 = argi; posi = leni; } if(isArray(argi)) { _constructor = false; } else { allArray = false; if(!totalLen) { _constructor = argi.constructor; } else if(_constructor !== argi.constructor) { // TODO: in principle we could upgrade here, // ie keep typed array but convert all to Float64Array? _constructor = false; } } totalLen += leni; } } if(!totalLen) return []; if(!args.length) return arg0; if(allArray) return arg0.concat.apply(arg0, args); if(_constructor) { // matching typed arrays out = new _constructor(totalLen); out.set(arg0); for(i = 0; i < args.length; i++) { argi = args[i]; out.set(argi, posi); posi += argi.length; } return out; } // mismatched types or Array + typed out = new Array(totalLen); for(j = 0; j < arg0.length; j++) out[j] = arg0[j]; for(i = 0; i < args.length; i++) { argi = args[i]; for(j = 0; j < argi.length; j++) out[posi + j] = argi[j]; posi += j; } return out; }; exports.maxRowLength = function(z) { return _rowLength(z, Math.max, 0); }; exports.minRowLength = function(z) { return _rowLength(z, Math.min, Infinity); }; function _rowLength(z, fn, len0) { if(isArrayOrTypedArray(z)) { if(isArrayOrTypedArray(z[0])) { var len = len0; for(var i = 0; i < z.length; i++) { len = fn(len, z[i].length); } return len; } else { return z.length; } } return 0; } },{}],274:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var BADNUM = _dereq_('../constants/numerical').BADNUM; // precompile for speed var JUNK = /^['"%,$#\s']+|[, ]|['"%,$#\s']+$/g; /** * cleanNumber: remove common leading and trailing cruft * Always returns either a number or BADNUM. */ module.exports = function cleanNumber(v) { if(typeof v === 'string') { v = v.replace(JUNK, ''); } if(isNumeric(v)) return Number(v); return BADNUM; }; },{"../constants/numerical":267,"fast-isnumeric":33}],275:[function(_dereq_,module,exports){ 'use strict'; /** * Clear gl frame (if any). This is a common pattern as * we usually set `preserveDrawingBuffer: true` during * gl context creation (e.g. via `reglUtils.prepare`). * * @param {DOM node or object} gd : graph div object */ module.exports = function clearGlCanvases(gd) { var fullLayout = gd._fullLayout; if(fullLayout._glcanvas && fullLayout._glcanvas.size()) { fullLayout._glcanvas.each(function(d) { if(d.regl) d.regl.clear({color: true, depth: true}); }); } }; },{}],276:[function(_dereq_,module,exports){ 'use strict'; /** * Clear responsive handlers (if any). * * @param {DOM node or object} gd : graph div object */ module.exports = function clearResponsive(gd) { if(gd._responsiveChartHandler) { window.removeEventListener('resize', gd._responsiveChartHandler); delete gd._responsiveChartHandler; } }; },{}],277:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var tinycolor = _dereq_('tinycolor2'); var baseTraceAttrs = _dereq_('../plots/attributes'); var colorscales = _dereq_('../components/colorscale/scales'); var Color = _dereq_('../components/color'); var DESELECTDIM = _dereq_('../constants/interactions').DESELECTDIM; var nestedProperty = _dereq_('./nested_property'); var counterRegex = _dereq_('./regex').counter; var modHalf = _dereq_('./mod').modHalf; var isArrayOrTypedArray = _dereq_('./array').isArrayOrTypedArray; exports.valObjectMeta = { data_array: { // You can use *dflt=[] to force said array to exist though. coerceFunction: function(v, propOut, dflt) { // TODO maybe `v: {type: 'float32', vals: [/* ... */]}` also if(isArrayOrTypedArray(v)) propOut.set(v); else if(dflt !== undefined) propOut.set(dflt); } }, enumerated: { coerceFunction: function(v, propOut, dflt, opts) { if(opts.coerceNumber) v = +v; if(opts.values.indexOf(v) === -1) propOut.set(dflt); else propOut.set(v); }, validateFunction: function(v, opts) { if(opts.coerceNumber) v = +v; var values = opts.values; for(var i = 0; i < values.length; i++) { var k = String(values[i]); if((k.charAt(0) === '/' && k.charAt(k.length - 1) === '/')) { var regex = new RegExp(k.substr(1, k.length - 2)); if(regex.test(v)) return true; } else if(v === values[i]) return true; } return false; } }, 'boolean': { coerceFunction: function(v, propOut, dflt) { if(v === true || v === false) propOut.set(v); else propOut.set(dflt); } }, number: { coerceFunction: function(v, propOut, dflt, opts) { if(!isNumeric(v) || (opts.min !== undefined && v < opts.min) || (opts.max !== undefined && v > opts.max)) { propOut.set(dflt); } else propOut.set(+v); } }, integer: { coerceFunction: function(v, propOut, dflt, opts) { if(v % 1 || !isNumeric(v) || (opts.min !== undefined && v < opts.min) || (opts.max !== undefined && v > opts.max)) { propOut.set(dflt); } else propOut.set(+v); } }, string: { // TODO 'values shouldn't be in there (edge case: 'dash' in Scatter) coerceFunction: function(v, propOut, dflt, opts) { if(typeof v !== 'string') { var okToCoerce = (typeof v === 'number'); if(opts.strict === true || !okToCoerce) propOut.set(dflt); else propOut.set(String(v)); } else if(opts.noBlank && !v) propOut.set(dflt); else propOut.set(v); } }, color: { coerceFunction: function(v, propOut, dflt) { if(tinycolor(v).isValid()) propOut.set(v); else propOut.set(dflt); } }, colorlist: { coerceFunction: function(v, propOut, dflt) { function isColor(color) { return tinycolor(color).isValid(); } if(!Array.isArray(v) || !v.length) propOut.set(dflt); else if(v.every(isColor)) propOut.set(v); else propOut.set(dflt); } }, colorscale: { coerceFunction: function(v, propOut, dflt) { propOut.set(colorscales.get(v, dflt)); } }, angle: { coerceFunction: function(v, propOut, dflt) { if(v === 'auto') propOut.set('auto'); else if(!isNumeric(v)) propOut.set(dflt); else propOut.set(modHalf(+v, 360)); } }, subplotid: { coerceFunction: function(v, propOut, dflt, opts) { var regex = opts.regex || counterRegex(dflt); if(typeof v === 'string' && regex.test(v)) { propOut.set(v); return; } propOut.set(dflt); }, validateFunction: function(v, opts) { var dflt = opts.dflt; if(v === dflt) return true; if(typeof v !== 'string') return false; if(counterRegex(dflt).test(v)) return true; return false; } }, flaglist: { coerceFunction: function(v, propOut, dflt, opts) { if(typeof v !== 'string') { propOut.set(dflt); return; } if((opts.extras || []).indexOf(v) !== -1) { propOut.set(v); return; } var vParts = v.split('+'); var i = 0; while(i < vParts.length) { var vi = vParts[i]; if(opts.flags.indexOf(vi) === -1 || vParts.indexOf(vi) < i) { vParts.splice(i, 1); } else i++; } if(!vParts.length) propOut.set(dflt); else propOut.set(vParts.join('+')); } }, any: { coerceFunction: function(v, propOut, dflt) { if(v === undefined) propOut.set(dflt); else propOut.set(v); } }, info_array: { // set `dimensions=2` for a 2D array or '1-2' for either // `items` may be a single object instead of an array, in which case // `freeLength` must be true. // if `dimensions='1-2'` and items is a 1D array, then the value can // either be a matching 1D array or an array of such matching 1D arrays coerceFunction: function(v, propOut, dflt, opts) { // simplified coerce function just for array items function coercePart(v, opts, dflt) { var out; var propPart = {set: function(v) { out = v; }}; if(dflt === undefined) dflt = opts.dflt; exports.valObjectMeta[opts.valType].coerceFunction(v, propPart, dflt, opts); return out; } var twoD = opts.dimensions === 2 || (opts.dimensions === '1-2' && Array.isArray(v) && Array.isArray(v[0])); if(!Array.isArray(v)) { propOut.set(dflt); return; } var items = opts.items; var vOut = []; var arrayItems = Array.isArray(items); var arrayItems2D = arrayItems && twoD && Array.isArray(items[0]); var innerItemsOnly = twoD && arrayItems && !arrayItems2D; var len = (arrayItems && !innerItemsOnly) ? items.length : v.length; var i, j, row, item, len2, vNew; dflt = Array.isArray(dflt) ? dflt : []; if(twoD) { for(i = 0; i < len; i++) { vOut[i] = []; row = Array.isArray(v[i]) ? v[i] : []; if(innerItemsOnly) len2 = items.length; else if(arrayItems) len2 = items[i].length; else len2 = row.length; for(j = 0; j < len2; j++) { if(innerItemsOnly) item = items[j]; else if(arrayItems) item = items[i][j]; else item = items; vNew = coercePart(row[j], item, (dflt[i] || [])[j]); if(vNew !== undefined) vOut[i][j] = vNew; } } } else { for(i = 0; i < len; i++) { vNew = coercePart(v[i], arrayItems ? items[i] : items, dflt[i]); if(vNew !== undefined) vOut[i] = vNew; } } propOut.set(vOut); }, validateFunction: function(v, opts) { if(!Array.isArray(v)) return false; var items = opts.items; var arrayItems = Array.isArray(items); var twoD = opts.dimensions === 2; // when free length is off, input and declared lengths must match if(!opts.freeLength && v.length !== items.length) return false; // valid when all input items are valid for(var i = 0; i < v.length; i++) { if(twoD) { if(!Array.isArray(v[i]) || (!opts.freeLength && v[i].length !== items[i].length)) { return false; } for(var j = 0; j < v[i].length; j++) { if(!validate(v[i][j], arrayItems ? items[i][j] : items)) { return false; } } } else if(!validate(v[i], arrayItems ? items[i] : items)) return false; } return true; } } }; /** * Ensures that container[attribute] has a valid value. * * attributes[attribute] is an object with possible keys: * - valType: data_array, enumerated, boolean, ... as in valObjectMeta * - values: (enumerated only) array of allowed vals * - min, max: (number, integer only) inclusive bounds on allowed vals * either or both may be omitted * - dflt: if attribute is invalid or missing, use this default * if dflt is provided as an argument to lib.coerce it takes precedence * as a convenience, returns the value it finally set */ exports.coerce = function(containerIn, containerOut, attributes, attribute, dflt) { var opts = nestedProperty(attributes, attribute).get(); var propIn = nestedProperty(containerIn, attribute); var propOut = nestedProperty(containerOut, attribute); var v = propIn.get(); var template = containerOut._template; if(v === undefined && template) { v = nestedProperty(template, attribute).get(); // already used the template value, so short-circuit the second check template = 0; } if(dflt === undefined) dflt = opts.dflt; /** * arrayOk: value MAY be an array, then we do no value checking * at this point, because it can be more complicated than the * individual form (eg. some array vals can be numbers, even if the * single values must be color strings) */ if(opts.arrayOk && isArrayOrTypedArray(v)) { propOut.set(v); return v; } var coerceFunction = exports.valObjectMeta[opts.valType].coerceFunction; coerceFunction(v, propOut, dflt, opts); var out = propOut.get(); // in case v was provided but invalid, try the template again so it still // overrides the regular default if(template && out === dflt && !validate(v, opts)) { v = nestedProperty(template, attribute).get(); coerceFunction(v, propOut, dflt, opts); out = propOut.get(); } return out; }; /** * Variation on coerce * * Uses coerce to get attribute value if user input is valid, * returns attribute default if user input it not valid or * returns false if there is no user input. */ exports.coerce2 = function(containerIn, containerOut, attributes, attribute, dflt) { var propIn = nestedProperty(containerIn, attribute); var propOut = exports.coerce(containerIn, containerOut, attributes, attribute, dflt); var valIn = propIn.get(); return (valIn !== undefined && valIn !== null) ? propOut : false; }; /* * Shortcut to coerce the three font attributes * * 'coerce' is a lib.coerce wrapper with implied first three arguments */ exports.coerceFont = function(coerce, attr, dfltObj) { var out = {}; dfltObj = dfltObj || {}; out.family = coerce(attr + '.family', dfltObj.family); out.size = coerce(attr + '.size', dfltObj.size); out.color = coerce(attr + '.color', dfltObj.color); return out; }; /* * Shortcut to coerce the pattern attributes */ exports.coercePattern = function(coerce, attr, markerColor, hasMarkerColorscale) { var shape = coerce(attr + '.shape'); if(shape) { coerce(attr + '.solidity'); coerce(attr + '.size'); var fillmode = coerce(attr + '.fillmode'); var isOverlay = fillmode === 'overlay'; if(!hasMarkerColorscale) { var bgcolor = coerce(attr + '.bgcolor', isOverlay ? markerColor : undefined ); coerce(attr + '.fgcolor', isOverlay ? Color.contrast(bgcolor) : markerColor ); } coerce(attr + '.fgopacity', isOverlay ? 0.5 : 1 ); } }; /** Coerce shortcut for 'hoverinfo' * handling 1-vs-multi-trace dflt logic * * @param {object} traceIn : user trace object * @param {object} traceOut : full trace object (requires _module ref) * @param {object} layoutOut : full layout object (require _dataLength ref) * @return {any} : the coerced value */ exports.coerceHoverinfo = function(traceIn, traceOut, layoutOut) { var moduleAttrs = traceOut._module.attributes; var attrs = moduleAttrs.hoverinfo ? moduleAttrs : baseTraceAttrs; var valObj = attrs.hoverinfo; var dflt; if(layoutOut._dataLength === 1) { var flags = valObj.dflt === 'all' ? valObj.flags.slice() : valObj.dflt.split('+'); flags.splice(flags.indexOf('name'), 1); dflt = flags.join('+'); } return exports.coerce(traceIn, traceOut, attrs, 'hoverinfo', dflt); }; /** Coerce shortcut for [un]selected.marker.opacity, * which has special default logic, to ensure that it corresponds to the * default selection behavior while allowing to be overtaken by any other * [un]selected attribute. * * N.B. This must be called *after* coercing all the other [un]selected attrs, * to give the intended result. * * @param {object} traceOut : fullData item * @param {function} coerce : lib.coerce wrapper with implied first three arguments */ exports.coerceSelectionMarkerOpacity = function(traceOut, coerce) { if(!traceOut.marker) return; var mo = traceOut.marker.opacity; // you can still have a `marker` container with no markers if there's text if(mo === undefined) return; var smoDflt; var usmoDflt; // Don't give [un]selected.marker.opacity a default value if // marker.opacity is an array: handle this during style step. // // Only give [un]selected.marker.opacity a default value if you don't // set any other [un]selected attributes. if(!isArrayOrTypedArray(mo) && !traceOut.selected && !traceOut.unselected) { smoDflt = mo; usmoDflt = DESELECTDIM * mo; } coerce('selected.marker.opacity', smoDflt); coerce('unselected.marker.opacity', usmoDflt); }; function validate(value, opts) { var valObjectDef = exports.valObjectMeta[opts.valType]; if(opts.arrayOk && isArrayOrTypedArray(value)) return true; if(valObjectDef.validateFunction) { return valObjectDef.validateFunction(value, opts); } var failed = {}; var out = failed; var propMock = { set: function(v) { out = v; } }; // 'failed' just something mutable that won't be === anything else valObjectDef.coerceFunction(value, propMock, failed, opts); return out !== failed; } exports.validate = validate; },{"../components/color":157,"../components/colorscale/scales":172,"../constants/interactions":266,"../plots/attributes":330,"./array":273,"./mod":294,"./nested_property":295,"./regex":303,"fast-isnumeric":33,"tinycolor2":121}],278:[function(_dereq_,module,exports){ 'use strict'; var timeFormat = _dereq_('d3-time-format').timeFormat; var isNumeric = _dereq_('fast-isnumeric'); var Loggers = _dereq_('./loggers'); var mod = _dereq_('./mod').mod; var constants = _dereq_('../constants/numerical'); var BADNUM = constants.BADNUM; var ONEDAY = constants.ONEDAY; var ONEHOUR = constants.ONEHOUR; var ONEMIN = constants.ONEMIN; var ONESEC = constants.ONESEC; var EPOCHJD = constants.EPOCHJD; var Registry = _dereq_('../registry'); var utcFormat = _dereq_('d3-time-format').utcFormat; var DATETIME_REGEXP = /^\s*(-?\d\d\d\d|\d\d)(-(\d?\d)(-(\d?\d)([ Tt]([01]?\d|2[0-3])(:([0-5]\d)(:([0-5]\d(\.\d+)?))?(Z|z|[+\-]\d\d(:?\d\d)?)?)?)?)?)?\s*$/m; // special regex for chinese calendars to support yyyy-mmi-dd etc for intercalary months var DATETIME_REGEXP_CN = /^\s*(-?\d\d\d\d|\d\d)(-(\d?\di?)(-(\d?\d)([ Tt]([01]?\d|2[0-3])(:([0-5]\d)(:([0-5]\d(\.\d+)?))?(Z|z|[+\-]\d\d(:?\d\d)?)?)?)?)?)?\s*$/m; // for 2-digit years, the first year we map them onto var YFIRST = new Date().getFullYear() - 70; function isWorldCalendar(calendar) { return ( calendar && Registry.componentsRegistry.calendars && typeof calendar === 'string' && calendar !== 'gregorian' ); } /* * dateTick0: get the canonical tick for this calendar * * integer weekdays : Saturday: 0, Sunday: 1, Monday: 2, etc. */ exports.dateTick0 = function(calendar, dayOfWeek) { var tick0 = _dateTick0(calendar, !!dayOfWeek); if(dayOfWeek < 2) return tick0; var v = exports.dateTime2ms(tick0, calendar); v += ONEDAY * (dayOfWeek - 1); // shift Sunday to Monday, etc. return exports.ms2DateTime(v, 0, calendar); }; /* * _dateTick0: get the canonical tick for this calendar * * bool sunday is for week ticks, shift it to a Sunday. */ function _dateTick0(calendar, sunday) { if(isWorldCalendar(calendar)) { return sunday ? Registry.getComponentMethod('calendars', 'CANONICAL_SUNDAY')[calendar] : Registry.getComponentMethod('calendars', 'CANONICAL_TICK')[calendar]; } else { return sunday ? '2000-01-02' : '2000-01-01'; } } /* * dfltRange: for each calendar, give a valid default range */ exports.dfltRange = function(calendar) { if(isWorldCalendar(calendar)) { return Registry.getComponentMethod('calendars', 'DFLTRANGE')[calendar]; } else { return ['2000-01-01', '2001-01-01']; } }; // is an object a javascript date? exports.isJSDate = function(v) { return typeof v === 'object' && v !== null && typeof v.getTime === 'function'; }; // The absolute limits of our date-time system // This is a little weird: we use MIN_MS and MAX_MS in dateTime2ms // but we use dateTime2ms to calculate them (after defining it!) var MIN_MS, MAX_MS; /** * dateTime2ms - turn a date object or string s into milliseconds * (relative to 1970-01-01, per javascript standard) * optional calendar (string) to use a non-gregorian calendar * * Returns BADNUM if it doesn't find a date * * strings should have the form: * * -?YYYY-mm-ddHH:MM:SS.sss? * * : space (our normal standard) or T or t (ISO-8601) * : Z, z, [+\-]HH:?MM or [+\-]HH and we THROW IT AWAY * this format comes from https://tools.ietf.org/html/rfc3339#section-5.6 * and 4.2.5.1 Difference between local time and UTC of day (ISO-8601) * but we allow it even with a space as the separator * * May truncate after any full field, and sss can be any length * even >3 digits, though javascript dates truncate to milliseconds, * we keep as much as javascript numeric precision can hold, but we only * report back up to 100 microsecond precision, because most dates support * this precision (close to 1970 support more, very far away support less) * * Expanded to support negative years to -9999 but you must always * give 4 digits, except for 2-digit positive years which we assume are * near the present time. * Note that we follow ISO 8601:2004: there *is* a year 0, which * is 1BC/BCE, and -1===2BC etc. * * World calendars: not all of these *have* agreed extensions to this full range, * if you have another calendar system but want a date range outside its validity, * you can use a gregorian date string prefixed with 'G' or 'g'. * * Where to cut off 2-digit years between 1900s and 2000s? * from https://docs.microsoft.com/en-us/office/troubleshoot/excel/two-digit-year-numbers#the-2029-rule: * 1930-2029 (the most retro of all...) * but in my mac chrome from eg. d=new Date(Date.parse('8/19/50')): * 1950-2049 * by Java, from http://stackoverflow.com/questions/2024273/: * now-80 - now+19 * or FileMaker Pro, from * https://fmhelp.filemaker.com/help/18/fmp/en/index.html#page/FMP_Help/dates-with-two-digit-years.html: * now-70 - now+29 * but python strptime etc, via * http://docs.python.org/py3k/library/time.html: * 1969-2068 (super forward-looking, but static, not sliding!) * * lets go with now-70 to now+29, and if anyone runs into this problem * they can learn the hard way not to use 2-digit years, as no choice we * make now will cover all possibilities. mostly this will all be taken * care of in initial parsing, should only be an issue for hand-entered data * currently (2016) this range is: * 1946-2045 */ exports.dateTime2ms = function(s, calendar) { // first check if s is a date object if(exports.isJSDate(s)) { // Convert to the UTC milliseconds that give the same // hours as this date has in the local timezone var tzOffset = s.getTimezoneOffset() * ONEMIN; var offsetTweak = (s.getUTCMinutes() - s.getMinutes()) * ONEMIN + (s.getUTCSeconds() - s.getSeconds()) * ONESEC + (s.getUTCMilliseconds() - s.getMilliseconds()); if(offsetTweak) { var comb = 3 * ONEMIN; tzOffset = tzOffset - comb / 2 + mod(offsetTweak - tzOffset + comb / 2, comb); } s = Number(s) - tzOffset; if(s >= MIN_MS && s <= MAX_MS) return s; return BADNUM; } // otherwise only accept strings and numbers if(typeof s !== 'string' && typeof s !== 'number') return BADNUM; s = String(s); var isWorld = isWorldCalendar(calendar); // to handle out-of-range dates in international calendars, accept // 'G' as a prefix to force the built-in gregorian calendar. var s0 = s.charAt(0); if(isWorld && (s0 === 'G' || s0 === 'g')) { s = s.substr(1); calendar = ''; } var isChinese = isWorld && calendar.substr(0, 7) === 'chinese'; var match = s.match(isChinese ? DATETIME_REGEXP_CN : DATETIME_REGEXP); if(!match) return BADNUM; var y = match[1]; var m = match[3] || '1'; var d = Number(match[5] || 1); var H = Number(match[7] || 0); var M = Number(match[9] || 0); var S = Number(match[11] || 0); if(isWorld) { // disallow 2-digit years for world calendars if(y.length === 2) return BADNUM; y = Number(y); var cDate; try { var calInstance = Registry.getComponentMethod('calendars', 'getCal')(calendar); if(isChinese) { var isIntercalary = m.charAt(m.length - 1) === 'i'; m = parseInt(m, 10); cDate = calInstance.newDate(y, calInstance.toMonthIndex(y, m, isIntercalary), d); } else { cDate = calInstance.newDate(y, Number(m), d); } } catch(e) { return BADNUM; } // Invalid ... date if(!cDate) return BADNUM; return ((cDate.toJD() - EPOCHJD) * ONEDAY) + (H * ONEHOUR) + (M * ONEMIN) + (S * ONESEC); } if(y.length === 2) { y = (Number(y) + 2000 - YFIRST) % 100 + YFIRST; } else y = Number(y); // new Date uses months from 0; subtract 1 here just so we // don't have to do it again during the validity test below m -= 1; // javascript takes new Date(0..99,m,d) to mean 1900-1999, so // to support years 0-99 we need to use setFullYear explicitly // Note that 2000 is a leap year. var date = new Date(Date.UTC(2000, m, d, H, M)); date.setUTCFullYear(y); if(date.getUTCMonth() !== m) return BADNUM; if(date.getUTCDate() !== d) return BADNUM; return date.getTime() + S * ONESEC; }; MIN_MS = exports.MIN_MS = exports.dateTime2ms('-9999'); MAX_MS = exports.MAX_MS = exports.dateTime2ms('9999-12-31 23:59:59.9999'); // is string s a date? (see above) exports.isDateTime = function(s, calendar) { return (exports.dateTime2ms(s, calendar) !== BADNUM); }; // pad a number with zeroes, to given # of digits before the decimal point function lpad(val, digits) { return String(val + Math.pow(10, digits)).substr(1); } /** * Turn ms into string of the form YYYY-mm-dd HH:MM:SS.ssss * Crop any trailing zeros in time, except never stop right after hours * (we could choose to crop '-01' from date too but for now we always * show the whole date) * Optional range r is the data range that applies, also in ms. * If rng is big, the later parts of time will be omitted */ var NINETYDAYS = 90 * ONEDAY; var THREEHOURS = 3 * ONEHOUR; var FIVEMIN = 5 * ONEMIN; exports.ms2DateTime = function(ms, r, calendar) { if(typeof ms !== 'number' || !(ms >= MIN_MS && ms <= MAX_MS)) return BADNUM; if(!r) r = 0; var msecTenths = Math.floor(mod(ms + 0.05, 1) * 10); var msRounded = Math.round(ms - msecTenths / 10); var dateStr, h, m, s, msec10, d; if(isWorldCalendar(calendar)) { var dateJD = Math.floor(msRounded / ONEDAY) + EPOCHJD; var timeMs = Math.floor(mod(ms, ONEDAY)); try { dateStr = Registry.getComponentMethod('calendars', 'getCal')(calendar) .fromJD(dateJD).formatDate('yyyy-mm-dd'); } catch(e) { // invalid date in this calendar - fall back to Gyyyy-mm-dd dateStr = utcFormat('G%Y-%m-%d')(new Date(msRounded)); } // yyyy does NOT guarantee 4-digit years. YYYY mostly does, but does // other things for a few calendars, so we can't trust it. Just pad // it manually (after the '-' if there is one) if(dateStr.charAt(0) === '-') { while(dateStr.length < 11) dateStr = '-0' + dateStr.substr(1); } else { while(dateStr.length < 10) dateStr = '0' + dateStr; } // TODO: if this is faster, we could use this block for extracting // the time components of regular gregorian too h = (r < NINETYDAYS) ? Math.floor(timeMs / ONEHOUR) : 0; m = (r < NINETYDAYS) ? Math.floor((timeMs % ONEHOUR) / ONEMIN) : 0; s = (r < THREEHOURS) ? Math.floor((timeMs % ONEMIN) / ONESEC) : 0; msec10 = (r < FIVEMIN) ? (timeMs % ONESEC) * 10 + msecTenths : 0; } else { d = new Date(msRounded); dateStr = utcFormat('%Y-%m-%d')(d); // <90 days: add hours and minutes - never *only* add hours h = (r < NINETYDAYS) ? d.getUTCHours() : 0; m = (r < NINETYDAYS) ? d.getUTCMinutes() : 0; // <3 hours: add seconds s = (r < THREEHOURS) ? d.getUTCSeconds() : 0; // <5 minutes: add ms (plus one extra digit, this is msec*10) msec10 = (r < FIVEMIN) ? d.getUTCMilliseconds() * 10 + msecTenths : 0; } return includeTime(dateStr, h, m, s, msec10); }; // For converting old-style milliseconds to date strings, // we use the local timezone rather than UTC like we use // everywhere else, both for backward compatibility and // because that's how people mostly use javasript date objects. // Clip one extra day off our date range though so we can't get // thrown beyond the range by the timezone shift. exports.ms2DateTimeLocal = function(ms) { if(!(ms >= MIN_MS + ONEDAY && ms <= MAX_MS - ONEDAY)) return BADNUM; var msecTenths = Math.floor(mod(ms + 0.05, 1) * 10); var d = new Date(Math.round(ms - msecTenths / 10)); var dateStr = timeFormat('%Y-%m-%d')(d); var h = d.getHours(); var m = d.getMinutes(); var s = d.getSeconds(); var msec10 = d.getUTCMilliseconds() * 10 + msecTenths; return includeTime(dateStr, h, m, s, msec10); }; function includeTime(dateStr, h, m, s, msec10) { // include each part that has nonzero data in or after it if(h || m || s || msec10) { dateStr += ' ' + lpad(h, 2) + ':' + lpad(m, 2); if(s || msec10) { dateStr += ':' + lpad(s, 2); if(msec10) { var digits = 4; while(msec10 % 10 === 0) { digits -= 1; msec10 /= 10; } dateStr += '.' + lpad(msec10, digits); } } } return dateStr; } // normalize date format to date string, in case it starts as // a Date object or milliseconds // optional dflt is the return value if cleaning fails exports.cleanDate = function(v, dflt, calendar) { // let us use cleanDate to provide a missing default without an error if(v === BADNUM) return dflt; if(exports.isJSDate(v) || (typeof v === 'number' && isFinite(v))) { // do not allow milliseconds (old) or jsdate objects (inherently // described as gregorian dates) with world calendars if(isWorldCalendar(calendar)) { Loggers.error('JS Dates and milliseconds are incompatible with world calendars', v); return dflt; } // NOTE: if someone puts in a year as a number rather than a string, // this will mistakenly convert it thinking it's milliseconds from 1970 // that is: '2012' -> Jan. 1, 2012, but 2012 -> 2012 epoch milliseconds v = exports.ms2DateTimeLocal(+v); if(!v && dflt !== undefined) return dflt; } else if(!exports.isDateTime(v, calendar)) { Loggers.error('unrecognized date', v); return dflt; } return v; }; /* * Date formatting for ticks and hovertext */ /* * modDateFormat: Support world calendars, and add two items to * d3's vocabulary: * %{n}f where n is the max number of digits of fractional seconds * %h formats: half of the year as a decimal number [1,2] */ var fracMatch = /%\d?f/g; var halfYearMatch = /%h/g; var quarterToHalfYear = { '1': '1', '2': '1', '3': '2', '4': '2', }; function modDateFormat(fmt, x, formatter, calendar) { fmt = fmt.replace(fracMatch, function(match) { var digits = Math.min(+(match.charAt(1)) || 6, 6); var fracSecs = ((x / 1000 % 1) + 2) .toFixed(digits) .substr(2).replace(/0+$/, '') || '0'; return fracSecs; }); var d = new Date(Math.floor(x + 0.05)); fmt = fmt.replace(halfYearMatch, function() { return quarterToHalfYear[formatter('%q')(d)]; }); if(isWorldCalendar(calendar)) { try { fmt = Registry.getComponentMethod('calendars', 'worldCalFmt')(fmt, x, calendar); } catch(e) { return 'Invalid'; } } return formatter(fmt)(d); } /* * formatTime: create a time string from: * x: milliseconds * tr: tickround ('M', 'S', or # digits) * only supports UTC times (where every day is 24 hours and 0 is at midnight) */ var MAXSECONDS = [59, 59.9, 59.99, 59.999, 59.9999]; function formatTime(x, tr) { var timePart = mod(x + 0.05, ONEDAY); var timeStr = lpad(Math.floor(timePart / ONEHOUR), 2) + ':' + lpad(mod(Math.floor(timePart / ONEMIN), 60), 2); if(tr !== 'M') { if(!isNumeric(tr)) tr = 0; // should only be 'S' /* * this is a weird one - and shouldn't come up unless people * monkey with tick0 in weird ways, but we need to do something! * IN PARTICULAR we had better not display garbage (see below) * for numbers we always round to the nearest increment of the * precision we're showing, and this seems like the right way to * handle seconds and milliseconds, as they have a decimal point * and people will interpret that to mean rounding like numbers. * but for larger increments we floor the value: it's always * 2013 until the ball drops on the new year. We could argue about * which field it is where we start rounding (should 12:08:59 * round to 12:09 if we're stopping at minutes?) but for now I'll * say we round seconds but floor everything else. BUT that means * we need to never round up to 60 seconds, ie 23:59:60 */ var sec = Math.min(mod(x / ONESEC, 60), MAXSECONDS[tr]); var secStr = (100 + sec).toFixed(tr).substr(1); if(tr > 0) { secStr = secStr.replace(/0+$/, '').replace(/[\.]$/, ''); } timeStr += ':' + secStr; } return timeStr; } /* * formatDate: turn a date into tick or hover label text. * * x: milliseconds, the value to convert * fmt: optional, an explicit format string (d3 format, even for world calendars) * tr: tickround ('y', 'm', 'd', 'M', 'S', or # digits) * used if no explicit fmt is provided * formatter: locale-aware d3 date formatter for standard gregorian calendars * should be the result of exports.getD3DateFormat(gd) * calendar: optional string, the world calendar system to use * * returns the date/time as a string, potentially with the leading portion * on a separate line (after '\n') * Note that this means if you provide an explicit format which includes '\n' * the axis may choose to strip things after it when they don't change from * one tick to the next (as it does with automatic formatting) */ exports.formatDate = function(x, fmt, tr, formatter, calendar, extraFormat) { calendar = isWorldCalendar(calendar) && calendar; if(!fmt) { if(tr === 'y') fmt = extraFormat.year; else if(tr === 'm') fmt = extraFormat.month; else if(tr === 'd') { fmt = extraFormat.dayMonth + '\n' + extraFormat.year; } else { return formatTime(x, tr) + '\n' + modDateFormat(extraFormat.dayMonthYear, x, formatter, calendar); } } return modDateFormat(fmt, x, formatter, calendar); }; /* * incrementMonth: make a new milliseconds value from the given one, * having changed the month * * special case for world calendars: multiples of 12 are treated as years, * even for calendar systems that don't have (always or ever) 12 months/year * TODO: perhaps we need a different code for year increments to support this? * * ms (number): the initial millisecond value * dMonth (int): the (signed) number of months to shift * calendar (string): the calendar system to use * * changing month does not (and CANNOT) always preserve day, since * months have different lengths. The worst example of this is: * d = new Date(1970,0,31); d.setMonth(1) -> Feb 31 turns into Mar 3 * * But we want to be able to iterate over the last day of each month, * regardless of what its number is. * So shift 3 days forward, THEN set the new month, then unshift: * 1/31 -> 2/28 (or 29) -> 3/31 -> 4/30 -> ... * * Note that odd behavior still exists if you start from the 26th-28th: * 1/28 -> 2/28 -> 3/31 * but at least you can't shift any dates into the wrong month, * and ticks on these days incrementing by month would be very unusual */ var THREEDAYS = 3 * ONEDAY; exports.incrementMonth = function(ms, dMonth, calendar) { calendar = isWorldCalendar(calendar) && calendar; // pull time out and operate on pure dates, then add time back at the end // this gives maximum precision - not that we *normally* care if we're // incrementing by month, but better to be safe! var timeMs = mod(ms, ONEDAY); ms = Math.round(ms - timeMs); if(calendar) { try { var dateJD = Math.round(ms / ONEDAY) + EPOCHJD; var calInstance = Registry.getComponentMethod('calendars', 'getCal')(calendar); var cDate = calInstance.fromJD(dateJD); if(dMonth % 12) calInstance.add(cDate, dMonth, 'm'); else calInstance.add(cDate, dMonth / 12, 'y'); return (cDate.toJD() - EPOCHJD) * ONEDAY + timeMs; } catch(e) { Loggers.error('invalid ms ' + ms + ' in calendar ' + calendar); // then keep going in gregorian even though the result will be 'Invalid' } } var y = new Date(ms + THREEDAYS); return y.setUTCMonth(y.getUTCMonth() + dMonth) + timeMs - THREEDAYS; }; /* * findExactDates: what fraction of data is exact days, months, or years? * * data: array of millisecond values * calendar (string) the calendar to test against */ exports.findExactDates = function(data, calendar) { var exactYears = 0; var exactMonths = 0; var exactDays = 0; var blankCount = 0; var d; var di; var calInstance = ( isWorldCalendar(calendar) && Registry.getComponentMethod('calendars', 'getCal')(calendar) ); for(var i = 0; i < data.length; i++) { di = data[i]; // not date data at all if(!isNumeric(di)) { blankCount ++; continue; } // not an exact date if(di % ONEDAY) continue; if(calInstance) { try { d = calInstance.fromJD(di / ONEDAY + EPOCHJD); if(d.day() === 1) { if(d.month() === 1) exactYears++; else exactMonths++; } else exactDays++; } catch(e) { // invalid date in this calendar - ignore it here. } } else { d = new Date(di); if(d.getUTCDate() === 1) { if(d.getUTCMonth() === 0) exactYears++; else exactMonths++; } else exactDays++; } } exactMonths += exactYears; exactDays += exactMonths; var dataCount = data.length - blankCount; return { exactYears: exactYears / dataCount, exactMonths: exactMonths / dataCount, exactDays: exactDays / dataCount }; }; },{"../constants/numerical":267,"../registry":378,"./loggers":291,"./mod":294,"d3-time-format":30,"fast-isnumeric":33}],279:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var loggers = _dereq_('./loggers'); var matrix = _dereq_('./matrix'); var mat4X4 = _dereq_('gl-mat4'); /** * Allow referencing a graph DOM element either directly * or by its id string * * @param {HTMLDivElement|string} gd: a graph element or its id * * @returns {HTMLDivElement} the DOM element of the graph */ function getGraphDiv(gd) { var gdElement; if(typeof gd === 'string') { gdElement = document.getElementById(gd); if(gdElement === null) { throw new Error('No DOM element with id \'' + gd + '\' exists on the page.'); } return gdElement; } else if(gd === null || gd === undefined) { throw new Error('DOM element provided is null or undefined'); } // otherwise assume that gd is a DOM element return gd; } function isPlotDiv(el) { var el3 = d3.select(el); return el3.node() instanceof HTMLElement && el3.size() && el3.classed('js-plotly-plot'); } function removeElement(el) { var elParent = el && el.parentNode; if(elParent) elParent.removeChild(el); } /** * for dynamically adding style rules * makes one stylesheet that contains all rules added * by all calls to this function */ function addStyleRule(selector, styleString) { addRelatedStyleRule('global', selector, styleString); } /** * for dynamically adding style rules * to a stylesheet uniquely identified by a uid */ function addRelatedStyleRule(uid, selector, styleString) { var id = 'plotly.js-style-' + uid; var style = document.getElementById(id); if(!style) { style = document.createElement('style'); style.setAttribute('id', id); // WebKit hack :( style.appendChild(document.createTextNode('')); document.head.appendChild(style); } var styleSheet = style.sheet; if(styleSheet.insertRule) { styleSheet.insertRule(selector + '{' + styleString + '}', 0); } else if(styleSheet.addRule) { styleSheet.addRule(selector, styleString, 0); } else loggers.warn('addStyleRule failed'); } /** * to remove from the page a stylesheet identified by a given uid */ function deleteRelatedStyleRule(uid) { var id = 'plotly.js-style-' + uid; var style = document.getElementById(id); if(style) removeElement(style); } function getFullTransformMatrix(element) { var allElements = getElementAndAncestors(element); // the identity matrix var out = [ 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ]; allElements.forEach(function(e) { var t = getElementTransformMatrix(e); if(t) { var m = matrix.convertCssMatrix(t); out = mat4X4.multiply(out, out, m); } }); return out; } /** * extracts and parses the 2d css style transform matrix from some element */ function getElementTransformMatrix(element) { var style = window.getComputedStyle(element, null); var transform = ( style.getPropertyValue('-webkit-transform') || style.getPropertyValue('-moz-transform') || style.getPropertyValue('-ms-transform') || style.getPropertyValue('-o-transform') || style.getPropertyValue('transform') ); if(transform === 'none') return null; // the transform is a string in the form of matrix(a, b, ...) or matrix3d(...) return transform .replace('matrix', '') .replace('3d', '') .slice(1, -1) .split(',') .map(function(n) { return +n; }); } /** * retrieve all DOM elements that are ancestors of the specified one (including itself) */ function getElementAndAncestors(element) { var allElements = []; while(isTransformableElement(element)) { allElements.push(element); element = element.parentNode; } return allElements; } function isTransformableElement(element) { return element && (element instanceof Element || element instanceof HTMLElement); } function equalDomRects(a, b) { return ( a && b && a.x === b.x && a.y === b.y && a.top === b.top && a.left === b.left && a.right === b.right && a.bottom === b.bottom ); } module.exports = { getGraphDiv: getGraphDiv, isPlotDiv: isPlotDiv, removeElement: removeElement, addStyleRule: addStyleRule, addRelatedStyleRule: addRelatedStyleRule, deleteRelatedStyleRule: deleteRelatedStyleRule, getFullTransformMatrix: getFullTransformMatrix, getElementTransformMatrix: getElementTransformMatrix, getElementAndAncestors: getElementAndAncestors, equalDomRects: equalDomRects }; },{"./loggers":291,"./matrix":293,"@plotly/d3":20,"gl-mat4":49}],280:[function(_dereq_,module,exports){ 'use strict'; /* global jQuery:false */ var EventEmitter = _dereq_('events').EventEmitter; var Events = { init: function(plotObj) { /* * If we have already instantiated an emitter for this plot * return early. */ if(plotObj._ev instanceof EventEmitter) return plotObj; var ev = new EventEmitter(); var internalEv = new EventEmitter(); /* * Assign to plot._ev while we still live in a land * where plot is a DOM element with stuff attached to it. * In the future we can make plot the event emitter itself. */ plotObj._ev = ev; /* * Create a second event handler that will manage events *internally*. * This allows parts of plotly to respond to thing like relayout without * having to use the user-facing event handler. They cannot peacefully * coexist on the same handler because a user invoking * plotObj.removeAllListeners() would detach internal events, breaking * plotly. */ plotObj._internalEv = internalEv; /* * Assign bound methods from the ev to the plot object. These methods * will reference the 'this' of plot._ev even though they are methods * of plot. This will keep the event machinery away from the plot object * which currently is often a DOM element but presents an API that will * continue to function when plot becomes an emitter. Not all EventEmitter * methods have been bound to `plot` as some do not currently add value to * the Plotly event API. */ plotObj.on = ev.on.bind(ev); plotObj.once = ev.once.bind(ev); plotObj.removeListener = ev.removeListener.bind(ev); plotObj.removeAllListeners = ev.removeAllListeners.bind(ev); /* * Create functions for managing internal events. These are *only* triggered * by the mirroring of external events via the emit function. */ plotObj._internalOn = internalEv.on.bind(internalEv); plotObj._internalOnce = internalEv.once.bind(internalEv); plotObj._removeInternalListener = internalEv.removeListener.bind(internalEv); plotObj._removeAllInternalListeners = internalEv.removeAllListeners.bind(internalEv); /* * We must wrap emit to continue to support JQuery events. The idea * is to check to see if the user is using JQuery events, if they are * we emit JQuery events to trigger user handlers as well as the EventEmitter * events. */ plotObj.emit = function(event, data) { if(typeof jQuery !== 'undefined') { jQuery(plotObj).trigger(event, data); } ev.emit(event, data); internalEv.emit(event, data); }; return plotObj; }, /* * This function behaves like jQuery's triggerHandler. It calls * all handlers for a particular event and returns the return value * of the LAST handler. This function also triggers jQuery's * triggerHandler for backwards compatibility. */ triggerHandler: function(plotObj, event, data) { var jQueryHandlerValue; var nodeEventHandlerValue; /* * If jQuery exists run all its handlers for this event and * collect the return value of the LAST handler function */ if(typeof jQuery !== 'undefined') { jQueryHandlerValue = jQuery(plotObj).triggerHandler(event, data); } /* * Now run all the node style event handlers */ var ev = plotObj._ev; if(!ev) return jQueryHandlerValue; var handlers = ev._events[event]; if(!handlers) return jQueryHandlerValue; // making sure 'this' is the EventEmitter instance function apply(handler) { // The 'once' case, we can't just call handler() as we need // the return value here. So, // - remove handler // - call listener and grab return value! // - stash 'fired' key to not call handler twice if(handler.listener) { ev.removeListener(event, handler.listener); if(!handler.fired) { handler.fired = true; return handler.listener.apply(ev, [data]); } } else { return handler.apply(ev, [data]); } } // handlers can be function or an array of functions handlers = Array.isArray(handlers) ? handlers : [handlers]; var i; for(i = 0; i < handlers.length - 1; i++) { apply(handlers[i]); } // now call the final handler and collect its value nodeEventHandlerValue = apply(handlers[i]); /* * Return either the jQuery handler value if it exists or the * nodeEventHandler value. jQuery event value supersedes nodejs * events for backwards compatibility reasons. */ return jQueryHandlerValue !== undefined ? jQueryHandlerValue : nodeEventHandlerValue; }, purge: function(plotObj) { delete plotObj._ev; delete plotObj.on; delete plotObj.once; delete plotObj.removeListener; delete plotObj.removeAllListeners; delete plotObj.emit; delete plotObj._ev; delete plotObj._internalEv; delete plotObj._internalOn; delete plotObj._internalOnce; delete plotObj._removeInternalListener; delete plotObj._removeAllInternalListeners; return plotObj; } }; module.exports = Events; },{"events":27}],281:[function(_dereq_,module,exports){ 'use strict'; var isPlainObject = _dereq_('./is_plain_object.js'); var isArray = Array.isArray; function primitivesLoopSplice(source, target) { var i, value; for(i = 0; i < source.length; i++) { value = source[i]; if(value !== null && typeof(value) === 'object') { return false; } if(value !== void(0)) { target[i] = value; } } return true; } exports.extendFlat = function() { return _extend(arguments, false, false, false); }; exports.extendDeep = function() { return _extend(arguments, true, false, false); }; exports.extendDeepAll = function() { return _extend(arguments, true, true, false); }; exports.extendDeepNoArrays = function() { return _extend(arguments, true, false, true); }; /* * Inspired by https://github.com/justmoon/node-extend/blob/master/index.js * All credit to the jQuery authors for perfecting this amazing utility. * * API difference with jQuery version: * - No optional boolean (true -> deep extend) first argument, * use `extendFlat` for first-level only extend and * use `extendDeep` for a deep extend. * * Other differences with jQuery version: * - Uses a modern (and faster) isPlainObject routine. * - Expected to work with object {} and array [] arguments only. * - Does not check for circular structure. * FYI: jQuery only does a check across one level. * Warning: this might result in infinite loops. * */ function _extend(inputs, isDeep, keepAllKeys, noArrayCopies) { var target = inputs[0]; var length = inputs.length; var input, key, src, copy, copyIsArray, clone, allPrimitives; // TODO does this do the right thing for typed arrays? if(length === 2 && isArray(target) && isArray(inputs[1]) && target.length === 0) { allPrimitives = primitivesLoopSplice(inputs[1], target); if(allPrimitives) { return target; } else { target.splice(0, target.length); // reset target and continue to next block } } for(var i = 1; i < length; i++) { input = inputs[i]; for(key in input) { src = target[key]; copy = input[key]; if(noArrayCopies && isArray(copy)) { // Stop early and just transfer the array if array copies are disallowed: target[key] = copy; } else if(isDeep && copy && (isPlainObject(copy) || (copyIsArray = isArray(copy)))) { // recurse if we're merging plain objects or arrays if(copyIsArray) { copyIsArray = false; clone = src && isArray(src) ? src : []; } else { clone = src && isPlainObject(src) ? src : {}; } // never move original objects, clone them target[key] = _extend([clone, copy], isDeep, keepAllKeys, noArrayCopies); } else if(typeof copy !== 'undefined' || keepAllKeys) { // don't bring in undefined values, except for extendDeepAll target[key] = copy; } } } return target; } },{"./is_plain_object.js":288}],282:[function(_dereq_,module,exports){ 'use strict'; /** * Return news array containing only the unique items * found in input array. * * IMPORTANT: Note that items are considered unique * if `String({})` is unique. For example; * * Lib.filterUnique([ { a: 1 }, { b: 2 } ]) * * returns [{ a: 1 }] * * and * * Lib.filterUnique([ '1', 1 ]) * * returns ['1'] * * * @param {array} array base array * @return {array} new filtered array */ module.exports = function filterUnique(array) { var seen = {}; var out = []; var j = 0; for(var i = 0; i < array.length; i++) { var item = array[i]; if(seen[item] !== 1) { seen[item] = 1; out[j++] = item; } } return out; }; },{}],283:[function(_dereq_,module,exports){ 'use strict'; /** Filter out object items with visible !== true * insider array container. * * @param {array of objects} container * @return {array of objects} of length <= container * */ module.exports = function filterVisible(container) { var filterFn = isCalcData(container) ? calcDataFilter : baseFilter; var out = []; for(var i = 0; i < container.length; i++) { var item = container[i]; if(filterFn(item)) out.push(item); } return out; }; function baseFilter(item) { return item.visible === true; } function calcDataFilter(item) { var trace = item[0].trace; return trace.visible === true && trace._length !== 0; } function isCalcData(cont) { return ( Array.isArray(cont) && Array.isArray(cont[0]) && cont[0][0] && cont[0][0].trace ); } },{}],284:[function(_dereq_,module,exports){ 'use strict'; var mod = _dereq_('./mod').mod; /* * look for intersection of two line segments * (1->2 and 3->4) - returns array [x,y] if they do, null if not */ exports.segmentsIntersect = segmentsIntersect; function segmentsIntersect(x1, y1, x2, y2, x3, y3, x4, y4) { var a = x2 - x1; var b = x3 - x1; var c = x4 - x3; var d = y2 - y1; var e = y3 - y1; var f = y4 - y3; var det = a * f - c * d; // parallel lines? intersection is undefined // ignore the case where they are colinear if(det === 0) return null; var t = (b * f - c * e) / det; var u = (b * d - a * e) / det; // segments do not intersect? if(u < 0 || u > 1 || t < 0 || t > 1) return null; return {x: x1 + a * t, y: y1 + d * t}; } /* * find the minimum distance between two line segments (1->2 and 3->4) */ exports.segmentDistance = function segmentDistance(x1, y1, x2, y2, x3, y3, x4, y4) { if(segmentsIntersect(x1, y1, x2, y2, x3, y3, x4, y4)) return 0; // the two segments and their lengths squared var x12 = x2 - x1; var y12 = y2 - y1; var x34 = x4 - x3; var y34 = y4 - y3; var ll12 = x12 * x12 + y12 * y12; var ll34 = x34 * x34 + y34 * y34; // calculate distance squared, then take the sqrt at the very end var dist2 = Math.min( perpDistance2(x12, y12, ll12, x3 - x1, y3 - y1), perpDistance2(x12, y12, ll12, x4 - x1, y4 - y1), perpDistance2(x34, y34, ll34, x1 - x3, y1 - y3), perpDistance2(x34, y34, ll34, x2 - x3, y2 - y3) ); return Math.sqrt(dist2); }; /* * distance squared from segment ab to point c * [xab, yab] is the vector b-a * [xac, yac] is the vector c-a * llab is the length squared of (b-a), just to simplify calculation */ function perpDistance2(xab, yab, llab, xac, yac) { var fcAB = (xac * xab + yac * yab); if(fcAB < 0) { // point c is closer to point a return xac * xac + yac * yac; } else if(fcAB > llab) { // point c is closer to point b var xbc = xac - xab; var ybc = yac - yab; return xbc * xbc + ybc * ybc; } else { // perpendicular distance is the shortest var crossProduct = xac * yab - yac * xab; return crossProduct * crossProduct / llab; } } // a very short-term cache for getTextLocation, just because // we're often looping over the same locations multiple times // invalidated as soon as we look at a different path var locationCache, workingPath, workingTextWidth; // turn a path and position along it into x, y, and angle for the given text exports.getTextLocation = function getTextLocation(path, totalPathLen, positionOnPath, textWidth) { if(path !== workingPath || textWidth !== workingTextWidth) { locationCache = {}; workingPath = path; workingTextWidth = textWidth; } if(locationCache[positionOnPath]) { return locationCache[positionOnPath]; } // for the angle, use points on the path separated by the text width // even though due to curvature, the text will cover a bit more than that var p0 = path.getPointAtLength(mod(positionOnPath - textWidth / 2, totalPathLen)); var p1 = path.getPointAtLength(mod(positionOnPath + textWidth / 2, totalPathLen)); // note: atan handles 1/0 nicely var theta = Math.atan((p1.y - p0.y) / (p1.x - p0.x)); // center the text at 2/3 of the center position plus 1/3 the p0/p1 midpoint // that's the average position of this segment, assuming it's roughly quadratic var pCenter = path.getPointAtLength(mod(positionOnPath, totalPathLen)); var x = (pCenter.x * 4 + p0.x + p1.x) / 6; var y = (pCenter.y * 4 + p0.y + p1.y) / 6; var out = {x: x, y: y, theta: theta}; locationCache[positionOnPath] = out; return out; }; exports.clearLocationCache = function() { workingPath = null; }; /* * Find the segment of `path` that's within the visible area * given by `bounds` {left, right, top, bottom}, to within a * precision of `buffer` px * * returns: undefined if nothing is visible, else object: * { * min: position where the path first enters bounds, or 0 if it * starts within bounds * max: position where the path last exits bounds, or the path length * if it finishes within bounds * len: max - min, ie the length of visible path * total: the total path length - just included so the caller doesn't * need to call path.getTotalLength() again * isClosed: true iff the start and end points of the path are both visible * and are at the same point * } * * Works by starting from either end and repeatedly finding the distance from * that point to the plot area, and if it's outside the plot, moving along the * path by that distance (because the plot must be at least that far away on * the path). Note that if a path enters, exits, and re-enters the plot, we * will not capture this behavior. */ exports.getVisibleSegment = function getVisibleSegment(path, bounds, buffer) { var left = bounds.left; var right = bounds.right; var top = bounds.top; var bottom = bounds.bottom; var pMin = 0; var pTotal = path.getTotalLength(); var pMax = pTotal; var pt0, ptTotal; function getDistToPlot(len) { var pt = path.getPointAtLength(len); // hold on to the start and end points for `closed` if(len === 0) pt0 = pt; else if(len === pTotal) ptTotal = pt; var dx = (pt.x < left) ? left - pt.x : (pt.x > right ? pt.x - right : 0); var dy = (pt.y < top) ? top - pt.y : (pt.y > bottom ? pt.y - bottom : 0); return Math.sqrt(dx * dx + dy * dy); } var distToPlot = getDistToPlot(pMin); while(distToPlot) { pMin += distToPlot + buffer; if(pMin > pMax) return; distToPlot = getDistToPlot(pMin); } distToPlot = getDistToPlot(pMax); while(distToPlot) { pMax -= distToPlot + buffer; if(pMin > pMax) return; distToPlot = getDistToPlot(pMax); } return { min: pMin, max: pMax, len: pMax - pMin, total: pTotal, isClosed: pMin === 0 && pMax === pTotal && Math.abs(pt0.x - ptTotal.x) < 0.1 && Math.abs(pt0.y - ptTotal.y) < 0.1 }; }; /** * Find point on SVG path corresponding to a given constraint coordinate * * @param {SVGPathElement} path * @param {Number} val : constraint coordinate value * @param {String} coord : 'x' or 'y' the constraint coordinate * @param {Object} opts : * - {Number} pathLength : supply total path length before hand * - {Number} tolerance * - {Number} iterationLimit * @return {SVGPoint} */ exports.findPointOnPath = function findPointOnPath(path, val, coord, opts) { opts = opts || {}; var pathLength = opts.pathLength || path.getTotalLength(); var tolerance = opts.tolerance || 1e-3; var iterationLimit = opts.iterationLimit || 30; // if path starts at a val greater than the path tail (like on vertical violins), // we must flip the sign of the computed diff. var mul = path.getPointAtLength(0)[coord] > path.getPointAtLength(pathLength)[coord] ? -1 : 1; var i = 0; var b0 = 0; var b1 = pathLength; var mid; var pt; var diff; while(i < iterationLimit) { mid = (b0 + b1) / 2; pt = path.getPointAtLength(mid); diff = pt[coord] - val; if(Math.abs(diff) < tolerance) { return pt; } else { if(mul * diff > 0) { b1 = mid; } else { b0 = mid; } i++; } } return pt; }; },{"./mod":294}],285:[function(_dereq_,module,exports){ 'use strict'; // Simple helper functions // none of these need any external deps module.exports = function identity(d) { return d; }; },{}],286:[function(_dereq_,module,exports){ 'use strict'; module.exports = function incrementNumeric(x, delta) { if(!delta) return x; // Note 1: // 0.3 != 0.1 + 0.2 == 0.30000000000000004 // but 0.3 == (10 * 0.1 + 10 * 0.2) / 10 // Attempt to use integer steps to increment var scale = 1 / Math.abs(delta); var newX = (scale > 1) ? ( scale * x + scale * delta ) / scale : x + delta; // Note 2: // now we may also consider rounding to cover few more edge cases // e.g. 0.3 * 3 = 0.8999999999999999 var lenX1 = String(newX).length; if(lenX1 > 16) { var lenDt = String(delta).length; var lenX0 = String(x).length; if(lenX1 >= lenX0 + lenDt) { // likely a rounding error! var s = parseFloat(newX).toPrecision(12); if(s.indexOf('e+') === -1) newX = +s; } } return newX; }; },{}],287:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var utcFormat = _dereq_('d3-time-format').utcFormat; var d3Format = _dereq_('d3-format').format; var isNumeric = _dereq_('fast-isnumeric'); var numConstants = _dereq_('../constants/numerical'); var MAX_SAFE = numConstants.FP_SAFE; var MIN_SAFE = -MAX_SAFE; var BADNUM = numConstants.BADNUM; var lib = module.exports = {}; lib.adjustFormat = function adjustFormat(formatStr) { if( !formatStr || /^\d[.]\df/.test(formatStr) || /[.]\d%/.test(formatStr) ) return formatStr; if(formatStr === '0.f') return '~f'; if(/^\d%/.test(formatStr)) return '~%'; if(/^\ds/.test(formatStr)) return '~s'; // try adding tilde to the start of format in order to trim if(!(/^[~,.0$]/.test(formatStr)) && /[&fps]/.test(formatStr)) return '~' + formatStr; return formatStr; }; var seenBadFormats = {}; lib.warnBadFormat = function(f) { var key = String(f); if(!seenBadFormats[key]) { seenBadFormats[key] = 1; lib.warn('encountered bad format: "' + key + '"'); } }; lib.noFormat = function(value) { return String(value); }; lib.numberFormat = function(formatStr) { var fn; try { fn = d3Format(lib.adjustFormat(formatStr)); } catch(e) { lib.warnBadFormat(formatStr); return lib.noFormat; } return fn; }; lib.nestedProperty = _dereq_('./nested_property'); lib.keyedContainer = _dereq_('./keyed_container'); lib.relativeAttr = _dereq_('./relative_attr'); lib.isPlainObject = _dereq_('./is_plain_object'); lib.toLogRange = _dereq_('./to_log_range'); lib.relinkPrivateKeys = _dereq_('./relink_private'); var arrayModule = _dereq_('./array'); lib.isTypedArray = arrayModule.isTypedArray; lib.isArrayOrTypedArray = arrayModule.isArrayOrTypedArray; lib.isArray1D = arrayModule.isArray1D; lib.ensureArray = arrayModule.ensureArray; lib.concat = arrayModule.concat; lib.maxRowLength = arrayModule.maxRowLength; lib.minRowLength = arrayModule.minRowLength; var modModule = _dereq_('./mod'); lib.mod = modModule.mod; lib.modHalf = modModule.modHalf; var coerceModule = _dereq_('./coerce'); lib.valObjectMeta = coerceModule.valObjectMeta; lib.coerce = coerceModule.coerce; lib.coerce2 = coerceModule.coerce2; lib.coerceFont = coerceModule.coerceFont; lib.coercePattern = coerceModule.coercePattern; lib.coerceHoverinfo = coerceModule.coerceHoverinfo; lib.coerceSelectionMarkerOpacity = coerceModule.coerceSelectionMarkerOpacity; lib.validate = coerceModule.validate; var datesModule = _dereq_('./dates'); lib.dateTime2ms = datesModule.dateTime2ms; lib.isDateTime = datesModule.isDateTime; lib.ms2DateTime = datesModule.ms2DateTime; lib.ms2DateTimeLocal = datesModule.ms2DateTimeLocal; lib.cleanDate = datesModule.cleanDate; lib.isJSDate = datesModule.isJSDate; lib.formatDate = datesModule.formatDate; lib.incrementMonth = datesModule.incrementMonth; lib.dateTick0 = datesModule.dateTick0; lib.dfltRange = datesModule.dfltRange; lib.findExactDates = datesModule.findExactDates; lib.MIN_MS = datesModule.MIN_MS; lib.MAX_MS = datesModule.MAX_MS; var searchModule = _dereq_('./search'); lib.findBin = searchModule.findBin; lib.sorterAsc = searchModule.sorterAsc; lib.sorterDes = searchModule.sorterDes; lib.distinctVals = searchModule.distinctVals; lib.roundUp = searchModule.roundUp; lib.sort = searchModule.sort; lib.findIndexOfMin = searchModule.findIndexOfMin; lib.sortObjectKeys = _dereq_('./sort_object_keys'); var statsModule = _dereq_('./stats'); lib.aggNums = statsModule.aggNums; lib.len = statsModule.len; lib.mean = statsModule.mean; lib.median = statsModule.median; lib.midRange = statsModule.midRange; lib.variance = statsModule.variance; lib.stdev = statsModule.stdev; lib.interp = statsModule.interp; var matrixModule = _dereq_('./matrix'); lib.init2dArray = matrixModule.init2dArray; lib.transposeRagged = matrixModule.transposeRagged; lib.dot = matrixModule.dot; lib.translationMatrix = matrixModule.translationMatrix; lib.rotationMatrix = matrixModule.rotationMatrix; lib.rotationXYMatrix = matrixModule.rotationXYMatrix; lib.apply3DTransform = matrixModule.apply3DTransform; lib.apply2DTransform = matrixModule.apply2DTransform; lib.apply2DTransform2 = matrixModule.apply2DTransform2; lib.convertCssMatrix = matrixModule.convertCssMatrix; lib.inverseTransformMatrix = matrixModule.inverseTransformMatrix; var anglesModule = _dereq_('./angles'); lib.deg2rad = anglesModule.deg2rad; lib.rad2deg = anglesModule.rad2deg; lib.angleDelta = anglesModule.angleDelta; lib.angleDist = anglesModule.angleDist; lib.isFullCircle = anglesModule.isFullCircle; lib.isAngleInsideSector = anglesModule.isAngleInsideSector; lib.isPtInsideSector = anglesModule.isPtInsideSector; lib.pathArc = anglesModule.pathArc; lib.pathSector = anglesModule.pathSector; lib.pathAnnulus = anglesModule.pathAnnulus; var anchorUtils = _dereq_('./anchor_utils'); lib.isLeftAnchor = anchorUtils.isLeftAnchor; lib.isCenterAnchor = anchorUtils.isCenterAnchor; lib.isRightAnchor = anchorUtils.isRightAnchor; lib.isTopAnchor = anchorUtils.isTopAnchor; lib.isMiddleAnchor = anchorUtils.isMiddleAnchor; lib.isBottomAnchor = anchorUtils.isBottomAnchor; var geom2dModule = _dereq_('./geometry2d'); lib.segmentsIntersect = geom2dModule.segmentsIntersect; lib.segmentDistance = geom2dModule.segmentDistance; lib.getTextLocation = geom2dModule.getTextLocation; lib.clearLocationCache = geom2dModule.clearLocationCache; lib.getVisibleSegment = geom2dModule.getVisibleSegment; lib.findPointOnPath = geom2dModule.findPointOnPath; var extendModule = _dereq_('./extend'); lib.extendFlat = extendModule.extendFlat; lib.extendDeep = extendModule.extendDeep; lib.extendDeepAll = extendModule.extendDeepAll; lib.extendDeepNoArrays = extendModule.extendDeepNoArrays; var loggersModule = _dereq_('./loggers'); lib.log = loggersModule.log; lib.warn = loggersModule.warn; lib.error = loggersModule.error; var regexModule = _dereq_('./regex'); lib.counterRegex = regexModule.counter; var throttleModule = _dereq_('./throttle'); lib.throttle = throttleModule.throttle; lib.throttleDone = throttleModule.done; lib.clearThrottle = throttleModule.clear; var domModule = _dereq_('./dom'); lib.getGraphDiv = domModule.getGraphDiv; lib.isPlotDiv = domModule.isPlotDiv; lib.removeElement = domModule.removeElement; lib.addStyleRule = domModule.addStyleRule; lib.addRelatedStyleRule = domModule.addRelatedStyleRule; lib.deleteRelatedStyleRule = domModule.deleteRelatedStyleRule; lib.getFullTransformMatrix = domModule.getFullTransformMatrix; lib.getElementTransformMatrix = domModule.getElementTransformMatrix; lib.getElementAndAncestors = domModule.getElementAndAncestors; lib.equalDomRects = domModule.equalDomRects; lib.clearResponsive = _dereq_('./clear_responsive'); lib.preserveDrawingBuffer = _dereq_('./preserve_drawing_buffer'); lib.makeTraceGroups = _dereq_('./make_trace_groups'); lib._ = _dereq_('./localize'); lib.notifier = _dereq_('./notifier'); lib.filterUnique = _dereq_('./filter_unique'); lib.filterVisible = _dereq_('./filter_visible'); lib.pushUnique = _dereq_('./push_unique'); lib.increment = _dereq_('./increment'); lib.cleanNumber = _dereq_('./clean_number'); lib.ensureNumber = function ensureNumber(v) { if(!isNumeric(v)) return BADNUM; v = Number(v); return (v > MAX_SAFE || v < MIN_SAFE) ? BADNUM : v; }; /** * Is v a valid array index? Accepts numeric strings as well as numbers. * * @param {any} v: the value to test * @param {Optional[integer]} len: the array length we are indexing * * @return {bool}: v is a valid array index */ lib.isIndex = function(v, len) { if(len !== undefined && v >= len) return false; return isNumeric(v) && (v >= 0) && (v % 1 === 0); }; lib.noop = _dereq_('./noop'); lib.identity = _dereq_('./identity'); /** * create an array of length 'cnt' filled with 'v' at all indices * * @param {any} v * @param {number} cnt * @return {array} */ lib.repeat = function(v, cnt) { var out = new Array(cnt); for(var i = 0; i < cnt; i++) { out[i] = v; } return out; }; /** * swap x and y of the same attribute in container cont * specify attr with a ? in place of x/y * you can also swap other things than x/y by providing part1 and part2 */ lib.swapAttrs = function(cont, attrList, part1, part2) { if(!part1) part1 = 'x'; if(!part2) part2 = 'y'; for(var i = 0; i < attrList.length; i++) { var attr = attrList[i]; var xp = lib.nestedProperty(cont, attr.replace('?', part1)); var yp = lib.nestedProperty(cont, attr.replace('?', part2)); var temp = xp.get(); xp.set(yp.get()); yp.set(temp); } }; /** * SVG painter's algo worked around with reinsertion */ lib.raiseToTop = function raiseToTop(elem) { elem.parentNode.appendChild(elem); }; /** * cancel a possibly pending transition; returned selection may be used by caller */ lib.cancelTransition = function(selection) { return selection.transition().duration(0); }; // constrain - restrict a number v to be between v0 and v1 lib.constrain = function(v, v0, v1) { if(v0 > v1) return Math.max(v1, Math.min(v0, v)); return Math.max(v0, Math.min(v1, v)); }; /** * do two bounding boxes from getBoundingClientRect, * ie {left,right,top,bottom,width,height}, overlap? * takes optional padding pixels */ lib.bBoxIntersect = function(a, b, pad) { pad = pad || 0; return (a.left <= b.right + pad && b.left <= a.right + pad && a.top <= b.bottom + pad && b.top <= a.bottom + pad); }; /* * simpleMap: alternative to Array.map that only * passes on the element and up to 2 extra args you * provide (but not the array index or the whole array) * * array: the array to map it to * func: the function to apply * x1, x2: optional extra args */ lib.simpleMap = function(array, func, x1, x2, opts) { var len = array.length; var out = new Array(len); for(var i = 0; i < len; i++) out[i] = func(array[i], x1, x2, opts); return out; }; /** * Random string generator * * @param {object} existing * pass in strings to avoid as keys with truthy values * @param {int} bits * bits of information in the output string, default 24 * @param {int} base * base of string representation, default 16. Should be a power of 2. */ lib.randstr = function randstr(existing, bits, base, _recursion) { if(!base) base = 16; if(bits === undefined) bits = 24; if(bits <= 0) return '0'; var digits = Math.log(Math.pow(2, bits)) / Math.log(base); var res = ''; var i, b, x; for(i = 2; digits === Infinity; i *= 2) { digits = Math.log(Math.pow(2, bits / i)) / Math.log(base) * i; } var rem = digits - Math.floor(digits); for(i = 0; i < Math.floor(digits); i++) { x = Math.floor(Math.random() * base).toString(base); res = x + res; } if(rem) { b = Math.pow(base, rem); x = Math.floor(Math.random() * b).toString(base); res = x + res; } var parsed = parseInt(res, base); if((existing && existing[res]) || (parsed !== Infinity && parsed >= Math.pow(2, bits))) { if(_recursion > 10) { lib.warn('randstr failed uniqueness'); return res; } return randstr(existing, bits, base, (_recursion || 0) + 1); } else return res; }; lib.OptionControl = function(opt, optname) { /* * An environment to contain all option setters and * getters that collectively modify opts. * * You can call up opts from any function in new object * as this.optname || this.opt * * See FitOpts for example of usage */ if(!opt) opt = {}; if(!optname) optname = 'opt'; var self = {}; self.optionList = []; self._newoption = function(optObj) { optObj[optname] = opt; self[optObj.name] = optObj; self.optionList.push(optObj); }; self['_' + optname] = opt; return self; }; /** * lib.smooth: smooth arrayIn by convolving with * a hann window with given full width at half max * bounce the ends in, so the output has the same length as the input */ lib.smooth = function(arrayIn, FWHM) { FWHM = Math.round(FWHM) || 0; // only makes sense for integers if(FWHM < 2) return arrayIn; var alen = arrayIn.length; var alen2 = 2 * alen; var wlen = 2 * FWHM - 1; var w = new Array(wlen); var arrayOut = new Array(alen); var i; var j; var k; var v; // first make the window array for(i = 0; i < wlen; i++) { w[i] = (1 - Math.cos(Math.PI * (i + 1) / FWHM)) / (2 * FWHM); } // now do the convolution for(i = 0; i < alen; i++) { v = 0; for(j = 0; j < wlen; j++) { k = i + j + 1 - FWHM; // multibounce if(k < -alen) k -= alen2 * Math.round(k / alen2); else if(k >= alen2) k -= alen2 * Math.floor(k / alen2); // single bounce if(k < 0) k = - 1 - k; else if(k >= alen) k = alen2 - 1 - k; v += arrayIn[k] * w[j]; } arrayOut[i] = v; } return arrayOut; }; /** * syncOrAsync: run a sequence of functions synchronously * as long as its returns are not promises (ie have no .then) * includes one argument arg to send to all functions... * this is mainly just to prevent us having to make wrapper functions * when the only purpose of the wrapper is to reference gd * and a final step to be executed at the end * TODO: if there's an error and everything is sync, * this doesn't happen yet because we want to make sure * that it gets reported */ lib.syncOrAsync = function(sequence, arg, finalStep) { var ret, fni; function continueAsync() { return lib.syncOrAsync(sequence, arg, finalStep); } while(sequence.length) { fni = sequence.splice(0, 1)[0]; ret = fni(arg); if(ret && ret.then) { return ret.then(continueAsync); } } return finalStep && finalStep(arg); }; /** * Helper to strip trailing slash, from * http://stackoverflow.com/questions/6680825/return-string-without-trailing-slash */ lib.stripTrailingSlash = function(str) { if(str.substr(-1) === '/') return str.substr(0, str.length - 1); return str; }; lib.noneOrAll = function(containerIn, containerOut, attrList) { /** * some attributes come together, so if you have one of them * in the input, you should copy the default values of the others * to the input as well. */ if(!containerIn) return; var hasAny = false; var hasAll = true; var i; var val; for(i = 0; i < attrList.length; i++) { val = containerIn[attrList[i]]; if(val !== undefined && val !== null) hasAny = true; else hasAll = false; } if(hasAny && !hasAll) { for(i = 0; i < attrList.length; i++) { containerIn[attrList[i]] = containerOut[attrList[i]]; } } }; /** merges calcdata field (given by cdAttr) with traceAttr values * * N.B. Loop over minimum of cd.length and traceAttr.length * i.e. it does not try to fill in beyond traceAttr.length-1 * * @param {array} traceAttr : trace attribute * @param {object} cd : calcdata trace * @param {string} cdAttr : calcdata key */ lib.mergeArray = function(traceAttr, cd, cdAttr, fn) { var hasFn = typeof fn === 'function'; if(lib.isArrayOrTypedArray(traceAttr)) { var imax = Math.min(traceAttr.length, cd.length); for(var i = 0; i < imax; i++) { var v = traceAttr[i]; cd[i][cdAttr] = hasFn ? fn(v) : v; } } }; // cast numbers to positive numbers, returns 0 if not greater than 0 lib.mergeArrayCastPositive = function(traceAttr, cd, cdAttr) { return lib.mergeArray(traceAttr, cd, cdAttr, function(v) { var w = +v; return !isFinite(w) ? 0 : w > 0 ? w : 0; }); }; /** fills calcdata field (given by cdAttr) with traceAttr values * or function of traceAttr values (e.g. some fallback) * * N.B. Loops over all cd items. * * @param {array} traceAttr : trace attribute * @param {object} cd : calcdata trace * @param {string} cdAttr : calcdata key * @param {function} [fn] : optional function to apply to each array item */ lib.fillArray = function(traceAttr, cd, cdAttr, fn) { fn = fn || lib.identity; if(lib.isArrayOrTypedArray(traceAttr)) { for(var i = 0; i < cd.length; i++) { cd[i][cdAttr] = fn(traceAttr[i]); } } }; /** Handler for trace-wide vs per-point options * * @param {object} trace : (full) trace object * @param {number} ptNumber : index of the point in question * @param {string} astr : attribute string * @param {function} [fn] : optional function to apply to each array item * * @return {any} */ lib.castOption = function(trace, ptNumber, astr, fn) { fn = fn || lib.identity; var val = lib.nestedProperty(trace, astr).get(); if(lib.isArrayOrTypedArray(val)) { if(Array.isArray(ptNumber) && lib.isArrayOrTypedArray(val[ptNumber[0]])) { return fn(val[ptNumber[0]][ptNumber[1]]); } else { return fn(val[ptNumber]); } } else { return val; } }; /** Extract option from calcdata item, correctly falling back to * trace value if not found. * * @param {object} calcPt : calcdata[i][j] item * @param {object} trace : (full) trace object * @param {string} calcKey : calcdata key * @param {string} traceKey : aka trace attribute string * @return {any} */ lib.extractOption = function(calcPt, trace, calcKey, traceKey) { if(calcKey in calcPt) return calcPt[calcKey]; // fallback to trace value, // must check if value isn't itself an array // which means the trace attribute has a corresponding // calcdata key, but its value is falsy var traceVal = lib.nestedProperty(trace, traceKey).get(); if(!Array.isArray(traceVal)) return traceVal; }; function makePtIndex2PtNumber(indexToPoints) { var ptIndex2ptNumber = {}; for(var k in indexToPoints) { var pts = indexToPoints[k]; for(var j = 0; j < pts.length; j++) { ptIndex2ptNumber[pts[j]] = +k; } } return ptIndex2ptNumber; } /** Tag selected calcdata items * * N.B. note that point 'index' corresponds to input data array index * whereas 'number' is its post-transform version. * * @param {array} calcTrace * @param {object} trace * - selectedpoints {array} * - _indexToPoints {object} * @param {ptNumber2cdIndex} ptNumber2cdIndex (optional) * optional map object for trace types that do not have 1-to-1 point number to * calcdata item index correspondence (e.g. histogram) */ lib.tagSelected = function(calcTrace, trace, ptNumber2cdIndex) { var selectedpoints = trace.selectedpoints; var indexToPoints = trace._indexToPoints; var ptIndex2ptNumber; // make pt index-to-number map object, which takes care of transformed traces if(indexToPoints) { ptIndex2ptNumber = makePtIndex2PtNumber(indexToPoints); } function isCdIndexValid(v) { return v !== undefined && v < calcTrace.length; } for(var i = 0; i < selectedpoints.length; i++) { var ptIndex = selectedpoints[i]; if(lib.isIndex(ptIndex) || (lib.isArrayOrTypedArray(ptIndex) && lib.isIndex(ptIndex[0]) && lib.isIndex(ptIndex[1])) ) { var ptNumber = ptIndex2ptNumber ? ptIndex2ptNumber[ptIndex] : ptIndex; var cdIndex = ptNumber2cdIndex ? ptNumber2cdIndex[ptNumber] : ptNumber; if(isCdIndexValid(cdIndex)) { calcTrace[cdIndex].selected = 1; } } } }; lib.selIndices2selPoints = function(trace) { var selectedpoints = trace.selectedpoints; var indexToPoints = trace._indexToPoints; if(indexToPoints) { var ptIndex2ptNumber = makePtIndex2PtNumber(indexToPoints); var out = []; for(var i = 0; i < selectedpoints.length; i++) { var ptIndex = selectedpoints[i]; if(lib.isIndex(ptIndex)) { var ptNumber = ptIndex2ptNumber[ptIndex]; if(lib.isIndex(ptNumber)) { out.push(ptNumber); } } } return out; } else { return selectedpoints; } }; /** Returns target as set by 'target' transform attribute * * @param {object} trace : full trace object * @param {object} transformOpts : transform option object * - target (string} : * either an attribute string referencing an array in the trace object, or * a set array. * * @return {array or false} : the target array (NOT a copy!!) or false if invalid */ lib.getTargetArray = function(trace, transformOpts) { var target = transformOpts.target; if(typeof target === 'string' && target) { var array = lib.nestedProperty(trace, target).get(); return Array.isArray(array) ? array : false; } else if(Array.isArray(target)) { return target; } return false; }; /** * modified version of jQuery's extend to strip out private objs and functions, * and cut arrays down to first or 1 elements * because extend-like algorithms are hella slow * obj2 is assumed to already be clean of these things (including no arrays) */ lib.minExtend = function(obj1, obj2) { var objOut = {}; if(typeof obj2 !== 'object') obj2 = {}; var arrayLen = 3; var keys = Object.keys(obj1); var i, k, v; for(i = 0; i < keys.length; i++) { k = keys[i]; v = obj1[k]; if(k.charAt(0) === '_' || typeof v === 'function') continue; else if(k === 'module') objOut[k] = v; else if(Array.isArray(v)) { if(k === 'colorscale') { objOut[k] = v.slice(); } else { objOut[k] = v.slice(0, arrayLen); } } else if(lib.isTypedArray(v)) { objOut[k] = v.subarray(0, arrayLen); } else if(v && (typeof v === 'object')) objOut[k] = lib.minExtend(obj1[k], obj2[k]); else objOut[k] = v; } keys = Object.keys(obj2); for(i = 0; i < keys.length; i++) { k = keys[i]; v = obj2[k]; if(typeof v !== 'object' || !(k in objOut) || typeof objOut[k] !== 'object') { objOut[k] = v; } } return objOut; }; lib.titleCase = function(s) { return s.charAt(0).toUpperCase() + s.substr(1); }; lib.containsAny = function(s, fragments) { for(var i = 0; i < fragments.length; i++) { if(s.indexOf(fragments[i]) !== -1) return true; } return false; }; lib.isIE = function() { return typeof window.navigator.msSaveBlob !== 'undefined'; }; var IS_SAFARI_REGEX = /Version\/[\d\.]+.*Safari/; lib.isSafari = function() { return IS_SAFARI_REGEX.test(window.navigator.userAgent); }; var IS_IOS_REGEX = /iPad|iPhone|iPod/; lib.isIOS = function() { return IS_IOS_REGEX.test(window.navigator.userAgent); }; var FIREFOX_VERSION_REGEX = /Firefox\/(\d+)\.\d+/; lib.getFirefoxVersion = function() { var match = FIREFOX_VERSION_REGEX.exec(window.navigator.userAgent); if(match && match.length === 2) { var versionInt = parseInt(match[1]); if(!isNaN(versionInt)) { return versionInt; } } return null; }; lib.isD3Selection = function(obj) { return obj instanceof d3.selection; }; /** * Append element to DOM only if not present. * * @param {d3 selection} parent : parent selection of the element in question * @param {string} nodeType : node type of element to append * @param {string} className (optional) : class name of element in question * @param {fn} enterFn (optional) : optional fn applied to entering elements only * @return {d3 selection} selection of new layer * * Previously, we were using the following pattern: * * ``` * var sel = parent.selectAll('.' + className) * .data([0]); * * sel.enter().append(nodeType) * .classed(className, true); * * return sel; * ``` * * in numerous places in our codebase to achieve the same behavior. * * The logic below performs much better, mostly as we are using * `.select` instead `.selectAll` that is `querySelector` instead of * `querySelectorAll`. * */ lib.ensureSingle = function(parent, nodeType, className, enterFn) { var sel = parent.select(nodeType + (className ? '.' + className : '')); if(sel.size()) return sel; var layer = parent.append(nodeType); if(className) layer.classed(className, true); if(enterFn) layer.call(enterFn); return layer; }; /** * Same as Lib.ensureSingle, but using id as selector. * This version is mostly used for clipPath nodes. * * @param {d3 selection} parent : parent selection of the element in question * @param {string} nodeType : node type of element to append * @param {string} id : id of element in question * @param {fn} enterFn (optional) : optional fn applied to entering elements only * @return {d3 selection} selection of new layer */ lib.ensureSingleById = function(parent, nodeType, id, enterFn) { var sel = parent.select(nodeType + '#' + id); if(sel.size()) return sel; var layer = parent.append(nodeType).attr('id', id); if(enterFn) layer.call(enterFn); return layer; }; /** * Converts a string path to an object. * * When given a string containing an array element, it will create a `null` * filled array of the given size. * * @example * lib.objectFromPath('nested.test[2].path', 'value'); * // returns { nested: { test: [null, null, { path: 'value' }]} * * @param {string} path to nested value * @param {*} any value to be set * * @return {Object} the constructed object with a full nested path */ lib.objectFromPath = function(path, value) { var keys = path.split('.'); var tmpObj; var obj = tmpObj = {}; for(var i = 0; i < keys.length; i++) { var key = keys[i]; var el = null; var parts = keys[i].match(/(.*)\[([0-9]+)\]/); if(parts) { key = parts[1]; el = parts[2]; tmpObj = tmpObj[key] = []; if(i === keys.length - 1) { tmpObj[el] = value; } else { tmpObj[el] = {}; } tmpObj = tmpObj[el]; } else { if(i === keys.length - 1) { tmpObj[key] = value; } else { tmpObj[key] = {}; } tmpObj = tmpObj[key]; } } return obj; }; /** * Iterate through an object in-place, converting dotted properties to objects. * * Examples: * * lib.expandObjectPaths({'nested.test.path': 'value'}); * => { nested: { test: {path: 'value'}}} * * It also handles array notation, e.g.: * * lib.expandObjectPaths({'foo[1].bar': 'value'}); * => { foo: [null, {bar: value}] } * * It handles merges the results when two properties are specified in parallel: * * lib.expandObjectPaths({'foo[1].bar': 10, 'foo[0].bar': 20}); * => { foo: [{bar: 10}, {bar: 20}] } * * It does NOT, however, merge multiple multiply-nested arrays:: * * lib.expandObjectPaths({'marker[1].range[1]': 5, 'marker[1].range[0]': 4}) * => { marker: [null, {range: 4}] } */ // Store this to avoid recompiling regex on *every* prop since this may happen many // many times for animations. Could maybe be inside the function. Not sure about // scoping vs. recompilation tradeoff, but at least it's not just inlining it into // the inner loop. var dottedPropertyRegex = /^([^\[\.]+)\.(.+)?/; var indexedPropertyRegex = /^([^\.]+)\[([0-9]+)\](\.)?(.+)?/; lib.expandObjectPaths = function(data) { var match, key, prop, datum, idx, dest, trailingPath; if(typeof data === 'object' && !Array.isArray(data)) { for(key in data) { if(data.hasOwnProperty(key)) { if((match = key.match(dottedPropertyRegex))) { datum = data[key]; prop = match[1]; delete data[key]; data[prop] = lib.extendDeepNoArrays(data[prop] || {}, lib.objectFromPath(key, lib.expandObjectPaths(datum))[prop]); } else if((match = key.match(indexedPropertyRegex))) { datum = data[key]; prop = match[1]; idx = parseInt(match[2]); delete data[key]; data[prop] = data[prop] || []; if(match[3] === '.') { // This is the case where theere are subsequent properties into which // we must recurse, e.g. transforms[0].value trailingPath = match[4]; dest = data[prop][idx] = data[prop][idx] || {}; // NB: Extend deep no arrays prevents this from working on multiple // nested properties in the same object, e.g. // // { // foo[0].bar[1].range // foo[0].bar[0].range // } // // In this case, the extendDeepNoArrays will overwrite one array with // the other, so that both properties *will not* be present in the // result. Fixing this would require a more intelligent tracking // of changes and merging than extendDeepNoArrays currently accomplishes. lib.extendDeepNoArrays(dest, lib.objectFromPath(trailingPath, lib.expandObjectPaths(datum))); } else { // This is the case where this property is the end of the line, // e.g. xaxis.range[0] data[prop][idx] = lib.expandObjectPaths(datum); } } else { data[key] = lib.expandObjectPaths(data[key]); } } } } return data; }; /** * Converts value to string separated by the provided separators. * * @example * lib.numSeparate(2016, '.,'); * // returns '2016' * * @example * lib.numSeparate(3000, '.,', true); * // returns '3,000' * * @example * lib.numSeparate(1234.56, '|,') * // returns '1,234|56' * * @param {string|number} value the value to be converted * @param {string} separators string of decimal, then thousands separators * @param {boolean} separatethousands boolean, 4-digit integers are separated if true * * @return {string} the value that has been separated */ lib.numSeparate = function(value, separators, separatethousands) { if(!separatethousands) separatethousands = false; if(typeof separators !== 'string' || separators.length === 0) { throw new Error('Separator string required for formatting!'); } if(typeof value === 'number') { value = String(value); } var thousandsRe = /(\d+)(\d{3})/; var decimalSep = separators.charAt(0); var thouSep = separators.charAt(1); var x = value.split('.'); var x1 = x[0]; var x2 = x.length > 1 ? decimalSep + x[1] : ''; // Years are ignored for thousands separators if(thouSep && (x.length > 1 || x1.length > 4 || separatethousands)) { while(thousandsRe.test(x1)) { x1 = x1.replace(thousandsRe, '$1' + thouSep + '$2'); } } return x1 + x2; }; lib.TEMPLATE_STRING_REGEX = /%{([^\s%{}:]*)([:|\|][^}]*)?}/g; var SIMPLE_PROPERTY_REGEX = /^\w*$/; /** * Substitute values from an object into a string * * Examples: * Lib.templateString('name: %{trace}', {trace: 'asdf'}) --> 'name: asdf' * Lib.templateString('name: %{trace[0].name}', {trace: [{name: 'asdf'}]}) --> 'name: asdf' * * @param {string} input string containing %{...} template strings * @param {obj} data object containing substitution values * * @return {string} templated string */ lib.templateString = function(string, obj) { // Not all that useful, but cache nestedProperty instantiation // just in case it speeds things up *slightly*: var getterCache = {}; return string.replace(lib.TEMPLATE_STRING_REGEX, function(dummy, key) { var v; if(SIMPLE_PROPERTY_REGEX.test(key)) { v = obj[key]; } else { getterCache[key] = getterCache[key] || lib.nestedProperty(obj, key).get; v = getterCache[key](); } return lib.isValidTextValue(v) ? v : ''; }); }; var hovertemplateWarnings = { max: 10, count: 0, name: 'hovertemplate' }; lib.hovertemplateString = function() { return templateFormatString.apply(hovertemplateWarnings, arguments); }; var texttemplateWarnings = { max: 10, count: 0, name: 'texttemplate' }; lib.texttemplateString = function() { return templateFormatString.apply(texttemplateWarnings, arguments); }; var TEMPLATE_STRING_FORMAT_SEPARATOR = /^[:|\|]/; /** * Substitute values from an object into a string and optionally formats them using d3-format, * or fallback to associated labels. * * Examples: * Lib.hovertemplateString('name: %{trace}', {trace: 'asdf'}) --> 'name: asdf' * Lib.hovertemplateString('name: %{trace[0].name}', {trace: [{name: 'asdf'}]}) --> 'name: asdf' * Lib.hovertemplateString('price: %{y:$.2f}', {y: 1}) --> 'price: $1.00' * * @param {string} input string containing %{...:...} template strings * @param {obj} data object containing fallback text when no formatting is specified, ex.: {yLabel: 'formattedYValue'} * @param {obj} d3 locale * @param {obj} data objects containing substitution values * * @return {string} templated string */ function templateFormatString(string, labels, d3locale) { var opts = this; var args = arguments; if(!labels) labels = {}; // Not all that useful, but cache nestedProperty instantiation // just in case it speeds things up *slightly*: var getterCache = {}; return string.replace(lib.TEMPLATE_STRING_REGEX, function(match, rawKey, format) { var isOther = rawKey === 'xother' || rawKey === 'yother'; var isSpaceOther = rawKey === '_xother' || rawKey === '_yother'; var isSpaceOtherSpace = rawKey === '_xother_' || rawKey === '_yother_'; var isOtherSpace = rawKey === 'xother_' || rawKey === 'yother_'; var hasOther = isOther || isSpaceOther || isOtherSpace || isSpaceOtherSpace; var key = rawKey; if(isSpaceOther || isSpaceOtherSpace) key = key.substring(1); if(isOtherSpace || isSpaceOtherSpace) key = key.substring(0, key.length - 1); var value; if(hasOther) { value = labels[key]; if(value === undefined) return ''; } else { var obj, i; for(i = 3; i < args.length; i++) { obj = args[i]; if(!obj) continue; if(obj.hasOwnProperty(key)) { value = obj[key]; break; } if(!SIMPLE_PROPERTY_REGEX.test(key)) { value = lib.nestedProperty(obj, key).get(); value = getterCache[key] || lib.nestedProperty(obj, key).get(); if(value) getterCache[key] = value; } if(value !== undefined) break; } } if(value === undefined && opts) { if(opts.count < opts.max) { lib.warn('Variable \'' + key + '\' in ' + opts.name + ' could not be found!'); value = match; } if(opts.count === opts.max) { lib.warn('Too many ' + opts.name + ' warnings - additional warnings will be suppressed'); } opts.count++; return match; } if(format) { var fmt; if(format[0] === ':') { fmt = d3locale ? d3locale.numberFormat : lib.numberFormat; value = fmt(format.replace(TEMPLATE_STRING_FORMAT_SEPARATOR, ''))(value); } if(format[0] === '|') { fmt = d3locale ? d3locale.timeFormat : utcFormat; var ms = lib.dateTime2ms(value); value = lib.formatDate(ms, format.replace(TEMPLATE_STRING_FORMAT_SEPARATOR, ''), false, fmt); } } else { var keyLabel = key + 'Label'; if(labels.hasOwnProperty(keyLabel)) value = labels[keyLabel]; } if(hasOther) { value = '(' + value + ')'; if(isSpaceOther || isSpaceOtherSpace) value = ' ' + value; if(isOtherSpace || isSpaceOtherSpace) value = value + ' '; } return value; }); } /* * alphanumeric string sort, tailored for subplot IDs like scene2, scene10, x10y13 etc */ var char0 = 48; var char9 = 57; lib.subplotSort = function(a, b) { var l = Math.min(a.length, b.length) + 1; var numA = 0; var numB = 0; for(var i = 0; i < l; i++) { var charA = a.charCodeAt(i) || 0; var charB = b.charCodeAt(i) || 0; var isNumA = charA >= char0 && charA <= char9; var isNumB = charB >= char0 && charB <= char9; if(isNumA) numA = 10 * numA + charA - char0; if(isNumB) numB = 10 * numB + charB - char0; if(!isNumA || !isNumB) { if(numA !== numB) return numA - numB; if(charA !== charB) return charA - charB; } } return numB - numA; }; // repeatable pseudorandom generator var randSeed = 2000000000; lib.seedPseudoRandom = function() { randSeed = 2000000000; }; lib.pseudoRandom = function() { var lastVal = randSeed; randSeed = (69069 * randSeed + 1) % 4294967296; // don't let consecutive vals be too close together // gets away from really trying to be random, in favor of better local uniformity if(Math.abs(randSeed - lastVal) < 429496729) return lib.pseudoRandom(); return randSeed / 4294967296; }; /** Fill hover 'pointData' container with 'correct' hover text value * * - If trace hoverinfo contains a 'text' flag and hovertext is not set, * the text elements will be seen in the hover labels. * * - If trace hoverinfo contains a 'text' flag and hovertext is set, * hovertext takes precedence over text * i.e. the hoverinfo elements will be seen in the hover labels * * @param {object} calcPt * @param {object} trace * @param {object || array} contOut (mutated here) */ lib.fillText = function(calcPt, trace, contOut) { var fill = Array.isArray(contOut) ? function(v) { contOut.push(v); } : function(v) { contOut.text = v; }; var htx = lib.extractOption(calcPt, trace, 'htx', 'hovertext'); if(lib.isValidTextValue(htx)) return fill(htx); var tx = lib.extractOption(calcPt, trace, 'tx', 'text'); if(lib.isValidTextValue(tx)) return fill(tx); }; // accept all truthy values and 0 (which gets cast to '0' in the hover labels) lib.isValidTextValue = function(v) { return v || v === 0; }; /** * @param {number} ratio * @param {number} n (number of decimal places) */ lib.formatPercent = function(ratio, n) { n = n || 0; var str = (Math.round(100 * ratio * Math.pow(10, n)) * Math.pow(0.1, n)).toFixed(n) + '%'; for(var i = 0; i < n; i++) { if(str.indexOf('.') !== -1) { str = str.replace('0%', '%'); str = str.replace('.%', '%'); } } return str; }; lib.isHidden = function(gd) { var display = window.getComputedStyle(gd).display; return !display || display === 'none'; }; lib.strTranslate = function(x, y) { return (x || y) ? 'translate(' + x + ',' + y + ')' : ''; }; lib.strRotate = function(a) { return a ? 'rotate(' + a + ')' : ''; }; lib.strScale = function(s) { return s !== 1 ? 'scale(' + s + ')' : ''; }; /** Return transform text for bar bar-like rectangles and pie-like slices * @param {object} transform * - targetX: desired position on the x-axis * - targetY: desired position on the y-axis * - textX: text middle position on the x-axis * - textY: text middle position on the y-axis * - anchorX: (optional) text anchor position on the x-axis (computed from textX), zero for middle anchor * - anchorY: (optional) text anchor position on the y-axis (computed from textY), zero for middle anchor * - scale: (optional) scale applied after translate * - rotate: (optional) rotation applied after scale * - noCenter: when defined no extra arguments needed in rotation */ lib.getTextTransform = function(transform) { var noCenter = transform.noCenter; var textX = transform.textX; var textY = transform.textY; var targetX = transform.targetX; var targetY = transform.targetY; var anchorX = transform.anchorX || 0; var anchorY = transform.anchorY || 0; var rotate = transform.rotate; var scale = transform.scale; if(!scale) scale = 0; else if(scale > 1) scale = 1; return ( lib.strTranslate( targetX - scale * (textX + anchorX), targetY - scale * (textY + anchorY) ) + lib.strScale(scale) + (rotate ? 'rotate(' + rotate + (noCenter ? '' : ' ' + textX + ' ' + textY) + ')' : '' ) ); }; lib.ensureUniformFontSize = function(gd, baseFont) { var out = lib.extendFlat({}, baseFont); out.size = Math.max( baseFont.size, gd._fullLayout.uniformtext.minsize || 0 ); return out; }; /** * provide a human-readable list e.g. "A, B, C and D" with an ending separator * * @param {array} arr : the array to join * @param {string} mainSeparator : main separator * @param {string} lastSeparator : last separator * * @return {string} : joined list */ lib.join2 = function(arr, mainSeparator, lastSeparator) { var len = arr.length; if(len > 1) { return arr.slice(0, -1).join(mainSeparator) + lastSeparator + arr[len - 1]; } return arr.join(mainSeparator); }; lib.bigFont = function(size) { return Math.round(1.2 * size); }; var firefoxVersion = lib.getFirefoxVersion(); // see https://bugzilla.mozilla.org/show_bug.cgi?id=1684973 var isProblematicFirefox = firefoxVersion !== null && firefoxVersion < 86; /** * Return the mouse position from the last event registered by D3. * @returns An array with two numbers, representing the x and y coordinates of the mouse pointer * at the event relative to the targeted node. */ lib.getPositionFromD3Event = function() { if(isProblematicFirefox) { // layerX and layerY are non-standard, so we only fallback to them when we have to: return [ d3.event.layerX, d3.event.layerY ]; } else { return [ d3.event.offsetX, d3.event.offsetY ]; } }; },{"../constants/numerical":267,"./anchor_utils":271,"./angles":272,"./array":273,"./clean_number":274,"./clear_responsive":276,"./coerce":277,"./dates":278,"./dom":279,"./extend":281,"./filter_unique":282,"./filter_visible":283,"./geometry2d":284,"./identity":285,"./increment":286,"./is_plain_object":288,"./keyed_container":289,"./localize":290,"./loggers":291,"./make_trace_groups":292,"./matrix":293,"./mod":294,"./nested_property":295,"./noop":296,"./notifier":297,"./preserve_drawing_buffer":300,"./push_unique":301,"./regex":303,"./relative_attr":304,"./relink_private":305,"./search":306,"./sort_object_keys":308,"./stats":309,"./throttle":311,"./to_log_range":312,"@plotly/d3":20,"d3-format":29,"d3-time-format":30,"fast-isnumeric":33}],288:[function(_dereq_,module,exports){ 'use strict'; // more info: http://stackoverflow.com/questions/18531624/isplainobject-thing module.exports = function isPlainObject(obj) { // We need to be a little less strict in the `imagetest` container because // of how async image requests are handled. // // N.B. isPlainObject(new Constructor()) will return true in `imagetest` if(window && window.process && window.process.versions) { return Object.prototype.toString.call(obj) === '[object Object]'; } return ( Object.prototype.toString.call(obj) === '[object Object]' && Object.getPrototypeOf(obj).hasOwnProperty('hasOwnProperty') ); }; },{}],289:[function(_dereq_,module,exports){ 'use strict'; var nestedProperty = _dereq_('./nested_property'); var SIMPLE_PROPERTY_REGEX = /^\w*$/; // bitmask for deciding what's updated. Sometimes the name needs to be updated, // sometimes the value needs to be updated, and sometimes both do. This is just // a simple way to track what's updated such that it's a simple OR operation to // assimilate new updates. // // The only exception is the UNSET bit that tracks when we need to explicitly // unset and remove the property. This concrn arises because of the special // way in which nestedProperty handles null/undefined. When you specify `null`, // it prunes any unused items in the tree. I ran into some issues with it getting // null vs undefined confused, so UNSET is just a bit that forces the property // update to send `null`, removing the property explicitly rather than setting // it to undefined. var NONE = 0; var NAME = 1; var VALUE = 2; var BOTH = 3; var UNSET = 4; module.exports = function keyedContainer(baseObj, path, keyName, valueName) { keyName = keyName || 'name'; valueName = valueName || 'value'; var i, arr, baseProp; var changeTypes = {}; if(path && path.length) { baseProp = nestedProperty(baseObj, path); arr = baseProp.get(); } else { arr = baseObj; } path = path || ''; // Construct an index: var indexLookup = {}; if(arr) { for(i = 0; i < arr.length; i++) { indexLookup[arr[i][keyName]] = i; } } var isSimpleValueProp = SIMPLE_PROPERTY_REGEX.test(valueName); var obj = { set: function(name, value) { var changeType = value === null ? UNSET : NONE; // create the base array if necessary if(!arr) { if(!baseProp || changeType === UNSET) return; arr = []; baseProp.set(arr); } var idx = indexLookup[name]; if(idx === undefined) { if(changeType === UNSET) return; changeType = changeType | BOTH; idx = arr.length; indexLookup[name] = idx; } else if(value !== (isSimpleValueProp ? arr[idx][valueName] : nestedProperty(arr[idx], valueName).get())) { changeType = changeType | VALUE; } var newValue = arr[idx] = arr[idx] || {}; newValue[keyName] = name; if(isSimpleValueProp) { newValue[valueName] = value; } else { nestedProperty(newValue, valueName).set(value); } // If it's not an unset, force that bit to be unset. This is all related to the fact // that undefined and null are a bit specially implemented in nestedProperties. if(value !== null) { changeType = changeType & ~UNSET; } changeTypes[idx] = changeTypes[idx] | changeType; return obj; }, get: function(name) { if(!arr) return; var idx = indexLookup[name]; if(idx === undefined) { return undefined; } else if(isSimpleValueProp) { return arr[idx][valueName]; } else { return nestedProperty(arr[idx], valueName).get(); } }, rename: function(name, newName) { var idx = indexLookup[name]; if(idx === undefined) return obj; changeTypes[idx] = changeTypes[idx] | NAME; indexLookup[newName] = idx; delete indexLookup[name]; arr[idx][keyName] = newName; return obj; }, remove: function(name) { var idx = indexLookup[name]; if(idx === undefined) return obj; var object = arr[idx]; if(Object.keys(object).length > 2) { // This object contains more than just the key/value, so unset // the value without modifying the entry otherwise: changeTypes[idx] = changeTypes[idx] | VALUE; return obj.set(name, null); } if(isSimpleValueProp) { for(i = idx; i < arr.length; i++) { changeTypes[i] = changeTypes[i] | BOTH; } for(i = idx; i < arr.length; i++) { indexLookup[arr[i][keyName]]--; } arr.splice(idx, 1); delete(indexLookup[name]); } else { // Perform this update *strictly* so we can check whether the result's // been pruned. If so, it's a removal. If not, it's a value unset only. nestedProperty(object, valueName).set(null); // Now check if the top level nested property has any keys left. If so, // the object still has values so we only want to unset the key. If not, // the entire object can be removed since there's no other data. // var topLevelKeys = Object.keys(object[valueName.split('.')[0]] || []); changeTypes[idx] = changeTypes[idx] | VALUE | UNSET; } return obj; }, constructUpdate: function() { var astr, idx; var update = {}; var changed = Object.keys(changeTypes); for(var i = 0; i < changed.length; i++) { idx = changed[i]; astr = path + '[' + idx + ']'; if(arr[idx]) { if(changeTypes[idx] & NAME) { update[astr + '.' + keyName] = arr[idx][keyName]; } if(changeTypes[idx] & VALUE) { if(isSimpleValueProp) { update[astr + '.' + valueName] = (changeTypes[idx] & UNSET) ? null : arr[idx][valueName]; } else { update[astr + '.' + valueName] = (changeTypes[idx] & UNSET) ? null : nestedProperty(arr[idx], valueName).get(); } } } else { update[astr] = null; } } return update; } }; return obj; }; },{"./nested_property":295}],290:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../registry'); /** * localize: translate a string for the current locale * * @param {object} gd: the graphDiv for context * gd._context.locale determines the language (& optional region/country) * the dictionary for each locale may either be supplied in * gd._context.locales or globally via Plotly.register * @param {string} s: the string to translate */ module.exports = function localize(gd, s) { var locale = gd._context.locale; /* * Priority of lookup: * contextDicts[locale], * registeredDicts[locale], * contextDicts[baseLocale], (if baseLocale is distinct) * registeredDicts[baseLocale] * Return the first translation we find. * This way if you have a regionalization you are allowed to specify * only what's different from the base locale, everything else will * fall back on the base. */ for(var i = 0; i < 2; i++) { var locales = gd._context.locales; for(var j = 0; j < 2; j++) { var dict = (locales[locale] || {}).dictionary; if(dict) { var out = dict[s]; if(out) return out; } locales = Registry.localeRegistry; } var baseLocale = locale.split('-')[0]; if(baseLocale === locale) break; locale = baseLocale; } return s; }; },{"../registry":378}],291:[function(_dereq_,module,exports){ 'use strict'; /* eslint-disable no-console */ var dfltConfig = _dereq_('../plot_api/plot_config').dfltConfig; var notifier = _dereq_('./notifier'); var loggers = module.exports = {}; /** * ------------------------------------------ * debugging tools * ------------------------------------------ */ loggers.log = function() { var i; if(dfltConfig.logging > 1) { var messages = ['LOG:']; for(i = 0; i < arguments.length; i++) { messages.push(arguments[i]); } console.trace.apply(console, messages); } if(dfltConfig.notifyOnLogging > 1) { var lines = []; for(i = 0; i < arguments.length; i++) { lines.push(arguments[i]); } notifier(lines.join('
'), 'long'); } }; loggers.warn = function() { var i; if(dfltConfig.logging > 0) { var messages = ['WARN:']; for(i = 0; i < arguments.length; i++) { messages.push(arguments[i]); } console.trace.apply(console, messages); } if(dfltConfig.notifyOnLogging > 0) { var lines = []; for(i = 0; i < arguments.length; i++) { lines.push(arguments[i]); } notifier(lines.join('
'), 'stick'); } }; loggers.error = function() { var i; if(dfltConfig.logging > 0) { var messages = ['ERROR:']; for(i = 0; i < arguments.length; i++) { messages.push(arguments[i]); } console.error.apply(console, messages); } if(dfltConfig.notifyOnLogging > 0) { var lines = []; for(i = 0; i < arguments.length; i++) { lines.push(arguments[i]); } notifier(lines.join('
'), 'stick'); } }; },{"../plot_api/plot_config":321,"./notifier":297}],292:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); /** * General helper to manage trace groups based on calcdata * * @param {d3.selection} traceLayer: a selection containing a single group * to draw these traces into * @param {array} cdModule: array of calcdata items for this * module and subplot combination. Assumes the calcdata item for each * trace is an array with the fullData trace attached to the first item. * @param {string} cls: the class attribute to give each trace group * so you can give multiple classes separated by spaces */ module.exports = function makeTraceGroups(traceLayer, cdModule, cls) { var traces = traceLayer.selectAll('g.' + cls.replace(/\s/g, '.')) .data(cdModule, function(cd) { return cd[0].trace.uid; }); traces.exit().remove(); traces.enter().append('g') .attr('class', cls); traces.order(); // stash ref node to trace group in calcdata, // useful for (fast) styleOnSelect var k = traceLayer.classed('rangeplot') ? 'nodeRangePlot3' : 'node3'; traces.each(function(cd) { cd[0][k] = d3.select(this); }); return traces; }; },{"@plotly/d3":20}],293:[function(_dereq_,module,exports){ 'use strict'; var mat4X4 = _dereq_('gl-mat4'); exports.init2dArray = function(rowLength, colLength) { var array = new Array(rowLength); for(var i = 0; i < rowLength; i++) array[i] = new Array(colLength); return array; }; /** * transpose a (possibly ragged) 2d array z. inspired by * http://stackoverflow.com/questions/17428587/ * transposing-a-2d-array-in-javascript */ exports.transposeRagged = function(z) { var maxlen = 0; var zlen = z.length; var i, j; // Maximum row length: for(i = 0; i < zlen; i++) maxlen = Math.max(maxlen, z[i].length); var t = new Array(maxlen); for(i = 0; i < maxlen; i++) { t[i] = new Array(zlen); for(j = 0; j < zlen; j++) t[i][j] = z[j][i]; } return t; }; // our own dot function so that we don't need to include numeric exports.dot = function(x, y) { if(!(x.length && y.length) || x.length !== y.length) return null; var len = x.length; var out; var i; if(x[0].length) { // mat-vec or mat-mat out = new Array(len); for(i = 0; i < len; i++) out[i] = exports.dot(x[i], y); } else if(y[0].length) { // vec-mat var yTranspose = exports.transposeRagged(y); out = new Array(yTranspose.length); for(i = 0; i < yTranspose.length; i++) out[i] = exports.dot(x, yTranspose[i]); } else { // vec-vec out = 0; for(i = 0; i < len; i++) out += x[i] * y[i]; } return out; }; // translate by (x,y) exports.translationMatrix = function(x, y) { return [[1, 0, x], [0, 1, y], [0, 0, 1]]; }; // rotate by alpha around (0,0) exports.rotationMatrix = function(alpha) { var a = alpha * Math.PI / 180; return [[Math.cos(a), -Math.sin(a), 0], [Math.sin(a), Math.cos(a), 0], [0, 0, 1]]; }; // rotate by alpha around (x,y) exports.rotationXYMatrix = function(a, x, y) { return exports.dot( exports.dot(exports.translationMatrix(x, y), exports.rotationMatrix(a)), exports.translationMatrix(-x, -y)); }; // applies a 3D transformation matrix to either x, y and z params // Note: z is optional exports.apply3DTransform = function(transform) { return function() { var args = arguments; var xyz = arguments.length === 1 ? args[0] : [args[0], args[1], args[2] || 0]; return exports.dot(transform, [xyz[0], xyz[1], xyz[2], 1]).slice(0, 3); }; }; // applies a 2D transformation matrix to either x and y params or an [x,y] array exports.apply2DTransform = function(transform) { return function() { var args = arguments; if(args.length === 3) { args = args[0]; } // from map var xy = arguments.length === 1 ? args[0] : [args[0], args[1]]; return exports.dot(transform, [xy[0], xy[1], 1]).slice(0, 2); }; }; // applies a 2D transformation matrix to an [x1,y1,x2,y2] array (to transform a segment) exports.apply2DTransform2 = function(transform) { var at = exports.apply2DTransform(transform); return function(xys) { return at(xys.slice(0, 2)).concat(at(xys.slice(2, 4))); }; }; exports.convertCssMatrix = function(m) { if(m) { var len = m.length; if(len === 16) return m; if(len === 6) { // converts a 2x3 css transform matrix to a 4x4 matrix see https://developer.mozilla.org/en-US/docs/Web/CSS/transform-function/matrix return [ m[0], m[1], 0, 0, m[2], m[3], 0, 0, 0, 0, 1, 0, m[4], m[5], 0, 1 ]; } } return [ 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ]; }; // find the inverse for a 4x4 affine transform matrix exports.inverseTransformMatrix = function(m) { var out = []; mat4X4.invert(out, m); return [ [out[0], out[1], out[2], out[3]], [out[4], out[5], out[6], out[7]], [out[8], out[9], out[10], out[11]], [out[12], out[13], out[14], out[15]] ]; }; },{"gl-mat4":49}],294:[function(_dereq_,module,exports){ 'use strict'; /** * sanitized modulus function that always returns in the range [0, d) * rather than (-d, 0] if v is negative */ function mod(v, d) { var out = v % d; return out < 0 ? out + d : out; } /** * sanitized modulus function that always returns in the range [-d/2, d/2] * rather than (-d, 0] if v is negative */ function modHalf(v, d) { return Math.abs(v) > (d / 2) ? v - Math.round(v / d) * d : v; } module.exports = { mod: mod, modHalf: modHalf }; },{}],295:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var isArrayOrTypedArray = _dereq_('./array').isArrayOrTypedArray; /** * convert a string s (such as 'xaxis.range[0]') * representing a property of nested object into set and get methods * also return the string and object so we don't have to keep track of them * allows [-1] for an array index, to set a property inside all elements * of an array * eg if obj = {arr: [{a: 1}, {a: 2}]} * you can do p = nestedProperty(obj, 'arr[-1].a') * but you cannot set the array itself this way, to do that * just set the whole array. * eg if obj = {arr: [1, 2, 3]} * you can't do nestedProperty(obj, 'arr[-1]').set(5) * but you can do nestedProperty(obj, 'arr').set([5, 5, 5]) */ module.exports = function nestedProperty(container, propStr) { if(isNumeric(propStr)) propStr = String(propStr); else if(typeof propStr !== 'string' || propStr.substr(propStr.length - 4) === '[-1]') { throw 'bad property string'; } var j = 0; var propParts = propStr.split('.'); var indexed; var indices; var i; // check for parts of the nesting hierarchy that are numbers (ie array elements) while(j < propParts.length) { // look for non-bracket chars, then any number of [##] blocks indexed = String(propParts[j]).match(/^([^\[\]]*)((\[\-?[0-9]*\])+)$/); if(indexed) { if(indexed[1]) propParts[j] = indexed[1]; // allow propStr to start with bracketed array indices else if(j === 0) propParts.splice(0, 1); else throw 'bad property string'; indices = indexed[2] .substr(1, indexed[2].length - 2) .split(']['); for(i = 0; i < indices.length; i++) { j++; propParts.splice(j, 0, Number(indices[i])); } } j++; } if(typeof container !== 'object') { return badContainer(container, propStr, propParts); } return { set: npSet(container, propParts, propStr), get: npGet(container, propParts), astr: propStr, parts: propParts, obj: container }; }; function npGet(cont, parts) { return function() { var curCont = cont; var curPart; var allSame; var out; var i; var j; for(i = 0; i < parts.length - 1; i++) { curPart = parts[i]; if(curPart === -1) { allSame = true; out = []; for(j = 0; j < curCont.length; j++) { out[j] = npGet(curCont[j], parts.slice(i + 1))(); if(out[j] !== out[0]) allSame = false; } return allSame ? out[0] : out; } if(typeof curPart === 'number' && !isArrayOrTypedArray(curCont)) { return undefined; } curCont = curCont[curPart]; if(typeof curCont !== 'object' || curCont === null) { return undefined; } } // only hit this if parts.length === 1 if(typeof curCont !== 'object' || curCont === null) return undefined; out = curCont[parts[i]]; if(out === null) return undefined; return out; }; } /* * Can this value be deleted? We can delete `undefined`, and `null` except INSIDE an * *args* array. * * Previously we also deleted some `{}` and `[]`, in order to try and make set/unset * a net noop; but this causes far more complication than it's worth, and still had * lots of exceptions. See https://github.com/plotly/plotly.js/issues/1410 * * *args* arrays get passed directly to API methods and we should respect null if * the user put it there, but otherwise null is deleted as we use it as code * in restyle/relayout/update for "delete this value" whereas undefined means * "ignore this edit" */ var ARGS_PATTERN = /(^|\.)args\[/; function isDeletable(val, propStr) { return (val === undefined) || (val === null && !propStr.match(ARGS_PATTERN)); } function npSet(cont, parts, propStr) { return function(val) { var curCont = cont; var propPart = ''; var containerLevels = [[cont, propPart]]; var toDelete = isDeletable(val, propStr); var curPart; var i; for(i = 0; i < parts.length - 1; i++) { curPart = parts[i]; if(typeof curPart === 'number' && !isArrayOrTypedArray(curCont)) { throw 'array index but container is not an array'; } // handle special -1 array index if(curPart === -1) { toDelete = !setArrayAll(curCont, parts.slice(i + 1), val, propStr); if(toDelete) break; else return; } if(!checkNewContainer(curCont, curPart, parts[i + 1], toDelete)) { break; } curCont = curCont[curPart]; if(typeof curCont !== 'object' || curCont === null) { throw 'container is not an object'; } propPart = joinPropStr(propPart, curPart); containerLevels.push([curCont, propPart]); } if(toDelete) { if(i === parts.length - 1) { delete curCont[parts[i]]; // The one bit of pruning we still do: drop `undefined` from the end of arrays. // In case someone has already unset previous items, continue until we hit a // non-undefined value. if(Array.isArray(curCont) && +parts[i] === curCont.length - 1) { while(curCont.length && curCont[curCont.length - 1] === undefined) { curCont.pop(); } } } } else curCont[parts[i]] = val; }; } function joinPropStr(propStr, newPart) { var toAdd = newPart; if(isNumeric(newPart)) toAdd = '[' + newPart + ']'; else if(propStr) toAdd = '.' + newPart; return propStr + toAdd; } // handle special -1 array index function setArrayAll(containerArray, innerParts, val, propStr) { var arrayVal = isArrayOrTypedArray(val); var allSet = true; var thisVal = val; var thisPropStr = propStr.replace('-1', 0); var deleteThis = arrayVal ? false : isDeletable(val, thisPropStr); var firstPart = innerParts[0]; var i; for(i = 0; i < containerArray.length; i++) { thisPropStr = propStr.replace('-1', i); if(arrayVal) { thisVal = val[i % val.length]; deleteThis = isDeletable(thisVal, thisPropStr); } if(deleteThis) allSet = false; if(!checkNewContainer(containerArray, i, firstPart, deleteThis)) { continue; } npSet(containerArray[i], innerParts, propStr.replace('-1', i))(thisVal); } return allSet; } /** * make new sub-container as needed. * returns false if there's no container and none is needed * because we're only deleting an attribute */ function checkNewContainer(container, part, nextPart, toDelete) { if(container[part] === undefined) { if(toDelete) return false; if(typeof nextPart === 'number') container[part] = []; else container[part] = {}; } return true; } function badContainer(container, propStr, propParts) { return { set: function() { throw 'bad container'; }, get: function() {}, astr: propStr, parts: propParts, obj: container }; } },{"./array":273,"fast-isnumeric":33}],296:[function(_dereq_,module,exports){ 'use strict'; // Simple helper functions // none of these need any external deps module.exports = function noop() {}; },{}],297:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var NOTEDATA = []; /** * notifier * @param {String} text The person's user name * @param {Number} [delay=1000] The delay time in milliseconds * or 'long' which provides 2000 ms delay time. * @return {undefined} this function does not return a value */ module.exports = function(text, displayLength) { if(NOTEDATA.indexOf(text) !== -1) return; NOTEDATA.push(text); var ts = 1000; if(isNumeric(displayLength)) ts = displayLength; else if(displayLength === 'long') ts = 3000; var notifierContainer = d3.select('body') .selectAll('.plotly-notifier') .data([0]); notifierContainer.enter() .append('div') .classed('plotly-notifier', true); var notes = notifierContainer.selectAll('.notifier-note').data(NOTEDATA); function killNote(transition) { transition .duration(700) .style('opacity', 0) .each('end', function(thisText) { var thisIndex = NOTEDATA.indexOf(thisText); if(thisIndex !== -1) NOTEDATA.splice(thisIndex, 1); d3.select(this).remove(); }); } notes.enter().append('div') .classed('notifier-note', true) .style('opacity', 0) .each(function(thisText) { var note = d3.select(this); note.append('button') .classed('notifier-close', true) .html('×') .on('click', function() { note.transition().call(killNote); }); var p = note.append('p'); var lines = thisText.split(//g); for(var i = 0; i < lines.length; i++) { if(i) p.append('br'); p.append('span').text(lines[i]); } if(displayLength === 'stick') { note.transition() .duration(350) .style('opacity', 1); } else { note.transition() .duration(700) .style('opacity', 1) .transition() .delay(ts) .call(killNote); } }); }; },{"@plotly/d3":20,"fast-isnumeric":33}],298:[function(_dereq_,module,exports){ 'use strict'; var setCursor = _dereq_('./setcursor'); var STASHATTR = 'data-savedcursor'; var NO_CURSOR = '!!'; /* * works with our CSS cursor classes (see css/_cursor.scss) * to override a previous cursor set on d3 single-element selections, * by moving the name of the original cursor to the data-savedcursor attr. * omit cursor to revert to the previously set value. */ module.exports = function overrideCursor(el3, csr) { var savedCursor = el3.attr(STASHATTR); if(csr) { if(!savedCursor) { var classes = (el3.attr('class') || '').split(' '); for(var i = 0; i < classes.length; i++) { var cls = classes[i]; if(cls.indexOf('cursor-') === 0) { el3.attr(STASHATTR, cls.substr(7)) .classed(cls, false); } } if(!el3.attr(STASHATTR)) { el3.attr(STASHATTR, NO_CURSOR); } } setCursor(el3, csr); } else if(savedCursor) { el3.attr(STASHATTR, null); if(savedCursor === NO_CURSOR) setCursor(el3); else setCursor(el3, savedCursor); } }; },{"./setcursor":307}],299:[function(_dereq_,module,exports){ 'use strict'; var dot = _dereq_('./matrix').dot; var BADNUM = _dereq_('../constants/numerical').BADNUM; var polygon = module.exports = {}; /** * Turn an array of [x, y] pairs into a polygon object * that can test if points are inside it * * @param ptsIn Array of [x, y] pairs * * @returns polygon Object {xmin, xmax, ymin, ymax, pts, contains} * (x|y)(min|max) are the bounding rect of the polygon * pts is the original array, with the first pair repeated at the end * contains is a function: (pt, omitFirstEdge) * pt is the [x, y] pair to test * omitFirstEdge truthy means points exactly on the first edge don't * count. This is for use adding one polygon to another so we * don't double-count the edge where they meet. * returns boolean: is pt inside the polygon (including on its edges) */ polygon.tester = function tester(ptsIn) { var pts = ptsIn.slice(); var xmin = pts[0][0]; var xmax = xmin; var ymin = pts[0][1]; var ymax = ymin; var i; pts.push(pts[0]); for(i = 1; i < pts.length; i++) { xmin = Math.min(xmin, pts[i][0]); xmax = Math.max(xmax, pts[i][0]); ymin = Math.min(ymin, pts[i][1]); ymax = Math.max(ymax, pts[i][1]); } // do we have a rectangle? Handle this here, so we can use the same // tester for the rectangular case without sacrificing speed var isRect = false; var rectFirstEdgeTest; if(pts.length === 5) { if(pts[0][0] === pts[1][0]) { // vert, horz, vert, horz if(pts[2][0] === pts[3][0] && pts[0][1] === pts[3][1] && pts[1][1] === pts[2][1]) { isRect = true; rectFirstEdgeTest = function(pt) { return pt[0] === pts[0][0]; }; } } else if(pts[0][1] === pts[1][1]) { // horz, vert, horz, vert if(pts[2][1] === pts[3][1] && pts[0][0] === pts[3][0] && pts[1][0] === pts[2][0]) { isRect = true; rectFirstEdgeTest = function(pt) { return pt[1] === pts[0][1]; }; } } } function rectContains(pt, omitFirstEdge) { var x = pt[0]; var y = pt[1]; if(x === BADNUM || x < xmin || x > xmax || y === BADNUM || y < ymin || y > ymax) { // pt is outside the bounding box of polygon return false; } if(omitFirstEdge && rectFirstEdgeTest(pt)) return false; return true; } function contains(pt, omitFirstEdge) { var x = pt[0]; var y = pt[1]; if(x === BADNUM || x < xmin || x > xmax || y === BADNUM || y < ymin || y > ymax) { // pt is outside the bounding box of polygon return false; } var imax = pts.length; var x1 = pts[0][0]; var y1 = pts[0][1]; var crossings = 0; var i; var x0; var y0; var xmini; var ycross; for(i = 1; i < imax; i++) { // find all crossings of a vertical line upward from pt with // polygon segments // crossings exactly at xmax don't count, unless the point is // exactly on the segment, then it counts as inside. x0 = x1; y0 = y1; x1 = pts[i][0]; y1 = pts[i][1]; xmini = Math.min(x0, x1); if(x < xmini || x > Math.max(x0, x1) || y > Math.max(y0, y1)) { // outside the bounding box of this segment, it's only a crossing // if it's below the box. continue; } else if(y < Math.min(y0, y1)) { // don't count the left-most point of the segment as a crossing // because we don't want to double-count adjacent crossings // UNLESS the polygon turns past vertical at exactly this x // Note that this is repeated below, but we can't factor it out // because if(x !== xmini) crossings++; } else { // inside the bounding box, check the actual line intercept // vertical segment - we know already that the point is exactly // on the segment, so mark the crossing as exactly at the point. if(x1 === x0) ycross = y; // any other angle else ycross = y0 + (x - x0) * (y1 - y0) / (x1 - x0); // exactly on the edge: counts as inside the polygon, unless it's the // first edge and we're omitting it. if(y === ycross) { if(i === 1 && omitFirstEdge) return false; return true; } if(y <= ycross && x !== xmini) crossings++; } } // if we've gotten this far, odd crossings means inside, even is outside return crossings % 2 === 1; } // detect if poly is degenerate var degenerate = true; var lastPt = pts[0]; for(i = 1; i < pts.length; i++) { if(lastPt[0] !== pts[i][0] || lastPt[1] !== pts[i][1]) { degenerate = false; break; } } return { xmin: xmin, xmax: xmax, ymin: ymin, ymax: ymax, pts: pts, contains: isRect ? rectContains : contains, isRect: isRect, degenerate: degenerate }; }; /** * Test if a segment of a points array is bent or straight * * @param pts Array of [x, y] pairs * @param start the index of the proposed start of the straight section * @param end the index of the proposed end point * @param tolerance the max distance off the line connecting start and end * before the line counts as bent * @returns boolean: true means this segment is bent, false means straight */ polygon.isSegmentBent = function isSegmentBent(pts, start, end, tolerance) { var startPt = pts[start]; var segment = [pts[end][0] - startPt[0], pts[end][1] - startPt[1]]; var segmentSquared = dot(segment, segment); var segmentLen = Math.sqrt(segmentSquared); var unitPerp = [-segment[1] / segmentLen, segment[0] / segmentLen]; var i; var part; var partParallel; for(i = start + 1; i < end; i++) { part = [pts[i][0] - startPt[0], pts[i][1] - startPt[1]]; partParallel = dot(part, segment); if(partParallel < 0 || partParallel > segmentSquared || Math.abs(dot(part, unitPerp)) > tolerance) return true; } return false; }; /** * Make a filtering polygon, to minimize the number of segments * * @param pts Array of [x, y] pairs (must start with at least 1 pair) * @param tolerance the maximum deviation from straight allowed for * removing points to simplify the polygon * * @returns Object {addPt, raw, filtered} * addPt is a function(pt: [x, y] pair) to add a raw point and * continue filtering * raw is all the input points * filtered is the resulting filtered Array of [x, y] pairs */ polygon.filter = function filter(pts, tolerance) { var ptsFiltered = [pts[0]]; var doneRawIndex = 0; var doneFilteredIndex = 0; function addPt(pt) { pts.push(pt); var prevFilterLen = ptsFiltered.length; var iLast = doneRawIndex; ptsFiltered.splice(doneFilteredIndex + 1); for(var i = iLast + 1; i < pts.length; i++) { if(i === pts.length - 1 || polygon.isSegmentBent(pts, iLast, i + 1, tolerance)) { ptsFiltered.push(pts[i]); if(ptsFiltered.length < prevFilterLen - 2) { doneRawIndex = i; doneFilteredIndex = ptsFiltered.length - 1; } iLast = i; } } } if(pts.length > 1) { var lastPt = pts.pop(); addPt(lastPt); } return { addPt: addPt, raw: pts, filtered: ptsFiltered }; }; },{"../constants/numerical":267,"./matrix":293}],300:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var isMobileOrTablet = _dereq_('is-mobile'); module.exports = function preserveDrawingBuffer(opts) { var ua; if(opts && opts.hasOwnProperty('userAgent')) { ua = opts.userAgent; } else { ua = getUserAgent(); } if(typeof ua !== 'string') return true; var enable = isMobileOrTablet({ ua: { headers: {'user-agent': ua }}, tablet: true, featureDetect: false }); if(!enable) { var allParts = ua.split(' '); for(var i = 1; i < allParts.length; i++) { var part = allParts[i]; if(part.indexOf('Safari') !== -1) { // find Safari version for(var k = i - 1; k > -1; k--) { var prevPart = allParts[k]; if(prevPart.substr(0, 8) === 'Version/') { var v = prevPart.substr(8).split('.')[0]; if(isNumeric(v)) v = +v; if(v >= 13) return true; } } } } } return enable; }; function getUserAgent() { // similar to https://github.com/juliangruber/is-mobile/blob/91ca39ccdd4cfc5edfb5391e2515b923a730fbea/index.js#L14-L17 var ua; if(typeof navigator !== 'undefined') { ua = navigator.userAgent; } if( ua && ua.headers && typeof ua.headers['user-agent'] === 'string' ) { ua = ua.headers['user-agent']; } return ua; } },{"fast-isnumeric":33,"is-mobile":69}],301:[function(_dereq_,module,exports){ 'use strict'; /** * Push array with unique items * * Ignores falsy items, except 0 so we can use it to construct arrays of indices. * * @param {array} array * array to be filled * @param {any} item * item to be or not to be inserted * @return {array} * ref to array (now possibly containing one more item) * */ module.exports = function pushUnique(array, item) { if(item instanceof RegExp) { var itemStr = item.toString(); for(var i = 0; i < array.length; i++) { if(array[i] instanceof RegExp && array[i].toString() === itemStr) { return array; } } array.push(item); } else if((item || item === 0) && array.indexOf(item) === -1) array.push(item); return array; }; },{}],302:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var dfltConfig = _dereq_('../plot_api/plot_config').dfltConfig; /** * Copy arg array *without* removing `undefined` values from objects. * * @param gd * @param args * @returns {Array} */ function copyArgArray(gd, args) { var copy = []; var arg; for(var i = 0; i < args.length; i++) { arg = args[i]; if(arg === gd) copy[i] = arg; else if(typeof arg === 'object') { copy[i] = Array.isArray(arg) ? Lib.extendDeep([], arg) : Lib.extendDeepAll({}, arg); } else copy[i] = arg; } return copy; } // ----------------------------------------------------- // Undo/Redo queue for plots // ----------------------------------------------------- var queue = {}; // TODO: disable/enable undo and redo buttons appropriately /** * Add an item to the undoQueue for a graphDiv * * @param gd * @param undoFunc Function undo this operation * @param undoArgs Args to supply undoFunc with * @param redoFunc Function to redo this operation * @param redoArgs Args to supply redoFunc with */ queue.add = function(gd, undoFunc, undoArgs, redoFunc, redoArgs) { var queueObj, queueIndex; // make sure we have the queue and our position in it gd.undoQueue = gd.undoQueue || {index: 0, queue: [], sequence: false}; queueIndex = gd.undoQueue.index; // if we're already playing an undo or redo, or if this is an auto operation // (like pane resize... any others?) then we don't save this to the undo queue if(gd.autoplay) { if(!gd.undoQueue.inSequence) gd.autoplay = false; return; } // if we're not in a sequence or are just starting, we need a new queue item if(!gd.undoQueue.sequence || gd.undoQueue.beginSequence) { queueObj = {undo: {calls: [], args: []}, redo: {calls: [], args: []}}; gd.undoQueue.queue.splice(queueIndex, gd.undoQueue.queue.length - queueIndex, queueObj); gd.undoQueue.index += 1; } else { queueObj = gd.undoQueue.queue[queueIndex - 1]; } gd.undoQueue.beginSequence = false; // we unshift to handle calls for undo in a forward for loop later if(queueObj) { queueObj.undo.calls.unshift(undoFunc); queueObj.undo.args.unshift(undoArgs); queueObj.redo.calls.push(redoFunc); queueObj.redo.args.push(redoArgs); } if(gd.undoQueue.queue.length > dfltConfig.queueLength) { gd.undoQueue.queue.shift(); gd.undoQueue.index--; } }; /** * Begin a sequence of undoQueue changes * * @param gd */ queue.startSequence = function(gd) { gd.undoQueue = gd.undoQueue || {index: 0, queue: [], sequence: false}; gd.undoQueue.sequence = true; gd.undoQueue.beginSequence = true; }; /** * Stop a sequence of undoQueue changes * * Call this *after* you're sure your undo chain has ended * * @param gd */ queue.stopSequence = function(gd) { gd.undoQueue = gd.undoQueue || {index: 0, queue: [], sequence: false}; gd.undoQueue.sequence = false; gd.undoQueue.beginSequence = false; }; /** * Move one step back in the undo queue, and undo the object there. * * @param gd */ queue.undo = function undo(gd) { var queueObj, i; if(gd.undoQueue === undefined || isNaN(gd.undoQueue.index) || gd.undoQueue.index <= 0) { return; } // index is pointing to next *forward* queueObj, point to the one we're undoing gd.undoQueue.index--; // get the queueObj for instructions on how to undo queueObj = gd.undoQueue.queue[gd.undoQueue.index]; // this sequence keeps things from adding to the queue during undo/redo gd.undoQueue.inSequence = true; for(i = 0; i < queueObj.undo.calls.length; i++) { queue.plotDo(gd, queueObj.undo.calls[i], queueObj.undo.args[i]); } gd.undoQueue.inSequence = false; gd.autoplay = false; }; /** * Redo the current object in the undo, then move forward in the queue. * * @param gd */ queue.redo = function redo(gd) { var queueObj, i; if(gd.undoQueue === undefined || isNaN(gd.undoQueue.index) || gd.undoQueue.index >= gd.undoQueue.queue.length) { return; } // get the queueObj for instructions on how to undo queueObj = gd.undoQueue.queue[gd.undoQueue.index]; // this sequence keeps things from adding to the queue during undo/redo gd.undoQueue.inSequence = true; for(i = 0; i < queueObj.redo.calls.length; i++) { queue.plotDo(gd, queueObj.redo.calls[i], queueObj.redo.args[i]); } gd.undoQueue.inSequence = false; gd.autoplay = false; // index is pointing to the thing we just redid, move it gd.undoQueue.index++; }; /** * Called by undo/redo to make the actual changes. * * Not meant to be called publically, but included for mocking out in tests. * * @param gd * @param func * @param args */ queue.plotDo = function(gd, func, args) { gd.autoplay = true; // this *won't* copy gd and it preserves `undefined` properties! args = copyArgArray(gd, args); // call the supplied function func.apply(null, args); }; module.exports = queue; },{"../lib":287,"../plot_api/plot_config":321}],303:[function(_dereq_,module,exports){ 'use strict'; /* * make a regex for matching counter ids/names ie xaxis, xaxis2, xaxis10... * * @param {string} head: the head of the pattern, eg 'x' matches 'x', 'x2', 'x10' etc. * 'xy' is a special case for cartesian subplots: it matches 'x2y3' etc * @param {Optional(string)} tail: a fixed piece after the id * eg counterRegex('scene', '.annotations') for scene2.annotations etc. * @param {boolean} openEnded: if true, the string may continue past the match. * @param {boolean} matchBeginning: if false, the string may start before the match. */ exports.counter = function(head, tail, openEnded, matchBeginning) { var fullTail = (tail || '') + (openEnded ? '' : '$'); var startWithPrefix = matchBeginning === false ? '' : '^'; if(head === 'xy') { return new RegExp(startWithPrefix + 'x([2-9]|[1-9][0-9]+)?y([2-9]|[1-9][0-9]+)?' + fullTail); } return new RegExp(startWithPrefix + head + '([2-9]|[1-9][0-9]+)?' + fullTail); }; },{}],304:[function(_dereq_,module,exports){ 'use strict'; // ASCEND: chop off the last nesting level - either [] or . - to ascend // the attribute tree. the remaining attrString is in match[1] var ASCEND = /^(.*)(\.[^\.\[\]]+|\[\d\])$/; // SIMPLEATTR: is this an un-nested attribute? (no dots or brackets) var SIMPLEATTR = /^[^\.\[\]]+$/; /* * calculate a relative attribute string, similar to a relative path * * @param {string} baseAttr: * an attribute string, such as 'annotations[3].x'. The "current location" * is the attribute string minus the last component ('annotations[3]') * @param {string} relativeAttr: * a route to the desired attribute string, using '^' to ascend * * @return {string} attrString: * for example: * relativeAttr('annotations[3].x', 'y') = 'annotations[3].y' * relativeAttr('annotations[3].x', '^[2].z') = 'annotations[2].z' * relativeAttr('annotations[3].x', '^^margin') = 'margin' * relativeAttr('annotations[3].x', '^^margin.r') = 'margin.r' */ module.exports = function(baseAttr, relativeAttr) { while(relativeAttr) { var match = baseAttr.match(ASCEND); if(match) baseAttr = match[1]; else if(baseAttr.match(SIMPLEATTR)) baseAttr = ''; else throw new Error('bad relativeAttr call:' + [baseAttr, relativeAttr]); if(relativeAttr.charAt(0) === '^') relativeAttr = relativeAttr.slice(1); else break; } if(baseAttr && relativeAttr.charAt(0) !== '[') { return baseAttr + '.' + relativeAttr; } return baseAttr + relativeAttr; }; },{}],305:[function(_dereq_,module,exports){ 'use strict'; var isArrayOrTypedArray = _dereq_('./array').isArrayOrTypedArray; var isPlainObject = _dereq_('./is_plain_object'); /** * Relink private _keys and keys with a function value from one container * to the new container. * Relink means copying if object is pass-by-value and adding a reference * if object is pass-by-ref. * This prevents deepCopying massive structures like a webgl context. */ module.exports = function relinkPrivateKeys(toContainer, fromContainer) { for(var k in fromContainer) { var fromVal = fromContainer[k]; var toVal = toContainer[k]; if(toVal === fromVal) continue; if(k.charAt(0) === '_' || typeof fromVal === 'function') { // if it already exists at this point, it's something // that we recreate each time around, so ignore it if(k in toContainer) continue; toContainer[k] = fromVal; } else if(isArrayOrTypedArray(fromVal) && isArrayOrTypedArray(toVal) && isPlainObject(fromVal[0])) { // filter out data_array items that can contain user objects // most of the time the toVal === fromVal check will catch these early // but if the user makes new ones we also don't want to recurse in. if(k === 'customdata' || k === 'ids') continue; // recurse into arrays containers var minLen = Math.min(fromVal.length, toVal.length); for(var j = 0; j < minLen; j++) { if((toVal[j] !== fromVal[j]) && isPlainObject(fromVal[j]) && isPlainObject(toVal[j])) { relinkPrivateKeys(toVal[j], fromVal[j]); } } } else if(isPlainObject(fromVal) && isPlainObject(toVal)) { // recurse into objects, but only if they still exist relinkPrivateKeys(toVal, fromVal); if(!Object.keys(toVal).length) delete toContainer[k]; } } }; },{"./array":273,"./is_plain_object":288}],306:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var loggers = _dereq_('./loggers'); var identity = _dereq_('./identity'); var BADNUM = _dereq_('../constants/numerical').BADNUM; // don't trust floating point equality - fraction of bin size to call // "on the line" and ensure that they go the right way specified by // linelow var roundingError = 1e-9; /** * findBin - find the bin for val - note that it can return outside the * bin range any pos. or neg. integer for linear bins, or -1 or * bins.length-1 for explicit. * bins is either an object {start,size,end} or an array length #bins+1 * bins can be either increasing or decreasing but must be monotonic * for linear bins, we can just calculate. For listed bins, run a binary * search linelow (truthy) says the bin boundary should be attributed to * the lower bin rather than the default upper bin */ exports.findBin = function(val, bins, linelow) { if(isNumeric(bins.start)) { return linelow ? Math.ceil((val - bins.start) / bins.size - roundingError) - 1 : Math.floor((val - bins.start) / bins.size + roundingError); } else { var n1 = 0; var n2 = bins.length; var c = 0; var binSize = (n2 > 1) ? (bins[n2 - 1] - bins[0]) / (n2 - 1) : 1; var n, test; if(binSize >= 0) { test = linelow ? lessThan : lessOrEqual; } else { test = linelow ? greaterOrEqual : greaterThan; } val += binSize * roundingError * (linelow ? -1 : 1) * (binSize >= 0 ? 1 : -1); // c is just to avoid infinite loops if there's an error while(n1 < n2 && c++ < 100) { n = Math.floor((n1 + n2) / 2); if(test(bins[n], val)) n1 = n + 1; else n2 = n; } if(c > 90) loggers.log('Long binary search...'); return n1 - 1; } }; function lessThan(a, b) { return a < b; } function lessOrEqual(a, b) { return a <= b; } function greaterThan(a, b) { return a > b; } function greaterOrEqual(a, b) { return a >= b; } exports.sorterAsc = function(a, b) { return a - b; }; exports.sorterDes = function(a, b) { return b - a; }; /** * find distinct values in an array, lumping together ones that appear to * just be off by a rounding error * return the distinct values and the minimum difference between any two */ exports.distinctVals = function(valsIn) { var vals = valsIn.slice(); // otherwise we sort the original array... vals.sort(exports.sorterAsc); // undefined listed in the end - also works on IE11 var last; for(last = vals.length - 1; last > -1; last--) { if(vals[last] !== BADNUM) break; } var minDiff = (vals[last] - vals[0]) || 1; var errDiff = minDiff / (last || 1) / 10000; var newVals = []; var preV; for(var i = 0; i <= last; i++) { var v = vals[i]; // make sure values aren't just off by a rounding error var diff = v - preV; if(preV === undefined) { newVals.push(v); preV = v; } else if(diff > errDiff) { minDiff = Math.min(minDiff, diff); newVals.push(v); preV = v; } } return {vals: newVals, minDiff: minDiff}; }; /** * return the smallest element from (sorted) array arrayIn that's bigger than val, * or (reverse) the largest element smaller than val * used to find the best tick given the minimum (non-rounded) tick * particularly useful for date/time where things are not powers of 10 * binary search is probably overkill here... */ exports.roundUp = function(val, arrayIn, reverse) { var low = 0; var high = arrayIn.length - 1; var mid; var c = 0; var dlow = reverse ? 0 : 1; var dhigh = reverse ? 1 : 0; var rounded = reverse ? Math.ceil : Math.floor; // c is just to avoid infinite loops if there's an error while(low < high && c++ < 100) { mid = rounded((low + high) / 2); if(arrayIn[mid] <= val) low = mid + dlow; else high = mid - dhigh; } return arrayIn[low]; }; /** * Tweak to Array.sort(sortFn) that improves performance for pre-sorted arrays * * Note that newer browsers (such as Chrome v70+) are starting to pick up * on pre-sorted arrays which may render the following optimization unnecessary * in the future. * * Motivation: sometimes we need to sort arrays but the input is likely to * already be sorted. Browsers don't seem to pick up on pre-sorted arrays, * and in fact Chrome is actually *slower* sorting pre-sorted arrays than purely * random arrays. FF is at least faster if the array is pre-sorted, but still * not as fast as it could be. * Here's how this plays out sorting a length-1e6 array: * * Calls to Sort FN | Chrome bare | FF bare | Chrome tweak | FF tweak * | v68.0 Mac | v61.0 Mac| | * ------------------+---------------+-----------+----------------+------------ * ordered | 30.4e6 | 10.1e6 | 1e6 | 1e6 * reversed | 29.4e6 | 9.9e6 | 1e6 + reverse | 1e6 + reverse * random | ~21e6 | ~18.7e6 | ~21e6 | ~18.7e6 * * So this is a substantial win for pre-sorted (ordered or exactly reversed) * arrays. Including this wrapper on an unsorted array adds a penalty that will * in general be only a few calls to the sort function. The only case this * penalty will be significant is if the array is mostly sorted but there are * a few unsorted items near the end, but the penalty is still at most N calls * out of (for N=1e6) ~20N total calls * * @param {Array} array: the array, to be sorted in place * @param {function} sortFn: As in Array.sort, function(a, b) that puts * item a before item b if the return is negative, a after b if positive, * and no change if zero. * @return {Array}: the original array, sorted in place. */ exports.sort = function(array, sortFn) { var notOrdered = 0; var notReversed = 0; for(var i = 1; i < array.length; i++) { var pairOrder = sortFn(array[i], array[i - 1]); if(pairOrder < 0) notOrdered = 1; else if(pairOrder > 0) notReversed = 1; if(notOrdered && notReversed) return array.sort(sortFn); } return notReversed ? array : array.reverse(); }; /** * find index in array 'arr' that minimizes 'fn' * * @param {array} arr : array where to search * @param {fn (optional)} fn : function to minimize, * if not given, fn is the identity function * @return {integer} */ exports.findIndexOfMin = function(arr, fn) { fn = fn || identity; var min = Infinity; var ind; for(var i = 0; i < arr.length; i++) { var v = fn(arr[i]); if(v < min) { min = v; ind = i; } } return ind; }; },{"../constants/numerical":267,"./identity":285,"./loggers":291,"fast-isnumeric":33}],307:[function(_dereq_,module,exports){ 'use strict'; // works with our CSS cursor classes (see css/_cursor.scss) // to apply cursors to d3 single-element selections. // omit cursor to revert to the default. module.exports = function setCursor(el3, csr) { (el3.attr('class') || '').split(' ').forEach(function(cls) { if(cls.indexOf('cursor-') === 0) el3.classed(cls, false); }); if(csr) el3.classed('cursor-' + csr, true); }; },{}],308:[function(_dereq_,module,exports){ 'use strict'; module.exports = function sortObjectKeys(obj) { return Object.keys(obj).sort(); }; },{}],309:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var isArrayOrTypedArray = _dereq_('./array').isArrayOrTypedArray; /** * aggNums() returns the result of an aggregate function applied to an array of * values, where non-numerical values have been tossed out. * * @param {function} f - aggregation function (e.g., Math.min) * @param {Number} v - initial value (continuing from previous calls) * if there's no continuing value, use null for selector-type * functions (max,min), or 0 for summations * @param {Array} a - array to aggregate (may be nested, we will recurse, * but all elements must have the same dimension) * @param {Number} len - maximum length of a to aggregate * @return {Number} - result of f applied to a starting from v */ exports.aggNums = function(f, v, a, len) { var i, b; if(!len || len > a.length) len = a.length; if(!isNumeric(v)) v = false; if(isArrayOrTypedArray(a[0])) { b = new Array(len); for(i = 0; i < len; i++) b[i] = exports.aggNums(f, v, a[i]); a = b; } for(i = 0; i < len; i++) { if(!isNumeric(v)) v = a[i]; else if(isNumeric(a[i])) v = f(+v, +a[i]); } return v; }; /** * mean & std dev functions using aggNums, so it handles non-numerics nicely * even need to use aggNums instead of .length, to toss out non-numerics */ exports.len = function(data) { return exports.aggNums(function(a) { return a + 1; }, 0, data); }; exports.mean = function(data, len) { if(!len) len = exports.len(data); return exports.aggNums(function(a, b) { return a + b; }, 0, data) / len; }; exports.midRange = function(numArr) { if(numArr === undefined || numArr.length === 0) return undefined; return (exports.aggNums(Math.max, null, numArr) + exports.aggNums(Math.min, null, numArr)) / 2; }; exports.variance = function(data, len, mean) { if(!len) len = exports.len(data); if(!isNumeric(mean)) mean = exports.mean(data, len); return exports.aggNums(function(a, b) { return a + Math.pow(b - mean, 2); }, 0, data) / len; }; exports.stdev = function(data, len, mean) { return Math.sqrt(exports.variance(data, len, mean)); }; /** * median of a finite set of numbers * reference page: https://en.wikipedia.org/wiki/Median#Finite_set_of_numbers **/ exports.median = function(data) { var b = data.slice().sort(); return exports.interp(b, 0.5); }; /** * interp() computes a percentile (quantile) for a given distribution. * We interpolate the distribution (to compute quantiles, we follow method #10 here: * http://www.amstat.org/publications/jse/v14n3/langford.html). * Typically the index or rank (n * arr.length) may be non-integer. * For reference: ends are clipped to the extreme values in the array; * For box plots: index you get is half a point too high (see * http://en.wikipedia.org/wiki/Percentile#Nearest_rank) but note that this definition * indexes from 1 rather than 0, so we subtract 1/2 (instead of add). * * @param {Array} arr - This array contains the values that make up the distribution. * @param {Number} n - Between 0 and 1, n = p/100 is such that we compute the p^th percentile. * For example, the 50th percentile (or median) corresponds to n = 0.5 * @return {Number} - percentile */ exports.interp = function(arr, n) { if(!isNumeric(n)) throw 'n should be a finite number'; n = n * arr.length - 0.5; if(n < 0) return arr[0]; if(n > arr.length - 1) return arr[arr.length - 1]; var frac = n % 1; return frac * arr[Math.ceil(n)] + (1 - frac) * arr[Math.floor(n)]; }; },{"./array":273,"fast-isnumeric":33}],310:[function(_dereq_,module,exports){ 'use strict'; /* global MathJax:false */ var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../lib'); var strTranslate = Lib.strTranslate; var xmlnsNamespaces = _dereq_('../constants/xmlns_namespaces'); var LINE_SPACING = _dereq_('../constants/alignment').LINE_SPACING; // text converter var FIND_TEX = /([^$]*)([$]+[^$]*[$]+)([^$]*)/; exports.convertToTspans = function(_context, gd, _callback) { var str = _context.text(); // Until we get tex integrated more fully (so it can be used along with non-tex) // allow some elements to prohibit it by attaching 'data-notex' to the original var tex = (!_context.attr('data-notex')) && gd && gd._context.typesetMath && (typeof MathJax !== 'undefined') && str.match(FIND_TEX); var parent = d3.select(_context.node().parentNode); if(parent.empty()) return; var svgClass = (_context.attr('class')) ? _context.attr('class').split(' ')[0] : 'text'; svgClass += '-math'; parent.selectAll('svg.' + svgClass).remove(); parent.selectAll('g.' + svgClass + '-group').remove(); _context.style('display', null) .attr({ // some callers use data-unformatted *from the element* in 'cancel' // so we need it here even if we're going to turn it into math // these two (plus style and text-anchor attributes) form the key we're // going to use for Drawing.bBox 'data-unformatted': str, 'data-math': 'N' }); function showText() { if(!parent.empty()) { svgClass = _context.attr('class') + '-math'; parent.select('svg.' + svgClass).remove(); } _context.text('') .style('white-space', 'pre'); var hasLink = buildSVGText(_context.node(), str); if(hasLink) { // at least in Chrome, pointer-events does not seem // to be honored in children of elements // so if we have an anchor, we have to make the // whole element respond _context.style('pointer-events', 'all'); } exports.positionText(_context); if(_callback) _callback.call(_context); } if(tex) { ((gd && gd._promises) || []).push(new Promise(function(resolve) { _context.style('display', 'none'); var fontSize = parseInt(_context.node().style.fontSize, 10); var config = {fontSize: fontSize}; texToSVG(tex[2], config, function(_svgEl, _glyphDefs, _svgBBox) { parent.selectAll('svg.' + svgClass).remove(); parent.selectAll('g.' + svgClass + '-group').remove(); var newSvg = _svgEl && _svgEl.select('svg'); if(!newSvg || !newSvg.node()) { showText(); resolve(); return; } var mathjaxGroup = parent.append('g') .classed(svgClass + '-group', true) .attr({ 'pointer-events': 'none', 'data-unformatted': str, 'data-math': 'Y' }); mathjaxGroup.node().appendChild(newSvg.node()); // stitch the glyph defs if(_glyphDefs && _glyphDefs.node()) { newSvg.node().insertBefore(_glyphDefs.node().cloneNode(true), newSvg.node().firstChild); } var w0 = _svgBBox.width; var h0 = _svgBBox.height; newSvg.attr({ 'class': svgClass, height: h0, preserveAspectRatio: 'xMinYMin meet' }) .style({overflow: 'visible', 'pointer-events': 'none'}); var fill = _context.node().style.fill || 'black'; var g = newSvg.select('g'); g.attr({fill: fill, stroke: fill}); var bb = g.node().getBoundingClientRect(); var w = bb.width; var h = bb.height; if(w > w0 || h > h0) { // this happen in firefox v82+ | see https://bugzilla.mozilla.org/show_bug.cgi?id=1709251 addressed // temporary fix: newSvg.style('overflow', 'hidden'); bb = newSvg.node().getBoundingClientRect(); w = bb.width; h = bb.height; } var x = +_context.attr('x'); var y = +_context.attr('y'); // font baseline is about 1/4 fontSize below centerline var textHeight = fontSize || _context.node().getBoundingClientRect().height; var dy = -textHeight / 4; if(svgClass[0] === 'y') { mathjaxGroup.attr({ transform: 'rotate(' + [-90, x, y] + ')' + strTranslate(-w / 2, dy - h / 2) }); } else if(svgClass[0] === 'l') { y = dy - h / 2; } else if(svgClass[0] === 'a' && svgClass.indexOf('atitle') !== 0) { x = 0; y = dy; } else { var anchor = _context.attr('text-anchor'); x = x - w * ( anchor === 'middle' ? 0.5 : anchor === 'end' ? 1 : 0 ); y = y + dy - h / 2; } newSvg.attr({ x: x, y: y }); if(_callback) _callback.call(_context, mathjaxGroup); resolve(mathjaxGroup); }); })); } else showText(); return _context; }; // MathJax var LT_MATCH = /(<|<|<)/g; var GT_MATCH = /(>|>|>)/g; function cleanEscapesForTex(s) { return s.replace(LT_MATCH, '\\lt ') .replace(GT_MATCH, '\\gt '); } var inlineMath = [['$', '$'], ['\\(', '\\)']]; function texToSVG(_texString, _config, _callback) { var MathJaxVersion = parseInt( (MathJax.version || '').split('.')[0] ); if( MathJaxVersion !== 2 && MathJaxVersion !== 3 ) { Lib.warn('No MathJax version:', MathJax.version); return; } var originalRenderer, originalConfig, originalProcessSectionDelay, tmpDiv; var setConfig2 = function() { originalConfig = Lib.extendDeepAll({}, MathJax.Hub.config); originalProcessSectionDelay = MathJax.Hub.processSectionDelay; if(MathJax.Hub.processSectionDelay !== undefined) { // MathJax 2.5+ but not 3+ MathJax.Hub.processSectionDelay = 0; } return MathJax.Hub.Config({ messageStyle: 'none', tex2jax: { inlineMath: inlineMath }, displayAlign: 'left', }); }; var setConfig3 = function() { originalConfig = Lib.extendDeepAll({}, MathJax.config); if(!MathJax.config.tex) { MathJax.config.tex = {}; } MathJax.config.tex.inlineMath = inlineMath; }; var setRenderer2 = function() { originalRenderer = MathJax.Hub.config.menuSettings.renderer; if(originalRenderer !== 'SVG') { return MathJax.Hub.setRenderer('SVG'); } }; var setRenderer3 = function() { originalRenderer = MathJax.config.startup.output; if(originalRenderer !== 'svg') { MathJax.config.startup.output = 'svg'; } }; var initiateMathJax = function() { var randomID = 'math-output-' + Lib.randstr({}, 64); tmpDiv = d3.select('body').append('div') .attr({id: randomID}) .style({ visibility: 'hidden', position: 'absolute', 'font-size': _config.fontSize + 'px' }) .text(cleanEscapesForTex(_texString)); var tmpNode = tmpDiv.node(); return MathJaxVersion === 2 ? MathJax.Hub.Typeset(tmpNode) : MathJax.typeset([tmpNode]); }; var finalizeMathJax = function() { var sel = tmpDiv.select( MathJaxVersion === 2 ? '.MathJax_SVG' : '.MathJax' ); var node = !sel.empty() && tmpDiv.select('svg').node(); if(!node) { Lib.log('There was an error in the tex syntax.', _texString); _callback(); } else { var nodeBBox = node.getBoundingClientRect(); var glyphDefs; if(MathJaxVersion === 2) { glyphDefs = d3.select('body').select('#MathJax_SVG_glyphs'); } else { glyphDefs = sel.select('defs'); } _callback(sel, glyphDefs, nodeBBox); } tmpDiv.remove(); }; var resetRenderer2 = function() { if(originalRenderer !== 'SVG') { return MathJax.Hub.setRenderer(originalRenderer); } }; var resetRenderer3 = function() { if(originalRenderer !== 'svg') { MathJax.config.startup.output = originalRenderer; } }; var resetConfig2 = function() { if(originalProcessSectionDelay !== undefined) { MathJax.Hub.processSectionDelay = originalProcessSectionDelay; } return MathJax.Hub.Config(originalConfig); }; var resetConfig3 = function() { MathJax.config = originalConfig; }; if(MathJaxVersion === 2) { MathJax.Hub.Queue( setConfig2, setRenderer2, initiateMathJax, finalizeMathJax, resetRenderer2, resetConfig2 ); } else if(MathJaxVersion === 3) { setConfig3(); setRenderer3(); MathJax.startup.defaultReady(); MathJax.startup.promise.then(function() { initiateMathJax(); finalizeMathJax(); resetRenderer3(); resetConfig3(); }); } } var TAG_STYLES = { // would like to use baseline-shift for sub/sup but FF doesn't support it // so we need to use dy along with the uber hacky shift-back-to // baseline below sup: 'font-size:70%', sub: 'font-size:70%', b: 'font-weight:bold', i: 'font-style:italic', a: 'cursor:pointer', span: '', em: 'font-style:italic;font-weight:bold' }; // baseline shifts for sub and sup var SHIFT_DY = { sub: '0.3em', sup: '-0.6em' }; // reset baseline by adding a tspan (empty except for a zero-width space) // with dy of -70% * SHIFT_DY (because font-size=70%) var RESET_DY = { sub: '-0.21em', sup: '0.42em' }; var ZERO_WIDTH_SPACE = '\u200b'; /* * Whitelist of protocols in user-supplied urls. Mostly we want to avoid javascript * and related attack vectors. The empty items are there for IE, that in various * versions treats relative paths as having different flavors of no protocol, while * other browsers have these explicitly inherit the protocol of the page they're in. */ var PROTOCOLS = ['http:', 'https:', 'mailto:', '', undefined, ':']; var NEWLINES = exports.NEWLINES = /(\r\n?|\n)/g; var SPLIT_TAGS = /(<[^<>]*>)/; var ONE_TAG = /<(\/?)([^ >]*)(\s+(.*))?>/i; var BR_TAG = //i; exports.BR_TAG_ALL = //gi; /* * style and href: pull them out of either single or double quotes. Also * - target: (_blank|_self|_parent|_top|framename) * note that you can't use target to get a popup but if you use popup, * a `framename` will be passed along as the name of the popup window. * per the spec, cannot contain whitespace. * for backward compatibility we default to '_blank' * - popup: a custom one for us to enable popup (new window) links. String * for window.open -> strWindowFeatures, like 'menubar=yes,width=500,height=550' * note that at least in Chrome, you need to give at least one property * in this string or the page will open in a new tab anyway. We follow this * convention and will not make a popup if this string is empty. * per the spec, cannot contain whitespace. * * Because we hack in other attributes with style (sub & sup), drop any trailing * semicolon in user-supplied styles so we can consistently append the tag-dependent style * * These are for tag attributes; Chrome anyway will convert entities in * attribute values, but not in attribute names * you can test this by for example: * > p = document.createElement('p') * > p.innerHTML = 'Hi' * > p.innerHTML * <- 'Hi' */ var STYLEMATCH = /(^|[\s"'])style\s*=\s*("([^"]*);?"|'([^']*);?')/i; var HREFMATCH = /(^|[\s"'])href\s*=\s*("([^"]*)"|'([^']*)')/i; var TARGETMATCH = /(^|[\s"'])target\s*=\s*("([^"\s]*)"|'([^'\s]*)')/i; var POPUPMATCH = /(^|[\s"'])popup\s*=\s*("([\w=,]*)"|'([\w=,]*)')/i; // dedicated matcher for these quoted regexes, that can return their results // in two different places function getQuotedMatch(_str, re) { if(!_str) return null; var match = _str.match(re); var result = match && (match[3] || match[4]); return result && convertEntities(result); } var COLORMATCH = /(^|;)\s*color:/; /** * Strip string of tags * * @param {string} _str : input string * @param {object} opts : * - len {number} max length of output string * - allowedTags {array} list of pseudo-html tags to NOT strip * @return {string} */ exports.plainText = function(_str, opts) { opts = opts || {}; var len = (opts.len !== undefined && opts.len !== -1) ? opts.len : Infinity; var allowedTags = opts.allowedTags !== undefined ? opts.allowedTags : ['br']; var ellipsis = '...'; var eLen = ellipsis.length; var oldParts = _str.split(SPLIT_TAGS); var newParts = []; var prevTag = ''; var l = 0; for(var i = 0; i < oldParts.length; i++) { var p = oldParts[i]; var match = p.match(ONE_TAG); var tagType = match && match[2].toLowerCase(); if(tagType) { // N.B. tags do not count towards string length if(allowedTags.indexOf(tagType) !== -1) { newParts.push(p); prevTag = tagType; } } else { var pLen = p.length; if((l + pLen) < len) { newParts.push(p); l += pLen; } else if(l < len) { var pLen2 = len - l; if(prevTag && (prevTag !== 'br' || pLen2 <= eLen || pLen <= eLen)) { newParts.pop(); } if(len > eLen) { newParts.push(p.substr(0, pLen2 - eLen) + ellipsis); } else { newParts.push(p.substr(0, pLen2)); } break; } prevTag = ''; } } return newParts.join(''); }; /* * N.B. HTML entities are listed without the leading '&' and trailing ';' * https://www.freeformatter.com/html-entities.html * * FWIW if we wanted to support the full set, it has 2261 entries: * https://www.w3.org/TR/html5/entities.json * though I notice that some of these are duplicates and/or are missing ";" * eg: "&", "&", "&", and "&" all map to "&" * We no longer need to include numeric entities here, these are now handled * by String.fromCodePoint/fromCharCode * * Anyway the only ones that are really important to allow are the HTML special * chars <, >, and &, because these ones can trigger special processing if not * replaced by the corresponding entity. */ var entityToUnicode = { mu: 'μ', amp: '&', lt: '<', gt: '>', nbsp: ' ', times: '×', plusmn: '±', deg: '°' }; // NOTE: in general entities can contain uppercase too (so [a-zA-Z]) but all the // ones we support use only lowercase. If we ever change that, update the regex. var ENTITY_MATCH = /&(#\d+|#x[\da-fA-F]+|[a-z]+);/g; function convertEntities(_str) { return _str.replace(ENTITY_MATCH, function(fullMatch, innerMatch) { var outChar; if(innerMatch.charAt(0) === '#') { // cannot use String.fromCodePoint in IE outChar = fromCodePoint( innerMatch.charAt(1) === 'x' ? parseInt(innerMatch.substr(2), 16) : parseInt(innerMatch.substr(1), 10) ); } else outChar = entityToUnicode[innerMatch]; // as in regular HTML, if we didn't decode the entity just // leave the raw text in place. return outChar || fullMatch; }); } exports.convertEntities = convertEntities; function fromCodePoint(code) { // Don't allow overflow. In Chrome this turns into � but I feel like it's // more useful to just not convert it at all. if(code > 0x10FFFF) return; var stringFromCodePoint = String.fromCodePoint; if(stringFromCodePoint) return stringFromCodePoint(code); // IE doesn't have String.fromCodePoint // see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/fromCodePoint var stringFromCharCode = String.fromCharCode; if(code <= 0xFFFF) return stringFromCharCode(code); return stringFromCharCode( (code >> 10) + 0xD7C0, (code % 0x400) + 0xDC00 ); } /* * buildSVGText: convert our pseudo-html into SVG tspan elements, and attach these * to containerNode * * @param {svg text element} containerNode: the node to insert this text into * @param {string} str: the pseudo-html string to convert to svg * * @returns {bool}: does the result contain any links? We need to handle the text element * somewhat differently if it does, so just keep track of this when it happens. */ function buildSVGText(containerNode, str) { /* * Normalize behavior between IE and others wrt newlines and whitespace:pre * this combination makes IE barf https://github.com/plotly/plotly.js/issues/746 * Chrome and FF display \n, \r, or \r\n as a space in this mode. * I feel like at some point we turned these into
but currently we don't so * I'm just going to cement what we do now in Chrome and FF */ str = str.replace(NEWLINES, ' '); var hasLink = false; // as we're building the text, keep track of what elements we're nested inside // nodeStack will be an array of {node, type, style, href, target, popup} // where only type: 'a' gets the last 3 and node is only added when it's created var nodeStack = []; var currentNode; var currentLine = -1; function newLine() { currentLine++; var lineNode = document.createElementNS(xmlnsNamespaces.svg, 'tspan'); d3.select(lineNode).attr({ class: 'line', dy: (currentLine * LINE_SPACING) + 'em' }); containerNode.appendChild(lineNode); currentNode = lineNode; var oldNodeStack = nodeStack; nodeStack = [{node: lineNode}]; if(oldNodeStack.length > 1) { for(var i = 1; i < oldNodeStack.length; i++) { enterNode(oldNodeStack[i]); } } } function enterNode(nodeSpec) { var type = nodeSpec.type; var nodeAttrs = {}; var nodeType; if(type === 'a') { nodeType = 'a'; var target = nodeSpec.target; var href = nodeSpec.href; var popup = nodeSpec.popup; if(href) { nodeAttrs = { 'xlink:xlink:show': (target === '_blank' || target.charAt(0) !== '_') ? 'new' : 'replace', target: target, 'xlink:xlink:href': href }; if(popup) { // security: href and target are not inserted as code but // as attributes. popup is, but limited to /[A-Za-z0-9_=,]/ nodeAttrs.onclick = 'window.open(this.href.baseVal,this.target.baseVal,"' + popup + '");return false;'; } } } else nodeType = 'tspan'; if(nodeSpec.style) nodeAttrs.style = nodeSpec.style; var newNode = document.createElementNS(xmlnsNamespaces.svg, nodeType); if(type === 'sup' || type === 'sub') { addTextNode(currentNode, ZERO_WIDTH_SPACE); currentNode.appendChild(newNode); var resetter = document.createElementNS(xmlnsNamespaces.svg, 'tspan'); addTextNode(resetter, ZERO_WIDTH_SPACE); d3.select(resetter).attr('dy', RESET_DY[type]); nodeAttrs.dy = SHIFT_DY[type]; currentNode.appendChild(newNode); currentNode.appendChild(resetter); } else { currentNode.appendChild(newNode); } d3.select(newNode).attr(nodeAttrs); currentNode = nodeSpec.node = newNode; nodeStack.push(nodeSpec); } function addTextNode(node, text) { node.appendChild(document.createTextNode(text)); } function exitNode(type) { // A bare closing tag can't close the root node. If we encounter this it // means there's an extra closing tag that can just be ignored: if(nodeStack.length === 1) { Lib.log('Ignoring unexpected end tag .', str); return; } var innerNode = nodeStack.pop(); if(type !== innerNode.type) { Lib.log('Start tag <' + innerNode.type + '> doesnt match end tag <' + type + '>. Pretending it did match.', str); } currentNode = nodeStack[nodeStack.length - 1].node; } var hasLines = BR_TAG.test(str); if(hasLines) newLine(); else { currentNode = containerNode; nodeStack = [{node: containerNode}]; } var parts = str.split(SPLIT_TAGS); for(var i = 0; i < parts.length; i++) { var parti = parts[i]; var match = parti.match(ONE_TAG); var tagType = match && match[2].toLowerCase(); var tagStyle = TAG_STYLES[tagType]; if(tagType === 'br') { newLine(); } else if(tagStyle === undefined) { addTextNode(currentNode, convertEntities(parti)); } else { // tag - open or close if(match[1]) { exitNode(tagType); } else { var extra = match[4]; var nodeSpec = {type: tagType}; // now add style, from both the tag name and any extra css // Most of the svg css that users will care about is just like html, // but font color is different (uses fill). Let our users ignore this. var css = getQuotedMatch(extra, STYLEMATCH); if(css) { css = css.replace(COLORMATCH, '$1 fill:'); if(tagStyle) css += ';' + tagStyle; } else if(tagStyle) css = tagStyle; if(css) nodeSpec.style = css; if(tagType === 'a') { hasLink = true; var href = getQuotedMatch(extra, HREFMATCH); if(href) { var safeHref = sanitizeHref(href); if(safeHref) { nodeSpec.href = safeHref; nodeSpec.target = getQuotedMatch(extra, TARGETMATCH) || '_blank'; nodeSpec.popup = getQuotedMatch(extra, POPUPMATCH); } } } enterNode(nodeSpec); } } } return hasLink; } function sanitizeHref(href) { var decodedHref = encodeURI(decodeURI(href)); var dummyAnchor1 = document.createElement('a'); var dummyAnchor2 = document.createElement('a'); dummyAnchor1.href = href; dummyAnchor2.href = decodedHref; var p1 = dummyAnchor1.protocol; var p2 = dummyAnchor2.protocol; // check safe protocols if( PROTOCOLS.indexOf(p1) !== -1 && PROTOCOLS.indexOf(p2) !== -1 ) { return decodedHref; } else { return ''; } } /* * sanitizeHTML: port of buildSVGText aimed at providing a clean subset of HTML * @param {string} str: the html string to clean * @returns {string}: a cleaned and normalized version of the input, * supporting only a small subset of html */ exports.sanitizeHTML = function sanitizeHTML(str) { str = str.replace(NEWLINES, ' '); var rootNode = document.createElement('p'); var currentNode = rootNode; var nodeStack = []; var parts = str.split(SPLIT_TAGS); for(var i = 0; i < parts.length; i++) { var parti = parts[i]; var match = parti.match(ONE_TAG); var tagType = match && match[2].toLowerCase(); if(tagType in TAG_STYLES) { if(match[1]) { if(nodeStack.length) { currentNode = nodeStack.pop(); } } else { var extra = match[4]; var css = getQuotedMatch(extra, STYLEMATCH); var nodeAttrs = css ? {style: css} : {}; if(tagType === 'a') { var href = getQuotedMatch(extra, HREFMATCH); if(href) { var safeHref = sanitizeHref(href); if(safeHref) { nodeAttrs.href = safeHref; var target = getQuotedMatch(extra, TARGETMATCH); if(target) { nodeAttrs.target = target; } } } } var newNode = document.createElement(tagType); currentNode.appendChild(newNode); d3.select(newNode).attr(nodeAttrs); currentNode = newNode; nodeStack.push(newNode); } } else { currentNode.appendChild( document.createTextNode(convertEntities(parti)) ); } } var key = 'innerHTML'; // i.e. to avoid pass test-syntax return rootNode[key]; }; exports.lineCount = function lineCount(s) { return s.selectAll('tspan.line').size() || 1; }; exports.positionText = function positionText(s, x, y) { return s.each(function() { var text = d3.select(this); function setOrGet(attr, val) { if(val === undefined) { val = text.attr(attr); if(val === null) { text.attr(attr, 0); val = 0; } } else text.attr(attr, val); return val; } var thisX = setOrGet('x', x); var thisY = setOrGet('y', y); if(this.nodeName === 'text') { text.selectAll('tspan.line').attr({x: thisX, y: thisY}); } }); }; function alignHTMLWith(_base, container, options) { var alignH = options.horizontalAlign; var alignV = options.verticalAlign || 'top'; var bRect = _base.node().getBoundingClientRect(); var cRect = container.node().getBoundingClientRect(); var thisRect; var getTop; var getLeft; if(alignV === 'bottom') { getTop = function() { return bRect.bottom - thisRect.height; }; } else if(alignV === 'middle') { getTop = function() { return bRect.top + (bRect.height - thisRect.height) / 2; }; } else { // default: top getTop = function() { return bRect.top; }; } if(alignH === 'right') { getLeft = function() { return bRect.right - thisRect.width; }; } else if(alignH === 'center') { getLeft = function() { return bRect.left + (bRect.width - thisRect.width) / 2; }; } else { // default: left getLeft = function() { return bRect.left; }; } return function() { thisRect = this.node().getBoundingClientRect(); var x0 = getLeft() - cRect.left; var y0 = getTop() - cRect.top; var gd = options.gd || {}; if(options.gd) { gd._fullLayout._calcInverseTransform(gd); var transformedCoords = Lib.apply3DTransform(gd._fullLayout._invTransform)(x0, y0); x0 = transformedCoords[0]; y0 = transformedCoords[1]; } this.style({ top: y0 + 'px', left: x0 + 'px', 'z-index': 1000 }); return this; }; } var onePx = '1px '; exports.makeTextShadow = function(color) { var x = onePx; var y = onePx; var b = onePx; return x + y + b + color + ', ' + '-' + x + '-' + y + b + color + ', ' + x + '-' + y + b + color + ', ' + '-' + x + y + b + color; }; /* * Editable title * @param {d3.selection} context: the element being edited. Normally text, * but if it isn't, you should provide the styling options * @param {object} options: * @param {div} options.gd: graphDiv * @param {d3.selection} options.delegate: item to bind events to if not this * @param {boolean} options.immediate: start editing now (true) or on click (false, default) * @param {string} options.fill: font color if not as shown * @param {string} options.background: background color if not as shown * @param {string} options.text: initial text, if not as shown * @param {string} options.horizontalAlign: alignment of the edit box wrt. the bound element * @param {string} options.verticalAlign: alignment of the edit box wrt. the bound element */ exports.makeEditable = function(context, options) { var gd = options.gd; var _delegate = options.delegate; var dispatch = d3.dispatch('edit', 'input', 'cancel'); var handlerElement = _delegate || context; context.style({'pointer-events': _delegate ? 'none' : 'all'}); if(context.size() !== 1) throw new Error('boo'); function handleClick() { appendEditable(); context.style({opacity: 0}); // also hide any mathjax svg var svgClass = handlerElement.attr('class'); var mathjaxClass; if(svgClass) mathjaxClass = '.' + svgClass.split(' ')[0] + '-math-group'; else mathjaxClass = '[class*=-math-group]'; if(mathjaxClass) { d3.select(context.node().parentNode).select(mathjaxClass).style({opacity: 0}); } } function selectElementContents(_el) { var el = _el.node(); var range = document.createRange(); range.selectNodeContents(el); var sel = window.getSelection(); sel.removeAllRanges(); sel.addRange(range); el.focus(); } function appendEditable() { var plotDiv = d3.select(gd); var container = plotDiv.select('.svg-container'); var div = container.append('div'); var cStyle = context.node().style; var fontSize = parseFloat(cStyle.fontSize || 12); var initialText = options.text; if(initialText === undefined) initialText = context.attr('data-unformatted'); div.classed('plugin-editable editable', true) .style({ position: 'absolute', 'font-family': cStyle.fontFamily || 'Arial', 'font-size': fontSize, color: options.fill || cStyle.fill || 'black', opacity: 1, 'background-color': options.background || 'transparent', outline: '#ffffff33 1px solid', margin: [-fontSize / 8 + 1, 0, 0, -1].join('px ') + 'px', padding: '0', 'box-sizing': 'border-box' }) .attr({contenteditable: true}) .text(initialText) .call(alignHTMLWith(context, container, options)) .on('blur', function() { gd._editing = false; context.text(this.textContent) .style({opacity: 1}); var svgClass = d3.select(this).attr('class'); var mathjaxClass; if(svgClass) mathjaxClass = '.' + svgClass.split(' ')[0] + '-math-group'; else mathjaxClass = '[class*=-math-group]'; if(mathjaxClass) { d3.select(context.node().parentNode).select(mathjaxClass).style({opacity: 0}); } var text = this.textContent; d3.select(this).transition().duration(0).remove(); d3.select(document).on('mouseup', null); dispatch.edit.call(context, text); }) .on('focus', function() { var editDiv = this; gd._editing = true; d3.select(document).on('mouseup', function() { if(d3.event.target === editDiv) return false; if(document.activeElement === div.node()) div.node().blur(); }); }) .on('keyup', function() { if(d3.event.which === 27) { gd._editing = false; context.style({opacity: 1}); d3.select(this) .style({opacity: 0}) .on('blur', function() { return false; }) .transition().remove(); dispatch.cancel.call(context, this.textContent); } else { dispatch.input.call(context, this.textContent); d3.select(this).call(alignHTMLWith(context, container, options)); } }) .on('keydown', function() { if(d3.event.which === 13) this.blur(); }) .call(selectElementContents); } if(options.immediate) handleClick(); else handlerElement.on('click', handleClick); return d3.rebind(context, dispatch, 'on'); }; },{"../constants/alignment":262,"../constants/xmlns_namespaces":268,"../lib":287,"@plotly/d3":20}],311:[function(_dereq_,module,exports){ 'use strict'; var timerCache = {}; /** * Throttle a callback. `callback` executes synchronously only if * more than `minInterval` milliseconds have already elapsed since the latest * call (if any). Otherwise we wait until `minInterval` is over and execute the * last callback received while waiting. * So the first and last events in a train are always executed (eventually) * but some of the events in the middle can be dropped. * * @param {string} id: an identifier to mark events to throttle together * @param {number} minInterval: minimum time, in milliseconds, between * invocations of `callback` * @param {function} callback: the function to throttle. `callback` itself * should be a purely synchronous function. */ exports.throttle = function throttle(id, minInterval, callback) { var cache = timerCache[id]; var now = Date.now(); if(!cache) { /* * Throw out old items before making a new one, to prevent the cache * getting overgrown, for example from old plots that have been replaced. * 1 minute age is arbitrary. */ for(var idi in timerCache) { if(timerCache[idi].ts < now - 60000) { delete timerCache[idi]; } } cache = timerCache[id] = {ts: 0, timer: null}; } _clearTimeout(cache); function exec() { callback(); cache.ts = Date.now(); if(cache.onDone) { cache.onDone(); cache.onDone = null; } } if(now > cache.ts + minInterval) { exec(); return; } cache.timer = setTimeout(function() { exec(); cache.timer = null; }, minInterval); }; exports.done = function(id) { var cache = timerCache[id]; if(!cache || !cache.timer) return Promise.resolve(); return new Promise(function(resolve) { var previousOnDone = cache.onDone; cache.onDone = function onDone() { if(previousOnDone) previousOnDone(); resolve(); cache.onDone = null; }; }); }; /** * Clear the throttle cache for one or all timers * @param {optional string} id: * if provided, clear just this timer * if omitted, clear all timers (mainly useful for testing) */ exports.clear = function(id) { if(id) { _clearTimeout(timerCache[id]); delete timerCache[id]; } else { for(var idi in timerCache) exports.clear(idi); } }; function _clearTimeout(cache) { if(cache && cache.timer !== null) { clearTimeout(cache.timer); cache.timer = null; } } },{}],312:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); /** * convert a linear value into a logged value, folding negative numbers into * the given range */ module.exports = function toLogRange(val, range) { if(val > 0) return Math.log(val) / Math.LN10; // move a negative value reference to a log axis - just put the // result at the lowest range value on the plot (or if the range also went negative, // one millionth of the top of the range) var newVal = Math.log(Math.min(range[0], range[1])) / Math.LN10; if(!isNumeric(newVal)) newVal = Math.log(Math.max(range[0], range[1])) / Math.LN10 - 6; return newVal; }; },{"fast-isnumeric":33}],313:[function(_dereq_,module,exports){ 'use strict'; module.exports = { moduleType: 'locale', name: 'en-US', dictionary: { 'Click to enter Colorscale title': 'Click to enter Colorscale title' }, format: { date: '%m/%d/%Y' } }; },{}],314:[function(_dereq_,module,exports){ 'use strict'; module.exports = { moduleType: 'locale', name: 'en', dictionary: { 'Click to enter Colorscale title': 'Click to enter Colourscale title' }, format: { days: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'], shortDays: ['Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat'], months: [ 'January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December' ], shortMonths: [ 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec' ], periods: ['AM', 'PM'], dateTime: '%a %b %e %X %Y', date: '%d/%m/%Y', time: '%H:%M:%S', decimal: '.', thousands: ',', grouping: [3], currency: ['$', ''], year: '%Y', month: '%b %Y', dayMonth: '%b %-d', dayMonthYear: '%b %-d, %Y' } }; },{}],315:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../registry'); /* * containerArrayMatch: does this attribute string point into a * layout container array? * * @param {String} astr: an attribute string, like *annotations[2].text* * * @returns {Object | false} Returns false if `astr` doesn't match a container * array. If it does, returns: * {array: {String}, index: {Number}, property: {String}} * ie the attribute string for the array, the index within the array (or '' * if the whole array) and the property within that (or '' if the whole array * or the whole object) */ module.exports = function containerArrayMatch(astr) { var rootContainers = Registry.layoutArrayContainers; var regexpContainers = Registry.layoutArrayRegexes; var rootPart = astr.split('[')[0]; var arrayStr; var match; // look for regexp matches first, because they may be nested inside root matches // eg updatemenus[i].buttons is nested inside updatemenus for(var i = 0; i < regexpContainers.length; i++) { match = astr.match(regexpContainers[i]); if(match && match.index === 0) { arrayStr = match[0]; break; } } // now look for root matches if(!arrayStr) arrayStr = rootContainers[rootContainers.indexOf(rootPart)]; if(!arrayStr) return false; var tail = astr.substr(arrayStr.length); if(!tail) return {array: arrayStr, index: '', property: ''}; match = tail.match(/^\[(0|[1-9][0-9]*)\](\.(.+))?$/); if(!match) return false; return {array: arrayStr, index: Number(match[1]), property: match[3] || ''}; }; },{"../registry":378}],316:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var extendFlat = Lib.extendFlat; var isPlainObject = Lib.isPlainObject; var traceOpts = { valType: 'flaglist', extras: ['none'], flags: ['calc', 'clearAxisTypes', 'plot', 'style', 'markerSize', 'colorbars'], }; var layoutOpts = { valType: 'flaglist', extras: ['none'], flags: [ 'calc', 'plot', 'legend', 'ticks', 'axrange', 'layoutstyle', 'modebar', 'camera', 'arraydraw', 'colorbars' ], }; // flags for inside restyle/relayout include a few extras // that shouldn't be used in attributes, to deal with certain // combinations and conditionals efficiently var traceEditTypeFlags = traceOpts.flags.slice() .concat(['fullReplot']); var layoutEditTypeFlags = layoutOpts.flags.slice() .concat('layoutReplot'); module.exports = { traces: traceOpts, layout: layoutOpts, /* * default (all false) edit flags for restyle (traces) * creates a new object each call, so the caller can mutate freely */ traceFlags: function() { return falseObj(traceEditTypeFlags); }, /* * default (all false) edit flags for relayout * creates a new object each call, so the caller can mutate freely */ layoutFlags: function() { return falseObj(layoutEditTypeFlags); }, /* * update `flags` with the `editType` values found in `attr` */ update: function(flags, attr) { var editType = attr.editType; if(editType && editType !== 'none') { var editTypeParts = editType.split('+'); for(var i = 0; i < editTypeParts.length; i++) { flags[editTypeParts[i]] = true; } } }, overrideAll: overrideAll }; function falseObj(keys) { var out = {}; for(var i = 0; i < keys.length; i++) out[keys[i]] = false; return out; } /** * For attributes that are largely copied from elsewhere into a plot type that doesn't * support partial redraws - overrides the editType field of all attributes in the object * * @param {object} attrs: the attributes to override. Will not be mutated. * @param {string} editTypeOverride: the new editType to use * @param {'nested'|'from-root'} overrideContainers: * - 'nested' will override editType for nested containers but not the root. * - 'from-root' will also override editType of the root container. * Containers below the absolute top level (trace or layout root) DO need an * editType even if they are not `valObject`s themselves (eg `scatter.marker`) * to handle the case where you edit the whole container. * * @return {object} a new attributes object with `editType` modified as directed */ function overrideAll(attrs, editTypeOverride, overrideContainers) { var out = extendFlat({}, attrs); for(var key in out) { var attr = out[key]; if(isPlainObject(attr)) { out[key] = overrideOne(attr, editTypeOverride, overrideContainers, key); } } if(overrideContainers === 'from-root') out.editType = editTypeOverride; return out; } function overrideOne(attr, editTypeOverride, overrideContainers, key) { if(attr.valType) { var out = extendFlat({}, attr); out.editType = editTypeOverride; if(Array.isArray(attr.items)) { out.items = new Array(attr.items.length); for(var i = 0; i < attr.items.length; i++) { out.items[i] = overrideOne(attr.items[i], editTypeOverride, 'from-root'); } } return out; } else { // don't provide an editType for the _deprecated container return overrideAll(attr, editTypeOverride, (key.charAt(0) === '_') ? 'nested' : 'from-root'); } } },{"../lib":287}],317:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var m4FromQuat = _dereq_('gl-mat4/fromQuat'); var Registry = _dereq_('../registry'); var Lib = _dereq_('../lib'); var Plots = _dereq_('../plots/plots'); var AxisIds = _dereq_('../plots/cartesian/axis_ids'); var Color = _dereq_('../components/color'); var cleanId = AxisIds.cleanId; var getFromTrace = AxisIds.getFromTrace; var traceIs = Registry.traceIs; // clear the promise queue if one of them got rejected exports.clearPromiseQueue = function(gd) { if(Array.isArray(gd._promises) && gd._promises.length > 0) { Lib.log('Clearing previous rejected promises from queue.'); } gd._promises = []; }; // make a few changes to the layout right away // before it gets used for anything // backward compatibility and cleanup of nonstandard options exports.cleanLayout = function(layout) { var i, j; if(!layout) layout = {}; // cannot have (x|y)axis1, numbering goes axis, axis2, axis3... if(layout.xaxis1) { if(!layout.xaxis) layout.xaxis = layout.xaxis1; delete layout.xaxis1; } if(layout.yaxis1) { if(!layout.yaxis) layout.yaxis = layout.yaxis1; delete layout.yaxis1; } if(layout.scene1) { if(!layout.scene) layout.scene = layout.scene1; delete layout.scene1; } var axisAttrRegex = (Plots.subplotsRegistry.cartesian || {}).attrRegex; var polarAttrRegex = (Plots.subplotsRegistry.polar || {}).attrRegex; var ternaryAttrRegex = (Plots.subplotsRegistry.ternary || {}).attrRegex; var sceneAttrRegex = (Plots.subplotsRegistry.gl3d || {}).attrRegex; var keys = Object.keys(layout); for(i = 0; i < keys.length; i++) { var key = keys[i]; if(axisAttrRegex && axisAttrRegex.test(key)) { // modifications to cartesian axes var ax = layout[key]; if(ax.anchor && ax.anchor !== 'free') { ax.anchor = cleanId(ax.anchor); } if(ax.overlaying) ax.overlaying = cleanId(ax.overlaying); // old method of axis type - isdate and islog (before category existed) if(!ax.type) { if(ax.isdate) ax.type = 'date'; else if(ax.islog) ax.type = 'log'; else if(ax.isdate === false && ax.islog === false) ax.type = 'linear'; } if(ax.autorange === 'withzero' || ax.autorange === 'tozero') { ax.autorange = true; ax.rangemode = 'tozero'; } delete ax.islog; delete ax.isdate; delete ax.categories; // replaced by _categories // prune empty domain arrays made before the new nestedProperty if(emptyContainer(ax, 'domain')) delete ax.domain; // autotick -> tickmode if(ax.autotick !== undefined) { if(ax.tickmode === undefined) { ax.tickmode = ax.autotick ? 'auto' : 'linear'; } delete ax.autotick; } cleanTitle(ax); } else if(polarAttrRegex && polarAttrRegex.test(key)) { // modifications for polar var polar = layout[key]; cleanTitle(polar.radialaxis); } else if(ternaryAttrRegex && ternaryAttrRegex.test(key)) { // modifications for ternary var ternary = layout[key]; cleanTitle(ternary.aaxis); cleanTitle(ternary.baxis); cleanTitle(ternary.caxis); } else if(sceneAttrRegex && sceneAttrRegex.test(key)) { // modifications for 3D scenes var scene = layout[key]; // clean old Camera coords var cameraposition = scene.cameraposition; if(Array.isArray(cameraposition) && cameraposition[0].length === 4) { var rotation = cameraposition[0]; var center = cameraposition[1]; var radius = cameraposition[2]; var mat = m4FromQuat([], rotation); var eye = []; for(j = 0; j < 3; ++j) { eye[j] = center[j] + radius * mat[2 + 4 * j]; } scene.camera = { eye: {x: eye[0], y: eye[1], z: eye[2]}, center: {x: center[0], y: center[1], z: center[2]}, up: {x: 0, y: 0, z: 1} // we just ignore calculating camera z up in this case }; delete scene.cameraposition; } // clean axis titles cleanTitle(scene.xaxis); cleanTitle(scene.yaxis); cleanTitle(scene.zaxis); } } var annotationsLen = Array.isArray(layout.annotations) ? layout.annotations.length : 0; for(i = 0; i < annotationsLen; i++) { var ann = layout.annotations[i]; if(!Lib.isPlainObject(ann)) continue; if(ann.ref) { if(ann.ref === 'paper') { ann.xref = 'paper'; ann.yref = 'paper'; } else if(ann.ref === 'data') { ann.xref = 'x'; ann.yref = 'y'; } delete ann.ref; } cleanAxRef(ann, 'xref'); cleanAxRef(ann, 'yref'); } var shapesLen = Array.isArray(layout.shapes) ? layout.shapes.length : 0; for(i = 0; i < shapesLen; i++) { var shape = layout.shapes[i]; if(!Lib.isPlainObject(shape)) continue; cleanAxRef(shape, 'xref'); cleanAxRef(shape, 'yref'); } var imagesLen = Array.isArray(layout.images) ? layout.images.length : 0; for(i = 0; i < imagesLen; i++) { var image = layout.images[i]; if(!Lib.isPlainObject(image)) continue; cleanAxRef(image, 'xref'); cleanAxRef(image, 'yref'); } var legend = layout.legend; if(legend) { // check for old-style legend positioning (x or y is +/- 100) if(legend.x > 3) { legend.x = 1.02; legend.xanchor = 'left'; } else if(legend.x < -2) { legend.x = -0.02; legend.xanchor = 'right'; } if(legend.y > 3) { legend.y = 1.02; legend.yanchor = 'bottom'; } else if(legend.y < -2) { legend.y = -0.02; legend.yanchor = 'top'; } } // clean plot title cleanTitle(layout); /* * Moved from rotate -> orbit for dragmode */ if(layout.dragmode === 'rotate') layout.dragmode = 'orbit'; // sanitize rgb(fractions) and rgba(fractions) that old tinycolor // supported, but new tinycolor does not because they're not valid css Color.clean(layout); // clean the layout container in layout.template if(layout.template && layout.template.layout) { exports.cleanLayout(layout.template.layout); } return layout; }; function cleanAxRef(container, attr) { var valIn = container[attr]; var axLetter = attr.charAt(0); if(valIn && valIn !== 'paper') { container[attr] = cleanId(valIn, axLetter, true); } } /** * Cleans up old title attribute structure (flat) in favor of the new one (nested). * * @param {Object} titleContainer - an object potentially including deprecated title attributes */ function cleanTitle(titleContainer) { if(titleContainer) { // title -> title.text // (although title used to be a string attribute, // numbers are accepted as well) if(typeof titleContainer.title === 'string' || typeof titleContainer.title === 'number') { titleContainer.title = { text: titleContainer.title }; } rewireAttr('titlefont', 'font'); rewireAttr('titleposition', 'position'); rewireAttr('titleside', 'side'); rewireAttr('titleoffset', 'offset'); } function rewireAttr(oldAttrName, newAttrName) { var oldAttrSet = titleContainer[oldAttrName]; var newAttrSet = titleContainer.title && titleContainer.title[newAttrName]; if(oldAttrSet && !newAttrSet) { // Ensure title object exists if(!titleContainer.title) { titleContainer.title = {}; } titleContainer.title[newAttrName] = titleContainer[oldAttrName]; delete titleContainer[oldAttrName]; } } } /* * cleanData: Make a few changes to the data for backward compatibility * before it gets used for anything. Modifies the data traces users provide. * * Important: if you're going to add something here that modifies a data array, * update it in place so the new array === the old one. */ exports.cleanData = function(data) { for(var tracei = 0; tracei < data.length; tracei++) { var trace = data[tracei]; var i; // use xbins to bin data in x, and ybins to bin data in y if(trace.type === 'histogramy' && 'xbins' in trace && !('ybins' in trace)) { trace.ybins = trace.xbins; delete trace.xbins; } // error_y.opacity is obsolete - merge into color if(trace.error_y && 'opacity' in trace.error_y) { var dc = Color.defaults; var yeColor = trace.error_y.color || (traceIs(trace, 'bar') ? Color.defaultLine : dc[tracei % dc.length]); trace.error_y.color = Color.addOpacity( Color.rgb(yeColor), Color.opacity(yeColor) * trace.error_y.opacity); delete trace.error_y.opacity; } // convert bardir to orientation, and put the data into // the axes it's eventually going to be used with if('bardir' in trace) { if(trace.bardir === 'h' && (traceIs(trace, 'bar') || trace.type.substr(0, 9) === 'histogram')) { trace.orientation = 'h'; exports.swapXYData(trace); } delete trace.bardir; } // now we have only one 1D histogram type, and whether // it uses x or y data depends on trace.orientation if(trace.type === 'histogramy') exports.swapXYData(trace); if(trace.type === 'histogramx' || trace.type === 'histogramy') { trace.type = 'histogram'; } // scl->scale, reversescl->reversescale if('scl' in trace && !('colorscale' in trace)) { trace.colorscale = trace.scl; delete trace.scl; } if('reversescl' in trace && !('reversescale' in trace)) { trace.reversescale = trace.reversescl; delete trace.reversescl; } // axis ids x1 -> x, y1-> y if(trace.xaxis) trace.xaxis = cleanId(trace.xaxis, 'x'); if(trace.yaxis) trace.yaxis = cleanId(trace.yaxis, 'y'); // scene ids scene1 -> scene if(traceIs(trace, 'gl3d') && trace.scene) { trace.scene = Plots.subplotsRegistry.gl3d.cleanId(trace.scene); } if(!traceIs(trace, 'pie-like') && !traceIs(trace, 'bar-like')) { if(Array.isArray(trace.textposition)) { for(i = 0; i < trace.textposition.length; i++) { trace.textposition[i] = cleanTextPosition(trace.textposition[i]); } } else if(trace.textposition) { trace.textposition = cleanTextPosition(trace.textposition); } } // fix typo in colorscale definition var _module = Registry.getModule(trace); if(_module && _module.colorbar) { var containerName = _module.colorbar.container; var container = containerName ? trace[containerName] : trace; if(container && container.colorscale) { if(container.colorscale === 'YIGnBu') container.colorscale = 'YlGnBu'; if(container.colorscale === 'YIOrRd') container.colorscale = 'YlOrRd'; } } // fix typo in surface 'highlight*' definitions if(trace.type === 'surface' && Lib.isPlainObject(trace.contours)) { var dims = ['x', 'y', 'z']; for(i = 0; i < dims.length; i++) { var opts = trace.contours[dims[i]]; if(!Lib.isPlainObject(opts)) continue; if(opts.highlightColor) { opts.highlightcolor = opts.highlightColor; delete opts.highlightColor; } if(opts.highlightWidth) { opts.highlightwidth = opts.highlightWidth; delete opts.highlightWidth; } } } // fixes from converting finance from transforms to real trace types if(trace.type === 'candlestick' || trace.type === 'ohlc') { var increasingShowlegend = (trace.increasing || {}).showlegend !== false; var decreasingShowlegend = (trace.decreasing || {}).showlegend !== false; var increasingName = cleanFinanceDir(trace.increasing); var decreasingName = cleanFinanceDir(trace.decreasing); // now figure out something smart to do with the separate direction // names we removed if((increasingName !== false) && (decreasingName !== false)) { // both sub-names existed: base name previously had no effect // so ignore it and try to find a shared part of the sub-names var newName = commonPrefix( increasingName, decreasingName, increasingShowlegend, decreasingShowlegend ); // if no common part, leave whatever name was (or wasn't) there if(newName) trace.name = newName; } else if((increasingName || decreasingName) && !trace.name) { // one sub-name existed but not the base name - just use the sub-name trace.name = increasingName || decreasingName; } } // transforms backward compatibility fixes if(Array.isArray(trace.transforms)) { var transforms = trace.transforms; for(i = 0; i < transforms.length; i++) { var transform = transforms[i]; if(!Lib.isPlainObject(transform)) continue; switch(transform.type) { case 'filter': if(transform.filtersrc) { transform.target = transform.filtersrc; delete transform.filtersrc; } if(transform.calendar) { if(!transform.valuecalendar) { transform.valuecalendar = transform.calendar; } delete transform.calendar; } break; case 'groupby': // Name has changed from `style` to `styles`, so use `style` but prefer `styles`: transform.styles = transform.styles || transform.style; if(transform.styles && !Array.isArray(transform.styles)) { var prevStyles = transform.styles; var styleKeys = Object.keys(prevStyles); transform.styles = []; for(var j = 0; j < styleKeys.length; j++) { transform.styles.push({ target: styleKeys[j], value: prevStyles[styleKeys[j]] }); } } break; } } } // prune empty containers made before the new nestedProperty if(emptyContainer(trace, 'line')) delete trace.line; if('marker' in trace) { if(emptyContainer(trace.marker, 'line')) delete trace.marker.line; if(emptyContainer(trace, 'marker')) delete trace.marker; } // sanitize rgb(fractions) and rgba(fractions) that old tinycolor // supported, but new tinycolor does not because they're not valid css Color.clean(trace); // remove obsolete autobin(x|y) attributes, but only if true // if false, this needs to happen in Histogram.calc because it // can be a one-time autobin so we need to know the results before // we can push them back into the trace. if(trace.autobinx) { delete trace.autobinx; delete trace.xbins; } if(trace.autobiny) { delete trace.autobiny; delete trace.ybins; } cleanTitle(trace); if(trace.colorbar) cleanTitle(trace.colorbar); if(trace.marker && trace.marker.colorbar) cleanTitle(trace.marker.colorbar); if(trace.line && trace.line.colorbar) cleanTitle(trace.line.colorbar); if(trace.aaxis) cleanTitle(trace.aaxis); if(trace.baxis) cleanTitle(trace.baxis); } }; function cleanFinanceDir(dirContainer) { if(!Lib.isPlainObject(dirContainer)) return false; var dirName = dirContainer.name; delete dirContainer.name; delete dirContainer.showlegend; return (typeof dirName === 'string' || typeof dirName === 'number') && String(dirName); } function commonPrefix(name1, name2, show1, show2) { // if only one is shown in the legend, use that if(show1 && !show2) return name1; if(show2 && !show1) return name2; // if both or neither are in the legend, check if one is blank (or whitespace) // and use the other one // note that hover labels can still use the name even if the legend doesn't if(!name1.trim()) return name2; if(!name2.trim()) return name1; var minLen = Math.min(name1.length, name2.length); var i; for(i = 0; i < minLen; i++) { if(name1.charAt(i) !== name2.charAt(i)) break; } var out = name1.substr(0, i); return out.trim(); } // textposition - support partial attributes (ie just 'top') // and incorrect use of middle / center etc. function cleanTextPosition(textposition) { var posY = 'middle'; var posX = 'center'; if(typeof textposition === 'string') { if(textposition.indexOf('top') !== -1) posY = 'top'; else if(textposition.indexOf('bottom') !== -1) posY = 'bottom'; if(textposition.indexOf('left') !== -1) posX = 'left'; else if(textposition.indexOf('right') !== -1) posX = 'right'; } return posY + ' ' + posX; } function emptyContainer(outer, innerStr) { return (innerStr in outer) && (typeof outer[innerStr] === 'object') && (Object.keys(outer[innerStr]).length === 0); } // swap all the data and data attributes associated with x and y exports.swapXYData = function(trace) { var i; Lib.swapAttrs(trace, ['?', '?0', 'd?', '?bins', 'nbins?', 'autobin?', '?src', 'error_?']); if(Array.isArray(trace.z) && Array.isArray(trace.z[0])) { if(trace.transpose) delete trace.transpose; else trace.transpose = true; } if(trace.error_x && trace.error_y) { var errorY = trace.error_y; var copyYstyle = ('copy_ystyle' in errorY) ? errorY.copy_ystyle : !(errorY.color || errorY.thickness || errorY.width); Lib.swapAttrs(trace, ['error_?.copy_ystyle']); if(copyYstyle) { Lib.swapAttrs(trace, ['error_?.color', 'error_?.thickness', 'error_?.width']); } } if(typeof trace.hoverinfo === 'string') { var hoverInfoParts = trace.hoverinfo.split('+'); for(i = 0; i < hoverInfoParts.length; i++) { if(hoverInfoParts[i] === 'x') hoverInfoParts[i] = 'y'; else if(hoverInfoParts[i] === 'y') hoverInfoParts[i] = 'x'; } trace.hoverinfo = hoverInfoParts.join('+'); } }; // coerce traceIndices input to array of trace indices exports.coerceTraceIndices = function(gd, traceIndices) { if(isNumeric(traceIndices)) { return [traceIndices]; } else if(!Array.isArray(traceIndices) || !traceIndices.length) { return gd.data.map(function(_, i) { return i; }); } else if(Array.isArray(traceIndices)) { var traceIndicesOut = []; for(var i = 0; i < traceIndices.length; i++) { if(Lib.isIndex(traceIndices[i], gd.data.length)) { traceIndicesOut.push(traceIndices[i]); } else { Lib.warn('trace index (', traceIndices[i], ') is not a number or is out of bounds'); } } return traceIndicesOut; } return traceIndices; }; /** * Manages logic around array container item creation / deletion / update * that nested property alone can't handle. * * @param {Object} np * nested property of update attribute string about trace or layout object * @param {*} newVal * update value passed to restyle / relayout / update * @param {Object} undoit * undo hash (N.B. undoit may be mutated here). * */ exports.manageArrayContainers = function(np, newVal, undoit) { var obj = np.obj; var parts = np.parts; var pLength = parts.length; var pLast = parts[pLength - 1]; var pLastIsNumber = isNumeric(pLast); if(pLastIsNumber && newVal === null) { // delete item // Clear item in array container when new value is null var contPath = parts.slice(0, pLength - 1).join('.'); var cont = Lib.nestedProperty(obj, contPath).get(); cont.splice(pLast, 1); // Note that nested property clears null / undefined at end of // array container, but not within them. } else if(pLastIsNumber && np.get() === undefined) { // create item // When adding a new item, make sure undo command will remove it if(np.get() === undefined) undoit[np.astr] = null; np.set(newVal); } else { // update item // If the last part of attribute string isn't a number, // np.set is all we need. np.set(newVal); } }; /* * Match the part to strip off to turn an attribute into its parent * really it should be either '.some_characters' or '[number]' * but we're a little more permissive here and match either * '.not_brackets_or_dot' or '[not_brackets_or_dot]' */ var ATTR_TAIL_RE = /(\.[^\[\]\.]+|\[[^\[\]\.]+\])$/; function getParent(attr) { var tail = attr.search(ATTR_TAIL_RE); if(tail > 0) return attr.substr(0, tail); } /* * hasParent: does an attribute object contain a parent of the given attribute? * for example, given 'images[2].x' do we also have 'images' or 'images[2]'? * * @param {Object} aobj * update object, whose keys are attribute strings and values are their new settings * @param {string} attr * the attribute string to test against * @returns {Boolean} * is a parent of attr present in aobj? */ exports.hasParent = function(aobj, attr) { var attrParent = getParent(attr); while(attrParent) { if(attrParent in aobj) return true; attrParent = getParent(attrParent); } return false; }; /** * Empty out types for all axes containing these traces so we auto-set them again * * @param {object} gd * @param {[integer]} traces: trace indices to search for axes to clear the types of * @param {object} layoutUpdate: any update being done concurrently to the layout, * which may supercede clearing the axis types */ var axLetters = ['x', 'y', 'z']; exports.clearAxisTypes = function(gd, traces, layoutUpdate) { for(var i = 0; i < traces.length; i++) { var trace = gd._fullData[i]; for(var j = 0; j < 3; j++) { var ax = getFromTrace(gd, trace, axLetters[j]); // do not clear log type - that's never an auto result so must have been intentional if(ax && ax.type !== 'log') { var axAttr = ax._name; var sceneName = ax._id.substr(1); if(sceneName.substr(0, 5) === 'scene') { if(layoutUpdate[sceneName] !== undefined) continue; axAttr = sceneName + '.' + axAttr; } var typeAttr = axAttr + '.type'; if(layoutUpdate[axAttr] === undefined && layoutUpdate[typeAttr] === undefined) { Lib.nestedProperty(gd.layout, typeAttr).set(null); } } } } }; },{"../components/color":157,"../lib":287,"../plots/cartesian/axis_ids":338,"../plots/plots":371,"../registry":378,"fast-isnumeric":33,"gl-mat4/fromQuat":39}],318:[function(_dereq_,module,exports){ 'use strict'; var main = _dereq_('./plot_api'); exports._doPlot = main._doPlot; exports.newPlot = main.newPlot; exports.restyle = main.restyle; exports.relayout = main.relayout; exports.redraw = main.redraw; exports.update = main.update; exports._guiRestyle = main._guiRestyle; exports._guiRelayout = main._guiRelayout; exports._guiUpdate = main._guiUpdate; exports._storeDirectGUIEdit = main._storeDirectGUIEdit; exports.react = main.react; exports.extendTraces = main.extendTraces; exports.prependTraces = main.prependTraces; exports.addTraces = main.addTraces; exports.deleteTraces = main.deleteTraces; exports.moveTraces = main.moveTraces; exports.purge = main.purge; exports.addFrames = main.addFrames; exports.deleteFrames = main.deleteFrames; exports.animate = main.animate; exports.setPlotConfig = main.setPlotConfig; exports.toImage = _dereq_('./to_image'); exports.validate = _dereq_('./validate'); exports.downloadImage = _dereq_('../snapshot/download'); var templateApi = _dereq_('./template_api'); exports.makeTemplate = templateApi.makeTemplate; exports.validateTemplate = templateApi.validateTemplate; },{"../snapshot/download":380,"./plot_api":320,"./template_api":325,"./to_image":326,"./validate":327}],319:[function(_dereq_,module,exports){ 'use strict'; var isPlainObject = _dereq_('../lib/is_plain_object'); var noop = _dereq_('../lib/noop'); var Loggers = _dereq_('../lib/loggers'); var sorterAsc = _dereq_('../lib/search').sorterAsc; var Registry = _dereq_('../registry'); exports.containerArrayMatch = _dereq_('./container_array_match'); var isAddVal = exports.isAddVal = function isAddVal(val) { return val === 'add' || isPlainObject(val); }; var isRemoveVal = exports.isRemoveVal = function isRemoveVal(val) { return val === null || val === 'remove'; }; /* * applyContainerArrayChanges: for managing arrays of layout components in relayout * handles them all with a consistent interface. * * Here are the supported actions -> relayout calls -> edits we get here * (as prepared in _relayout): * * add an empty obj -> {'annotations[2]': 'add'} -> {2: {'': 'add'}} * add a specific obj -> {'annotations[2]': {attrs}} -> {2: {'': {attrs}}} * delete an obj -> {'annotations[2]': 'remove'} -> {2: {'': 'remove'}} * -> {'annotations[2]': null} -> {2: {'': null}} * delete the whole array -> {'annotations': 'remove'} -> {'': {'': 'remove'}} * -> {'annotations': null} -> {'': {'': null}} * edit an object -> {'annotations[2].text': 'boo'} -> {2: {'text': 'boo'}} * * You can combine many edits to different objects. Objects are added and edited * in ascending order, then removed in descending order. * For example, starting with [a, b, c], if you want to: * - replace b with d: * {'annotations[1]': d, 'annotations[2]': null} (b is item 2 after adding d) * - add a new item d between a and b, and edit b: * {'annotations[1]': d, 'annotations[2].x': newX} (b is item 2 after adding d) * - delete b and edit c: * {'annotations[1]': null, 'annotations[2].x': newX} (c is edited before b is removed) * * You CANNOT combine adding/deleting an item at index `i` with edits to the same index `i` * You CANNOT combine replacing/deleting the whole array with anything else (for the same array). * * @param {HTMLDivElement} gd * the DOM element of the graph container div * @param {Lib.nestedProperty} componentType: the array we are editing * @param {Object} edits * the changes to make; keys are indices to edit, values are themselves objects: * {attr: newValue} of changes to make to that index (with add/remove behavior * in special values of the empty attr) * @param {Object} flags * the flags for which actions we're going to perform to display these (and * any other) changes. If we're already `recalc`ing, we don't need to redraw * individual items * @param {function} _nestedProperty * a (possibly modified for gui edits) nestedProperty constructor * The modified version takes a 3rd argument, for a prefix to the attribute * string necessary for storing GUI edits * * @returns {bool} `true` if it managed to complete drawing of the changes * `false` would mean the parent should replot. */ exports.applyContainerArrayChanges = function applyContainerArrayChanges(gd, np, edits, flags, _nestedProperty) { var componentType = np.astr; var supplyComponentDefaults = Registry.getComponentMethod(componentType, 'supplyLayoutDefaults'); var draw = Registry.getComponentMethod(componentType, 'draw'); var drawOne = Registry.getComponentMethod(componentType, 'drawOne'); var replotLater = flags.replot || flags.recalc || (supplyComponentDefaults === noop) || (draw === noop); var layout = gd.layout; var fullLayout = gd._fullLayout; if(edits['']) { if(Object.keys(edits).length > 1) { Loggers.warn('Full array edits are incompatible with other edits', componentType); } var fullVal = edits['']['']; if(isRemoveVal(fullVal)) np.set(null); else if(Array.isArray(fullVal)) np.set(fullVal); else { Loggers.warn('Unrecognized full array edit value', componentType, fullVal); return true; } if(replotLater) return false; supplyComponentDefaults(layout, fullLayout); draw(gd); return true; } var componentNums = Object.keys(edits).map(Number).sort(sorterAsc); var componentArrayIn = np.get(); var componentArray = componentArrayIn || []; // componentArrayFull is used just to keep splices in line between // full and input arrays, so private keys can be copied over after // redoing supplyDefaults // TODO: this assumes componentArray is in gd.layout - which will not be // true after we extend this to restyle var componentArrayFull = _nestedProperty(fullLayout, componentType).get(); var deletes = []; var firstIndexChange = -1; var maxIndex = componentArray.length; var i; var j; var componentNum; var objEdits; var objKeys; var objVal; var adding, prefix; // first make the add and edit changes for(i = 0; i < componentNums.length; i++) { componentNum = componentNums[i]; objEdits = edits[componentNum]; objKeys = Object.keys(objEdits); objVal = objEdits[''], adding = isAddVal(objVal); if(componentNum < 0 || componentNum > componentArray.length - (adding ? 0 : 1)) { Loggers.warn('index out of range', componentType, componentNum); continue; } if(objVal !== undefined) { if(objKeys.length > 1) { Loggers.warn( 'Insertion & removal are incompatible with edits to the same index.', componentType, componentNum); } if(isRemoveVal(objVal)) { deletes.push(componentNum); } else if(adding) { if(objVal === 'add') objVal = {}; componentArray.splice(componentNum, 0, objVal); if(componentArrayFull) componentArrayFull.splice(componentNum, 0, {}); } else { Loggers.warn('Unrecognized full object edit value', componentType, componentNum, objVal); } if(firstIndexChange === -1) firstIndexChange = componentNum; } else { for(j = 0; j < objKeys.length; j++) { prefix = componentType + '[' + componentNum + '].'; _nestedProperty(componentArray[componentNum], objKeys[j], prefix) .set(objEdits[objKeys[j]]); } } } // now do deletes for(i = deletes.length - 1; i >= 0; i--) { componentArray.splice(deletes[i], 1); // TODO: this drops private keys that had been stored in componentArrayFull // does this have any ill effects? if(componentArrayFull) componentArrayFull.splice(deletes[i], 1); } if(!componentArray.length) np.set(null); else if(!componentArrayIn) np.set(componentArray); if(replotLater) return false; supplyComponentDefaults(layout, fullLayout); // finally draw all the components we need to // if we added or removed any, redraw all after it if(drawOne !== noop) { var indicesToDraw; if(firstIndexChange === -1) { // there's no re-indexing to do, so only redraw components that changed indicesToDraw = componentNums; } else { // in case the component array was shortened, we still need do call // drawOne on the latter items so they get properly removed maxIndex = Math.max(componentArray.length, maxIndex); indicesToDraw = []; for(i = 0; i < componentNums.length; i++) { componentNum = componentNums[i]; if(componentNum >= firstIndexChange) break; indicesToDraw.push(componentNum); } for(i = firstIndexChange; i < maxIndex; i++) { indicesToDraw.push(i); } } for(i = 0; i < indicesToDraw.length; i++) { drawOne(gd, indicesToDraw[i]); } } else draw(gd); return true; }; },{"../lib/is_plain_object":288,"../lib/loggers":291,"../lib/noop":296,"../lib/search":306,"../registry":378,"./container_array_match":315}],320:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var hasHover = _dereq_('has-hover'); var Lib = _dereq_('../lib'); var nestedProperty = Lib.nestedProperty; var Events = _dereq_('../lib/events'); var Queue = _dereq_('../lib/queue'); var Registry = _dereq_('../registry'); var PlotSchema = _dereq_('./plot_schema'); var Plots = _dereq_('../plots/plots'); var Axes = _dereq_('../plots/cartesian/axes'); var Drawing = _dereq_('../components/drawing'); var Color = _dereq_('../components/color'); var initInteractions = _dereq_('../plots/cartesian/graph_interact').initInteractions; var xmlnsNamespaces = _dereq_('../constants/xmlns_namespaces'); var clearSelect = _dereq_('../plots/cartesian/select').clearSelect; var dfltConfig = _dereq_('./plot_config').dfltConfig; var manageArrays = _dereq_('./manage_arrays'); var helpers = _dereq_('./helpers'); var subroutines = _dereq_('./subroutines'); var editTypes = _dereq_('./edit_types'); var AX_NAME_PATTERN = _dereq_('../plots/cartesian/constants').AX_NAME_PATTERN; var numericNameWarningCount = 0; var numericNameWarningCountLimit = 5; /** * Internal plot-creation function * * @param {string id or DOM element} gd * the id or DOM element of the graph container div * @param {array of objects} data * array of traces, containing the data and display information for each trace * @param {object} layout * object describing the overall display of the plot, * all the stuff that doesn't pertain to any individual trace * @param {object} config * configuration options (see ./plot_config.js for more info) * * OR * * @param {string id or DOM element} gd * the id or DOM element of the graph container div * @param {object} figure * object containing `data`, `layout`, `config`, and `frames` members * */ function _doPlot(gd, data, layout, config) { var frames; gd = Lib.getGraphDiv(gd); // Events.init is idempotent and bails early if gd has already been init'd Events.init(gd); if(Lib.isPlainObject(data)) { var obj = data; data = obj.data; layout = obj.layout; config = obj.config; frames = obj.frames; } var okToPlot = Events.triggerHandler(gd, 'plotly_beforeplot', [data, layout, config]); if(okToPlot === false) return Promise.reject(); // if there's no data or layout, and this isn't yet a plotly plot // container, log a warning to help plotly.js users debug if(!data && !layout && !Lib.isPlotDiv(gd)) { Lib.warn('Calling _doPlot as if redrawing ' + 'but this container doesn\'t yet have a plot.', gd); } function addFrames() { if(frames) { return exports.addFrames(gd, frames); } } // transfer configuration options to gd until we move over to // a more OO like model setPlotContext(gd, config); if(!layout) layout = {}; // hook class for plots main container (in case of plotly.js // this won't be #embedded-graph or .js-tab-contents) d3.select(gd).classed('js-plotly-plot', true); // off-screen getBoundingClientRect testing space, // in #js-plotly-tester (and stored as Drawing.tester) // so we can share cached text across tabs Drawing.makeTester(); // collect promises for any async actions during plotting // any part of the plotting code can push to gd._promises, then // before we move to the next step, we check that they're all // complete, and empty out the promise list again. if(!Array.isArray(gd._promises)) gd._promises = []; var graphWasEmpty = ((gd.data || []).length === 0 && Array.isArray(data)); // if there is already data on the graph, append the new data // if you only want to redraw, pass a non-array for data if(Array.isArray(data)) { helpers.cleanData(data); if(graphWasEmpty) gd.data = data; else gd.data.push.apply(gd.data, data); // for routines outside graph_obj that want a clean tab // (rather than appending to an existing one) gd.empty // is used to determine whether to make a new tab gd.empty = false; } if(!gd.layout || graphWasEmpty) { gd.layout = helpers.cleanLayout(layout); } Plots.supplyDefaults(gd); var fullLayout = gd._fullLayout; var hasCartesian = fullLayout._has('cartesian'); // so we don't try to re-call _doPlot from inside // legend and colorbar, if margins changed fullLayout._replotting = true; // make or remake the framework if we need to if(graphWasEmpty || fullLayout._shouldCreateBgLayer) { makePlotFramework(gd); if(fullLayout._shouldCreateBgLayer) { delete fullLayout._shouldCreateBgLayer; } } // clear gradient and pattern defs on each .plot call, because we know we'll loop through all traces Drawing.initGradients(gd); Drawing.initPatterns(gd); // save initial show spikes once per graph if(graphWasEmpty) Axes.saveShowSpikeInitial(gd); // prepare the data and find the autorange // generate calcdata, if we need to // to force redoing calcdata, just delete it before calling _doPlot var recalc = !gd.calcdata || gd.calcdata.length !== (gd._fullData || []).length; if(recalc) Plots.doCalcdata(gd); // in case it has changed, attach fullData traces to calcdata for(var i = 0; i < gd.calcdata.length; i++) { gd.calcdata[i][0].trace = gd._fullData[i]; } // make the figure responsive if(gd._context.responsive) { if(!gd._responsiveChartHandler) { // Keep a reference to the resize handler to purge it down the road gd._responsiveChartHandler = function() { if(!Lib.isHidden(gd)) Plots.resize(gd); }; // Listen to window resize window.addEventListener('resize', gd._responsiveChartHandler); } } else { Lib.clearResponsive(gd); } /* * start async-friendly code - now we're actually drawing things */ var oldMargins = Lib.extendFlat({}, fullLayout._size); // draw framework first so that margin-pushing // components can position themselves correctly var drawFrameworkCalls = 0; function drawFramework() { var basePlotModules = fullLayout._basePlotModules; for(var i = 0; i < basePlotModules.length; i++) { if(basePlotModules[i].drawFramework) { basePlotModules[i].drawFramework(gd); } } if(!fullLayout._glcanvas && fullLayout._has('gl')) { fullLayout._glcanvas = fullLayout._glcontainer.selectAll('.gl-canvas').data([{ key: 'contextLayer', context: true, pick: false }, { key: 'focusLayer', context: false, pick: false }, { key: 'pickLayer', context: false, pick: true }], function(d) { return d.key; }); fullLayout._glcanvas.enter().append('canvas') .attr('class', function(d) { return 'gl-canvas gl-canvas-' + d.key.replace('Layer', ''); }) .style({ position: 'absolute', top: 0, left: 0, overflow: 'visible', 'pointer-events': 'none' }); } var plotGlPixelRatio = gd._context.plotGlPixelRatio; if(fullLayout._glcanvas) { fullLayout._glcanvas .attr('width', fullLayout.width * plotGlPixelRatio) .attr('height', fullLayout.height * plotGlPixelRatio) .style('width', fullLayout.width + 'px') .style('height', fullLayout.height + 'px'); var regl = fullLayout._glcanvas.data()[0].regl; if(regl) { // Unfortunately, this can happen when relayouting to large // width/height on some browsers. if(Math.floor(fullLayout.width * plotGlPixelRatio) !== regl._gl.drawingBufferWidth || Math.floor(fullLayout.height * plotGlPixelRatio) !== regl._gl.drawingBufferHeight ) { var msg = 'WebGL context buffer and canvas dimensions do not match due to browser/WebGL bug.'; if(drawFrameworkCalls) { Lib.error(msg); } else { Lib.log(msg + ' Clearing graph and plotting again.'); Plots.cleanPlot([], {}, gd._fullData, fullLayout); Plots.supplyDefaults(gd); fullLayout = gd._fullLayout; Plots.doCalcdata(gd); drawFrameworkCalls++; return drawFramework(); } } } } if(fullLayout.modebar.orientation === 'h') { fullLayout._modebardiv .style('height', null) .style('width', '100%'); } else { fullLayout._modebardiv .style('width', null) .style('height', fullLayout.height + 'px'); } return Plots.previousPromises(gd); } // draw anything that can affect margins. function marginPushers() { // First reset the list of things that are allowed to change the margins // So any deleted traces or components will be wiped out of the // automargin calculation. // This means *every* margin pusher must be listed here, even if it // doesn't actually try to push the margins until later. Plots.clearAutoMarginIds(gd); subroutines.drawMarginPushers(gd); Axes.allowAutoMargin(gd); // TODO can this be moved elsewhere? if(fullLayout._has('pie')) { var fullData = gd._fullData; for(var i = 0; i < fullData.length; i++) { var trace = fullData[i]; if(trace.type === 'pie' && trace.automargin) { Plots.allowAutoMargin(gd, 'pie.' + trace.uid + '.automargin'); } } } Plots.doAutoMargin(gd); return Plots.previousPromises(gd); } // in case the margins changed, draw margin pushers again function marginPushersAgain() { if(!Plots.didMarginChange(oldMargins, fullLayout._size)) return; return Lib.syncOrAsync([ marginPushers, subroutines.layoutStyles ], gd); } function positionAndAutorange() { if(!recalc) { doAutoRangeAndConstraints(); return; } // TODO: autosize extra for text markers and images // see https://github.com/plotly/plotly.js/issues/1111 return Lib.syncOrAsync([ Registry.getComponentMethod('shapes', 'calcAutorange'), Registry.getComponentMethod('annotations', 'calcAutorange'), doAutoRangeAndConstraints ], gd); } function doAutoRangeAndConstraints() { if(gd._transitioning) return; subroutines.doAutoRangeAndConstraints(gd); // store initial ranges *after* enforcing constraints, otherwise // we will never look like we're at the initial ranges if(graphWasEmpty) Axes.saveRangeInitial(gd); // this one is different from shapes/annotations calcAutorange // the others incorporate those components into ax._extremes, // this one actually sets the ranges in rangesliders. Registry.getComponentMethod('rangeslider', 'calcAutorange')(gd); } // draw ticks, titles, and calculate axis scaling (._b, ._m) function drawAxes() { return Axes.draw(gd, graphWasEmpty ? '' : 'redraw'); } var seq = [ Plots.previousPromises, addFrames, drawFramework, marginPushers, marginPushersAgain ]; if(hasCartesian) seq.push(positionAndAutorange); seq.push(subroutines.layoutStyles); if(hasCartesian) { seq.push( drawAxes, function insideTickLabelsAutorange(gd) { if(gd._fullLayout._insideTickLabelsAutorange) { relayout(gd, gd._fullLayout._insideTickLabelsAutorange).then(function() { gd._fullLayout._insideTickLabelsAutorange = undefined; }); } } ); } seq.push( subroutines.drawData, subroutines.finalDraw, initInteractions, Plots.addLinks, Plots.rehover, Plots.redrag, // TODO: doAutoMargin is only needed here for axis automargin, which // happens outside of marginPushers where all the other automargins are // calculated. Would be much better to separate margin calculations from // component drawing - see https://github.com/plotly/plotly.js/issues/2704 Plots.doAutoMargin, saveRangeInitialForInsideTickLabels, Plots.previousPromises ); function saveRangeInitialForInsideTickLabels(gd) { if(gd._fullLayout._insideTickLabelsAutorange) { if(graphWasEmpty) Axes.saveRangeInitial(gd, true); } } // even if everything we did was synchronous, return a promise // so that the caller doesn't care which route we took var plotDone = Lib.syncOrAsync(seq, gd); if(!plotDone || !plotDone.then) plotDone = Promise.resolve(); return plotDone.then(function() { emitAfterPlot(gd); return gd; }); } function emitAfterPlot(gd) { var fullLayout = gd._fullLayout; if(fullLayout._redrawFromAutoMarginCount) { fullLayout._redrawFromAutoMarginCount--; } else { gd.emit('plotly_afterplot'); } } function setPlotConfig(obj) { return Lib.extendFlat(dfltConfig, obj); } function setBackground(gd, bgColor) { try { gd._fullLayout._paper.style('background', bgColor); } catch(e) { Lib.error(e); } } function opaqueSetBackground(gd, bgColor) { var blend = Color.combine(bgColor, 'white'); setBackground(gd, blend); } function setPlotContext(gd, config) { if(!gd._context) { gd._context = Lib.extendDeep({}, dfltConfig); // stash href, used to make robust clipPath URLs var base = d3.select('base'); gd._context._baseUrl = base.size() && base.attr('href') ? window.location.href.split('#')[0] : ''; } var context = gd._context; var i, keys, key; if(config) { keys = Object.keys(config); for(i = 0; i < keys.length; i++) { key = keys[i]; if(key === 'editable' || key === 'edits') continue; if(key in context) { if(key === 'setBackground' && config[key] === 'opaque') { context[key] = opaqueSetBackground; } else { context[key] = config[key]; } } } // map plot3dPixelRatio to plotGlPixelRatio for backward compatibility if(config.plot3dPixelRatio && !context.plotGlPixelRatio) { context.plotGlPixelRatio = context.plot3dPixelRatio; } // now deal with editable and edits - first editable overrides // everything, then edits refines var editable = config.editable; if(editable !== undefined) { // we're not going to *use* context.editable, we're only going to // use context.edits... but keep it for the record context.editable = editable; keys = Object.keys(context.edits); for(i = 0; i < keys.length; i++) { context.edits[keys[i]] = editable; } } if(config.edits) { keys = Object.keys(config.edits); for(i = 0; i < keys.length; i++) { key = keys[i]; if(key in context.edits) { context.edits[key] = config.edits[key]; } } } // not part of the user-facing config options context._exportedPlot = config._exportedPlot; } // staticPlot forces a bunch of others: if(context.staticPlot) { context.editable = false; context.edits = {}; context.autosizable = false; context.scrollZoom = false; context.doubleClick = false; context.showTips = false; context.showLink = false; context.displayModeBar = false; } // make sure hover-only devices have mode bar visible if(context.displayModeBar === 'hover' && !hasHover) { context.displayModeBar = true; } // default and fallback for setBackground if(context.setBackground === 'transparent' || typeof context.setBackground !== 'function') { context.setBackground = setBackground; } // Check if gd has a specified widht/height to begin with context._hasZeroHeight = context._hasZeroHeight || gd.clientHeight === 0; context._hasZeroWidth = context._hasZeroWidth || gd.clientWidth === 0; // fill context._scrollZoom helper to help manage scrollZoom flaglist var szIn = context.scrollZoom; var szOut = context._scrollZoom = {}; if(szIn === true) { szOut.cartesian = 1; szOut.gl3d = 1; szOut.geo = 1; szOut.mapbox = 1; } else if(typeof szIn === 'string') { var parts = szIn.split('+'); for(i = 0; i < parts.length; i++) { szOut[parts[i]] = 1; } } else if(szIn !== false) { szOut.gl3d = 1; szOut.geo = 1; szOut.mapbox = 1; } } // convenience function to force a full redraw, mostly for use by plotly.js function redraw(gd) { gd = Lib.getGraphDiv(gd); if(!Lib.isPlotDiv(gd)) { throw new Error('This element is not a Plotly plot: ' + gd); } helpers.cleanData(gd.data); helpers.cleanLayout(gd.layout); gd.calcdata = undefined; return exports._doPlot(gd).then(function() { gd.emit('plotly_redraw'); return gd; }); } /** * Convenience function to make idempotent plot option obvious to users. * * @param gd * @param {Object[]} data * @param {Object} layout * @param {Object} config */ function newPlot(gd, data, layout, config) { gd = Lib.getGraphDiv(gd); // remove gl contexts Plots.cleanPlot([], {}, gd._fullData || [], gd._fullLayout || {}); Plots.purge(gd); return exports._doPlot(gd, data, layout, config); } /** * Wrap negative indicies to their positive counterparts. * * @param {Number[]} indices An array of indices * @param {Number} maxIndex The maximum index allowable (arr.length - 1) */ function positivifyIndices(indices, maxIndex) { var parentLength = maxIndex + 1; var positiveIndices = []; var i; var index; for(i = 0; i < indices.length; i++) { index = indices[i]; if(index < 0) { positiveIndices.push(parentLength + index); } else { positiveIndices.push(index); } } return positiveIndices; } /** * Ensures that an index array for manipulating gd.data is valid. * * Intended for use with addTraces, deleteTraces, and moveTraces. * * @param gd * @param indices * @param arrayName */ function assertIndexArray(gd, indices, arrayName) { var i, index; for(i = 0; i < indices.length; i++) { index = indices[i]; // validate that indices are indeed integers if(index !== parseInt(index, 10)) { throw new Error('all values in ' + arrayName + ' must be integers'); } // check that all indices are in bounds for given gd.data array length if(index >= gd.data.length || index < -gd.data.length) { throw new Error(arrayName + ' must be valid indices for gd.data.'); } // check that indices aren't repeated if(indices.indexOf(index, i + 1) > -1 || index >= 0 && indices.indexOf(-gd.data.length + index) > -1 || index < 0 && indices.indexOf(gd.data.length + index) > -1) { throw new Error('each index in ' + arrayName + ' must be unique.'); } } } /** * Private function used by Plotly.moveTraces to check input args * * @param gd * @param currentIndices * @param newIndices */ function checkMoveTracesArgs(gd, currentIndices, newIndices) { // check that gd has attribute 'data' and 'data' is array if(!Array.isArray(gd.data)) { throw new Error('gd.data must be an array.'); } // validate currentIndices array if(typeof currentIndices === 'undefined') { throw new Error('currentIndices is a required argument.'); } else if(!Array.isArray(currentIndices)) { currentIndices = [currentIndices]; } assertIndexArray(gd, currentIndices, 'currentIndices'); // validate newIndices array if it exists if(typeof newIndices !== 'undefined' && !Array.isArray(newIndices)) { newIndices = [newIndices]; } if(typeof newIndices !== 'undefined') { assertIndexArray(gd, newIndices, 'newIndices'); } // check currentIndices and newIndices are the same length if newIdices exists if(typeof newIndices !== 'undefined' && currentIndices.length !== newIndices.length) { throw new Error('current and new indices must be of equal length.'); } } /** * A private function to reduce the type checking clutter in addTraces. * * @param gd * @param traces * @param newIndices */ function checkAddTracesArgs(gd, traces, newIndices) { var i, value; // check that gd has attribute 'data' and 'data' is array if(!Array.isArray(gd.data)) { throw new Error('gd.data must be an array.'); } // make sure traces exists if(typeof traces === 'undefined') { throw new Error('traces must be defined.'); } // make sure traces is an array if(!Array.isArray(traces)) { traces = [traces]; } // make sure each value in traces is an object for(i = 0; i < traces.length; i++) { value = traces[i]; if(typeof value !== 'object' || (Array.isArray(value) || value === null)) { throw new Error('all values in traces array must be non-array objects'); } } // make sure we have an index for each trace if(typeof newIndices !== 'undefined' && !Array.isArray(newIndices)) { newIndices = [newIndices]; } if(typeof newIndices !== 'undefined' && newIndices.length !== traces.length) { throw new Error( 'if indices is specified, traces.length must equal indices.length' ); } } /** * A private function to reduce the type checking clutter in spliceTraces. * Get all update Properties from gd.data. Validate inputs and outputs. * Used by prependTrace and extendTraces * * @param gd * @param update * @param indices * @param maxPoints */ function assertExtendTracesArgs(gd, update, indices, maxPoints) { var maxPointsIsObject = Lib.isPlainObject(maxPoints); if(!Array.isArray(gd.data)) { throw new Error('gd.data must be an array'); } if(!Lib.isPlainObject(update)) { throw new Error('update must be a key:value object'); } if(typeof indices === 'undefined') { throw new Error('indices must be an integer or array of integers'); } assertIndexArray(gd, indices, 'indices'); for(var key in update) { /* * Verify that the attribute to be updated contains as many trace updates * as indices. Failure must result in throw and no-op */ if(!Array.isArray(update[key]) || update[key].length !== indices.length) { throw new Error('attribute ' + key + ' must be an array of length equal to indices array length'); } /* * if maxPoints is an object it must match keys and array lengths of 'update' 1:1 */ if(maxPointsIsObject && (!(key in maxPoints) || !Array.isArray(maxPoints[key]) || maxPoints[key].length !== update[key].length)) { throw new Error('when maxPoints is set as a key:value object it must contain a 1:1 ' + 'corrispondence with the keys and number of traces in the update object'); } } } /** * A private function to reduce the type checking clutter in spliceTraces. * * @param {Object|HTMLDivElement} gd * @param {Object} update * @param {Number[]} indices * @param {Number||Object} maxPoints * @return {Object[]} */ function getExtendProperties(gd, update, indices, maxPoints) { var maxPointsIsObject = Lib.isPlainObject(maxPoints); var updateProps = []; var trace, target, prop, insert, maxp; // allow scalar index to represent a single trace position if(!Array.isArray(indices)) indices = [indices]; // negative indices are wrapped around to their positive value. Equivalent to python indexing. indices = positivifyIndices(indices, gd.data.length - 1); // loop through all update keys and traces and harvest validated data. for(var key in update) { for(var j = 0; j < indices.length; j++) { /* * Choose the trace indexed by the indices map argument and get the prop setter-getter * instance that references the key and value for this particular trace. */ trace = gd.data[indices[j]]; prop = nestedProperty(trace, key); /* * Target is the existing gd.data.trace.dataArray value like "x" or "marker.size" * Target must exist as an Array to allow the extend operation to be performed. */ target = prop.get(); insert = update[key][j]; if(!Lib.isArrayOrTypedArray(insert)) { throw new Error('attribute: ' + key + ' index: ' + j + ' must be an array'); } if(!Lib.isArrayOrTypedArray(target)) { throw new Error('cannot extend missing or non-array attribute: ' + key); } if(target.constructor !== insert.constructor) { throw new Error('cannot extend array with an array of a different type: ' + key); } /* * maxPoints may be an object map or a scalar. If object select the key:value, else * Use the scalar maxPoints for all key and trace combinations. */ maxp = maxPointsIsObject ? maxPoints[key][j] : maxPoints; // could have chosen null here, -1 just tells us to not take a window if(!isNumeric(maxp)) maxp = -1; /* * Wrap the nestedProperty in an object containing required data * for lengthening and windowing this particular trace - key combination. * Flooring maxp mirrors the behaviour of floats in the Array.slice JSnative function. */ updateProps.push({ prop: prop, target: target, insert: insert, maxp: Math.floor(maxp) }); } } // all target and insertion data now validated return updateProps; } /** * A private function to key Extend and Prepend traces DRY * * @param {Object|HTMLDivElement} gd * @param {Object} update * @param {Number[]} indices * @param {Number||Object} maxPoints * @param {Function} updateArray * @return {Object} */ function spliceTraces(gd, update, indices, maxPoints, updateArray) { assertExtendTracesArgs(gd, update, indices, maxPoints); var updateProps = getExtendProperties(gd, update, indices, maxPoints); var undoUpdate = {}; var undoPoints = {}; for(var i = 0; i < updateProps.length; i++) { var prop = updateProps[i].prop; var maxp = updateProps[i].maxp; // return new array and remainder var out = updateArray(updateProps[i].target, updateProps[i].insert, maxp); prop.set(out[0]); // build the inverse update object for the undo operation if(!Array.isArray(undoUpdate[prop.astr])) undoUpdate[prop.astr] = []; undoUpdate[prop.astr].push(out[1]); // build the matching maxPoints undo object containing original trace lengths if(!Array.isArray(undoPoints[prop.astr])) undoPoints[prop.astr] = []; undoPoints[prop.astr].push(updateProps[i].target.length); } return {update: undoUpdate, maxPoints: undoPoints}; } function concatTypedArray(arr0, arr1) { var arr2 = new arr0.constructor(arr0.length + arr1.length); arr2.set(arr0); arr2.set(arr1, arr0.length); return arr2; } /** * extend && prepend traces at indices with update arrays, window trace lengths to maxPoints * * Extend and Prepend have identical APIs. Prepend inserts an array at the head while Extend * inserts an array off the tail. Prepend truncates the tail of the array - counting maxPoints * from the head, whereas Extend truncates the head of the array, counting backward maxPoints * from the tail. * * If maxPoints is undefined, nonNumeric, negative or greater than extended trace length no * truncation / windowing will be performed. If its zero, well the whole trace is truncated. * * @param {Object|HTMLDivElement} gd The graph div * @param {Object} update The key:array map of target attributes to extend * @param {Number|Number[]} indices The locations of traces to be extended * @param {Number|Object} [maxPoints] Number of points for trace window after lengthening. * */ function extendTraces(gd, update, indices, maxPoints) { gd = Lib.getGraphDiv(gd); function updateArray(target, insert, maxp) { var newArray, remainder; if(Lib.isTypedArray(target)) { if(maxp < 0) { var none = new target.constructor(0); var both = concatTypedArray(target, insert); if(maxp < 0) { newArray = both; remainder = none; } else { newArray = none; remainder = both; } } else { newArray = new target.constructor(maxp); remainder = new target.constructor(target.length + insert.length - maxp); if(maxp === insert.length) { newArray.set(insert); remainder.set(target); } else if(maxp < insert.length) { var numberOfItemsFromInsert = insert.length - maxp; newArray.set(insert.subarray(numberOfItemsFromInsert)); remainder.set(target); remainder.set(insert.subarray(0, numberOfItemsFromInsert), target.length); } else { var numberOfItemsFromTarget = maxp - insert.length; var targetBegin = target.length - numberOfItemsFromTarget; newArray.set(target.subarray(targetBegin)); newArray.set(insert, numberOfItemsFromTarget); remainder.set(target.subarray(0, targetBegin)); } } } else { newArray = target.concat(insert); remainder = (maxp >= 0 && maxp < newArray.length) ? newArray.splice(0, newArray.length - maxp) : []; } return [newArray, remainder]; } var undo = spliceTraces(gd, update, indices, maxPoints, updateArray); var promise = exports.redraw(gd); var undoArgs = [gd, undo.update, indices, undo.maxPoints]; Queue.add(gd, exports.prependTraces, undoArgs, extendTraces, arguments); return promise; } function prependTraces(gd, update, indices, maxPoints) { gd = Lib.getGraphDiv(gd); function updateArray(target, insert, maxp) { var newArray, remainder; if(Lib.isTypedArray(target)) { if(maxp <= 0) { var none = new target.constructor(0); var both = concatTypedArray(insert, target); if(maxp < 0) { newArray = both; remainder = none; } else { newArray = none; remainder = both; } } else { newArray = new target.constructor(maxp); remainder = new target.constructor(target.length + insert.length - maxp); if(maxp === insert.length) { newArray.set(insert); remainder.set(target); } else if(maxp < insert.length) { var numberOfItemsFromInsert = insert.length - maxp; newArray.set(insert.subarray(0, numberOfItemsFromInsert)); remainder.set(insert.subarray(numberOfItemsFromInsert)); remainder.set(target, numberOfItemsFromInsert); } else { var numberOfItemsFromTarget = maxp - insert.length; newArray.set(insert); newArray.set(target.subarray(0, numberOfItemsFromTarget), insert.length); remainder.set(target.subarray(numberOfItemsFromTarget)); } } } else { newArray = insert.concat(target); remainder = (maxp >= 0 && maxp < newArray.length) ? newArray.splice(maxp, newArray.length) : []; } return [newArray, remainder]; } var undo = spliceTraces(gd, update, indices, maxPoints, updateArray); var promise = exports.redraw(gd); var undoArgs = [gd, undo.update, indices, undo.maxPoints]; Queue.add(gd, exports.extendTraces, undoArgs, prependTraces, arguments); return promise; } /** * Add data traces to an existing graph div. * * @param {Object|HTMLDivElement} gd The graph div * @param {Object[]} gd.data The array of traces we're adding to * @param {Object[]|Object} traces The object or array of objects to add * @param {Number[]|Number} [newIndices=[gd.data.length]] Locations to add traces * */ function addTraces(gd, traces, newIndices) { gd = Lib.getGraphDiv(gd); var currentIndices = []; var undoFunc = exports.deleteTraces; var redoFunc = addTraces; var undoArgs = [gd, currentIndices]; var redoArgs = [gd, traces]; // no newIndices here var i; var promise; // all validation is done elsewhere to remove clutter here checkAddTracesArgs(gd, traces, newIndices); // make sure traces is an array if(!Array.isArray(traces)) { traces = [traces]; } // make sure traces do not repeat existing ones traces = traces.map(function(trace) { return Lib.extendFlat({}, trace); }); helpers.cleanData(traces); // add the traces to gd.data (no redrawing yet!) for(i = 0; i < traces.length; i++) { gd.data.push(traces[i]); } // to continue, we need to call moveTraces which requires currentIndices for(i = 0; i < traces.length; i++) { currentIndices.push(-traces.length + i); } // if the user didn't define newIndices, they just want the traces appended // i.e., we can simply redraw and be done if(typeof newIndices === 'undefined') { promise = exports.redraw(gd); Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs); return promise; } // make sure indices is property defined if(!Array.isArray(newIndices)) { newIndices = [newIndices]; } try { // this is redundant, but necessary to not catch later possible errors! checkMoveTracesArgs(gd, currentIndices, newIndices); } catch(error) { // something went wrong, reset gd to be safe and rethrow error gd.data.splice(gd.data.length - traces.length, traces.length); throw error; } // if we're here, the user has defined specific places to place the new traces // this requires some extra work that moveTraces will do Queue.startSequence(gd); Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs); promise = exports.moveTraces(gd, currentIndices, newIndices); Queue.stopSequence(gd); return promise; } /** * Delete traces at `indices` from gd.data array. * * @param {Object|HTMLDivElement} gd The graph div * @param {Object[]} gd.data The array of traces we're removing from * @param {Number|Number[]} indices The indices */ function deleteTraces(gd, indices) { gd = Lib.getGraphDiv(gd); var traces = []; var undoFunc = exports.addTraces; var redoFunc = deleteTraces; var undoArgs = [gd, traces, indices]; var redoArgs = [gd, indices]; var i; var deletedTrace; // make sure indices are defined if(typeof indices === 'undefined') { throw new Error('indices must be an integer or array of integers.'); } else if(!Array.isArray(indices)) { indices = [indices]; } assertIndexArray(gd, indices, 'indices'); // convert negative indices to positive indices indices = positivifyIndices(indices, gd.data.length - 1); // we want descending here so that splicing later doesn't affect indexing indices.sort(Lib.sorterDes); for(i = 0; i < indices.length; i += 1) { deletedTrace = gd.data.splice(indices[i], 1)[0]; traces.push(deletedTrace); } var promise = exports.redraw(gd); Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs); return promise; } /** * Move traces at currentIndices array to locations in newIndices array. * * If newIndices is omitted, currentIndices will be moved to the end. E.g., * these are equivalent: * * Plotly.moveTraces(gd, [1, 2, 3], [-3, -2, -1]) * Plotly.moveTraces(gd, [1, 2, 3]) * * @param {Object|HTMLDivElement} gd The graph div * @param {Object[]} gd.data The array of traces we're removing from * @param {Number|Number[]} currentIndices The locations of traces to be moved * @param {Number|Number[]} [newIndices] The locations to move traces to * * Example calls: * * // move trace i to location x * Plotly.moveTraces(gd, i, x) * * // move trace i to end of array * Plotly.moveTraces(gd, i) * * // move traces i, j, k to end of array (i != j != k) * Plotly.moveTraces(gd, [i, j, k]) * * // move traces [i, j, k] to [x, y, z] (i != j != k) (x != y != z) * Plotly.moveTraces(gd, [i, j, k], [x, y, z]) * * // reorder all traces (assume there are 5--a, b, c, d, e) * Plotly.moveTraces(gd, [b, d, e, a, c]) // same as 'move to end' */ function moveTraces(gd, currentIndices, newIndices) { gd = Lib.getGraphDiv(gd); var newData = []; var movingTraceMap = []; var undoFunc = moveTraces; var redoFunc = moveTraces; var undoArgs = [gd, newIndices, currentIndices]; var redoArgs = [gd, currentIndices, newIndices]; var i; // to reduce complexity here, check args elsewhere // this throws errors where appropriate checkMoveTracesArgs(gd, currentIndices, newIndices); // make sure currentIndices is an array currentIndices = Array.isArray(currentIndices) ? currentIndices : [currentIndices]; // if undefined, define newIndices to point to the end of gd.data array if(typeof newIndices === 'undefined') { newIndices = []; for(i = 0; i < currentIndices.length; i++) { newIndices.push(-currentIndices.length + i); } } // make sure newIndices is an array if it's user-defined newIndices = Array.isArray(newIndices) ? newIndices : [newIndices]; // convert negative indices to positive indices (they're the same length) currentIndices = positivifyIndices(currentIndices, gd.data.length - 1); newIndices = positivifyIndices(newIndices, gd.data.length - 1); // at this point, we've coerced the index arrays into predictable forms // get the traces that aren't being moved around for(i = 0; i < gd.data.length; i++) { // if index isn't in currentIndices, include it in ignored! if(currentIndices.indexOf(i) === -1) { newData.push(gd.data[i]); } } // get a mapping of indices to moving traces for(i = 0; i < currentIndices.length; i++) { movingTraceMap.push({newIndex: newIndices[i], trace: gd.data[currentIndices[i]]}); } // reorder this mapping by newIndex, ascending movingTraceMap.sort(function(a, b) { return a.newIndex - b.newIndex; }); // now, add the moving traces back in, in order! for(i = 0; i < movingTraceMap.length; i += 1) { newData.splice(movingTraceMap[i].newIndex, 0, movingTraceMap[i].trace); } gd.data = newData; var promise = exports.redraw(gd); Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs); return promise; } /** * restyle: update trace attributes of an existing plot * * Can be called two ways. * * Signature 1: * @param {String | HTMLDivElement} gd * the id or DOM element of the graph container div * @param {String} astr * attribute string (like `'marker.symbol'`) to update * @param {*} val * value to give this attribute * @param {Number[] | Number} [traces] * integer or array of integers for the traces to alter (all if omitted) * * Signature 2: * @param {String | HTMLDivElement} gd * (as in signature 1) * @param {Object} aobj * attribute object `{astr1: val1, astr2: val2 ...}` * allows setting multiple attributes simultaneously * @param {Number[] | Number} [traces] * (as in signature 1) * * `val` (or `val1`, `val2` ... in the object form) can be an array, * to apply different values to each trace. * * If the array is too short, it will wrap around (useful for * style files that want to specify cyclical default values). */ function restyle(gd, astr, val, _traces) { gd = Lib.getGraphDiv(gd); helpers.clearPromiseQueue(gd); var aobj = {}; if(typeof astr === 'string') aobj[astr] = val; else if(Lib.isPlainObject(astr)) { // the 3-arg form aobj = Lib.extendFlat({}, astr); if(_traces === undefined) _traces = val; } else { Lib.warn('Restyle fail.', astr, val, _traces); return Promise.reject(); } if(Object.keys(aobj).length) gd.changed = true; var traces = helpers.coerceTraceIndices(gd, _traces); var specs = _restyle(gd, aobj, traces); var flags = specs.flags; // clear calcdata and/or axis types if required so they get regenerated if(flags.calc) gd.calcdata = undefined; if(flags.clearAxisTypes) helpers.clearAxisTypes(gd, traces, {}); // fill in redraw sequence var seq = []; if(flags.fullReplot) { seq.push(exports._doPlot); } else { seq.push(Plots.previousPromises); // maybe only call Plots.supplyDataDefaults in the splom case, // to skip over long and slow axes defaults Plots.supplyDefaults(gd); if(flags.markerSize) { Plots.doCalcdata(gd); addAxRangeSequence(seq); // TODO // if all axes have autorange:false, then // proceed to subroutines.doTraceStyle(), // otherwise we must go through addAxRangeSequence, // which in general must redraws 'all' axes } if(flags.style) seq.push(subroutines.doTraceStyle); if(flags.colorbars) seq.push(subroutines.doColorBars); seq.push(emitAfterPlot); } seq.push(Plots.rehover, Plots.redrag); Queue.add(gd, restyle, [gd, specs.undoit, specs.traces], restyle, [gd, specs.redoit, specs.traces] ); var plotDone = Lib.syncOrAsync(seq, gd); if(!plotDone || !plotDone.then) plotDone = Promise.resolve(); return plotDone.then(function() { gd.emit('plotly_restyle', specs.eventData); return gd; }); } // for undo: undefined initial vals must be turned into nulls // so that we unset rather than ignore them function undefinedToNull(val) { if(val === undefined) return null; return val; } /** * Factory function to wrap nestedProperty with GUI edits if necessary * with GUI edits we add an optional prefix to the nestedProperty constructor * to prepend to the attribute string in the preGUI store. */ function makeNP(preGUI, guiEditFlag) { if(!guiEditFlag) return nestedProperty; return function(container, attr, prefix) { var np = nestedProperty(container, attr); var npSet = np.set; np.set = function(val) { var fullAttr = (prefix || '') + attr; storeCurrent(fullAttr, np.get(), val, preGUI); npSet(val); }; return np; }; } function storeCurrent(attr, val, newVal, preGUI) { if(Array.isArray(val) || Array.isArray(newVal)) { var arrayVal = Array.isArray(val) ? val : []; var arrayNew = Array.isArray(newVal) ? newVal : []; var maxLen = Math.max(arrayVal.length, arrayNew.length); for(var i = 0; i < maxLen; i++) { storeCurrent(attr + '[' + i + ']', arrayVal[i], arrayNew[i], preGUI); } } else if(Lib.isPlainObject(val) || Lib.isPlainObject(newVal)) { var objVal = Lib.isPlainObject(val) ? val : {}; var objNew = Lib.isPlainObject(newVal) ? newVal : {}; var objBoth = Lib.extendFlat({}, objVal, objNew); for(var key in objBoth) { storeCurrent(attr + '.' + key, objVal[key], objNew[key], preGUI); } } else if(preGUI[attr] === undefined) { preGUI[attr] = undefinedToNull(val); } } /** * storeDirectGUIEdit: for routines that skip restyle/relayout and mock it * by emitting a plotly_restyle or plotly_relayout event, this routine * keeps track of the initial state in _preGUI for use by uirevision * Does *not* apply these changes to data/layout - that's the responsibility * of the calling routine. * * @param {object} container: the input attributes container (eg `layout` or a `trace`) * @param {object} preGUI: where original values should be stored, either * `layout._preGUI` or `layout._tracePreGUI[uid]` * @param {object} edits: the {attr: val} object as normally passed to `relayout` etc */ function _storeDirectGUIEdit(container, preGUI, edits) { for(var attr in edits) { var np = nestedProperty(container, attr); storeCurrent(attr, np.get(), edits[attr], preGUI); } } function _restyle(gd, aobj, traces) { var fullLayout = gd._fullLayout; var fullData = gd._fullData; var data = gd.data; var guiEditFlag = fullLayout._guiEditing; var layoutNP = makeNP(fullLayout._preGUI, guiEditFlag); var eventData = Lib.extendDeepAll({}, aobj); var i; cleanDeprecatedAttributeKeys(aobj); // initialize flags var flags = editTypes.traceFlags(); // copies of the change (and previous values of anything affected) // for the undo / redo queue var redoit = {}; var undoit = {}; var axlist; // make a new empty vals array for undoit function a0() { return traces.map(function() { return undefined; }); } // for autoranging multiple axes function addToAxlist(axid) { var axName = Axes.id2name(axid); if(axlist.indexOf(axName) === -1) axlist.push(axName); } function autorangeAttr(axName) { return 'LAYOUT' + axName + '.autorange'; } function rangeAttr(axName) { return 'LAYOUT' + axName + '.range'; } function getFullTrace(traceIndex) { // usually fullData maps 1:1 onto data, but with groupby transforms // the fullData index can be greater. Take the *first* matching trace. for(var j = traceIndex; j < fullData.length; j++) { if(fullData[j]._input === data[traceIndex]) return fullData[j]; } // should never get here - and if we *do* it should cause an error // later on undefined fullTrace is passed to nestedProperty. } // for attrs that interact (like scales & autoscales), save the // old vals before making the change // val=undefined will not set a value, just record what the value was. // val=null will delete the attribute // attr can be an array to set several at once (all to the same val) function doextra(attr, val, i) { if(Array.isArray(attr)) { attr.forEach(function(a) { doextra(a, val, i); }); return; } // quit if explicitly setting this elsewhere if(attr in aobj || helpers.hasParent(aobj, attr)) return; var extraparam; if(attr.substr(0, 6) === 'LAYOUT') { extraparam = layoutNP(gd.layout, attr.replace('LAYOUT', '')); } else { var tracei = traces[i]; var preGUI = fullLayout._tracePreGUI[getFullTrace(tracei)._fullInput.uid]; extraparam = makeNP(preGUI, guiEditFlag)(data[tracei], attr); } if(!(attr in undoit)) { undoit[attr] = a0(); } if(undoit[attr][i] === undefined) { undoit[attr][i] = undefinedToNull(extraparam.get()); } if(val !== undefined) { extraparam.set(val); } } function allBins(binAttr) { return function(j) { return fullData[j][binAttr]; }; } function arrayBins(binAttr) { return function(vij, j) { return vij === false ? fullData[traces[j]][binAttr] : null; }; } // now make the changes to gd.data (and occasionally gd.layout) // and figure out what kind of graphics update we need to do for(var ai in aobj) { if(helpers.hasParent(aobj, ai)) { throw new Error('cannot set ' + ai + ' and a parent attribute simultaneously'); } var vi = aobj[ai]; var cont; var contFull; var param; var oldVal; var newVal; var valObject; // Backward compatibility shim for turning histogram autobin on, // or freezing previous autobinned values. // Replace obsolete `autobin(x|y): true` with `(x|y)bins: null` // and `autobin(x|y): false` with the `(x|y)bins` in `fullData` if(ai === 'autobinx' || ai === 'autobiny') { ai = ai.charAt(ai.length - 1) + 'bins'; if(Array.isArray(vi)) vi = vi.map(arrayBins(ai)); else if(vi === false) vi = traces.map(allBins(ai)); else vi = null; } redoit[ai] = vi; if(ai.substr(0, 6) === 'LAYOUT') { param = layoutNP(gd.layout, ai.replace('LAYOUT', '')); undoit[ai] = [undefinedToNull(param.get())]; // since we're allowing val to be an array, allow it here too, // even though that's meaningless param.set(Array.isArray(vi) ? vi[0] : vi); // ironically, the layout attrs in restyle only require replot, // not relayout flags.calc = true; continue; } // set attribute in gd.data undoit[ai] = a0(); for(i = 0; i < traces.length; i++) { cont = data[traces[i]]; contFull = getFullTrace(traces[i]); var preGUI = fullLayout._tracePreGUI[contFull._fullInput.uid]; param = makeNP(preGUI, guiEditFlag)(cont, ai); oldVal = param.get(); newVal = Array.isArray(vi) ? vi[i % vi.length] : vi; if(newVal === undefined) continue; var finalPart = param.parts[param.parts.length - 1]; var prefix = ai.substr(0, ai.length - finalPart.length - 1); var prefixDot = prefix ? prefix + '.' : ''; var innerContFull = prefix ? nestedProperty(contFull, prefix).get() : contFull; valObject = PlotSchema.getTraceValObject(contFull, param.parts); if(valObject && valObject.impliedEdits && newVal !== null) { for(var impliedKey in valObject.impliedEdits) { doextra(Lib.relativeAttr(ai, impliedKey), valObject.impliedEdits[impliedKey], i); } } else if((finalPart === 'thicknessmode' || finalPart === 'lenmode') && oldVal !== newVal && (newVal === 'fraction' || newVal === 'pixels') && innerContFull ) { // changing colorbar size modes, // make the resulting size not change // note that colorbar fractional sizing is based on the // original plot size, before anything (like a colorbar) // increases the margins var gs = fullLayout._size; var orient = innerContFull.orient; var topOrBottom = (orient === 'top') || (orient === 'bottom'); if(finalPart === 'thicknessmode') { var thicknorm = topOrBottom ? gs.h : gs.w; doextra(prefixDot + 'thickness', innerContFull.thickness * (newVal === 'fraction' ? 1 / thicknorm : thicknorm), i); } else { var lennorm = topOrBottom ? gs.w : gs.h; doextra(prefixDot + 'len', innerContFull.len * (newVal === 'fraction' ? 1 / lennorm : lennorm), i); } } else if(ai === 'type' && ( (newVal === 'pie') !== (oldVal === 'pie') || (newVal === 'funnelarea') !== (oldVal === 'funnelarea') )) { var labelsTo = 'x'; var valuesTo = 'y'; if((newVal === 'bar' || oldVal === 'bar') && cont.orientation === 'h') { labelsTo = 'y'; valuesTo = 'x'; } Lib.swapAttrs(cont, ['?', '?src'], 'labels', labelsTo); Lib.swapAttrs(cont, ['d?', '?0'], 'label', labelsTo); Lib.swapAttrs(cont, ['?', '?src'], 'values', valuesTo); if(oldVal === 'pie' || oldVal === 'funnelarea') { nestedProperty(cont, 'marker.color') .set(nestedProperty(cont, 'marker.colors').get()); // super kludgy - but if all pies are gone we won't remove them otherwise fullLayout._pielayer.selectAll('g.trace').remove(); } else if(Registry.traceIs(cont, 'cartesian')) { nestedProperty(cont, 'marker.colors') .set(nestedProperty(cont, 'marker.color').get()); } } undoit[ai][i] = undefinedToNull(oldVal); // set the new value - if val is an array, it's one el per trace // first check for attributes that get more complex alterations var swapAttrs = [ 'swapxy', 'swapxyaxes', 'orientation', 'orientationaxes' ]; if(swapAttrs.indexOf(ai) !== -1) { // setting an orientation: make sure it's changing // before we swap everything else if(ai === 'orientation') { param.set(newVal); // obnoxious that we need this level of coupling... but in order to // properly handle setting orientation to `null` we need to mimic // the logic inside Bars.supplyDefaults for default orientation var defaultOrientation = (cont.x && !cont.y) ? 'h' : 'v'; if((param.get() || defaultOrientation) === contFull.orientation) { continue; } } else if(ai === 'orientationaxes') { // orientationaxes has no value, // it flips everything and the axes cont.orientation = {v: 'h', h: 'v'}[contFull.orientation]; } helpers.swapXYData(cont); flags.calc = flags.clearAxisTypes = true; } else if(Plots.dataArrayContainers.indexOf(param.parts[0]) !== -1) { // TODO: use manageArrays.applyContainerArrayChanges here too helpers.manageArrayContainers(param, newVal, undoit); flags.calc = true; } else { if(valObject) { // must redo calcdata when restyling array values of arrayOk attributes // ... but no need to this for regl-based traces if(valObject.arrayOk && !Registry.traceIs(contFull, 'regl') && (Lib.isArrayOrTypedArray(newVal) || Lib.isArrayOrTypedArray(oldVal)) ) { flags.calc = true; } else editTypes.update(flags, valObject); } else { /* * if we couldn't find valObject, assume a full recalc. * This can happen if you're changing type and making * some other edits too, so the modules we're * looking at don't have these attributes in them. */ flags.calc = true; } // all the other ones, just modify that one attribute param.set(newVal); } } // swap the data attributes of the relevant x and y axes? if(['swapxyaxes', 'orientationaxes'].indexOf(ai) !== -1) { Axes.swap(gd, traces); } // swap hovermode if set to "compare x/y data" if(ai === 'orientationaxes') { var hovermode = nestedProperty(gd.layout, 'hovermode'); var h = hovermode.get(); if(h === 'x') { hovermode.set('y'); } else if(h === 'y') { hovermode.set('x'); } else if(h === 'x unified') { hovermode.set('y unified'); } else if(h === 'y unified') { hovermode.set('x unified'); } } // Major enough changes deserve autoscale and // non-reversed axes so people don't get confused // // Note: autobin (or its new analog bin clearing) is not included here // since we're not pushing bins back to gd.data, so if we have bin // info it was explicitly provided by the user. if(['orientation', 'type'].indexOf(ai) !== -1) { axlist = []; for(i = 0; i < traces.length; i++) { var trace = data[traces[i]]; if(Registry.traceIs(trace, 'cartesian')) { addToAxlist(trace.xaxis || 'x'); addToAxlist(trace.yaxis || 'y'); } } doextra(axlist.map(autorangeAttr), true, 0); doextra(axlist.map(rangeAttr), [0, 1], 0); } } if(flags.calc || flags.plot) { flags.fullReplot = true; } return { flags: flags, undoit: undoit, redoit: redoit, traces: traces, eventData: Lib.extendDeepNoArrays([], [eventData, traces]) }; } /** * Converts deprecated attribute keys to * the current API to ensure backwards compatibility. * * This is needed for the update mechanism to determine which * subroutines to run based on the actual attribute * definitions (that don't include the deprecated ones). * * E.g. Maps {'xaxis.title': 'A chart'} to {'xaxis.title.text': 'A chart'} * and {titlefont: {...}} to {'title.font': {...}}. * * @param aobj */ function cleanDeprecatedAttributeKeys(aobj) { var oldAxisTitleRegex = Lib.counterRegex('axis', '\.title', false, false); var colorbarRegex = /colorbar\.title$/; var keys = Object.keys(aobj); var i, key, value; for(i = 0; i < keys.length; i++) { key = keys[i]; value = aobj[key]; if((key === 'title' || oldAxisTitleRegex.test(key) || colorbarRegex.test(key)) && (typeof value === 'string' || typeof value === 'number')) { replace(key, key.replace('title', 'title.text')); } else if(key.indexOf('titlefont') > -1 && key.indexOf('grouptitlefont') === -1) { replace(key, key.replace('titlefont', 'title.font')); } else if(key.indexOf('titleposition') > -1) { replace(key, key.replace('titleposition', 'title.position')); } else if(key.indexOf('titleside') > -1) { replace(key, key.replace('titleside', 'title.side')); } else if(key.indexOf('titleoffset') > -1) { replace(key, key.replace('titleoffset', 'title.offset')); } } function replace(oldAttrStr, newAttrStr) { aobj[newAttrStr] = aobj[oldAttrStr]; delete aobj[oldAttrStr]; } } /** * relayout: update layout attributes of an existing plot * * Can be called two ways: * * Signature 1: * @param {String | HTMLDivElement} gd * the id or dom element of the graph container div * @param {String} astr * attribute string (like `'xaxis.range[0]'`) to update * @param {*} val * value to give this attribute * * Signature 2: * @param {String | HTMLDivElement} gd * (as in signature 1) * @param {Object} aobj * attribute object `{astr1: val1, astr2: val2 ...}` * allows setting multiple attributes simultaneously */ function relayout(gd, astr, val) { gd = Lib.getGraphDiv(gd); helpers.clearPromiseQueue(gd); var aobj = {}; if(typeof astr === 'string') { aobj[astr] = val; } else if(Lib.isPlainObject(astr)) { aobj = Lib.extendFlat({}, astr); } else { Lib.warn('Relayout fail.', astr, val); return Promise.reject(); } if(Object.keys(aobj).length) gd.changed = true; var specs = _relayout(gd, aobj); var flags = specs.flags; // clear calcdata if required if(flags.calc) gd.calcdata = undefined; // fill in redraw sequence // even if we don't have anything left in aobj, // something may have happened within relayout that we // need to wait for var seq = [Plots.previousPromises]; if(flags.layoutReplot) { seq.push(subroutines.layoutReplot); } else if(Object.keys(aobj).length) { axRangeSupplyDefaultsByPass(gd, flags, specs) || Plots.supplyDefaults(gd); if(flags.legend) seq.push(subroutines.doLegend); if(flags.layoutstyle) seq.push(subroutines.layoutStyles); if(flags.axrange) addAxRangeSequence(seq, specs.rangesAltered); if(flags.ticks) seq.push(subroutines.doTicksRelayout); if(flags.modebar) seq.push(subroutines.doModeBar); if(flags.camera) seq.push(subroutines.doCamera); if(flags.colorbars) seq.push(subroutines.doColorBars); seq.push(emitAfterPlot); } seq.push(Plots.rehover, Plots.redrag); Queue.add(gd, relayout, [gd, specs.undoit], relayout, [gd, specs.redoit] ); var plotDone = Lib.syncOrAsync(seq, gd); if(!plotDone || !plotDone.then) plotDone = Promise.resolve(gd); return plotDone.then(function() { gd.emit('plotly_relayout', specs.eventData); return gd; }); } // Optimization mostly for large splom traces where // Plots.supplyDefaults can take > 100ms function axRangeSupplyDefaultsByPass(gd, flags, specs) { var fullLayout = gd._fullLayout; if(!flags.axrange) return false; for(var k in flags) { if(k !== 'axrange' && flags[k]) return false; } for(var axId in specs.rangesAltered) { var axName = Axes.id2name(axId); var axIn = gd.layout[axName]; var axOut = fullLayout[axName]; axOut.autorange = axIn.autorange; if(axIn.range) { axOut.range = axIn.range.slice(); } axOut.cleanRange(); if(axOut._matchGroup) { for(var axId2 in axOut._matchGroup) { if(axId2 !== axId) { var ax2 = fullLayout[Axes.id2name(axId2)]; ax2.autorange = axOut.autorange; ax2.range = axOut.range.slice(); ax2._input.range = axOut.range.slice(); } } } } return true; } function addAxRangeSequence(seq, rangesAltered) { // N.B. leave as sequence of subroutines (for now) instead of // subroutine of its own so that finalDraw always gets // executed after drawData var drawAxes = rangesAltered ? function(gd) { var axIds = []; var skipTitle = true; for(var id in rangesAltered) { var ax = Axes.getFromId(gd, id); axIds.push(id); if((ax.ticklabelposition || '').indexOf('inside') !== -1) { if(ax._anchorAxis) { axIds.push(ax._anchorAxis._id); } } if(ax._matchGroup) { for(var id2 in ax._matchGroup) { if(!rangesAltered[id2]) { axIds.push(id2); } } } if(ax.automargin) skipTitle = false; } return Axes.draw(gd, axIds, {skipTitle: skipTitle}); } : function(gd) { return Axes.draw(gd, 'redraw'); }; seq.push( clearSelect, subroutines.doAutoRangeAndConstraints, drawAxes, subroutines.drawData, subroutines.finalDraw ); } var AX_RANGE_RE = /^[xyz]axis[0-9]*\.range(\[[0|1]\])?$/; var AX_AUTORANGE_RE = /^[xyz]axis[0-9]*\.autorange$/; var AX_DOMAIN_RE = /^[xyz]axis[0-9]*\.domain(\[[0|1]\])?$/; function _relayout(gd, aobj) { var layout = gd.layout; var fullLayout = gd._fullLayout; var guiEditFlag = fullLayout._guiEditing; var layoutNP = makeNP(fullLayout._preGUI, guiEditFlag); var keys = Object.keys(aobj); var axes = Axes.list(gd); var eventData = Lib.extendDeepAll({}, aobj); var arrayEdits = {}; var arrayStr, i, j; cleanDeprecatedAttributeKeys(aobj); keys = Object.keys(aobj); // look for 'allaxes', split out into all axes // in case of 3D the axis are nested within a scene which is held in _id for(i = 0; i < keys.length; i++) { if(keys[i].indexOf('allaxes') === 0) { for(j = 0; j < axes.length; j++) { var scene = axes[j]._id.substr(1); var axisAttr = (scene.indexOf('scene') !== -1) ? (scene + '.') : ''; var newkey = keys[i].replace('allaxes', axisAttr + axes[j]._name); if(!aobj[newkey]) aobj[newkey] = aobj[keys[i]]; } delete aobj[keys[i]]; } } // initialize flags var flags = editTypes.layoutFlags(); // copies of the change (and previous values of anything affected) // for the undo / redo queue var redoit = {}; var undoit = {}; // for attrs that interact (like scales & autoscales), save the // old vals before making the change // val=undefined will not set a value, just record what the value was. // attr can be an array to set several at once (all to the same val) function doextra(attr, val) { if(Array.isArray(attr)) { attr.forEach(function(a) { doextra(a, val); }); return; } // if we have another value for this attribute (explicitly or // via a parent) do not override with this auto-generated extra if(attr in aobj || helpers.hasParent(aobj, attr)) return; var p = layoutNP(layout, attr); if(!(attr in undoit)) { undoit[attr] = undefinedToNull(p.get()); } if(val !== undefined) p.set(val); } // for constraint enforcement: keep track of all axes (as {id: name}) // we're editing the (auto)range of, so we can tell the others constrained // to scale with them that it's OK for them to shrink var rangesAltered = {}; var ax; function recordAlteredAxis(pleafPlus) { var axId = Axes.name2id(pleafPlus.split('.')[0]); rangesAltered[axId] = 1; return axId; } // alter gd.layout for(var ai in aobj) { if(helpers.hasParent(aobj, ai)) { throw new Error('cannot set ' + ai + ' and a parent attribute simultaneously'); } var p = layoutNP(layout, ai); var vi = aobj[ai]; var plen = p.parts.length; // p.parts may end with an index integer if the property is an array var pend = plen - 1; while(pend > 0 && typeof p.parts[pend] !== 'string') pend--; // last property in chain (leaf node) var pleaf = p.parts[pend]; // leaf plus immediate parent var pleafPlus = p.parts[pend - 1] + '.' + pleaf; // trunk nodes (everything except the leaf) var ptrunk = p.parts.slice(0, pend).join('.'); var parentIn = nestedProperty(gd.layout, ptrunk).get(); var parentFull = nestedProperty(fullLayout, ptrunk).get(); var vOld = p.get(); if(vi === undefined) continue; redoit[ai] = vi; // axis reverse is special - it is its own inverse // op and has no flag. undoit[ai] = (pleaf === 'reverse') ? vi : undefinedToNull(vOld); var valObject = PlotSchema.getLayoutValObject(fullLayout, p.parts); if(valObject && valObject.impliedEdits && vi !== null) { for(var impliedKey in valObject.impliedEdits) { doextra(Lib.relativeAttr(ai, impliedKey), valObject.impliedEdits[impliedKey]); } } // Setting width or height to null must reset the graph's width / height // back to its initial value as computed during the first pass in Plots.plotAutoSize. // // To do so, we must manually set them back here using the _initialAutoSize cache. // can't use impliedEdits for this because behavior depends on vi if(['width', 'height'].indexOf(ai) !== -1) { if(vi) { doextra('autosize', null); // currently we don't support autosize one dim only - so // explicitly set the other one. Note that doextra will // ignore this if the same relayout call also provides oppositeAttr var oppositeAttr = ai === 'height' ? 'width' : 'height'; doextra(oppositeAttr, fullLayout[oppositeAttr]); } else { fullLayout[ai] = gd._initialAutoSize[ai]; } } else if(ai === 'autosize') { // depends on vi here too, so again can't use impliedEdits doextra('width', vi ? null : fullLayout.width); doextra('height', vi ? null : fullLayout.height); } else if(pleafPlus.match(AX_RANGE_RE)) { // check autorange vs range recordAlteredAxis(pleafPlus); nestedProperty(fullLayout, ptrunk + '._inputRange').set(null); } else if(pleafPlus.match(AX_AUTORANGE_RE)) { recordAlteredAxis(pleafPlus); nestedProperty(fullLayout, ptrunk + '._inputRange').set(null); var axFull = nestedProperty(fullLayout, ptrunk).get(); if(axFull._inputDomain) { // if we're autoranging and this axis has a constrained domain, // reset it so we don't get locked into a shrunken size axFull._input.domain = axFull._inputDomain.slice(); } } else if(pleafPlus.match(AX_DOMAIN_RE)) { nestedProperty(fullLayout, ptrunk + '._inputDomain').set(null); } // toggling axis type between log and linear: we need to convert // positions for components that are still using linearized values, // not data values like newer components. // previously we did this for log <-> not-log, but now only do it // for log <-> linear if(pleaf === 'type') { ax = parentIn; var toLog = parentFull.type === 'linear' && vi === 'log'; var fromLog = parentFull.type === 'log' && vi === 'linear'; if(toLog || fromLog) { if(!ax || !ax.range) { // 2D never gets here, but 3D does // I don't think this is needed, but left here in case there // are edge cases I'm not thinking of. doextra(ptrunk + '.autorange', true); } else if(!parentFull.autorange) { // toggling log without autorange: need to also recalculate ranges // because log axes use linearized values for range endpoints var r0 = ax.range[0]; var r1 = ax.range[1]; if(toLog) { // if both limits are negative, autorange if(r0 <= 0 && r1 <= 0) { doextra(ptrunk + '.autorange', true); } // if one is negative, set it 6 orders below the other. if(r0 <= 0) r0 = r1 / 1e6; else if(r1 <= 0) r1 = r0 / 1e6; // now set the range values as appropriate doextra(ptrunk + '.range[0]', Math.log(r0) / Math.LN10); doextra(ptrunk + '.range[1]', Math.log(r1) / Math.LN10); } else { doextra(ptrunk + '.range[0]', Math.pow(10, r0)); doextra(ptrunk + '.range[1]', Math.pow(10, r1)); } } else if(toLog) { // just make sure the range is positive and in the right // order, it'll get recalculated later ax.range = (ax.range[1] > ax.range[0]) ? [1, 2] : [2, 1]; } // clear polar view initial stash for radial range so that // value get recomputed in correct units if(Array.isArray(fullLayout._subplots.polar) && fullLayout._subplots.polar.length && fullLayout[p.parts[0]] && p.parts[1] === 'radialaxis' ) { delete fullLayout[p.parts[0]]._subplot.viewInitial['radialaxis.range']; } // Annotations and images also need to convert to/from linearized coords // Shapes do not need this :) Registry.getComponentMethod('annotations', 'convertCoords')(gd, parentFull, vi, doextra); Registry.getComponentMethod('images', 'convertCoords')(gd, parentFull, vi, doextra); } else { // any other type changes: the range from the previous type // will not make sense, so autorange it. doextra(ptrunk + '.autorange', true); doextra(ptrunk + '.range', null); } nestedProperty(fullLayout, ptrunk + '._inputRange').set(null); } else if(pleaf.match(AX_NAME_PATTERN)) { var fullProp = nestedProperty(fullLayout, ai).get(); var newType = (vi || {}).type; // This can potentially cause strange behavior if the autotype is not // numeric (linear, because we don't auto-log) but the previous type // was log. That's a very strange edge case though if(!newType || newType === '-') newType = 'linear'; Registry.getComponentMethod('annotations', 'convertCoords')(gd, fullProp, newType, doextra); Registry.getComponentMethod('images', 'convertCoords')(gd, fullProp, newType, doextra); } // alter gd.layout // collect array component edits for execution all together // so we can ensure consistent behavior adding/removing items // and order-independence for add/remove/edit all together in // one relayout call var containerArrayMatch = manageArrays.containerArrayMatch(ai); if(containerArrayMatch) { arrayStr = containerArrayMatch.array; i = containerArrayMatch.index; var propStr = containerArrayMatch.property; var updateValObject = valObject || {editType: 'calc'}; if(i !== '' && propStr === '') { // special handling of undoit if we're adding or removing an element // ie 'annotations[2]' which can be {...} (add) or null, // does not work when replacing the entire array if(manageArrays.isAddVal(vi)) { undoit[ai] = null; } else if(manageArrays.isRemoveVal(vi)) { undoit[ai] = (nestedProperty(layout, arrayStr).get() || [])[i]; } else { Lib.warn('unrecognized full object value', aobj); } } editTypes.update(flags, updateValObject); // prepare the edits object we'll send to applyContainerArrayChanges if(!arrayEdits[arrayStr]) arrayEdits[arrayStr] = {}; var objEdits = arrayEdits[arrayStr][i]; if(!objEdits) objEdits = arrayEdits[arrayStr][i] = {}; objEdits[propStr] = vi; delete aobj[ai]; } else if(pleaf === 'reverse') { // handle axis reversal explicitly, as there's no 'reverse' attribute if(parentIn.range) parentIn.range.reverse(); else { doextra(ptrunk + '.autorange', true); parentIn.range = [1, 0]; } if(parentFull.autorange) flags.calc = true; else flags.plot = true; } else { if(ai === 'dragmode' && ((vi === false && vOld !== false) || (vi !== false && vOld === false))) { flags.plot = true; } else if((fullLayout._has('scatter-like') && fullLayout._has('regl')) && (ai === 'dragmode' && (vi === 'lasso' || vi === 'select') && !(vOld === 'lasso' || vOld === 'select')) ) { flags.plot = true; } else if(fullLayout._has('gl2d')) { flags.plot = true; } else if(valObject) editTypes.update(flags, valObject); else flags.calc = true; p.set(vi); } } // now we've collected component edits - execute them all together for(arrayStr in arrayEdits) { var finished = manageArrays.applyContainerArrayChanges(gd, layoutNP(layout, arrayStr), arrayEdits[arrayStr], flags, layoutNP); if(!finished) flags.plot = true; } // figure out if we need to recalculate axis constraints for(var axId in rangesAltered) { ax = Axes.getFromId(gd, axId); var group = ax && ax._constraintGroup; if(group) { // Always recalc if we're changing constrained ranges. // Otherwise it's possible to violate the constraints by // specifying arbitrary ranges for all axes in the group. // this way some ranges may expand beyond what's specified, // as they do at first draw, to satisfy the constraints. flags.calc = true; for(var groupAxId in group) { if(!rangesAltered[groupAxId]) { Axes.getFromId(gd, groupAxId)._constraintShrinkable = true; } } } } // If the autosize changed or height or width was explicitly specified, // this triggers a redraw // TODO: do we really need special aobj.height/width handling here? // couldn't editType do this? if(updateAutosize(gd) || aobj.height || aobj.width) flags.plot = true; if(flags.plot || flags.calc) { flags.layoutReplot = true; } // now all attribute mods are done, as are // redo and undo so we can save them return { flags: flags, rangesAltered: rangesAltered, undoit: undoit, redoit: redoit, eventData: eventData }; } /* * updateAutosize: we made a change, does it change the autosize result? * puts the new size into fullLayout * returns true if either height or width changed */ function updateAutosize(gd) { var fullLayout = gd._fullLayout; var oldWidth = fullLayout.width; var oldHeight = fullLayout.height; // calculate autosizing if(gd.layout.autosize) Plots.plotAutoSize(gd, gd.layout, fullLayout); return (fullLayout.width !== oldWidth) || (fullLayout.height !== oldHeight); } /** * update: update trace and layout attributes of an existing plot * * @param {String | HTMLDivElement} gd * the id or DOM element of the graph container div * @param {Object} traceUpdate * attribute object `{astr1: val1, astr2: val2 ...}` * corresponding to updates in the plot's traces * @param {Object} layoutUpdate * attribute object `{astr1: val1, astr2: val2 ...}` * corresponding to updates in the plot's layout * @param {Number[] | Number} [traces] * integer or array of integers for the traces to alter (all if omitted) * */ function update(gd, traceUpdate, layoutUpdate, _traces) { gd = Lib.getGraphDiv(gd); helpers.clearPromiseQueue(gd); if(!Lib.isPlainObject(traceUpdate)) traceUpdate = {}; if(!Lib.isPlainObject(layoutUpdate)) layoutUpdate = {}; if(Object.keys(traceUpdate).length) gd.changed = true; if(Object.keys(layoutUpdate).length) gd.changed = true; var traces = helpers.coerceTraceIndices(gd, _traces); var restyleSpecs = _restyle(gd, Lib.extendFlat({}, traceUpdate), traces); var restyleFlags = restyleSpecs.flags; var relayoutSpecs = _relayout(gd, Lib.extendFlat({}, layoutUpdate)); var relayoutFlags = relayoutSpecs.flags; // clear calcdata and/or axis types if required if(restyleFlags.calc || relayoutFlags.calc) gd.calcdata = undefined; if(restyleFlags.clearAxisTypes) helpers.clearAxisTypes(gd, traces, layoutUpdate); // fill in redraw sequence var seq = []; if(relayoutFlags.layoutReplot) { // N.B. works fine when both // relayoutFlags.layoutReplot and restyleFlags.fullReplot are true seq.push(subroutines.layoutReplot); } else if(restyleFlags.fullReplot) { seq.push(exports._doPlot); } else { seq.push(Plots.previousPromises); axRangeSupplyDefaultsByPass(gd, relayoutFlags, relayoutSpecs) || Plots.supplyDefaults(gd); if(restyleFlags.style) seq.push(subroutines.doTraceStyle); if(restyleFlags.colorbars || relayoutFlags.colorbars) seq.push(subroutines.doColorBars); if(relayoutFlags.legend) seq.push(subroutines.doLegend); if(relayoutFlags.layoutstyle) seq.push(subroutines.layoutStyles); if(relayoutFlags.axrange) addAxRangeSequence(seq, relayoutSpecs.rangesAltered); if(relayoutFlags.ticks) seq.push(subroutines.doTicksRelayout); if(relayoutFlags.modebar) seq.push(subroutines.doModeBar); if(relayoutFlags.camera) seq.push(subroutines.doCamera); seq.push(emitAfterPlot); } seq.push(Plots.rehover, Plots.redrag); Queue.add(gd, update, [gd, restyleSpecs.undoit, relayoutSpecs.undoit, restyleSpecs.traces], update, [gd, restyleSpecs.redoit, relayoutSpecs.redoit, restyleSpecs.traces] ); var plotDone = Lib.syncOrAsync(seq, gd); if(!plotDone || !plotDone.then) plotDone = Promise.resolve(gd); return plotDone.then(function() { gd.emit('plotly_update', { data: restyleSpecs.eventData, layout: relayoutSpecs.eventData }); return gd; }); } /* * internal-use-only restyle/relayout/update variants that record the initial * values in (fullLayout|fullTrace)._preGUI so changes can be persisted across * Plotly.react data updates, dependent on uirevision attributes */ function guiEdit(func) { return function wrappedEdit(gd) { gd._fullLayout._guiEditing = true; var p = func.apply(null, arguments); gd._fullLayout._guiEditing = false; return p; }; } // For connecting edited layout attributes to uirevision attrs // If no `attr` we use `match[1] + '.uirevision'` // Ordered by most common edits first, to minimize our search time var layoutUIControlPatterns = [ {pattern: /^hiddenlabels/, attr: 'legend.uirevision'}, {pattern: /^((x|y)axis\d*)\.((auto)?range|title\.text)/}, // showspikes and modes include those nested inside scenes {pattern: /axis\d*\.showspikes$/, attr: 'modebar.uirevision'}, {pattern: /(hover|drag)mode$/, attr: 'modebar.uirevision'}, {pattern: /^(scene\d*)\.camera/}, {pattern: /^(geo\d*)\.(projection|center|fitbounds)/}, {pattern: /^(ternary\d*\.[abc]axis)\.(min|title\.text)$/}, {pattern: /^(polar\d*\.radialaxis)\.((auto)?range|angle|title\.text)/}, {pattern: /^(polar\d*\.angularaxis)\.rotation/}, {pattern: /^(mapbox\d*)\.(center|zoom|bearing|pitch)/}, {pattern: /^legend\.(x|y)$/, attr: 'editrevision'}, {pattern: /^(shapes|annotations)/, attr: 'editrevision'}, {pattern: /^title\.text$/, attr: 'editrevision'} ]; // same for trace attributes: if `attr` is given it's in layout, // or with no `attr` we use `trace.uirevision` var traceUIControlPatterns = [ {pattern: /^selectedpoints$/, attr: 'selectionrevision'}, // "visible" includes trace.transforms[i].styles[j].value.visible {pattern: /(^|value\.)visible$/, attr: 'legend.uirevision'}, {pattern: /^dimensions\[\d+\]\.constraintrange/}, {pattern: /^node\.(x|y|groups)/}, // for Sankey nodes {pattern: /^level$/}, // for Sunburst, Treemap and Icicle traces // below this you must be in editable: true mode // TODO: I still put name and title with `trace.uirevision` // reasonable or should these be `editrevision`? // Also applies to axis titles up in the layout section // "name" also includes transform.styles {pattern: /(^|value\.)name$/}, // including nested colorbar attributes (ie marker.colorbar) {pattern: /colorbar\.title\.text$/}, {pattern: /colorbar\.(x|y)$/, attr: 'editrevision'} ]; function findUIPattern(key, patternSpecs) { for(var i = 0; i < patternSpecs.length; i++) { var spec = patternSpecs[i]; var match = key.match(spec.pattern); if(match) { var head = match[1] || ''; return {head: head, tail: key.substr(head.length + 1), attr: spec.attr}; } } } // We're finding the new uirevision before supplyDefaults, so do the // inheritance manually. Note that only `undefined` inherits - other // falsy values are returned. function getNewRev(revAttr, container) { var newRev = nestedProperty(container, revAttr).get(); if(newRev !== undefined) return newRev; var parts = revAttr.split('.'); parts.pop(); while(parts.length > 1) { parts.pop(); newRev = nestedProperty(container, parts.join('.') + '.uirevision').get(); if(newRev !== undefined) return newRev; } return container.uirevision; } function getFullTraceIndexFromUid(uid, fullData) { for(var i = 0; i < fullData.length; i++) { if(fullData[i]._fullInput.uid === uid) return i; } return -1; } function getTraceIndexFromUid(uid, data, tracei) { for(var i = 0; i < data.length; i++) { if(data[i].uid === uid) return i; } // fall back on trace order, but only if user didn't provide a uid for that trace return (!data[tracei] || data[tracei].uid) ? -1 : tracei; } function valsMatch(v1, v2) { var v1IsObj = Lib.isPlainObject(v1); var v1IsArray = Array.isArray(v1); if(v1IsObj || v1IsArray) { return ( (v1IsObj && Lib.isPlainObject(v2)) || (v1IsArray && Array.isArray(v2)) ) && JSON.stringify(v1) === JSON.stringify(v2); } return v1 === v2; } function applyUIRevisions(data, layout, oldFullData, oldFullLayout) { var layoutPreGUI = oldFullLayout._preGUI; var key, revAttr, oldRev, newRev, match, preGUIVal, newNP, newVal, head, tail; var bothInheritAutorange = []; var newAutorangeIn = {}; var newRangeAccepted = {}; for(key in layoutPreGUI) { match = findUIPattern(key, layoutUIControlPatterns); if(match) { head = match.head; tail = match.tail; revAttr = match.attr || (head + '.uirevision'); oldRev = nestedProperty(oldFullLayout, revAttr).get(); newRev = oldRev && getNewRev(revAttr, layout); if(newRev && (newRev === oldRev)) { preGUIVal = layoutPreGUI[key]; if(preGUIVal === null) preGUIVal = undefined; newNP = nestedProperty(layout, key); newVal = newNP.get(); if(valsMatch(newVal, preGUIVal)) { if(newVal === undefined && tail === 'autorange') { bothInheritAutorange.push(head); } newNP.set(undefinedToNull(nestedProperty(oldFullLayout, key).get())); continue; } else if(tail === 'autorange' || tail.substr(0, 6) === 'range[') { // Special case for (auto)range since we push it back into the layout // so all null should be treated equivalently to autorange: true with any range var pre0 = layoutPreGUI[head + '.range[0]']; var pre1 = layoutPreGUI[head + '.range[1]']; var preAuto = layoutPreGUI[head + '.autorange']; if(preAuto || (preAuto === null && pre0 === null && pre1 === null)) { // Only read the input layout once and stash the result, // so we get it before we start modifying it if(!(head in newAutorangeIn)) { var newContainer = nestedProperty(layout, head).get(); newAutorangeIn[head] = newContainer && ( newContainer.autorange || (newContainer.autorange !== false && ( !newContainer.range || newContainer.range.length !== 2) ) ); } if(newAutorangeIn[head]) { newNP.set(undefinedToNull(nestedProperty(oldFullLayout, key).get())); continue; } } } } } else { Lib.warn('unrecognized GUI edit: ' + key); } // if we got this far, the new value was accepted as the new starting // point (either because it changed or revision changed) // so remove it from _preGUI for next time. delete layoutPreGUI[key]; if(match && match.tail.substr(0, 6) === 'range[') { newRangeAccepted[match.head] = 1; } } // More special logic for `autorange`, since it interacts with `range`: // If the new figure's matching `range` was kept, and `autorange` // wasn't supplied explicitly in either the original or the new figure, // we shouldn't alter that - but we may just have done that, so fix it. for(var i = 0; i < bothInheritAutorange.length; i++) { var axAttr = bothInheritAutorange[i]; if(newRangeAccepted[axAttr]) { var newAx = nestedProperty(layout, axAttr).get(); if(newAx) delete newAx.autorange; } } // Now traces - try to match them up by uid (in case we added/deleted in // the middle), then fall back on index. var allTracePreGUI = oldFullLayout._tracePreGUI; for(var uid in allTracePreGUI) { var tracePreGUI = allTracePreGUI[uid]; var newTrace = null; var fullInput; for(key in tracePreGUI) { // wait until we know we have preGUI values to look for traces // but if we don't find both, stop looking at this uid if(!newTrace) { var fulli = getFullTraceIndexFromUid(uid, oldFullData); if(fulli < 0) { // Somehow we didn't even have this trace in oldFullData... // I guess this could happen with `deleteTraces` or something delete allTracePreGUI[uid]; break; } var fullTrace = oldFullData[fulli]; fullInput = fullTrace._fullInput; var newTracei = getTraceIndexFromUid(uid, data, fullInput.index); if(newTracei < 0) { // No match in new data delete allTracePreGUI[uid]; break; } newTrace = data[newTracei]; } match = findUIPattern(key, traceUIControlPatterns); if(match) { if(match.attr) { oldRev = nestedProperty(oldFullLayout, match.attr).get(); newRev = oldRev && getNewRev(match.attr, layout); } else { oldRev = fullInput.uirevision; // inheritance for trace.uirevision is simple, just layout.uirevision newRev = newTrace.uirevision; if(newRev === undefined) newRev = layout.uirevision; } if(newRev && newRev === oldRev) { preGUIVal = tracePreGUI[key]; if(preGUIVal === null) preGUIVal = undefined; newNP = nestedProperty(newTrace, key); newVal = newNP.get(); if(valsMatch(newVal, preGUIVal)) { newNP.set(undefinedToNull(nestedProperty(fullInput, key).get())); continue; } } } else { Lib.warn('unrecognized GUI edit: ' + key + ' in trace uid ' + uid); } delete tracePreGUI[key]; } } } /** * Plotly.react: * A plot/update method that takes the full plot state (same API as plot/newPlot) * and diffs to determine the minimal update pathway * * @param {string id or DOM element} gd * the id or DOM element of the graph container div * @param {array of objects} data * array of traces, containing the data and display information for each trace * @param {object} layout * object describing the overall display of the plot, * all the stuff that doesn't pertain to any individual trace * @param {object} config * configuration options (see ./plot_config.js for more info) * * OR * * @param {string id or DOM element} gd * the id or DOM element of the graph container div * @param {object} figure * object containing `data`, `layout`, `config`, and `frames` members * */ function react(gd, data, layout, config) { var frames, plotDone; function addFrames() { return exports.addFrames(gd, frames); } gd = Lib.getGraphDiv(gd); helpers.clearPromiseQueue(gd); var oldFullData = gd._fullData; var oldFullLayout = gd._fullLayout; // you can use this as the initial draw as well as to update if(!Lib.isPlotDiv(gd) || !oldFullData || !oldFullLayout) { plotDone = exports.newPlot(gd, data, layout, config); } else { if(Lib.isPlainObject(data)) { var obj = data; data = obj.data; layout = obj.layout; config = obj.config; frames = obj.frames; } var configChanged = false; // assume that if there's a config at all, we're reacting to it too, // and completely replace the previous config if(config) { var oldConfig = Lib.extendDeep({}, gd._context); gd._context = undefined; setPlotContext(gd, config); configChanged = diffConfig(oldConfig, gd._context); } gd.data = data || []; helpers.cleanData(gd.data); gd.layout = layout || {}; helpers.cleanLayout(gd.layout); applyUIRevisions(gd.data, gd.layout, oldFullData, oldFullLayout); // "true" skips updating calcdata and remapping arrays from calcTransforms, // which supplyDefaults usually does at the end, but we may need to NOT do // if the diff (which we haven't determined yet) says we'll recalc Plots.supplyDefaults(gd, {skipUpdateCalc: true}); var newFullData = gd._fullData; var newFullLayout = gd._fullLayout; var immutable = newFullLayout.datarevision === undefined; var transition = newFullLayout.transition; var relayoutFlags = diffLayout(gd, oldFullLayout, newFullLayout, immutable, transition); var newDataRevision = relayoutFlags.newDataRevision; var restyleFlags = diffData(gd, oldFullData, newFullData, immutable, transition, newDataRevision); // TODO: how to translate this part of relayout to Plotly.react? // // Setting width or height to null must reset the graph's width / height // // back to its initial value as computed during the first pass in Plots.plotAutoSize. // // // // To do so, we must manually set them back here using the _initialAutoSize cache. // if(['width', 'height'].indexOf(ai) !== -1 && vi === null) { // fullLayout[ai] = gd._initialAutoSize[ai]; // } if(updateAutosize(gd)) relayoutFlags.layoutReplot = true; // clear calcdata and empty categories if required if(restyleFlags.calc || relayoutFlags.calc) { gd.calcdata = undefined; var allNames = Object.getOwnPropertyNames(newFullLayout); for(var q = 0; q < allNames.length; q++) { var name = allNames[q]; var start = name.substring(0, 5); if(start === 'xaxis' || start === 'yaxis') { var emptyCategories = newFullLayout[name]._emptyCategories; if(emptyCategories) emptyCategories(); } } // otherwise do the calcdata updates and calcTransform array remaps that we skipped earlier } else { Plots.supplyDefaultsUpdateCalc(gd.calcdata, newFullData); } // Note: what restyle/relayout use impliedEdits and clearAxisTypes for // must be handled by the user when using Plotly.react. // fill in redraw sequence var seq = []; if(frames) { gd._transitionData = {}; Plots.createTransitionData(gd); seq.push(addFrames); } // Transition pathway, // only used when 'transition' is set by user and // when at least one animatable attribute has changed, // N.B. config changed aren't animatable if(newFullLayout.transition && !configChanged && (restyleFlags.anim || relayoutFlags.anim)) { if(relayoutFlags.ticks) seq.push(subroutines.doTicksRelayout); Plots.doCalcdata(gd); subroutines.doAutoRangeAndConstraints(gd); seq.push(function() { return Plots.transitionFromReact(gd, restyleFlags, relayoutFlags, oldFullLayout); }); } else if(restyleFlags.fullReplot || relayoutFlags.layoutReplot || configChanged) { gd._fullLayout._skipDefaults = true; seq.push(exports._doPlot); } else { for(var componentType in relayoutFlags.arrays) { var indices = relayoutFlags.arrays[componentType]; if(indices.length) { var drawOne = Registry.getComponentMethod(componentType, 'drawOne'); if(drawOne !== Lib.noop) { for(var i = 0; i < indices.length; i++) { drawOne(gd, indices[i]); } } else { var draw = Registry.getComponentMethod(componentType, 'draw'); if(draw === Lib.noop) { throw new Error('cannot draw components: ' + componentType); } draw(gd); } } } seq.push(Plots.previousPromises); if(restyleFlags.style) seq.push(subroutines.doTraceStyle); if(restyleFlags.colorbars || relayoutFlags.colorbars) seq.push(subroutines.doColorBars); if(relayoutFlags.legend) seq.push(subroutines.doLegend); if(relayoutFlags.layoutstyle) seq.push(subroutines.layoutStyles); if(relayoutFlags.axrange) addAxRangeSequence(seq); if(relayoutFlags.ticks) seq.push(subroutines.doTicksRelayout); if(relayoutFlags.modebar) seq.push(subroutines.doModeBar); if(relayoutFlags.camera) seq.push(subroutines.doCamera); seq.push(emitAfterPlot); } seq.push(Plots.rehover, Plots.redrag); plotDone = Lib.syncOrAsync(seq, gd); if(!plotDone || !plotDone.then) plotDone = Promise.resolve(gd); } return plotDone.then(function() { gd.emit('plotly_react', { data: data, layout: layout }); return gd; }); } function diffData(gd, oldFullData, newFullData, immutable, transition, newDataRevision) { var sameTraceLength = oldFullData.length === newFullData.length; if(!transition && !sameTraceLength) { return { fullReplot: true, calc: true }; } var flags = editTypes.traceFlags(); flags.arrays = {}; flags.nChanges = 0; flags.nChangesAnim = 0; var i, trace; function getTraceValObject(parts) { var out = PlotSchema.getTraceValObject(trace, parts); if(!trace._module.animatable && out.anim) { out.anim = false; } return out; } var diffOpts = { getValObject: getTraceValObject, flags: flags, immutable: immutable, transition: transition, newDataRevision: newDataRevision, gd: gd }; var seenUIDs = {}; for(i = 0; i < oldFullData.length; i++) { if(newFullData[i]) { trace = newFullData[i]._fullInput; if(Plots.hasMakesDataTransform(trace)) trace = newFullData[i]; if(seenUIDs[trace.uid]) continue; seenUIDs[trace.uid] = 1; getDiffFlags(oldFullData[i]._fullInput, trace, [], diffOpts); } } if(flags.calc || flags.plot) { flags.fullReplot = true; } if(transition && flags.nChanges && flags.nChangesAnim) { flags.anim = (flags.nChanges === flags.nChangesAnim) && sameTraceLength ? 'all' : 'some'; } return flags; } function diffLayout(gd, oldFullLayout, newFullLayout, immutable, transition) { var flags = editTypes.layoutFlags(); flags.arrays = {}; flags.rangesAltered = {}; flags.nChanges = 0; flags.nChangesAnim = 0; function getLayoutValObject(parts) { return PlotSchema.getLayoutValObject(newFullLayout, parts); } var diffOpts = { getValObject: getLayoutValObject, flags: flags, immutable: immutable, transition: transition, gd: gd }; getDiffFlags(oldFullLayout, newFullLayout, [], diffOpts); if(flags.plot || flags.calc) { flags.layoutReplot = true; } if(transition && flags.nChanges && flags.nChangesAnim) { flags.anim = flags.nChanges === flags.nChangesAnim ? 'all' : 'some'; } return flags; } function getDiffFlags(oldContainer, newContainer, outerparts, opts) { var valObject, key, astr; var getValObject = opts.getValObject; var flags = opts.flags; var immutable = opts.immutable; var inArray = opts.inArray; var arrayIndex = opts.arrayIndex; function changed() { var editType = valObject.editType; if(inArray && editType.indexOf('arraydraw') !== -1) { Lib.pushUnique(flags.arrays[inArray], arrayIndex); return; } editTypes.update(flags, valObject); if(editType !== 'none') { flags.nChanges++; } // track animatable changes if(opts.transition && valObject.anim) { flags.nChangesAnim++; } // track cartesian axes with altered ranges if(AX_RANGE_RE.test(astr) || AX_AUTORANGE_RE.test(astr)) { flags.rangesAltered[outerparts[0]] = 1; } // clear _inputDomain on cartesian axes with altered domains if(AX_DOMAIN_RE.test(astr)) { nestedProperty(newContainer, '_inputDomain').set(null); } // track datarevision changes if(key === 'datarevision') { flags.newDataRevision = 1; } } function valObjectCanBeDataArray(valObject) { return valObject.valType === 'data_array' || valObject.arrayOk; } for(key in oldContainer) { // short-circuit based on previous calls or previous keys that already maximized the pathway if(flags.calc && !opts.transition) return; var oldVal = oldContainer[key]; var newVal = newContainer[key]; var parts = outerparts.concat(key); astr = parts.join('.'); if(key.charAt(0) === '_' || typeof oldVal === 'function' || oldVal === newVal) continue; // FIXME: ax.tick0 and dtick get filled in during plotting (except for geo subplots), // and unlike other auto values they don't make it back into the input, // so newContainer won't have them. if((key === 'tick0' || key === 'dtick') && outerparts[0] !== 'geo') { var tickMode = newContainer.tickmode; if(tickMode === 'auto' || tickMode === 'array' || !tickMode) continue; } // FIXME: Similarly for axis ranges for 3D // contourcarpet doesn't HAVE zmin/zmax, they're just auto-added. It needs them. if(key === 'range' && newContainer.autorange) continue; if((key === 'zmin' || key === 'zmax') && newContainer.type === 'contourcarpet') continue; valObject = getValObject(parts); // in case type changed, we may not even *have* a valObject. if(!valObject) continue; if(valObject._compareAsJSON && JSON.stringify(oldVal) === JSON.stringify(newVal)) continue; var valType = valObject.valType; var i; var canBeDataArray = valObjectCanBeDataArray(valObject); var wasArray = Array.isArray(oldVal); var nowArray = Array.isArray(newVal); // hack for traces that modify the data in supplyDefaults, like // converting 1D to 2D arrays, which will always create new objects if(wasArray && nowArray) { var inputKey = '_input_' + key; var oldValIn = oldContainer[inputKey]; var newValIn = newContainer[inputKey]; if(Array.isArray(oldValIn) && oldValIn === newValIn) continue; } if(newVal === undefined) { if(canBeDataArray && wasArray) flags.calc = true; else changed(); } else if(valObject._isLinkedToArray) { var arrayEditIndices = []; var extraIndices = false; if(!inArray) flags.arrays[key] = arrayEditIndices; var minLen = Math.min(oldVal.length, newVal.length); var maxLen = Math.max(oldVal.length, newVal.length); if(minLen !== maxLen) { if(valObject.editType === 'arraydraw') { extraIndices = true; } else { changed(); continue; } } for(i = 0; i < minLen; i++) { getDiffFlags(oldVal[i], newVal[i], parts.concat(i), // add array indices, but not if we're already in an array Lib.extendFlat({inArray: key, arrayIndex: i}, opts)); } // put this at the end so that we know our collected array indices are sorted // but the check for length changes happens up front so we can short-circuit // diffing if appropriate if(extraIndices) { for(i = minLen; i < maxLen; i++) { arrayEditIndices.push(i); } } } else if(!valType && Lib.isPlainObject(oldVal)) { getDiffFlags(oldVal, newVal, parts, opts); } else if(canBeDataArray) { if(wasArray && nowArray) { // don't try to diff two data arrays. If immutable we know the data changed, // if not, assume it didn't and let `layout.datarevision` tell us if it did if(immutable) { flags.calc = true; } // look for animatable attributes when the data changed if(immutable || opts.newDataRevision) { changed(); } } else if(wasArray !== nowArray) { flags.calc = true; } else changed(); } else if(wasArray && nowArray) { // info array, colorscale, 'any' - these are short, just stringify. // I don't *think* that covers up any real differences post-validation, does it? // otherwise we need to dive in 1 (info_array) or 2 (colorscale) levels and compare // all elements. if(oldVal.length !== newVal.length || String(oldVal) !== String(newVal)) { changed(); } } else { changed(); } } for(key in newContainer) { if(!(key in oldContainer || key.charAt(0) === '_' || typeof newContainer[key] === 'function')) { valObject = getValObject(outerparts.concat(key)); if(valObjectCanBeDataArray(valObject) && Array.isArray(newContainer[key])) { flags.calc = true; return; } else changed(); } } } /* * simple diff for config - for now, just treat all changes as equivalent */ function diffConfig(oldConfig, newConfig) { var key; for(key in oldConfig) { if(key.charAt(0) === '_') continue; var oldVal = oldConfig[key]; var newVal = newConfig[key]; if(oldVal !== newVal) { if(Lib.isPlainObject(oldVal) && Lib.isPlainObject(newVal)) { if(diffConfig(oldVal, newVal)) { return true; } } else if(Array.isArray(oldVal) && Array.isArray(newVal)) { if(oldVal.length !== newVal.length) { return true; } for(var i = 0; i < oldVal.length; i++) { if(oldVal[i] !== newVal[i]) { if(Lib.isPlainObject(oldVal[i]) && Lib.isPlainObject(newVal[i])) { if(diffConfig(oldVal[i], newVal[i])) { return true; } } else { return true; } } } } else { return true; } } } } /** * Animate to a frame, sequence of frame, frame group, or frame definition * * @param {string id or DOM element} gd * the id or DOM element of the graph container div * * @param {string or object or array of strings or array of objects} frameOrGroupNameOrFrameList * a single frame, array of frames, or group to which to animate. The intent is * inferred by the type of the input. Valid inputs are: * * - string, e.g. 'groupname': animate all frames of a given `group` in the order * in which they are defined via `Plotly.addFrames`. * * - array of strings, e.g. ['frame1', frame2']: a list of frames by name to which * to animate in sequence * * - object: {data: ...}: a frame definition to which to animate. The frame is not * and does not need to be added via `Plotly.addFrames`. It may contain any of * the properties of a frame, including `data`, `layout`, and `traces`. The * frame is used as provided and does not use the `baseframe` property. * * - array of objects, e.g. [{data: ...}, {data: ...}]: a list of frame objects, * each following the same rules as a single `object`. * * @param {object} animationOpts * configuration for the animation */ function animate(gd, frameOrGroupNameOrFrameList, animationOpts) { gd = Lib.getGraphDiv(gd); if(!Lib.isPlotDiv(gd)) { throw new Error( 'This element is not a Plotly plot: ' + gd + '. It\'s likely that you\'ve failed ' + 'to create a plot before animating it. For more details, see ' + 'https://plotly.com/javascript/animations/' ); } var trans = gd._transitionData; // This is the queue of frames that will be animated as soon as possible. They // are popped immediately upon the *start* of a transition: if(!trans._frameQueue) { trans._frameQueue = []; } animationOpts = Plots.supplyAnimationDefaults(animationOpts); var transitionOpts = animationOpts.transition; var frameOpts = animationOpts.frame; // Since frames are popped immediately, an empty queue only means all frames have // *started* to transition, not that the animation is complete. To solve that, // track a separate counter that increments at the same time as frames are added // to the queue, but decrements only when the transition is complete. if(trans._frameWaitingCnt === undefined) { trans._frameWaitingCnt = 0; } function getTransitionOpts(i) { if(Array.isArray(transitionOpts)) { if(i >= transitionOpts.length) { return transitionOpts[0]; } else { return transitionOpts[i]; } } else { return transitionOpts; } } function getFrameOpts(i) { if(Array.isArray(frameOpts)) { if(i >= frameOpts.length) { return frameOpts[0]; } else { return frameOpts[i]; } } else { return frameOpts; } } // Execute a callback after the wrapper function has been called n times. // This is used to defer the resolution until a transition has resolved *and* // the frame has completed. If it's not done this way, then we get a race // condition in which the animation might resolve before a transition is complete // or vice versa. function callbackOnNthTime(cb, n) { var cnt = 0; return function() { if(cb && ++cnt === n) { return cb(); } }; } return new Promise(function(resolve, reject) { function discardExistingFrames() { if(trans._frameQueue.length === 0) { return; } while(trans._frameQueue.length) { var next = trans._frameQueue.pop(); if(next.onInterrupt) { next.onInterrupt(); } } gd.emit('plotly_animationinterrupted', []); } function queueFrames(frameList) { if(frameList.length === 0) return; for(var i = 0; i < frameList.length; i++) { var computedFrame; if(frameList[i].type === 'byname') { // If it's a named frame, compute it: computedFrame = Plots.computeFrame(gd, frameList[i].name); } else { // Otherwise we must have been given a simple object, so treat // the input itself as the computed frame. computedFrame = frameList[i].data; } var frameOpts = getFrameOpts(i); var transitionOpts = getTransitionOpts(i); // It doesn't make much sense for the transition duration to be greater than // the frame duration, so limit it: transitionOpts.duration = Math.min(transitionOpts.duration, frameOpts.duration); var nextFrame = { frame: computedFrame, name: frameList[i].name, frameOpts: frameOpts, transitionOpts: transitionOpts, }; if(i === frameList.length - 1) { // The last frame in this .animate call stores the promise resolve // and reject callbacks. This is how we ensure that the animation // loop (which may exist as a result of a *different* .animate call) // still resolves or rejecdts this .animate call's promise. once it's // complete. nextFrame.onComplete = callbackOnNthTime(resolve, 2); nextFrame.onInterrupt = reject; } trans._frameQueue.push(nextFrame); } // Set it as never having transitioned to a frame. This will cause the animation // loop to immediately transition to the next frame (which, for immediate mode, // is the first frame in the list since all others would have been discarded // below) if(animationOpts.mode === 'immediate') { trans._lastFrameAt = -Infinity; } // Only it's not already running, start a RAF loop. This could be avoided in the // case that there's only one frame, but it significantly complicated the logic // and only sped things up by about 5% or so for a lorenz attractor simulation. // It would be a fine thing to implement, but the benefit of that optimization // doesn't seem worth the extra complexity. if(!trans._animationRaf) { beginAnimationLoop(); } } function stopAnimationLoop() { gd.emit('plotly_animated'); // Be sure to unset also since it's how we know whether a loop is already running: window.cancelAnimationFrame(trans._animationRaf); trans._animationRaf = null; } function nextFrame() { if(trans._currentFrame && trans._currentFrame.onComplete) { // Execute the callback and unset it to ensure it doesn't // accidentally get called twice trans._currentFrame.onComplete(); } var newFrame = trans._currentFrame = trans._frameQueue.shift(); if(newFrame) { // Since it's sometimes necessary to do deep digging into frame data, // we'll consider it not 100% impossible for nulls or numbers to sneak through, // so check when casting the name, just to be absolutely certain: var stringName = newFrame.name ? newFrame.name.toString() : null; gd._fullLayout._currentFrame = stringName; trans._lastFrameAt = Date.now(); trans._timeToNext = newFrame.frameOpts.duration; // This is simply called and it's left to .transition to decide how to manage // interrupting current transitions. That means we don't need to worry about // how it resolves or what happens after this: Plots.transition(gd, newFrame.frame.data, newFrame.frame.layout, helpers.coerceTraceIndices(gd, newFrame.frame.traces), newFrame.frameOpts, newFrame.transitionOpts ).then(function() { if(newFrame.onComplete) { newFrame.onComplete(); } }); gd.emit('plotly_animatingframe', { name: stringName, frame: newFrame.frame, animation: { frame: newFrame.frameOpts, transition: newFrame.transitionOpts, } }); } else { // If there are no more frames, then stop the RAF loop: stopAnimationLoop(); } } function beginAnimationLoop() { gd.emit('plotly_animating'); // If no timer is running, then set last frame = long ago so that the next // frame is immediately transitioned: trans._lastFrameAt = -Infinity; trans._timeToNext = 0; trans._runningTransitions = 0; trans._currentFrame = null; var doFrame = function() { // This *must* be requested before nextFrame since nextFrame may decide // to cancel it if there's nothing more to animated: trans._animationRaf = window.requestAnimationFrame(doFrame); // Check if we're ready for a new frame: if(Date.now() - trans._lastFrameAt > trans._timeToNext) { nextFrame(); } }; doFrame(); } // This is an animate-local counter that helps match up option input list // items with the particular frame. var configCounter = 0; function setTransitionConfig(frame) { if(Array.isArray(transitionOpts)) { if(configCounter >= transitionOpts.length) { frame.transitionOpts = transitionOpts[configCounter]; } else { frame.transitionOpts = transitionOpts[0]; } } else { frame.transitionOpts = transitionOpts; } configCounter++; return frame; } // Disambiguate what's sort of frames have been received var i, frame; var frameList = []; var allFrames = frameOrGroupNameOrFrameList === undefined || frameOrGroupNameOrFrameList === null; var isFrameArray = Array.isArray(frameOrGroupNameOrFrameList); var isSingleFrame = !allFrames && !isFrameArray && Lib.isPlainObject(frameOrGroupNameOrFrameList); if(isSingleFrame) { // In this case, a simple object has been passed to animate. frameList.push({ type: 'object', data: setTransitionConfig(Lib.extendFlat({}, frameOrGroupNameOrFrameList)) }); } else if(allFrames || ['string', 'number'].indexOf(typeof frameOrGroupNameOrFrameList) !== -1) { // In this case, null or undefined has been passed so that we want to // animate *all* currently defined frames for(i = 0; i < trans._frames.length; i++) { frame = trans._frames[i]; if(!frame) continue; if(allFrames || String(frame.group) === String(frameOrGroupNameOrFrameList)) { frameList.push({ type: 'byname', name: String(frame.name), data: setTransitionConfig({name: frame.name}) }); } } } else if(isFrameArray) { for(i = 0; i < frameOrGroupNameOrFrameList.length; i++) { var frameOrName = frameOrGroupNameOrFrameList[i]; if(['number', 'string'].indexOf(typeof frameOrName) !== -1) { frameOrName = String(frameOrName); // In this case, there's an array and this frame is a string name: frameList.push({ type: 'byname', name: frameOrName, data: setTransitionConfig({name: frameOrName}) }); } else if(Lib.isPlainObject(frameOrName)) { frameList.push({ type: 'object', data: setTransitionConfig(Lib.extendFlat({}, frameOrName)) }); } } } // Verify that all of these frames actually exist; return and reject if not: for(i = 0; i < frameList.length; i++) { frame = frameList[i]; if(frame.type === 'byname' && !trans._frameHash[frame.data.name]) { Lib.warn('animate failure: frame not found: "' + frame.data.name + '"'); reject(); return; } } // If the mode is either next or immediate, then all currently queued frames must // be dumped and the corresponding .animate promises rejected. if(['next', 'immediate'].indexOf(animationOpts.mode) !== -1) { discardExistingFrames(); } if(animationOpts.direction === 'reverse') { frameList.reverse(); } var currentFrame = gd._fullLayout._currentFrame; if(currentFrame && animationOpts.fromcurrent) { var idx = -1; for(i = 0; i < frameList.length; i++) { frame = frameList[i]; if(frame.type === 'byname' && frame.name === currentFrame) { idx = i; break; } } if(idx > 0 && idx < frameList.length - 1) { var filteredFrameList = []; for(i = 0; i < frameList.length; i++) { frame = frameList[i]; if(frameList[i].type !== 'byname' || i > idx) { filteredFrameList.push(frame); } } frameList = filteredFrameList; } } if(frameList.length > 0) { queueFrames(frameList); } else { // This is the case where there were simply no frames. It's a little strange // since there's not much to do: gd.emit('plotly_animated'); resolve(); } }); } /** * Register new frames * * @param {string id or DOM element} gd * the id or DOM element of the graph container div * * @param {array of objects} frameList * list of frame definitions, in which each object includes any of: * - name: {string} name of frame to add * - data: {array of objects} trace data * - layout {object} layout definition * - traces {array} trace indices * - baseframe {string} name of frame from which this frame gets defaults * * @param {array of integers} indices * an array of integer indices matching the respective frames in `frameList`. If not * provided, an index will be provided in serial order. If already used, the frame * will be overwritten. */ function addFrames(gd, frameList, indices) { gd = Lib.getGraphDiv(gd); if(frameList === null || frameList === undefined) { return Promise.resolve(); } if(!Lib.isPlotDiv(gd)) { throw new Error( 'This element is not a Plotly plot: ' + gd + '. It\'s likely that you\'ve failed ' + 'to create a plot before adding frames. For more details, see ' + 'https://plotly.com/javascript/animations/' ); } var i, frame, j, idx; var _frames = gd._transitionData._frames; var _frameHash = gd._transitionData._frameHash; if(!Array.isArray(frameList)) { throw new Error('addFrames failure: frameList must be an Array of frame definitions' + frameList); } // Create a sorted list of insertions since we run into lots of problems if these // aren't in ascending order of index: // // Strictly for sorting. Make sure this is guaranteed to never collide with any // already-exisisting indices: var bigIndex = _frames.length + frameList.length * 2; var insertions = []; var _frameHashLocal = {}; for(i = frameList.length - 1; i >= 0; i--) { if(!Lib.isPlainObject(frameList[i])) continue; // The entire logic for checking for this type of name collision can be removed once we migrate to ES6 and // use a Map instead of an Object instance, as Map keys aren't converted to strings. var lookupName = frameList[i].name; var name = (_frameHash[lookupName] || _frameHashLocal[lookupName] || {}).name; var newName = frameList[i].name; var collisionPresent = _frameHash[name] || _frameHashLocal[name]; if(name && newName && typeof newName === 'number' && collisionPresent && numericNameWarningCount < numericNameWarningCountLimit) { numericNameWarningCount++; Lib.warn('addFrames: overwriting frame "' + (_frameHash[name] || _frameHashLocal[name]).name + '" with a frame whose name of type "number" also equates to "' + name + '". This is valid but may potentially lead to unexpected ' + 'behavior since all plotly.js frame names are stored internally ' + 'as strings.'); if(numericNameWarningCount === numericNameWarningCountLimit) { Lib.warn('addFrames: This API call has yielded too many of these warnings. ' + 'For the rest of this call, further warnings about numeric frame ' + 'names will be suppressed.'); } } _frameHashLocal[lookupName] = {name: lookupName}; insertions.push({ frame: Plots.supplyFrameDefaults(frameList[i]), index: (indices && indices[i] !== undefined && indices[i] !== null) ? indices[i] : bigIndex + i }); } // Sort this, taking note that undefined insertions end up at the end: insertions.sort(function(a, b) { if(a.index > b.index) return -1; if(a.index < b.index) return 1; return 0; }); var ops = []; var revops = []; var frameCount = _frames.length; for(i = insertions.length - 1; i >= 0; i--) { frame = insertions[i].frame; if(typeof frame.name === 'number') { Lib.warn('Warning: addFrames accepts frames with numeric names, but the numbers are' + 'implicitly cast to strings'); } if(!frame.name) { // Repeatedly assign a default name, incrementing the counter each time until // we get a name that's not in the hashed lookup table: while(_frameHash[(frame.name = 'frame ' + gd._transitionData._counter++)]); } if(_frameHash[frame.name]) { // If frame is present, overwrite its definition: for(j = 0; j < _frames.length; j++) { if((_frames[j] || {}).name === frame.name) break; } ops.push({type: 'replace', index: j, value: frame}); revops.unshift({type: 'replace', index: j, value: _frames[j]}); } else { // Otherwise insert it at the end of the list: idx = Math.max(0, Math.min(insertions[i].index, frameCount)); ops.push({type: 'insert', index: idx, value: frame}); revops.unshift({type: 'delete', index: idx}); frameCount++; } } var undoFunc = Plots.modifyFrames; var redoFunc = Plots.modifyFrames; var undoArgs = [gd, revops]; var redoArgs = [gd, ops]; if(Queue) Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs); return Plots.modifyFrames(gd, ops); } /** * Delete frame * * @param {string id or DOM element} gd * the id or DOM element of the graph container div * * @param {array of integers} frameList * list of integer indices of frames to be deleted */ function deleteFrames(gd, frameList) { gd = Lib.getGraphDiv(gd); if(!Lib.isPlotDiv(gd)) { throw new Error('This element is not a Plotly plot: ' + gd); } var i, idx; var _frames = gd._transitionData._frames; var ops = []; var revops = []; if(!frameList) { frameList = []; for(i = 0; i < _frames.length; i++) { frameList.push(i); } } frameList = frameList.slice(); frameList.sort(); for(i = frameList.length - 1; i >= 0; i--) { idx = frameList[i]; ops.push({type: 'delete', index: idx}); revops.unshift({type: 'insert', index: idx, value: _frames[idx]}); } var undoFunc = Plots.modifyFrames; var redoFunc = Plots.modifyFrames; var undoArgs = [gd, revops]; var redoArgs = [gd, ops]; if(Queue) Queue.add(gd, undoFunc, undoArgs, redoFunc, redoArgs); return Plots.modifyFrames(gd, ops); } /** * Purge a graph container div back to its initial pre-_doPlot state * * @param {string id or DOM element} gd * the id or DOM element of the graph container div */ function purge(gd) { gd = Lib.getGraphDiv(gd); var fullLayout = gd._fullLayout || {}; var fullData = gd._fullData || []; // remove gl contexts Plots.cleanPlot([], {}, fullData, fullLayout); // purge properties Plots.purge(gd); // purge event emitter methods Events.purge(gd); // remove plot container if(fullLayout._container) fullLayout._container.remove(); // in contrast to _doPlots.purge which does NOT clear _context! delete gd._context; return gd; } // determines if the graph div requires a recalculation of its inverse matrix transforms by comparing old + new bounding boxes. function calcInverseTransform(gd) { var fullLayout = gd._fullLayout; var newBBox = gd.getBoundingClientRect(); if(Lib.equalDomRects(newBBox, fullLayout._lastBBox)) return; var m = fullLayout._invTransform = Lib.inverseTransformMatrix(Lib.getFullTransformMatrix(gd)); fullLayout._invScaleX = Math.sqrt(m[0][0] * m[0][0] + m[0][1] * m[0][1] + m[0][2] * m[0][2]); fullLayout._invScaleY = Math.sqrt(m[1][0] * m[1][0] + m[1][1] * m[1][1] + m[1][2] * m[1][2]); fullLayout._lastBBox = newBBox; } // ------------------------------------------------------- // makePlotFramework: Create the plot container and axes // ------------------------------------------------------- function makePlotFramework(gd) { var gd3 = d3.select(gd); var fullLayout = gd._fullLayout; fullLayout._calcInverseTransform = calcInverseTransform; fullLayout._calcInverseTransform(gd); // Plot container fullLayout._container = gd3.selectAll('.plot-container').data([0]); fullLayout._container.enter() .insert('div', ':first-child') .classed('plot-container', true) .classed('plotly', true); // Make the svg container fullLayout._paperdiv = fullLayout._container.selectAll('.svg-container').data([0]); fullLayout._paperdiv.enter().append('div') .classed('user-select-none', true) .classed('svg-container', true) .style('position', 'relative'); // Make the graph containers // start fresh each time we get here, so we know the order comes out // right, rather than enter/exit which can muck up the order // TODO: sort out all the ordering so we don't have to // explicitly delete anything // FIXME: parcoords reuses this object, not the best pattern fullLayout._glcontainer = fullLayout._paperdiv.selectAll('.gl-container') .data([{}]); fullLayout._glcontainer.enter().append('div') .classed('gl-container', true); fullLayout._paperdiv.selectAll('.main-svg').remove(); fullLayout._paperdiv.select('.modebar-container').remove(); fullLayout._paper = fullLayout._paperdiv.insert('svg', ':first-child') .classed('main-svg', true); fullLayout._toppaper = fullLayout._paperdiv.append('svg') .classed('main-svg', true); fullLayout._modebardiv = fullLayout._paperdiv.append('div'); delete fullLayout._modeBar; fullLayout._hoverpaper = fullLayout._paperdiv.append('svg') .classed('main-svg', true); if(!fullLayout._uid) { var otherUids = {}; d3.selectAll('defs').each(function() { if(this.id) otherUids[this.id.split('-')[1]] = 1; }); fullLayout._uid = Lib.randstr(otherUids); } fullLayout._paperdiv.selectAll('.main-svg') .attr(xmlnsNamespaces.svgAttrs); fullLayout._defs = fullLayout._paper.append('defs') .attr('id', 'defs-' + fullLayout._uid); fullLayout._clips = fullLayout._defs.append('g') .classed('clips', true); fullLayout._topdefs = fullLayout._toppaper.append('defs') .attr('id', 'topdefs-' + fullLayout._uid); fullLayout._topclips = fullLayout._topdefs.append('g') .classed('clips', true); fullLayout._bgLayer = fullLayout._paper.append('g') .classed('bglayer', true); fullLayout._draggers = fullLayout._paper.append('g') .classed('draglayer', true); // lower shape/image layer - note that this is behind // all subplots data/grids but above the backgrounds // except inset subplots, whose backgrounds are drawn // inside their own group so that they appear above // the data for the main subplot // lower shapes and images which are fully referenced to // a subplot still get drawn within the subplot's group // so they will work correctly on insets var layerBelow = fullLayout._paper.append('g') .classed('layer-below', true); fullLayout._imageLowerLayer = layerBelow.append('g') .classed('imagelayer', true); fullLayout._shapeLowerLayer = layerBelow.append('g') .classed('shapelayer', true); // single cartesian layer for the whole plot fullLayout._cartesianlayer = fullLayout._paper.append('g').classed('cartesianlayer', true); // single polar layer for the whole plot fullLayout._polarlayer = fullLayout._paper.append('g').classed('polarlayer', true); // single smith layer for the whole plot fullLayout._smithlayer = fullLayout._paper.append('g').classed('smithlayer', true); // single ternary layer for the whole plot fullLayout._ternarylayer = fullLayout._paper.append('g').classed('ternarylayer', true); // single geo layer for the whole plot fullLayout._geolayer = fullLayout._paper.append('g').classed('geolayer', true); // single funnelarea layer for the whole plot fullLayout._funnelarealayer = fullLayout._paper.append('g').classed('funnelarealayer', true); // single pie layer for the whole plot fullLayout._pielayer = fullLayout._paper.append('g').classed('pielayer', true); // single treemap layer for the whole plot fullLayout._iciclelayer = fullLayout._paper.append('g').classed('iciclelayer', true); // single treemap layer for the whole plot fullLayout._treemaplayer = fullLayout._paper.append('g').classed('treemaplayer', true); // single sunburst layer for the whole plot fullLayout._sunburstlayer = fullLayout._paper.append('g').classed('sunburstlayer', true); // single indicator layer for the whole plot fullLayout._indicatorlayer = fullLayout._toppaper.append('g').classed('indicatorlayer', true); // fill in image server scrape-svg fullLayout._glimages = fullLayout._paper.append('g').classed('glimages', true); // lastly upper shapes, info (legend, annotations) and hover layers go on top // these are in a different svg element normally, but get collapsed into a single // svg when exporting (after inserting 3D) // upper shapes/images are only those drawn above the whole plot, including subplots var layerAbove = fullLayout._toppaper.append('g') .classed('layer-above', true); fullLayout._imageUpperLayer = layerAbove.append('g') .classed('imagelayer', true); fullLayout._shapeUpperLayer = layerAbove.append('g') .classed('shapelayer', true); fullLayout._infolayer = fullLayout._toppaper.append('g').classed('infolayer', true); fullLayout._menulayer = fullLayout._toppaper.append('g').classed('menulayer', true); fullLayout._zoomlayer = fullLayout._toppaper.append('g').classed('zoomlayer', true); fullLayout._hoverlayer = fullLayout._hoverpaper.append('g').classed('hoverlayer', true); // Make the modebar container fullLayout._modebardiv .classed('modebar-container', true) .style('position', 'absolute') .style('top', '0px') .style('right', '0px'); gd.emit('plotly_framework'); } exports.animate = animate; exports.addFrames = addFrames; exports.deleteFrames = deleteFrames; exports.addTraces = addTraces; exports.deleteTraces = deleteTraces; exports.extendTraces = extendTraces; exports.moveTraces = moveTraces; exports.prependTraces = prependTraces; exports.newPlot = newPlot; exports._doPlot = _doPlot; exports.purge = purge; exports.react = react; exports.redraw = redraw; exports.relayout = relayout; exports.restyle = restyle; exports.setPlotConfig = setPlotConfig; exports.update = update; exports._guiRelayout = guiEdit(relayout); exports._guiRestyle = guiEdit(restyle); exports._guiUpdate = guiEdit(update); exports._storeDirectGUIEdit = _storeDirectGUIEdit; },{"../components/color":157,"../components/drawing":179,"../constants/xmlns_namespaces":268,"../lib":287,"../lib/events":280,"../lib/queue":302,"../plots/cartesian/axes":334,"../plots/cartesian/constants":341,"../plots/cartesian/graph_interact":344,"../plots/cartesian/select":355,"../plots/plots":371,"../registry":378,"./edit_types":316,"./helpers":317,"./manage_arrays":319,"./plot_config":321,"./plot_schema":322,"./subroutines":324,"@plotly/d3":20,"fast-isnumeric":33,"has-hover":64}],321:[function(_dereq_,module,exports){ 'use strict'; /** * This will be transferred over to gd and overridden by * config args to Plotly.newPlot. * * The defaults are the appropriate settings for plotly.js, * so we get the right experience without any config argument. * * N.B. the config options are not coerced using Lib.coerce so keys * like `valType` and `values` are only set for documentation purposes * at the moment. */ var configAttributes = { staticPlot: { valType: 'boolean', dflt: false, }, typesetMath: { valType: 'boolean', dflt: true, }, plotlyServerURL: { valType: 'string', dflt: '', }, editable: { valType: 'boolean', dflt: false, }, edits: { annotationPosition: { valType: 'boolean', dflt: false, }, annotationTail: { valType: 'boolean', dflt: false, }, annotationText: { valType: 'boolean', dflt: false, }, axisTitleText: { valType: 'boolean', dflt: false, }, colorbarPosition: { valType: 'boolean', dflt: false, }, colorbarTitleText: { valType: 'boolean', dflt: false, }, legendPosition: { valType: 'boolean', dflt: false, }, legendText: { valType: 'boolean', dflt: false, }, shapePosition: { valType: 'boolean', dflt: false, }, titleText: { valType: 'boolean', dflt: false, } }, autosizable: { valType: 'boolean', dflt: false, }, responsive: { valType: 'boolean', dflt: false, }, fillFrame: { valType: 'boolean', dflt: false, }, frameMargins: { valType: 'number', dflt: 0, min: 0, max: 0.5, }, scrollZoom: { valType: 'flaglist', flags: ['cartesian', 'gl3d', 'geo', 'mapbox'], extras: [true, false], dflt: 'gl3d+geo+mapbox', }, doubleClick: { valType: 'enumerated', values: [false, 'reset', 'autosize', 'reset+autosize'], dflt: 'reset+autosize', }, doubleClickDelay: { valType: 'number', dflt: 300, min: 0, }, showAxisDragHandles: { valType: 'boolean', dflt: true, }, showAxisRangeEntryBoxes: { valType: 'boolean', dflt: true, }, showTips: { valType: 'boolean', dflt: true, }, showLink: { valType: 'boolean', dflt: false, }, linkText: { valType: 'string', dflt: 'Edit chart', noBlank: true, }, sendData: { valType: 'boolean', dflt: true, }, showSources: { valType: 'any', dflt: false, }, displayModeBar: { valType: 'enumerated', values: ['hover', true, false], dflt: 'hover', }, showSendToCloud: { valType: 'boolean', dflt: false, }, showEditInChartStudio: { valType: 'boolean', dflt: false, }, modeBarButtonsToRemove: { valType: 'any', dflt: [], }, modeBarButtonsToAdd: { valType: 'any', dflt: [], }, modeBarButtons: { valType: 'any', dflt: false, }, toImageButtonOptions: { valType: 'any', dflt: {}, }, displaylogo: { valType: 'boolean', dflt: true, }, watermark: { valType: 'boolean', dflt: false, }, plotGlPixelRatio: { valType: 'number', dflt: 2, min: 1, max: 4, }, setBackground: { valType: 'any', dflt: 'transparent', }, topojsonURL: { valType: 'string', noBlank: true, dflt: 'https://cdn.plot.ly/', }, mapboxAccessToken: { valType: 'string', dflt: null, }, logging: { valType: 'integer', min: 0, max: 2, dflt: 1, }, notifyOnLogging: { valType: 'integer', min: 0, max: 2, dflt: 0, }, queueLength: { valType: 'integer', min: 0, dflt: 0, }, globalTransforms: { valType: 'any', dflt: [], }, locale: { valType: 'string', dflt: 'en-US', }, locales: { valType: 'any', dflt: {}, } }; var dfltConfig = {}; function crawl(src, target) { for(var k in src) { var obj = src[k]; if(obj.valType) { target[k] = obj.dflt; } else { if(!target[k]) { target[k] = {}; } crawl(obj, target[k]); } } } crawl(configAttributes, dfltConfig); module.exports = { configAttributes: configAttributes, dfltConfig: dfltConfig }; },{}],322:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../registry'); var Lib = _dereq_('../lib'); var baseAttributes = _dereq_('../plots/attributes'); var baseLayoutAttributes = _dereq_('../plots/layout_attributes'); var frameAttributes = _dereq_('../plots/frame_attributes'); var animationAttributes = _dereq_('../plots/animation_attributes'); var configAttributes = _dereq_('./plot_config').configAttributes; var editTypes = _dereq_('./edit_types'); var extendDeepAll = Lib.extendDeepAll; var isPlainObject = Lib.isPlainObject; var isArrayOrTypedArray = Lib.isArrayOrTypedArray; var nestedProperty = Lib.nestedProperty; var valObjectMeta = Lib.valObjectMeta; var IS_SUBPLOT_OBJ = '_isSubplotObj'; var IS_LINKED_TO_ARRAY = '_isLinkedToArray'; var ARRAY_ATTR_REGEXPS = '_arrayAttrRegexps'; var DEPRECATED = '_deprecated'; var UNDERSCORE_ATTRS = [IS_SUBPLOT_OBJ, IS_LINKED_TO_ARRAY, ARRAY_ATTR_REGEXPS, DEPRECATED]; exports.IS_SUBPLOT_OBJ = IS_SUBPLOT_OBJ; exports.IS_LINKED_TO_ARRAY = IS_LINKED_TO_ARRAY; exports.DEPRECATED = DEPRECATED; exports.UNDERSCORE_ATTRS = UNDERSCORE_ATTRS; /** Outputs the full plotly.js plot schema * * @return {object} * - defs * - traces * - layout * - transforms * - frames * - animations * - config */ exports.get = function() { var traces = {}; Registry.allTypes.forEach(function(type) { traces[type] = getTraceAttributes(type); }); var transforms = {}; Object.keys(Registry.transformsRegistry).forEach(function(type) { transforms[type] = getTransformAttributes(type); }); return { defs: { valObjects: valObjectMeta, metaKeys: UNDERSCORE_ATTRS.concat(['description', 'role', 'editType', 'impliedEdits']), editType: { traces: editTypes.traces, layout: editTypes.layout }, impliedEdits: { } }, traces: traces, layout: getLayoutAttributes(), transforms: transforms, frames: getFramesAttributes(), animation: formatAttributes(animationAttributes), config: formatAttributes(configAttributes) }; }; /** * Crawl the attribute tree, recursively calling a callback function * * @param {object} attrs * The node of the attribute tree (e.g. the root) from which recursion originates * @param {Function} callback * A callback function with the signature: * @callback callback * @param {object} attr an attribute * @param {String} attrName name string * @param {object[]} attrs all the attributes * @param {Number} level the recursion level, 0 at the root * @param {String} fullAttrString full attribute name (ie 'marker.line') * @param {Number} [specifiedLevel] * The level in the tree, in order to let the callback function detect descend or backtrack, * typically unsupplied (implied 0), just used by the self-recursive call. * The necessity arises because the tree traversal is not controlled by callback return values. * The decision to not use callback return values for controlling tree pruning arose from * the goal of keeping the crawler backwards compatible. Observe that one of the pruning conditions * precedes the callback call. * @param {string} [attrString] * the path to the current attribute, as an attribute string (ie 'marker.line') * typically unsupplied, but you may supply it if you want to disambiguate which attrs tree you * are starting from * * @return {object} transformOut * copy of transformIn that contains attribute defaults */ exports.crawl = function(attrs, callback, specifiedLevel, attrString) { var level = specifiedLevel || 0; attrString = attrString || ''; Object.keys(attrs).forEach(function(attrName) { var attr = attrs[attrName]; if(UNDERSCORE_ATTRS.indexOf(attrName) !== -1) return; var fullAttrString = (attrString ? attrString + '.' : '') + attrName; callback(attr, attrName, attrs, level, fullAttrString); if(exports.isValObject(attr)) return; if(isPlainObject(attr) && attrName !== 'impliedEdits') { exports.crawl(attr, callback, level + 1, fullAttrString); } }); }; /** Is object a value object (or a container object)? * * @param {object} obj * @return {boolean} * returns true for a valid value object and * false for tree nodes in the attribute hierarchy */ exports.isValObject = function(obj) { return obj && obj.valType !== undefined; }; /** * Find all data array attributes in a given trace object - including * `arrayOk` attributes. * * @param {object} trace * full trace object that contains a reference to `_module.attributes` * * @return {array} arrayAttributes * list of array attributes for the given trace */ exports.findArrayAttributes = function(trace) { var arrayAttributes = []; var stack = []; var isArrayStack = []; var baseContainer, baseAttrName; function callback(attr, attrName, attrs, level) { stack = stack.slice(0, level).concat([attrName]); isArrayStack = isArrayStack.slice(0, level).concat([attr && attr._isLinkedToArray]); var splittableAttr = ( attr && (attr.valType === 'data_array' || attr.arrayOk === true) && !(stack[level - 1] === 'colorbar' && (attrName === 'ticktext' || attrName === 'tickvals')) ); // Manually exclude 'colorbar.tickvals' and 'colorbar.ticktext' for now // which are declared as `valType: 'data_array'` but scale independently of // the coordinate arrays. // // Down the road, we might want to add a schema field (e.g `uncorrelatedArray: true`) // to distinguish attributes of the likes. if(!splittableAttr) return; crawlIntoTrace(baseContainer, 0, ''); } function crawlIntoTrace(container, i, astrPartial) { var item = container[stack[i]]; var newAstrPartial = astrPartial + stack[i]; if(i === stack.length - 1) { if(isArrayOrTypedArray(item)) { arrayAttributes.push(baseAttrName + newAstrPartial); } } else { if(isArrayStack[i]) { if(Array.isArray(item)) { for(var j = 0; j < item.length; j++) { if(isPlainObject(item[j])) { crawlIntoTrace(item[j], i + 1, newAstrPartial + '[' + j + '].'); } } } } else if(isPlainObject(item)) { crawlIntoTrace(item, i + 1, newAstrPartial + '.'); } } } baseContainer = trace; baseAttrName = ''; exports.crawl(baseAttributes, callback); if(trace._module && trace._module.attributes) { exports.crawl(trace._module.attributes, callback); } var transforms = trace.transforms; if(transforms) { for(var i = 0; i < transforms.length; i++) { var transform = transforms[i]; var module = transform._module; if(module) { baseAttrName = 'transforms[' + i + '].'; baseContainer = transform; exports.crawl(module.attributes, callback); } } } return arrayAttributes; }; /* * Find the valObject for one attribute in an existing trace * * @param {object} trace * full trace object that contains a reference to `_module.attributes` * @param {object} parts * an array of parts, like ['transforms', 1, 'value'] * typically from nestedProperty(...).parts * * @return {object|false} * the valObject for this attribute, or the last found parent * in some cases the innermost valObject will not exist, for example * `valType: 'any'` attributes where we might set a part of the attribute. * In that case, stop at the deepest valObject we *do* find. */ exports.getTraceValObject = function(trace, parts) { var head = parts[0]; var i = 1; // index to start recursing from var moduleAttrs, valObject; if(head === 'transforms') { if(parts.length === 1) { return baseAttributes.transforms; } var transforms = trace.transforms; if(!Array.isArray(transforms) || !transforms.length) return false; var tNum = parts[1]; if(!isIndex(tNum) || tNum >= transforms.length) { return false; } moduleAttrs = (Registry.transformsRegistry[transforms[tNum].type] || {}).attributes; valObject = moduleAttrs && moduleAttrs[parts[2]]; i = 3; // start recursing only inside the transform } else { // first look in the module for this trace // components have already merged their trace attributes in here var _module = trace._module; if(!_module) _module = (Registry.modules[trace.type || baseAttributes.type.dflt] || {})._module; if(!_module) return false; moduleAttrs = _module.attributes; valObject = moduleAttrs && moduleAttrs[head]; // then look in the subplot attributes if(!valObject) { var subplotModule = _module.basePlotModule; if(subplotModule && subplotModule.attributes) { valObject = subplotModule.attributes[head]; } } // finally look in the global attributes if(!valObject) valObject = baseAttributes[head]; } return recurseIntoValObject(valObject, parts, i); }; /* * Find the valObject for one layout attribute * * @param {array} parts * an array of parts, like ['annotations', 1, 'x'] * typically from nestedProperty(...).parts * * @return {object|false} * the valObject for this attribute, or the last found parent * in some cases the innermost valObject will not exist, for example * `valType: 'any'` attributes where we might set a part of the attribute. * In that case, stop at the deepest valObject we *do* find. */ exports.getLayoutValObject = function(fullLayout, parts) { var valObject = layoutHeadAttr(fullLayout, parts[0]); return recurseIntoValObject(valObject, parts, 1); }; function layoutHeadAttr(fullLayout, head) { var i, key, _module, attributes; // look for attributes of the subplot types used on the plot var basePlotModules = fullLayout._basePlotModules; if(basePlotModules) { var out; for(i = 0; i < basePlotModules.length; i++) { _module = basePlotModules[i]; if(_module.attrRegex && _module.attrRegex.test(head)) { // if a module defines overrides, these take precedence // initially this is to allow gl2d different editTypes from svg cartesian if(_module.layoutAttrOverrides) return _module.layoutAttrOverrides; // otherwise take the first attributes we find if(!out && _module.layoutAttributes) out = _module.layoutAttributes; } // a module can also override the behavior of base (and component) module layout attrs // again see gl2d for initial use case var baseOverrides = _module.baseLayoutAttrOverrides; if(baseOverrides && head in baseOverrides) return baseOverrides[head]; } if(out) return out; } // look for layout attributes contributed by traces on the plot var modules = fullLayout._modules; if(modules) { for(i = 0; i < modules.length; i++) { attributes = modules[i].layoutAttributes; if(attributes && head in attributes) { return attributes[head]; } } } /* * Next look in components. * Components that define a schema have already merged this into * base and subplot attribute defs, so ignore these. * Others (older style) all put all their attributes * inside a container matching the module `name` * eg `attributes` (array) or `legend` (object) */ for(key in Registry.componentsRegistry) { _module = Registry.componentsRegistry[key]; if(_module.name === 'colorscale' && head.indexOf('coloraxis') === 0) { return _module.layoutAttributes[head]; } else if(!_module.schema && (head === _module.name)) { return _module.layoutAttributes; } } if(head in baseLayoutAttributes) return baseLayoutAttributes[head]; return false; } function recurseIntoValObject(valObject, parts, i) { if(!valObject) return false; if(valObject._isLinkedToArray) { // skip array index, abort if we try to dive into an array without an index if(isIndex(parts[i])) i++; else if(i < parts.length) return false; } // now recurse as far as we can. Occasionally we have an attribute // setting an internal part below what's in the schema; just return // the innermost schema item we find. for(; i < parts.length; i++) { var newValObject = valObject[parts[i]]; if(isPlainObject(newValObject)) valObject = newValObject; else break; if(i === parts.length - 1) break; if(valObject._isLinkedToArray) { i++; if(!isIndex(parts[i])) return false; } else if(valObject.valType === 'info_array') { i++; var index = parts[i]; if(!isIndex(index)) return false; var items = valObject.items; if(Array.isArray(items)) { if(index >= items.length) return false; if(valObject.dimensions === 2) { i++; if(parts.length === i) return valObject; var index2 = parts[i]; if(!isIndex(index2)) return false; valObject = items[index][index2]; } else valObject = items[index]; } else { valObject = items; } } } return valObject; } // note: this is different from Lib.isIndex, this one doesn't accept numeric // strings, only actual numbers. function isIndex(val) { return val === Math.round(val) && val >= 0; } function getTraceAttributes(type) { var _module, basePlotModule; _module = Registry.modules[type]._module, basePlotModule = _module.basePlotModule; var attributes = {}; // make 'type' the first attribute in the object attributes.type = null; var copyBaseAttributes = extendDeepAll({}, baseAttributes); var copyModuleAttributes = extendDeepAll({}, _module.attributes); // prune global-level trace attributes that are already defined in a trace exports.crawl(copyModuleAttributes, function(attr, attrName, attrs, level, fullAttrString) { nestedProperty(copyBaseAttributes, fullAttrString).set(undefined); // Prune undefined attributes if(attr === undefined) nestedProperty(copyModuleAttributes, fullAttrString).set(undefined); }); // base attributes (same for all trace types) extendDeepAll(attributes, copyBaseAttributes); // prune-out base attributes based on trace module categories if(Registry.traceIs(type, 'noOpacity')) { delete attributes.opacity; } if(!Registry.traceIs(type, 'showLegend')) { delete attributes.showlegend; delete attributes.legendgroup; } if(Registry.traceIs(type, 'noHover')) { delete attributes.hoverinfo; delete attributes.hoverlabel; } if(!_module.selectPoints) { delete attributes.selectedpoints; } // module attributes extendDeepAll(attributes, copyModuleAttributes); // subplot attributes if(basePlotModule.attributes) { extendDeepAll(attributes, basePlotModule.attributes); } // 'type' gets overwritten by baseAttributes; reset it here attributes.type = type; var out = { meta: _module.meta || {}, categories: _module.categories || {}, animatable: Boolean(_module.animatable), type: type, attributes: formatAttributes(attributes), }; // trace-specific layout attributes if(_module.layoutAttributes) { var layoutAttributes = {}; extendDeepAll(layoutAttributes, _module.layoutAttributes); out.layoutAttributes = formatAttributes(layoutAttributes); } // drop anim:true in non-animatable modules if(!_module.animatable) { exports.crawl(out, function(attr) { if(exports.isValObject(attr) && 'anim' in attr) { delete attr.anim; } }); } return out; } function getLayoutAttributes() { var layoutAttributes = {}; var key, _module; // global layout attributes extendDeepAll(layoutAttributes, baseLayoutAttributes); // add base plot module layout attributes for(key in Registry.subplotsRegistry) { _module = Registry.subplotsRegistry[key]; if(!_module.layoutAttributes) continue; if(Array.isArray(_module.attr)) { for(var i = 0; i < _module.attr.length; i++) { handleBasePlotModule(layoutAttributes, _module, _module.attr[i]); } } else { var astr = _module.attr === 'subplot' ? _module.name : _module.attr; handleBasePlotModule(layoutAttributes, _module, astr); } } // add registered components layout attributes for(key in Registry.componentsRegistry) { _module = Registry.componentsRegistry[key]; var schema = _module.schema; if(schema && (schema.subplots || schema.layout)) { /* * Components with defined schema have already been merged in at register time * but a few components define attributes that apply only to xaxis * not yaxis (rangeselector, rangeslider) - delete from y schema. * Note that the input attributes for xaxis/yaxis are the same object * so it's not possible to only add them to xaxis from the start. * If we ever have such asymmetry the other way, or anywhere else, * we will need to extend both this code and mergeComponentAttrsToSubplot * (which will not find yaxis only for example) */ var subplots = schema.subplots; if(subplots && subplots.xaxis && !subplots.yaxis) { for(var xkey in subplots.xaxis) { delete layoutAttributes.yaxis[xkey]; } } } else if(_module.name === 'colorscale') { extendDeepAll(layoutAttributes, _module.layoutAttributes); } else if(_module.layoutAttributes) { // older style without schema need to be explicitly merged in now insertAttrs(layoutAttributes, _module.layoutAttributes, _module.name); } } return { layoutAttributes: formatAttributes(layoutAttributes) }; } function getTransformAttributes(type) { var _module = Registry.transformsRegistry[type]; var attributes = extendDeepAll({}, _module.attributes); // add registered components transform attributes Object.keys(Registry.componentsRegistry).forEach(function(k) { var _module = Registry.componentsRegistry[k]; if(_module.schema && _module.schema.transforms && _module.schema.transforms[type]) { Object.keys(_module.schema.transforms[type]).forEach(function(v) { insertAttrs(attributes, _module.schema.transforms[type][v], v); }); } }); return { attributes: formatAttributes(attributes) }; } function getFramesAttributes() { var attrs = { frames: extendDeepAll({}, frameAttributes) }; formatAttributes(attrs); return attrs.frames; } function formatAttributes(attrs) { mergeValTypeAndRole(attrs); formatArrayContainers(attrs); stringify(attrs); return attrs; } function mergeValTypeAndRole(attrs) { function makeSrcAttr(attrName) { return { valType: 'string', editType: 'none' }; } function callback(attr, attrName, attrs) { if(exports.isValObject(attr)) { if(attr.arrayOk === true || attr.valType === 'data_array') { // all 'arrayOk' and 'data_array' attrs have a corresponding 'src' attr attrs[attrName + 'src'] = makeSrcAttr(attrName); } } else if(isPlainObject(attr)) { // all attrs container objects get role 'object' attr.role = 'object'; } } exports.crawl(attrs, callback); } function formatArrayContainers(attrs) { function callback(attr, attrName, attrs) { if(!attr) return; var itemName = attr[IS_LINKED_TO_ARRAY]; if(!itemName) return; delete attr[IS_LINKED_TO_ARRAY]; attrs[attrName] = { items: {} }; attrs[attrName].items[itemName] = attr; attrs[attrName].role = 'object'; } exports.crawl(attrs, callback); } // this can take around 10ms and should only be run from PlotSchema.get(), // to ensure JSON.stringify(PlotSchema.get()) gives the intended result. function stringify(attrs) { function walk(attr) { for(var k in attr) { if(isPlainObject(attr[k])) { walk(attr[k]); } else if(Array.isArray(attr[k])) { for(var i = 0; i < attr[k].length; i++) { walk(attr[k][i]); } } else { // as JSON.stringify(/test/) // => {} if(attr[k] instanceof RegExp) { attr[k] = attr[k].toString(); } } } } walk(attrs); } function handleBasePlotModule(layoutAttributes, _module, astr) { var np = nestedProperty(layoutAttributes, astr); var attrs = extendDeepAll({}, _module.layoutAttributes); attrs[IS_SUBPLOT_OBJ] = true; np.set(attrs); } function insertAttrs(baseAttrs, newAttrs, astr) { var np = nestedProperty(baseAttrs, astr); np.set(extendDeepAll(np.get() || {}, newAttrs)); } },{"../lib":287,"../plots/animation_attributes":328,"../plots/attributes":330,"../plots/frame_attributes":366,"../plots/layout_attributes":369,"../registry":378,"./edit_types":316,"./plot_config":321}],323:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var plotAttributes = _dereq_('../plots/attributes'); var TEMPLATEITEMNAME = 'templateitemname'; var templateAttrs = { name: { valType: 'string', editType: 'none', } }; templateAttrs[TEMPLATEITEMNAME] = { valType: 'string', editType: 'calc', }; /** * templatedArray: decorate an attributes object with templating (and array) * properties. * * @param {string} name: the singular form of the array name. Sets * `_isLinkedToArray` to this, so the schema knows to treat this as an array. * @param {object} attrs: the item attributes. Since all callers are expected * to be constructing this object on the spot, we mutate it here for * performance, rather than extending a new object with it. * * @returns {object}: the decorated `attrs` object */ exports.templatedArray = function(name, attrs) { attrs._isLinkedToArray = name; attrs.name = templateAttrs.name; attrs[TEMPLATEITEMNAME] = templateAttrs[TEMPLATEITEMNAME]; return attrs; }; /** * traceTemplater: logic for matching traces to trace templates * * @param {object} dataTemplate: collection of {traceType: [{template}, ...]} * ie each type the template applies to contains a list of template objects, * to be provided cyclically to data traces of that type. * * @returns {object}: {newTrace}, a function: * newTrace(traceIn): that takes the input traceIn, coerces its type, then * uses that type to find the next template to apply. returns the output * traceOut with template attached, ready to continue supplyDefaults. */ exports.traceTemplater = function(dataTemplate) { var traceCounts = {}; var traceType, typeTemplates; for(traceType in dataTemplate) { typeTemplates = dataTemplate[traceType]; if(Array.isArray(typeTemplates) && typeTemplates.length) { traceCounts[traceType] = 0; } } function newTrace(traceIn) { traceType = Lib.coerce(traceIn, {}, plotAttributes, 'type'); var traceOut = {type: traceType, _template: null}; if(traceType in traceCounts) { typeTemplates = dataTemplate[traceType]; // cycle through traces in the template set for this type var typei = traceCounts[traceType] % typeTemplates.length; traceCounts[traceType]++; traceOut._template = typeTemplates[typei]; } else { // TODO: anything we should do for types missing from the template? // try to apply some other type? Or just bail as we do here? // Actually I think yes, we should apply other types; would be nice // if all scatter* could inherit from each other, and if histogram // could inherit from bar, etc... but how to specify this? And do we // compose them, or if a type is present require it to be complete? // Actually this could apply to layout too - 3D annotations // inheriting from 2D, axes of different types inheriting from each // other... } return traceOut; } return { newTrace: newTrace // TODO: function to figure out what's left & what didn't work }; }; /** * newContainer: Create a new sub-container inside `container` and propagate any * applicable template to it. If there's no template, still propagates * `undefined` so relinkPrivate will not retain an old template! * * @param {object} container: the outer container, should already have _template * if there *is* a template for this plot * @param {string} name: the key of the new container to make * @param {string} baseName: if applicable, a base attribute to take the * template from, ie for xaxis3 the base would be xaxis * * @returns {object}: an object for inclusion _full*, empty except for the * appropriate template piece */ exports.newContainer = function(container, name, baseName) { var template = container._template; var part = template && (template[name] || (baseName && template[baseName])); if(!Lib.isPlainObject(part)) part = null; var out = container[name] = {_template: part}; return out; }; /** * arrayTemplater: special logic for templating both defaults and specific items * in a container array (annotations etc) * * @param {object} container: the outer container, should already have _template * if there *is* a template for this plot * @param {string} name: the name of the array to template (ie 'annotations') * will be used to find default ('annotationdefaults' object) and specific * ('annotations' array) template specs. * @param {string} inclusionAttr: the attribute determining this item's * inclusion in the output, usually 'visible' or 'enabled' * * @returns {object}: {newItem, defaultItems}, both functions: * newItem(itemIn): create an output item, bare except for the correct * template and name(s), as the base for supplyDefaults * defaultItems(): to be called after all newItem calls, return any * specific template items that have not already beeen included, * also as bare output items ready for supplyDefaults. */ exports.arrayTemplater = function(container, name, inclusionAttr) { var template = container._template; var defaultsTemplate = template && template[arrayDefaultKey(name)]; var templateItems = template && template[name]; if(!Array.isArray(templateItems) || !templateItems.length) { templateItems = []; } var usedNames = {}; function newItem(itemIn) { // include name and templateitemname in the output object for ALL // container array items. Note: you could potentially use different // name and templateitemname, if you're using one template to make // another template. templateitemname would be the name in the original // template, and name is the new "subclassed" item name. var out = {name: itemIn.name, _input: itemIn}; var templateItemName = out[TEMPLATEITEMNAME] = itemIn[TEMPLATEITEMNAME]; // no itemname: use the default template if(!validItemName(templateItemName)) { out._template = defaultsTemplate; return out; } // look for an item matching this itemname // note these do not inherit from the default template, only the item. for(var i = 0; i < templateItems.length; i++) { var templateItem = templateItems[i]; if(templateItem.name === templateItemName) { // Note: it's OK to use a template item more than once // but using it at least once will stop it from generating // a default item at the end. usedNames[templateItemName] = 1; out._template = templateItem; return out; } } // Didn't find a matching template item, so since this item is intended // to only be modifications it's most likely broken. Hide it unless // it's explicitly marked visible - in which case it gets NO template, // not even the default. out[inclusionAttr] = itemIn[inclusionAttr] || false; // special falsy value we can look for in validateTemplate out._template = false; return out; } function defaultItems() { var out = []; for(var i = 0; i < templateItems.length; i++) { var templateItem = templateItems[i]; var name = templateItem.name; // only allow named items to be added as defaults, // and only allow each name once if(validItemName(name) && !usedNames[name]) { var outi = { _template: templateItem, name: name, _input: {_templateitemname: name} }; outi[TEMPLATEITEMNAME] = templateItem[TEMPLATEITEMNAME]; out.push(outi); usedNames[name] = 1; } } return out; } return { newItem: newItem, defaultItems: defaultItems }; }; function validItemName(name) { return name && typeof name === 'string'; } function arrayDefaultKey(name) { var lastChar = name.length - 1; if(name.charAt(lastChar) !== 's') { Lib.warn('bad argument to arrayDefaultKey: ' + name); } return name.substr(0, name.length - 1) + 'defaults'; } exports.arrayDefaultKey = arrayDefaultKey; /** * arrayEditor: helper for editing array items that may have come from * template defaults (in which case they will not exist in the input yet) * * @param {object} parentIn: the input container (eg gd.layout) * @param {string} containerStr: the attribute string for the container inside * `parentIn`. * @param {object} itemOut: the _full* item (eg gd._fullLayout.annotations[0]) * that we'll be editing. Assumed to have been created by `arrayTemplater`. * * @returns {object}: {modifyBase, modifyItem, getUpdateObj, applyUpdate}, all functions: * modifyBase(attr, value): Add an update that's *not* related to the item. * `attr` is the full attribute string. * modifyItem(attr, value): Add an update to the item. `attr` is just the * portion of the attribute string inside the item. * getUpdateObj(): Get the final constructed update object, to use in * `restyle` or `relayout`. Also resets the update object in case this * update was canceled. * applyUpdate(attr, value): optionally add an update `attr: value`, * then apply it to `parent` which should be the parent of `containerIn`, * ie the object to which `containerStr` is the attribute string. */ exports.arrayEditor = function(parentIn, containerStr, itemOut) { var lengthIn = (Lib.nestedProperty(parentIn, containerStr).get() || []).length; var index = itemOut._index; // Check that we are indeed off the end of this container. // Otherwise a devious user could put a key `_templateitemname` in their // own input and break lots of things. var templateItemName = (index >= lengthIn) && (itemOut._input || {})._templateitemname; if(templateItemName) index = lengthIn; var itemStr = containerStr + '[' + index + ']'; var update; function resetUpdate() { update = {}; if(templateItemName) { update[itemStr] = {}; update[itemStr][TEMPLATEITEMNAME] = templateItemName; } } resetUpdate(); function modifyBase(attr, value) { update[attr] = value; } function modifyItem(attr, value) { if(templateItemName) { // we're making a new object: edit that object Lib.nestedProperty(update[itemStr], attr).set(value); } else { // we're editing an existing object: include *just* the edit update[itemStr + '.' + attr] = value; } } function getUpdateObj() { var updateOut = update; resetUpdate(); return updateOut; } function applyUpdate(attr, value) { if(attr) modifyItem(attr, value); var updateToApply = getUpdateObj(); for(var key in updateToApply) { Lib.nestedProperty(parentIn, key).set(updateToApply[key]); } } return { modifyBase: modifyBase, modifyItem: modifyItem, getUpdateObj: getUpdateObj, applyUpdate: applyUpdate }; }; },{"../lib":287,"../plots/attributes":330}],324:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Registry = _dereq_('../registry'); var Plots = _dereq_('../plots/plots'); var Lib = _dereq_('../lib'); var clearGlCanvases = _dereq_('../lib/clear_gl_canvases'); var Color = _dereq_('../components/color'); var Drawing = _dereq_('../components/drawing'); var Titles = _dereq_('../components/titles'); var ModeBar = _dereq_('../components/modebar'); var Axes = _dereq_('../plots/cartesian/axes'); var alignmentConstants = _dereq_('../constants/alignment'); var axisConstraints = _dereq_('../plots/cartesian/constraints'); var enforceAxisConstraints = axisConstraints.enforce; var cleanAxisConstraints = axisConstraints.clean; var doAutoRange = _dereq_('../plots/cartesian/autorange').doAutoRange; var SVG_TEXT_ANCHOR_START = 'start'; var SVG_TEXT_ANCHOR_MIDDLE = 'middle'; var SVG_TEXT_ANCHOR_END = 'end'; exports.layoutStyles = function(gd) { return Lib.syncOrAsync([Plots.doAutoMargin, lsInner], gd); }; function overlappingDomain(xDomain, yDomain, domains) { for(var i = 0; i < domains.length; i++) { var existingX = domains[i][0]; var existingY = domains[i][1]; if(existingX[0] >= xDomain[1] || existingX[1] <= xDomain[0]) { continue; } if(existingY[0] < yDomain[1] && existingY[1] > yDomain[0]) { return true; } } return false; } function lsInner(gd) { var fullLayout = gd._fullLayout; var gs = fullLayout._size; var pad = gs.p; var axList = Axes.list(gd, '', true); var i, subplot, plotinfo, ax, xa, ya; fullLayout._paperdiv.style({ width: (gd._context.responsive && fullLayout.autosize && !gd._context._hasZeroWidth && !gd.layout.width) ? '100%' : fullLayout.width + 'px', height: (gd._context.responsive && fullLayout.autosize && !gd._context._hasZeroHeight && !gd.layout.height) ? '100%' : fullLayout.height + 'px' }) .selectAll('.main-svg') .call(Drawing.setSize, fullLayout.width, fullLayout.height); gd._context.setBackground(gd, fullLayout.paper_bgcolor); exports.drawMainTitle(gd); ModeBar.manage(gd); // _has('cartesian') means SVG specifically, not GL2D - but GL2D // can still get here because it makes some of the SVG structure // for shared features like selections. if(!fullLayout._has('cartesian')) { return Plots.previousPromises(gd); } function getLinePosition(ax, counterAx, side) { var lwHalf = ax._lw / 2; if(ax._id.charAt(0) === 'x') { if(!counterAx) return gs.t + gs.h * (1 - (ax.position || 0)) + (lwHalf % 1); else if(side === 'top') return counterAx._offset - pad - lwHalf; return counterAx._offset + counterAx._length + pad + lwHalf; } if(!counterAx) return gs.l + gs.w * (ax.position || 0) + (lwHalf % 1); else if(side === 'right') return counterAx._offset + counterAx._length + pad + lwHalf; return counterAx._offset - pad - lwHalf; } // some preparation of axis position info for(i = 0; i < axList.length; i++) { ax = axList[i]; var counterAx = ax._anchorAxis; // clear axis line positions, to be set in the subplot loop below ax._linepositions = {}; // stash crispRounded linewidth so we don't need to pass gd all over the place ax._lw = Drawing.crispRound(gd, ax.linewidth, 1); // figure out the main axis line and main mirror line position. // it's easier to follow the logic if we handle these separately from // ax._linepositions, which are only used by mirror=allticks // for non-main-subplot ticks, and mirror=all(ticks)? for zero line // hiding logic ax._mainLinePosition = getLinePosition(ax, counterAx, ax.side); ax._mainMirrorPosition = (ax.mirror && counterAx) ? getLinePosition(ax, counterAx, alignmentConstants.OPPOSITE_SIDE[ax.side]) : null; } // figure out which backgrounds we need to draw, // and in which layers to put them var lowerBackgroundIDs = []; var backgroundIds = []; var lowerDomains = []; // no need to draw background when paper and plot color are the same color, // activate mode just for large splom (which benefit the most from this // optimization), but this could apply to all cartesian subplots. var noNeedForBg = ( Color.opacity(fullLayout.paper_bgcolor) === 1 && Color.opacity(fullLayout.plot_bgcolor) === 1 && fullLayout.paper_bgcolor === fullLayout.plot_bgcolor ); for(subplot in fullLayout._plots) { plotinfo = fullLayout._plots[subplot]; if(plotinfo.mainplot) { // mainplot is a reference to the main plot this one is overlaid on // so if it exists, this is an overlaid plot and we don't need to // give it its own background if(plotinfo.bg) { plotinfo.bg.remove(); } plotinfo.bg = undefined; } else { var xDomain = plotinfo.xaxis.domain; var yDomain = plotinfo.yaxis.domain; var plotgroup = plotinfo.plotgroup; if(overlappingDomain(xDomain, yDomain, lowerDomains)) { var pgNode = plotgroup.node(); var plotgroupBg = plotinfo.bg = Lib.ensureSingle(plotgroup, 'rect', 'bg'); pgNode.insertBefore(plotgroupBg.node(), pgNode.childNodes[0]); backgroundIds.push(subplot); } else { plotgroup.select('rect.bg').remove(); lowerDomains.push([xDomain, yDomain]); if(!noNeedForBg) { lowerBackgroundIDs.push(subplot); backgroundIds.push(subplot); } } } } // now create all the lower-layer backgrounds at once now that // we have the list of subplots that need them var lowerBackgrounds = fullLayout._bgLayer.selectAll('.bg') .data(lowerBackgroundIDs); lowerBackgrounds.enter().append('rect') .classed('bg', true); lowerBackgrounds.exit().remove(); lowerBackgrounds.each(function(subplot) { fullLayout._plots[subplot].bg = d3.select(this); }); // style all backgrounds for(i = 0; i < backgroundIds.length; i++) { plotinfo = fullLayout._plots[backgroundIds[i]]; xa = plotinfo.xaxis; ya = plotinfo.yaxis; if(plotinfo.bg && xa._offset !== undefined && ya._offset !== undefined) { plotinfo.bg .call(Drawing.setRect, xa._offset - pad, ya._offset - pad, xa._length + 2 * pad, ya._length + 2 * pad) .call(Color.fill, fullLayout.plot_bgcolor) .style('stroke-width', 0); } } if(!fullLayout._hasOnlyLargeSploms) { for(subplot in fullLayout._plots) { plotinfo = fullLayout._plots[subplot]; xa = plotinfo.xaxis; ya = plotinfo.yaxis; // Clip so that data only shows up on the plot area. var clipId = plotinfo.clipId = 'clip' + fullLayout._uid + subplot + 'plot'; var plotClip = Lib.ensureSingleById(fullLayout._clips, 'clipPath', clipId, function(s) { s.classed('plotclip', true) .append('rect'); }); plotinfo.clipRect = plotClip.select('rect').attr({ width: xa._length, height: ya._length }); Drawing.setTranslate(plotinfo.plot, xa._offset, ya._offset); var plotClipId; var layerClipId; if(plotinfo._hasClipOnAxisFalse) { plotClipId = null; layerClipId = clipId; } else { plotClipId = clipId; layerClipId = null; } Drawing.setClipUrl(plotinfo.plot, plotClipId, gd); // stash layer clipId value (null or same as clipId) // to DRY up Drawing.setClipUrl calls on trace-module and trace layers // downstream plotinfo.layerClipId = layerClipId; } } var xLinesXLeft, xLinesXRight, xLinesYBottom, xLinesYTop, leftYLineWidth, rightYLineWidth; var yLinesYBottom, yLinesYTop, yLinesXLeft, yLinesXRight, connectYBottom, connectYTop; var extraSubplot; function xLinePath(y) { return 'M' + xLinesXLeft + ',' + y + 'H' + xLinesXRight; } function xLinePathFree(y) { return 'M' + xa._offset + ',' + y + 'h' + xa._length; } function yLinePath(x) { return 'M' + x + ',' + yLinesYTop + 'V' + yLinesYBottom; } function yLinePathFree(x) { return 'M' + x + ',' + ya._offset + 'v' + ya._length; } function mainPath(ax, pathFn, pathFnFree) { if(!ax.showline || subplot !== ax._mainSubplot) return ''; if(!ax._anchorAxis) return pathFnFree(ax._mainLinePosition); var out = pathFn(ax._mainLinePosition); if(ax.mirror) out += pathFn(ax._mainMirrorPosition); return out; } for(subplot in fullLayout._plots) { plotinfo = fullLayout._plots[subplot]; xa = plotinfo.xaxis; ya = plotinfo.yaxis; /* * x lines get longer where they meet y lines, to make a crisp corner. * The x lines get the padding (margin.pad) plus the y line width to * fill up the corner nicely. Free x lines are excluded - they always * span exactly the data area of the plot * * | XXXXX * | XXXXX * | * +------ * x1 * ----- * x2 */ var xPath = 'M0,0'; if(shouldShowLinesOrTicks(xa, subplot)) { leftYLineWidth = findCounterAxisLineWidth(xa, 'left', ya, axList); xLinesXLeft = xa._offset - (leftYLineWidth ? (pad + leftYLineWidth) : 0); rightYLineWidth = findCounterAxisLineWidth(xa, 'right', ya, axList); xLinesXRight = xa._offset + xa._length + (rightYLineWidth ? (pad + rightYLineWidth) : 0); xLinesYBottom = getLinePosition(xa, ya, 'bottom'); xLinesYTop = getLinePosition(xa, ya, 'top'); // save axis line positions for extra ticks to reference // each subplot that gets ticks from "allticks" gets an entry: // [left or bottom, right or top] extraSubplot = (!xa._anchorAxis || subplot !== xa._mainSubplot); if(extraSubplot && (xa.mirror === 'allticks' || xa.mirror === 'all')) { xa._linepositions[subplot] = [xLinesYBottom, xLinesYTop]; } xPath = mainPath(xa, xLinePath, xLinePathFree); if(extraSubplot && xa.showline && (xa.mirror === 'all' || xa.mirror === 'allticks')) { xPath += xLinePath(xLinesYBottom) + xLinePath(xLinesYTop); } plotinfo.xlines .style('stroke-width', xa._lw + 'px') .call(Color.stroke, xa.showline ? xa.linecolor : 'rgba(0,0,0,0)'); } plotinfo.xlines.attr('d', xPath); /* * y lines that meet x axes get longer only by margin.pad, because * the x axes fill in the corner space. Free y axes, like free x axes, * always span exactly the data area of the plot * * | | XXXX * y2| y1| XXXX * | | XXXX * | * +----- */ var yPath = 'M0,0'; if(shouldShowLinesOrTicks(ya, subplot)) { connectYBottom = findCounterAxisLineWidth(ya, 'bottom', xa, axList); yLinesYBottom = ya._offset + ya._length + (connectYBottom ? pad : 0); connectYTop = findCounterAxisLineWidth(ya, 'top', xa, axList); yLinesYTop = ya._offset - (connectYTop ? pad : 0); yLinesXLeft = getLinePosition(ya, xa, 'left'); yLinesXRight = getLinePosition(ya, xa, 'right'); extraSubplot = (!ya._anchorAxis || subplot !== ya._mainSubplot); if(extraSubplot && (ya.mirror === 'allticks' || ya.mirror === 'all')) { ya._linepositions[subplot] = [yLinesXLeft, yLinesXRight]; } yPath = mainPath(ya, yLinePath, yLinePathFree); if(extraSubplot && ya.showline && (ya.mirror === 'all' || ya.mirror === 'allticks')) { yPath += yLinePath(yLinesXLeft) + yLinePath(yLinesXRight); } plotinfo.ylines .style('stroke-width', ya._lw + 'px') .call(Color.stroke, ya.showline ? ya.linecolor : 'rgba(0,0,0,0)'); } plotinfo.ylines.attr('d', yPath); } Axes.makeClipPaths(gd); return Plots.previousPromises(gd); } function shouldShowLinesOrTicks(ax, subplot) { return (ax.ticks || ax.showline) && (subplot === ax._mainSubplot || ax.mirror === 'all' || ax.mirror === 'allticks'); } /* * should we draw a line on counterAx at this side of ax? * It's assumed that counterAx is known to overlay the subplot we're working on * but it may not be its main axis. */ function shouldShowLineThisSide(ax, side, counterAx) { // does counterAx get a line at all? if(!counterAx.showline || !counterAx._lw) return false; // are we drawing *all* lines for counterAx? if(counterAx.mirror === 'all' || counterAx.mirror === 'allticks') return true; var anchorAx = counterAx._anchorAxis; // is this a free axis? free axes can only have a subplot side-line with all(ticks)? mirroring if(!anchorAx) return false; // in order to handle cases where the user forgot to anchor this axis correctly // (because its default anchor has the same domain on the relevant end) // check whether the relevant position is the same. var sideIndex = alignmentConstants.FROM_BL[side]; if(counterAx.side === side) { return anchorAx.domain[sideIndex] === ax.domain[sideIndex]; } return counterAx.mirror && anchorAx.domain[1 - sideIndex] === ax.domain[1 - sideIndex]; } /* * Is there another axis intersecting `side` end of `ax`? * First look at `counterAx` (the axis for this subplot), * then at all other potential counteraxes on or overlaying this subplot. * Take the line width from the first one that has a line. */ function findCounterAxisLineWidth(ax, side, counterAx, axList) { if(shouldShowLineThisSide(ax, side, counterAx)) { return counterAx._lw; } for(var i = 0; i < axList.length; i++) { var axi = axList[i]; if(axi._mainAxis === counterAx._mainAxis && shouldShowLineThisSide(ax, side, axi)) { return axi._lw; } } return 0; } exports.drawMainTitle = function(gd) { var fullLayout = gd._fullLayout; var textAnchor = getMainTitleTextAnchor(fullLayout); var dy = getMainTitleDy(fullLayout); Titles.draw(gd, 'gtitle', { propContainer: fullLayout, propName: 'title.text', placeholder: fullLayout._dfltTitle.plot, attributes: { x: getMainTitleX(fullLayout, textAnchor), y: getMainTitleY(fullLayout, dy), 'text-anchor': textAnchor, dy: dy } }); }; function getMainTitleX(fullLayout, textAnchor) { var title = fullLayout.title; var gs = fullLayout._size; var hPadShift = 0; if(textAnchor === SVG_TEXT_ANCHOR_START) { hPadShift = title.pad.l; } else if(textAnchor === SVG_TEXT_ANCHOR_END) { hPadShift = -title.pad.r; } switch(title.xref) { case 'paper': return gs.l + gs.w * title.x + hPadShift; case 'container': default: return fullLayout.width * title.x + hPadShift; } } function getMainTitleY(fullLayout, dy) { var title = fullLayout.title; var gs = fullLayout._size; var vPadShift = 0; if(dy === '0em' || !dy) { vPadShift = -title.pad.b; } else if(dy === alignmentConstants.CAP_SHIFT + 'em') { vPadShift = title.pad.t; } if(title.y === 'auto') { return gs.t / 2; } else { switch(title.yref) { case 'paper': return gs.t + gs.h - gs.h * title.y + vPadShift; case 'container': default: return fullLayout.height - fullLayout.height * title.y + vPadShift; } } } function getMainTitleTextAnchor(fullLayout) { var title = fullLayout.title; var textAnchor = SVG_TEXT_ANCHOR_MIDDLE; if(Lib.isRightAnchor(title)) { textAnchor = SVG_TEXT_ANCHOR_END; } else if(Lib.isLeftAnchor(title)) { textAnchor = SVG_TEXT_ANCHOR_START; } return textAnchor; } function getMainTitleDy(fullLayout) { var title = fullLayout.title; var dy = '0em'; if(Lib.isTopAnchor(title)) { dy = alignmentConstants.CAP_SHIFT + 'em'; } else if(Lib.isMiddleAnchor(title)) { dy = alignmentConstants.MID_SHIFT + 'em'; } return dy; } exports.doTraceStyle = function(gd) { var calcdata = gd.calcdata; var editStyleCalls = []; var i; for(i = 0; i < calcdata.length; i++) { var cd = calcdata[i]; var cd0 = cd[0] || {}; var trace = cd0.trace || {}; var _module = trace._module || {}; // See if we need to do arraysToCalcdata // call it regardless of what change we made, in case // supplyDefaults brought in an array that was already // in gd.data but not in gd._fullData previously var arraysToCalcdata = _module.arraysToCalcdata; if(arraysToCalcdata) arraysToCalcdata(cd, trace); var editStyle = _module.editStyle; if(editStyle) editStyleCalls.push({fn: editStyle, cd0: cd0}); } if(editStyleCalls.length) { for(i = 0; i < editStyleCalls.length; i++) { var edit = editStyleCalls[i]; edit.fn(gd, edit.cd0); } clearGlCanvases(gd); exports.redrawReglTraces(gd); } Plots.style(gd); Registry.getComponentMethod('legend', 'draw')(gd); return Plots.previousPromises(gd); }; exports.doColorBars = function(gd) { Registry.getComponentMethod('colorbar', 'draw')(gd); return Plots.previousPromises(gd); }; // force plot() to redo the layout and replot with the modified layout exports.layoutReplot = function(gd) { var layout = gd.layout; gd.layout = undefined; return Registry.call('_doPlot', gd, '', layout); }; exports.doLegend = function(gd) { Registry.getComponentMethod('legend', 'draw')(gd); return Plots.previousPromises(gd); }; exports.doTicksRelayout = function(gd) { Axes.draw(gd, 'redraw'); if(gd._fullLayout._hasOnlyLargeSploms) { Registry.subplotsRegistry.splom.updateGrid(gd); clearGlCanvases(gd); exports.redrawReglTraces(gd); } exports.drawMainTitle(gd); return Plots.previousPromises(gd); }; exports.doModeBar = function(gd) { var fullLayout = gd._fullLayout; ModeBar.manage(gd); for(var i = 0; i < fullLayout._basePlotModules.length; i++) { var updateFx = fullLayout._basePlotModules[i].updateFx; if(updateFx) updateFx(gd); } return Plots.previousPromises(gd); }; exports.doCamera = function(gd) { var fullLayout = gd._fullLayout; var sceneIds = fullLayout._subplots.gl3d; for(var i = 0; i < sceneIds.length; i++) { var sceneLayout = fullLayout[sceneIds[i]]; var scene = sceneLayout._scene; scene.setViewport(sceneLayout); } }; exports.drawData = function(gd) { var fullLayout = gd._fullLayout; clearGlCanvases(gd); // loop over the base plot modules present on graph var basePlotModules = fullLayout._basePlotModules; for(var i = 0; i < basePlotModules.length; i++) { basePlotModules[i].plot(gd); } exports.redrawReglTraces(gd); // styling separate from drawing Plots.style(gd); // draw components that can be drawn on axes, // and that do not push the margins Registry.getComponentMethod('shapes', 'draw')(gd); Registry.getComponentMethod('annotations', 'draw')(gd); Registry.getComponentMethod('images', 'draw')(gd); // Mark the first render as complete fullLayout._replotting = false; return Plots.previousPromises(gd); }; // Draw (or redraw) all regl-based traces in one go, // useful during drag and selection where buffers of targeted traces are updated, // but all traces need to be redrawn following clearGlCanvases. // // Note that _module.plot for regl trace does NOT draw things // on the canvas, they only update the buffers. // Drawing is perform here. // // TODO try adding per-subplot option using gl.SCISSOR_TEST for // non-overlaying, disjoint subplots. // // TODO try to include parcoords in here. // https://github.com/plotly/plotly.js/issues/3069 exports.redrawReglTraces = function(gd) { var fullLayout = gd._fullLayout; if(fullLayout._has('regl')) { var fullData = gd._fullData; var cartesianIds = []; var polarIds = []; var i, sp; if(fullLayout._hasOnlyLargeSploms) { fullLayout._splomGrid.draw(); } // N.B. // - Loop over fullData (not _splomScenes) to preserve splom trace-to-trace ordering // - Fill list if subplot ids (instead of fullLayout._subplots) to handle cases where all traces // of a given module are `visible !== true` for(i = 0; i < fullData.length; i++) { var trace = fullData[i]; if(trace.visible === true && trace._length !== 0) { if(trace.type === 'splom') { fullLayout._splomScenes[trace.uid].draw(); } else if(trace.type === 'scattergl') { Lib.pushUnique(cartesianIds, trace.xaxis + trace.yaxis); } else if(trace.type === 'scatterpolargl') { Lib.pushUnique(polarIds, trace.subplot); } } } for(i = 0; i < cartesianIds.length; i++) { sp = fullLayout._plots[cartesianIds[i]]; if(sp._scene) sp._scene.draw(); } for(i = 0; i < polarIds.length; i++) { sp = fullLayout[polarIds[i]]._subplot; if(sp._scene) sp._scene.draw(); } } }; exports.doAutoRangeAndConstraints = function(gd) { var axList = Axes.list(gd, '', true); var ax; var autoRangeDone = {}; for(var i = 0; i < axList.length; i++) { ax = axList[i]; if(!autoRangeDone[ax._id]) { autoRangeDone[ax._id] = 1; cleanAxisConstraints(gd, ax); doAutoRange(gd, ax); // For matching axes, just propagate this autorange to the group. // The extra arg to doAutoRange avoids recalculating the range, // since doAutoRange by itself accounts for all matching axes. but // there are other side-effects of doAutoRange that we still want. var matchGroup = ax._matchGroup; if(matchGroup) { for(var id2 in matchGroup) { var ax2 = Axes.getFromId(gd, id2); doAutoRange(gd, ax2, ax.range); autoRangeDone[id2] = 1; } } } } enforceAxisConstraints(gd); }; // An initial paint must be completed before these components can be // correctly sized and the whole plot re-margined. fullLayout._replotting must // be set to false before these will work properly. exports.finalDraw = function(gd) { // TODO: rangesliders really belong in marginPushers but they need to be // drawn after data - can we at least get the margin pushing part separated // out and done earlier? Registry.getComponentMethod('rangeslider', 'draw')(gd); // TODO: rangeselector only needs to be here (in addition to drawMarginPushers) // because the margins need to be fully determined before we can call // autorange and update axis ranges (which rangeselector needs to know which // button is active). Can we break out its automargin step from its draw step? Registry.getComponentMethod('rangeselector', 'draw')(gd); }; exports.drawMarginPushers = function(gd) { Registry.getComponentMethod('legend', 'draw')(gd); Registry.getComponentMethod('rangeselector', 'draw')(gd); Registry.getComponentMethod('sliders', 'draw')(gd); Registry.getComponentMethod('updatemenus', 'draw')(gd); Registry.getComponentMethod('colorbar', 'draw')(gd); }; },{"../components/color":157,"../components/drawing":179,"../components/modebar":220,"../components/titles":255,"../constants/alignment":262,"../lib":287,"../lib/clear_gl_canvases":275,"../plots/cartesian/autorange":333,"../plots/cartesian/axes":334,"../plots/cartesian/constraints":342,"../plots/plots":371,"../registry":378,"@plotly/d3":20}],325:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var isPlainObject = Lib.isPlainObject; var PlotSchema = _dereq_('./plot_schema'); var Plots = _dereq_('../plots/plots'); var plotAttributes = _dereq_('../plots/attributes'); var Template = _dereq_('./plot_template'); var dfltConfig = _dereq_('./plot_config').dfltConfig; /** * Plotly.makeTemplate: create a template off an existing figure to reuse * style attributes on other figures. * * Note: separated from the rest of templates because otherwise we get circular * references due to PlotSchema. * * @param {object|DOM element|string} figure: The figure to base the template on * should contain a trace array `figure.data` * and a layout object `figure.layout` * @returns {object} template: the extracted template - can then be used as * `layout.template` in another figure. */ exports.makeTemplate = function(figure) { figure = Lib.isPlainObject(figure) ? figure : Lib.getGraphDiv(figure); figure = Lib.extendDeep({_context: dfltConfig}, {data: figure.data, layout: figure.layout}); Plots.supplyDefaults(figure); var data = figure.data || []; var layout = figure.layout || {}; // copy over a few items to help follow the schema layout._basePlotModules = figure._fullLayout._basePlotModules; layout._modules = figure._fullLayout._modules; var template = { data: {}, layout: {} }; /* * Note: we do NOT validate template values, we just take what's in the * user inputs data and layout, not the validated values in fullData and * fullLayout. Even if we were to validate here, there's no guarantee that * these values would still be valid when applied to a new figure, which * may contain different trace modes, different axes, etc. So it's * important that when applying a template we still validate the template * values, rather than just using them as defaults. */ data.forEach(function(trace) { // TODO: What if no style info is extracted for this trace. We may // not want an empty object as the null value. // TODO: allow transforms to contribute to templates? // as it stands they are ignored, which may be for the best... var traceTemplate = {}; walkStyleKeys(trace, traceTemplate, getTraceInfo.bind(null, trace)); var traceType = Lib.coerce(trace, {}, plotAttributes, 'type'); var typeTemplates = template.data[traceType]; if(!typeTemplates) typeTemplates = template.data[traceType] = []; typeTemplates.push(traceTemplate); }); walkStyleKeys(layout, template.layout, getLayoutInfo.bind(null, layout)); /* * Compose the new template with an existing one to the same effect * * NOTE: there's a possibility of slightly different behavior: if the plot * has an invalid value and the old template has a valid value for the same * attribute, the plot will use the old template value but this routine * will pull the invalid value (resulting in the original default). * In the general case it's not possible to solve this with a single value, * since valid options can be context-dependent. It could be solved with * a *list* of values, but that would be huge complexity for little gain. */ delete template.layout.template; var oldTemplate = layout.template; if(isPlainObject(oldTemplate)) { var oldLayoutTemplate = oldTemplate.layout; var i, traceType, oldTypeTemplates, oldTypeLen, typeTemplates, typeLen; if(isPlainObject(oldLayoutTemplate)) { mergeTemplates(oldLayoutTemplate, template.layout); } var oldDataTemplate = oldTemplate.data; if(isPlainObject(oldDataTemplate)) { for(traceType in template.data) { oldTypeTemplates = oldDataTemplate[traceType]; if(Array.isArray(oldTypeTemplates)) { typeTemplates = template.data[traceType]; typeLen = typeTemplates.length; oldTypeLen = oldTypeTemplates.length; for(i = 0; i < typeLen; i++) { mergeTemplates(oldTypeTemplates[i % oldTypeLen], typeTemplates[i]); } for(i = typeLen; i < oldTypeLen; i++) { typeTemplates.push(Lib.extendDeep({}, oldTypeTemplates[i])); } } } for(traceType in oldDataTemplate) { if(!(traceType in template.data)) { template.data[traceType] = Lib.extendDeep([], oldDataTemplate[traceType]); } } } } return template; }; function mergeTemplates(oldTemplate, newTemplate) { // we don't care about speed here, just make sure we have a totally // distinct object from the previous template oldTemplate = Lib.extendDeep({}, oldTemplate); // sort keys so we always get annotationdefaults before annotations etc // so arrayTemplater will work right var oldKeys = Object.keys(oldTemplate).sort(); var i, j; function mergeOne(oldVal, newVal, key) { if(isPlainObject(newVal) && isPlainObject(oldVal)) { mergeTemplates(oldVal, newVal); } else if(Array.isArray(newVal) && Array.isArray(oldVal)) { // Note: omitted `inclusionAttr` from arrayTemplater here, // it's irrelevant as we only want the resulting `_template`. var templater = Template.arrayTemplater({_template: oldTemplate}, key); for(j = 0; j < newVal.length; j++) { var item = newVal[j]; var oldItem = templater.newItem(item)._template; if(oldItem) mergeTemplates(oldItem, item); } var defaultItems = templater.defaultItems(); for(j = 0; j < defaultItems.length; j++) newVal.push(defaultItems[j]._template); // templateitemname only applies to receiving plots for(j = 0; j < newVal.length; j++) delete newVal[j].templateitemname; } } for(i = 0; i < oldKeys.length; i++) { var key = oldKeys[i]; var oldVal = oldTemplate[key]; if(key in newTemplate) { mergeOne(oldVal, newTemplate[key], key); } else newTemplate[key] = oldVal; // if this is a base key from the old template (eg xaxis), look for // extended keys (eg xaxis2) in the new template to merge into if(getBaseKey(key) === key) { for(var key2 in newTemplate) { var baseKey2 = getBaseKey(key2); if(key2 !== baseKey2 && baseKey2 === key && !(key2 in oldTemplate)) { mergeOne(oldVal, newTemplate[key2], key); } } } } } function getBaseKey(key) { return key.replace(/[0-9]+$/, ''); } function walkStyleKeys(parent, templateOut, getAttributeInfo, path, basePath) { var pathAttr = basePath && getAttributeInfo(basePath); for(var key in parent) { var child = parent[key]; var nextPath = getNextPath(parent, key, path); var nextBasePath = getNextPath(parent, key, basePath); var attr = getAttributeInfo(nextBasePath); if(!attr) { var baseKey = getBaseKey(key); if(baseKey !== key) { nextBasePath = getNextPath(parent, baseKey, basePath); attr = getAttributeInfo(nextBasePath); } } // we'll get an attr if path starts with a valid part, then has an // invalid ending. Make sure we got all the way to the end. if(pathAttr && (pathAttr === attr)) continue; if(!attr || attr._noTemplating || attr.valType === 'data_array' || (attr.arrayOk && Array.isArray(child)) ) { continue; } if(!attr.valType && isPlainObject(child)) { walkStyleKeys(child, templateOut, getAttributeInfo, nextPath, nextBasePath); } else if(attr._isLinkedToArray && Array.isArray(child)) { var dfltDone = false; var namedIndex = 0; var usedNames = {}; for(var i = 0; i < child.length; i++) { var item = child[i]; if(isPlainObject(item)) { var name = item.name; if(name) { if(!usedNames[name]) { // named array items: allow all attributes except data arrays walkStyleKeys(item, templateOut, getAttributeInfo, getNextPath(child, namedIndex, nextPath), getNextPath(child, namedIndex, nextBasePath)); namedIndex++; usedNames[name] = 1; } } else if(!dfltDone) { var dfltKey = Template.arrayDefaultKey(key); var dfltPath = getNextPath(parent, dfltKey, path); // getAttributeInfo will fail if we try to use dfltKey directly. // Instead put this item into the next array element, then // pull it out and move it to dfltKey. var pathInArray = getNextPath(child, namedIndex, nextPath); walkStyleKeys(item, templateOut, getAttributeInfo, pathInArray, getNextPath(child, namedIndex, nextBasePath)); var itemPropInArray = Lib.nestedProperty(templateOut, pathInArray); var dfltProp = Lib.nestedProperty(templateOut, dfltPath); dfltProp.set(itemPropInArray.get()); itemPropInArray.set(null); dfltDone = true; } } } } else { var templateProp = Lib.nestedProperty(templateOut, nextPath); templateProp.set(child); } } } function getLayoutInfo(layout, path) { return PlotSchema.getLayoutValObject( layout, Lib.nestedProperty({}, path).parts ); } function getTraceInfo(trace, path) { return PlotSchema.getTraceValObject( trace, Lib.nestedProperty({}, path).parts ); } function getNextPath(parent, key, path) { var nextPath; if(!path) nextPath = key; else if(Array.isArray(parent)) nextPath = path + '[' + key + ']'; else nextPath = path + '.' + key; return nextPath; } /** * validateTemplate: Test for consistency between the given figure and * a template, either already included in the figure or given separately. * Note that not every issue we identify here is necessarily a problem, * it depends on what you're using the template for. * * @param {object|DOM element} figure: the plot, with {data, layout} members, * to test the template against * @param {Optional(object)} template: the template, with its own {data, layout}, * to test. If omitted, we will look for a template already attached as the * plot's `layout.template` attribute. * * @returns {array} array of error objects each containing: * - {string} code * error code ('missing', 'unused', 'reused', 'noLayout', 'noData') * - {string} msg * a full readable description of the issue. */ exports.validateTemplate = function(figureIn, template) { var figure = Lib.extendDeep({}, { _context: dfltConfig, data: figureIn.data, layout: figureIn.layout }); var layout = figure.layout || {}; if(!isPlainObject(template)) template = layout.template || {}; var layoutTemplate = template.layout; var dataTemplate = template.data; var errorList = []; figure.layout = layout; figure.layout.template = template; Plots.supplyDefaults(figure); var fullLayout = figure._fullLayout; var fullData = figure._fullData; var layoutPaths = {}; function crawlLayoutForContainers(obj, paths) { for(var key in obj) { if(key.charAt(0) !== '_' && isPlainObject(obj[key])) { var baseKey = getBaseKey(key); var nextPaths = []; var i; for(i = 0; i < paths.length; i++) { nextPaths.push(getNextPath(obj, key, paths[i])); if(baseKey !== key) nextPaths.push(getNextPath(obj, baseKey, paths[i])); } for(i = 0; i < nextPaths.length; i++) { layoutPaths[nextPaths[i]] = 1; } crawlLayoutForContainers(obj[key], nextPaths); } } } function crawlLayoutTemplateForContainers(obj, path) { for(var key in obj) { if(key.indexOf('defaults') === -1 && isPlainObject(obj[key])) { var nextPath = getNextPath(obj, key, path); if(layoutPaths[nextPath]) { crawlLayoutTemplateForContainers(obj[key], nextPath); } else { errorList.push({code: 'unused', path: nextPath}); } } } } if(!isPlainObject(layoutTemplate)) { errorList.push({code: 'layout'}); } else { crawlLayoutForContainers(fullLayout, ['layout']); crawlLayoutTemplateForContainers(layoutTemplate, 'layout'); } if(!isPlainObject(dataTemplate)) { errorList.push({code: 'data'}); } else { var typeCount = {}; var traceType; for(var i = 0; i < fullData.length; i++) { var fullTrace = fullData[i]; traceType = fullTrace.type; typeCount[traceType] = (typeCount[traceType] || 0) + 1; if(!fullTrace._fullInput._template) { // this takes care of the case of traceType in the data but not // the template errorList.push({ code: 'missing', index: fullTrace._fullInput.index, traceType: traceType }); } } for(traceType in dataTemplate) { var templateCount = dataTemplate[traceType].length; var dataCount = typeCount[traceType] || 0; if(templateCount > dataCount) { errorList.push({ code: 'unused', traceType: traceType, templateCount: templateCount, dataCount: dataCount }); } else if(dataCount > templateCount) { errorList.push({ code: 'reused', traceType: traceType, templateCount: templateCount, dataCount: dataCount }); } } } // _template: false is when someone tried to modify an array item // but there was no template with matching name function crawlForMissingTemplates(obj, path) { for(var key in obj) { if(key.charAt(0) === '_') continue; var val = obj[key]; var nextPath = getNextPath(obj, key, path); if(isPlainObject(val)) { if(Array.isArray(obj) && val._template === false && val.templateitemname) { errorList.push({ code: 'missing', path: nextPath, templateitemname: val.templateitemname }); } crawlForMissingTemplates(val, nextPath); } else if(Array.isArray(val) && hasPlainObject(val)) { crawlForMissingTemplates(val, nextPath); } } } crawlForMissingTemplates({data: fullData, layout: fullLayout}, ''); if(errorList.length) return errorList.map(format); }; function hasPlainObject(arr) { for(var i = 0; i < arr.length; i++) { if(isPlainObject(arr[i])) return true; } } function format(opts) { var msg; switch(opts.code) { case 'data': msg = 'The template has no key data.'; break; case 'layout': msg = 'The template has no key layout.'; break; case 'missing': if(opts.path) { msg = 'There are no templates for item ' + opts.path + ' with name ' + opts.templateitemname; } else { msg = 'There are no templates for trace ' + opts.index + ', of type ' + opts.traceType + '.'; } break; case 'unused': if(opts.path) { msg = 'The template item at ' + opts.path + ' was not used in constructing the plot.'; } else if(opts.dataCount) { msg = 'Some of the templates of type ' + opts.traceType + ' were not used. The template has ' + opts.templateCount + ' traces, the data only has ' + opts.dataCount + ' of this type.'; } else { msg = 'The template has ' + opts.templateCount + ' traces of type ' + opts.traceType + ' but there are none in the data.'; } break; case 'reused': msg = 'Some of the templates of type ' + opts.traceType + ' were used more than once. The template has ' + opts.templateCount + ' traces, the data has ' + opts.dataCount + ' of this type.'; break; } opts.msg = msg; return opts; } },{"../lib":287,"../plots/attributes":330,"../plots/plots":371,"./plot_config":321,"./plot_schema":322,"./plot_template":323}],326:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var plotApi = _dereq_('./plot_api'); var plots = _dereq_('../plots/plots'); var Lib = _dereq_('../lib'); var helpers = _dereq_('../snapshot/helpers'); var toSVG = _dereq_('../snapshot/tosvg'); var svgToImg = _dereq_('../snapshot/svgtoimg'); var version = _dereq_('../version').version; var attrs = { format: { valType: 'enumerated', values: ['png', 'jpeg', 'webp', 'svg', 'full-json'], dflt: 'png', }, width: { valType: 'number', min: 1, }, height: { valType: 'number', min: 1, }, scale: { valType: 'number', min: 0, dflt: 1, }, setBackground: { valType: 'any', dflt: false, }, imageDataOnly: { valType: 'boolean', dflt: false, } }; /** Plotly.toImage * * @param {object | string | HTML div} gd * can either be a data/layout/config object * or an existing graph
* or an id to an existing graph
* @param {object} opts (see above) * @return {promise} */ function toImage(gd, opts) { opts = opts || {}; var data; var layout; var config; var fullLayout; if(Lib.isPlainObject(gd)) { data = gd.data || []; layout = gd.layout || {}; config = gd.config || {}; fullLayout = {}; } else { gd = Lib.getGraphDiv(gd); data = Lib.extendDeep([], gd.data); layout = Lib.extendDeep({}, gd.layout); config = gd._context; fullLayout = gd._fullLayout || {}; } function isImpliedOrValid(attr) { return !(attr in opts) || Lib.validate(opts[attr], attrs[attr]); } if((!isImpliedOrValid('width') && opts.width !== null) || (!isImpliedOrValid('height') && opts.height !== null)) { throw new Error('Height and width should be pixel values.'); } if(!isImpliedOrValid('format')) { throw new Error('Export format is not ' + Lib.join2(attrs.format.values, ', ', ' or ') + '.'); } var fullOpts = {}; function coerce(attr, dflt) { return Lib.coerce(opts, fullOpts, attrs, attr, dflt); } var format = coerce('format'); var width = coerce('width'); var height = coerce('height'); var scale = coerce('scale'); var setBackground = coerce('setBackground'); var imageDataOnly = coerce('imageDataOnly'); // put the cloned div somewhere off screen before attaching to DOM var clonedGd = document.createElement('div'); clonedGd.style.position = 'absolute'; clonedGd.style.left = '-5000px'; document.body.appendChild(clonedGd); // extend layout with image options var layoutImage = Lib.extendFlat({}, layout); if(width) { layoutImage.width = width; } else if(opts.width === null && isNumeric(fullLayout.width)) { layoutImage.width = fullLayout.width; } if(height) { layoutImage.height = height; } else if(opts.height === null && isNumeric(fullLayout.height)) { layoutImage.height = fullLayout.height; } // extend config for static plot var configImage = Lib.extendFlat({}, config, { _exportedPlot: true, staticPlot: true, setBackground: setBackground }); var redrawFunc = helpers.getRedrawFunc(clonedGd); function wait() { return new Promise(function(resolve) { setTimeout(resolve, helpers.getDelay(clonedGd._fullLayout)); }); } function convert() { return new Promise(function(resolve, reject) { var svg = toSVG(clonedGd, format, scale); var width = clonedGd._fullLayout.width; var height = clonedGd._fullLayout.height; function cleanup() { plotApi.purge(clonedGd); document.body.removeChild(clonedGd); } if(format === 'full-json') { var json = plots.graphJson(clonedGd, false, 'keepdata', 'object', true, true); json.version = version; json = JSON.stringify(json); cleanup(); if(imageDataOnly) { return resolve(json); } else { return resolve(helpers.encodeJSON(json)); } } cleanup(); if(format === 'svg') { if(imageDataOnly) { return resolve(svg); } else { return resolve(helpers.encodeSVG(svg)); } } var canvas = document.createElement('canvas'); canvas.id = Lib.randstr(); svgToImg({ format: format, width: width, height: height, scale: scale, canvas: canvas, svg: svg, // ask svgToImg to return a Promise // rather than EventEmitter // leave EventEmitter for backward // compatibility promise: true }) .then(resolve) .catch(reject); }); } function urlToImageData(url) { if(imageDataOnly) { return url.replace(helpers.IMAGE_URL_PREFIX, ''); } else { return url; } } return new Promise(function(resolve, reject) { plotApi.newPlot(clonedGd, data, layoutImage, configImage) .then(redrawFunc) .then(wait) .then(convert) .then(function(url) { resolve(urlToImageData(url)); }) .catch(function(err) { reject(err); }); }); } module.exports = toImage; },{"../lib":287,"../plots/plots":371,"../snapshot/helpers":382,"../snapshot/svgtoimg":384,"../snapshot/tosvg":386,"../version":552,"./plot_api":320,"fast-isnumeric":33}],327:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var Plots = _dereq_('../plots/plots'); var PlotSchema = _dereq_('./plot_schema'); var dfltConfig = _dereq_('./plot_config').dfltConfig; var isPlainObject = Lib.isPlainObject; var isArray = Array.isArray; var isArrayOrTypedArray = Lib.isArrayOrTypedArray; /** * Validate a data array and layout object. * * @param {array} data * @param {object} layout * * @return {array} array of error objects each containing: * - {string} code * error code ('object', 'array', 'schema', 'unused', 'invisible' or 'value') * - {string} container * container where the error occurs ('data' or 'layout') * - {number} trace * trace index of the 'data' container where the error occurs * - {array} path * nested path to the key that causes the error * - {string} astr * attribute string variant of 'path' compatible with Plotly.restyle and * Plotly.relayout. * - {string} msg * error message (shown in console in logger config argument is enable) */ module.exports = function validate(data, layout) { if(data === undefined) data = []; if(layout === undefined) layout = {}; var schema = PlotSchema.get(); var errorList = []; var gd = {_context: Lib.extendFlat({}, dfltConfig)}; var dataIn, layoutIn; if(isArray(data)) { gd.data = Lib.extendDeep([], data); dataIn = data; } else { gd.data = []; dataIn = []; errorList.push(format('array', 'data')); } if(isPlainObject(layout)) { gd.layout = Lib.extendDeep({}, layout); layoutIn = layout; } else { gd.layout = {}; layoutIn = {}; if(arguments.length > 1) { errorList.push(format('object', 'layout')); } } // N.B. dataIn and layoutIn are in general not the same as // gd.data and gd.layout after supplyDefaults as some attributes // in gd.data and gd.layout (still) get mutated during this step. Plots.supplyDefaults(gd); var dataOut = gd._fullData; var len = dataIn.length; for(var i = 0; i < len; i++) { var traceIn = dataIn[i]; var base = ['data', i]; if(!isPlainObject(traceIn)) { errorList.push(format('object', base)); continue; } var traceOut = dataOut[i]; var traceType = traceOut.type; var traceSchema = schema.traces[traceType].attributes; // PlotSchema does something fancy with trace 'type', reset it here // to make the trace schema compatible with Lib.validate. traceSchema.type = { valType: 'enumerated', values: [traceType] }; if(traceOut.visible === false && traceIn.visible !== false) { errorList.push(format('invisible', base)); } crawl(traceIn, traceOut, traceSchema, errorList, base); var transformsIn = traceIn.transforms; var transformsOut = traceOut.transforms; if(transformsIn) { if(!isArray(transformsIn)) { errorList.push(format('array', base, ['transforms'])); } base.push('transforms'); for(var j = 0; j < transformsIn.length; j++) { var path = ['transforms', j]; var transformType = transformsIn[j].type; if(!isPlainObject(transformsIn[j])) { errorList.push(format('object', base, path)); continue; } var transformSchema = schema.transforms[transformType] ? schema.transforms[transformType].attributes : {}; // add 'type' to transform schema to validate the transform type transformSchema.type = { valType: 'enumerated', values: Object.keys(schema.transforms) }; crawl(transformsIn[j], transformsOut[j], transformSchema, errorList, base, path); } } } var layoutOut = gd._fullLayout; var layoutSchema = fillLayoutSchema(schema, dataOut); crawl(layoutIn, layoutOut, layoutSchema, errorList, 'layout'); // return undefined if no validation errors were found return (errorList.length === 0) ? void(0) : errorList; }; function crawl(objIn, objOut, schema, list, base, path) { path = path || []; var keys = Object.keys(objIn); for(var i = 0; i < keys.length; i++) { var k = keys[i]; // transforms are handled separately if(k === 'transforms') continue; var p = path.slice(); p.push(k); var valIn = objIn[k]; var valOut = objOut[k]; var nestedSchema = getNestedSchema(schema, k); var nestedValType = (nestedSchema || {}).valType; var isInfoArray = nestedValType === 'info_array'; var isColorscale = nestedValType === 'colorscale'; var items = (nestedSchema || {}).items; if(!isInSchema(schema, k)) { list.push(format('schema', base, p)); } else if(isPlainObject(valIn) && isPlainObject(valOut) && nestedValType !== 'any') { crawl(valIn, valOut, nestedSchema, list, base, p); } else if(isInfoArray && isArray(valIn)) { if(valIn.length > valOut.length) { list.push(format('unused', base, p.concat(valOut.length))); } var len = valOut.length; var arrayItems = Array.isArray(items); if(arrayItems) len = Math.min(len, items.length); var m, n, item, valInPart, valOutPart; if(nestedSchema.dimensions === 2) { for(n = 0; n < len; n++) { if(isArray(valIn[n])) { if(valIn[n].length > valOut[n].length) { list.push(format('unused', base, p.concat(n, valOut[n].length))); } var len2 = valOut[n].length; for(m = 0; m < (arrayItems ? Math.min(len2, items[n].length) : len2); m++) { item = arrayItems ? items[n][m] : items; valInPart = valIn[n][m]; valOutPart = valOut[n][m]; if(!Lib.validate(valInPart, item)) { list.push(format('value', base, p.concat(n, m), valInPart)); } else if(valOutPart !== valInPart && valOutPart !== +valInPart) { list.push(format('dynamic', base, p.concat(n, m), valInPart, valOutPart)); } } } else { list.push(format('array', base, p.concat(n), valIn[n])); } } } else { for(n = 0; n < len; n++) { item = arrayItems ? items[n] : items; valInPart = valIn[n]; valOutPart = valOut[n]; if(!Lib.validate(valInPart, item)) { list.push(format('value', base, p.concat(n), valInPart)); } else if(valOutPart !== valInPart && valOutPart !== +valInPart) { list.push(format('dynamic', base, p.concat(n), valInPart, valOutPart)); } } } } else if(nestedSchema.items && !isInfoArray && isArray(valIn)) { var _nestedSchema = items[Object.keys(items)[0]]; var indexList = []; var j, _p; // loop over valOut items while keeping track of their // corresponding input container index (given by _index) for(j = 0; j < valOut.length; j++) { var _index = valOut[j]._index || j; _p = p.slice(); _p.push(_index); if(isPlainObject(valIn[_index]) && isPlainObject(valOut[j])) { indexList.push(_index); var valInj = valIn[_index]; var valOutj = valOut[j]; if(isPlainObject(valInj) && valInj.visible !== false && valOutj.visible === false) { list.push(format('invisible', base, _p)); } else crawl(valInj, valOutj, _nestedSchema, list, base, _p); } } // loop over valIn to determine where it went wrong for some items for(j = 0; j < valIn.length; j++) { _p = p.slice(); _p.push(j); if(!isPlainObject(valIn[j])) { list.push(format('object', base, _p, valIn[j])); } else if(indexList.indexOf(j) === -1) { list.push(format('unused', base, _p)); } } } else if(!isPlainObject(valIn) && isPlainObject(valOut)) { list.push(format('object', base, p, valIn)); } else if(!isArrayOrTypedArray(valIn) && isArrayOrTypedArray(valOut) && !isInfoArray && !isColorscale) { list.push(format('array', base, p, valIn)); } else if(!(k in objOut)) { list.push(format('unused', base, p, valIn)); } else if(!Lib.validate(valIn, nestedSchema)) { list.push(format('value', base, p, valIn)); } else if(nestedSchema.valType === 'enumerated' && ((nestedSchema.coerceNumber && valIn !== +valOut) || valIn !== valOut) ) { list.push(format('dynamic', base, p, valIn, valOut)); } } return list; } // the 'full' layout schema depends on the traces types presents function fillLayoutSchema(schema, dataOut) { var layoutSchema = schema.layout.layoutAttributes; for(var i = 0; i < dataOut.length; i++) { var traceOut = dataOut[i]; var traceSchema = schema.traces[traceOut.type]; var traceLayoutAttr = traceSchema.layoutAttributes; if(traceLayoutAttr) { if(traceOut.subplot) { Lib.extendFlat(layoutSchema[traceSchema.attributes.subplot.dflt], traceLayoutAttr); } else { Lib.extendFlat(layoutSchema, traceLayoutAttr); } } } return layoutSchema; } // validation error codes var code2msgFunc = { object: function(base, astr) { var prefix; if(base === 'layout' && astr === '') prefix = 'The layout argument'; else if(base[0] === 'data' && astr === '') { prefix = 'Trace ' + base[1] + ' in the data argument'; } else prefix = inBase(base) + 'key ' + astr; return prefix + ' must be linked to an object container'; }, array: function(base, astr) { var prefix; if(base === 'data') prefix = 'The data argument'; else prefix = inBase(base) + 'key ' + astr; return prefix + ' must be linked to an array container'; }, schema: function(base, astr) { return inBase(base) + 'key ' + astr + ' is not part of the schema'; }, unused: function(base, astr, valIn) { var target = isPlainObject(valIn) ? 'container' : 'key'; return inBase(base) + target + ' ' + astr + ' did not get coerced'; }, dynamic: function(base, astr, valIn, valOut) { return [ inBase(base) + 'key', astr, '(set to \'' + valIn + '\')', 'got reset to', '\'' + valOut + '\'', 'during defaults.' ].join(' '); }, invisible: function(base, astr) { return ( astr ? (inBase(base) + 'item ' + astr) : ('Trace ' + base[1]) ) + ' got defaulted to be not visible'; }, value: function(base, astr, valIn) { return [ inBase(base) + 'key ' + astr, 'is set to an invalid value (' + valIn + ')' ].join(' '); } }; function inBase(base) { if(isArray(base)) return 'In data trace ' + base[1] + ', '; return 'In ' + base + ', '; } function format(code, base, path, valIn, valOut) { path = path || ''; var container, trace; // container is either 'data' or 'layout // trace is the trace index if 'data', null otherwise if(isArray(base)) { container = base[0]; trace = base[1]; } else { container = base; trace = null; } var astr = convertPathToAttributeString(path); var msg = code2msgFunc[code](base, astr, valIn, valOut); // log to console if logger config option is enabled Lib.log(msg); return { code: code, container: container, trace: trace, path: path, astr: astr, msg: msg }; } function isInSchema(schema, key) { var parts = splitKey(key); var keyMinusId = parts.keyMinusId; var id = parts.id; if((keyMinusId in schema) && schema[keyMinusId]._isSubplotObj && id) { return true; } return (key in schema); } function getNestedSchema(schema, key) { if(key in schema) return schema[key]; var parts = splitKey(key); return schema[parts.keyMinusId]; } var idRegex = Lib.counterRegex('([a-z]+)'); function splitKey(key) { var idMatch = key.match(idRegex); return { keyMinusId: idMatch && idMatch[1], id: idMatch && idMatch[2] }; } function convertPathToAttributeString(path) { if(!isArray(path)) return String(path); var astr = ''; for(var i = 0; i < path.length; i++) { var p = path[i]; if(typeof p === 'number') { astr = astr.substr(0, astr.length - 1) + '[' + p + ']'; } else { astr += p; } if(i < path.length - 1) astr += '.'; } return astr; } },{"../lib":287,"../plots/plots":371,"./plot_config":321,"./plot_schema":322}],328:[function(_dereq_,module,exports){ 'use strict'; module.exports = { mode: { valType: 'enumerated', dflt: 'afterall', values: ['immediate', 'next', 'afterall'], }, direction: { valType: 'enumerated', values: ['forward', 'reverse'], dflt: 'forward', }, fromcurrent: { valType: 'boolean', dflt: false, }, frame: { duration: { valType: 'number', min: 0, dflt: 500, }, redraw: { valType: 'boolean', dflt: true, }, }, transition: { duration: { valType: 'number', min: 0, dflt: 500, editType: 'none', }, easing: { valType: 'enumerated', dflt: 'cubic-in-out', values: [ 'linear', 'quad', 'cubic', 'sin', 'exp', 'circle', 'elastic', 'back', 'bounce', 'linear-in', 'quad-in', 'cubic-in', 'sin-in', 'exp-in', 'circle-in', 'elastic-in', 'back-in', 'bounce-in', 'linear-out', 'quad-out', 'cubic-out', 'sin-out', 'exp-out', 'circle-out', 'elastic-out', 'back-out', 'bounce-out', 'linear-in-out', 'quad-in-out', 'cubic-in-out', 'sin-in-out', 'exp-in-out', 'circle-in-out', 'elastic-in-out', 'back-in-out', 'bounce-in-out' ], editType: 'none', }, ordering: { valType: 'enumerated', values: ['layout first', 'traces first'], dflt: 'layout first', editType: 'none', } } }; },{}],329:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var Template = _dereq_('../plot_api/plot_template'); /** Convenience wrapper for making array container logic DRY and consistent * * @param {object} parentObjIn * user input object where the container in question is linked * (i.e. either a user trace object or the user layout object) * * @param {object} parentObjOut * full object where the coerced container will be linked * (i.e. either a full trace object or the full layout object) * * @param {object} opts * options object: * - name {string} * name of the key linking the container in question * - inclusionAttr {string} * name of the item attribute for inclusion/exclusion. Default is 'visible'. * Since inclusion is true, use eg 'enabled' instead of 'disabled'. * - handleItemDefaults {function} * defaults method to be called on each item in the array container in question * * Its arguments are: * - itemIn {object} item in user layout * - itemOut {object} item in full layout * - parentObj {object} (as in closure) * - opts {object} (as in closure) * N.B. * * - opts is passed to handleItemDefaults so it can also store * links to supplementary data (e.g. fullData for layout components) * */ module.exports = function handleArrayContainerDefaults(parentObjIn, parentObjOut, opts) { var name = opts.name; var inclusionAttr = opts.inclusionAttr || 'visible'; var previousContOut = parentObjOut[name]; var contIn = Lib.isArrayOrTypedArray(parentObjIn[name]) ? parentObjIn[name] : []; var contOut = parentObjOut[name] = []; var templater = Template.arrayTemplater(parentObjOut, name, inclusionAttr); var i, itemOut; for(i = 0; i < contIn.length; i++) { var itemIn = contIn[i]; if(!Lib.isPlainObject(itemIn)) { itemOut = templater.newItem({}); itemOut[inclusionAttr] = false; } else { itemOut = templater.newItem(itemIn); } itemOut._index = i; if(itemOut[inclusionAttr] !== false) { opts.handleItemDefaults(itemIn, itemOut, parentObjOut, opts); } contOut.push(itemOut); } var defaultItems = templater.defaultItems(); for(i = 0; i < defaultItems.length; i++) { itemOut = defaultItems[i]; itemOut._index = contOut.length; opts.handleItemDefaults({}, itemOut, parentObjOut, opts, {}); contOut.push(itemOut); } // in case this array gets its defaults rebuilt independent of the whole layout, // relink the private keys just for this array. if(Lib.isArrayOrTypedArray(previousContOut)) { var len = Math.min(previousContOut.length, contOut.length); for(i = 0; i < len; i++) { Lib.relinkPrivateKeys(contOut[i], previousContOut[i]); } } return contOut; }; },{"../lib":287,"../plot_api/plot_template":323}],330:[function(_dereq_,module,exports){ 'use strict'; var fontAttrs = _dereq_('./font_attributes'); var fxAttrs = _dereq_('../components/fx/attributes'); module.exports = { type: { valType: 'enumerated', values: [], // listed dynamically dflt: 'scatter', editType: 'calc+clearAxisTypes', _noTemplating: true // we handle this at a higher level }, visible: { valType: 'enumerated', values: [true, false, 'legendonly'], dflt: true, editType: 'calc', }, showlegend: { valType: 'boolean', dflt: true, editType: 'style', }, legendgroup: { valType: 'string', dflt: '', editType: 'style', }, legendgrouptitle: { text: { valType: 'string', dflt: '', editType: 'style', }, font: fontAttrs({ editType: 'style', }), editType: 'style', }, legendrank: { valType: 'number', dflt: 1000, editType: 'style', }, opacity: { valType: 'number', min: 0, max: 1, dflt: 1, editType: 'style', }, name: { valType: 'string', editType: 'style', }, uid: { valType: 'string', editType: 'plot', anim: true, }, ids: { valType: 'data_array', editType: 'calc', anim: true, }, customdata: { valType: 'data_array', editType: 'calc', }, meta: { valType: 'any', arrayOk: true, editType: 'plot', }, // N.B. these cannot be 'data_array' as they do not have the same length as // other data arrays and arrayOk attributes in general // // Maybe add another valType: // https://github.com/plotly/plotly.js/issues/1894 selectedpoints: { valType: 'any', editType: 'calc', }, hoverinfo: { valType: 'flaglist', flags: ['x', 'y', 'z', 'text', 'name'], extras: ['all', 'none', 'skip'], arrayOk: true, dflt: 'all', editType: 'none', }, hoverlabel: fxAttrs.hoverlabel, stream: { token: { valType: 'string', noBlank: true, strict: true, editType: 'calc', }, maxpoints: { valType: 'number', min: 0, max: 10000, dflt: 500, editType: 'calc', }, editType: 'calc' }, transforms: { _isLinkedToArray: 'transform', editType: 'calc', }, uirevision: { valType: 'any', editType: 'none', } }; },{"../components/fx/attributes":188,"./font_attributes":365}],331:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var dateTime2ms = Lib.dateTime2ms; var incrementMonth = Lib.incrementMonth; var constants = _dereq_('../../constants/numerical'); var ONEAVGMONTH = constants.ONEAVGMONTH; module.exports = function alignPeriod(trace, ax, axLetter, vals) { if(ax.type !== 'date') return {vals: vals}; var alignment = trace[axLetter + 'periodalignment']; if(!alignment) return {vals: vals}; var period = trace[axLetter + 'period']; var mPeriod; if(isNumeric(period)) { period = +period; if(period <= 0) return {vals: vals}; } else if(typeof period === 'string' && period.charAt(0) === 'M') { var n = +(period.substring(1)); if(n > 0 && Math.round(n) === n) { mPeriod = n; } else return {vals: vals}; } var calendar = ax.calendar; var isStart = 'start' === alignment; // var isMiddle = 'middle' === alignment; var isEnd = 'end' === alignment; var period0 = trace[axLetter + 'period0']; var base = dateTime2ms(period0, calendar) || 0; var newVals = []; var starts = []; var ends = []; var len = vals.length; for(var i = 0; i < len; i++) { var v = vals[i]; var nEstimated, startTime, endTime; if(mPeriod) { // guess at how many periods away from base we are nEstimated = Math.round((v - base) / (mPeriod * ONEAVGMONTH)); endTime = incrementMonth(base, mPeriod * nEstimated, calendar); // iterate to get the exact bounds before and after v // there may be ways to make this faster, but most of the time // we'll only execute each loop zero or one time. while(endTime > v) { endTime = incrementMonth(endTime, -mPeriod, calendar); } while(endTime <= v) { endTime = incrementMonth(endTime, mPeriod, calendar); } // now we know endTime is the boundary immediately after v // so startTime is obtained by incrementing backward one period. startTime = incrementMonth(endTime, -mPeriod, calendar); } else { // case of ms nEstimated = Math.round((v - base) / period); endTime = base + nEstimated * period; while(endTime > v) { endTime -= period; } while(endTime <= v) { endTime += period; } startTime = endTime - period; } newVals[i] = ( isStart ? startTime : isEnd ? endTime : (startTime + endTime) / 2 ); starts[i] = startTime; ends[i] = endTime; } return { vals: newVals, starts: starts, ends: ends }; }; },{"../../constants/numerical":267,"../../lib":287,"fast-isnumeric":33}],332:[function(_dereq_,module,exports){ 'use strict'; module.exports = { xaxis: { valType: 'subplotid', dflt: 'x', editType: 'calc+clearAxisTypes', }, yaxis: { valType: 'subplotid', dflt: 'y', editType: 'calc+clearAxisTypes', } }; },{}],333:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var FP_SAFE = _dereq_('../../constants/numerical').FP_SAFE; var Registry = _dereq_('../../registry'); var Drawing = _dereq_('../../components/drawing'); var axIds = _dereq_('./axis_ids'); var getFromId = axIds.getFromId; var isLinked = axIds.isLinked; module.exports = { getAutoRange: getAutoRange, makePadFn: makePadFn, doAutoRange: doAutoRange, findExtremes: findExtremes, concatExtremes: concatExtremes }; /** * getAutoRange * * Collects all _extremes values corresponding to a given axis * and computes its auto range. * * Note that getAutoRange uses return values from findExtremes. * * @param {object} gd: * graph div object with filled-in fullData and fullLayout, in particular * with filled-in '_extremes' containers: * { * val: calcdata value, * pad: extra pixels beyond this value, * extrapad: bool, does this point want 5% extra padding * } * @param {object} ax: * full axis object, in particular with filled-in '_traceIndices' * and '_annIndices' / '_shapeIndices' if applicable * @return {array} * an array of [min, max]. These are calcdata for log and category axes * and data for linear and date axes. * * TODO: we want to change log to data as well, but it's hard to do this * maintaining backward compatibility. category will always have to use calcdata * though, because otherwise values between categories (or outside all categories) * would be impossible. */ function getAutoRange(gd, ax) { var i, j; var newRange = []; var fullLayout = gd._fullLayout; var getPadMin = makePadFn(fullLayout, ax, 0); var getPadMax = makePadFn(fullLayout, ax, 1); var extremes = concatExtremes(gd, ax); var minArray = extremes.min; var maxArray = extremes.max; if(minArray.length === 0 || maxArray.length === 0) { return Lib.simpleMap(ax.range, ax.r2l); } var minmin = minArray[0].val; var maxmax = maxArray[0].val; for(i = 1; i < minArray.length; i++) { if(minmin !== maxmax) break; minmin = Math.min(minmin, minArray[i].val); } for(i = 1; i < maxArray.length; i++) { if(minmin !== maxmax) break; maxmax = Math.max(maxmax, maxArray[i].val); } var axReverse = false; if(ax.range) { var rng = Lib.simpleMap(ax.range, ax.r2l); axReverse = rng[1] < rng[0]; } // one-time setting to easily reverse the axis // when plotting from code if(ax.autorange === 'reversed') { axReverse = true; ax.autorange = true; } var rangeMode = ax.rangemode; var toZero = rangeMode === 'tozero'; var nonNegative = rangeMode === 'nonnegative'; var axLen = ax._length; // don't allow padding to reduce the data to < 10% of the length var minSpan = axLen / 10; var mbest = 0; var minpt, maxpt, minbest, maxbest, dp, dv; for(i = 0; i < minArray.length; i++) { minpt = minArray[i]; for(j = 0; j < maxArray.length; j++) { maxpt = maxArray[j]; dv = maxpt.val - minpt.val - calcBreaksLength(ax, minpt.val, maxpt.val); if(dv > 0) { dp = axLen - getPadMin(minpt) - getPadMax(maxpt); if(dp > minSpan) { if(dv / dp > mbest) { minbest = minpt; maxbest = maxpt; mbest = dv / dp; } } else if(dv / axLen > mbest) { // in case of padding longer than the axis // at least include the unpadded data values. minbest = {val: minpt.val, nopad: 1}; maxbest = {val: maxpt.val, nopad: 1}; mbest = dv / axLen; } } } } function maximumPad(prev, pt) { return Math.max(prev, getPadMax(pt)); } if(minmin === maxmax) { var lower = minmin - 1; var upper = minmin + 1; if(toZero) { if(minmin === 0) { // The only value we have on this axis is 0, and we want to // autorange so zero is one end. // In principle this could be [0, 1] or [-1, 0] but usually // 'tozero' pins 0 to the low end, so follow that. newRange = [0, 1]; } else { var maxPad = (minmin > 0 ? maxArray : minArray).reduce(maximumPad, 0); // we're pushing a single value away from the edge due to its // padding, with the other end clamped at zero // 0.5 means don't push it farther than the center. var rangeEnd = minmin / (1 - Math.min(0.5, maxPad / axLen)); newRange = minmin > 0 ? [0, rangeEnd] : [rangeEnd, 0]; } } else if(nonNegative) { newRange = [Math.max(0, lower), Math.max(1, upper)]; } else { newRange = [lower, upper]; } } else { if(toZero) { if(minbest.val >= 0) { minbest = {val: 0, nopad: 1}; } if(maxbest.val <= 0) { maxbest = {val: 0, nopad: 1}; } } else if(nonNegative) { if(minbest.val - mbest * getPadMin(minbest) < 0) { minbest = {val: 0, nopad: 1}; } if(maxbest.val <= 0) { maxbest = {val: 1, nopad: 1}; } } // in case it changed again... mbest = (maxbest.val - minbest.val - calcBreaksLength(ax, minpt.val, maxpt.val)) / (axLen - getPadMin(minbest) - getPadMax(maxbest)); newRange = [ minbest.val - mbest * getPadMin(minbest), maxbest.val + mbest * getPadMax(maxbest) ]; } // maintain reversal if(axReverse) newRange.reverse(); return Lib.simpleMap(newRange, ax.l2r || Number); } // find axis rangebreaks in [v0,v1] and compute its length in value space function calcBreaksLength(ax, v0, v1) { var lBreaks = 0; if(ax.rangebreaks) { var rangebreaksOut = ax.locateBreaks(v0, v1); for(var i = 0; i < rangebreaksOut.length; i++) { var brk = rangebreaksOut[i]; lBreaks += brk.max - brk.min; } } return lBreaks; } /* * calculate the pixel padding for ax._min and ax._max entries with * optional extrapad as 5% of the total axis length */ function makePadFn(fullLayout, ax, max) { // 5% padding for points that specify extrapad: true var extrappad = 0.05 * ax._length; var anchorAxis = ax._anchorAxis || {}; if( (ax.ticklabelposition || '').indexOf('inside') !== -1 || (anchorAxis.ticklabelposition || '').indexOf('inside') !== -1 ) { var axReverse = ax.autorange === 'reversed'; if(!axReverse) { var rng = Lib.simpleMap(ax.range, ax.r2l); axReverse = rng[1] < rng[0]; } if(axReverse) max = !max; } var zero = 0; if(!isLinked(fullLayout, ax._id)) { zero = padInsideLabelsOnAnchorAxis(fullLayout, ax, max); } extrappad = Math.max(zero, extrappad); // domain-constrained axes: base extrappad on the unconstrained // domain so it's consistent as the domain changes if((ax.constrain === 'domain') && ax._inputDomain) { extrappad *= (ax._inputDomain[1] - ax._inputDomain[0]) / (ax.domain[1] - ax.domain[0]); } return function getPad(pt) { if(pt.nopad) return 0; return pt.pad + (pt.extrapad ? extrappad : zero); }; } var TEXTPAD = 3; function padInsideLabelsOnAnchorAxis(fullLayout, ax, max) { var pad = 0; var isX = ax._id.charAt(0) === 'x'; for(var subplot in fullLayout._plots) { var plotinfo = fullLayout._plots[subplot]; if(ax._id !== plotinfo.xaxis._id && ax._id !== plotinfo.yaxis._id) continue; var anchorAxis = (isX ? plotinfo.yaxis : plotinfo.xaxis) || {}; if((anchorAxis.ticklabelposition || '').indexOf('inside') !== -1) { // increase padding to make more room for inside tick labels of the counter axis if(( !max && ( anchorAxis.side === 'left' || anchorAxis.side === 'bottom' ) ) || ( max && ( anchorAxis.side === 'top' || anchorAxis.side === 'right' ) )) { if(anchorAxis._vals) { var rad = Lib.deg2rad(anchorAxis._tickAngles[anchorAxis._id + 'tick'] || 0); var cosA = Math.abs(Math.cos(rad)); var sinA = Math.abs(Math.sin(rad)); // no stashed bounding boxes - stash bounding boxes if(!anchorAxis._vals[0].bb) { var cls = anchorAxis._id + 'tick'; var tickLabels = anchorAxis._selections[cls]; tickLabels.each(function(d) { var thisLabel = d3.select(this); var mathjaxGroup = thisLabel.select('.text-math-group'); if(mathjaxGroup.empty()) { d.bb = Drawing.bBox(thisLabel.node()); } }); } // use bounding boxes for(var i = 0; i < anchorAxis._vals.length; i++) { var t = anchorAxis._vals[i]; var bb = t.bb; if(bb) { var w = 2 * TEXTPAD + bb.width; var h = 2 * TEXTPAD + bb.height; pad = Math.max(pad, isX ? Math.max(w * cosA, h * sinA) : Math.max(h * cosA, w * sinA) ); } } } if(anchorAxis.ticks === 'inside' && anchorAxis.ticklabelposition === 'inside') { pad += anchorAxis.ticklen || 0; } } } } return pad; } function concatExtremes(gd, ax, noMatch) { var axId = ax._id; var fullData = gd._fullData; var fullLayout = gd._fullLayout; var minArray = []; var maxArray = []; var i, j, d; function _concat(cont, indices) { for(i = 0; i < indices.length; i++) { var item = cont[indices[i]]; var extremes = (item._extremes || {})[axId]; if(item.visible === true && extremes) { for(j = 0; j < extremes.min.length; j++) { d = extremes.min[j]; collapseMinArray(minArray, d.val, d.pad, {extrapad: d.extrapad}); } for(j = 0; j < extremes.max.length; j++) { d = extremes.max[j]; collapseMaxArray(maxArray, d.val, d.pad, {extrapad: d.extrapad}); } } } } _concat(fullData, ax._traceIndices); _concat(fullLayout.annotations || [], ax._annIndices || []); _concat(fullLayout.shapes || [], ax._shapeIndices || []); // Include the extremes from other matched axes with this one if(ax._matchGroup && !noMatch) { for(var axId2 in ax._matchGroup) { if(axId2 !== ax._id) { var ax2 = getFromId(gd, axId2); var extremes2 = concatExtremes(gd, ax2, true); // convert padding on the second axis to the first with lenRatio var lenRatio = ax._length / ax2._length; for(j = 0; j < extremes2.min.length; j++) { d = extremes2.min[j]; collapseMinArray(minArray, d.val, d.pad * lenRatio, {extrapad: d.extrapad}); } for(j = 0; j < extremes2.max.length; j++) { d = extremes2.max[j]; collapseMaxArray(maxArray, d.val, d.pad * lenRatio, {extrapad: d.extrapad}); } } } } return {min: minArray, max: maxArray}; } function doAutoRange(gd, ax, presetRange) { ax.setScale(); if(ax.autorange) { ax.range = presetRange ? presetRange.slice() : getAutoRange(gd, ax); ax._r = ax.range.slice(); ax._rl = Lib.simpleMap(ax._r, ax.r2l); // doAutoRange will get called on fullLayout, // but we want to report its results back to layout var axIn = ax._input; // before we edit _input, store preGUI values var edits = {}; edits[ax._attr + '.range'] = ax.range; edits[ax._attr + '.autorange'] = ax.autorange; Registry.call('_storeDirectGUIEdit', gd.layout, gd._fullLayout._preGUI, edits); axIn.range = ax.range.slice(); axIn.autorange = ax.autorange; } var anchorAx = ax._anchorAxis; if(anchorAx && anchorAx.rangeslider) { var axeRangeOpts = anchorAx.rangeslider[ax._name]; if(axeRangeOpts) { if(axeRangeOpts.rangemode === 'auto') { axeRangeOpts.range = getAutoRange(gd, ax); } } anchorAx._input.rangeslider[ax._name] = Lib.extendFlat({}, axeRangeOpts); } } /** * findExtremes * * Find min/max extremes of an array of coordinates on a given axis. * * Note that findExtremes is called during `calc`, when we don't yet know the axis * length; all the inputs should be based solely on the trace data, nothing * about the axis layout. * * Note that `ppad` and `vpad` as well as their asymmetric variants refer to * the before and after padding of the passed `data` array, not to the whole axis. * * @param {object} ax: full axis object * relies on * - ax.type * - ax._m (just its sign) * - ax.d2l * @param {array} data: * array of numbers (i.e. already run though ax.d2c) * @param {object} opts: * available keys are: * vpad: (number or number array) pad values (data value +-vpad) * ppad: (number or number array) pad pixels (pixel location +-ppad) * ppadplus, ppadminus, vpadplus, vpadminus: * separate padding for each side, overrides symmetric * padded: (boolean) add 5% padding to both ends * (unless one end is overridden by tozero) * tozero: (boolean) make sure to include zero if axis is linear, * and make it a tight bound if possible * vpadLinearized: (boolean) whether or not vpad (or vpadplus/vpadminus) * is linearized (for log scale axes) * * @return {object} * - min {array of objects} * - max {array of objects} * each object item has fields: * - val {number} * - pad {number} * - extrappad {number} * - opts {object}: a ref to the passed "options" object */ function findExtremes(ax, data, opts) { if(!opts) opts = {}; if(!ax._m) ax.setScale(); var minArray = []; var maxArray = []; var len = data.length; var extrapad = opts.padded || false; var tozero = opts.tozero && (ax.type === 'linear' || ax.type === '-'); var isLog = ax.type === 'log'; var hasArrayOption = false; var vpadLinearized = opts.vpadLinearized || false; var i, v, di, dmin, dmax, ppadiplus, ppadiminus, vmin, vmax; function makePadAccessor(item) { if(Array.isArray(item)) { hasArrayOption = true; return function(i) { return Math.max(Number(item[i]||0), 0); }; } else { var v = Math.max(Number(item||0), 0); return function() { return v; }; } } var ppadplus = makePadAccessor((ax._m > 0 ? opts.ppadplus : opts.ppadminus) || opts.ppad || 0); var ppadminus = makePadAccessor((ax._m > 0 ? opts.ppadminus : opts.ppadplus) || opts.ppad || 0); var vpadplus = makePadAccessor(opts.vpadplus || opts.vpad); var vpadminus = makePadAccessor(opts.vpadminus || opts.vpad); if(!hasArrayOption) { // with no arrays other than `data` we don't need to consider // every point, only the extreme data points vmin = Infinity; vmax = -Infinity; if(isLog) { for(i = 0; i < len; i++) { v = data[i]; // data is not linearized yet so we still have to filter out negative logs if(v < vmin && v > 0) vmin = v; if(v > vmax && v < FP_SAFE) vmax = v; } } else { for(i = 0; i < len; i++) { v = data[i]; if(v < vmin && v > -FP_SAFE) vmin = v; if(v > vmax && v < FP_SAFE) vmax = v; } } data = [vmin, vmax]; len = 2; } var collapseOpts = {tozero: tozero, extrapad: extrapad}; function addItem(i) { di = data[i]; if(!isNumeric(di)) return; ppadiplus = ppadplus(i); ppadiminus = ppadminus(i); if(vpadLinearized) { dmin = ax.c2l(di) - vpadminus(i); dmax = ax.c2l(di) + vpadplus(i); } else { vmin = di - vpadminus(i); vmax = di + vpadplus(i); // special case for log axes: if vpad makes this object span // more than an order of mag, clip it to one order. This is so // we don't have non-positive errors or absurdly large lower // range due to rounding errors if(isLog && vmin < vmax / 10) vmin = vmax / 10; dmin = ax.c2l(vmin); dmax = ax.c2l(vmax); } if(tozero) { dmin = Math.min(0, dmin); dmax = Math.max(0, dmax); } if(goodNumber(dmin)) { collapseMinArray(minArray, dmin, ppadiminus, collapseOpts); } if(goodNumber(dmax)) { collapseMaxArray(maxArray, dmax, ppadiplus, collapseOpts); } } // For efficiency covering monotonic or near-monotonic data, // check a few points at both ends first and then sweep // through the middle var iMax = Math.min(6, len); for(i = 0; i < iMax; i++) addItem(i); for(i = len - 1; i >= iMax; i--) addItem(i); return { min: minArray, max: maxArray, opts: opts }; } function collapseMinArray(array, newVal, newPad, opts) { collapseArray(array, newVal, newPad, opts, lessOrEqual); } function collapseMaxArray(array, newVal, newPad, opts) { collapseArray(array, newVal, newPad, opts, greaterOrEqual); } /** * collapseArray * * Takes items from 'array' and compares them to 'newVal', 'newPad'. * * @param {array} array: * current set of min or max extremes * @param {number} newVal: * new value to compare against * @param {number} newPad: * pad value associated with 'newVal' * @param {object} opts: * - tozero {boolean} * - extrapad {number} * @param {function} atLeastAsExtreme: * comparison function, use * - lessOrEqual for min 'array' and * - greaterOrEqual for max 'array' * * In practice, 'array' is either * - 'extremes[ax._id].min' or * - 'extremes[ax._id].max * found in traces and layout items that affect autorange. * * Since we don't yet know the relationship between pixels and values * (that's what we're trying to figure out!) AND we don't yet know how * many pixels `extrapad` represents (it's going to be 5% of the length, * but we don't want to have to redo calc just because length changed) * two point must satisfy three criteria simultaneously for one to supersede the other: * - at least as extreme a `val` * - at least as big a `pad` * - an unpadded point cannot supersede a padded point, but any other combination can * * Then: * - If the item supersedes the new point, set includeThis false * - If the new pt supersedes the item, delete it from 'array' */ function collapseArray(array, newVal, newPad, opts, atLeastAsExtreme) { var tozero = opts.tozero; var extrapad = opts.extrapad; var includeThis = true; for(var j = 0; j < array.length && includeThis; j++) { var v = array[j]; if(atLeastAsExtreme(v.val, newVal) && v.pad >= newPad && (v.extrapad || !extrapad)) { includeThis = false; break; } else if(atLeastAsExtreme(newVal, v.val) && v.pad <= newPad && (extrapad || !v.extrapad)) { array.splice(j, 1); j--; } } if(includeThis) { var clipAtZero = (tozero && newVal === 0); array.push({ val: newVal, pad: clipAtZero ? 0 : newPad, extrapad: clipAtZero ? false : extrapad }); } } // In order to stop overflow errors, don't consider points // too close to the limits of js floating point function goodNumber(v) { return isNumeric(v) && Math.abs(v) < FP_SAFE; } function lessOrEqual(v0, v1) { return v0 <= v1; } function greaterOrEqual(v0, v1) { return v0 >= v1; } },{"../../components/drawing":179,"../../constants/numerical":267,"../../lib":287,"../../registry":378,"./axis_ids":338,"@plotly/d3":20,"fast-isnumeric":33}],334:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var Plots = _dereq_('../../plots/plots'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var Titles = _dereq_('../../components/titles'); var Color = _dereq_('../../components/color'); var Drawing = _dereq_('../../components/drawing'); var axAttrs = _dereq_('./layout_attributes'); var cleanTicks = _dereq_('./clean_ticks'); var constants = _dereq_('../../constants/numerical'); var ONEMAXYEAR = constants.ONEMAXYEAR; var ONEAVGYEAR = constants.ONEAVGYEAR; var ONEMINYEAR = constants.ONEMINYEAR; var ONEMAXQUARTER = constants.ONEMAXQUARTER; var ONEAVGQUARTER = constants.ONEAVGQUARTER; var ONEMINQUARTER = constants.ONEMINQUARTER; var ONEMAXMONTH = constants.ONEMAXMONTH; var ONEAVGMONTH = constants.ONEAVGMONTH; var ONEMINMONTH = constants.ONEMINMONTH; var ONEWEEK = constants.ONEWEEK; var ONEDAY = constants.ONEDAY; var HALFDAY = ONEDAY / 2; var ONEHOUR = constants.ONEHOUR; var ONEMIN = constants.ONEMIN; var ONESEC = constants.ONESEC; var MINUS_SIGN = constants.MINUS_SIGN; var BADNUM = constants.BADNUM; var ZERO_PATH = { K: 'zeroline' }; var GRID_PATH = { K: 'gridline', L: 'path' }; var MINORGRID_PATH = { K: 'minor-gridline', L: 'path' }; var TICK_PATH = { K: 'tick', L: 'path' }; var TICK_TEXT = { K: 'tick', L: 'text' }; var alignmentConstants = _dereq_('../../constants/alignment'); var MID_SHIFT = alignmentConstants.MID_SHIFT; var CAP_SHIFT = alignmentConstants.CAP_SHIFT; var LINE_SPACING = alignmentConstants.LINE_SPACING; var OPPOSITE_SIDE = alignmentConstants.OPPOSITE_SIDE; var TEXTPAD = 3; var axes = module.exports = {}; axes.setConvert = _dereq_('./set_convert'); var autoType = _dereq_('./axis_autotype'); var axisIds = _dereq_('./axis_ids'); var idSort = axisIds.idSort; var isLinked = axisIds.isLinked; // tight coupling to chart studio axes.id2name = axisIds.id2name; axes.name2id = axisIds.name2id; axes.cleanId = axisIds.cleanId; axes.list = axisIds.list; axes.listIds = axisIds.listIds; axes.getFromId = axisIds.getFromId; axes.getFromTrace = axisIds.getFromTrace; var autorange = _dereq_('./autorange'); axes.getAutoRange = autorange.getAutoRange; axes.findExtremes = autorange.findExtremes; var epsilon = 0.0001; function expandRange(range) { var delta = (range[1] - range[0]) * epsilon; return [ range[0] - delta, range[1] + delta ]; } /* * find the list of possible axes to reference with an xref or yref attribute * and coerce it to that list * * attr: the attribute we're generating a reference for. Should end in 'x' or 'y' * but can be prefixed, like 'ax' for annotation's arrow x * dflt: the default to coerce to, or blank to use the first axis (falling back on * extraOption if there is no axis) * extraOption: aside from existing axes with this letter, what non-axis value is allowed? * Only required if it's different from `dflt` */ axes.coerceRef = function(containerIn, containerOut, gd, attr, dflt, extraOption) { var axLetter = attr.charAt(attr.length - 1); var axlist = gd._fullLayout._subplots[axLetter + 'axis']; var refAttr = attr + 'ref'; var attrDef = {}; if(!dflt) dflt = axlist[0] || (typeof extraOption === 'string' ? extraOption : extraOption[0]); if(!extraOption) extraOption = dflt; axlist = axlist.concat(axlist.map(function(x) { return x + ' domain'; })); // data-ref annotations are not supported in gl2d yet attrDef[refAttr] = { valType: 'enumerated', values: axlist.concat(extraOption ? (typeof extraOption === 'string' ? [extraOption] : extraOption) : []), dflt: dflt }; // xref, yref return Lib.coerce(containerIn, containerOut, attrDef, refAttr); }; /* * Get the type of an axis reference. This can be 'range', 'domain', or 'paper'. * This assumes ar is a valid axis reference and returns 'range' if it doesn't * match the patterns for 'paper' or 'domain'. * * ar: the axis reference string * */ axes.getRefType = function(ar) { if(ar === undefined) { return ar; } if(ar === 'paper') { return 'paper'; } if(ar === 'pixel') { return 'pixel'; } if(/( domain)$/.test(ar)) { return 'domain'; } else { return 'range'; } }; /* * coerce position attributes (range-type) that can be either on axes or absolute * (paper or pixel) referenced. The biggest complication here is that we don't know * before looking at the axis whether the value must be a number or not (it may be * a date string), so we can't use the regular valType='number' machinery * * axRef (string): the axis this position is referenced to, or: * paper: fraction of the plot area * pixel: pixels relative to some starting position * attr (string): the attribute in containerOut we are coercing * dflt (number): the default position, as a fraction or pixels. If the attribute * is to be axis-referenced, this will be converted to an axis data value * * Also cleans the values, since the attribute definition itself has to say * valType: 'any' to handle date axes. This allows us to accept: * - for category axes: category names, and convert them here into serial numbers. * Note that this will NOT work for axis range endpoints, because we don't know * the category list yet (it's set by ax.makeCalcdata during calc) * but it works for component (note, shape, images) positions. * - for date axes: JS Dates or milliseconds, and convert to date strings * - for other types: coerce them to numbers */ axes.coercePosition = function(containerOut, gd, coerce, axRef, attr, dflt) { var cleanPos, pos; var axRefType = axes.getRefType(axRef); if(axRefType !== 'range') { cleanPos = Lib.ensureNumber; pos = coerce(attr, dflt); } else { var ax = axes.getFromId(gd, axRef); dflt = ax.fraction2r(dflt); pos = coerce(attr, dflt); cleanPos = ax.cleanPos; } containerOut[attr] = cleanPos(pos); }; axes.cleanPosition = function(pos, gd, axRef) { var cleanPos = (axRef === 'paper' || axRef === 'pixel') ? Lib.ensureNumber : axes.getFromId(gd, axRef).cleanPos; return cleanPos(pos); }; axes.redrawComponents = function(gd, axIds) { axIds = axIds ? axIds : axes.listIds(gd); var fullLayout = gd._fullLayout; function _redrawOneComp(moduleName, methodName, stashName, shortCircuit) { var method = Registry.getComponentMethod(moduleName, methodName); var stash = {}; for(var i = 0; i < axIds.length; i++) { var ax = fullLayout[axes.id2name(axIds[i])]; var indices = ax[stashName]; for(var j = 0; j < indices.length; j++) { var ind = indices[j]; if(!stash[ind]) { method(gd, ind); stash[ind] = 1; // once is enough for images (which doesn't use the `i` arg anyway) if(shortCircuit) return; } } } } // annotations and shapes 'draw' method is slow, // use the finer-grained 'drawOne' method instead _redrawOneComp('annotations', 'drawOne', '_annIndices'); _redrawOneComp('shapes', 'drawOne', '_shapeIndices'); _redrawOneComp('images', 'draw', '_imgIndices', true); }; var getDataConversions = axes.getDataConversions = function(gd, trace, target, targetArray) { var ax; // If target points to an axis, use the type we already have for that // axis to find the data type. Otherwise use the values to autotype. var d2cTarget = (target === 'x' || target === 'y' || target === 'z') ? target : targetArray; // In the case of an array target, make a mock data array // and call supplyDefaults to the data type and // setup the data-to-calc method. if(Array.isArray(d2cTarget)) { ax = { type: autoType(targetArray, undefined, { autotypenumbers: gd._fullLayout.autotypenumbers }), _categories: [] }; axes.setConvert(ax); // build up ax._categories (usually done during ax.makeCalcdata() if(ax.type === 'category') { for(var i = 0; i < targetArray.length; i++) { ax.d2c(targetArray[i]); } } // TODO what to do for transforms? } else { ax = axes.getFromTrace(gd, trace, d2cTarget); } // if 'target' has corresponding axis // -> use setConvert method if(ax) return {d2c: ax.d2c, c2d: ax.c2d}; // special case for 'ids' // -> cast to String if(d2cTarget === 'ids') return {d2c: toString, c2d: toString}; // otherwise (e.g. numeric-array of 'marker.color' or 'marker.size') // -> cast to Number return {d2c: toNum, c2d: toNum}; }; function toNum(v) { return +v; } function toString(v) { return String(v); } axes.getDataToCoordFunc = function(gd, trace, target, targetArray) { return getDataConversions(gd, trace, target, targetArray).d2c; }; // get counteraxis letter for this axis (name or id) // this can also be used as the id for default counter axis axes.counterLetter = function(id) { var axLetter = id.charAt(0); if(axLetter === 'x') return 'y'; if(axLetter === 'y') return 'x'; }; // incorporate a new minimum difference and first tick into // forced // note that _forceTick0 is linearized, so needs to be turned into // a range value for setting tick0 axes.minDtick = function(ax, newDiff, newFirst, allow) { // doesn't make sense to do forced min dTick on log or category axes, // and the plot itself may decide to cancel (ie non-grouped bars) if(['log', 'category', 'multicategory'].indexOf(ax.type) !== -1 || !allow) { ax._minDtick = 0; } else if(ax._minDtick === undefined) { // undefined means there's nothing there yet ax._minDtick = newDiff; ax._forceTick0 = newFirst; } else if(ax._minDtick) { if((ax._minDtick / newDiff + 1e-6) % 1 < 2e-6 && // existing minDtick is an integer multiple of newDiff // (within rounding err) // and forceTick0 can be shifted to newFirst (((newFirst - ax._forceTick0) / newDiff % 1) + 1.000001) % 1 < 2e-6) { ax._minDtick = newDiff; ax._forceTick0 = newFirst; } else if((newDiff / ax._minDtick + 1e-6) % 1 > 2e-6 || // if the converse is true (newDiff is a multiple of minDtick and // newFirst can be shifted to forceTick0) then do nothing - same // forcing stands. Otherwise, cancel forced minimum (((newFirst - ax._forceTick0) / ax._minDtick % 1) + 1.000001) % 1 > 2e-6) { ax._minDtick = 0; } } }; // save a copy of the initial axis ranges in fullLayout // use them in mode bar and dblclick events axes.saveRangeInitial = function(gd, overwrite) { var axList = axes.list(gd, '', true); var hasOneAxisChanged = false; for(var i = 0; i < axList.length; i++) { var ax = axList[i]; var isNew = (ax._rangeInitial === undefined); var hasChanged = isNew || !( ax.range[0] === ax._rangeInitial[0] && ax.range[1] === ax._rangeInitial[1] ); if((isNew && ax.autorange === false) || (overwrite && hasChanged)) { ax._rangeInitial = ax.range.slice(); hasOneAxisChanged = true; } } return hasOneAxisChanged; }; // save a copy of the initial spike visibility axes.saveShowSpikeInitial = function(gd, overwrite) { var axList = axes.list(gd, '', true); var hasOneAxisChanged = false; var allSpikesEnabled = 'on'; for(var i = 0; i < axList.length; i++) { var ax = axList[i]; var isNew = (ax._showSpikeInitial === undefined); var hasChanged = isNew || !(ax.showspikes === ax._showspikes); if(isNew || (overwrite && hasChanged)) { ax._showSpikeInitial = ax.showspikes; hasOneAxisChanged = true; } if(allSpikesEnabled === 'on' && !ax.showspikes) { allSpikesEnabled = 'off'; } } gd._fullLayout._cartesianSpikesEnabled = allSpikesEnabled; return hasOneAxisChanged; }; axes.autoBin = function(data, ax, nbins, is2d, calendar, size) { var dataMin = Lib.aggNums(Math.min, null, data); var dataMax = Lib.aggNums(Math.max, null, data); if(ax.type === 'category' || ax.type === 'multicategory') { return { start: dataMin - 0.5, end: dataMax + 0.5, size: Math.max(1, Math.round(size) || 1), _dataSpan: dataMax - dataMin, }; } if(!calendar) calendar = ax.calendar; // piggyback off tick code to make "nice" bin sizes and edges var dummyAx; if(ax.type === 'log') { dummyAx = { type: 'linear', range: [dataMin, dataMax] }; } else { dummyAx = { type: ax.type, range: Lib.simpleMap([dataMin, dataMax], ax.c2r, 0, calendar), calendar: calendar }; } axes.setConvert(dummyAx); size = size && cleanTicks.dtick(size, dummyAx.type); if(size) { dummyAx.dtick = size; dummyAx.tick0 = cleanTicks.tick0(undefined, dummyAx.type, calendar); } else { var size0; if(nbins) size0 = ((dataMax - dataMin) / nbins); else { // totally auto: scale off std deviation so the highest bin is // somewhat taller than the total number of bins, but don't let // the size get smaller than the 'nice' rounded down minimum // difference between values var distinctData = Lib.distinctVals(data); var msexp = Math.pow(10, Math.floor( Math.log(distinctData.minDiff) / Math.LN10)); var minSize = msexp * Lib.roundUp( distinctData.minDiff / msexp, [0.9, 1.9, 4.9, 9.9], true); size0 = Math.max(minSize, 2 * Lib.stdev(data) / Math.pow(data.length, is2d ? 0.25 : 0.4)); // fallback if ax.d2c output BADNUMs // e.g. when user try to plot categorical bins // on a layout.xaxis.type: 'linear' if(!isNumeric(size0)) size0 = 1; } axes.autoTicks(dummyAx, size0); } var finalSize = dummyAx.dtick; var binStart = axes.tickIncrement( axes.tickFirst(dummyAx), finalSize, 'reverse', calendar); var binEnd, bincount; // check for too many data points right at the edges of bins // (>50% within 1% of bin edges) or all data points integral // and offset the bins accordingly if(typeof finalSize === 'number') { binStart = autoShiftNumericBins(binStart, data, dummyAx, dataMin, dataMax); bincount = 1 + Math.floor((dataMax - binStart) / finalSize); binEnd = binStart + bincount * finalSize; } else { // month ticks - should be the only nonlinear kind we have at this point. // dtick (as supplied by axes.autoTick) only has nonlinear values on // date and log axes, but even if you display a histogram on a log axis // we bin it on a linear axis (which one could argue against, but that's // a separate issue) if(dummyAx.dtick.charAt(0) === 'M') { binStart = autoShiftMonthBins(binStart, data, finalSize, dataMin, calendar); } // calculate the endpoint for nonlinear ticks - you have to // just increment until you're done binEnd = binStart; bincount = 0; while(binEnd <= dataMax) { binEnd = axes.tickIncrement(binEnd, finalSize, false, calendar); bincount++; } } return { start: ax.c2r(binStart, 0, calendar), end: ax.c2r(binEnd, 0, calendar), size: finalSize, _dataSpan: dataMax - dataMin }; }; function autoShiftNumericBins(binStart, data, ax, dataMin, dataMax) { var edgecount = 0; var midcount = 0; var intcount = 0; var blankCount = 0; function nearEdge(v) { // is a value within 1% of a bin edge? return (1 + (v - binStart) * 100 / ax.dtick) % 100 < 2; } for(var i = 0; i < data.length; i++) { if(data[i] % 1 === 0) intcount++; else if(!isNumeric(data[i])) blankCount++; if(nearEdge(data[i])) edgecount++; if(nearEdge(data[i] + ax.dtick / 2)) midcount++; } var dataCount = data.length - blankCount; if(intcount === dataCount && ax.type !== 'date') { if(ax.dtick < 1) { // all integers: if bin size is <1, it's because // that was specifically requested (large nbins) // so respect that... but center the bins containing // integers on those integers binStart = dataMin - 0.5 * ax.dtick; } else { // otherwise start half an integer down regardless of // the bin size, just enough to clear up endpoint // ambiguity about which integers are in which bins. binStart -= 0.5; if(binStart + ax.dtick < dataMin) binStart += ax.dtick; } } else if(midcount < dataCount * 0.1) { if(edgecount > dataCount * 0.3 || nearEdge(dataMin) || nearEdge(dataMax)) { // lots of points at the edge, not many in the middle // shift half a bin var binshift = ax.dtick / 2; binStart += (binStart + binshift < dataMin) ? binshift : -binshift; } } return binStart; } function autoShiftMonthBins(binStart, data, dtick, dataMin, calendar) { var stats = Lib.findExactDates(data, calendar); // number of data points that needs to be an exact value // to shift that increment to (near) the bin center var threshold = 0.8; if(stats.exactDays > threshold) { var numMonths = Number(dtick.substr(1)); if((stats.exactYears > threshold) && (numMonths % 12 === 0)) { // The exact middle of a non-leap-year is 1.5 days into July // so if we start the bins here, all but leap years will // get hover-labeled as exact years. binStart = axes.tickIncrement(binStart, 'M6', 'reverse') + ONEDAY * 1.5; } else if(stats.exactMonths > threshold) { // Months are not as clean, but if we shift half the *longest* // month (31/2 days) then 31-day months will get labeled exactly // and shorter months will get labeled with the correct month // but shifted 12-36 hours into it. binStart = axes.tickIncrement(binStart, 'M1', 'reverse') + ONEDAY * 15.5; } else { // Shifting half a day is exact, but since these are month bins it // will always give a somewhat odd-looking label, until we do something // smarter like showing the bin boundaries (or the bounds of the actual // data in each bin) binStart -= HALFDAY; } var nextBinStart = axes.tickIncrement(binStart, dtick); if(nextBinStart <= dataMin) return nextBinStart; } return binStart; } // ---------------------------------------------------- // Ticks and grids // ---------------------------------------------------- // ensure we have minor tick0 and dtick calculated axes.prepMinorTicks = function(mockAx, ax, opts) { if(!ax.minor.dtick) { delete mockAx.dtick; var hasMajor = ax.dtick && isNumeric(ax._tmin); var mockMinorRange; if(hasMajor) { var tick2 = axes.tickIncrement(ax._tmin, ax.dtick, true); // mock range a tiny bit smaller than one major tick interval mockMinorRange = [ax._tmin, tick2 * 0.99 + ax._tmin * 0.01]; } else { var rl = Lib.simpleMap(ax.range, ax.r2l); // If we don't have a major dtick, the concept of minor ticks is a little // ambiguous - just take a stab and say minor.nticks should span 1/5 the axis mockMinorRange = [rl[0], 0.8 * rl[0] + 0.2 * rl[1]]; } mockAx.range = Lib.simpleMap(mockMinorRange, ax.l2r); mockAx._isMinor = true; axes.prepTicks(mockAx, opts); if(hasMajor) { var numericMajor = isNumeric(ax.dtick); var numericMinor = isNumeric(mockAx.dtick); var majorNum = numericMajor ? ax.dtick : +ax.dtick.substring(1); var minorNum = numericMinor ? mockAx.dtick : +mockAx.dtick.substring(1); if(numericMajor && numericMinor) { if(!isMultiple(majorNum, minorNum)) { // give up on minor ticks - outside the below exceptions, // this can only happen if minor.nticks is smaller than two jumps // in the auto-tick scale and the first jump is not an even multiple // (5 -> 2 or for dates 3 ->2, 15 -> 10 etc) or if you provided // an explicit dtick, in which case it's fine to give up, // you can provide an explicit minor.dtick. if((majorNum === 2 * ONEWEEK) && (minorNum === 3 * ONEDAY)) { mockAx.dtick = ONEWEEK; } else if(majorNum === ONEWEEK && !(ax._input.minor || {}).nticks) { // minor.nticks defaults to 5, but in this one case we want 7, // so the minor ticks show on all days of the week mockAx.dtick = ONEDAY; } else if(isClose(majorNum / minorNum, 2.5)) { // 5*10^n -> 2*10^n and you've set nticks < 5 // quarters are pretty common, we don't do this by default as it // would add an extra digit to display, but minor has no labels mockAx.dtick = majorNum / 2; } else { mockAx.dtick = majorNum; } } else if(majorNum === 2 * ONEWEEK && minorNum === 2 * ONEDAY) { // this is a weird one: we don't want to automatically choose // 2-day minor ticks for 2-week major, even though it IS an even multiple, // because people would expect to see the weeks clearly mockAx.dtick = ONEWEEK; } } else if(String(ax.dtick).charAt(0) === 'M') { if(numericMinor) { mockAx.dtick = 'M1'; } else { if(!isMultiple(majorNum, minorNum)) { // unless you provided an explicit ax.dtick (in which case // it's OK for us to give up, you can provide an explicit // minor.dtick too), this can only happen with: // minor.nticks < 3 and dtick === M3, or // minor.nticks < 5 and dtick === 5 * 10^n years // so in all cases we just give up. mockAx.dtick = ax.dtick; } else if((majorNum >= 12) && (minorNum === 2)) { // another special carve-out: for year major ticks, don't show // 2-month minor ticks, bump to quarters mockAx.dtick = 'M3'; } } } else if(String(mockAx.dtick).charAt(0) === 'L') { if(String(ax.dtick).charAt(0) === 'L') { if(!isMultiple(majorNum, minorNum)) { mockAx.dtick = isClose(majorNum / minorNum, 2.5) ? (ax.dtick / 2) : ax.dtick; } } else { mockAx.dtick = 'D1'; } } else if(mockAx.dtick === 'D2' && +ax.dtick > 1) { // the D2 log axis tick spacing is confusing for unlabeled minor ticks if // the major dtick is more than one order of magnitude. mockAx.dtick = 1; } } // put back the original range, to use to find the full set of minor ticks mockAx.range = ax.range; } if(ax.minor._tick0Init === undefined) { // ensure identical tick0 mockAx.tick0 = ax.tick0; } }; function isMultiple(bigger, smaller) { return Math.abs((bigger / smaller + 0.5) % 1 - 0.5) < 0.001; } function isClose(a, b) { return Math.abs((a / b) - 1) < 0.001; } // ensure we have tick0, dtick, and tick rounding calculated axes.prepTicks = function(ax, opts) { var rng = Lib.simpleMap(ax.range, ax.r2l, undefined, undefined, opts); // calculate max number of (auto) ticks to display based on plot size if(ax.tickmode === 'auto' || !ax.dtick) { var nt = ax.nticks; var minPx; if(!nt) { if(ax.type === 'category' || ax.type === 'multicategory') { minPx = ax.tickfont ? Lib.bigFont(ax.tickfont.size || 12) : 15; nt = ax._length / minPx; } else { minPx = ax._id.charAt(0) === 'y' ? 40 : 80; nt = Lib.constrain(ax._length / minPx, 4, 9) + 1; } // radial axes span half their domain, // multiply nticks value by two to get correct number of auto ticks. if(ax._name === 'radialaxis') nt *= 2; } if(!(ax.minor && ax.minor.tickmode !== 'array')) { // add a couple of extra digits for filling in ticks when we // have explicit tickvals without tick text if(ax.tickmode === 'array') nt *= 100; } ax._roughDTick = Math.abs(rng[1] - rng[0]) / nt; axes.autoTicks(ax, ax._roughDTick); // check for a forced minimum dtick if(ax._minDtick > 0 && ax.dtick < ax._minDtick * 2) { ax.dtick = ax._minDtick; ax.tick0 = ax.l2r(ax._forceTick0); } } if(ax.ticklabelmode === 'period') { adjustPeriodDelta(ax); } // check for missing tick0 if(!ax.tick0) { ax.tick0 = (ax.type === 'date') ? '2000-01-01' : 0; } // ensure we don't try to make ticks below our minimum precision // see https://github.com/plotly/plotly.js/issues/2892 if(ax.type === 'date' && ax.dtick < 0.1) ax.dtick = 0.1; // now figure out rounding of tick values autoTickRound(ax); }; function nMonths(dtick) { return +(dtick.substring(1)); } function adjustPeriodDelta(ax) { // adjusts ax.dtick and sets ax._definedDelta var definedDelta; function mDate() { return !( isNumeric(ax.dtick) || ax.dtick.charAt(0) !== 'M' ); } var isMDate = mDate(); var tickformat = axes.getTickFormat(ax); if(tickformat) { var noDtick = ax._dtickInit !== ax.dtick; if( !(/%[fLQsSMX]/.test(tickformat)) // %f: microseconds as a decimal number [000000, 999999] // %L: milliseconds as a decimal number [000, 999] // %Q: milliseconds since UNIX epoch // %s: seconds since UNIX epoch // %S: second as a decimal number [00,61] // %M: minute as a decimal number [00,59] // %X: the locale’s time, such as %-I:%M:%S %p ) { if( /%[HI]/.test(tickformat) // %H: hour (24-hour clock) as a decimal number [00,23] // %I: hour (12-hour clock) as a decimal number [01,12] ) { definedDelta = ONEHOUR; if(noDtick && !isMDate && ax.dtick < ONEHOUR) ax.dtick = ONEHOUR; } else if( /%p/.test(tickformat) // %p: either AM or PM ) { definedDelta = HALFDAY; if(noDtick && !isMDate && ax.dtick < HALFDAY) ax.dtick = HALFDAY; } else if( /%[Aadejuwx]/.test(tickformat) // %A: full weekday name // %a: abbreviated weekday name // %d: zero-padded day of the month as a decimal number [01,31] // %e: space-padded day of the month as a decimal number [ 1,31] // %j: day of the year as a decimal number [001,366] // %u: Monday-based (ISO 8601) weekday as a decimal number [1,7] // %w: Sunday-based weekday as a decimal number [0,6] // %x: the locale’s date, such as %-m/%-d/%Y ) { definedDelta = ONEDAY; if(noDtick && !isMDate && ax.dtick < ONEDAY) ax.dtick = ONEDAY; } else if( /%[UVW]/.test(tickformat) // %U: Sunday-based week of the year as a decimal number [00,53] // %V: ISO 8601 week of the year as a decimal number [01, 53] // %W: Monday-based week of the year as a decimal number [00,53] ) { definedDelta = ONEWEEK; if(noDtick && !isMDate && ax.dtick < ONEWEEK) ax.dtick = ONEWEEK; } else if( /%[Bbm]/.test(tickformat) // %B: full month name // %b: abbreviated month name // %m: month as a decimal number [01,12] ) { definedDelta = ONEAVGMONTH; if(noDtick && ( isMDate ? nMonths(ax.dtick) < 1 : ax.dtick < ONEMINMONTH) ) ax.dtick = 'M1'; } else if( /%[q]/.test(tickformat) // %q: quarter of the year as a decimal number [1,4] ) { definedDelta = ONEAVGQUARTER; if(noDtick && ( isMDate ? nMonths(ax.dtick) < 3 : ax.dtick < ONEMINQUARTER) ) ax.dtick = 'M3'; } else if( /%[Yy]/.test(tickformat) // %Y: year with century as a decimal number, such as 1999 // %y: year without century as a decimal number [00,99] ) { definedDelta = ONEAVGYEAR; if(noDtick && ( isMDate ? nMonths(ax.dtick) < 12 : ax.dtick < ONEMINYEAR) ) ax.dtick = 'M12'; } } } isMDate = mDate(); if(isMDate && ax.tick0 === ax._dowTick0) { // discard Sunday/Monday tweaks ax.tick0 = ax._rawTick0; } ax._definedDelta = definedDelta; } function positionPeriodTicks(tickVals, ax, definedDelta) { for(var i = 0; i < tickVals.length; i++) { var v = tickVals[i].value; var a = i; var b = i + 1; if(i < tickVals.length - 1) { a = i; b = i + 1; } else if(i > 0) { a = i - 1; b = i; } else { a = i; b = i; } var A = tickVals[a].value; var B = tickVals[b].value; var actualDelta = Math.abs(B - A); var delta = definedDelta || actualDelta; var periodLength = 0; if(delta >= ONEMINYEAR) { if(actualDelta >= ONEMINYEAR && actualDelta <= ONEMAXYEAR) { periodLength = actualDelta; } else { periodLength = ONEAVGYEAR; } } else if(definedDelta === ONEAVGQUARTER && delta >= ONEMINQUARTER) { if(actualDelta >= ONEMINQUARTER && actualDelta <= ONEMAXQUARTER) { periodLength = actualDelta; } else { periodLength = ONEAVGQUARTER; } } else if(delta >= ONEMINMONTH) { if(actualDelta >= ONEMINMONTH && actualDelta <= ONEMAXMONTH) { periodLength = actualDelta; } else { periodLength = ONEAVGMONTH; } } else if(definedDelta === ONEWEEK && delta >= ONEWEEK) { periodLength = ONEWEEK; } else if(delta >= ONEDAY) { periodLength = ONEDAY; } else if(definedDelta === HALFDAY && delta >= HALFDAY) { periodLength = HALFDAY; } else if(definedDelta === ONEHOUR && delta >= ONEHOUR) { periodLength = ONEHOUR; } var inBetween; if(periodLength >= actualDelta) { // ensure new label positions remain between ticks periodLength = actualDelta; inBetween = true; } var endPeriod = v + periodLength; if(ax.rangebreaks && periodLength > 0) { var nAll = 84; // highly divisible 7 * 12 var n = 0; for(var c = 0; c < nAll; c++) { var r = (c + 0.5) / nAll; if(ax.maskBreaks(v * (1 - r) + r * endPeriod) !== BADNUM) n++; } periodLength *= n / nAll; if(!periodLength) { tickVals[i].drop = true; } if(inBetween && actualDelta > ONEWEEK) periodLength = actualDelta; // center monthly & longer periods } if( periodLength > 0 || // not instant i === 0 // taking care first tick added ) { tickVals[i].periodX = v + periodLength / 2; } } } // calculate the ticks: text, values, positioning // if ticks are set to automatic, determine the right values (tick0,dtick) // in any case, set tickround to # of digits to round tick labels to, // or codes to this effect for log and date scales axes.calcTicks = function calcTicks(ax, opts) { var type = ax.type; var calendar = ax.calendar; var ticklabelstep = ax.ticklabelstep; var isPeriod = ax.ticklabelmode === 'period'; var rng = Lib.simpleMap(ax.range, ax.r2l, undefined, undefined, opts); var axrev = (rng[1] < rng[0]); var minRange = Math.min(rng[0], rng[1]); var maxRange = Math.max(rng[0], rng[1]); var maxTicks = Math.max(1000, ax._length || 0); var ticksOut = []; var minorTicks = []; var tickVals = []; var minorTickVals = []; var hasMinor = ax.minor && (ax.minor.ticks || ax.minor.showgrid); // calc major first for(var major = 1; major >= (hasMinor ? 0 : 1); major--) { var isMinor = !major; if(major) { ax._dtickInit = ax.dtick; ax._tick0Init = ax.tick0; } else { ax.minor._dtickInit = ax.minor.dtick; ax.minor._tick0Init = ax.minor.tick0; } var mockAx = major ? ax : Lib.extendFlat({}, ax, ax.minor); if(isMinor) { axes.prepMinorTicks(mockAx, ax, opts); } else { axes.prepTicks(mockAx, opts); } // now that we've figured out the auto values for formatting // in case we're missing some ticktext, we can break out for array ticks if(mockAx.tickmode === 'array') { if(major) { tickVals = []; ticksOut = arrayTicks(ax); } else { minorTickVals = []; minorTicks = arrayTicks(ax); } continue; } // add a tiny bit so we get ticks which may have rounded out var exRng = expandRange(rng); var startTick = exRng[0]; var endTick = exRng[1]; var numDtick = isNumeric(mockAx.dtick); var isDLog = (type === 'log') && !(numDtick || mockAx.dtick.charAt(0) === 'L'); // find the first tick var x0 = axes.tickFirst(mockAx, opts); if(major) { ax._tmin = x0; // No visible ticks? Quit. // I've only seen this on category axes with all categories off the edge. if((x0 < startTick) !== axrev) break; // return the full set of tick vals if(type === 'category' || type === 'multicategory') { endTick = (axrev) ? Math.max(-0.5, endTick) : Math.min(ax._categories.length - 0.5, endTick); } } var prevX = null; var x = x0; var majorId; if(major) { // ids for ticklabelstep var _dTick; if(numDtick) { _dTick = ax.dtick; } else { if(type === 'date') { if(typeof ax.dtick === 'string' && ax.dtick.charAt(0) === 'M') { _dTick = ONEAVGMONTH * ax.dtick.substring(1); } } else { _dTick = ax._roughDTick; } } majorId = Math.round(( ax.r2l(x) - ax.r2l(ax.tick0) ) / _dTick) - 1; } var dtick = mockAx.dtick; if(mockAx.rangebreaks && mockAx._tick0Init !== mockAx.tick0) { // adjust tick0 x = moveOutsideBreak(x, ax); if(!axrev) { x = axes.tickIncrement(x, dtick, !axrev, calendar); } } if(major && isPeriod) { // add one item to label period before tick0 x = axes.tickIncrement(x, dtick, !axrev, calendar); majorId--; } for(; axrev ? (x >= endTick) : (x <= endTick); x = axes.tickIncrement( x, dtick, axrev, calendar ) ) { if(major) majorId++; if(mockAx.rangebreaks) { if(!axrev) { if(x < startTick) continue; if(mockAx.maskBreaks(x) === BADNUM && moveOutsideBreak(x, mockAx) >= maxRange) break; } } // prevent infinite loops - no more than one tick per pixel, // and make sure each value is different from the previous if(tickVals.length > maxTicks || x === prevX) break; prevX = x; var obj = { value: x }; if(major) { if(isDLog && (x !== (x | 0))) { obj.simpleLabel = true; } if(ticklabelstep > 1 && majorId % ticklabelstep) { obj.skipLabel = true; } tickVals.push(obj); } else { obj.minor = true; minorTickVals.push(obj); } } } if(hasMinor) { var canOverlap = (ax.minor.ticks === 'inside' && ax.ticks === 'outside') || (ax.minor.ticks === 'outside' && ax.ticks === 'inside'); if(!canOverlap) { // remove duplicate minors var majorValues = tickVals.map(function(d) { return d.value; }); var list = []; for(var k = 0; k < minorTickVals.length; k++) { var T = minorTickVals[k]; var v = T.value; if(majorValues.indexOf(v) !== -1) { continue; } var found = false; for(var q = 0; !found && (q < tickVals.length); q++) { if( // add 10e6 to eliminate problematic digits 10e6 + tickVals[q].value === 10e6 + v ) { found = true; } } if(!found) list.push(T); } minorTickVals = list; } } if(isPeriod) positionPeriodTicks(tickVals, ax, ax._definedDelta); var i; if(ax.rangebreaks) { var flip = ax._id.charAt(0) === 'y'; var fontSize = 1; // one pixel minimum if(ax.tickmode === 'auto') { fontSize = ax.tickfont ? ax.tickfont.size : 12; } var prevL = NaN; for(i = tickVals.length - 1; i > -1; i--) { if(tickVals[i].drop) { tickVals.splice(i, 1); continue; } tickVals[i].value = moveOutsideBreak(tickVals[i].value, ax); // avoid overlaps var l = ax.c2p(tickVals[i].value); if(flip ? (prevL > l - fontSize) : (prevL < l + fontSize) ) { // ensure one pixel minimum tickVals.splice(axrev ? i + 1 : i, 1); } else { prevL = l; } } } // If same angle over a full circle, the last tick vals is a duplicate. // TODO must do something similar for angular date axes. if(isAngular(ax) && Math.abs(rng[1] - rng[0]) === 360) { tickVals.pop(); } // save the last tick as well as first, so we can // show the exponent only on the last one ax._tmax = (tickVals[tickVals.length - 1] || {}).value; // for showing the rest of a date when the main tick label is only the // latter part: ax._prevDateHead holds what we showed most recently. // Start with it cleared and mark that we're in calcTicks (ie calculating a // whole string of these so we should care what the previous date head was!) ax._prevDateHead = ''; ax._inCalcTicks = true; var lastVisibleHead; var hideLabel = function(tick) { tick.text = ''; ax._prevDateHead = lastVisibleHead; }; tickVals = tickVals.concat(minorTickVals); var t, p; for(i = 0; i < tickVals.length; i++) { var _minor = tickVals[i].minor; var _value = tickVals[i].value; if(_minor) { minorTicks.push({ x: _value, minor: true }); } else { lastVisibleHead = ax._prevDateHead; t = axes.tickText( ax, _value, false, // hover tickVals[i].simpleLabel // noSuffixPrefix ); p = tickVals[i].periodX; if(p !== undefined) { t.periodX = p; if(p > maxRange || p < minRange) { // hide label if outside the range if(p > maxRange) t.periodX = maxRange; if(p < minRange) t.periodX = minRange; hideLabel(t); } } if(tickVals[i].skipLabel) { hideLabel(t); } ticksOut.push(t); } } ticksOut = ticksOut.concat(minorTicks); ax._inCalcTicks = false; if(isPeriod && ticksOut.length) { // drop very first tick that we added to handle period ticksOut[0].noTick = true; } return ticksOut; }; function arrayTicks(ax) { var rng = Lib.simpleMap(ax.range, ax.r2l); var exRng = expandRange(rng); var tickMin = Math.min(exRng[0], exRng[1]); var tickMax = Math.max(exRng[0], exRng[1]); // make sure showing ticks doesn't accidentally add new categories // TODO multicategory, if we allow ticktext / tickvals var tickVal2l = ax.type === 'category' ? ax.d2l_noadd : ax.d2l; // array ticks on log axes always show the full number // (if no explicit ticktext overrides it) if(ax.type === 'log' && String(ax.dtick).charAt(0) !== 'L') { ax.dtick = 'L' + Math.pow(10, Math.floor(Math.min(ax.range[0], ax.range[1])) - 1); } var ticksOut = []; for(var isMinor = 0; isMinor <= 1; isMinor++) { if(isMinor && !ax.minor) continue; var vals = !isMinor ? ax.tickvals : ax.minor.tickvals; var text = !isMinor ? ax.ticktext : []; if(!vals) continue; // without a text array, just format the given values as any other ticks // except with more precision to the numbers if(!Array.isArray(text)) text = []; for(var i = 0; i < vals.length; i++) { var vali = tickVal2l(vals[i]); if(vali > tickMin && vali < tickMax) { var obj = text[i] === undefined ? axes.tickText(ax, vali) : tickTextObj(ax, vali, String(text[i])); if(isMinor) { obj.minor = true; obj.text = ''; } ticksOut.push(obj); } } } if(ax.rangebreaks) { // remove ticks falling inside rangebreaks ticksOut = ticksOut.filter(function(d) { return ax.maskBreaks(d.x) !== BADNUM; }); } return ticksOut; } var roundBase10 = [2, 5, 10]; var roundBase24 = [1, 2, 3, 6, 12]; var roundBase60 = [1, 2, 5, 10, 15, 30]; // 2&3 day ticks are weird, but need something btwn 1&7 var roundDays = [1, 2, 3, 7, 14]; // approx. tick positions for log axes, showing all (1) and just 1, 2, 5 (2) // these don't have to be exact, just close enough to round to the right value var roundLog1 = [-0.046, 0, 0.301, 0.477, 0.602, 0.699, 0.778, 0.845, 0.903, 0.954, 1]; var roundLog2 = [-0.301, 0, 0.301, 0.699, 1]; // N.B. `thetaunit; 'radians' angular axes must be converted to degrees var roundAngles = [15, 30, 45, 90, 180]; function roundDTick(roughDTick, base, roundingSet) { return base * Lib.roundUp(roughDTick / base, roundingSet); } // autoTicks: calculate best guess at pleasant ticks for this axis // inputs: // ax - an axis object // roughDTick - rough tick spacing (to be turned into a nice round number) // outputs (into ax): // tick0: starting point for ticks (not necessarily on the graph) // usually 0 for numeric (=10^0=1 for log) or jan 1, 2000 for dates // dtick: the actual, nice round tick spacing, usually a little larger than roughDTick // if the ticks are spaced linearly (linear scale, categories, // log with only full powers, date ticks < month), // this will just be a number // months: M# // years: M# where # is 12*number of years // log with linear ticks: L# where # is the linear tick spacing // log showing powers plus some intermediates: // D1 shows all digits, D2 shows 2 and 5 axes.autoTicks = function(ax, roughDTick, isMinor) { var base; function getBase(v) { return Math.pow(v, Math.floor(Math.log(roughDTick) / Math.LN10)); } if(ax.type === 'date') { ax.tick0 = Lib.dateTick0(ax.calendar, 0); // the criteria below are all based on the rough spacing we calculate // being > half of the final unit - so precalculate twice the rough val var roughX2 = 2 * roughDTick; if(roughX2 > ONEAVGYEAR) { roughDTick /= ONEAVGYEAR; base = getBase(10); ax.dtick = 'M' + (12 * roundDTick(roughDTick, base, roundBase10)); } else if(roughX2 > ONEAVGMONTH) { roughDTick /= ONEAVGMONTH; ax.dtick = 'M' + roundDTick(roughDTick, 1, roundBase24); } else if(roughX2 > ONEDAY) { ax.dtick = roundDTick(roughDTick, ONEDAY, ax._hasDayOfWeekBreaks ? [1, 2, 7, 14] : roundDays); if(!isMinor) { // get week ticks on sunday // this will also move the base tick off 2000-01-01 if dtick is // 2 or 3 days... but that's a weird enough case that we'll ignore it. var tickformat = axes.getTickFormat(ax); var isPeriod = ax.ticklabelmode === 'period'; if(isPeriod) ax._rawTick0 = ax.tick0; if(/%[uVW]/.test(tickformat)) { ax.tick0 = Lib.dateTick0(ax.calendar, 2); // Monday } else { ax.tick0 = Lib.dateTick0(ax.calendar, 1); // Sunday } if(isPeriod) ax._dowTick0 = ax.tick0; } } else if(roughX2 > ONEHOUR) { ax.dtick = roundDTick(roughDTick, ONEHOUR, roundBase24); } else if(roughX2 > ONEMIN) { ax.dtick = roundDTick(roughDTick, ONEMIN, roundBase60); } else if(roughX2 > ONESEC) { ax.dtick = roundDTick(roughDTick, ONESEC, roundBase60); } else { // milliseconds base = getBase(10); ax.dtick = roundDTick(roughDTick, base, roundBase10); } } else if(ax.type === 'log') { ax.tick0 = 0; var rng = Lib.simpleMap(ax.range, ax.r2l); if(ax._isMinor) { // Log axes by default get MORE than nTicks based on the metrics below // But for minor ticks we don't want this increase, we already have // the major ticks. roughDTick *= 1.5; } if(roughDTick > 0.7) { // only show powers of 10 ax.dtick = Math.ceil(roughDTick); } else if(Math.abs(rng[1] - rng[0]) < 1) { // span is less than one power of 10 var nt = 1.5 * Math.abs((rng[1] - rng[0]) / roughDTick); // ticks on a linear scale, labeled fully roughDTick = Math.abs(Math.pow(10, rng[1]) - Math.pow(10, rng[0])) / nt; base = getBase(10); ax.dtick = 'L' + roundDTick(roughDTick, base, roundBase10); } else { // include intermediates between powers of 10, // labeled with small digits // ax.dtick = "D2" (show 2 and 5) or "D1" (show all digits) ax.dtick = (roughDTick > 0.3) ? 'D2' : 'D1'; } } else if(ax.type === 'category' || ax.type === 'multicategory') { ax.tick0 = 0; ax.dtick = Math.ceil(Math.max(roughDTick, 1)); } else if(isAngular(ax)) { ax.tick0 = 0; base = 1; ax.dtick = roundDTick(roughDTick, base, roundAngles); } else { // auto ticks always start at 0 ax.tick0 = 0; base = getBase(10); ax.dtick = roundDTick(roughDTick, base, roundBase10); } // prevent infinite loops if(ax.dtick === 0) ax.dtick = 1; // TODO: this is from log axis histograms with autorange off if(!isNumeric(ax.dtick) && typeof ax.dtick !== 'string') { var olddtick = ax.dtick; ax.dtick = 1; throw 'ax.dtick error: ' + String(olddtick); } }; // after dtick is already known, find tickround = precision // to display in tick labels // for numeric ticks, integer # digits after . to round to // for date ticks, the last date part to show (y,m,d,H,M,S) // or an integer # digits past seconds function autoTickRound(ax) { var dtick = ax.dtick; ax._tickexponent = 0; if(!isNumeric(dtick) && typeof dtick !== 'string') { dtick = 1; } if(ax.type === 'category' || ax.type === 'multicategory') { ax._tickround = null; } if(ax.type === 'date') { // If tick0 is unusual, give tickround a bit more information // not necessarily *all* the information in tick0 though, if it's really odd // minimal string length for tick0: 'd' is 10, 'M' is 16, 'S' is 19 // take off a leading minus (year < 0) and i (intercalary month) so length is consistent var tick0ms = ax.r2l(ax.tick0); var tick0str = ax.l2r(tick0ms).replace(/(^-|i)/g, ''); var tick0len = tick0str.length; if(String(dtick).charAt(0) === 'M') { // any tick0 more specific than a year: alway show the full date if(tick0len > 10 || tick0str.substr(5) !== '01-01') ax._tickround = 'd'; // show the month unless ticks are full multiples of a year else ax._tickround = (+(dtick.substr(1)) % 12 === 0) ? 'y' : 'm'; } else if((dtick >= ONEDAY && tick0len <= 10) || (dtick >= ONEDAY * 15)) ax._tickround = 'd'; else if((dtick >= ONEMIN && tick0len <= 16) || (dtick >= ONEHOUR)) ax._tickround = 'M'; else if((dtick >= ONESEC && tick0len <= 19) || (dtick >= ONEMIN)) ax._tickround = 'S'; else { // tickround is a number of digits of fractional seconds // of any two adjacent ticks, at least one will have the maximum fractional digits // of all possible ticks - so take the max. length of tick0 and the next one var tick1len = ax.l2r(tick0ms + dtick).replace(/^-/, '').length; ax._tickround = Math.max(tick0len, tick1len) - 20; // We shouldn't get here... but in case there's a situation I'm // not thinking of where tick0str and tick1str are identical or // something, fall back on maximum precision if(ax._tickround < 0) ax._tickround = 4; } } else if(isNumeric(dtick) || dtick.charAt(0) === 'L') { // linear or log (except D1, D2) var rng = ax.range.map(ax.r2d || Number); if(!isNumeric(dtick)) dtick = Number(dtick.substr(1)); // 2 digits past largest digit of dtick ax._tickround = 2 - Math.floor(Math.log(dtick) / Math.LN10 + 0.01); var maxend = Math.max(Math.abs(rng[0]), Math.abs(rng[1])); var rangeexp = Math.floor(Math.log(maxend) / Math.LN10 + 0.01); var minexponent = ax.minexponent === undefined ? 3 : ax.minexponent; if(Math.abs(rangeexp) > minexponent) { if(isSIFormat(ax.exponentformat) && !beyondSI(rangeexp)) { ax._tickexponent = 3 * Math.round((rangeexp - 1) / 3); } else ax._tickexponent = rangeexp; } } else { // D1 or D2 (log) ax._tickround = null; } } // months and years don't have constant millisecond values // (but a year is always 12 months so we only need months) // log-scale ticks are also not consistently spaced, except // for pure powers of 10 // numeric ticks always have constant differences, other datetime ticks // can all be calculated as constant number of milliseconds axes.tickIncrement = function(x, dtick, axrev, calendar) { var axSign = axrev ? -1 : 1; // includes linear, all dates smaller than month, and pure 10^n in log if(isNumeric(dtick)) return Lib.increment(x, axSign * dtick); // everything else is a string, one character plus a number var tType = dtick.charAt(0); var dtSigned = axSign * Number(dtick.substr(1)); // Dates: months (or years - see Lib.incrementMonth) if(tType === 'M') return Lib.incrementMonth(x, dtSigned, calendar); // Log scales: Linear, Digits if(tType === 'L') return Math.log(Math.pow(10, x) + dtSigned) / Math.LN10; // log10 of 2,5,10, or all digits (logs just have to be // close enough to round) if(tType === 'D') { var tickset = (dtick === 'D2') ? roundLog2 : roundLog1; var x2 = x + axSign * 0.01; var frac = Lib.roundUp(Lib.mod(x2, 1), tickset, axrev); return Math.floor(x2) + Math.log(d3.round(Math.pow(10, frac), 1)) / Math.LN10; } throw 'unrecognized dtick ' + String(dtick); }; // calculate the first tick on an axis axes.tickFirst = function(ax, opts) { var r2l = ax.r2l || Number; var rng = Lib.simpleMap(ax.range, r2l, undefined, undefined, opts); var axrev = rng[1] < rng[0]; var sRound = axrev ? Math.floor : Math.ceil; // add a tiny extra bit to make sure we get ticks // that may have been rounded out var r0 = expandRange(rng)[0]; var dtick = ax.dtick; var tick0 = r2l(ax.tick0); if(isNumeric(dtick)) { var tmin = sRound((r0 - tick0) / dtick) * dtick + tick0; // make sure no ticks outside the category list if(ax.type === 'category' || ax.type === 'multicategory') { tmin = Lib.constrain(tmin, 0, ax._categories.length - 1); } return tmin; } var tType = dtick.charAt(0); var dtNum = Number(dtick.substr(1)); // Dates: months (or years) if(tType === 'M') { var cnt = 0; var t0 = tick0; var t1, mult, newDTick; // This algorithm should work for *any* nonlinear (but close to linear!) // tick spacing. Limit to 10 iterations, for gregorian months it's normally <=3. while(cnt < 10) { t1 = axes.tickIncrement(t0, dtick, axrev, ax.calendar); if((t1 - r0) * (t0 - r0) <= 0) { // t1 and t0 are on opposite sides of r0! we've succeeded! if(axrev) return Math.min(t0, t1); return Math.max(t0, t1); } mult = (r0 - ((t0 + t1) / 2)) / (t1 - t0); newDTick = tType + ((Math.abs(Math.round(mult)) || 1) * dtNum); t0 = axes.tickIncrement(t0, newDTick, mult < 0 ? !axrev : axrev, ax.calendar); cnt++; } Lib.error('tickFirst did not converge', ax); return t0; } else if(tType === 'L') { // Log scales: Linear, Digits return Math.log(sRound( (Math.pow(10, r0) - tick0) / dtNum) * dtNum + tick0) / Math.LN10; } else if(tType === 'D') { var tickset = (dtick === 'D2') ? roundLog2 : roundLog1; var frac = Lib.roundUp(Lib.mod(r0, 1), tickset, axrev); return Math.floor(r0) + Math.log(d3.round(Math.pow(10, frac), 1)) / Math.LN10; } else throw 'unrecognized dtick ' + String(dtick); }; // draw the text for one tick. // px,py are the location on gd.paper // prefix is there so the x axis ticks can be dropped a line // ax is the axis layout, x is the tick value // hover is a (truthy) flag for whether to show numbers with a bit // more precision for hovertext axes.tickText = function(ax, x, hover, noSuffixPrefix) { var out = tickTextObj(ax, x); var arrayMode = ax.tickmode === 'array'; var extraPrecision = hover || arrayMode; var axType = ax.type; // TODO multicategory, if we allow ticktext / tickvals var tickVal2l = axType === 'category' ? ax.d2l_noadd : ax.d2l; var i; if(arrayMode && Array.isArray(ax.ticktext)) { var rng = Lib.simpleMap(ax.range, ax.r2l); var minDiff = (Math.abs(rng[1] - rng[0]) - (ax._lBreaks || 0)) / 10000; for(i = 0; i < ax.ticktext.length; i++) { if(Math.abs(x - tickVal2l(ax.tickvals[i])) < minDiff) break; } if(i < ax.ticktext.length) { out.text = String(ax.ticktext[i]); return out; } } function isHidden(showAttr) { if(showAttr === undefined) return true; if(hover) return showAttr === 'none'; var firstOrLast = { first: ax._tmin, last: ax._tmax }[showAttr]; return showAttr !== 'all' && x !== firstOrLast; } var hideexp = hover ? 'never' : ax.exponentformat !== 'none' && isHidden(ax.showexponent) ? 'hide' : ''; if(axType === 'date') formatDate(ax, out, hover, extraPrecision); else if(axType === 'log') formatLog(ax, out, hover, extraPrecision, hideexp); else if(axType === 'category') formatCategory(ax, out); else if(axType === 'multicategory') formatMultiCategory(ax, out, hover); else if(isAngular(ax)) formatAngle(ax, out, hover, extraPrecision, hideexp); else formatLinear(ax, out, hover, extraPrecision, hideexp); // add prefix and suffix if(!noSuffixPrefix) { if(ax.tickprefix && !isHidden(ax.showtickprefix)) out.text = ax.tickprefix + out.text; if(ax.ticksuffix && !isHidden(ax.showticksuffix)) out.text += ax.ticksuffix; } // Setup ticks and grid lines boundaries // at 1/2 a 'category' to the left/bottom if(ax.tickson === 'boundaries' || ax.showdividers) { var inbounds = function(v) { var p = ax.l2p(v); return p >= 0 && p <= ax._length ? v : null; }; out.xbnd = [ inbounds(out.x - 0.5), inbounds(out.x + ax.dtick - 0.5) ]; } return out; }; /** * create text for a hover label on this axis, with special handling of * log axes (where negative values can't be displayed but can appear in hover text) * * @param {object} ax: the axis to format text for * @param {number or array of numbers} values: calcdata value(s) to format * @param {Optional(string)} hoverformat: trace (x|y)hoverformat to override axis.hoverformat * * @returns {string} `val` formatted as a string appropriate to this axis, or * first value and second value as a range (ie ' - ') if the second value is provided and * it's different from the first value. */ axes.hoverLabelText = function(ax, values, hoverformat) { if(hoverformat) ax = Lib.extendFlat({}, ax, {hoverformat: hoverformat}); var val = Array.isArray(values) ? values[0] : values; var val2 = Array.isArray(values) ? values[1] : undefined; if(val2 !== undefined && val2 !== val) { return ( axes.hoverLabelText(ax, val, hoverformat) + ' - ' + axes.hoverLabelText(ax, val2, hoverformat) ); } var logOffScale = (ax.type === 'log' && val <= 0); var tx = axes.tickText(ax, ax.c2l(logOffScale ? -val : val), 'hover').text; if(logOffScale) { return val === 0 ? '0' : MINUS_SIGN + tx; } // TODO: should we do something special if the axis calendar and // the data calendar are different? Somehow display both dates with // their system names? Right now it will just display in the axis calendar // but users could add the other one as text. return tx; }; function tickTextObj(ax, x, text) { var tf = ax.tickfont || {}; return { x: x, dx: 0, dy: 0, text: text || '', fontSize: tf.size, font: tf.family, fontColor: tf.color }; } function formatDate(ax, out, hover, extraPrecision) { var tr = ax._tickround; var fmt = (hover && ax.hoverformat) || axes.getTickFormat(ax); if(extraPrecision) { // second or sub-second precision: extra always shows max digits. // for other fields, extra precision just adds one field. if(isNumeric(tr)) tr = 4; else tr = {y: 'm', m: 'd', d: 'M', M: 'S', S: 4}[tr]; } var dateStr = Lib.formatDate(out.x, fmt, tr, ax._dateFormat, ax.calendar, ax._extraFormat); var headStr; var splitIndex = dateStr.indexOf('\n'); if(splitIndex !== -1) { headStr = dateStr.substr(splitIndex + 1); dateStr = dateStr.substr(0, splitIndex); } if(extraPrecision) { // if extraPrecision led to trailing zeros, strip them off // actually, this can lead to removing even more zeros than // in the original rounding, but that's fine because in these // contexts uniformity is not so important (if there's even // anything to be uniform with!) // can we remove the whole time part? if(dateStr === '00:00:00' || dateStr === '00:00') { dateStr = headStr; headStr = ''; } else if(dateStr.length === 8) { // strip off seconds if they're zero (zero fractional seconds // are already omitted) // but we never remove minutes and leave just hours dateStr = dateStr.replace(/:00$/, ''); } } if(headStr) { if(hover) { // hover puts it all on one line, so headPart works best up front // except for year headPart: turn this into "Jan 1, 2000" etc. if(tr === 'd') dateStr += ', ' + headStr; else dateStr = headStr + (dateStr ? ', ' + dateStr : ''); } else { if( !ax._inCalcTicks || ax._prevDateHead !== headStr ) { ax._prevDateHead = headStr; dateStr += '
' + headStr; } else { var isInside = insideTicklabelposition(ax); var side = ax._trueSide || ax.side; // polar mocks the side of the radial axis if( (!isInside && side === 'top') || (isInside && side === 'bottom') ) { dateStr += '
'; } } } } out.text = dateStr; } function formatLog(ax, out, hover, extraPrecision, hideexp) { var dtick = ax.dtick; var x = out.x; var tickformat = ax.tickformat; var dtChar0 = typeof dtick === 'string' && dtick.charAt(0); if(hideexp === 'never') { // If this is a hover label, then we must *never* hide the exponent // for the sake of display, which could give the wrong value by // potentially many orders of magnitude. If hideexp was 'never', then // it's now succeeded by preventing the other condition from automating // this choice. Thus we can unset it so that the axis formatting takes // precedence. hideexp = ''; } if(extraPrecision && (dtChar0 !== 'L')) { dtick = 'L3'; dtChar0 = 'L'; } if(tickformat || (dtChar0 === 'L')) { out.text = numFormat(Math.pow(10, x), ax, hideexp, extraPrecision); } else if(isNumeric(dtick) || ((dtChar0 === 'D') && (Lib.mod(x + 0.01, 1) < 0.1))) { var p = Math.round(x); var absP = Math.abs(p); var exponentFormat = ax.exponentformat; if(exponentFormat === 'power' || (isSIFormat(exponentFormat) && beyondSI(p))) { if(p === 0) out.text = 1; else if(p === 1) out.text = '10'; else out.text = '10' + (p > 1 ? '' : MINUS_SIGN) + absP + ''; out.fontSize *= 1.25; } else if((exponentFormat === 'e' || exponentFormat === 'E') && absP > 2) { out.text = '1' + exponentFormat + (p > 0 ? '+' : MINUS_SIGN) + absP; } else { out.text = numFormat(Math.pow(10, x), ax, '', 'fakehover'); if(dtick === 'D1' && ax._id.charAt(0) === 'y') { out.dy -= out.fontSize / 6; } } } else if(dtChar0 === 'D') { out.text = String(Math.round(Math.pow(10, Lib.mod(x, 1)))); out.fontSize *= 0.75; } else throw 'unrecognized dtick ' + String(dtick); // if 9's are printed on log scale, move the 10's away a bit if(ax.dtick === 'D1') { var firstChar = String(out.text).charAt(0); if(firstChar === '0' || firstChar === '1') { if(ax._id.charAt(0) === 'y') { out.dx -= out.fontSize / 4; } else { out.dy += out.fontSize / 2; out.dx += (ax.range[1] > ax.range[0] ? 1 : -1) * out.fontSize * (x < 0 ? 0.5 : 0.25); } } } } function formatCategory(ax, out) { var tt = ax._categories[Math.round(out.x)]; if(tt === undefined) tt = ''; out.text = String(tt); } function formatMultiCategory(ax, out, hover) { var v = Math.round(out.x); var cats = ax._categories[v] || []; var tt = cats[1] === undefined ? '' : String(cats[1]); var tt2 = cats[0] === undefined ? '' : String(cats[0]); if(hover) { // TODO is this what we want? out.text = tt2 + ' - ' + tt; } else { // setup for secondary labels out.text = tt; out.text2 = tt2; } } function formatLinear(ax, out, hover, extraPrecision, hideexp) { if(hideexp === 'never') { // If this is a hover label, then we must *never* hide the exponent // for the sake of display, which could give the wrong value by // potentially many orders of magnitude. If hideexp was 'never', then // it's now succeeded by preventing the other condition from automating // this choice. Thus we can unset it so that the axis formatting takes // precedence. hideexp = ''; } else if(ax.showexponent === 'all' && Math.abs(out.x / ax.dtick) < 1e-6) { // don't add an exponent to zero if we're showing all exponents // so the only reason you'd show an exponent on zero is if it's the // ONLY tick to get an exponent (first or last) hideexp = 'hide'; } out.text = numFormat(out.x, ax, hideexp, extraPrecision); } function formatAngle(ax, out, hover, extraPrecision, hideexp) { if(ax.thetaunit === 'radians' && !hover) { var num = out.x / 180; if(num === 0) { out.text = '0'; } else { var frac = num2frac(num); if(frac[1] >= 100) { out.text = numFormat(Lib.deg2rad(out.x), ax, hideexp, extraPrecision); } else { var isNeg = out.x < 0; if(frac[1] === 1) { if(frac[0] === 1) out.text = 'π'; else out.text = frac[0] + 'π'; } else { out.text = [ '', frac[0], '', '⁄', '', frac[1], '', 'π' ].join(''); } if(isNeg) out.text = MINUS_SIGN + out.text; } } } else { out.text = numFormat(out.x, ax, hideexp, extraPrecision); } } // inspired by // https://github.com/yisibl/num2fraction/blob/master/index.js function num2frac(num) { function almostEq(a, b) { return Math.abs(a - b) <= 1e-6; } function findGCD(a, b) { return almostEq(b, 0) ? a : findGCD(b, a % b); } function findPrecision(n) { var e = 1; while(!almostEq(Math.round(n * e) / e, n)) { e *= 10; } return e; } var precision = findPrecision(num); var number = num * precision; var gcd = Math.abs(findGCD(number, precision)); return [ // numerator Math.round(number / gcd), // denominator Math.round(precision / gcd) ]; } // format a number (tick value) according to the axis settings // new, more reliable procedure than d3.round or similar: // add half the rounding increment, then stringify and truncate // also automatically switch to sci. notation var SIPREFIXES = ['f', 'p', 'n', 'μ', 'm', '', 'k', 'M', 'G', 'T']; function isSIFormat(exponentFormat) { return exponentFormat === 'SI' || exponentFormat === 'B'; } // are we beyond the range of common SI prefixes? // 10^-16 -> 1x10^-16 // 10^-15 -> 1f // ... // 10^14 -> 100T // 10^15 -> 1x10^15 // 10^16 -> 1x10^16 function beyondSI(exponent) { return exponent > 14 || exponent < -15; } function numFormat(v, ax, fmtoverride, hover) { var isNeg = v < 0; // max number of digits past decimal point to show var tickRound = ax._tickround; var exponentFormat = fmtoverride || ax.exponentformat || 'B'; var exponent = ax._tickexponent; var tickformat = axes.getTickFormat(ax); var separatethousands = ax.separatethousands; // special case for hover: set exponent just for this value, and // add a couple more digits of precision over tick labels if(hover) { // make a dummy axis obj to get the auto rounding and exponent var ah = { exponentformat: exponentFormat, minexponent: ax.minexponent, dtick: ax.showexponent === 'none' ? ax.dtick : (isNumeric(v) ? Math.abs(v) || 1 : 1), // if not showing any exponents, don't change the exponent // from what we calculate range: ax.showexponent === 'none' ? ax.range.map(ax.r2d) : [0, v || 1] }; autoTickRound(ah); tickRound = (Number(ah._tickround) || 0) + 4; exponent = ah._tickexponent; if(ax.hoverformat) tickformat = ax.hoverformat; } if(tickformat) return ax._numFormat(tickformat)(v).replace(/-/g, MINUS_SIGN); // 'epsilon' - rounding increment var e = Math.pow(10, -tickRound) / 2; // exponentFormat codes: // 'e' (1.2e+6, default) // 'E' (1.2E+6) // 'SI' (1.2M) // 'B' (same as SI except 10^9=B not G) // 'none' (1200000) // 'power' (1.2x10^6) // 'hide' (1.2, use 3rd argument=='hide' to eg // only show exponent on last tick) if(exponentFormat === 'none') exponent = 0; // take the sign out, put it back manually at the end // - makes cases easier v = Math.abs(v); if(v < e) { // 0 is just 0, but may get exponent if it's the last tick v = '0'; isNeg = false; } else { v += e; // take out a common exponent, if any if(exponent) { v *= Math.pow(10, -exponent); tickRound += exponent; } // round the mantissa if(tickRound === 0) v = String(Math.floor(v)); else if(tickRound < 0) { v = String(Math.round(v)); v = v.substr(0, v.length + tickRound); for(var i = tickRound; i < 0; i++) v += '0'; } else { v = String(v); var dp = v.indexOf('.') + 1; if(dp) v = v.substr(0, dp + tickRound).replace(/\.?0+$/, ''); } // insert appropriate decimal point and thousands separator v = Lib.numSeparate(v, ax._separators, separatethousands); } // add exponent if(exponent && exponentFormat !== 'hide') { if(isSIFormat(exponentFormat) && beyondSI(exponent)) exponentFormat = 'power'; var signedExponent; if(exponent < 0) signedExponent = MINUS_SIGN + -exponent; else if(exponentFormat !== 'power') signedExponent = '+' + exponent; else signedExponent = String(exponent); if(exponentFormat === 'e' || exponentFormat === 'E') { v += exponentFormat + signedExponent; } else if(exponentFormat === 'power') { v += '×10' + signedExponent + ''; } else if(exponentFormat === 'B' && exponent === 9) { v += 'B'; } else if(isSIFormat(exponentFormat)) { v += SIPREFIXES[exponent / 3 + 5]; } } // put sign back in and return // replace standard minus character (which is technically a hyphen) // with a true minus sign if(isNeg) return MINUS_SIGN + v; return v; } axes.getTickFormat = function(ax) { var i; function convertToMs(dtick) { return typeof dtick !== 'string' ? dtick : Number(dtick.replace('M', '')) * ONEAVGMONTH; } function compareLogTicks(left, right) { var priority = ['L', 'D']; if(typeof left === typeof right) { if(typeof left === 'number') { return left - right; } else { var leftPriority = priority.indexOf(left.charAt(0)); var rightPriority = priority.indexOf(right.charAt(0)); if(leftPriority === rightPriority) { return Number(left.replace(/(L|D)/g, '')) - Number(right.replace(/(L|D)/g, '')); } else { return leftPriority - rightPriority; } } } else { return typeof left === 'number' ? 1 : -1; } } function isProperStop(dtick, range, convert) { var convertFn = convert || function(x) { return x;}; var leftDtick = range[0]; var rightDtick = range[1]; return ((!leftDtick && typeof leftDtick !== 'number') || convertFn(leftDtick) <= convertFn(dtick)) && ((!rightDtick && typeof rightDtick !== 'number') || convertFn(rightDtick) >= convertFn(dtick)); } function isProperLogStop(dtick, range) { var isLeftDtickNull = range[0] === null; var isRightDtickNull = range[1] === null; var isDtickInRangeLeft = compareLogTicks(dtick, range[0]) >= 0; var isDtickInRangeRight = compareLogTicks(dtick, range[1]) <= 0; return (isLeftDtickNull || isDtickInRangeLeft) && (isRightDtickNull || isDtickInRangeRight); } var tickstop, stopi; if(ax.tickformatstops && ax.tickformatstops.length > 0) { switch(ax.type) { case 'date': case 'linear': { for(i = 0; i < ax.tickformatstops.length; i++) { stopi = ax.tickformatstops[i]; if(stopi.enabled && isProperStop(ax.dtick, stopi.dtickrange, convertToMs)) { tickstop = stopi; break; } } break; } case 'log': { for(i = 0; i < ax.tickformatstops.length; i++) { stopi = ax.tickformatstops[i]; if(stopi.enabled && isProperLogStop(ax.dtick, stopi.dtickrange)) { tickstop = stopi; break; } } break; } default: } } return tickstop ? tickstop.value : ax.tickformat; }; // getSubplots - extract all subplot IDs we need // as an array of items like 'xy', 'x2y', 'x2y2'... // sorted by x (x,x2,x3...) then y // optionally restrict to only subplots containing axis object ax // // NOTE: this is currently only used OUTSIDE plotly.js (toolpanel, webapp) // ideally we get rid of it there (or just copy this there) and remove it here axes.getSubplots = function(gd, ax) { var subplotObj = gd._fullLayout._subplots; var allSubplots = subplotObj.cartesian.concat(subplotObj.gl2d || []); var out = ax ? axes.findSubplotsWithAxis(allSubplots, ax) : allSubplots; out.sort(function(a, b) { var aParts = a.substr(1).split('y'); var bParts = b.substr(1).split('y'); if(aParts[0] === bParts[0]) return +aParts[1] - +bParts[1]; return +aParts[0] - +bParts[0]; }); return out; }; // find all subplots with axis 'ax' // NOTE: this is only used in axes.getSubplots (only used outside plotly.js) and // gl2d/convert (where it restricts axis subplots to only those with gl2d) axes.findSubplotsWithAxis = function(subplots, ax) { var axMatch = new RegExp( (ax._id.charAt(0) === 'x') ? ('^' + ax._id + 'y') : (ax._id + '$') ); var subplotsWithAx = []; for(var i = 0; i < subplots.length; i++) { var sp = subplots[i]; if(axMatch.test(sp)) subplotsWithAx.push(sp); } return subplotsWithAx; }; // makeClipPaths: prepare clipPaths for all single axes and all possible xy pairings axes.makeClipPaths = function(gd) { var fullLayout = gd._fullLayout; // for more info: https://github.com/plotly/plotly.js/issues/2595 if(fullLayout._hasOnlyLargeSploms) return; var fullWidth = {_offset: 0, _length: fullLayout.width, _id: ''}; var fullHeight = {_offset: 0, _length: fullLayout.height, _id: ''}; var xaList = axes.list(gd, 'x', true); var yaList = axes.list(gd, 'y', true); var clipList = []; var i, j; for(i = 0; i < xaList.length; i++) { clipList.push({x: xaList[i], y: fullHeight}); for(j = 0; j < yaList.length; j++) { if(i === 0) clipList.push({x: fullWidth, y: yaList[j]}); clipList.push({x: xaList[i], y: yaList[j]}); } } // selectors don't work right with camelCase tags, // have to use class instead // https://groups.google.com/forum/#!topic/d3-js/6EpAzQ2gU9I var axClips = fullLayout._clips.selectAll('.axesclip') .data(clipList, function(d) { return d.x._id + d.y._id; }); axClips.enter().append('clipPath') .classed('axesclip', true) .attr('id', function(d) { return 'clip' + fullLayout._uid + d.x._id + d.y._id; }) .append('rect'); axClips.exit().remove(); axClips.each(function(d) { d3.select(this).select('rect').attr({ x: d.x._offset || 0, y: d.y._offset || 0, width: d.x._length || 1, height: d.y._length || 1 }); }); }; /** * Main multi-axis drawing routine! * * @param {DOM element} gd : graph div * @param {string or array of strings} arg : polymorphic argument * @param {object} opts: * - @param {boolean} skipTitle : optional flag to skip axis title draw/update * * Signature 1: Axes.draw(gd, 'redraw') * use this to clear and redraw all axes on graph * * Signature 2: Axes.draw(gd, '') * use this to draw all axes on graph w/o the selectAll().remove() * of the 'redraw' signature * * Signature 3: Axes.draw(gd, [axId, axId2, ...]) * where the items are axis id string, * use this to update multiple axes in one call * * N.B draw updates: * - ax._r (stored range for use by zoom/pan) * - ax._rl (stored linearized range for use by zoom/pan) */ axes.draw = function(gd, arg, opts) { var fullLayout = gd._fullLayout; if(arg === 'redraw') { fullLayout._paper.selectAll('g.subplot').each(function(d) { var id = d[0]; var plotinfo = fullLayout._plots[id]; if(plotinfo) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; plotinfo.xaxislayer.selectAll('.' + xa._id + 'tick').remove(); plotinfo.yaxislayer.selectAll('.' + ya._id + 'tick').remove(); plotinfo.xaxislayer.selectAll('.' + xa._id + 'tick2').remove(); plotinfo.yaxislayer.selectAll('.' + ya._id + 'tick2').remove(); plotinfo.xaxislayer.selectAll('.' + xa._id + 'divider').remove(); plotinfo.yaxislayer.selectAll('.' + ya._id + 'divider').remove(); if(plotinfo.minorGridlayer) plotinfo.minorGridlayer.selectAll('path').remove(); if(plotinfo.gridlayer) plotinfo.gridlayer.selectAll('path').remove(); if(plotinfo.zerolinelayer) plotinfo.zerolinelayer.selectAll('path').remove(); fullLayout._infolayer.select('.g-' + xa._id + 'title').remove(); fullLayout._infolayer.select('.g-' + ya._id + 'title').remove(); } }); } var axList = (!arg || arg === 'redraw') ? axes.listIds(gd) : arg; return Lib.syncOrAsync(axList.map(function(axId) { return function() { if(!axId) return; var ax = axes.getFromId(gd, axId); var axDone = axes.drawOne(gd, ax, opts); ax._r = ax.range.slice(); ax._rl = Lib.simpleMap(ax._r, ax.r2l); return axDone; }; })); }; /** * Draw one cartesian axis * * @param {DOM element} gd * @param {object} ax (full) axis object * @param {object} opts * - @param {boolean} skipTitle (set to true to skip axis title draw call) * * Depends on: * - ax._mainSubplot (from linkSubplots) * - ax._mainAxis * - ax._anchorAxis * - ax._subplotsWith * - ax._counterDomainMin, ax._counterDomainMax (optionally, from linkSubplots) * - ax._tickAngles (on redraw only, old value relinked during supplyDefaults) * - ax._mainLinePosition (from lsInner) * - ax._mainMirrorPosition * - ax._linepositions * * Fills in: * - ax._vals: * - ax._gridVals: * - ax._selections: * - ax._tickAngles: * - ax._depth (when required only): * - and calls ax.setScale */ axes.drawOne = function(gd, ax, opts) { opts = opts || {}; var i, sp, plotinfo; ax.setScale(); var fullLayout = gd._fullLayout; var axId = ax._id; var axLetter = axId.charAt(0); var counterLetter = axes.counterLetter(axId); var mainPlotinfo = fullLayout._plots[ax._mainSubplot]; // this happens when updating matched group with 'missing' axes if(!mainPlotinfo) return; var mainAxLayer = mainPlotinfo[axLetter + 'axislayer']; var mainLinePosition = ax._mainLinePosition; var mainMirrorPosition = ax._mainMirrorPosition; var vals = ax._vals = axes.calcTicks(ax); // Add a couple of axis properties that should cause us to recreate // elements. Used in d3 data function. var axInfo = [ax.mirror, mainLinePosition, mainMirrorPosition].join('_'); for(i = 0; i < vals.length; i++) { vals[i].axInfo = axInfo; } // stash selections to avoid DOM queries e.g. // - stash tickLabels selection, so that drawTitle can use it to scoot title ax._selections = {}; // stash tick angle (including the computed 'auto' values) per tick-label class // linkup 'previous' tick angles on redraws if(ax._tickAngles) ax._prevTickAngles = ax._tickAngles; ax._tickAngles = {}; // measure [in px] between axis position and outward-most part of bounding box // (touching either the tick label or ticks) // depth can be expansive to compute, so we only do so when required ax._depth = null; // calcLabelLevelBbox can be expensive, // so make sure to not call it twice during the same Axes.drawOne call // by stashing label-level bounding boxes per tick-label class var llbboxes = {}; function getLabelLevelBbox(suffix) { var cls = axId + (suffix || 'tick'); if(!llbboxes[cls]) llbboxes[cls] = calcLabelLevelBbox(ax, cls); return llbboxes[cls]; } if(!ax.visible) return; var transTickFn = axes.makeTransTickFn(ax); var transTickLabelFn = axes.makeTransTickLabelFn(ax); var tickVals; // We remove zero lines, grid lines, and inside ticks if they're within 1px of the end // The key case here is removing zero lines when the axis bound is zero var valsClipped; var insideTicks = ax.ticks === 'inside'; var outsideTicks = ax.ticks === 'outside'; if(ax.tickson === 'boundaries') { var boundaryVals = getBoundaryVals(ax, vals); valsClipped = axes.clipEnds(ax, boundaryVals); tickVals = insideTicks ? valsClipped : boundaryVals; } else { valsClipped = axes.clipEnds(ax, vals); tickVals = (insideTicks && ax.ticklabelmode !== 'period') ? valsClipped : vals; } var gridVals = ax._gridVals = valsClipped; var dividerVals = getDividerVals(ax, vals); if(!fullLayout._hasOnlyLargeSploms) { var subplotsWithAx = ax._subplotsWith; // keep track of which subplots (by main counter axis) we've already // drawn grids for, so we don't overdraw overlaying subplots var finishedGrids = {}; for(i = 0; i < subplotsWithAx.length; i++) { sp = subplotsWithAx[i]; plotinfo = fullLayout._plots[sp]; var counterAxis = plotinfo[counterLetter + 'axis']; var mainCounterID = counterAxis._mainAxis._id; if(finishedGrids[mainCounterID]) continue; finishedGrids[mainCounterID] = 1; var gridPath = axLetter === 'x' ? 'M0,' + counterAxis._offset + 'v' + counterAxis._length : 'M' + counterAxis._offset + ',0h' + counterAxis._length; axes.drawGrid(gd, ax, { vals: gridVals, counterAxis: counterAxis, layer: plotinfo.gridlayer.select('.' + axId), minorLayer: plotinfo.minorGridlayer.select('.' + axId), path: gridPath, transFn: transTickFn }); axes.drawZeroLine(gd, ax, { counterAxis: counterAxis, layer: plotinfo.zerolinelayer, path: gridPath, transFn: transTickFn }); } } var tickPath; var majorTickSigns = axes.getTickSigns(ax); var minorTickSigns = axes.getTickSigns(ax, 'minor'); if(ax.ticks || (ax.minor && ax.minor.ticks)) { var majorTickPath = axes.makeTickPath(ax, mainLinePosition, majorTickSigns[2]); var minorTickPath = axes.makeTickPath(ax, mainLinePosition, minorTickSigns[2], { minor: true }); var mirrorMajorTickPath; var mirrorMinorTickPath; var fullMajorTickPath; var fullMinorTickPath; if(ax._anchorAxis && ax.mirror && ax.mirror !== true) { mirrorMajorTickPath = axes.makeTickPath(ax, mainMirrorPosition, majorTickSigns[3]); mirrorMinorTickPath = axes.makeTickPath(ax, mainMirrorPosition, minorTickSigns[3], { minor: true }); fullMajorTickPath = majorTickPath + mirrorMajorTickPath; fullMinorTickPath = minorTickPath + mirrorMinorTickPath; } else { mirrorMajorTickPath = ''; mirrorMinorTickPath = ''; fullMajorTickPath = majorTickPath; fullMinorTickPath = minorTickPath; } if(ax.showdividers && outsideTicks && ax.tickson === 'boundaries') { var dividerLookup = {}; for(i = 0; i < dividerVals.length; i++) { dividerLookup[dividerVals[i].x] = 1; } tickPath = function(d) { return dividerLookup[d.x] ? mirrorMajorTickPath : fullMajorTickPath; }; } else { tickPath = function(d) { return d.minor ? fullMinorTickPath : fullMajorTickPath; }; } } axes.drawTicks(gd, ax, { vals: tickVals, layer: mainAxLayer, path: tickPath, transFn: transTickFn }); if(ax.mirror === 'allticks') { var tickSubplots = Object.keys(ax._linepositions || {}); for(i = 0; i < tickSubplots.length; i++) { sp = tickSubplots[i]; plotinfo = fullLayout._plots[sp]; // [bottom or left, top or right], free and main are handled above var linepositions = ax._linepositions[sp] || []; var p0 = linepositions[0]; var p1 = linepositions[1]; var isMinor = linepositions[2]; var spTickPath = axes.makeTickPath(ax, p0, isMinor ? majorTickSigns[0] : minorTickSigns[0], { minor: isMinor } ) + axes.makeTickPath(ax, p1, isMinor ? majorTickSigns[1] : minorTickSigns[1], { minor: isMinor } ); axes.drawTicks(gd, ax, { vals: tickVals, layer: plotinfo[axLetter + 'axislayer'], path: spTickPath, transFn: transTickFn }); } } var seq = []; // tick labels - for now just the main labels. // TODO: mirror labels, esp for subplots seq.push(function() { return axes.drawLabels(gd, ax, { vals: vals, layer: mainAxLayer, plotinfo: plotinfo, transFn: transTickLabelFn, labelFns: axes.makeLabelFns(ax, mainLinePosition) }); }); if(ax.type === 'multicategory') { var pad = {x: 2, y: 10}[axLetter]; seq.push(function() { var bboxKey = {x: 'height', y: 'width'}[axLetter]; var standoff = getLabelLevelBbox()[bboxKey] + pad + (ax._tickAngles[axId + 'tick'] ? ax.tickfont.size * LINE_SPACING : 0); return axes.drawLabels(gd, ax, { vals: getSecondaryLabelVals(ax, vals), layer: mainAxLayer, cls: axId + 'tick2', repositionOnUpdate: true, secondary: true, transFn: transTickFn, labelFns: axes.makeLabelFns(ax, mainLinePosition + standoff * majorTickSigns[4]) }); }); seq.push(function() { ax._depth = majorTickSigns[4] * (getLabelLevelBbox('tick2')[ax.side] - mainLinePosition); return drawDividers(gd, ax, { vals: dividerVals, layer: mainAxLayer, path: axes.makeTickPath(ax, mainLinePosition, majorTickSigns[4], { len: ax._depth }), transFn: transTickFn }); }); } else if(ax.title.hasOwnProperty('standoff')) { seq.push(function() { ax._depth = majorTickSigns[4] * (getLabelLevelBbox()[ax.side] - mainLinePosition); }); } var hasRangeSlider = Registry.getComponentMethod('rangeslider', 'isVisible')(ax); seq.push(function() { var s = ax.side.charAt(0); var sMirror = OPPOSITE_SIDE[ax.side].charAt(0); var pos = axes.getPxPosition(gd, ax); var outsideTickLen = outsideTicks ? ax.ticklen : 0; var llbbox; var push; var mirrorPush; var rangeSliderPush; if(ax.automargin || hasRangeSlider) { if(ax.type === 'multicategory') { llbbox = getLabelLevelBbox('tick2'); } else { llbbox = getLabelLevelBbox(); if(axLetter === 'x' && s === 'b') { ax._depth = Math.max(llbbox.width > 0 ? llbbox.bottom - pos : 0, outsideTickLen); } } } if(ax.automargin) { push = {x: 0, y: 0, r: 0, l: 0, t: 0, b: 0}; var domainIndices = [0, 1]; if(axLetter === 'x') { if(s === 'b') { push[s] = ax._depth; } else { push[s] = ax._depth = Math.max(llbbox.width > 0 ? pos - llbbox.top : 0, outsideTickLen); domainIndices.reverse(); } if(llbbox.width > 0) { var rExtra = llbbox.right - (ax._offset + ax._length); if(rExtra > 0) { push.xr = 1; push.r = rExtra; } var lExtra = ax._offset - llbbox.left; if(lExtra > 0) { push.xl = 0; push.l = lExtra; } } } else { if(s === 'l') { push[s] = ax._depth = Math.max(llbbox.height > 0 ? pos - llbbox.left : 0, outsideTickLen); } else { push[s] = ax._depth = Math.max(llbbox.height > 0 ? llbbox.right - pos : 0, outsideTickLen); domainIndices.reverse(); } if(llbbox.height > 0) { var bExtra = llbbox.bottom - (ax._offset + ax._length); if(bExtra > 0) { push.yb = 0; push.b = bExtra; } var tExtra = ax._offset - llbbox.top; if(tExtra > 0) { push.yt = 1; push.t = tExtra; } } } push[counterLetter] = ax.anchor === 'free' ? ax.position : ax._anchorAxis.domain[domainIndices[0]]; if(ax.title.text !== fullLayout._dfltTitle[axLetter]) { push[s] += approxTitleDepth(ax) + (ax.title.standoff || 0); } if(ax.mirror && ax.anchor !== 'free') { mirrorPush = {x: 0, y: 0, r: 0, l: 0, t: 0, b: 0}; mirrorPush[sMirror] = ax.linewidth; if(ax.mirror && ax.mirror !== true) mirrorPush[sMirror] += outsideTickLen; if(ax.mirror === true || ax.mirror === 'ticks') { mirrorPush[counterLetter] = ax._anchorAxis.domain[domainIndices[1]]; } else if(ax.mirror === 'all' || ax.mirror === 'allticks') { mirrorPush[counterLetter] = [ax._counterDomainMin, ax._counterDomainMax][domainIndices[1]]; } } } if(hasRangeSlider) { rangeSliderPush = Registry.getComponentMethod('rangeslider', 'autoMarginOpts')(gd, ax); } Plots.autoMargin(gd, axAutoMarginID(ax), push); Plots.autoMargin(gd, axMirrorAutoMarginID(ax), mirrorPush); Plots.autoMargin(gd, rangeSliderAutoMarginID(ax), rangeSliderPush); }); if(!opts.skipTitle && !(hasRangeSlider && ax.side === 'bottom') ) { seq.push(function() { return drawTitle(gd, ax); }); } return Lib.syncOrAsync(seq); }; function getBoundaryVals(ax, vals) { var out = []; var i; // boundaryVals are never used for labels; // no need to worry about the other tickTextObj keys var _push = function(d, bndIndex) { var xb = d.xbnd[bndIndex]; if(xb !== null) { out.push(Lib.extendFlat({}, d, {x: xb})); } }; if(vals.length) { for(i = 0; i < vals.length; i++) { _push(vals[i], 0); } _push(vals[i - 1], 1); } return out; } function getSecondaryLabelVals(ax, vals) { var out = []; var lookup = {}; for(var i = 0; i < vals.length; i++) { var d = vals[i]; if(lookup[d.text2]) { lookup[d.text2].push(d.x); } else { lookup[d.text2] = [d.x]; } } for(var k in lookup) { out.push(tickTextObj(ax, Lib.interp(lookup[k], 0.5), k)); } return out; } function getDividerVals(ax, vals) { var out = []; var i, current; var reversed = (vals.length && vals[vals.length - 1].x < vals[0].x); // never used for labels; // no need to worry about the other tickTextObj keys var _push = function(d, bndIndex) { var xb = d.xbnd[bndIndex]; if(xb !== null) { out.push(Lib.extendFlat({}, d, {x: xb})); } }; if(ax.showdividers && vals.length) { for(i = 0; i < vals.length; i++) { var d = vals[i]; if(d.text2 !== current) { _push(d, reversed ? 1 : 0); } current = d.text2; } _push(vals[i - 1], reversed ? 0 : 1); } return out; } function calcLabelLevelBbox(ax, cls) { var top, bottom; var left, right; if(ax._selections[cls].size()) { top = Infinity; bottom = -Infinity; left = Infinity; right = -Infinity; ax._selections[cls].each(function() { var thisLabel = selectTickLabel(this); // Use parent node , to make Drawing.bBox // retrieve a bbox computed with transform info // // To improve perf, it would be nice to use `thisLabel.node()` // (like in fixLabelOverlaps) instead and use Axes.getPxPosition // together with the makeLabelFns outputs and `tickangle` // to compute one bbox per (tick value x tick style) var bb = Drawing.bBox(thisLabel.node().parentNode); top = Math.min(top, bb.top); bottom = Math.max(bottom, bb.bottom); left = Math.min(left, bb.left); right = Math.max(right, bb.right); }); } else { top = 0; bottom = 0; left = 0; right = 0; } return { top: top, bottom: bottom, left: left, right: right, height: bottom - top, width: right - left }; } /** * Which direction do the 'ax.side' values, and free ticks go? * * @param {object} ax (full) axis object * - {string} _id (starting with 'x' or 'y') * - {string} side * - {string} ticks * @return {array} all entries are either -1 or 1 * - [0]: sign for top/right ticks (i.e. negative SVG direction) * - [1]: sign for bottom/left ticks (i.e. positive SVG direction) * - [2]: sign for ticks corresponding to 'ax.side' * - [3]: sign for ticks mirroring 'ax.side' * - [4]: sign of arrow starting at axis pointing towards margin */ axes.getTickSigns = function(ax, minor) { var axLetter = ax._id.charAt(0); var sideOpposite = {x: 'top', y: 'right'}[axLetter]; var main = ax.side === sideOpposite ? 1 : -1; var out = [-1, 1, main, -main]; // then we flip if outside XOR y axis var ticks = minor ? (ax.minor || {}).ticks : ax.ticks; if((ticks !== 'inside') === (axLetter === 'x')) { out = out.map(function(v) { return -v; }); } // independent of `ticks`; do not flip this one if(ax.side) { out.push({l: -1, t: -1, r: 1, b: 1}[ax.side.charAt(0)]); } return out; }; /** * Make axis translate transform function * * @param {object} ax (full) axis object * - {string} _id * - {number} _offset * - {fn} l2p * @return {fn} function of calcTicks items */ axes.makeTransTickFn = function(ax) { return ax._id.charAt(0) === 'x' ? function(d) { return strTranslate(ax._offset + ax.l2p(d.x), 0); } : function(d) { return strTranslate(0, ax._offset + ax.l2p(d.x)); }; }; axes.makeTransTickLabelFn = function(ax) { var uv = getTickLabelUV(ax); var u = uv[0]; var v = uv[1]; return ax._id.charAt(0) === 'x' ? function(d) { return strTranslate( u + ax._offset + ax.l2p(getPosX(d)), v ); } : function(d) { return strTranslate( v, u + ax._offset + ax.l2p(getPosX(d)) ); }; }; function getPosX(d) { return d.periodX !== undefined ? d.periodX : d.x; } // u is a shift along the axis, // v is a shift perpendicular to the axis function getTickLabelUV(ax) { var ticklabelposition = ax.ticklabelposition || ''; var has = function(str) { return ticklabelposition.indexOf(str) !== -1; }; var isTop = has('top'); var isLeft = has('left'); var isRight = has('right'); var isBottom = has('bottom'); var isInside = has('inside'); var isAligned = isBottom || isLeft || isTop || isRight; // early return if(!isAligned && !isInside) return [0, 0]; var side = ax.side; var u = isAligned ? (ax.tickwidth || 0) / 2 : 0; var v = TEXTPAD; var fontSize = ax.tickfont ? ax.tickfont.size : 12; if(isBottom || isTop) { u += fontSize * CAP_SHIFT; v += (ax.linewidth || 0) / 2; } if(isLeft || isRight) { u += (ax.linewidth || 0) / 2; v += TEXTPAD; } if(isInside && side === 'top') { v -= fontSize * (1 - CAP_SHIFT); } if(isLeft || isTop) u = -u; if(side === 'bottom' || side === 'right') v = -v; return [ isAligned ? u : 0, isInside ? v : 0 ]; } /** * Make axis tick path string * * @param {object} ax (full) axis object * - {string} _id * - {number} ticklen * - {number} linewidth * @param {number} shift along direction of ticklen * @param {1 or -1} sgn tick sign * @param {object} opts * - {number (optional)} len tick length * @return {string} */ axes.makeTickPath = function(ax, shift, sgn, opts) { if(!opts) opts = {}; var minor = opts.minor; if(minor && !ax.minor) return ''; var len = opts.len !== undefined ? opts.len : minor ? ax.minor.ticklen : ax.ticklen; var axLetter = ax._id.charAt(0); var pad = (ax.linewidth || 1) / 2; return axLetter === 'x' ? 'M0,' + (shift + pad * sgn) + 'v' + (len * sgn) : 'M' + (shift + pad * sgn) + ',0h' + (len * sgn); }; /** * Make axis tick label x, y and anchor functions * * @param {object} ax (full) axis object * - {string} _id * - {string} ticks * - {number} ticklen * - {string} side * - {number} linewidth * - {number} tickfont.size * - {boolean} showline * @param {number} shift * @param {number} angle [in degrees] ... * @return {object} * - {fn} xFn * - {fn} yFn * - {fn} anchorFn * - {fn} heightFn * - {number} labelStandoff (gap parallel to ticks) * - {number} labelShift (gap perpendicular to ticks) */ axes.makeLabelFns = function(ax, shift, angle) { var ticklabelposition = ax.ticklabelposition || ''; var has = function(str) { return ticklabelposition.indexOf(str) !== -1; }; var isTop = has('top'); var isLeft = has('left'); var isRight = has('right'); var isBottom = has('bottom'); var isAligned = isBottom || isLeft || isTop || isRight; var insideTickLabels = has('inside'); var labelsOverTicks = (ticklabelposition === 'inside' && ax.ticks === 'inside') || (!insideTickLabels && ax.ticks === 'outside' && ax.tickson !== 'boundaries'); var labelStandoff = 0; var labelShift = 0; var tickLen = labelsOverTicks ? ax.ticklen : 0; if(insideTickLabels) { tickLen *= -1; } else if(isAligned) { tickLen = 0; } if(labelsOverTicks) { labelStandoff += tickLen; if(angle) { var rad = Lib.deg2rad(angle); labelStandoff = tickLen * Math.cos(rad) + 1; labelShift = tickLen * Math.sin(rad); } } if(ax.showticklabels && (labelsOverTicks || ax.showline)) { labelStandoff += 0.2 * ax.tickfont.size; } labelStandoff += (ax.linewidth || 1) / 2 * (insideTickLabels ? -1 : 1); var out = { labelStandoff: labelStandoff, labelShift: labelShift }; var x0, y0, ff, flipIt; var xQ = 0; var side = ax.side; var axLetter = ax._id.charAt(0); var tickangle = ax.tickangle; var endSide; if(axLetter === 'x') { endSide = (!insideTickLabels && side === 'bottom') || (insideTickLabels && side === 'top'); flipIt = endSide ? 1 : -1; if(insideTickLabels) flipIt *= -1; x0 = labelShift * flipIt; y0 = shift + labelStandoff * flipIt; ff = endSide ? 1 : -0.2; if(Math.abs(tickangle) === 90) { if(insideTickLabels) { ff += MID_SHIFT; } else { if(tickangle === -90 && side === 'bottom') { ff = CAP_SHIFT; } else if(tickangle === 90 && side === 'top') { ff = MID_SHIFT; } else { ff = 0.5; } } xQ = (MID_SHIFT / 2) * (tickangle / 90); } out.xFn = function(d) { return d.dx + x0 + xQ * d.fontSize; }; out.yFn = function(d) { return d.dy + y0 + d.fontSize * ff; }; out.anchorFn = function(d, a) { if(isAligned) { if(isLeft) return 'end'; if(isRight) return 'start'; } if(!isNumeric(a) || a === 0 || a === 180) { return 'middle'; } return ((a * flipIt < 0) !== insideTickLabels) ? 'end' : 'start'; }; out.heightFn = function(d, a, h) { return (a < -60 || a > 60) ? -0.5 * h : ((ax.side === 'top') !== insideTickLabels) ? -h : 0; }; } else if(axLetter === 'y') { endSide = (!insideTickLabels && side === 'left') || (insideTickLabels && side === 'right'); flipIt = endSide ? 1 : -1; if(insideTickLabels) flipIt *= -1; x0 = labelStandoff; y0 = labelShift * flipIt; ff = 0; if(!insideTickLabels && Math.abs(tickangle) === 90) { if( (tickangle === -90 && side === 'left') || (tickangle === 90 && side === 'right') ) { ff = CAP_SHIFT; } else { ff = 0.5; } } if(insideTickLabels) { var ang = isNumeric(tickangle) ? +tickangle : 0; if(ang !== 0) { var rA = Lib.deg2rad(ang); xQ = Math.abs(Math.sin(rA)) * CAP_SHIFT * flipIt; ff = 0; } } out.xFn = function(d) { return d.dx + shift - (x0 + d.fontSize * ff) * flipIt + xQ * d.fontSize; }; out.yFn = function(d) { return d.dy + y0 + d.fontSize * MID_SHIFT; }; out.anchorFn = function(d, a) { if(isNumeric(a) && Math.abs(a) === 90) { return 'middle'; } return endSide ? 'end' : 'start'; }; out.heightFn = function(d, a, h) { if(ax.side === 'right') a *= -1; return a < -30 ? -h : a < 30 ? -0.5 * h : 0; }; } return out; }; function tickDataFn(d) { return [d.text, d.x, d.axInfo, d.font, d.fontSize, d.fontColor].join('_'); } /** * Draw axis ticks * * @param {DOM element} gd * @param {object} ax (full) axis object * - {string} _id * - {string} ticks * - {number} linewidth * - {string} tickcolor * @param {object} opts * - {array of object} vals (calcTicks output-like) * - {d3 selection} layer * - {string or fn} path * - {fn} transFn * - {boolean} crisp (set to false to unset crisp-edge SVG rendering) */ axes.drawTicks = function(gd, ax, opts) { opts = opts || {}; var cls = ax._id + 'tick'; var vals = [] .concat(ax.minor && ax.minor.ticks ? // minor vals opts.vals.filter(function(d) { return d.minor && !d.noTick; }) : [] ) .concat(ax.ticks ? // major vals opts.vals.filter(function(d) { return !d.minor && !d.noTick; }) : [] ); var ticks = opts.layer.selectAll('path.' + cls) .data(vals, tickDataFn); ticks.exit().remove(); ticks.enter().append('path') .classed(cls, 1) .classed('ticks', 1) .classed('crisp', opts.crisp !== false) .each(function(d) { return Color.stroke(d3.select(this), d.minor ? ax.minor.tickcolor : ax.tickcolor); }) .style('stroke-width', function(d) { return Drawing.crispRound( gd, d.minor ? ax.minor.tickwidth : ax.tickwidth, 1 ) + 'px'; }) .attr('d', opts.path) .style('display', null); // visible hideCounterAxisInsideTickLabels(ax, [TICK_PATH]); ticks.attr('transform', opts.transFn); }; /** * Draw axis grid * * @param {DOM element} gd * @param {object} ax (full) axis object * - {string} _id * - {boolean} showgrid * - {string} gridcolor * - {string} gridwidth * - {string} griddash * - {boolean} zeroline * - {string} type * - {string} dtick * @param {object} opts * - {array of object} vals (calcTicks output-like) * - {d3 selection} layer * - {object} counterAxis (full axis object corresponding to counter axis) * optional - only required if this axis supports zero lines * - {string or fn} path * - {fn} transFn * - {boolean} crisp (set to false to unset crisp-edge SVG rendering) */ axes.drawGrid = function(gd, ax, opts) { opts = opts || {}; var cls = ax._id + 'grid'; var hasMinor = ax.minor && ax.minor.showgrid; var minorVals = hasMinor ? opts.vals.filter(function(d) { return d.minor; }) : []; var majorVals = ax.showgrid ? opts.vals.filter(function(d) { return !d.minor; }) : []; var counterAx = opts.counterAxis; if(counterAx && axes.shouldShowZeroLine(gd, ax, counterAx)) { var isArrayMode = ax.tickmode === 'array'; for(var i = 0; i < majorVals.length; i++) { var xi = majorVals[i].x; if(isArrayMode ? !xi : (Math.abs(xi) < ax.dtick / 100)) { majorVals = majorVals.slice(0, i).concat(majorVals.slice(i + 1)); // In array mode you can in principle have multiple // ticks at 0, so test them all. Otherwise once we found // one we can stop. if(isArrayMode) i--; else break; } } } ax._gw = Drawing.crispRound(gd, ax.gridwidth, 1); var wMinor = !hasMinor ? 0 : Drawing.crispRound(gd, ax.minor.gridwidth, 1); var majorLayer = opts.layer; var minorLayer = opts.minorLayer; for(var major = 1; major >= 0; major--) { var layer = major ? majorLayer : minorLayer; if(!layer) continue; var grid = layer.selectAll('path.' + cls) .data(major ? majorVals : minorVals, tickDataFn); grid.exit().remove(); grid.enter().append('path') .classed(cls, 1) .classed('crisp', opts.crisp !== false); grid.attr('transform', opts.transFn) .attr('d', opts.path) .each(function(d) { return Color.stroke(d3.select(this), d.minor ? ax.minor.gridcolor : (ax.gridcolor || '#ddd') ); }) .style('stroke-dasharray', function(d) { return Drawing.dashStyle( d.minor ? ax.minor.griddash : ax.griddash, d.minor ? ax.minor.gridwidth : ax.gridwidth ); }) .style('stroke-width', function(d) { return (d.minor ? wMinor : ax._gw) + 'px'; }) .style('display', null); // visible if(typeof opts.path === 'function') grid.attr('d', opts.path); } hideCounterAxisInsideTickLabels(ax, [GRID_PATH, MINORGRID_PATH]); }; /** * Draw axis zero-line * * @param {DOM element} gd * @param {object} ax (full) axis object * - {string} _id * - {boolean} zeroline * - {number} zerolinewidth * - {string} zerolinecolor * - {number (optional)} _gridWidthCrispRound * @param {object} opts * - {d3 selection} layer * - {object} counterAxis (full axis object corresponding to counter axis) * - {string or fn} path * - {fn} transFn * - {boolean} crisp (set to false to unset crisp-edge SVG rendering) */ axes.drawZeroLine = function(gd, ax, opts) { opts = opts || opts; var cls = ax._id + 'zl'; var show = axes.shouldShowZeroLine(gd, ax, opts.counterAxis); var zl = opts.layer.selectAll('path.' + cls) .data(show ? [{x: 0, id: ax._id}] : []); zl.exit().remove(); zl.enter().append('path') .classed(cls, 1) .classed('zl', 1) .classed('crisp', opts.crisp !== false) .each(function() { // use the fact that only one element can enter to trigger a sort. // If several zerolines enter at the same time we will sort once per, // but generally this should be a minimal overhead. opts.layer.selectAll('path').sort(function(da, db) { return idSort(da.id, db.id); }); }); zl.attr('transform', opts.transFn) .attr('d', opts.path) .call(Color.stroke, ax.zerolinecolor || Color.defaultLine) .style('stroke-width', Drawing.crispRound(gd, ax.zerolinewidth, ax._gw || 1) + 'px') .style('display', null); // visible hideCounterAxisInsideTickLabels(ax, [ZERO_PATH]); }; /** * Draw axis tick labels * * @param {DOM element} gd * @param {object} ax (full) axis object * - {string} _id * - {boolean} showticklabels * - {number} tickangle * - {object (optional)} _selections * - {object} (optional)} _tickAngles * - {object} (optional)} _prevTickAngles * @param {object} opts * - {array of object} vals (calcTicks output-like) * - {d3 selection} layer * - {string (optional)} cls (node className) * - {boolean} repositionOnUpdate (set to true to reposition update selection) * - {boolean} secondary * - {fn} transFn * - {object} labelFns * + {fn} xFn * + {fn} yFn * + {fn} anchorFn * + {fn} heightFn */ axes.drawLabels = function(gd, ax, opts) { opts = opts || {}; var fullLayout = gd._fullLayout; var axId = ax._id; var axLetter = axId.charAt(0); var cls = opts.cls || axId + 'tick'; var vals = opts.vals.filter(function(d) { return d.text; }); var labelFns = opts.labelFns; var tickAngle = opts.secondary ? 0 : ax.tickangle; var prevAngle = (ax._prevTickAngles || {})[cls]; var tickLabels = opts.layer.selectAll('g.' + cls) .data(ax.showticklabels ? vals : [], tickDataFn); var labelsReady = []; tickLabels.enter().append('g') .classed(cls, 1) .append('text') // only so tex has predictable alignment that we can // alter later .attr('text-anchor', 'middle') .each(function(d) { var thisLabel = d3.select(this); var newPromise = gd._promises.length; thisLabel .call(svgTextUtils.positionText, labelFns.xFn(d), labelFns.yFn(d)) .call(Drawing.font, d.font, d.fontSize, d.fontColor) .text(d.text) .call(svgTextUtils.convertToTspans, gd); if(gd._promises[newPromise]) { // if we have an async label, we'll deal with that // all here so take it out of gd._promises and // instead position the label and promise this in // labelsReady labelsReady.push(gd._promises.pop().then(function() { positionLabels(thisLabel, tickAngle); })); } else { // sync label: just position it now. positionLabels(thisLabel, tickAngle); } }); hideCounterAxisInsideTickLabels(ax, [TICK_TEXT]); tickLabels.exit().remove(); if(opts.repositionOnUpdate) { tickLabels.each(function(d) { d3.select(this).select('text') .call(svgTextUtils.positionText, labelFns.xFn(d), labelFns.yFn(d)); }); } function positionLabels(s, angle) { s.each(function(d) { var thisLabel = d3.select(this); var mathjaxGroup = thisLabel.select('.text-math-group'); var anchor = labelFns.anchorFn(d, angle); var transform = opts.transFn.call(thisLabel.node(), d) + ((isNumeric(angle) && +angle !== 0) ? (' rotate(' + angle + ',' + labelFns.xFn(d) + ',' + (labelFns.yFn(d) - d.fontSize / 2) + ')') : ''); // how much to shift a multi-line label to center it vertically. var nLines = svgTextUtils.lineCount(thisLabel); var lineHeight = LINE_SPACING * d.fontSize; var anchorHeight = labelFns.heightFn(d, isNumeric(angle) ? +angle : 0, (nLines - 1) * lineHeight); if(anchorHeight) { transform += strTranslate(0, anchorHeight); } if(mathjaxGroup.empty()) { var thisText = thisLabel.select('text'); thisText.attr({ transform: transform, 'text-anchor': anchor }); thisText.style('opacity', 1); // visible if(ax._adjustTickLabelsOverflow) { ax._adjustTickLabelsOverflow(); } } else { var mjWidth = Drawing.bBox(mathjaxGroup.node()).width; var mjShift = mjWidth * {end: -0.5, start: 0.5}[anchor]; mathjaxGroup.attr('transform', transform + strTranslate(mjShift, 0)); } }); } ax._adjustTickLabelsOverflow = function() { var ticklabeloverflow = ax.ticklabeloverflow; if(!ticklabeloverflow || ticklabeloverflow === 'allow') return; var hideOverflow = ticklabeloverflow.indexOf('hide') !== -1; var isX = ax._id.charAt(0) === 'x'; // div positions var p0 = 0; var p1 = isX ? gd._fullLayout.width : gd._fullLayout.height; if(ticklabeloverflow.indexOf('domain') !== -1) { // domain positions var rl = Lib.simpleMap(ax.range, ax.r2l); p0 = ax.l2p(rl[0]) + ax._offset; p1 = ax.l2p(rl[1]) + ax._offset; } var min = Math.min(p0, p1); var max = Math.max(p0, p1); var side = ax.side; var visibleLabelMin = Infinity; var visibleLabelMax = -Infinity; tickLabels.each(function(d) { var thisLabel = d3.select(this); var mathjaxGroup = thisLabel.select('.text-math-group'); if(mathjaxGroup.empty()) { var bb = Drawing.bBox(thisLabel.node()); var adjust = 0; if(isX) { if(bb.right > max) adjust = 1; else if(bb.left < min) adjust = 1; } else { if(bb.bottom > max) adjust = 1; else if(bb.top + (ax.tickangle ? 0 : d.fontSize / 4) < min) adjust = 1; } var t = thisLabel.select('text'); if(adjust) { if(hideOverflow) t.style('opacity', 0); // hidden } else { t.style('opacity', 1); // visible if(side === 'bottom' || side === 'right') { visibleLabelMin = Math.min(visibleLabelMin, isX ? bb.top : bb.left); } else { visibleLabelMin = -Infinity; } if(side === 'top' || side === 'left') { visibleLabelMax = Math.max(visibleLabelMax, isX ? bb.bottom : bb.right); } else { visibleLabelMax = Infinity; } } } // TODO: hide mathjax? }); for(var subplot in fullLayout._plots) { var plotinfo = fullLayout._plots[subplot]; if(ax._id !== plotinfo.xaxis._id && ax._id !== plotinfo.yaxis._id) continue; var anchorAx = isX ? plotinfo.yaxis : plotinfo.xaxis; if(anchorAx) { anchorAx['_visibleLabelMin_' + ax._id] = visibleLabelMin; anchorAx['_visibleLabelMax_' + ax._id] = visibleLabelMax; } } }; ax._hideCounterAxisInsideTickLabels = function(partialOpts) { var isX = ax._id.charAt(0) === 'x'; var anchoredAxes = []; for(var subplot in fullLayout._plots) { var plotinfo = fullLayout._plots[subplot]; if(ax._id !== plotinfo.xaxis._id && ax._id !== plotinfo.yaxis._id) continue; anchoredAxes.push(isX ? plotinfo.yaxis : plotinfo.xaxis); } anchoredAxes.forEach(function(anchorAx, idx) { if(anchorAx && insideTicklabelposition(anchorAx)) { (partialOpts || [ ZERO_PATH, MINORGRID_PATH, GRID_PATH, TICK_PATH, TICK_TEXT ]).forEach(function(e) { var isPeriodLabel = e.K === 'tick' && e.L === 'text' && ax.ticklabelmode === 'period'; var mainPlotinfo = fullLayout._plots[ax._mainSubplot]; var sel; if(e.K === ZERO_PATH.K) sel = mainPlotinfo.zerolinelayer.selectAll('.' + ax._id + 'zl'); else if(e.K === MINORGRID_PATH.K) sel = mainPlotinfo.minorGridlayer.selectAll('.' + ax._id); else if(e.K === GRID_PATH.K) sel = mainPlotinfo.gridlayer.selectAll('.' + ax._id); else sel = mainPlotinfo[ax._id.charAt(0) + 'axislayer']; sel.each(function() { var w = d3.select(this); if(e.L) w = w.selectAll(e.L); w.each(function(d) { var q = ax.l2p( isPeriodLabel ? getPosX(d) : d.x ) + ax._offset; var t = d3.select(this); if( q < ax['_visibleLabelMax_' + anchorAx._id] && q > ax['_visibleLabelMin_' + anchorAx._id] ) { t.style('display', 'none'); // hidden } else if(e.K === 'tick' && !idx) { t.style('display', null); // visible } }); }); }); } }); }; // make sure all labels are correctly positioned at their base angle // the positionLabels call above is only for newly drawn labels. // do this without waiting, using the last calculated angle to // minimize flicker, then do it again when we know all labels are // there, putting back the prescribed angle to check for overlaps. positionLabels(tickLabels, (prevAngle + 1) ? prevAngle : tickAngle); function allLabelsReady() { return labelsReady.length && Promise.all(labelsReady); } var autoangle = null; function fixLabelOverlaps() { positionLabels(tickLabels, tickAngle); // check for auto-angling if x labels overlap // don't auto-angle at all for log axes with // base and digit format if(vals.length && axLetter === 'x' && !isNumeric(tickAngle) && (ax.type !== 'log' || String(ax.dtick).charAt(0) !== 'D') ) { autoangle = 0; var maxFontSize = 0; var lbbArray = []; var i; tickLabels.each(function(d) { maxFontSize = Math.max(maxFontSize, d.fontSize); var x = ax.l2p(d.x); var thisLabel = selectTickLabel(this); var bb = Drawing.bBox(thisLabel.node()); lbbArray.push({ // ignore about y, just deal with x overlaps top: 0, bottom: 10, height: 10, left: x - bb.width / 2, // impose a 2px gap right: x + bb.width / 2 + 2, width: bb.width + 2 }); }); if((ax.tickson === 'boundaries' || ax.showdividers) && !opts.secondary) { var gap = 2; if(ax.ticks) gap += ax.tickwidth / 2; // TODO should secondary labels also fall into this fix-overlap regime? for(i = 0; i < lbbArray.length; i++) { var xbnd = vals[i].xbnd; var lbb = lbbArray[i]; if( (xbnd[0] !== null && (lbb.left - ax.l2p(xbnd[0])) < gap) || (xbnd[1] !== null && (ax.l2p(xbnd[1]) - lbb.right) < gap) ) { autoangle = 90; break; } } } else { var vLen = vals.length; var tickSpacing = Math.abs((vals[vLen - 1].x - vals[0].x) * ax._m) / (vLen - 1); var ticklabelposition = ax.ticklabelposition || ''; var has = function(str) { return ticklabelposition.indexOf(str) !== -1; }; var isTop = has('top'); var isLeft = has('left'); var isRight = has('right'); var isBottom = has('bottom'); var isAligned = isBottom || isLeft || isTop || isRight; var pad = !isAligned ? 0 : (ax.tickwidth || 0) + 2 * TEXTPAD; var rotate90 = (tickSpacing < maxFontSize * 2.5) || ax.type === 'multicategory' || ax._name === 'realaxis'; // any overlap at all - set 30 degrees or 90 degrees for(i = 0; i < lbbArray.length - 1; i++) { if(Lib.bBoxIntersect(lbbArray[i], lbbArray[i + 1], pad)) { autoangle = rotate90 ? 90 : 30; break; } } } if(autoangle) { positionLabels(tickLabels, autoangle); } } } if(ax._selections) { ax._selections[cls] = tickLabels; } var seq = [allLabelsReady]; // N.B. during auto-margin redraws, if the axis fixed its label overlaps // by rotating 90 degrees, do not attempt to re-fix its label overlaps // as this can lead to infinite redraw loops! if(ax.automargin && fullLayout._redrawFromAutoMarginCount && prevAngle === 90) { autoangle = 90; seq.push(function() { positionLabels(tickLabels, prevAngle); }); } else { seq.push(fixLabelOverlaps); } // save current tick angle for future redraws if(ax._tickAngles) { seq.push(function() { ax._tickAngles[cls] = autoangle === null ? (isNumeric(tickAngle) ? tickAngle : 0) : autoangle; }); } var anchorAx = ax._anchorAxis; if( anchorAx && anchorAx.autorange && insideTicklabelposition(ax) && !isLinked(fullLayout, ax._id) ) { if(!fullLayout._insideTickLabelsAutorange) { fullLayout._insideTickLabelsAutorange = {}; } fullLayout._insideTickLabelsAutorange[anchorAx._name + '.autorange'] = anchorAx.autorange; seq.push( function computeFinalTickLabelBoundingBoxes() { tickLabels.each(function(d, i) { var thisLabel = selectTickLabel(this); var mathjaxGroup = thisLabel.select('.text-math-group'); if(mathjaxGroup.empty()) { ax._vals[i].bb = Drawing.bBox(thisLabel.node()); } }); } ); } var done = Lib.syncOrAsync(seq); if(done && done.then) gd._promises.push(done); return done; }; /** * Draw axis dividers * * @param {DOM element} gd * @param {object} ax (full) axis object * - {string} _id * - {string} showdividers * - {number} dividerwidth * - {string} dividercolor * @param {object} opts * - {array of object} vals (calcTicks output-like) * - {d3 selection} layer * - {fn} path * - {fn} transFn */ function drawDividers(gd, ax, opts) { var cls = ax._id + 'divider'; var vals = opts.vals; var dividers = opts.layer.selectAll('path.' + cls) .data(vals, tickDataFn); dividers.exit().remove(); dividers.enter().insert('path', ':first-child') .classed(cls, 1) .classed('crisp', 1) .call(Color.stroke, ax.dividercolor) .style('stroke-width', Drawing.crispRound(gd, ax.dividerwidth, 1) + 'px'); dividers .attr('transform', opts.transFn) .attr('d', opts.path); } /** * Get axis position in px, that is the distance for the graph's * top (left) edge for x (y) axes. * * @param {DOM element} gd * @param {object} ax (full) axis object * - {string} _id * - {string} side * if anchored: * - {object} _anchorAxis * Otherwise: * - {number} position * @return {number} */ axes.getPxPosition = function(gd, ax) { var gs = gd._fullLayout._size; var axLetter = ax._id.charAt(0); var side = ax.side; var anchorAxis; if(ax.anchor !== 'free') { anchorAxis = ax._anchorAxis; } else if(axLetter === 'x') { anchorAxis = { _offset: gs.t + (1 - (ax.position || 0)) * gs.h, _length: 0 }; } else if(axLetter === 'y') { anchorAxis = { _offset: gs.l + (ax.position || 0) * gs.w, _length: 0 }; } if(side === 'top' || side === 'left') { return anchorAxis._offset; } else if(side === 'bottom' || side === 'right') { return anchorAxis._offset + anchorAxis._length; } }; /** * Approximate axis title depth (w/o computing its bounding box) * * @param {object} ax (full) axis object * - {string} title.text * - {number} title.font.size * - {number} title.standoff * @return {number} (in px) */ function approxTitleDepth(ax) { var fontSize = ax.title.font.size; var extraLines = (ax.title.text.match(svgTextUtils.BR_TAG_ALL) || []).length; if(ax.title.hasOwnProperty('standoff')) { return extraLines ? fontSize * (CAP_SHIFT + (extraLines * LINE_SPACING)) : fontSize * CAP_SHIFT; } else { return extraLines ? fontSize * (extraLines + 1) * LINE_SPACING : fontSize; } } /** * Draw axis title, compute default standoff if necessary * * @param {DOM element} gd * @param {object} ax (full) axis object * - {string} _id * - {string} _name * - {string} side * - {number} title.font.size * - {object} _selections * * - {number} _depth * - {number} title.standoff * OR * - {number} linewidth * - {boolean} showticklabels */ function drawTitle(gd, ax) { var fullLayout = gd._fullLayout; var axId = ax._id; var axLetter = axId.charAt(0); var fontSize = ax.title.font.size; var titleStandoff; if(ax.title.hasOwnProperty('standoff')) { titleStandoff = ax._depth + ax.title.standoff + approxTitleDepth(ax); } else { var isInside = insideTicklabelposition(ax); if(ax.type === 'multicategory') { titleStandoff = ax._depth; } else { var offsetBase = 1.5 * fontSize; if(isInside) { offsetBase = 0.5 * fontSize; if(ax.ticks === 'outside') { offsetBase += ax.ticklen; } } titleStandoff = 10 + offsetBase + (ax.linewidth ? ax.linewidth - 1 : 0); } if(!isInside) { if(axLetter === 'x') { titleStandoff += ax.side === 'top' ? fontSize * (ax.showticklabels ? 1 : 0) : fontSize * (ax.showticklabels ? 1.5 : 0.5); } else { titleStandoff += ax.side === 'right' ? fontSize * (ax.showticklabels ? 1 : 0.5) : fontSize * (ax.showticklabels ? 0.5 : 0); } } } var pos = axes.getPxPosition(gd, ax); var transform, x, y; if(axLetter === 'x') { x = ax._offset + ax._length / 2; y = (ax.side === 'top') ? pos - titleStandoff : pos + titleStandoff; } else { y = ax._offset + ax._length / 2; x = (ax.side === 'right') ? pos + titleStandoff : pos - titleStandoff; transform = {rotate: '-90', offset: 0}; } var avoid; if(ax.type !== 'multicategory') { var tickLabels = ax._selections[ax._id + 'tick']; avoid = { selection: tickLabels, side: ax.side }; if(tickLabels && tickLabels.node() && tickLabels.node().parentNode) { var translation = Drawing.getTranslate(tickLabels.node().parentNode); avoid.offsetLeft = translation.x; avoid.offsetTop = translation.y; } if(ax.title.hasOwnProperty('standoff')) { avoid.pad = 0; } } return Titles.draw(gd, axId + 'title', { propContainer: ax, propName: ax._name + '.title.text', placeholder: fullLayout._dfltTitle[axLetter], avoid: avoid, transform: transform, attributes: {x: x, y: y, 'text-anchor': 'middle'} }); } axes.shouldShowZeroLine = function(gd, ax, counterAxis) { var rng = Lib.simpleMap(ax.range, ax.r2l); return ( (rng[0] * rng[1] <= 0) && ax.zeroline && (ax.type === 'linear' || ax.type === '-') && !(ax.rangebreaks && ax.maskBreaks(0) === BADNUM) && ( clipEnds(ax, 0) || !anyCounterAxLineAtZero(gd, ax, counterAxis, rng) || hasBarsOrFill(gd, ax) ) ); }; axes.clipEnds = function(ax, vals) { return vals.filter(function(d) { return clipEnds(ax, d.x); }); }; function clipEnds(ax, l) { var p = ax.l2p(l); return (p > 1 && p < ax._length - 1); } function anyCounterAxLineAtZero(gd, ax, counterAxis, rng) { var mainCounterAxis = counterAxis._mainAxis; if(!mainCounterAxis) return; var fullLayout = gd._fullLayout; var axLetter = ax._id.charAt(0); var counterLetter = axes.counterLetter(ax._id); var zeroPosition = ax._offset + ( ((Math.abs(rng[0]) < Math.abs(rng[1])) === (axLetter === 'x')) ? 0 : ax._length ); function lineNearZero(ax2) { if(!ax2.showline || !ax2.linewidth) return false; var tolerance = Math.max((ax2.linewidth + ax.zerolinewidth) / 2, 1); function closeEnough(pos2) { return typeof pos2 === 'number' && Math.abs(pos2 - zeroPosition) < tolerance; } if(closeEnough(ax2._mainLinePosition) || closeEnough(ax2._mainMirrorPosition)) { return true; } var linePositions = ax2._linepositions || {}; for(var k in linePositions) { if(closeEnough(linePositions[k][0]) || closeEnough(linePositions[k][1])) { return true; } } } var plotinfo = fullLayout._plots[counterAxis._mainSubplot]; if(!(plotinfo.mainplotinfo || plotinfo).overlays.length) { return lineNearZero(counterAxis, zeroPosition); } var counterLetterAxes = axes.list(gd, counterLetter); for(var i = 0; i < counterLetterAxes.length; i++) { var counterAxis2 = counterLetterAxes[i]; if( counterAxis2._mainAxis === mainCounterAxis && lineNearZero(counterAxis2, zeroPosition) ) { return true; } } } function hasBarsOrFill(gd, ax) { var fullData = gd._fullData; var subplot = ax._mainSubplot; var axLetter = ax._id.charAt(0); for(var i = 0; i < fullData.length; i++) { var trace = fullData[i]; if(trace.visible === true && (trace.xaxis + trace.yaxis) === subplot) { if( Registry.traceIs(trace, 'bar-like') && trace.orientation === {x: 'h', y: 'v'}[axLetter] ) return true; if( trace.fill && trace.fill.charAt(trace.fill.length - 1) === axLetter ) return true; } } return false; } function selectTickLabel(gTick) { var s = d3.select(gTick); var mj = s.select('.text-math-group'); return mj.empty() ? s.select('text') : mj; } /** * Find all margin pushers for 2D axes and reserve them for later use * Both label and rangeslider automargin calculations happen later so * we need to explicitly allow their ids in order to not delete them. * * TODO: can we pull the actual automargin calls forward to avoid this hack? * We're probably also doing multiple redraws in this case, would be faster * if we can just do the whole calculation ahead of time and draw once. */ axes.allowAutoMargin = function(gd) { var axList = axes.list(gd, '', true); for(var i = 0; i < axList.length; i++) { var ax = axList[i]; if(ax.automargin) { Plots.allowAutoMargin(gd, axAutoMarginID(ax)); if(ax.mirror) { Plots.allowAutoMargin(gd, axMirrorAutoMarginID(ax)); } } if(Registry.getComponentMethod('rangeslider', 'isVisible')(ax)) { Plots.allowAutoMargin(gd, rangeSliderAutoMarginID(ax)); } } }; function axAutoMarginID(ax) { return ax._id + '.automargin'; } function axMirrorAutoMarginID(ax) { return axAutoMarginID(ax) + '.mirror'; } function rangeSliderAutoMarginID(ax) { return ax._id + '.rangeslider'; } // swap all the presentation attributes of the axes showing these traces axes.swap = function(gd, traces) { var axGroups = makeAxisGroups(gd, traces); for(var i = 0; i < axGroups.length; i++) { swapAxisGroup(gd, axGroups[i].x, axGroups[i].y); } }; function makeAxisGroups(gd, traces) { var groups = []; var i, j; for(i = 0; i < traces.length; i++) { var groupsi = []; var xi = gd._fullData[traces[i]].xaxis; var yi = gd._fullData[traces[i]].yaxis; if(!xi || !yi) continue; // not a 2D cartesian trace? for(j = 0; j < groups.length; j++) { if(groups[j].x.indexOf(xi) !== -1 || groups[j].y.indexOf(yi) !== -1) { groupsi.push(j); } } if(!groupsi.length) { groups.push({x: [xi], y: [yi]}); continue; } var group0 = groups[groupsi[0]]; var groupj; if(groupsi.length > 1) { for(j = 1; j < groupsi.length; j++) { groupj = groups[groupsi[j]]; mergeAxisGroups(group0.x, groupj.x); mergeAxisGroups(group0.y, groupj.y); } } mergeAxisGroups(group0.x, [xi]); mergeAxisGroups(group0.y, [yi]); } return groups; } function mergeAxisGroups(intoSet, fromSet) { for(var i = 0; i < fromSet.length; i++) { if(intoSet.indexOf(fromSet[i]) === -1) intoSet.push(fromSet[i]); } } function swapAxisGroup(gd, xIds, yIds) { var xFullAxes = []; var yFullAxes = []; var layout = gd.layout; var i, j; for(i = 0; i < xIds.length; i++) xFullAxes.push(axes.getFromId(gd, xIds[i])); for(i = 0; i < yIds.length; i++) yFullAxes.push(axes.getFromId(gd, yIds[i])); var allAxKeys = Object.keys(axAttrs); var noSwapAttrs = [ 'anchor', 'domain', 'overlaying', 'position', 'side', 'tickangle', 'editType' ]; var numericTypes = ['linear', 'log']; for(i = 0; i < allAxKeys.length; i++) { var keyi = allAxKeys[i]; var xVal = xFullAxes[0][keyi]; var yVal = yFullAxes[0][keyi]; var allEqual = true; var coerceLinearX = false; var coerceLinearY = false; if(keyi.charAt(0) === '_' || typeof xVal === 'function' || noSwapAttrs.indexOf(keyi) !== -1) { continue; } for(j = 1; j < xFullAxes.length && allEqual; j++) { var xVali = xFullAxes[j][keyi]; if(keyi === 'type' && numericTypes.indexOf(xVal) !== -1 && numericTypes.indexOf(xVali) !== -1 && xVal !== xVali) { // type is special - if we find a mixture of linear and log, // coerce them all to linear on flipping coerceLinearX = true; } else if(xVali !== xVal) allEqual = false; } for(j = 1; j < yFullAxes.length && allEqual; j++) { var yVali = yFullAxes[j][keyi]; if(keyi === 'type' && numericTypes.indexOf(yVal) !== -1 && numericTypes.indexOf(yVali) !== -1 && yVal !== yVali) { // type is special - if we find a mixture of linear and log, // coerce them all to linear on flipping coerceLinearY = true; } else if(yFullAxes[j][keyi] !== yVal) allEqual = false; } if(allEqual) { if(coerceLinearX) layout[xFullAxes[0]._name].type = 'linear'; if(coerceLinearY) layout[yFullAxes[0]._name].type = 'linear'; swapAxisAttrs(layout, keyi, xFullAxes, yFullAxes, gd._fullLayout._dfltTitle); } } // now swap x&y for any annotations anchored to these x & y for(i = 0; i < gd._fullLayout.annotations.length; i++) { var ann = gd._fullLayout.annotations[i]; if(xIds.indexOf(ann.xref) !== -1 && yIds.indexOf(ann.yref) !== -1) { Lib.swapAttrs(layout.annotations[i], ['?']); } } } function swapAxisAttrs(layout, key, xFullAxes, yFullAxes, dfltTitle) { // in case the value is the default for either axis, // look at the first axis in each list and see if // this key's value is undefined var np = Lib.nestedProperty; var xVal = np(layout[xFullAxes[0]._name], key).get(); var yVal = np(layout[yFullAxes[0]._name], key).get(); var i; if(key === 'title') { // special handling of placeholder titles if(xVal && xVal.text === dfltTitle.x) { xVal.text = dfltTitle.y; } if(yVal && yVal.text === dfltTitle.y) { yVal.text = dfltTitle.x; } } for(i = 0; i < xFullAxes.length; i++) { np(layout, xFullAxes[i]._name + '.' + key).set(yVal); } for(i = 0; i < yFullAxes.length; i++) { np(layout, yFullAxes[i]._name + '.' + key).set(xVal); } } function isAngular(ax) { return ax._id === 'angularaxis'; } function moveOutsideBreak(v, ax) { var len = ax._rangebreaks.length; for(var k = 0; k < len; k++) { var brk = ax._rangebreaks[k]; if(v >= brk.min && v < brk.max) { return brk.max; } } return v; } function insideTicklabelposition(ax) { return ((ax.ticklabelposition || '').indexOf('inside') !== -1); } function hideCounterAxisInsideTickLabels(ax, opts) { if(insideTicklabelposition(ax._anchorAxis || {})) { if(ax._hideCounterAxisInsideTickLabels) { ax._hideCounterAxisInsideTickLabels(opts); } } } },{"../../components/color":157,"../../components/drawing":179,"../../components/titles":255,"../../constants/alignment":262,"../../constants/numerical":267,"../../lib":287,"../../lib/svg_text_utils":310,"../../plots/plots":371,"../../registry":378,"./autorange":333,"./axis_autotype":335,"./axis_ids":338,"./clean_ticks":340,"./layout_attributes":349,"./set_convert":356,"@plotly/d3":20,"fast-isnumeric":33}],335:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var BADNUM = _dereq_('../../constants/numerical').BADNUM; var isArrayOrTypedArray = Lib.isArrayOrTypedArray; var isDateTime = Lib.isDateTime; var cleanNumber = Lib.cleanNumber; var round = Math.round; module.exports = function autoType(array, calendar, opts) { var a = array; var noMultiCategory = opts.noMultiCategory; if(isArrayOrTypedArray(a) && !a.length) return '-'; if(!noMultiCategory && multiCategory(a)) return 'multicategory'; if(noMultiCategory && Array.isArray(a[0])) { // no need to flat typed arrays here var b = []; for(var i = 0; i < a.length; i++) { if(isArrayOrTypedArray(a[i])) { for(var j = 0; j < a[i].length; j++) { b.push(a[i][j]); } } } a = b; } if(moreDates(a, calendar)) return 'date'; var convertNumeric = opts.autotypenumbers !== 'strict'; // compare against strict, just in case autotypenumbers was not provided in opts if(category(a, convertNumeric)) return 'category'; if(linearOK(a, convertNumeric)) return 'linear'; return '-'; }; function hasTypeNumber(v, convertNumeric) { return convertNumeric ? isNumeric(v) : typeof v === 'number'; } // is there at least one number in array? If not, we should leave // ax.type empty so it can be autoset later function linearOK(a, convertNumeric) { var len = a.length; for(var i = 0; i < len; i++) { if(hasTypeNumber(a[i], convertNumeric)) return true; } return false; } // does the array a have mostly dates rather than numbers? // note: some values can be neither (such as blanks, text) // 2- or 4-digit integers can be both, so require twice as many // dates as non-dates, to exclude cases with mostly 2 & 4 digit // numbers and a few dates // as with categories, consider DISTINCT values only. function moreDates(a, calendar) { var len = a.length; var inc = getIncrement(len); var dats = 0; var nums = 0; var seen = {}; for(var f = 0; f < len; f += inc) { var i = round(f); var ai = a[i]; var stri = String(ai); if(seen[stri]) continue; seen[stri] = 1; if(isDateTime(ai, calendar)) dats++; if(isNumeric(ai)) nums++; } return dats > nums * 2; } // return increment to test at most 1000 points, evenly spaced function getIncrement(len) { return Math.max(1, (len - 1) / 1000); } // are the (x,y)-values in gd.data mostly text? // require twice as many DISTINCT categories as distinct numbers function category(a, convertNumeric) { var len = a.length; var inc = getIncrement(len); var nums = 0; var cats = 0; var seen = {}; for(var f = 0; f < len; f += inc) { var i = round(f); var ai = a[i]; var stri = String(ai); if(seen[stri]) continue; seen[stri] = 1; var t = typeof ai; if(t === 'boolean') cats++; else if(convertNumeric ? cleanNumber(ai) !== BADNUM : t === 'number') nums++; else if(t === 'string') cats++; } return cats > nums * 2; } // very-loose requirements for multicategory, // trace modules that should never auto-type to multicategory // should be declared with 'noMultiCategory' function multiCategory(a) { return isArrayOrTypedArray(a[0]) && isArrayOrTypedArray(a[1]); } },{"../../constants/numerical":267,"../../lib":287,"fast-isnumeric":33}],336:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var Template = _dereq_('../../plot_api/plot_template'); var handleArrayContainerDefaults = _dereq_('../array_container_defaults'); var layoutAttributes = _dereq_('./layout_attributes'); var handleTickValueDefaults = _dereq_('./tick_value_defaults'); var handleTickMarkDefaults = _dereq_('./tick_mark_defaults'); var handleTickLabelDefaults = _dereq_('./tick_label_defaults'); var handlePrefixSuffixDefaults = _dereq_('./prefix_suffix_defaults'); var handleCategoryOrderDefaults = _dereq_('./category_order_defaults'); var handleLineGridDefaults = _dereq_('./line_grid_defaults'); var setConvert = _dereq_('./set_convert'); var DAY_OF_WEEK = _dereq_('./constants').WEEKDAY_PATTERN; var HOUR = _dereq_('./constants').HOUR_PATTERN; /** * options: object containing: * * letter: 'x' or 'y' * title: name of the axis (ie 'Colorbar') to go in default title * font: the default font to inherit * outerTicks: boolean, should ticks default to outside? * showGrid: boolean, should gridlines be shown by default? * noHover: boolean, this axis doesn't support hover effects? * noTickson: boolean, this axis doesn't support 'tickson' * data: the plot data, used to manage categories * bgColor: the plot background color, to calculate default gridline colors * calendar: * splomStash: * visibleDflt: boolean * reverseDflt: boolean * automargin: boolean */ module.exports = function handleAxisDefaults(containerIn, containerOut, coerce, options, layoutOut) { var letter = options.letter; var font = options.font || {}; var splomStash = options.splomStash || {}; var visible = coerce('visible', !options.visibleDflt); var axTemplate = containerOut._template || {}; var axType = containerOut.type || axTemplate.type || '-'; var ticklabelmode; if(axType === 'date') { var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleDefaults'); handleCalendarDefaults(containerIn, containerOut, 'calendar', options.calendar); if(!options.noTicklabelmode) { ticklabelmode = coerce('ticklabelmode'); } } var ticklabelposition = ''; if(!options.noTicklabelposition || axType === 'multicategory') { ticklabelposition = Lib.coerce(containerIn, containerOut, { ticklabelposition: { valType: 'enumerated', dflt: 'outside', values: ticklabelmode === 'period' ? ['outside', 'inside'] : letter === 'x' ? [ 'outside', 'inside', 'outside left', 'inside left', 'outside right', 'inside right' ] : [ 'outside', 'inside', 'outside top', 'inside top', 'outside bottom', 'inside bottom' ] } }, 'ticklabelposition'); } if(!options.noTicklabeloverflow) { coerce('ticklabeloverflow', ticklabelposition.indexOf('inside') !== -1 ? 'hide past domain' : axType === 'category' || axType === 'multicategory' ? 'allow' : 'hide past div' ); } setConvert(containerOut, layoutOut); var autorangeDflt = !containerOut.isValidRange(containerIn.range); if(autorangeDflt && options.reverseDflt) autorangeDflt = 'reversed'; var autoRange = coerce('autorange', autorangeDflt); if(autoRange && (axType === 'linear' || axType === '-')) coerce('rangemode'); coerce('range'); containerOut.cleanRange(); handleCategoryOrderDefaults(containerIn, containerOut, coerce, options); if(axType !== 'category' && !options.noHover) coerce('hoverformat'); var dfltColor = coerce('color'); // if axis.color was provided, use it for fonts too; otherwise, // inherit from global font color in case that was provided. // Compare to dflt rather than to containerIn, so we can provide color via // template too. var dfltFontColor = (dfltColor !== layoutAttributes.color.dflt) ? dfltColor : font.color; // try to get default title from splom trace, fallback to graph-wide value var dfltTitle = splomStash.label || layoutOut._dfltTitle[letter]; handlePrefixSuffixDefaults(containerIn, containerOut, coerce, axType, options); if(!visible) return containerOut; coerce('title.text', dfltTitle); Lib.coerceFont(coerce, 'title.font', { family: font.family, size: Lib.bigFont(font.size), color: dfltFontColor }); // major ticks handleTickValueDefaults(containerIn, containerOut, coerce, axType); var hasMinor = options.hasMinor; if(hasMinor) { // minor ticks Template.newContainer(containerOut, 'minor'); handleTickValueDefaults(containerIn, containerOut, coerce, axType, { isMinor: true }); } handleTickLabelDefaults(containerIn, containerOut, coerce, axType, options); // major and minor ticks handleTickMarkDefaults(containerIn, containerOut, coerce, options); if(hasMinor) { var keepIsMinor = options.isMinor; options.isMinor = true; handleTickMarkDefaults(containerIn, containerOut, coerce, options); options.isMinor = keepIsMinor; } handleLineGridDefaults(containerIn, containerOut, coerce, { dfltColor: dfltColor, bgColor: options.bgColor, showGrid: options.showGrid, hasMinor: hasMinor, attributes: layoutAttributes }); // delete minor when no minor ticks or gridlines if( hasMinor && !containerOut.minor.ticks && !containerOut.minor.showgrid ) { delete containerOut.minor; } // mirror if(containerOut.showline || containerOut.ticks) coerce('mirror'); if(options.automargin) coerce('automargin'); var isMultiCategory = axType === 'multicategory'; if(!options.noTickson && (axType === 'category' || isMultiCategory) && (containerOut.ticks || containerOut.showgrid) ) { var ticksonDflt; if(isMultiCategory) ticksonDflt = 'boundaries'; var tickson = coerce('tickson', ticksonDflt); if(tickson === 'boundaries') { delete containerOut.ticklabelposition; } } if(isMultiCategory) { var showDividers = coerce('showdividers'); if(showDividers) { coerce('dividercolor'); coerce('dividerwidth'); } } if(axType === 'date') { handleArrayContainerDefaults(containerIn, containerOut, { name: 'rangebreaks', inclusionAttr: 'enabled', handleItemDefaults: rangebreaksDefaults }); if(!containerOut.rangebreaks.length) { delete containerOut.rangebreaks; } else { for(var k = 0; k < containerOut.rangebreaks.length; k++) { if(containerOut.rangebreaks[k].pattern === DAY_OF_WEEK) { containerOut._hasDayOfWeekBreaks = true; break; } } setConvert(containerOut, layoutOut); if(layoutOut._has('scattergl') || layoutOut._has('splom')) { for(var i = 0; i < options.data.length; i++) { var trace = options.data[i]; if(trace.type === 'scattergl' || trace.type === 'splom') { trace.visible = false; Lib.warn(trace.type + ' traces do not work on axes with rangebreaks.' + ' Setting trace ' + trace.index + ' to `visible: false`.'); } } } } } return containerOut; }; function rangebreaksDefaults(itemIn, itemOut, containerOut) { function coerce(attr, dflt) { return Lib.coerce(itemIn, itemOut, layoutAttributes.rangebreaks, attr, dflt); } var enabled = coerce('enabled'); if(enabled) { var bnds = coerce('bounds'); if(bnds && bnds.length >= 2) { var dfltPattern = ''; var i, q; if(bnds.length === 2) { for(i = 0; i < 2; i++) { q = indexOfDay(bnds[i]); if(q) { dfltPattern = DAY_OF_WEEK; break; } } } var pattern = coerce('pattern', dfltPattern); if(pattern === DAY_OF_WEEK) { for(i = 0; i < 2; i++) { q = indexOfDay(bnds[i]); if(q) { // convert to integers i.e 'Sunday' --> 0 itemOut.bounds[i] = bnds[i] = q - 1; } } } if(pattern) { // ensure types and ranges for(i = 0; i < 2; i++) { q = bnds[i]; switch(pattern) { case DAY_OF_WEEK : if(!isNumeric(q)) { itemOut.enabled = false; return; } q = +q; if( q !== Math.floor(q) || // don't accept fractional days for mow q < 0 || q >= 7 ) { itemOut.enabled = false; return; } // use number itemOut.bounds[i] = bnds[i] = q; break; case HOUR : if(!isNumeric(q)) { itemOut.enabled = false; return; } q = +q; if(q < 0 || q > 24) { // accept 24 itemOut.enabled = false; return; } // use number itemOut.bounds[i] = bnds[i] = q; break; } } } if(containerOut.autorange === false) { var rng = containerOut.range; // if bounds are bigger than the (set) range, disable break if(rng[0] < rng[1]) { if(bnds[0] < rng[0] && bnds[1] > rng[1]) { itemOut.enabled = false; return; } } else if(bnds[0] > rng[0] && bnds[1] < rng[1]) { itemOut.enabled = false; return; } } } else { var values = coerce('values'); if(values && values.length) { coerce('dvalue'); } else { itemOut.enabled = false; return; } } } } // these numbers are one more than what bounds would be mapped to var dayStrToNum = { sun: 1, mon: 2, tue: 3, wed: 4, thu: 5, fri: 6, sat: 7 }; function indexOfDay(v) { if(typeof v !== 'string') return; return dayStrToNum[ v.substr(0, 3).toLowerCase() ]; } },{"../../lib":287,"../../plot_api/plot_template":323,"../../registry":378,"../array_container_defaults":329,"./category_order_defaults":339,"./constants":341,"./layout_attributes":349,"./line_grid_defaults":351,"./prefix_suffix_defaults":353,"./set_convert":356,"./tick_label_defaults":358,"./tick_mark_defaults":359,"./tick_value_defaults":360,"fast-isnumeric":33}],337:[function(_dereq_,module,exports){ 'use strict'; var docs = _dereq_('../../constants/docs'); var FORMAT_LINK = docs.FORMAT_LINK; var DATE_FORMAT_LINK = docs.DATE_FORMAT_LINK; function axisHoverFormat(x, noDates) { return { valType: 'string', dflt: '', editType: 'none', description: ( noDates ? descriptionOnlyNumbers : descriptionWithDates )('hover text', x) + [ 'By default the values are formatted using ' + ( noDates ? 'generic number format' : ('`' + x + 'axis.hoverformat`') ) + '.', ].join(' ') }; } function descriptionOnlyNumbers(label, x) { return [ 'Sets the ' + label + ' formatting rule' + (x ? 'for `' + x + '` ' : ''), 'using d3 formatting mini-languages', 'which are very similar to those in Python. For numbers, see: ' + FORMAT_LINK + '.' ].join(' '); } function descriptionWithDates(label, x) { return descriptionOnlyNumbers(label, x) + [ ' And for dates see: ' + DATE_FORMAT_LINK + '.', 'We add two items to d3\'s date formatter:', '*%h* for half of the year as a decimal number as well as', '*%{n}f* for fractional seconds', 'with n digits. For example, *2016-10-13 09:15:23.456* with tickformat', '*%H~%M~%S.%2f* would display *09~15~23.46*' ].join(' '); } module.exports = { axisHoverFormat: axisHoverFormat, descriptionOnlyNumbers: descriptionOnlyNumbers, descriptionWithDates: descriptionWithDates }; },{"../../constants/docs":264}],338:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var constants = _dereq_('./constants'); // convert between axis names (xaxis, xaxis2, etc, elements of gd.layout) // and axis id's (x, x2, etc). Would probably have ditched 'xaxis' // completely in favor of just 'x' if it weren't ingrained in the API etc. exports.id2name = function id2name(id) { if(typeof id !== 'string' || !id.match(constants.AX_ID_PATTERN)) return; var axNum = id.split(' ')[0].substr(1); if(axNum === '1') axNum = ''; return id.charAt(0) + 'axis' + axNum; }; exports.name2id = function name2id(name) { if(!name.match(constants.AX_NAME_PATTERN)) return; var axNum = name.substr(5); if(axNum === '1') axNum = ''; return name.charAt(0) + axNum; }; /* * Cleans up the number of an axis, e.g., 'x002'->'x2', 'x0'->'x', 'x1' -> 'x', * etc. * If domainId is true, then id could be a domain reference and if it is, the * ' domain' part is kept at the end of the axis ID string. */ exports.cleanId = function cleanId(id, axLetter, domainId) { var domainTest = /( domain)$/.test(id); if(typeof id !== 'string' || !id.match(constants.AX_ID_PATTERN)) return; if(axLetter && id.charAt(0) !== axLetter) return; if(domainTest && (!domainId)) return; var axNum = id.split(' ')[0].substr(1).replace(/^0+/, ''); if(axNum === '1') axNum = ''; return id.charAt(0) + axNum + (domainTest && domainId ? ' domain' : ''); }; // get all axis objects, as restricted in listNames exports.list = function(gd, axLetter, only2d) { var fullLayout = gd._fullLayout; if(!fullLayout) return []; var idList = exports.listIds(gd, axLetter); var out = new Array(idList.length); var i; for(i = 0; i < idList.length; i++) { var idi = idList[i]; out[i] = fullLayout[idi.charAt(0) + 'axis' + idi.substr(1)]; } if(!only2d) { var sceneIds3D = fullLayout._subplots.gl3d || []; for(i = 0; i < sceneIds3D.length; i++) { var scene = fullLayout[sceneIds3D[i]]; if(axLetter) out.push(scene[axLetter + 'axis']); else out.push(scene.xaxis, scene.yaxis, scene.zaxis); } } return out; }; // get all axis ids, optionally restricted by letter // this only makes sense for 2d axes exports.listIds = function(gd, axLetter) { var fullLayout = gd._fullLayout; if(!fullLayout) return []; var subplotLists = fullLayout._subplots; if(axLetter) return subplotLists[axLetter + 'axis']; return subplotLists.xaxis.concat(subplotLists.yaxis); }; // get an axis object from its id 'x','x2' etc // optionally, id can be a subplot (ie 'x2y3') and type gets x or y from it exports.getFromId = function(gd, id, type) { var fullLayout = gd._fullLayout; // remove "domain" suffix id = ((id === undefined) || (typeof(id) !== 'string')) ? id : id.replace(' domain', ''); if(type === 'x') id = id.replace(/y[0-9]*/, ''); else if(type === 'y') id = id.replace(/x[0-9]*/, ''); return fullLayout[exports.id2name(id)]; }; // get an axis object of specified type from the containing trace exports.getFromTrace = function(gd, fullTrace, type) { var fullLayout = gd._fullLayout; var ax = null; if(Registry.traceIs(fullTrace, 'gl3d')) { var scene = fullTrace.scene; if(scene.substr(0, 5) === 'scene') { ax = fullLayout[scene][type + 'axis']; } } else { ax = exports.getFromId(gd, fullTrace[type + 'axis'] || type); } return ax; }; // sort x, x2, x10, y, y2, y10... exports.idSort = function(id1, id2) { var letter1 = id1.charAt(0); var letter2 = id2.charAt(0); if(letter1 !== letter2) return letter1 > letter2 ? 1 : -1; return +(id1.substr(1) || 1) - +(id2.substr(1) || 1); }; /* * An axis reference (e.g., the contents at the 'xref' key of an object) might * have extra information appended. Extract the axis ID only. * * ar: the axis reference string * */ exports.ref2id = function(ar) { // This assumes ar has been coerced via coerceRef, and uses the shortcut of // checking if the first letter matches [xyz] to determine if it should // return the axis ID. Otherwise it returns false. return (/^[xyz]/.test(ar)) ? ar.split(' ')[0] : false; }; function isFound(axId, list) { if(list && list.length) { for(var i = 0; i < list.length; i++) { if(list[i][axId]) return true; } } return false; } exports.isLinked = function(fullLayout, axId) { return ( isFound(axId, fullLayout._axisMatchGroups) || isFound(axId, fullLayout._axisConstraintGroups) ); }; },{"../../registry":378,"./constants":341}],339:[function(_dereq_,module,exports){ 'use strict'; function findCategories(ax, opts) { var dataAttr = opts.dataAttr || ax._id.charAt(0); var lookup = {}; var axData; var i, j; if(opts.axData) { // non-x/y case axData = opts.axData; } else { // x/y case axData = []; for(i = 0; i < opts.data.length; i++) { var trace = opts.data[i]; if(trace[dataAttr + 'axis'] === ax._id) { axData.push(trace); } } } for(i = 0; i < axData.length; i++) { var vals = axData[i][dataAttr]; for(j = 0; j < vals.length; j++) { var v = vals[j]; if(v !== null && v !== undefined) { lookup[v] = 1; } } } return Object.keys(lookup); } /** * Fills in category* default and initial categories. * * @param {object} containerIn : input axis object * @param {object} containerOut : full axis object * @param {function} coerce : Lib.coerce fn wrapper * @param {object} opts : * - data {array} : (full) data trace * OR * - axData {array} : (full) data associated with axis being coerced here * - dataAttr {string} : attribute name corresponding to coordinate array */ module.exports = function handleCategoryOrderDefaults(containerIn, containerOut, coerce, opts) { if(containerOut.type !== 'category') return; var arrayIn = containerIn.categoryarray; var isValidArray = (Array.isArray(arrayIn) && arrayIn.length > 0); // override default 'categoryorder' value when non-empty array is supplied var orderDefault; if(isValidArray) orderDefault = 'array'; var order = coerce('categoryorder', orderDefault); var array; // coerce 'categoryarray' only in array order case if(order === 'array') { array = coerce('categoryarray'); } // cannot set 'categoryorder' to 'array' with an invalid 'categoryarray' if(!isValidArray && order === 'array') { order = containerOut.categoryorder = 'trace'; } // set up things for makeCalcdata if(order === 'trace') { containerOut._initialCategories = []; } else if(order === 'array') { containerOut._initialCategories = array.slice(); } else { array = findCategories(containerOut, opts).sort(); if(order === 'category ascending') { containerOut._initialCategories = array; } else if(order === 'category descending') { containerOut._initialCategories = array.reverse(); } } }; },{}],340:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var constants = _dereq_('../../constants/numerical'); var ONEDAY = constants.ONEDAY; var ONEWEEK = constants.ONEWEEK; /** * Return a validated dtick value for this axis * * @param {any} dtick: the candidate dtick. valid values are numbers and strings, * and further constrained depending on the axis type. * @param {string} axType: the axis type */ exports.dtick = function(dtick, axType) { var isLog = axType === 'log'; var isDate = axType === 'date'; var isCat = axType === 'category'; var dtickDflt = isDate ? ONEDAY : 1; if(!dtick) return dtickDflt; if(isNumeric(dtick)) { dtick = Number(dtick); if(dtick <= 0) return dtickDflt; if(isCat) { // category dtick must be positive integers return Math.max(1, Math.round(dtick)); } if(isDate) { // date dtick must be at least 0.1ms (our current precision) return Math.max(0.1, dtick); } return dtick; } if(typeof dtick !== 'string' || !(isDate || isLog)) { return dtickDflt; } var prefix = dtick.charAt(0); var dtickNum = dtick.substr(1); dtickNum = isNumeric(dtickNum) ? Number(dtickNum) : 0; if((dtickNum <= 0) || !( // "M" gives ticks every (integer) n months (isDate && prefix === 'M' && dtickNum === Math.round(dtickNum)) || // "L" gives ticks linearly spaced in data (not in position) every (float) f (isLog && prefix === 'L') || // "D1" gives powers of 10 with all small digits between, "D2" gives only 2 and 5 (isLog && prefix === 'D' && (dtickNum === 1 || dtickNum === 2)) )) { return dtickDflt; } return dtick; }; /** * Return a validated tick0 for this axis * * @param {any} tick0: the candidate tick0. Valid values are numbers and strings, * further constrained depending on the axis type * @param {string} axType: the axis type * @param {string} calendar: for date axes, the calendar to validate/convert with * @param {any} dtick: an already valid dtick. Only used for D1 and D2 log dticks, * which do not support tick0 at all. */ exports.tick0 = function(tick0, axType, calendar, dtick) { if(axType === 'date') { return Lib.cleanDate(tick0, Lib.dateTick0(calendar, (dtick % ONEWEEK === 0) ? 1 : 0) ); } if(dtick === 'D1' || dtick === 'D2') { // D1 and D2 modes ignore tick0 entirely return undefined; } // Aside from date axes, tick0 must be numeric return isNumeric(tick0) ? Number(tick0) : 0; }; },{"../../constants/numerical":267,"../../lib":287,"fast-isnumeric":33}],341:[function(_dereq_,module,exports){ 'use strict'; var counterRegex = _dereq_('../../lib/regex').counter; module.exports = { idRegex: { x: counterRegex('x', '( domain)?'), y: counterRegex('y', '( domain)?') }, attrRegex: counterRegex('[xy]axis'), // axis match regular expression xAxisMatch: counterRegex('xaxis'), yAxisMatch: counterRegex('yaxis'), // pattern matching axis ids and names // note that this is more permissive than counterRegex, as // id2name, name2id, and cleanId accept "x1" etc AX_ID_PATTERN: /^[xyz][0-9]*( domain)?$/, AX_NAME_PATTERN: /^[xyz]axis[0-9]*$/, // and for 2D subplots SUBPLOT_PATTERN: /^x([0-9]*)y([0-9]*)$/, HOUR_PATTERN: 'hour', WEEKDAY_PATTERN: 'day of week', // pixels to move mouse before you stop clamping to starting point MINDRAG: 8, // smallest dimension allowed for a select box MINSELECT: 12, // smallest dimension allowed for a zoombox MINZOOM: 20, // width of axis drag regions DRAGGERSIZE: 20, // max pixels off straight before a lasso select line counts as bent BENDPX: 1.5, // delay before a redraw (relayout) after smooth panning and zooming REDRAWDELAY: 50, // throttling limit (ms) for selectPoints calls SELECTDELAY: 100, // cache ID suffix for throttle SELECTID: '-select', // last resort axis ranges for x and y axes if we have no data DFLTRANGEX: [-1, 6], DFLTRANGEY: [-1, 4], // Layers to keep trace types in the right order // N.B. each 'unique' plot method must have its own layer traceLayerClasses: [ 'imagelayer', 'heatmaplayer', 'contourcarpetlayer', 'contourlayer', 'funnellayer', 'waterfalllayer', 'barlayer', 'carpetlayer', 'violinlayer', 'boxlayer', 'ohlclayer', 'scattercarpetlayer', 'scatterlayer' ], clipOnAxisFalseQuery: [ '.scatterlayer', '.barlayer', '.funnellayer', '.waterfalllayer' ], layerValue2layerClass: { 'above traces': 'above', 'below traces': 'below' } }; },{"../../lib/regex":303}],342:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var autorange = _dereq_('./autorange'); var id2name = _dereq_('./axis_ids').id2name; var layoutAttributes = _dereq_('./layout_attributes'); var scaleZoom = _dereq_('./scale_zoom'); var setConvert = _dereq_('./set_convert'); var ALMOST_EQUAL = _dereq_('../../constants/numerical').ALMOST_EQUAL; var FROM_BL = _dereq_('../../constants/alignment').FROM_BL; exports.handleDefaults = function(layoutIn, layoutOut, opts) { var axIds = opts.axIds; var axHasImage = opts.axHasImage; // sets of axes linked by `scaleanchor` OR `matches` along with the // scaleratios compounded together, populated in handleConstraintDefaults var constraintGroups = layoutOut._axisConstraintGroups = []; // similar to _axisConstraintGroups, but only matching axes var matchGroups = layoutOut._axisMatchGroups = []; var i, group, axId, axName, axIn, axOut, attr, val; for(i = 0; i < axIds.length; i++) { axName = id2name(axIds[i]); axIn = layoutIn[axName]; axOut = layoutOut[axName]; handleOneAxDefaults(axIn, axOut, { axIds: axIds, layoutOut: layoutOut, hasImage: axHasImage[axName] }); } // save matchGroup on each matching axis function stash(groups, stashAttr) { for(i = 0; i < groups.length; i++) { group = groups[i]; for(axId in group) { layoutOut[id2name(axId)][stashAttr] = group; } } } stash(matchGroups, '_matchGroup'); // If any axis in a constraint group is fixedrange, they all get fixed // This covers matches axes, as they're now in the constraintgroup too // and have not yet been removed (if the group is *only* matching) for(i = 0; i < constraintGroups.length; i++) { group = constraintGroups[i]; for(axId in group) { axOut = layoutOut[id2name(axId)]; if(axOut.fixedrange) { for(var axId2 in group) { var axName2 = id2name(axId2); if((layoutIn[axName2] || {}).fixedrange === false) { Lib.warn( 'fixedrange was specified as false for axis ' + axName2 + ' but was overridden because another ' + 'axis in its constraint group has fixedrange true' ); } layoutOut[axName2].fixedrange = true; } break; } } } // remove constraint groups that simply duplicate match groups i = 0; while(i < constraintGroups.length) { group = constraintGroups[i]; for(axId in group) { axOut = layoutOut[id2name(axId)]; if(axOut._matchGroup && Object.keys(axOut._matchGroup).length === Object.keys(group).length) { constraintGroups.splice(i, 1); i--; } break; } i++; } // save constraintGroup on each constrained axis stash(constraintGroups, '_constraintGroup'); // make sure `matching` axes share values of necessary attributes // Precedence (base axis is the one that doesn't list a `matches`, ie others // all point to it): // (1) explicitly defined value in the base axis // (2) explicitly defined in another axis (arbitrary order) // (3) default in the base axis var matchAttrs = [ 'constrain', 'range', 'autorange', 'rangemode', 'rangebreaks', 'categoryorder', 'categoryarray' ]; var hasRange = false; var hasDayOfWeekBreaks = false; function setAttrVal() { val = axOut[attr]; if(attr === 'rangebreaks') { hasDayOfWeekBreaks = axOut._hasDayOfWeekBreaks; } } for(i = 0; i < matchGroups.length; i++) { group = matchGroups[i]; // find 'matching' range attrs for(var j = 0; j < matchAttrs.length; j++) { attr = matchAttrs[j]; val = null; var baseAx; for(axId in group) { axName = id2name(axId); axIn = layoutIn[axName]; axOut = layoutOut[axName]; if(!(attr in axOut)) { continue; } if(!axOut.matches) { baseAx = axOut; // top priority: explicit value in base axis if(attr in axIn) { setAttrVal(); break; } } if(val === null && attr in axIn) { // second priority: first explicit value in another axis setAttrVal(); } } // special logic for coupling of range and autorange // if nobody explicitly specifies autorange, but someone does // explicitly specify range, autorange must be disabled. if(attr === 'range' && val) { hasRange = true; } if(attr === 'autorange' && val === null && hasRange) { val = false; } if(val === null && attr in baseAx) { // fallback: default value in base axis val = baseAx[attr]; } // but we still might not have a value, which is fine. if(val !== null) { for(axId in group) { axOut = layoutOut[id2name(axId)]; axOut[attr] = attr === 'range' ? val.slice() : val; if(attr === 'rangebreaks') { axOut._hasDayOfWeekBreaks = hasDayOfWeekBreaks; setConvert(axOut, layoutOut); } } } } } }; function handleOneAxDefaults(axIn, axOut, opts) { var axIds = opts.axIds; var layoutOut = opts.layoutOut; var hasImage = opts.hasImage; var constraintGroups = layoutOut._axisConstraintGroups; var matchGroups = layoutOut._axisMatchGroups; var axId = axOut._id; var axLetter = axId.charAt(0); var splomStash = ((layoutOut._splomAxes || {})[axLetter] || {})[axId] || {}; var thisID = axOut._id; var isX = thisID.charAt(0) === 'x'; // Clear _matchGroup & _constraintGroup so relinkPrivateKeys doesn't keep // an old one around. If this axis is in a group we'll set this again later axOut._matchGroup = null; axOut._constraintGroup = null; function coerce(attr, dflt) { return Lib.coerce(axIn, axOut, layoutAttributes, attr, dflt); } // coerce the constraint mechanics even if this axis has no scaleanchor // because it may be the anchor of another axis. coerce('constrain', hasImage ? 'domain' : 'range'); Lib.coerce(axIn, axOut, { constraintoward: { valType: 'enumerated', values: isX ? ['left', 'center', 'right'] : ['bottom', 'middle', 'top'], dflt: isX ? 'center' : 'middle' } }, 'constraintoward'); // If this axis is already part of a constraint group, we can't // scaleanchor any other axis in that group, or we'd make a loop. // Filter axIds to enforce this, also matching axis types. var thisType = axOut.type; var i, idi; var linkableAxes = []; for(i = 0; i < axIds.length; i++) { idi = axIds[i]; if(idi === thisID) continue; var axi = layoutOut[id2name(idi)]; if(axi.type === thisType) { linkableAxes.push(idi); } } var thisGroup = getConstraintGroup(constraintGroups, thisID); if(thisGroup) { var linkableAxesNoLoops = []; for(i = 0; i < linkableAxes.length; i++) { idi = linkableAxes[i]; if(!thisGroup[idi]) linkableAxesNoLoops.push(idi); } linkableAxes = linkableAxesNoLoops; } var canLink = linkableAxes.length; var matches, scaleanchor; if(canLink && (axIn.matches || splomStash.matches)) { matches = Lib.coerce(axIn, axOut, { matches: { valType: 'enumerated', values: linkableAxes, dflt: linkableAxes.indexOf(splomStash.matches) !== -1 ? splomStash.matches : undefined } }, 'matches'); } // 'matches' wins over 'scaleanchor' - each axis can only specify one // constraint, but you can chain matches and scaleanchor constraints by // specifying them in separate axes. var scaleanchorDflt = hasImage && !isX ? axOut.anchor : undefined; if(canLink && !matches && (axIn.scaleanchor || scaleanchorDflt)) { scaleanchor = Lib.coerce(axIn, axOut, { scaleanchor: { valType: 'enumerated', values: linkableAxes } }, 'scaleanchor', scaleanchorDflt); } if(matches) { axOut._matchGroup = updateConstraintGroups(matchGroups, thisID, matches, 1); // Also include match constraints in the scale groups var matchedAx = layoutOut[id2name(matches)]; var matchRatio = extent(layoutOut, axOut) / extent(layoutOut, matchedAx); if(isX !== (matches.charAt(0) === 'x')) { // We don't yet know the actual scale ratio of x/y matches constraints, // due to possible automargins, so just leave a placeholder for this: // 'x' means "x size over y size", 'y' means the inverse. // in principle in the constraint group you could get multiple of these. matchRatio = (isX ? 'x' : 'y') + matchRatio; } updateConstraintGroups(constraintGroups, thisID, matches, matchRatio); } else if(axIn.matches && axIds.indexOf(axIn.matches) !== -1) { Lib.warn('ignored ' + axOut._name + '.matches: "' + axIn.matches + '" to avoid an infinite loop'); } if(scaleanchor) { var scaleratio = coerce('scaleratio'); // TODO: I suppose I could do attribute.min: Number.MIN_VALUE to avoid zero, // but that seems hacky. Better way to say "must be a positive number"? // Of course if you use several super-tiny values you could eventually // force a product of these to zero and all hell would break loose... // Likewise with super-huge values. if(!scaleratio) scaleratio = axOut.scaleratio = 1; updateConstraintGroups(constraintGroups, thisID, scaleanchor, scaleratio); } else if(axIn.scaleanchor && axIds.indexOf(axIn.scaleanchor) !== -1) { Lib.warn('ignored ' + axOut._name + '.scaleanchor: "' + axIn.scaleanchor + '" to avoid either an infinite loop ' + 'and possibly inconsistent scaleratios, or because this axis ' + 'declares a *matches* constraint.'); } } function extent(layoutOut, ax) { var domain = ax.domain; if(!domain) { // at this point overlaying axes haven't yet inherited their main domains // TODO: constrain: domain with overlaying axes is likely a bug. domain = layoutOut[id2name(ax.overlaying)].domain; } return domain[1] - domain[0]; } function getConstraintGroup(groups, thisID) { for(var i = 0; i < groups.length; i++) { if(groups[i][thisID]) { return groups[i]; } } return null; } /* * Add this axis to the axis constraint groups, which is the collection * of axes that are all constrained together on scale (or matching). * * constraintGroups: a list of objects. each object is * {axis_id: scale_within_group}, where scale_within_group is * only important relative to the rest of the group, and defines * the relative scales between all axes in the group * * thisGroup: the group the current axis is already in * thisID: the id if the current axis * thatID: the id of the axis to scale it with * scaleratio: the ratio of this axis to the thatID axis */ function updateConstraintGroups(constraintGroups, thisID, thatID, scaleratio) { var i, j, groupi, keyj, thisGroupIndex; var thisGroup = getConstraintGroup(constraintGroups, thisID); if(thisGroup === null) { thisGroup = {}; thisGroup[thisID] = 1; thisGroupIndex = constraintGroups.length; constraintGroups.push(thisGroup); } else { thisGroupIndex = constraintGroups.indexOf(thisGroup); } var thisGroupKeys = Object.keys(thisGroup); // we know that this axis isn't in any other groups, but we don't know // about the thatID axis. If it is, we need to merge the groups. for(i = 0; i < constraintGroups.length; i++) { groupi = constraintGroups[i]; if(i !== thisGroupIndex && groupi[thatID]) { var baseScale = groupi[thatID]; for(j = 0; j < thisGroupKeys.length; j++) { keyj = thisGroupKeys[j]; groupi[keyj] = multiplyScales(baseScale, multiplyScales(scaleratio, thisGroup[keyj])); } constraintGroups.splice(thisGroupIndex, 1); return; } } // otherwise, we insert the new thatID axis as the base scale (1) // in its group, and scale the rest of the group to it if(scaleratio !== 1) { for(j = 0; j < thisGroupKeys.length; j++) { var key = thisGroupKeys[j]; thisGroup[key] = multiplyScales(scaleratio, thisGroup[key]); } } thisGroup[thatID] = 1; } // scales may be numbers or 'x1.3', 'yy4.5' etc to multiply by as-yet-unknown // ratios between x and y plot sizes n times function multiplyScales(a, b) { var aPrefix = ''; var bPrefix = ''; var aLen, bLen; if(typeof a === 'string') { aPrefix = a.match(/^[xy]*/)[0]; aLen = aPrefix.length; a = +a.substr(aLen); } if(typeof b === 'string') { bPrefix = b.match(/^[xy]*/)[0]; bLen = bPrefix.length; b = +b.substr(bLen); } var c = a * b; // just two numbers if(!aLen && !bLen) { return c; } // one or more prefixes of the same type if(!aLen || !bLen || aPrefix.charAt(0) === bPrefix.charAt(0)) { return aPrefix + bPrefix + (a * b); } // x and y cancel each other out exactly - back to a number if(aLen === bLen) { return c; } // partial cancelation of prefixes return (aLen > bLen ? aPrefix.substr(bLen) : bPrefix.substr(aLen)) + c; } function finalRatios(group, fullLayout) { var size = fullLayout._size; var yRatio = size.h / size.w; var out = {}; var keys = Object.keys(group); for(var i = 0; i < keys.length; i++) { var key = keys[i]; var val = group[key]; if(typeof val === 'string') { var prefix = val.match(/^[xy]*/)[0]; var pLen = prefix.length; val = +val.substr(pLen); var mult = prefix.charAt(0) === 'y' ? yRatio : (1 / yRatio); for(var j = 0; j < pLen; j++) { val *= mult; } } out[key] = val; } return out; } exports.enforce = function enforce(gd) { var fullLayout = gd._fullLayout; var constraintGroups = fullLayout._axisConstraintGroups || []; var i, j, group, axisID, ax, normScale, mode, factor; // matching constraints are handled in the autorange code when autoranged, // or in the supplyDefaults code when explicitly ranged. // now we just need to handle scaleanchor constraints // matches constraints that chain with scaleanchor constraints are included // here too, but because matches has already been satisfied, // any changes here should preserve that. for(i = 0; i < constraintGroups.length; i++) { group = finalRatios(constraintGroups[i], fullLayout); var axisIDs = Object.keys(group); var minScale = Infinity; var maxScale = 0; // mostly matchScale will be the same as minScale // ie we expand axis ranges to encompass *everything* // that's currently in any of their ranges, but during // autorange of a subset of axes we will ignore other // axes for this purpose. var matchScale = Infinity; var normScales = {}; var axes = {}; var hasAnyDomainConstraint = false; // find the (normalized) scale of each axis in the group for(j = 0; j < axisIDs.length; j++) { axisID = axisIDs[j]; axes[axisID] = ax = fullLayout[id2name(axisID)]; if(ax._inputDomain) ax.domain = ax._inputDomain.slice(); else ax._inputDomain = ax.domain.slice(); if(!ax._inputRange) ax._inputRange = ax.range.slice(); // set axis scale here so we can use _m rather than // having to calculate it from length and range ax.setScale(); // abs: inverted scales still satisfy the constraint normScales[axisID] = normScale = Math.abs(ax._m) / group[axisID]; minScale = Math.min(minScale, normScale); if(ax.constrain === 'domain' || !ax._constraintShrinkable) { matchScale = Math.min(matchScale, normScale); } // this has served its purpose, so remove it delete ax._constraintShrinkable; maxScale = Math.max(maxScale, normScale); if(ax.constrain === 'domain') hasAnyDomainConstraint = true; } // Do we have a constraint mismatch? Give a small buffer for rounding errors if(minScale > ALMOST_EQUAL * maxScale && !hasAnyDomainConstraint) continue; // now increase any ranges we need to until all normalized scales are equal for(j = 0; j < axisIDs.length; j++) { axisID = axisIDs[j]; normScale = normScales[axisID]; ax = axes[axisID]; mode = ax.constrain; // even if the scale didn't change, if we're shrinking domain // we need to recalculate in case `constraintoward` changed if(normScale !== matchScale || mode === 'domain') { factor = normScale / matchScale; if(mode === 'range') { scaleZoom(ax, factor); } else { // mode === 'domain' var inputDomain = ax._inputDomain; var domainShrunk = (ax.domain[1] - ax.domain[0]) / (inputDomain[1] - inputDomain[0]); var rangeShrunk = (ax.r2l(ax.range[1]) - ax.r2l(ax.range[0])) / (ax.r2l(ax._inputRange[1]) - ax.r2l(ax._inputRange[0])); factor /= domainShrunk; if(factor * rangeShrunk < 1) { // we've asked to magnify the axis more than we can just by // enlarging the domain - so we need to constrict range ax.domain = ax._input.domain = inputDomain.slice(); scaleZoom(ax, factor); continue; } if(rangeShrunk < 1) { // the range has previously been constricted by ^^, but we've // switched to the domain-constricted regime, so reset range ax.range = ax._input.range = ax._inputRange.slice(); factor *= rangeShrunk; } if(ax.autorange) { /* * range & factor may need to change because range was * calculated for the larger scaling, so some pixel * paddings may get cut off when we reduce the domain. * * This is easier than the regular autorange calculation * because we already know the scaling `m`, but we still * need to cut out impossible constraints (like * annotations with super-long arrows). That's what * outerMin/Max are for - if the expansion was going to * go beyond the original domain, it must be impossible */ var rl0 = ax.r2l(ax.range[0]); var rl1 = ax.r2l(ax.range[1]); var rangeCenter = (rl0 + rl1) / 2; var rangeMin = rangeCenter; var rangeMax = rangeCenter; var halfRange = Math.abs(rl1 - rangeCenter); // extra tiny bit for rounding errors, in case we actually // *are* expanding to the full domain var outerMin = rangeCenter - halfRange * factor * 1.0001; var outerMax = rangeCenter + halfRange * factor * 1.0001; var getPadMin = autorange.makePadFn(fullLayout, ax, 0); var getPadMax = autorange.makePadFn(fullLayout, ax, 1); updateDomain(ax, factor); var m = Math.abs(ax._m); var extremes = autorange.concatExtremes(gd, ax); var minArray = extremes.min; var maxArray = extremes.max; var newVal; var k; for(k = 0; k < minArray.length; k++) { newVal = minArray[k].val - getPadMin(minArray[k]) / m; if(newVal > outerMin && newVal < rangeMin) { rangeMin = newVal; } } for(k = 0; k < maxArray.length; k++) { newVal = maxArray[k].val + getPadMax(maxArray[k]) / m; if(newVal < outerMax && newVal > rangeMax) { rangeMax = newVal; } } var domainExpand = (rangeMax - rangeMin) / (2 * halfRange); factor /= domainExpand; rangeMin = ax.l2r(rangeMin); rangeMax = ax.l2r(rangeMax); ax.range = ax._input.range = (rl0 < rl1) ? [rangeMin, rangeMax] : [rangeMax, rangeMin]; } updateDomain(ax, factor); } } } } }; exports.getAxisGroup = function getAxisGroup(fullLayout, axId) { var matchGroups = fullLayout._axisMatchGroups; for(var i = 0; i < matchGroups.length; i++) { var group = matchGroups[i]; if(group[axId]) return 'g' + i; } return axId; }; // For use before autoranging, check if this axis was previously constrained // by domain but no longer is exports.clean = function clean(gd, ax) { if(ax._inputDomain) { var isConstrained = false; var axId = ax._id; var constraintGroups = gd._fullLayout._axisConstraintGroups; for(var j = 0; j < constraintGroups.length; j++) { if(constraintGroups[j][axId]) { isConstrained = true; break; } } if(!isConstrained || ax.constrain !== 'domain') { ax._input.domain = ax.domain = ax._inputDomain; delete ax._inputDomain; } } }; function updateDomain(ax, factor) { var inputDomain = ax._inputDomain; var centerFraction = FROM_BL[ax.constraintoward]; var center = inputDomain[0] + (inputDomain[1] - inputDomain[0]) * centerFraction; ax.domain = ax._input.domain = [ center + (inputDomain[0] - center) / factor, center + (inputDomain[1] - center) / factor ]; ax.setScale(); } },{"../../constants/alignment":262,"../../constants/numerical":267,"../../lib":287,"./autorange":333,"./axis_ids":338,"./layout_attributes":349,"./scale_zoom":354,"./set_convert":356}],343:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); var numberFormat = Lib.numberFormat; var tinycolor = _dereq_('tinycolor2'); var supportsPassive = _dereq_('has-passive-events'); var Registry = _dereq_('../../registry'); var strTranslate = Lib.strTranslate; var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var Color = _dereq_('../../components/color'); var Drawing = _dereq_('../../components/drawing'); var Fx = _dereq_('../../components/fx'); var Axes = _dereq_('./axes'); var setCursor = _dereq_('../../lib/setcursor'); var dragElement = _dereq_('../../components/dragelement'); var helpers = _dereq_('../../components/dragelement/helpers'); var selectingOrDrawing = helpers.selectingOrDrawing; var freeMode = helpers.freeMode; var FROM_TL = _dereq_('../../constants/alignment').FROM_TL; var clearGlCanvases = _dereq_('../../lib/clear_gl_canvases'); var redrawReglTraces = _dereq_('../../plot_api/subroutines').redrawReglTraces; var Plots = _dereq_('../plots'); var getFromId = _dereq_('./axis_ids').getFromId; var prepSelect = _dereq_('./select').prepSelect; var clearSelect = _dereq_('./select').clearSelect; var selectOnClick = _dereq_('./select').selectOnClick; var scaleZoom = _dereq_('./scale_zoom'); var constants = _dereq_('./constants'); var MINDRAG = constants.MINDRAG; var MINZOOM = constants.MINZOOM; // flag for showing "doubleclick to zoom out" only at the beginning var SHOWZOOMOUTTIP = true; // dragBox: create an element to drag one or more axis ends // inputs: // plotinfo - which subplot are we making dragboxes on? // x,y,w,h - left, top, width, height of the box // ns - how does this drag the vertical axis? // 'n' - top only // 's' - bottom only // 'ns' - top and bottom together, difference unchanged // ew - same for horizontal axis function makeDragBox(gd, plotinfo, x, y, w, h, ns, ew) { // mouseDown stores ms of first mousedown event in the last // `gd._context.doubleClickDelay` ms on the drag bars // numClicks stores how many mousedowns have been seen // within `gd._context.doubleClickDelay` so we can check for click or doubleclick events // dragged stores whether a drag has occurred, so we don't have to // redraw unnecessarily, ie if no move bigger than MINDRAG or MINZOOM px var zoomlayer = gd._fullLayout._zoomlayer; var isMainDrag = (ns + ew === 'nsew'); var singleEnd = (ns + ew).length === 1; // main subplot x and y (i.e. found in plotinfo - the main ones) var xa0, ya0; // {ax._id: ax} hash objects var xaHash, yaHash; // xaHash/yaHash values (arrays) var xaxes, yaxes; // main axis offsets var xs, ys; // main axis lengths var pw, ph; // contains keys 'xaHash', 'yaHash', 'xaxes', and 'yaxes' // which are the x/y {ax._id: ax} hash objects and their values // for linked axis relative to this subplot var links; // similar to `links` but for matching axes var matches; // set to ew/ns val when active, set to '' when inactive var xActive, yActive; // are all axes in this subplot are fixed? var allFixedRanges; // do we need to edit x/y ranges? var editX, editY; // graph-wide optimization flags var hasScatterGl, hasSplom, hasSVG; // collected changes to be made to the plot by relayout at the end var updates; // scaling factors from css transform var scaleX; var scaleY; function recomputeAxisLists() { xa0 = plotinfo.xaxis; ya0 = plotinfo.yaxis; pw = xa0._length; ph = ya0._length; xs = xa0._offset; ys = ya0._offset; xaHash = {}; xaHash[xa0._id] = xa0; yaHash = {}; yaHash[ya0._id] = ya0; // if we're dragging two axes at once, also drag overlays if(ns && ew) { var overlays = plotinfo.overlays; for(var i = 0; i < overlays.length; i++) { var xa = overlays[i].xaxis; xaHash[xa._id] = xa; var ya = overlays[i].yaxis; yaHash[ya._id] = ya; } } xaxes = hashValues(xaHash); yaxes = hashValues(yaHash); xActive = isDirectionActive(xaxes, ew); yActive = isDirectionActive(yaxes, ns); allFixedRanges = !yActive && !xActive; matches = calcLinks(gd, gd._fullLayout._axisMatchGroups, xaHash, yaHash); links = calcLinks(gd, gd._fullLayout._axisConstraintGroups, xaHash, yaHash, matches); var spConstrained = links.isSubplotConstrained || matches.isSubplotConstrained; editX = ew || spConstrained; editY = ns || spConstrained; var fullLayout = gd._fullLayout; hasScatterGl = fullLayout._has('scattergl'); hasSplom = fullLayout._has('splom'); hasSVG = fullLayout._has('svg'); } recomputeAxisLists(); var cursor = getDragCursor(yActive + xActive, gd._fullLayout.dragmode, isMainDrag); var dragger = makeRectDragger(plotinfo, ns + ew + 'drag', cursor, x, y, w, h); // still need to make the element if the axes are disabled // but nuke its events (except for maindrag which needs them for hover) // and stop there if(allFixedRanges && !isMainDrag) { dragger.onmousedown = null; dragger.style.pointerEvents = 'none'; return dragger; } var dragOptions = { element: dragger, gd: gd, plotinfo: plotinfo }; dragOptions.prepFn = function(e, startX, startY) { var dragModePrev = dragOptions.dragmode; var dragModeNow = gd._fullLayout.dragmode; if(dragModeNow !== dragModePrev) { dragOptions.dragmode = dragModeNow; } recomputeAxisLists(); scaleX = gd._fullLayout._invScaleX; scaleY = gd._fullLayout._invScaleY; if(!allFixedRanges) { if(isMainDrag) { // main dragger handles all drag modes, and changes // to pan (or to zoom if it already is pan) on shift if(e.shiftKey) { if(dragModeNow === 'pan') dragModeNow = 'zoom'; else if(!selectingOrDrawing(dragModeNow)) dragModeNow = 'pan'; } else if(e.ctrlKey) { dragModeNow = 'pan'; } } else { // all other draggers just pan dragModeNow = 'pan'; } } if(freeMode(dragModeNow)) dragOptions.minDrag = 1; else dragOptions.minDrag = undefined; if(selectingOrDrawing(dragModeNow)) { dragOptions.xaxes = xaxes; dragOptions.yaxes = yaxes; // this attaches moveFn, clickFn, doneFn on dragOptions prepSelect(e, startX, startY, dragOptions, dragModeNow); } else { dragOptions.clickFn = clickFn; if(selectingOrDrawing(dragModePrev)) { // TODO Fix potential bug // Note: clearing / resetting selection state only happens, when user // triggers at least one interaction in pan/zoom mode. Otherwise, the // select/lasso outlines are deleted (in plots.js.cleanPlot) but the selection // cache isn't cleared. So when the user switches back to select/lasso and // 'adds to a selection' with Shift, the "old", seemingly removed outlines // are redrawn again because the selection cache still holds their coordinates. // However, this isn't easily solved, since plots.js would need // to have a reference to the dragOptions object (which holds the // selection cache). clearAndResetSelect(); } if(!allFixedRanges) { if(dragModeNow === 'zoom') { dragOptions.moveFn = zoomMove; dragOptions.doneFn = zoomDone; // zoomMove takes care of the threshold, but we need to // minimize this so that constrained zoom boxes will flip // orientation at the right place dragOptions.minDrag = 1; zoomPrep(e, startX, startY); } else if(dragModeNow === 'pan') { dragOptions.moveFn = plotDrag; dragOptions.doneFn = dragTail; } } } gd._fullLayout._redrag = function() { var dragDataNow = gd._dragdata; if(dragDataNow && dragDataNow.element === dragger) { var dragModeNow = gd._fullLayout.dragmode; if(!selectingOrDrawing(dragModeNow)) { recomputeAxisLists(); updateSubplots([0, 0, pw, ph]); dragOptions.moveFn(dragDataNow.dx, dragDataNow.dy); } // TODO should we try to "re-select" under select/lasso modes? // probably best to wait for https://github.com/plotly/plotly.js/issues/1851 } }; }; function clearAndResetSelect() { // clear selection polygon cache (if any) dragOptions.plotinfo.selection = false; // clear selection outlines clearSelect(gd); } function clickFn(numClicks, evt) { var gd = dragOptions.gd; if(gd._fullLayout._activeShapeIndex >= 0) { gd._fullLayout._deactivateShape(gd); return; } var clickmode = gd._fullLayout.clickmode; removeZoombox(gd); if(numClicks === 2 && !singleEnd) doubleClick(); if(isMainDrag) { if(clickmode.indexOf('select') > -1) { selectOnClick(evt, gd, xaxes, yaxes, plotinfo.id, dragOptions); } if(clickmode.indexOf('event') > -1) { Fx.click(gd, evt, plotinfo.id); } } else if(numClicks === 1 && singleEnd) { var ax = ns ? ya0 : xa0; var end = (ns === 's' || ew === 'w') ? 0 : 1; var attrStr = ax._name + '.range[' + end + ']'; var initialText = getEndText(ax, end); var hAlign = 'left'; var vAlign = 'middle'; if(ax.fixedrange) return; if(ns) { vAlign = (ns === 'n') ? 'top' : 'bottom'; if(ax.side === 'right') hAlign = 'right'; } else if(ew === 'e') hAlign = 'right'; if(gd._context.showAxisRangeEntryBoxes) { d3.select(dragger) .call(svgTextUtils.makeEditable, { gd: gd, immediate: true, background: gd._fullLayout.paper_bgcolor, text: String(initialText), fill: ax.tickfont ? ax.tickfont.color : '#444', horizontalAlign: hAlign, verticalAlign: vAlign }) .on('edit', function(text) { var v = ax.d2r(text); if(v !== undefined) { Registry.call('_guiRelayout', gd, attrStr, v); } }); } } } dragElement.init(dragOptions); // x/y px position at start of drag var x0, y0; // bbox object of the zoombox var box; // luminance of bg behind zoombox var lum; // zoombox path outline var path0; // is zoombox dimmed (during drag) var dimmed; // 'x'-only, 'y' or 'xy' zooming var zoomMode; // zoombox d3 selection var zb; // zoombox corner d3 selection var corners; // zoom takes over minDrag, so it also has to take over gd._dragged var zoomDragged; function zoomPrep(e, startX, startY) { var dragBBox = dragger.getBoundingClientRect(); x0 = startX - dragBBox.left; y0 = startY - dragBBox.top; gd._fullLayout._calcInverseTransform(gd); var transformedCoords = Lib.apply3DTransform(gd._fullLayout._invTransform)(x0, y0); x0 = transformedCoords[0]; y0 = transformedCoords[1]; box = {l: x0, r: x0, w: 0, t: y0, b: y0, h: 0}; lum = gd._hmpixcount ? (gd._hmlumcount / gd._hmpixcount) : tinycolor(gd._fullLayout.plot_bgcolor).getLuminance(); path0 = 'M0,0H' + pw + 'V' + ph + 'H0V0'; dimmed = false; zoomMode = 'xy'; zoomDragged = false; zb = makeZoombox(zoomlayer, lum, xs, ys, path0); corners = makeCorners(zoomlayer, xs, ys); } function zoomMove(dx0, dy0) { if(gd._transitioningWithDuration) { return false; } var x1 = Math.max(0, Math.min(pw, scaleX * dx0 + x0)); var y1 = Math.max(0, Math.min(ph, scaleY * dy0 + y0)); var dx = Math.abs(x1 - x0); var dy = Math.abs(y1 - y0); box.l = Math.min(x0, x1); box.r = Math.max(x0, x1); box.t = Math.min(y0, y1); box.b = Math.max(y0, y1); function noZoom() { zoomMode = ''; box.r = box.l; box.t = box.b; corners.attr('d', 'M0,0Z'); } if(links.isSubplotConstrained) { if(dx > MINZOOM || dy > MINZOOM) { zoomMode = 'xy'; if(dx / pw > dy / ph) { dy = dx * ph / pw; if(y0 > y1) box.t = y0 - dy; else box.b = y0 + dy; } else { dx = dy * pw / ph; if(x0 > x1) box.l = x0 - dx; else box.r = x0 + dx; } corners.attr('d', xyCorners(box)); } else { noZoom(); } } else if(matches.isSubplotConstrained) { if(dx > MINZOOM || dy > MINZOOM) { zoomMode = 'xy'; var r0 = Math.min(box.l / pw, (ph - box.b) / ph); var r1 = Math.max(box.r / pw, (ph - box.t) / ph); box.l = r0 * pw; box.r = r1 * pw; box.b = (1 - r0) * ph; box.t = (1 - r1) * ph; corners.attr('d', xyCorners(box)); } else { noZoom(); } } else if(!yActive || dy < Math.min(Math.max(dx * 0.6, MINDRAG), MINZOOM)) { // look for small drags in one direction or the other, // and only drag the other axis if(dx < MINDRAG || !xActive) { noZoom(); } else { box.t = 0; box.b = ph; zoomMode = 'x'; corners.attr('d', xCorners(box, y0)); } } else if(!xActive || dx < Math.min(dy * 0.6, MINZOOM)) { box.l = 0; box.r = pw; zoomMode = 'y'; corners.attr('d', yCorners(box, x0)); } else { zoomMode = 'xy'; corners.attr('d', xyCorners(box)); } box.w = box.r - box.l; box.h = box.b - box.t; if(zoomMode) zoomDragged = true; gd._dragged = zoomDragged; updateZoombox(zb, corners, box, path0, dimmed, lum); computeZoomUpdates(); gd.emit('plotly_relayouting', updates); dimmed = true; } function computeZoomUpdates() { updates = {}; // TODO: edit linked axes in zoomAxRanges and in dragTail if(zoomMode === 'xy' || zoomMode === 'x') { zoomAxRanges(xaxes, box.l / pw, box.r / pw, updates, links.xaxes); updateMatchedAxRange('x', updates); } if(zoomMode === 'xy' || zoomMode === 'y') { zoomAxRanges(yaxes, (ph - box.b) / ph, (ph - box.t) / ph, updates, links.yaxes); updateMatchedAxRange('y', updates); } } function zoomDone() { computeZoomUpdates(); removeZoombox(gd); dragTail(); showDoubleClickNotifier(gd); } // scroll zoom, on all draggers except corners var scrollViewBox = [0, 0, pw, ph]; // wait a little after scrolling before redrawing var redrawTimer = null; var REDRAWDELAY = constants.REDRAWDELAY; var mainplot = plotinfo.mainplot ? gd._fullLayout._plots[plotinfo.mainplot] : plotinfo; function zoomWheel(e) { // deactivate mousewheel scrolling on embedded graphs // devs can override this with layout._enablescrollzoom, // but _ ensures this setting won't leave their page if(!gd._context._scrollZoom.cartesian && !gd._fullLayout._enablescrollzoom) { return; } clearAndResetSelect(); // If a transition is in progress, then disable any behavior: if(gd._transitioningWithDuration) { e.preventDefault(); e.stopPropagation(); return; } recomputeAxisLists(); clearTimeout(redrawTimer); var wheelDelta = -e.deltaY; if(!isFinite(wheelDelta)) wheelDelta = e.wheelDelta / 10; if(!isFinite(wheelDelta)) { Lib.log('Did not find wheel motion attributes: ', e); return; } var zoom = Math.exp(-Math.min(Math.max(wheelDelta, -20), 20) / 200); var gbb = mainplot.draglayer.select('.nsewdrag').node().getBoundingClientRect(); var xfrac = (e.clientX - gbb.left) / gbb.width; var yfrac = (gbb.bottom - e.clientY) / gbb.height; var i; function zoomWheelOneAxis(ax, centerFraction, zoom) { if(ax.fixedrange) return; var axRange = Lib.simpleMap(ax.range, ax.r2l); var v0 = axRange[0] + (axRange[1] - axRange[0]) * centerFraction; function doZoom(v) { return ax.l2r(v0 + (v - v0) * zoom); } ax.range = axRange.map(doZoom); } if(editX) { // if we're only zooming this axis because of constraints, // zoom it about the center if(!ew) xfrac = 0.5; for(i = 0; i < xaxes.length; i++) { zoomWheelOneAxis(xaxes[i], xfrac, zoom); } updateMatchedAxRange('x'); scrollViewBox[2] *= zoom; scrollViewBox[0] += scrollViewBox[2] * xfrac * (1 / zoom - 1); } if(editY) { if(!ns) yfrac = 0.5; for(i = 0; i < yaxes.length; i++) { zoomWheelOneAxis(yaxes[i], yfrac, zoom); } updateMatchedAxRange('y'); scrollViewBox[3] *= zoom; scrollViewBox[1] += scrollViewBox[3] * (1 - yfrac) * (1 / zoom - 1); } // viewbox redraw at first updateSubplots(scrollViewBox); ticksAndAnnotations(); gd.emit('plotly_relayouting', updates); // then replot after a delay to make sure // no more scrolling is coming redrawTimer = setTimeout(function() { if(!gd._fullLayout) return; scrollViewBox = [0, 0, pw, ph]; dragTail(); }, REDRAWDELAY); e.preventDefault(); return; } // everything but the corners gets wheel zoom if(ns.length * ew.length !== 1) { attachWheelEventHandler(dragger, zoomWheel); } // plotDrag: move the plot in response to a drag function plotDrag(dx, dy) { dx = dx * scaleX; dy = dy * scaleY; // If a transition is in progress, then disable any behavior: if(gd._transitioningWithDuration) { return; } // prevent axis drawing from monkeying with margins until we're done gd._fullLayout._replotting = true; if(xActive === 'ew' || yActive === 'ns') { var spDx = xActive ? -dx : 0; var spDy = yActive ? -dy : 0; if(matches.isSubplotConstrained) { if(xActive && yActive) { var frac = (dx / pw - dy / ph) / 2; dx = frac * pw; dy = -frac * ph; spDx = -dx; spDy = -dy; } if(yActive) { spDx = -spDy * pw / ph; } else { spDy = -spDx * ph / pw; } } if(xActive) { dragAxList(xaxes, dx); updateMatchedAxRange('x'); } if(yActive) { dragAxList(yaxes, dy); updateMatchedAxRange('y'); } updateSubplots([spDx, spDy, pw, ph]); ticksAndAnnotations(); gd.emit('plotly_relayouting', updates); return; } // dz: set a new value for one end (0 or 1) of an axis array axArray, // and return a pixel shift for that end for the viewbox // based on pixel drag distance d // TODO: this makes (generally non-fatal) errors when you get // near floating point limits function dz(axArray, end, d) { var otherEnd = 1 - end; var movedAx; var newLinearizedEnd; for(var i = 0; i < axArray.length; i++) { var axi = axArray[i]; if(axi.fixedrange) continue; movedAx = axi; newLinearizedEnd = axi._rl[otherEnd] + (axi._rl[end] - axi._rl[otherEnd]) / dZoom(d / axi._length); var newEnd = axi.l2r(newLinearizedEnd); // if l2r comes back false or undefined, it means we've dragged off // the end of valid ranges - so stop. if(newEnd !== false && newEnd !== undefined) axi.range[end] = newEnd; } return movedAx._length * (movedAx._rl[end] - newLinearizedEnd) / (movedAx._rl[end] - movedAx._rl[otherEnd]); } var dxySign = ((xActive === 'w') === (yActive === 'n')) ? 1 : -1; if(xActive && yActive && (links.isSubplotConstrained || matches.isSubplotConstrained)) { // dragging a corner of a constrained subplot: // respect the fixed corner, but harmonize dx and dy var dxyFraction = (dx / pw + dxySign * dy / ph) / 2; dx = dxyFraction * pw; dy = dxySign * dxyFraction * ph; } var xStart, yStart; if(xActive === 'w') dx = dz(xaxes, 0, dx); else if(xActive === 'e') dx = dz(xaxes, 1, -dx); else if(!xActive) dx = 0; if(yActive === 'n') dy = dz(yaxes, 1, dy); else if(yActive === 's') dy = dz(yaxes, 0, -dy); else if(!yActive) dy = 0; xStart = (xActive === 'w') ? dx : 0; yStart = (yActive === 'n') ? dy : 0; if( (links.isSubplotConstrained && !matches.isSubplotConstrained) || // NW or SE on matching axes - create a symmetric zoom (matches.isSubplotConstrained && xActive && yActive && dxySign > 0) ) { var i; if(matches.isSubplotConstrained || (!xActive && yActive.length === 1)) { // dragging one end of the y axis of a constrained subplot // scale the other axis the same about its middle for(i = 0; i < xaxes.length; i++) { xaxes[i].range = xaxes[i]._r.slice(); scaleZoom(xaxes[i], 1 - dy / ph); } dx = dy * pw / ph; xStart = dx / 2; } if(matches.isSubplotConstrained || (!yActive && xActive.length === 1)) { for(i = 0; i < yaxes.length; i++) { yaxes[i].range = yaxes[i]._r.slice(); scaleZoom(yaxes[i], 1 - dx / pw); } dy = dx * ph / pw; yStart = dy / 2; } } if(!matches.isSubplotConstrained || !yActive) { updateMatchedAxRange('x'); } if(!matches.isSubplotConstrained || !xActive) { updateMatchedAxRange('y'); } var xSize = pw - dx; var ySize = ph - dy; if(matches.isSubplotConstrained && !(xActive && yActive)) { if(xActive) { yStart = xStart ? 0 : (dx * ph / pw); ySize = xSize * ph / pw; } else { xStart = yStart ? 0 : (dy * pw / ph); xSize = ySize * pw / ph; } } updateSubplots([xStart, yStart, xSize, ySize]); ticksAndAnnotations(); gd.emit('plotly_relayouting', updates); } function updateMatchedAxRange(axLetter, out) { var matchedAxes = matches.isSubplotConstrained ? {x: yaxes, y: xaxes}[axLetter] : matches[axLetter + 'axes']; var constrainedAxes = matches.isSubplotConstrained ? {x: xaxes, y: yaxes}[axLetter] : []; for(var i = 0; i < matchedAxes.length; i++) { var ax = matchedAxes[i]; var axId = ax._id; var axId2 = matches.xLinks[axId] || matches.yLinks[axId]; var ax2 = constrainedAxes[0] || xaHash[axId2] || yaHash[axId2]; if(ax2) { if(out) { // zoombox case - don't mutate 'range', just add keys in 'updates' out[ax._name + '.range[0]'] = out[ax2._name + '.range[0]']; out[ax._name + '.range[1]'] = out[ax2._name + '.range[1]']; } else { ax.range = ax2.range.slice(); } } } } // Draw ticks and annotations (and other components) when ranges change. // Also records the ranges that have changed for use by update at the end. function ticksAndAnnotations() { var activeAxIds = []; var i; function pushActiveAxIds(axList) { for(i = 0; i < axList.length; i++) { if(!axList[i].fixedrange) activeAxIds.push(axList[i]._id); } } if(editX) { pushActiveAxIds(xaxes); pushActiveAxIds(links.xaxes); pushActiveAxIds(matches.xaxes); } if(editY) { pushActiveAxIds(yaxes); pushActiveAxIds(links.yaxes); pushActiveAxIds(matches.yaxes); } updates = {}; for(i = 0; i < activeAxIds.length; i++) { var axId = activeAxIds[i]; var ax = getFromId(gd, axId); Axes.drawOne(gd, ax, {skipTitle: true}); updates[ax._name + '.range[0]'] = ax.range[0]; updates[ax._name + '.range[1]'] = ax.range[1]; } Axes.redrawComponents(gd, activeAxIds); } function doubleClick() { if(gd._transitioningWithDuration) return; var doubleClickConfig = gd._context.doubleClick; var axList = []; if(xActive) axList = axList.concat(xaxes); if(yActive) axList = axList.concat(yaxes); if(matches.xaxes) axList = axList.concat(matches.xaxes); if(matches.yaxes) axList = axList.concat(matches.yaxes); var attrs = {}; var ax, i, rangeInitial; // For reset+autosize mode: // If *any* of the main axes is not at its initial range // (or autoranged, if we have no initial range, to match the logic in // doubleClickConfig === 'reset' below), we reset. // If they are *all* at their initial ranges, then we autosize. if(doubleClickConfig === 'reset+autosize') { doubleClickConfig = 'autosize'; for(i = 0; i < axList.length; i++) { ax = axList[i]; if((ax._rangeInitial && ( ax.range[0] !== ax._rangeInitial[0] || ax.range[1] !== ax._rangeInitial[1] )) || (!ax._rangeInitial && !ax.autorange) ) { doubleClickConfig = 'reset'; break; } } } if(doubleClickConfig === 'autosize') { // don't set the linked axes here, so relayout marks them as shrinkable // and we autosize just to the requested axis/axes for(i = 0; i < axList.length; i++) { ax = axList[i]; if(!ax.fixedrange) attrs[ax._name + '.autorange'] = true; } } else if(doubleClickConfig === 'reset') { // when we're resetting, reset all linked axes too, so we get back // to the fully-auto-with-constraints situation if(xActive || links.isSubplotConstrained) axList = axList.concat(links.xaxes); if(yActive && !links.isSubplotConstrained) axList = axList.concat(links.yaxes); if(links.isSubplotConstrained) { if(!xActive) axList = axList.concat(xaxes); else if(!yActive) axList = axList.concat(yaxes); } for(i = 0; i < axList.length; i++) { ax = axList[i]; if(!ax.fixedrange) { if(!ax._rangeInitial) { attrs[ax._name + '.autorange'] = true; } else { rangeInitial = ax._rangeInitial; attrs[ax._name + '.range[0]'] = rangeInitial[0]; attrs[ax._name + '.range[1]'] = rangeInitial[1]; } } } } gd.emit('plotly_doubleclick', null); Registry.call('_guiRelayout', gd, attrs); } // dragTail - finish a drag event with a redraw function dragTail() { // put the subplot viewboxes back to default (Because we're going to) // be repositioning the data in the relayout. But DON'T call // ticksAndAnnotations again - it's unnecessary and would overwrite `updates` updateSubplots([0, 0, pw, ph]); // since we may have been redrawing some things during the drag, we may have // accumulated MathJax promises - wait for them before we relayout. Lib.syncOrAsync([ Plots.previousPromises, function() { gd._fullLayout._replotting = false; Registry.call('_guiRelayout', gd, updates); } ], gd); } // updateSubplots - find all plot viewboxes that should be // affected by this drag, and update them. look for all plots // sharing an affected axis (including the one being dragged), // includes also scattergl and splom logic. function updateSubplots(viewBox) { var fullLayout = gd._fullLayout; var plotinfos = fullLayout._plots; var subplots = fullLayout._subplots.cartesian; var i, sp, xa, ya; if(hasSplom) { Registry.subplotsRegistry.splom.drag(gd); } if(hasScatterGl) { for(i = 0; i < subplots.length; i++) { sp = plotinfos[subplots[i]]; xa = sp.xaxis; ya = sp.yaxis; if(sp._scene) { var xrng = Lib.simpleMap(xa.range, xa.r2l); var yrng = Lib.simpleMap(ya.range, ya.r2l); sp._scene.update({range: [xrng[0], yrng[0], xrng[1], yrng[1]]}); } } } if(hasSplom || hasScatterGl) { clearGlCanvases(gd); redrawReglTraces(gd); } if(hasSVG) { var xScaleFactor = viewBox[2] / xa0._length; var yScaleFactor = viewBox[3] / ya0._length; for(i = 0; i < subplots.length; i++) { sp = plotinfos[subplots[i]]; xa = sp.xaxis; ya = sp.yaxis; var editX2 = (editX || matches.isSubplotConstrained) && !xa.fixedrange && xaHash[xa._id]; var editY2 = (editY || matches.isSubplotConstrained) && !ya.fixedrange && yaHash[ya._id]; var xScaleFactor2, yScaleFactor2; var clipDx, clipDy; if(editX2) { xScaleFactor2 = xScaleFactor; clipDx = ew || matches.isSubplotConstrained ? viewBox[0] : getShift(xa, xScaleFactor2); } else if(matches.xaHash[xa._id]) { xScaleFactor2 = xScaleFactor; clipDx = viewBox[0] * xa._length / xa0._length; } else if(matches.yaHash[xa._id]) { xScaleFactor2 = yScaleFactor; clipDx = yActive === 'ns' ? -viewBox[1] * xa._length / ya0._length : getShift(xa, xScaleFactor2, {n: 'top', s: 'bottom'}[yActive]); } else { xScaleFactor2 = getLinkedScaleFactor(xa, xScaleFactor, yScaleFactor); clipDx = scaleAndGetShift(xa, xScaleFactor2); } if(editY2) { yScaleFactor2 = yScaleFactor; clipDy = ns || matches.isSubplotConstrained ? viewBox[1] : getShift(ya, yScaleFactor2); } else if(matches.yaHash[ya._id]) { yScaleFactor2 = yScaleFactor; clipDy = viewBox[1] * ya._length / ya0._length; } else if(matches.xaHash[ya._id]) { yScaleFactor2 = xScaleFactor; clipDy = xActive === 'ew' ? -viewBox[0] * ya._length / xa0._length : getShift(ya, yScaleFactor2, {e: 'right', w: 'left'}[xActive]); } else { yScaleFactor2 = getLinkedScaleFactor(ya, xScaleFactor, yScaleFactor); clipDy = scaleAndGetShift(ya, yScaleFactor2); } // don't scale at all if neither axis is scalable here if(!xScaleFactor2 && !yScaleFactor2) { continue; } // but if only one is, reset the other axis scaling if(!xScaleFactor2) xScaleFactor2 = 1; if(!yScaleFactor2) yScaleFactor2 = 1; var plotDx = xa._offset - clipDx / xScaleFactor2; var plotDy = ya._offset - clipDy / yScaleFactor2; // TODO could be more efficient here: // setTranslate and setScale do a lot of extra work // when working independently, should perhaps combine // them into a single routine. sp.clipRect .call(Drawing.setTranslate, clipDx, clipDy) .call(Drawing.setScale, xScaleFactor2, yScaleFactor2); sp.plot .call(Drawing.setTranslate, plotDx, plotDy) .call(Drawing.setScale, 1 / xScaleFactor2, 1 / yScaleFactor2); // apply an inverse scale to individual points to counteract // the scale of the trace group. // apply only when scale changes, as adjusting the scale of // all the points can be expansive. if(xScaleFactor2 !== sp.xScaleFactor || yScaleFactor2 !== sp.yScaleFactor) { Drawing.setPointGroupScale(sp.zoomScalePts, xScaleFactor2, yScaleFactor2); Drawing.setTextPointsScale(sp.zoomScaleTxt, xScaleFactor2, yScaleFactor2); } Drawing.hideOutsideRangePoints(sp.clipOnAxisFalseTraces, sp); // update x/y scaleFactor stash sp.xScaleFactor = xScaleFactor2; sp.yScaleFactor = yScaleFactor2; } } } // Find the appropriate scaling for this axis, if it's linked to the // dragged axes by constraints. 0 is special, it means this axis shouldn't // ever be scaled (will be converted to 1 if the other axis is scaled) function getLinkedScaleFactor(ax, xScaleFactor, yScaleFactor) { if(ax.fixedrange) return 0; if(editX && links.xaHash[ax._id]) { return xScaleFactor; } if(editY && (links.isSubplotConstrained ? links.xaHash : links.yaHash)[ax._id]) { return yScaleFactor; } return 0; } function scaleAndGetShift(ax, scaleFactor) { if(scaleFactor) { ax.range = ax._r.slice(); scaleZoom(ax, scaleFactor); return getShift(ax, scaleFactor); } return 0; } function getShift(ax, scaleFactor, from) { return ax._length * (1 - scaleFactor) * FROM_TL[from || ax.constraintoward || 'middle']; } return dragger; } function makeDragger(plotinfo, nodeName, dragClass, cursor) { var dragger3 = Lib.ensureSingle(plotinfo.draglayer, nodeName, dragClass, function(s) { s.classed('drag', true) .style({fill: 'transparent', 'stroke-width': 0}) .attr('data-subplot', plotinfo.id); }); dragger3.call(setCursor, cursor); return dragger3.node(); } function makeRectDragger(plotinfo, dragClass, cursor, x, y, w, h) { var dragger = makeDragger(plotinfo, 'rect', dragClass, cursor); d3.select(dragger).call(Drawing.setRect, x, y, w, h); return dragger; } function isDirectionActive(axList, activeVal) { for(var i = 0; i < axList.length; i++) { if(!axList[i].fixedrange) return activeVal; } return ''; } function getEndText(ax, end) { var initialVal = ax.range[end]; var diff = Math.abs(initialVal - ax.range[1 - end]); var dig; // TODO: this should basically be ax.r2d but we're doing extra // rounding here... can we clean up at all? if(ax.type === 'date') { return initialVal; } else if(ax.type === 'log') { dig = Math.ceil(Math.max(0, -Math.log(diff) / Math.LN10)) + 3; return numberFormat('.' + dig + 'g')(Math.pow(10, initialVal)); } else { // linear numeric (or category... but just show numbers here) dig = Math.floor(Math.log(Math.abs(initialVal)) / Math.LN10) - Math.floor(Math.log(diff) / Math.LN10) + 4; return numberFormat('.' + String(dig) + 'g')(initialVal); } } function zoomAxRanges(axList, r0Fraction, r1Fraction, updates, linkedAxes) { for(var i = 0; i < axList.length; i++) { var axi = axList[i]; if(axi.fixedrange) continue; if(axi.rangebreaks) { var isY = axi._id.charAt(0) === 'y'; var r0F = isY ? (1 - r0Fraction) : r0Fraction; var r1F = isY ? (1 - r1Fraction) : r1Fraction; updates[axi._name + '.range[0]'] = axi.l2r(axi.p2l(r0F * axi._length)); updates[axi._name + '.range[1]'] = axi.l2r(axi.p2l(r1F * axi._length)); } else { var axRangeLinear0 = axi._rl[0]; var axRangeLinearSpan = axi._rl[1] - axRangeLinear0; updates[axi._name + '.range[0]'] = axi.l2r(axRangeLinear0 + axRangeLinearSpan * r0Fraction); updates[axi._name + '.range[1]'] = axi.l2r(axRangeLinear0 + axRangeLinearSpan * r1Fraction); } } // zoom linked axes about their centers if(linkedAxes && linkedAxes.length) { var linkedR0Fraction = (r0Fraction + (1 - r1Fraction)) / 2; zoomAxRanges(linkedAxes, linkedR0Fraction, 1 - linkedR0Fraction, updates, []); } } function dragAxList(axList, pix) { for(var i = 0; i < axList.length; i++) { var axi = axList[i]; if(!axi.fixedrange) { if(axi.rangebreaks) { var p0 = 0; var p1 = axi._length; var d0 = axi.p2l(p0 + pix) - axi.p2l(p0); var d1 = axi.p2l(p1 + pix) - axi.p2l(p1); var delta = (d0 + d1) / 2; axi.range = [ axi.l2r(axi._rl[0] - delta), axi.l2r(axi._rl[1] - delta) ]; } else { axi.range = [ axi.l2r(axi._rl[0] - pix / axi._m), axi.l2r(axi._rl[1] - pix / axi._m) ]; } } } } // common transform for dragging one end of an axis // d>0 is compressing scale (cursor is over the plot, // the axis end should move with the cursor) // d<0 is expanding (cursor is off the plot, axis end moves // nonlinearly so you can expand far) function dZoom(d) { return 1 - ((d >= 0) ? Math.min(d, 0.9) : 1 / (1 / Math.max(d, -0.3) + 3.222)); } function getDragCursor(nsew, dragmode, isMainDrag) { if(!nsew) return 'pointer'; if(nsew === 'nsew') { // in this case here, clear cursor and // use the cursor style set on if(isMainDrag) return ''; if(dragmode === 'pan') return 'move'; return 'crosshair'; } return nsew.toLowerCase() + '-resize'; } function makeZoombox(zoomlayer, lum, xs, ys, path0) { return zoomlayer.append('path') .attr('class', 'zoombox') .style({ 'fill': lum > 0.2 ? 'rgba(0,0,0,0)' : 'rgba(255,255,255,0)', 'stroke-width': 0 }) .attr('transform', strTranslate(xs, ys)) .attr('d', path0 + 'Z'); } function makeCorners(zoomlayer, xs, ys) { return zoomlayer.append('path') .attr('class', 'zoombox-corners') .style({ fill: Color.background, stroke: Color.defaultLine, 'stroke-width': 1, opacity: 0 }) .attr('transform', strTranslate(xs, ys)) .attr('d', 'M0,0Z'); } function updateZoombox(zb, corners, box, path0, dimmed, lum) { zb.attr('d', path0 + 'M' + (box.l) + ',' + (box.t) + 'v' + (box.h) + 'h' + (box.w) + 'v-' + (box.h) + 'h-' + (box.w) + 'Z'); transitionZoombox(zb, corners, dimmed, lum); } function transitionZoombox(zb, corners, dimmed, lum) { if(!dimmed) { zb.transition() .style('fill', lum > 0.2 ? 'rgba(0,0,0,0.4)' : 'rgba(255,255,255,0.3)') .duration(200); corners.transition() .style('opacity', 1) .duration(200); } } function removeZoombox(gd) { d3.select(gd) .selectAll('.zoombox,.js-zoombox-backdrop,.js-zoombox-menu,.zoombox-corners') .remove(); } function showDoubleClickNotifier(gd) { if(SHOWZOOMOUTTIP && gd.data && gd._context.showTips) { Lib.notifier(Lib._(gd, 'Double-click to zoom back out'), 'long'); SHOWZOOMOUTTIP = false; } } function xCorners(box, y0) { return 'M' + (box.l - 0.5) + ',' + (y0 - MINZOOM - 0.5) + 'h-3v' + (2 * MINZOOM + 1) + 'h3ZM' + (box.r + 0.5) + ',' + (y0 - MINZOOM - 0.5) + 'h3v' + (2 * MINZOOM + 1) + 'h-3Z'; } function yCorners(box, x0) { return 'M' + (x0 - MINZOOM - 0.5) + ',' + (box.t - 0.5) + 'v-3h' + (2 * MINZOOM + 1) + 'v3ZM' + (x0 - MINZOOM - 0.5) + ',' + (box.b + 0.5) + 'v3h' + (2 * MINZOOM + 1) + 'v-3Z'; } function xyCorners(box) { var clen = Math.floor(Math.min(box.b - box.t, box.r - box.l, MINZOOM) / 2); return 'M' + (box.l - 3.5) + ',' + (box.t - 0.5 + clen) + 'h3v' + (-clen) + 'h' + clen + 'v-3h-' + (clen + 3) + 'ZM' + (box.r + 3.5) + ',' + (box.t - 0.5 + clen) + 'h-3v' + (-clen) + 'h' + (-clen) + 'v-3h' + (clen + 3) + 'ZM' + (box.r + 3.5) + ',' + (box.b + 0.5 - clen) + 'h-3v' + clen + 'h' + (-clen) + 'v3h' + (clen + 3) + 'ZM' + (box.l - 3.5) + ',' + (box.b + 0.5 - clen) + 'h3v' + clen + 'h' + clen + 'v3h-' + (clen + 3) + 'Z'; } function calcLinks(gd, groups, xaHash, yaHash, exclude) { var isSubplotConstrained = false; var xLinks = {}; var yLinks = {}; var xID, yID, xLinkID, yLinkID; var xExclude = (exclude || {}).xaHash; var yExclude = (exclude || {}).yaHash; for(var i = 0; i < groups.length; i++) { var group = groups[i]; // check if any of the x axes we're dragging is in this constraint group for(xID in xaHash) { if(group[xID]) { // put the rest of these axes into xLinks, if we're not already // dragging them, so we know to scale these axes automatically too // to match the changes in the dragged x axes for(xLinkID in group) { if( !(exclude && (xExclude[xLinkID] || yExclude[xLinkID])) && !(xLinkID.charAt(0) === 'x' ? xaHash : yaHash)[xLinkID] ) { xLinks[xLinkID] = xID; } } // check if the x and y axes of THIS drag are linked for(yID in yaHash) { if( !(exclude && (xExclude[yID] || yExclude[yID])) && group[yID] ) { isSubplotConstrained = true; } } } } // now check if any of the y axes we're dragging is in this constraint group // only look for outside links, as we've already checked for links within the dragger for(yID in yaHash) { if(group[yID]) { for(yLinkID in group) { if( !(exclude && (xExclude[yLinkID] || yExclude[yLinkID])) && !(yLinkID.charAt(0) === 'x' ? xaHash : yaHash)[yLinkID] ) { yLinks[yLinkID] = yID; } } } } } if(isSubplotConstrained) { // merge xLinks and yLinks if the subplot is constrained, // since we'll always apply both anyway and the two will contain // duplicates Lib.extendFlat(xLinks, yLinks); yLinks = {}; } var xaHashLinked = {}; var xaxesLinked = []; for(xLinkID in xLinks) { var xa = getFromId(gd, xLinkID); xaxesLinked.push(xa); xaHashLinked[xa._id] = xa; } var yaHashLinked = {}; var yaxesLinked = []; for(yLinkID in yLinks) { var ya = getFromId(gd, yLinkID); yaxesLinked.push(ya); yaHashLinked[ya._id] = ya; } return { xaHash: xaHashLinked, yaHash: yaHashLinked, xaxes: xaxesLinked, yaxes: yaxesLinked, xLinks: xLinks, yLinks: yLinks, isSubplotConstrained: isSubplotConstrained }; } // still seems to be some confusion about onwheel vs onmousewheel... function attachWheelEventHandler(element, handler) { if(!supportsPassive) { if(element.onwheel !== undefined) element.onwheel = handler; else if(element.onmousewheel !== undefined) element.onmousewheel = handler; else if(!element.isAddedWheelEvent) { element.isAddedWheelEvent = true; element.addEventListener('wheel', handler, {passive: false}); } } else { var wheelEventName = element.onwheel !== undefined ? 'wheel' : 'mousewheel'; if(element._onwheel) { element.removeEventListener(wheelEventName, element._onwheel); } element._onwheel = handler; element.addEventListener(wheelEventName, handler, {passive: false}); } } function hashValues(hash) { var out = []; for(var k in hash) out.push(hash[k]); return out; } module.exports = { makeDragBox: makeDragBox, makeDragger: makeDragger, makeRectDragger: makeRectDragger, makeZoombox: makeZoombox, makeCorners: makeCorners, updateZoombox: updateZoombox, xyCorners: xyCorners, transitionZoombox: transitionZoombox, removeZoombox: removeZoombox, showDoubleClickNotifier: showDoubleClickNotifier, attachWheelEventHandler: attachWheelEventHandler }; },{"../../components/color":157,"../../components/dragelement":176,"../../components/dragelement/helpers":175,"../../components/drawing":179,"../../components/fx":197,"../../constants/alignment":262,"../../lib":287,"../../lib/clear_gl_canvases":275,"../../lib/setcursor":307,"../../lib/svg_text_utils":310,"../../plot_api/subroutines":324,"../../registry":378,"../plots":371,"./axes":334,"./axis_ids":338,"./constants":341,"./scale_zoom":354,"./select":355,"@plotly/d3":20,"has-passive-events":65,"tinycolor2":121}],344:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Fx = _dereq_('../../components/fx'); var dragElement = _dereq_('../../components/dragelement'); var setCursor = _dereq_('../../lib/setcursor'); var makeDragBox = _dereq_('./dragbox').makeDragBox; var DRAGGERSIZE = _dereq_('./constants').DRAGGERSIZE; exports.initInteractions = function initInteractions(gd) { var fullLayout = gd._fullLayout; if(gd._context.staticPlot) { // this sweeps up more than just cartesian drag elements... d3.select(gd).selectAll('.drag').remove(); return; } if(!fullLayout._has('cartesian') && !fullLayout._has('splom')) return; var subplots = Object.keys(fullLayout._plots || {}).sort(function(a, b) { // sort overlays last, then by x axis number, then y axis number if((fullLayout._plots[a].mainplot && true) === (fullLayout._plots[b].mainplot && true)) { var aParts = a.split('y'); var bParts = b.split('y'); return (aParts[0] === bParts[0]) ? (Number(aParts[1] || 1) - Number(bParts[1] || 1)) : (Number(aParts[0] || 1) - Number(bParts[0] || 1)); } return fullLayout._plots[a].mainplot ? 1 : -1; }); subplots.forEach(function(subplot) { var plotinfo = fullLayout._plots[subplot]; var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; // main and corner draggers need not be repeated for // overlaid subplots - these draggers drag them all if(!plotinfo.mainplot) { // main dragger goes over the grids and data, so we use its // mousemove events for all data hover effects var maindrag = makeDragBox(gd, plotinfo, xa._offset, ya._offset, xa._length, ya._length, 'ns', 'ew'); maindrag.onmousemove = function(evt) { // This is on `gd._fullLayout`, *not* fullLayout because the reference // changes by the time this is called again. gd._fullLayout._rehover = function() { if((gd._fullLayout._hoversubplot === subplot) && gd._fullLayout._plots[subplot]) { Fx.hover(gd, evt, subplot); } }; Fx.hover(gd, evt, subplot); // Note that we have *not* used the cached fullLayout variable here // since that may be outdated when this is called as a callback later on gd._fullLayout._lasthover = maindrag; gd._fullLayout._hoversubplot = subplot; }; /* * IMPORTANT: * We must check for the presence of the drag cover here. * If we don't, a 'mouseout' event is triggered on the * maindrag before each 'click' event, which has the effect * of clearing the hoverdata; thus, cancelling the click event. */ maindrag.onmouseout = function(evt) { if(gd._dragging) return; // When the mouse leaves this maindrag, unset the hovered subplot. // This may cause problems if it leaves the subplot directly *onto* // another subplot, but that's a tiny corner case at the moment. gd._fullLayout._hoversubplot = null; dragElement.unhover(gd, evt); }; // corner draggers if(gd._context.showAxisDragHandles) { makeDragBox(gd, plotinfo, xa._offset - DRAGGERSIZE, ya._offset - DRAGGERSIZE, DRAGGERSIZE, DRAGGERSIZE, 'n', 'w'); makeDragBox(gd, plotinfo, xa._offset + xa._length, ya._offset - DRAGGERSIZE, DRAGGERSIZE, DRAGGERSIZE, 'n', 'e'); makeDragBox(gd, plotinfo, xa._offset - DRAGGERSIZE, ya._offset + ya._length, DRAGGERSIZE, DRAGGERSIZE, 's', 'w'); makeDragBox(gd, plotinfo, xa._offset + xa._length, ya._offset + ya._length, DRAGGERSIZE, DRAGGERSIZE, 's', 'e'); } } if(gd._context.showAxisDragHandles) { // x axis draggers - if you have overlaid plots, // these drag each axis separately if(subplot === xa._mainSubplot) { // the y position of the main x axis line var y0 = xa._mainLinePosition; if(xa.side === 'top') y0 -= DRAGGERSIZE; makeDragBox(gd, plotinfo, xa._offset + xa._length * 0.1, y0, xa._length * 0.8, DRAGGERSIZE, '', 'ew'); makeDragBox(gd, plotinfo, xa._offset, y0, xa._length * 0.1, DRAGGERSIZE, '', 'w'); makeDragBox(gd, plotinfo, xa._offset + xa._length * 0.9, y0, xa._length * 0.1, DRAGGERSIZE, '', 'e'); } // y axis draggers if(subplot === ya._mainSubplot) { // the x position of the main y axis line var x0 = ya._mainLinePosition; if(ya.side !== 'right') x0 -= DRAGGERSIZE; makeDragBox(gd, plotinfo, x0, ya._offset + ya._length * 0.1, DRAGGERSIZE, ya._length * 0.8, 'ns', ''); makeDragBox(gd, plotinfo, x0, ya._offset + ya._length * 0.9, DRAGGERSIZE, ya._length * 0.1, 's', ''); makeDragBox(gd, plotinfo, x0, ya._offset, DRAGGERSIZE, ya._length * 0.1, 'n', ''); } } }); // In case you mousemove over some hovertext, send it to Fx.hover too // we do this so that we can put the hover text in front of everything, // but still be able to interact with everything as if it isn't there var hoverLayer = fullLayout._hoverlayer.node(); hoverLayer.onmousemove = function(evt) { evt.target = gd._fullLayout._lasthover; Fx.hover(gd, evt, fullLayout._hoversubplot); }; hoverLayer.onclick = function(evt) { evt.target = gd._fullLayout._lasthover; Fx.click(gd, evt); }; // also delegate mousedowns... TODO: does this actually work? hoverLayer.onmousedown = function(evt) { gd._fullLayout._lasthover.onmousedown(evt); }; exports.updateFx(gd); }; // Minimal set of update needed on 'modebar' edits. // We only need to update the cursor style. // // Note that changing the axis configuration and/or the fixedrange attribute // should trigger a full initInteractions. exports.updateFx = function(gd) { var fullLayout = gd._fullLayout; var cursor = fullLayout.dragmode === 'pan' ? 'move' : 'crosshair'; setCursor(fullLayout._draggers, cursor); }; },{"../../components/dragelement":176,"../../components/fx":197,"../../lib/setcursor":307,"./constants":341,"./dragbox":343,"@plotly/d3":20}],345:[function(_dereq_,module,exports){ 'use strict'; function clearOutlineControllers(gd) { var zoomLayer = gd._fullLayout._zoomlayer; if(zoomLayer) { zoomLayer.selectAll('.outline-controllers').remove(); } } function clearSelect(gd) { var zoomLayer = gd._fullLayout._zoomlayer; if(zoomLayer) { // until we get around to persistent selections, remove the outline // here. The selection itself will be removed when the plot redraws // at the end. zoomLayer.selectAll('.select-outline').remove(); } gd._fullLayout._drawing = false; } module.exports = { clearOutlineControllers: clearOutlineControllers, clearSelect: clearSelect }; },{}],346:[function(_dereq_,module,exports){ 'use strict'; var strTranslate = _dereq_('../../lib').strTranslate; // in v3 (once log ranges are fixed), // we'll be able to p2r here for all axis types function p2r(ax, v) { switch(ax.type) { case 'log': return ax.p2d(v); case 'date': return ax.p2r(v, 0, ax.calendar); default: return ax.p2r(v); } } function r2p(ax, v) { switch(ax.type) { case 'log': return ax.d2p(v); case 'date': return ax.r2p(v, 0, ax.calendar); default: return ax.r2p(v); } } function axValue(ax) { var index = (ax._id.charAt(0) === 'y') ? 1 : 0; return function(v) { return p2r(ax, v[index]); }; } function getTransform(plotinfo) { return strTranslate( plotinfo.xaxis._offset, plotinfo.yaxis._offset ); } module.exports = { p2r: p2r, r2p: r2p, axValue: axValue, getTransform: getTransform }; },{"../../lib":287}],347:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var axisIds = _dereq_('./axis_ids'); /** * Factory function for checking component arrays for subplot references. * * @param {string} containerArrayName: the top-level array in gd.layout to check * If an item in this container is found that references a cartesian x and/or y axis, * ensure cartesian is marked as a base plot module and record the axes (and subplot * if both refs are axes) in gd._fullLayout * * @return {function}: with args layoutIn (gd.layout) and layoutOut (gd._fullLayout) * as expected of a component includeBasePlot method */ module.exports = function makeIncludeComponents(containerArrayName) { return function includeComponents(layoutIn, layoutOut) { var array = layoutIn[containerArrayName]; if(!Array.isArray(array)) return; var Cartesian = Registry.subplotsRegistry.cartesian; var idRegex = Cartesian.idRegex; var subplots = layoutOut._subplots; var xaList = subplots.xaxis; var yaList = subplots.yaxis; var cartesianList = subplots.cartesian; var hasCartesianOrGL2D = layoutOut._has('cartesian') || layoutOut._has('gl2d'); for(var i = 0; i < array.length; i++) { var itemi = array[i]; if(!Lib.isPlainObject(itemi)) continue; // call cleanId because if xref, or yref has something appended // (e.g., ' domain') this will get removed. var xref = axisIds.cleanId(itemi.xref, 'x', false); var yref = axisIds.cleanId(itemi.yref, 'y', false); var hasXref = idRegex.x.test(xref); var hasYref = idRegex.y.test(yref); if(hasXref || hasYref) { if(!hasCartesianOrGL2D) Lib.pushUnique(layoutOut._basePlotModules, Cartesian); var newAxis = false; if(hasXref && xaList.indexOf(xref) === -1) { xaList.push(xref); newAxis = true; } if(hasYref && yaList.indexOf(yref) === -1) { yaList.push(yref); newAxis = true; } /* * Notice the logic here: only add a subplot for a component if * it's referencing both x and y axes AND it's creating a new axis * so for example if your plot already has xy and x2y2, an annotation * on x2y or xy2 will not create a new subplot. */ if(newAxis && hasXref && hasYref) { cartesianList.push(xref + yref); } } } }; }; },{"../../lib":287,"../../registry":378,"./axis_ids":338}],348:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var Plots = _dereq_('../plots'); var Drawing = _dereq_('../../components/drawing'); var getModuleCalcData = _dereq_('../get_data').getModuleCalcData; var axisIds = _dereq_('./axis_ids'); var constants = _dereq_('./constants'); var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces'); var ensureSingle = Lib.ensureSingle; function ensureSingleAndAddDatum(parent, nodeType, className) { return Lib.ensureSingle(parent, nodeType, className, function(s) { s.datum(className); }); } exports.name = 'cartesian'; exports.attr = ['xaxis', 'yaxis']; exports.idRoot = ['x', 'y']; exports.idRegex = constants.idRegex; exports.attrRegex = constants.attrRegex; exports.attributes = _dereq_('./attributes'); exports.layoutAttributes = _dereq_('./layout_attributes'); exports.supplyLayoutDefaults = _dereq_('./layout_defaults'); exports.transitionAxes = _dereq_('./transition_axes'); exports.finalizeSubplots = function(layoutIn, layoutOut) { var subplots = layoutOut._subplots; var xList = subplots.xaxis; var yList = subplots.yaxis; var spSVG = subplots.cartesian; var spAll = spSVG.concat(subplots.gl2d || []); var allX = {}; var allY = {}; var i, xi, yi; for(i = 0; i < spAll.length; i++) { var parts = spAll[i].split('y'); allX[parts[0]] = 1; allY['y' + parts[1]] = 1; } // check for x axes with no subplot, and make one from the anchor of that x axis for(i = 0; i < xList.length; i++) { xi = xList[i]; if(!allX[xi]) { yi = (layoutIn[axisIds.id2name(xi)] || {}).anchor; if(!constants.idRegex.y.test(yi)) yi = 'y'; spSVG.push(xi + yi); spAll.push(xi + yi); if(!allY[yi]) { allY[yi] = 1; Lib.pushUnique(yList, yi); } } } // same for y axes with no subplot for(i = 0; i < yList.length; i++) { yi = yList[i]; if(!allY[yi]) { xi = (layoutIn[axisIds.id2name(yi)] || {}).anchor; if(!constants.idRegex.x.test(xi)) xi = 'x'; spSVG.push(xi + yi); spAll.push(xi + yi); if(!allX[xi]) { allX[xi] = 1; Lib.pushUnique(xList, xi); } } } // finally, if we've gotten here we're supposed to show cartesian... // so if there are NO subplots at all, make one from the first // x & y axes in the input layout if(!spAll.length) { xi = ''; yi = ''; for(var ki in layoutIn) { if(constants.attrRegex.test(ki)) { var axLetter = ki.charAt(0); if(axLetter === 'x') { if(!xi || (+ki.substr(5) < +xi.substr(5))) { xi = ki; } } else if(!yi || (+ki.substr(5) < +yi.substr(5))) { yi = ki; } } } xi = xi ? axisIds.name2id(xi) : 'x'; yi = yi ? axisIds.name2id(yi) : 'y'; xList.push(xi); yList.push(yi); spSVG.push(xi + yi); } }; /** * Cartesian.plot * * @param {DOM div | object} gd * @param {array (optional)} traces * array of traces indices to plot * if undefined, plots all cartesian traces, * @param {object} (optional) transitionOpts * transition option object * @param {function} (optional) makeOnCompleteCallback * transition make callback function from Plots.transition */ exports.plot = function(gd, traces, transitionOpts, makeOnCompleteCallback) { var fullLayout = gd._fullLayout; var subplots = fullLayout._subplots.cartesian; var calcdata = gd.calcdata; var i; if(!Array.isArray(traces)) { // If traces is not provided, then it's a complete replot and missing // traces are removed traces = []; for(i = 0; i < calcdata.length; i++) traces.push(i); } for(i = 0; i < subplots.length; i++) { var subplot = subplots[i]; var subplotInfo = fullLayout._plots[subplot]; // Get all calcdata for this subplot: var cdSubplot = []; var pcd; for(var j = 0; j < calcdata.length; j++) { var cd = calcdata[j]; var trace = cd[0].trace; // Skip trace if whitelist provided and it's not whitelisted: // if (Array.isArray(traces) && traces.indexOf(i) === -1) continue; if(trace.xaxis + trace.yaxis === subplot) { // XXX: Should trace carpet dependencies. Only replot all carpet plots if the carpet // axis has actually changed: // // If this trace is specifically requested, add it to the list: if(traces.indexOf(trace.index) !== -1 || trace.carpet) { // Okay, so example: traces 0, 1, and 2 have fill = tonext. You animate // traces 0 and 2. Trace 1 also needs to be updated, otherwise its fill // is outdated. So this retroactively adds the previous trace if the // traces are interdependent. if( pcd && pcd[0].trace.xaxis + pcd[0].trace.yaxis === subplot && ['tonextx', 'tonexty', 'tonext'].indexOf(trace.fill) !== -1 && cdSubplot.indexOf(pcd) === -1 ) { cdSubplot.push(pcd); } cdSubplot.push(cd); } // Track the previous trace on this subplot for the retroactive-add step // above: pcd = cd; } } plotOne(gd, subplotInfo, cdSubplot, transitionOpts, makeOnCompleteCallback); } }; function plotOne(gd, plotinfo, cdSubplot, transitionOpts, makeOnCompleteCallback) { var traceLayerClasses = constants.traceLayerClasses; var fullLayout = gd._fullLayout; var modules = fullLayout._modules; var _module, cdModuleAndOthers, cdModule; var layerData = []; var zoomScaleQueryParts = []; for(var i = 0; i < modules.length; i++) { _module = modules[i]; var name = _module.name; var categories = Registry.modules[name].categories; if(categories.svg) { var className = (_module.layerName || name + 'layer'); var plotMethod = _module.plot; // plot all visible traces of this type on this subplot at once cdModuleAndOthers = getModuleCalcData(cdSubplot, plotMethod); cdModule = cdModuleAndOthers[0]; // don't need to search the found traces again - in fact we need to NOT // so that if two modules share the same plotter we don't double-plot cdSubplot = cdModuleAndOthers[1]; if(cdModule.length) { layerData.push({ i: traceLayerClasses.indexOf(className), className: className, plotMethod: plotMethod, cdModule: cdModule }); } if(categories.zoomScale) { zoomScaleQueryParts.push('.' + className); } } } layerData.sort(function(a, b) { return a.i - b.i; }); var layers = plotinfo.plot.selectAll('g.mlayer') .data(layerData, function(d) { return d.className; }); layers.enter().append('g') .attr('class', function(d) { return d.className; }) .classed('mlayer', true) .classed('rangeplot', plotinfo.isRangePlot); layers.exit().remove(); layers.order(); layers.each(function(d) { var sel = d3.select(this); var className = d.className; d.plotMethod( gd, plotinfo, d.cdModule, sel, transitionOpts, makeOnCompleteCallback ); // layers that allow `cliponaxis: false` if(constants.clipOnAxisFalseQuery.indexOf('.' + className) === -1) { Drawing.setClipUrl(sel, plotinfo.layerClipId, gd); } }); // call Scattergl.plot separately if(fullLayout._has('scattergl')) { _module = Registry.getModule('scattergl'); cdModule = getModuleCalcData(cdSubplot, _module)[0]; _module.plot(gd, plotinfo, cdModule); } // stash "hot" selections for faster interaction on drag and scroll if(!gd._context.staticPlot) { if(plotinfo._hasClipOnAxisFalse) { plotinfo.clipOnAxisFalseTraces = plotinfo.plot .selectAll(constants.clipOnAxisFalseQuery.join(',')) .selectAll('.trace'); } if(zoomScaleQueryParts.length) { var traces = plotinfo.plot .selectAll(zoomScaleQueryParts.join(',')) .selectAll('.trace'); plotinfo.zoomScalePts = traces.selectAll('path.point'); plotinfo.zoomScaleTxt = traces.selectAll('.textpoint'); } } } exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) { var oldPlots = oldFullLayout._plots || {}; var newPlots = newFullLayout._plots || {}; var oldSubplotList = oldFullLayout._subplots || {}; var plotinfo; var i, k; // when going from a large splom graph to something else, // we need to clear so that the new cartesian subplot // can have the correct layer ordering if(oldFullLayout._hasOnlyLargeSploms && !newFullLayout._hasOnlyLargeSploms) { for(k in oldPlots) { plotinfo = oldPlots[k]; if(plotinfo.plotgroup) plotinfo.plotgroup.remove(); } } var hadGl = (oldFullLayout._has && oldFullLayout._has('gl')); var hasGl = (newFullLayout._has && newFullLayout._has('gl')); if(hadGl && !hasGl) { for(k in oldPlots) { plotinfo = oldPlots[k]; if(plotinfo._scene) plotinfo._scene.destroy(); } } // delete any titles we don't need anymore // check if axis list has changed, and if so clear old titles if(oldSubplotList.xaxis && oldSubplotList.yaxis) { var oldAxIDs = axisIds.listIds({_fullLayout: oldFullLayout}); for(i = 0; i < oldAxIDs.length; i++) { var oldAxId = oldAxIDs[i]; if(!newFullLayout[axisIds.id2name(oldAxId)]) { oldFullLayout._infolayer.selectAll('.g-' + oldAxId + 'title').remove(); } } } var hadCartesian = (oldFullLayout._has && oldFullLayout._has('cartesian')); var hasCartesian = (newFullLayout._has && newFullLayout._has('cartesian')); if(hadCartesian && !hasCartesian) { // if we've gotten rid of all cartesian traces, remove all the subplot svg items purgeSubplotLayers(oldFullLayout._cartesianlayer.selectAll('.subplot'), oldFullLayout); oldFullLayout._defs.selectAll('.axesclip').remove(); delete oldFullLayout._axisConstraintGroups; delete oldFullLayout._axisMatchGroups; } else if(oldSubplotList.cartesian) { // otherwise look for subplots we need to remove for(i = 0; i < oldSubplotList.cartesian.length; i++) { var oldSubplotId = oldSubplotList.cartesian[i]; if(!newPlots[oldSubplotId]) { var selector = '.' + oldSubplotId + ',.' + oldSubplotId + '-x,.' + oldSubplotId + '-y'; oldFullLayout._cartesianlayer.selectAll(selector).remove(); removeSubplotExtras(oldSubplotId, oldFullLayout); } } } }; exports.drawFramework = function(gd) { var fullLayout = gd._fullLayout; var subplotData = makeSubplotData(gd); var subplotLayers = fullLayout._cartesianlayer.selectAll('.subplot') .data(subplotData, String); subplotLayers.enter().append('g') .attr('class', function(d) { return 'subplot ' + d[0]; }); subplotLayers.order(); subplotLayers.exit() .call(purgeSubplotLayers, fullLayout); subplotLayers.each(function(d) { var id = d[0]; var plotinfo = fullLayout._plots[id]; plotinfo.plotgroup = d3.select(this); makeSubplotLayer(gd, plotinfo); // make separate drag layers for each subplot, // but append them to paper rather than the plot groups, // so they end up on top of the rest plotinfo.draglayer = ensureSingle(fullLayout._draggers, 'g', id); }); }; exports.rangePlot = function(gd, plotinfo, cdSubplot) { makeSubplotLayer(gd, plotinfo); plotOne(gd, plotinfo, cdSubplot); Plots.style(gd); }; function makeSubplotData(gd) { var fullLayout = gd._fullLayout; var ids = fullLayout._subplots.cartesian; var len = ids.length; var i, j, id, plotinfo, xa, ya; // split 'regular' and 'overlaying' subplots var regulars = []; var overlays = []; for(i = 0; i < len; i++) { id = ids[i]; plotinfo = fullLayout._plots[id]; xa = plotinfo.xaxis; ya = plotinfo.yaxis; var xa2 = xa._mainAxis; var ya2 = ya._mainAxis; var mainplot = xa2._id + ya2._id; var mainplotinfo = fullLayout._plots[mainplot]; plotinfo.overlays = []; if(mainplot !== id && mainplotinfo) { plotinfo.mainplot = mainplot; plotinfo.mainplotinfo = mainplotinfo; overlays.push(id); } else { plotinfo.mainplot = undefined; plotinfo.mainplotinfo = undefined; regulars.push(id); } } // fill in list of overlaying subplots in 'main plot' for(i = 0; i < overlays.length; i++) { id = overlays[i]; plotinfo = fullLayout._plots[id]; plotinfo.mainplotinfo.overlays.push(plotinfo); } // put 'regular' subplot data before 'overlaying' var subplotIds = regulars.concat(overlays); var subplotData = new Array(len); for(i = 0; i < len; i++) { id = subplotIds[i]; plotinfo = fullLayout._plots[id]; xa = plotinfo.xaxis; ya = plotinfo.yaxis; // use info about axis layer and overlaying pattern // to clean what need to be cleaned up in exit selection var d = [id, xa.layer, ya.layer, xa.overlaying || '', ya.overlaying || '']; for(j = 0; j < plotinfo.overlays.length; j++) { d.push(plotinfo.overlays[j].id); } subplotData[i] = d; } return subplotData; } function makeSubplotLayer(gd, plotinfo) { var plotgroup = plotinfo.plotgroup; var id = plotinfo.id; var xLayer = constants.layerValue2layerClass[plotinfo.xaxis.layer]; var yLayer = constants.layerValue2layerClass[plotinfo.yaxis.layer]; var hasOnlyLargeSploms = gd._fullLayout._hasOnlyLargeSploms; if(!plotinfo.mainplot) { if(hasOnlyLargeSploms) { // TODO could do even better // - we don't need plot (but we would have to mock it in lsInner // and other places // - we don't (x|y)lines and (x|y)axislayer for most subplots // usually just the bottom x and left y axes. plotinfo.xlines = ensureSingle(plotgroup, 'path', 'xlines-above'); plotinfo.ylines = ensureSingle(plotgroup, 'path', 'ylines-above'); plotinfo.xaxislayer = ensureSingle(plotgroup, 'g', 'xaxislayer-above'); plotinfo.yaxislayer = ensureSingle(plotgroup, 'g', 'yaxislayer-above'); } else { var backLayer = ensureSingle(plotgroup, 'g', 'layer-subplot'); plotinfo.shapelayer = ensureSingle(backLayer, 'g', 'shapelayer'); plotinfo.imagelayer = ensureSingle(backLayer, 'g', 'imagelayer'); plotinfo.minorGridlayer = ensureSingle(plotgroup, 'g', 'minor-gridlayer'); plotinfo.gridlayer = ensureSingle(plotgroup, 'g', 'gridlayer'); plotinfo.zerolinelayer = ensureSingle(plotgroup, 'g', 'zerolinelayer'); ensureSingle(plotgroup, 'path', 'xlines-below'); ensureSingle(plotgroup, 'path', 'ylines-below'); plotinfo.overlinesBelow = ensureSingle(plotgroup, 'g', 'overlines-below'); ensureSingle(plotgroup, 'g', 'xaxislayer-below'); ensureSingle(plotgroup, 'g', 'yaxislayer-below'); plotinfo.overaxesBelow = ensureSingle(plotgroup, 'g', 'overaxes-below'); plotinfo.plot = ensureSingle(plotgroup, 'g', 'plot'); plotinfo.overplot = ensureSingle(plotgroup, 'g', 'overplot'); plotinfo.xlines = ensureSingle(plotgroup, 'path', 'xlines-above'); plotinfo.ylines = ensureSingle(plotgroup, 'path', 'ylines-above'); plotinfo.overlinesAbove = ensureSingle(plotgroup, 'g', 'overlines-above'); ensureSingle(plotgroup, 'g', 'xaxislayer-above'); ensureSingle(plotgroup, 'g', 'yaxislayer-above'); plotinfo.overaxesAbove = ensureSingle(plotgroup, 'g', 'overaxes-above'); // set refs to correct layers as determined by 'axis.layer' plotinfo.xlines = plotgroup.select('.xlines-' + xLayer); plotinfo.ylines = plotgroup.select('.ylines-' + yLayer); plotinfo.xaxislayer = plotgroup.select('.xaxislayer-' + xLayer); plotinfo.yaxislayer = plotgroup.select('.yaxislayer-' + yLayer); } } else { var mainplotinfo = plotinfo.mainplotinfo; var mainplotgroup = mainplotinfo.plotgroup; var xId = id + '-x'; var yId = id + '-y'; // now make the components of overlaid subplots // overlays don't have backgrounds, and append all // their other components to the corresponding // extra groups of their main plots. plotinfo.minorGridlayer = mainplotinfo.minorGridlayer; plotinfo.gridlayer = mainplotinfo.gridlayer; plotinfo.zerolinelayer = mainplotinfo.zerolinelayer; ensureSingle(mainplotinfo.overlinesBelow, 'path', xId); ensureSingle(mainplotinfo.overlinesBelow, 'path', yId); ensureSingle(mainplotinfo.overaxesBelow, 'g', xId); ensureSingle(mainplotinfo.overaxesBelow, 'g', yId); plotinfo.plot = ensureSingle(mainplotinfo.overplot, 'g', id); ensureSingle(mainplotinfo.overlinesAbove, 'path', xId); ensureSingle(mainplotinfo.overlinesAbove, 'path', yId); ensureSingle(mainplotinfo.overaxesAbove, 'g', xId); ensureSingle(mainplotinfo.overaxesAbove, 'g', yId); // set refs to correct layers as determined by 'abovetraces' plotinfo.xlines = mainplotgroup.select('.overlines-' + xLayer).select('.' + xId); plotinfo.ylines = mainplotgroup.select('.overlines-' + yLayer).select('.' + yId); plotinfo.xaxislayer = mainplotgroup.select('.overaxes-' + xLayer).select('.' + xId); plotinfo.yaxislayer = mainplotgroup.select('.overaxes-' + yLayer).select('.' + yId); } // common attributes for all subplots, overlays or not if(!hasOnlyLargeSploms) { ensureSingleAndAddDatum(plotinfo.minorGridlayer, 'g', plotinfo.xaxis._id); ensureSingleAndAddDatum(plotinfo.minorGridlayer, 'g', plotinfo.yaxis._id); plotinfo.minorGridlayer.selectAll('g') .map(function(d) { return d[0]; }) .sort(axisIds.idSort); ensureSingleAndAddDatum(plotinfo.gridlayer, 'g', plotinfo.xaxis._id); ensureSingleAndAddDatum(plotinfo.gridlayer, 'g', plotinfo.yaxis._id); plotinfo.gridlayer.selectAll('g') .map(function(d) { return d[0]; }) .sort(axisIds.idSort); } plotinfo.xlines .style('fill', 'none') .classed('crisp', true); plotinfo.ylines .style('fill', 'none') .classed('crisp', true); } function purgeSubplotLayers(layers, fullLayout) { if(!layers) return; var overlayIdsToRemove = {}; layers.each(function(d) { var id = d[0]; var plotgroup = d3.select(this); plotgroup.remove(); removeSubplotExtras(id, fullLayout); overlayIdsToRemove[id] = true; // do not remove individual axis s here // as other subplots may need them }); // must remove overlaid subplot trace layers 'manually' for(var k in fullLayout._plots) { var subplotInfo = fullLayout._plots[k]; var overlays = subplotInfo.overlays || []; for(var j = 0; j < overlays.length; j++) { var overlayInfo = overlays[j]; if(overlayIdsToRemove[overlayInfo.id]) { overlayInfo.plot.selectAll('.trace').remove(); } } } } function removeSubplotExtras(subplotId, fullLayout) { fullLayout._draggers.selectAll('g.' + subplotId).remove(); fullLayout._defs.select('#clip' + fullLayout._uid + subplotId + 'plot').remove(); } exports.toSVG = function(gd) { var imageRoot = gd._fullLayout._glimages; var root = d3.select(gd).selectAll('.svg-container'); var canvases = root.filter(function(d, i) {return i === root.size() - 1;}) .selectAll('.gl-canvas-context, .gl-canvas-focus'); function canvasToImage() { var canvas = this; var imageData = canvas.toDataURL('image/png'); var image = imageRoot.append('svg:image'); image.attr({ xmlns: xmlnsNamespaces.svg, 'xlink:href': imageData, preserveAspectRatio: 'none', x: 0, y: 0, width: canvas.style.width, height: canvas.style.height }); } canvases.each(canvasToImage); }; exports.updateFx = _dereq_('./graph_interact').updateFx; },{"../../components/drawing":179,"../../constants/xmlns_namespaces":268,"../../lib":287,"../../registry":378,"../get_data":367,"../plots":371,"./attributes":332,"./axis_ids":338,"./constants":341,"./graph_interact":344,"./layout_attributes":349,"./layout_defaults":350,"./transition_axes":361,"@plotly/d3":20}],349:[function(_dereq_,module,exports){ 'use strict'; var fontAttrs = _dereq_('../font_attributes'); var colorAttrs = _dereq_('../../components/color/attributes'); var dash = _dereq_('../../components/drawing/attributes').dash; var extendFlat = _dereq_('../../lib/extend').extendFlat; var templatedArray = _dereq_('../../plot_api/plot_template').templatedArray; var descriptionWithDates = _dereq_('../../plots/cartesian/axis_format_attributes').descriptionWithDates; var ONEDAY = _dereq_('../../constants/numerical').ONEDAY; var constants = _dereq_('./constants'); var HOUR = constants.HOUR_PATTERN; var DAY_OF_WEEK = constants.WEEKDAY_PATTERN; var tickmode = { valType: 'enumerated', values: ['auto', 'linear', 'array'], editType: 'ticks', impliedEdits: {tick0: undefined, dtick: undefined}, }; function makeNticks(minor) { return { valType: 'integer', min: 0, dflt: minor ? 5 : 0, editType: 'ticks', }; } var tick0 = { valType: 'any', editType: 'ticks', impliedEdits: {tickmode: 'linear'}, }; var dtick = { valType: 'any', editType: 'ticks', impliedEdits: {tickmode: 'linear'}, }; var tickvals = { valType: 'data_array', editType: 'ticks', }; var ticks = { valType: 'enumerated', values: ['outside', 'inside', ''], editType: 'ticks', }; function makeTicklen(minor) { var obj = { valType: 'number', min: 0, editType: 'ticks', }; if(!minor) obj.dflt = 5; return obj; } function makeTickwidth(minor) { var obj = { valType: 'number', min: 0, editType: 'ticks', }; if(!minor) obj.dflt = 1; return obj; } var tickcolor = { valType: 'color', dflt: colorAttrs.defaultLine, editType: 'ticks', }; var gridcolor = { valType: 'color', dflt: colorAttrs.lightLine, editType: 'ticks', }; function makeGridwidth(minor) { var obj = { valType: 'number', min: 0, editType: 'ticks', }; if(!minor) obj.dflt = 1; return obj; } var griddash = extendFlat({}, dash, {editType: 'ticks'}); var showgrid = { valType: 'boolean', editType: 'ticks', }; module.exports = { visible: { valType: 'boolean', editType: 'plot', }, color: { valType: 'color', dflt: colorAttrs.defaultLine, editType: 'ticks', }, title: { text: { valType: 'string', editType: 'ticks', }, font: fontAttrs({ editType: 'ticks', }), standoff: { valType: 'number', min: 0, editType: 'ticks', }, editType: 'ticks' }, type: { valType: 'enumerated', // '-' means we haven't yet run autotype or couldn't find any data // it gets turned into linear in gd._fullLayout but not copied back // to gd.data like the others are. values: ['-', 'linear', 'log', 'date', 'category', 'multicategory'], dflt: '-', editType: 'calc', // we forget when an axis has been autotyped, just writing the auto // value back to the input - so it doesn't make sense to template this. // Note: we do NOT prohibit this in `coerce`, so if someone enters a // type in the template explicitly it will be honored as the default. _noTemplating: true, }, autotypenumbers: { valType: 'enumerated', values: ['convert types', 'strict'], dflt: 'convert types', editType: 'calc', }, autorange: { valType: 'enumerated', values: [true, false, 'reversed'], dflt: true, editType: 'axrange', impliedEdits: {'range[0]': undefined, 'range[1]': undefined}, }, rangemode: { valType: 'enumerated', values: ['normal', 'tozero', 'nonnegative'], dflt: 'normal', editType: 'plot', }, range: { valType: 'info_array', items: [ {valType: 'any', editType: 'axrange', impliedEdits: {'^autorange': false}, anim: true}, {valType: 'any', editType: 'axrange', impliedEdits: {'^autorange': false}, anim: true} ], editType: 'axrange', impliedEdits: {'autorange': false}, anim: true, }, fixedrange: { valType: 'boolean', dflt: false, editType: 'calc', }, // scaleanchor: not used directly, just put here for reference // values are any opposite-letter axis id scaleanchor: { valType: 'enumerated', values: [ constants.idRegex.x.toString(), constants.idRegex.y.toString() ], editType: 'plot', }, scaleratio: { valType: 'number', min: 0, dflt: 1, editType: 'plot', }, constrain: { valType: 'enumerated', values: ['range', 'domain'], editType: 'plot', }, // constraintoward: not used directly, just put here for reference constraintoward: { valType: 'enumerated', values: ['left', 'center', 'right', 'top', 'middle', 'bottom'], editType: 'plot', }, matches: { valType: 'enumerated', values: [ constants.idRegex.x.toString(), constants.idRegex.y.toString() ], editType: 'calc', }, rangebreaks: templatedArray('rangebreak', { enabled: { valType: 'boolean', dflt: true, editType: 'calc', }, bounds: { valType: 'info_array', items: [ {valType: 'any', editType: 'calc'}, {valType: 'any', editType: 'calc'} ], editType: 'calc', }, pattern: { valType: 'enumerated', values: [DAY_OF_WEEK, HOUR, ''], editType: 'calc', }, values: { valType: 'info_array', freeLength: true, editType: 'calc', items: { valType: 'any', editType: 'calc' }, }, dvalue: { // TODO could become 'any' to add support for 'months', 'years' valType: 'number', editType: 'calc', min: 0, dflt: ONEDAY, }, /* gap: { valType: 'number', min: 0, dflt: 0, // for *date* axes, maybe something else for *linear* editType: 'calc', }, gapmode: { valType: 'enumerated', values: ['pixels', 'fraction'], dflt: 'pixels', editType: 'calc', }, */ // To complete https://github.com/plotly/plotly.js/issues/4210 // we additionally need `gap` and make this work on *linear*, and // possibly all other cartesian axis types. We possibly would also need // some style attributes controlling the zig-zag on the corresponding // axis. editType: 'calc' }), // ticks tickmode: tickmode, nticks: makeNticks(), tick0: tick0, dtick: dtick, ticklabelstep: { valType: 'integer', min: 1, dflt: 1, editType: 'ticks', }, tickvals: tickvals, ticktext: { valType: 'data_array', editType: 'ticks', }, ticks: ticks, tickson: { valType: 'enumerated', values: ['labels', 'boundaries'], dflt: 'labels', editType: 'ticks', }, ticklabelmode: { valType: 'enumerated', values: ['instant', 'period'], dflt: 'instant', editType: 'ticks', }, // ticklabelposition: not used directly, as values depend on direction (similar to side) // left/right options are for x axes, and top/bottom options are for y axes ticklabelposition: { valType: 'enumerated', values: [ 'outside', 'inside', 'outside top', 'inside top', 'outside left', 'inside left', 'outside right', 'inside right', 'outside bottom', 'inside bottom' ], dflt: 'outside', editType: 'calc', }, ticklabeloverflow: { valType: 'enumerated', values: [ 'allow', 'hide past div', 'hide past domain' ], editType: 'calc', }, mirror: { valType: 'enumerated', values: [true, 'ticks', false, 'all', 'allticks'], dflt: false, editType: 'ticks+layoutstyle', }, ticklen: makeTicklen(), tickwidth: makeTickwidth(), tickcolor: tickcolor, showticklabels: { valType: 'boolean', dflt: true, editType: 'ticks', }, automargin: { valType: 'boolean', dflt: false, editType: 'ticks', }, showspikes: { valType: 'boolean', dflt: false, editType: 'modebar', }, spikecolor: { valType: 'color', dflt: null, editType: 'none', }, spikethickness: { valType: 'number', dflt: 3, editType: 'none', }, spikedash: extendFlat({}, dash, {dflt: 'dash', editType: 'none'}), spikemode: { valType: 'flaglist', flags: ['toaxis', 'across', 'marker'], dflt: 'toaxis', editType: 'none', }, spikesnap: { valType: 'enumerated', values: ['data', 'cursor', 'hovered data'], dflt: 'hovered data', editType: 'none', }, tickfont: fontAttrs({ editType: 'ticks', }), tickangle: { valType: 'angle', dflt: 'auto', editType: 'ticks', }, tickprefix: { valType: 'string', dflt: '', editType: 'ticks', }, showtickprefix: { valType: 'enumerated', values: ['all', 'first', 'last', 'none'], dflt: 'all', editType: 'ticks', }, ticksuffix: { valType: 'string', dflt: '', editType: 'ticks', }, showticksuffix: { valType: 'enumerated', values: ['all', 'first', 'last', 'none'], dflt: 'all', editType: 'ticks', }, showexponent: { valType: 'enumerated', values: ['all', 'first', 'last', 'none'], dflt: 'all', editType: 'ticks', }, exponentformat: { valType: 'enumerated', values: ['none', 'e', 'E', 'power', 'SI', 'B'], dflt: 'B', editType: 'ticks', }, minexponent: { valType: 'number', dflt: 3, min: 0, editType: 'ticks', }, separatethousands: { valType: 'boolean', dflt: false, editType: 'ticks', }, tickformat: { valType: 'string', dflt: '', editType: 'ticks', description: descriptionWithDates('tick label') }, tickformatstops: templatedArray('tickformatstop', { enabled: { valType: 'boolean', dflt: true, editType: 'ticks', }, dtickrange: { valType: 'info_array', items: [ {valType: 'any', editType: 'ticks'}, {valType: 'any', editType: 'ticks'} ], editType: 'ticks', }, value: { valType: 'string', dflt: '', editType: 'ticks', }, editType: 'ticks' }), hoverformat: { valType: 'string', dflt: '', editType: 'none', description: descriptionWithDates('hover text') }, // lines and grids showline: { valType: 'boolean', dflt: false, editType: 'ticks+layoutstyle', }, linecolor: { valType: 'color', dflt: colorAttrs.defaultLine, editType: 'layoutstyle', }, linewidth: { valType: 'number', min: 0, dflt: 1, editType: 'ticks+layoutstyle', }, showgrid: showgrid, gridcolor: gridcolor, gridwidth: makeGridwidth(), griddash: griddash, zeroline: { valType: 'boolean', editType: 'ticks', }, zerolinecolor: { valType: 'color', dflt: colorAttrs.defaultLine, editType: 'ticks', }, zerolinewidth: { valType: 'number', dflt: 1, editType: 'ticks', }, showdividers: { valType: 'boolean', dflt: true, editType: 'ticks', }, dividercolor: { valType: 'color', dflt: colorAttrs.defaultLine, editType: 'ticks', }, dividerwidth: { valType: 'number', dflt: 1, editType: 'ticks', }, // TODO dividerlen: that would override "to label base" length? // positioning attributes // anchor: not used directly, just put here for reference // values are any opposite-letter axis id anchor: { valType: 'enumerated', values: [ 'free', constants.idRegex.x.toString(), constants.idRegex.y.toString() ], editType: 'plot', }, // side: not used directly, as values depend on direction // values are top, bottom for x axes, and left, right for y side: { valType: 'enumerated', values: ['top', 'bottom', 'left', 'right'], editType: 'plot', }, // overlaying: not used directly, just put here for reference // values are false and any other same-letter axis id that's not // itself overlaying anything overlaying: { valType: 'enumerated', values: [ 'free', constants.idRegex.x.toString(), constants.idRegex.y.toString() ], editType: 'plot', }, minor: { tickmode: tickmode, nticks: makeNticks('minor'), tick0: tick0, dtick: dtick, tickvals: tickvals, ticks: ticks, ticklen: makeTicklen('minor'), tickwidth: makeTickwidth('minor'), tickcolor: tickcolor, gridcolor: gridcolor, gridwidth: makeGridwidth('minor'), griddash: griddash, showgrid: showgrid, editType: 'ticks' }, layer: { valType: 'enumerated', values: ['above traces', 'below traces'], dflt: 'above traces', editType: 'plot', }, domain: { valType: 'info_array', items: [ {valType: 'number', min: 0, max: 1, editType: 'plot'}, {valType: 'number', min: 0, max: 1, editType: 'plot'} ], dflt: [0, 1], editType: 'plot', }, position: { valType: 'number', min: 0, max: 1, dflt: 0, editType: 'plot', }, categoryorder: { valType: 'enumerated', values: [ 'trace', 'category ascending', 'category descending', 'array', 'total ascending', 'total descending', 'min ascending', 'min descending', 'max ascending', 'max descending', 'sum ascending', 'sum descending', 'mean ascending', 'mean descending', 'median ascending', 'median descending' ], dflt: 'trace', editType: 'calc', }, categoryarray: { valType: 'data_array', editType: 'calc', }, uirevision: { valType: 'any', editType: 'none', }, editType: 'calc', _deprecated: { autotick: { valType: 'boolean', editType: 'ticks', }, title: { valType: 'string', editType: 'ticks', }, titlefont: fontAttrs({ editType: 'ticks', }) } }; },{"../../components/color/attributes":156,"../../components/drawing/attributes":178,"../../constants/numerical":267,"../../lib/extend":281,"../../plot_api/plot_template":323,"../../plots/cartesian/axis_format_attributes":337,"../font_attributes":365,"./constants":341}],350:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Color = _dereq_('../../components/color'); var isUnifiedHover = _dereq_('../../components/fx/helpers').isUnifiedHover; var handleHoverModeDefaults = _dereq_('../../components/fx/hovermode_defaults'); var Template = _dereq_('../../plot_api/plot_template'); var basePlotLayoutAttributes = _dereq_('../layout_attributes'); var layoutAttributes = _dereq_('./layout_attributes'); var handleTypeDefaults = _dereq_('./type_defaults'); var handleAxisDefaults = _dereq_('./axis_defaults'); var constraints = _dereq_('./constraints'); var handlePositionDefaults = _dereq_('./position_defaults'); var axisIds = _dereq_('./axis_ids'); var id2name = axisIds.id2name; var name2id = axisIds.name2id; var AX_ID_PATTERN = _dereq_('./constants').AX_ID_PATTERN; var Registry = _dereq_('../../registry'); var traceIs = Registry.traceIs; var getComponentMethod = Registry.getComponentMethod; function appendList(cont, k, item) { if(Array.isArray(cont[k])) cont[k].push(item); else cont[k] = [item]; } module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) { var autotypenumbersDflt = layoutOut.autotypenumbers; var ax2traces = {}; var xaMayHide = {}; var yaMayHide = {}; var xaMustDisplay = {}; var yaMustDisplay = {}; var yaMustNotReverse = {}; var yaMayReverse = {}; var axHasImage = {}; var outerTicks = {}; var noGrids = {}; var i, j; // look for axes in the data for(i = 0; i < fullData.length; i++) { var trace = fullData[i]; if(!traceIs(trace, 'cartesian') && !traceIs(trace, 'gl2d')) continue; var xaName; if(trace.xaxis) { xaName = id2name(trace.xaxis); appendList(ax2traces, xaName, trace); } else if(trace.xaxes) { for(j = 0; j < trace.xaxes.length; j++) { appendList(ax2traces, id2name(trace.xaxes[j]), trace); } } var yaName; if(trace.yaxis) { yaName = id2name(trace.yaxis); appendList(ax2traces, yaName, trace); } else if(trace.yaxes) { for(j = 0; j < trace.yaxes.length; j++) { appendList(ax2traces, id2name(trace.yaxes[j]), trace); } } // logic for funnels if(trace.type === 'funnel') { if(trace.orientation === 'h') { if(xaName) xaMayHide[xaName] = true; if(yaName) yaMayReverse[yaName] = true; } else { if(yaName) yaMayHide[yaName] = true; } } else if(trace.type === 'image') { if(yaName) axHasImage[yaName] = true; if(xaName) axHasImage[xaName] = true; } else { if(yaName) { yaMustDisplay[yaName] = true; yaMustNotReverse[yaName] = true; } if(!traceIs(trace, 'carpet') || (trace.type === 'carpet' && !trace._cheater)) { if(xaName) xaMustDisplay[xaName] = true; } } // Two things trigger axis visibility: // 1. is not carpet // 2. carpet that's not cheater // The above check for definitely-not-cheater is not adequate. This // second list tracks which axes *could* be a cheater so that the // full condition triggering hiding is: // *could* be a cheater and *is not definitely visible* if(trace.type === 'carpet' && trace._cheater) { if(xaName) xaMayHide[xaName] = true; } // check for default formatting tweaks if(traceIs(trace, '2dMap')) { outerTicks[xaName] = true; outerTicks[yaName] = true; } if(traceIs(trace, 'oriented')) { var positionAxis = trace.orientation === 'h' ? yaName : xaName; noGrids[positionAxis] = true; } } var subplots = layoutOut._subplots; var xIds = subplots.xaxis; var yIds = subplots.yaxis; var xNames = Lib.simpleMap(xIds, id2name); var yNames = Lib.simpleMap(yIds, id2name); var axNames = xNames.concat(yNames); // plot_bgcolor only makes sense if there's a (2D) plot! // TODO: bgcolor for each subplot, to inherit from the main one var plotBgColor = Color.background; if(xIds.length && yIds.length) { plotBgColor = Lib.coerce(layoutIn, layoutOut, basePlotLayoutAttributes, 'plot_bgcolor'); } var bgColor = Color.combine(plotBgColor, layoutOut.paper_bgcolor); // name of single axis (e.g. 'xaxis', 'yaxis2') var axName; // id of single axis (e.g. 'y', 'x5') var axId; // 'x' or 'y' var axLetter; // input layout axis container var axLayoutIn; // full layout axis container var axLayoutOut; function newAxLayoutOut() { var traces = ax2traces[axName] || []; axLayoutOut._traceIndices = traces.map(function(t) { return t._expandedIndex; }); axLayoutOut._annIndices = []; axLayoutOut._shapeIndices = []; axLayoutOut._imgIndices = []; axLayoutOut._subplotsWith = []; axLayoutOut._counterAxes = []; axLayoutOut._name = axLayoutOut._attr = axName; axLayoutOut._id = axId; } function coerce(attr, dflt) { return Lib.coerce(axLayoutIn, axLayoutOut, layoutAttributes, attr, dflt); } function coerce2(attr, dflt) { return Lib.coerce2(axLayoutIn, axLayoutOut, layoutAttributes, attr, dflt); } function getCounterAxes(axLetter) { return (axLetter === 'x') ? yIds : xIds; } function getOverlayableAxes(axLetter, axName) { var list = (axLetter === 'x') ? xNames : yNames; var out = []; for(var j = 0; j < list.length; j++) { var axName2 = list[j]; if(axName2 !== axName && !(layoutIn[axName2] || {}).overlaying) { out.push(name2id(axName2)); } } return out; } // list of available counter axis names var counterAxes = {x: getCounterAxes('x'), y: getCounterAxes('y')}; // list of all x AND y axis ids var allAxisIds = counterAxes.x.concat(counterAxes.y); // lookup and list of axis ids that axes in axNames have a reference to, // even though they are missing from allAxisIds var missingMatchedAxisIdsLookup = {}; var missingMatchedAxisIds = []; // fill in 'missing' axis lookup when an axis is set to match an axis // not part of the allAxisIds list, save axis type so that we can propagate // it to the missing axes function addMissingMatchedAxis() { var matchesIn = axLayoutIn.matches; if(AX_ID_PATTERN.test(matchesIn) && allAxisIds.indexOf(matchesIn) === -1) { missingMatchedAxisIdsLookup[matchesIn] = axLayoutIn.type; missingMatchedAxisIds = Object.keys(missingMatchedAxisIdsLookup); } } var hovermode = handleHoverModeDefaults(layoutIn, layoutOut); var unifiedHover = isUnifiedHover(hovermode); // first pass creates the containers, determines types, and handles most of the settings for(i = 0; i < axNames.length; i++) { axName = axNames[i]; axId = name2id(axName); axLetter = axName.charAt(0); if(!Lib.isPlainObject(layoutIn[axName])) { layoutIn[axName] = {}; } axLayoutIn = layoutIn[axName]; axLayoutOut = Template.newContainer(layoutOut, axName, axLetter + 'axis'); newAxLayoutOut(); var visibleDflt = (axLetter === 'x' && !xaMustDisplay[axName] && xaMayHide[axName]) || (axLetter === 'y' && !yaMustDisplay[axName] && yaMayHide[axName]); var reverseDflt = (axLetter === 'y' && ( (!yaMustNotReverse[axName] && yaMayReverse[axName]) || axHasImage[axName] )); var defaultOptions = { hasMinor: true, letter: axLetter, font: layoutOut.font, outerTicks: outerTicks[axName], showGrid: !noGrids[axName], data: ax2traces[axName] || [], bgColor: bgColor, calendar: layoutOut.calendar, automargin: true, visibleDflt: visibleDflt, reverseDflt: reverseDflt, autotypenumbersDflt: autotypenumbersDflt, splomStash: ((layoutOut._splomAxes || {})[axLetter] || {})[axId] }; coerce('uirevision', layoutOut.uirevision); handleTypeDefaults(axLayoutIn, axLayoutOut, coerce, defaultOptions); handleAxisDefaults(axLayoutIn, axLayoutOut, coerce, defaultOptions, layoutOut); var unifiedSpike = unifiedHover && axLetter === hovermode.charAt(0); var spikecolor = coerce2('spikecolor', unifiedHover ? axLayoutOut.color : undefined); var spikethickness = coerce2('spikethickness', unifiedHover ? 1.5 : undefined); var spikedash = coerce2('spikedash', unifiedHover ? 'dot' : undefined); var spikemode = coerce2('spikemode', unifiedHover ? 'across' : undefined); var spikesnap = coerce2('spikesnap'); var showSpikes = coerce('showspikes', !!unifiedSpike || !!spikecolor || !!spikethickness || !!spikedash || !!spikemode || !!spikesnap); if(!showSpikes) { delete axLayoutOut.spikecolor; delete axLayoutOut.spikethickness; delete axLayoutOut.spikedash; delete axLayoutOut.spikemode; delete axLayoutOut.spikesnap; } handlePositionDefaults(axLayoutIn, axLayoutOut, coerce, { letter: axLetter, counterAxes: counterAxes[axLetter], overlayableAxes: getOverlayableAxes(axLetter, axName), grid: layoutOut.grid }); coerce('title.standoff'); addMissingMatchedAxis(); axLayoutOut._input = axLayoutIn; } // coerce the 'missing' axes i = 0; while(i < missingMatchedAxisIds.length) { axId = missingMatchedAxisIds[i++]; axName = id2name(axId); axLetter = axName.charAt(0); if(!Lib.isPlainObject(layoutIn[axName])) { layoutIn[axName] = {}; } axLayoutIn = layoutIn[axName]; axLayoutOut = Template.newContainer(layoutOut, axName, axLetter + 'axis'); newAxLayoutOut(); var defaultOptions2 = { letter: axLetter, font: layoutOut.font, outerTicks: outerTicks[axName], showGrid: !noGrids[axName], data: [], bgColor: bgColor, calendar: layoutOut.calendar, automargin: true, visibleDflt: false, reverseDflt: false, autotypenumbersDflt: autotypenumbersDflt, splomStash: ((layoutOut._splomAxes || {})[axLetter] || {})[axId] }; coerce('uirevision', layoutOut.uirevision); axLayoutOut.type = missingMatchedAxisIdsLookup[axId] || 'linear'; handleAxisDefaults(axLayoutIn, axLayoutOut, coerce, defaultOptions2, layoutOut); handlePositionDefaults(axLayoutIn, axLayoutOut, coerce, { letter: axLetter, counterAxes: counterAxes[axLetter], overlayableAxes: getOverlayableAxes(axLetter, axName), grid: layoutOut.grid }); coerce('fixedrange'); addMissingMatchedAxis(); axLayoutOut._input = axLayoutIn; } // quick second pass for range slider and selector defaults var rangeSliderDefaults = getComponentMethod('rangeslider', 'handleDefaults'); var rangeSelectorDefaults = getComponentMethod('rangeselector', 'handleDefaults'); for(i = 0; i < xNames.length; i++) { axName = xNames[i]; axLayoutIn = layoutIn[axName]; axLayoutOut = layoutOut[axName]; rangeSliderDefaults(layoutIn, layoutOut, axName); if(axLayoutOut.type === 'date') { rangeSelectorDefaults( axLayoutIn, axLayoutOut, layoutOut, yNames, axLayoutOut.calendar ); } coerce('fixedrange'); } for(i = 0; i < yNames.length; i++) { axName = yNames[i]; axLayoutIn = layoutIn[axName]; axLayoutOut = layoutOut[axName]; var anchoredAxis = layoutOut[id2name(axLayoutOut.anchor)]; var fixedRangeDflt = getComponentMethod('rangeslider', 'isVisible')(anchoredAxis); coerce('fixedrange', fixedRangeDflt); } // Finally, handle scale constraints and matching axes. // // We need to do this after all axes have coerced both `type` // (so we link only axes of the same type) and // `fixedrange` (so we can avoid linking from OR TO a fixed axis). constraints.handleDefaults(layoutIn, layoutOut, { axIds: allAxisIds.concat(missingMatchedAxisIds).sort(axisIds.idSort), axHasImage: axHasImage }); }; },{"../../components/color":157,"../../components/fx/helpers":193,"../../components/fx/hovermode_defaults":196,"../../lib":287,"../../plot_api/plot_template":323,"../../registry":378,"../layout_attributes":369,"./axis_defaults":336,"./axis_ids":338,"./constants":341,"./constraints":342,"./layout_attributes":349,"./position_defaults":352,"./type_defaults":362}],351:[function(_dereq_,module,exports){ 'use strict'; var colorMix = _dereq_('tinycolor2').mix; var colorAttrs = _dereq_('../../components/color/attributes'); var Lib = _dereq_('../../lib'); /** * @param {object} opts : * - dfltColor {string} : default axis color * - bgColor {string} : combined subplot bg color * - blend {number, optional} : blend percentage (to compute dflt grid color) * - showLine {boolean} : show line by default * - showGrid {boolean} : show grid by default * - noZeroLine {boolean} : don't coerce zeroline* attributes * - attributes {object} : attribute object associated with input containers */ module.exports = function handleLineGridDefaults(containerIn, containerOut, coerce, opts) { opts = opts || {}; var dfltColor = opts.dfltColor; function coerce2(attr, dflt) { return Lib.coerce2(containerIn, containerOut, opts.attributes, attr, dflt); } var lineColor = coerce2('linecolor', dfltColor); var lineWidth = coerce2('linewidth'); var showLine = coerce('showline', opts.showLine || !!lineColor || !!lineWidth); if(!showLine) { delete containerOut.linecolor; delete containerOut.linewidth; } var gridColorDflt = colorMix(dfltColor, opts.bgColor, opts.blend || colorAttrs.lightFraction).toRgbString(); var gridColor = coerce2('gridcolor', gridColorDflt); var gridWidth = coerce2('gridwidth'); var gridDash = coerce2('griddash'); var showGridLines = coerce('showgrid', opts.showGrid || !!gridColor || !!gridWidth || !!gridDash ); if(!showGridLines) { delete containerOut.gridcolor; delete containerOut.gridwidth; delete containerOut.griddash; } if(opts.hasMinor) { var minorGridColorDflt = colorMix(containerOut.gridcolor, opts.bgColor, 67).toRgbString(); var minorGridColor = coerce2('minor.gridcolor', minorGridColorDflt); var minorGridWidth = coerce2('minor.gridwidth', containerOut.gridwidth || 1); var minorGridDash = coerce2('minor.griddash', containerOut.griddash || 'solid'); var minorShowGridLines = coerce('minor.showgrid', !!minorGridColor || !!minorGridWidth || !!minorGridDash ); if(!minorShowGridLines) { delete containerOut.minor.gridcolor; delete containerOut.minor.gridwidth; delete containerOut.minor.griddash; } } if(!opts.noZeroLine) { var zeroLineColor = coerce2('zerolinecolor', dfltColor); var zeroLineWidth = coerce2('zerolinewidth'); var showZeroLine = coerce('zeroline', opts.showGrid || !!zeroLineColor || !!zeroLineWidth); if(!showZeroLine) { delete containerOut.zerolinecolor; delete containerOut.zerolinewidth; } } }; },{"../../components/color/attributes":156,"../../lib":287,"tinycolor2":121}],352:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); module.exports = function handlePositionDefaults(containerIn, containerOut, coerce, options) { var counterAxes = options.counterAxes || []; var overlayableAxes = options.overlayableAxes || []; var letter = options.letter; var grid = options.grid; var dfltAnchor, dfltDomain, dfltSide, dfltPosition; if(grid) { dfltDomain = grid._domains[letter][grid._axisMap[containerOut._id]]; dfltAnchor = grid._anchors[containerOut._id]; if(dfltDomain) { dfltSide = grid[letter + 'side'].split(' ')[0]; dfltPosition = grid.domain[letter][dfltSide === 'right' || dfltSide === 'top' ? 1 : 0]; } } // Even if there's a grid, this axis may not be in it - fall back on non-grid defaults dfltDomain = dfltDomain || [0, 1]; dfltAnchor = dfltAnchor || (isNumeric(containerIn.position) ? 'free' : (counterAxes[0] || 'free')); dfltSide = dfltSide || (letter === 'x' ? 'bottom' : 'left'); dfltPosition = dfltPosition || 0; var anchor = Lib.coerce(containerIn, containerOut, { anchor: { valType: 'enumerated', values: ['free'].concat(counterAxes), dflt: dfltAnchor } }, 'anchor'); if(anchor === 'free') coerce('position', dfltPosition); Lib.coerce(containerIn, containerOut, { side: { valType: 'enumerated', values: letter === 'x' ? ['bottom', 'top'] : ['left', 'right'], dflt: dfltSide } }, 'side'); var overlaying = false; if(overlayableAxes.length) { overlaying = Lib.coerce(containerIn, containerOut, { overlaying: { valType: 'enumerated', values: [false].concat(overlayableAxes), dflt: false } }, 'overlaying'); } if(!overlaying) { // TODO: right now I'm copying this domain over to overlaying axes // in ax.setscale()... but this means we still need (imperfect) logic // in the axes popover to hide domain for the overlaying axis. // perhaps I should make a private version _domain that all axes get??? var domain = coerce('domain', dfltDomain); // according to https://www.npmjs.com/package/canvas-size // the minimum value of max canvas width across browsers and devices is 4096 // which applied in the calculation below: if(domain[0] > domain[1] - 1 / 4096) containerOut.domain = dfltDomain; Lib.noneOrAll(containerIn.domain, containerOut.domain, dfltDomain); } coerce('layer'); return containerOut; }; },{"../../lib":287,"fast-isnumeric":33}],353:[function(_dereq_,module,exports){ 'use strict'; var getShowAttrDflt = _dereq_('./show_dflt'); module.exports = function handlePrefixSuffixDefaults(containerIn, containerOut, coerce, axType, options) { if(!options) options = {}; var tickSuffixDflt = options.tickSuffixDflt; var showAttrDflt = getShowAttrDflt(containerIn); var tickPrefix = coerce('tickprefix'); if(tickPrefix) coerce('showtickprefix', showAttrDflt); var tickSuffix = coerce('ticksuffix', tickSuffixDflt); if(tickSuffix) coerce('showticksuffix', showAttrDflt); }; },{"./show_dflt":357}],354:[function(_dereq_,module,exports){ 'use strict'; var FROM_BL = _dereq_('../../constants/alignment').FROM_BL; module.exports = function scaleZoom(ax, factor, centerFraction) { if(centerFraction === undefined) { centerFraction = FROM_BL[ax.constraintoward || 'center']; } var rangeLinear = [ax.r2l(ax.range[0]), ax.r2l(ax.range[1])]; var center = rangeLinear[0] + (rangeLinear[1] - rangeLinear[0]) * centerFraction; ax.range = ax._input.range = [ ax.l2r(center + (rangeLinear[0] - center) * factor), ax.l2r(center + (rangeLinear[1] - center) * factor) ]; ax.setScale(); }; },{"../../constants/alignment":262}],355:[function(_dereq_,module,exports){ 'use strict'; var polybool = _dereq_('polybooljs'); var Registry = _dereq_('../../registry'); var dashStyle = _dereq_('../../components/drawing').dashStyle; var Color = _dereq_('../../components/color'); var Fx = _dereq_('../../components/fx'); var makeEventData = _dereq_('../../components/fx/helpers').makeEventData; var dragHelpers = _dereq_('../../components/dragelement/helpers'); var freeMode = dragHelpers.freeMode; var rectMode = dragHelpers.rectMode; var drawMode = dragHelpers.drawMode; var openMode = dragHelpers.openMode; var selectMode = dragHelpers.selectMode; var displayOutlines = _dereq_('../../components/shapes/draw_newshape/display_outlines'); var handleEllipse = _dereq_('../../components/shapes/draw_newshape/helpers').handleEllipse; var newShapes = _dereq_('../../components/shapes/draw_newshape/newshapes'); var Lib = _dereq_('../../lib'); var polygon = _dereq_('../../lib/polygon'); var throttle = _dereq_('../../lib/throttle'); var getFromId = _dereq_('./axis_ids').getFromId; var clearGlCanvases = _dereq_('../../lib/clear_gl_canvases'); var redrawReglTraces = _dereq_('../../plot_api/subroutines').redrawReglTraces; var constants = _dereq_('./constants'); var MINSELECT = constants.MINSELECT; var filteredPolygon = polygon.filter; var polygonTester = polygon.tester; var clearSelect = _dereq_('./handle_outline').clearSelect; var helpers = _dereq_('./helpers'); var p2r = helpers.p2r; var axValue = helpers.axValue; var getTransform = helpers.getTransform; function prepSelect(e, startX, startY, dragOptions, mode) { var isFreeMode = freeMode(mode); var isRectMode = rectMode(mode); var isOpenMode = openMode(mode); var isDrawMode = drawMode(mode); var isSelectMode = selectMode(mode); var isLine = mode === 'drawline'; var isEllipse = mode === 'drawcircle'; var isLineOrEllipse = isLine || isEllipse; // cases with two start & end positions var gd = dragOptions.gd; var fullLayout = gd._fullLayout; var zoomLayer = fullLayout._zoomlayer; var dragBBox = dragOptions.element.getBoundingClientRect(); var plotinfo = dragOptions.plotinfo; var transform = getTransform(plotinfo); var x0 = startX - dragBBox.left; var y0 = startY - dragBBox.top; fullLayout._calcInverseTransform(gd); var transformedCoords = Lib.apply3DTransform(fullLayout._invTransform)(x0, y0); x0 = transformedCoords[0]; y0 = transformedCoords[1]; var scaleX = fullLayout._invScaleX; var scaleY = fullLayout._invScaleY; var x1 = x0; var y1 = y0; var path0 = 'M' + x0 + ',' + y0; var pw = dragOptions.xaxes[0]._length; var ph = dragOptions.yaxes[0]._length; var allAxes = dragOptions.xaxes.concat(dragOptions.yaxes); var subtract = e.altKey && !(drawMode(mode) && isOpenMode); var filterPoly, selectionTester, mergedPolygons, currentPolygon; var i, searchInfo, eventData; coerceSelectionsCache(e, gd, dragOptions); if(isFreeMode) { filterPoly = filteredPolygon([[x0, y0]], constants.BENDPX); } var outlines = zoomLayer.selectAll('path.select-outline-' + plotinfo.id).data(isDrawMode ? [0] : [1, 2]); var drwStyle = fullLayout.newshape; outlines.enter() .append('path') .attr('class', function(d) { return 'select-outline select-outline-' + d + ' select-outline-' + plotinfo.id; }) .style(isDrawMode ? { opacity: drwStyle.opacity / 2, fill: isOpenMode ? undefined : drwStyle.fillcolor, stroke: drwStyle.line.color, 'stroke-dasharray': dashStyle(drwStyle.line.dash, drwStyle.line.width), 'stroke-width': drwStyle.line.width + 'px' } : {}) .attr('fill-rule', drwStyle.fillrule) .classed('cursor-move', isDrawMode ? true : false) .attr('transform', transform) .attr('d', path0 + 'Z'); var corners = zoomLayer.append('path') .attr('class', 'zoombox-corners') .style({ fill: Color.background, stroke: Color.defaultLine, 'stroke-width': 1 }) .attr('transform', transform) .attr('d', 'M0,0Z'); var throttleID = fullLayout._uid + constants.SELECTID; var selection = []; // find the traces to search for selection points var searchTraces = determineSearchTraces(gd, dragOptions.xaxes, dragOptions.yaxes, dragOptions.subplot); function ascending(a, b) { return a - b; } // allow subplots to override fillRangeItems routine var fillRangeItems; if(plotinfo.fillRangeItems) { fillRangeItems = plotinfo.fillRangeItems; } else { if(isRectMode) { fillRangeItems = function(eventData, poly) { var ranges = eventData.range = {}; for(i = 0; i < allAxes.length; i++) { var ax = allAxes[i]; var axLetter = ax._id.charAt(0); ranges[ax._id] = [ p2r(ax, poly[axLetter + 'min']), p2r(ax, poly[axLetter + 'max']) ].sort(ascending); } }; } else { // case of isFreeMode fillRangeItems = function(eventData, poly, filterPoly) { var dataPts = eventData.lassoPoints = {}; for(i = 0; i < allAxes.length; i++) { var ax = allAxes[i]; dataPts[ax._id] = filterPoly.filtered.map(axValue(ax)); } }; } } dragOptions.moveFn = function(dx0, dy0) { x1 = Math.max(0, Math.min(pw, scaleX * dx0 + x0)); y1 = Math.max(0, Math.min(ph, scaleY * dy0 + y0)); var dx = Math.abs(x1 - x0); var dy = Math.abs(y1 - y0); if(isRectMode) { var direction; var start, end; if(isSelectMode) { var q = fullLayout.selectdirection; if(q === 'any') { if(dy < Math.min(dx * 0.6, MINSELECT)) { direction = 'h'; } else if(dx < Math.min(dy * 0.6, MINSELECT)) { direction = 'v'; } else { direction = 'd'; } } else { direction = q; } switch(direction) { case 'h': start = isEllipse ? ph / 2 : 0; end = ph; break; case 'v': start = isEllipse ? pw / 2 : 0; end = pw; break; } } if(isDrawMode) { switch(fullLayout.newshape.drawdirection) { case 'vertical': direction = 'h'; start = isEllipse ? ph / 2 : 0; end = ph; break; case 'horizontal': direction = 'v'; start = isEllipse ? pw / 2 : 0; end = pw; break; case 'ortho': if(dx < dy) { direction = 'h'; start = y0; end = y1; } else { direction = 'v'; start = x0; end = x1; } break; default: // i.e. case of 'diagonal' direction = 'd'; } } if(direction === 'h') { // horizontal motion currentPolygon = isLineOrEllipse ? handleEllipse(isEllipse, [x1, start], [x1, end]) : // using x1 instead of x0 allows adjusting the line while drawing [[x0, start], [x0, end], [x1, end], [x1, start]]; // make a vertical box currentPolygon.xmin = isLineOrEllipse ? x1 : Math.min(x0, x1); currentPolygon.xmax = isLineOrEllipse ? x1 : Math.max(x0, x1); currentPolygon.ymin = Math.min(start, end); currentPolygon.ymax = Math.max(start, end); // extras to guide users in keeping a straight selection corners.attr('d', 'M' + currentPolygon.xmin + ',' + (y0 - MINSELECT) + 'h-4v' + (2 * MINSELECT) + 'h4Z' + 'M' + (currentPolygon.xmax - 1) + ',' + (y0 - MINSELECT) + 'h4v' + (2 * MINSELECT) + 'h-4Z'); } else if(direction === 'v') { // vertical motion currentPolygon = isLineOrEllipse ? handleEllipse(isEllipse, [start, y1], [end, y1]) : // using y1 instead of y0 allows adjusting the line while drawing [[start, y0], [start, y1], [end, y1], [end, y0]]; // make a horizontal box currentPolygon.xmin = Math.min(start, end); currentPolygon.xmax = Math.max(start, end); currentPolygon.ymin = isLineOrEllipse ? y1 : Math.min(y0, y1); currentPolygon.ymax = isLineOrEllipse ? y1 : Math.max(y0, y1); corners.attr('d', 'M' + (x0 - MINSELECT) + ',' + currentPolygon.ymin + 'v-4h' + (2 * MINSELECT) + 'v4Z' + 'M' + (x0 - MINSELECT) + ',' + (currentPolygon.ymax - 1) + 'v4h' + (2 * MINSELECT) + 'v-4Z'); } else if(direction === 'd') { // diagonal motion currentPolygon = isLineOrEllipse ? handleEllipse(isEllipse, [x0, y0], [x1, y1]) : [[x0, y0], [x0, y1], [x1, y1], [x1, y0]]; currentPolygon.xmin = Math.min(x0, x1); currentPolygon.xmax = Math.max(x0, x1); currentPolygon.ymin = Math.min(y0, y1); currentPolygon.ymax = Math.max(y0, y1); corners.attr('d', 'M0,0Z'); } } else if(isFreeMode) { filterPoly.addPt([x1, y1]); currentPolygon = filterPoly.filtered; } // create outline & tester if(dragOptions.selectionDefs && dragOptions.selectionDefs.length) { mergedPolygons = mergePolygons(dragOptions.mergedPolygons, currentPolygon, subtract); currentPolygon.subtract = subtract; selectionTester = multiTester(dragOptions.selectionDefs.concat([currentPolygon])); } else { mergedPolygons = [currentPolygon]; selectionTester = polygonTester(currentPolygon); } // display polygons on the screen displayOutlines(convertPoly(mergedPolygons, isOpenMode), outlines, dragOptions); if(isSelectMode) { throttle.throttle( throttleID, constants.SELECTDELAY, function() { selection = []; var thisSelection; var traceSelections = []; var traceSelection; for(i = 0; i < searchTraces.length; i++) { searchInfo = searchTraces[i]; traceSelection = searchInfo._module.selectPoints(searchInfo, selectionTester); traceSelections.push(traceSelection); thisSelection = fillSelectionItem(traceSelection, searchInfo); if(selection.length) { for(var j = 0; j < thisSelection.length; j++) { selection.push(thisSelection[j]); } } else selection = thisSelection; } eventData = {points: selection}; updateSelectedState(gd, searchTraces, eventData); fillRangeItems(eventData, currentPolygon, filterPoly); dragOptions.gd.emit('plotly_selecting', eventData); } ); } }; dragOptions.clickFn = function(numClicks, evt) { corners.remove(); if(gd._fullLayout._activeShapeIndex >= 0) { gd._fullLayout._deactivateShape(gd); return; } if(isDrawMode) return; var clickmode = fullLayout.clickmode; throttle.done(throttleID).then(function() { throttle.clear(throttleID); if(numClicks === 2) { // clear selection on doubleclick outlines.remove(); for(i = 0; i < searchTraces.length; i++) { searchInfo = searchTraces[i]; searchInfo._module.selectPoints(searchInfo, false); } updateSelectedState(gd, searchTraces); clearSelectionsCache(dragOptions); gd.emit('plotly_deselect', null); } else { if(clickmode.indexOf('select') > -1) { selectOnClick(evt, gd, dragOptions.xaxes, dragOptions.yaxes, dragOptions.subplot, dragOptions, outlines); } if(clickmode === 'event') { // TODO: remove in v3 - this was probably never intended to work as it does, // but in case anyone depends on it we don't want to break it now. // Note that click-to-select introduced pre v3 also emitts proper // event data when clickmode is having 'select' in its flag list. gd.emit('plotly_selected', undefined); } } Fx.click(gd, evt); }).catch(Lib.error); }; dragOptions.doneFn = function() { corners.remove(); throttle.done(throttleID).then(function() { throttle.clear(throttleID); dragOptions.gd.emit('plotly_selected', eventData); if(currentPolygon && dragOptions.selectionDefs) { // save last polygons currentPolygon.subtract = subtract; dragOptions.selectionDefs.push(currentPolygon); // we have to keep reference to arrays container dragOptions.mergedPolygons.length = 0; [].push.apply(dragOptions.mergedPolygons, mergedPolygons); } if(dragOptions.doneFnCompleted) { dragOptions.doneFnCompleted(selection); } }).catch(Lib.error); if(isDrawMode) { clearSelectionsCache(dragOptions); } }; } function selectOnClick(evt, gd, xAxes, yAxes, subplot, dragOptions, polygonOutlines) { var hoverData = gd._hoverdata; var fullLayout = gd._fullLayout; var clickmode = fullLayout.clickmode; var sendEvents = clickmode.indexOf('event') > -1; var selection = []; var searchTraces, searchInfo, currentSelectionDef, selectionTester, traceSelection; var thisTracesSelection, pointOrBinSelected, subtract, eventData, i; if(isHoverDataSet(hoverData)) { coerceSelectionsCache(evt, gd, dragOptions); searchTraces = determineSearchTraces(gd, xAxes, yAxes, subplot); var clickedPtInfo = extractClickedPtInfo(hoverData, searchTraces); var isBinnedTrace = clickedPtInfo.pointNumbers.length > 0; // Note: potentially costly operation isPointOrBinSelected is // called as late as possible through the use of an assignment // in an if condition. if(isBinnedTrace ? isOnlyThisBinSelected(searchTraces, clickedPtInfo) : isOnlyOnePointSelected(searchTraces) && (pointOrBinSelected = isPointOrBinSelected(clickedPtInfo))) { if(polygonOutlines) polygonOutlines.remove(); for(i = 0; i < searchTraces.length; i++) { searchInfo = searchTraces[i]; searchInfo._module.selectPoints(searchInfo, false); } updateSelectedState(gd, searchTraces); clearSelectionsCache(dragOptions); if(sendEvents) { gd.emit('plotly_deselect', null); } } else { subtract = evt.shiftKey && (pointOrBinSelected !== undefined ? pointOrBinSelected : isPointOrBinSelected(clickedPtInfo)); currentSelectionDef = newPointSelectionDef(clickedPtInfo.pointNumber, clickedPtInfo.searchInfo, subtract); var allSelectionDefs = dragOptions.selectionDefs.concat([currentSelectionDef]); selectionTester = multiTester(allSelectionDefs); for(i = 0; i < searchTraces.length; i++) { traceSelection = searchTraces[i]._module.selectPoints(searchTraces[i], selectionTester); thisTracesSelection = fillSelectionItem(traceSelection, searchTraces[i]); if(selection.length) { for(var j = 0; j < thisTracesSelection.length; j++) { selection.push(thisTracesSelection[j]); } } else selection = thisTracesSelection; } eventData = {points: selection}; updateSelectedState(gd, searchTraces, eventData); if(currentSelectionDef && dragOptions) { dragOptions.selectionDefs.push(currentSelectionDef); } if(polygonOutlines) { var polygons = dragOptions.mergedPolygons; var isOpenMode = openMode(dragOptions.dragmode); // display polygons on the screen displayOutlines(convertPoly(polygons, isOpenMode), polygonOutlines, dragOptions); } if(sendEvents) { gd.emit('plotly_selected', eventData); } } } } /** * Constructs a new point selection definition object. */ function newPointSelectionDef(pointNumber, searchInfo, subtract) { return { pointNumber: pointNumber, searchInfo: searchInfo, subtract: subtract }; } function isPointSelectionDef(o) { return 'pointNumber' in o && 'searchInfo' in o; } /* * Constructs a new point number tester. */ function newPointNumTester(pointSelectionDef) { return { xmin: 0, xmax: 0, ymin: 0, ymax: 0, pts: [], contains: function(pt, omitFirstEdge, pointNumber, searchInfo) { var idxWantedTrace = pointSelectionDef.searchInfo.cd[0].trace._expandedIndex; var idxActualTrace = searchInfo.cd[0].trace._expandedIndex; return idxActualTrace === idxWantedTrace && pointNumber === pointSelectionDef.pointNumber; }, isRect: false, degenerate: false, subtract: pointSelectionDef.subtract }; } /** * Wraps multiple selection testers. * * @param {Array} list - An array of selection testers. * * @return a selection tester object with a contains function * that can be called to evaluate a point against all wrapped * selection testers that were passed in list. */ function multiTester(list) { var testers = []; var xmin = isPointSelectionDef(list[0]) ? 0 : list[0][0][0]; var xmax = xmin; var ymin = isPointSelectionDef(list[0]) ? 0 : list[0][0][1]; var ymax = ymin; for(var i = 0; i < list.length; i++) { if(isPointSelectionDef(list[i])) { testers.push(newPointNumTester(list[i])); } else { var tester = polygon.tester(list[i]); tester.subtract = list[i].subtract; testers.push(tester); xmin = Math.min(xmin, tester.xmin); xmax = Math.max(xmax, tester.xmax); ymin = Math.min(ymin, tester.ymin); ymax = Math.max(ymax, tester.ymax); } } /** * Tests if the given point is within this tester. * * @param {Array} pt - [0] is the x coordinate, [1] is the y coordinate of the point. * @param {*} arg - An optional parameter to pass down to wrapped testers. * @param {number} pointNumber - The point number of the point within the underlying data array. * @param {number} searchInfo - An object identifying the trace the point is contained in. * * @return {boolean} true if point is considered to be selected, false otherwise. */ function contains(pt, arg, pointNumber, searchInfo) { var contained = false; for(var i = 0; i < testers.length; i++) { if(testers[i].contains(pt, arg, pointNumber, searchInfo)) { // if contained by subtract tester - exclude the point contained = testers[i].subtract === false; } } return contained; } return { xmin: xmin, xmax: xmax, ymin: ymin, ymax: ymax, pts: [], contains: contains, isRect: false, degenerate: false }; } function coerceSelectionsCache(evt, gd, dragOptions) { gd._fullLayout._drawing = false; var fullLayout = gd._fullLayout; var plotinfo = dragOptions.plotinfo; var dragmode = dragOptions.dragmode; var selectingOnSameSubplot = ( fullLayout._lastSelectedSubplot && fullLayout._lastSelectedSubplot === plotinfo.id ); var hasModifierKey = (evt.shiftKey || evt.altKey) && !(drawMode(dragmode) && openMode(dragmode)); if(selectingOnSameSubplot && hasModifierKey && (plotinfo.selection && plotinfo.selection.selectionDefs) && !dragOptions.selectionDefs) { // take over selection definitions from prev mode, if any dragOptions.selectionDefs = plotinfo.selection.selectionDefs; dragOptions.mergedPolygons = plotinfo.selection.mergedPolygons; } else if(!hasModifierKey || !plotinfo.selection) { clearSelectionsCache(dragOptions); } // clear selection outline when selecting a different subplot if(!selectingOnSameSubplot) { clearSelect(gd); fullLayout._lastSelectedSubplot = plotinfo.id; } } function clearSelectionsCache(dragOptions) { var dragmode = dragOptions.dragmode; var plotinfo = dragOptions.plotinfo; var gd = dragOptions.gd; if(gd._fullLayout._activeShapeIndex >= 0) { gd._fullLayout._deactivateShape(gd); } if(drawMode(dragmode)) { var fullLayout = gd._fullLayout; var zoomLayer = fullLayout._zoomlayer; var outlines = zoomLayer.selectAll('.select-outline-' + plotinfo.id); if(outlines && gd._fullLayout._drawing) { // add shape var shapes = newShapes(outlines, dragOptions); if(shapes) { Registry.call('_guiRelayout', gd, { shapes: shapes }); } gd._fullLayout._drawing = false; } } plotinfo.selection = {}; plotinfo.selection.selectionDefs = dragOptions.selectionDefs = []; plotinfo.selection.mergedPolygons = dragOptions.mergedPolygons = []; } function determineSearchTraces(gd, xAxes, yAxes, subplot) { var searchTraces = []; var xAxisIds = xAxes.map(function(ax) { return ax._id; }); var yAxisIds = yAxes.map(function(ax) { return ax._id; }); var cd, trace, i; for(i = 0; i < gd.calcdata.length; i++) { cd = gd.calcdata[i]; trace = cd[0].trace; if(trace.visible !== true || !trace._module || !trace._module.selectPoints) continue; if(subplot && (trace.subplot === subplot || trace.geo === subplot)) { searchTraces.push(createSearchInfo(trace._module, cd, xAxes[0], yAxes[0])); } else if( trace.type === 'splom' && // FIXME: make sure we don't have more than single axis for splom trace._xaxes[xAxisIds[0]] && trace._yaxes[yAxisIds[0]] ) { var info = createSearchInfo(trace._module, cd, xAxes[0], yAxes[0]); info.scene = gd._fullLayout._splomScenes[trace.uid]; searchTraces.push(info); } else if( trace.type === 'sankey' ) { var sankeyInfo = createSearchInfo(trace._module, cd, xAxes[0], yAxes[0]); searchTraces.push(sankeyInfo); } else { if(xAxisIds.indexOf(trace.xaxis) === -1) continue; if(yAxisIds.indexOf(trace.yaxis) === -1) continue; searchTraces.push(createSearchInfo(trace._module, cd, getFromId(gd, trace.xaxis), getFromId(gd, trace.yaxis))); } } return searchTraces; function createSearchInfo(module, calcData, xaxis, yaxis) { return { _module: module, cd: calcData, xaxis: xaxis, yaxis: yaxis }; } } function isHoverDataSet(hoverData) { return hoverData && Array.isArray(hoverData) && hoverData[0].hoverOnBox !== true; } function extractClickedPtInfo(hoverData, searchTraces) { var hoverDatum = hoverData[0]; var pointNumber = -1; var pointNumbers = []; var searchInfo, i; for(i = 0; i < searchTraces.length; i++) { searchInfo = searchTraces[i]; if(hoverDatum.fullData._expandedIndex === searchInfo.cd[0].trace._expandedIndex) { // Special case for box (and violin) if(hoverDatum.hoverOnBox === true) { break; } // Hint: in some traces like histogram, one graphical element // doesn't correspond to one particular data point, but to // bins of data points. Thus, hoverDatum can have a binNumber // property instead of pointNumber. if(hoverDatum.pointNumber !== undefined) { pointNumber = hoverDatum.pointNumber; } else if(hoverDatum.binNumber !== undefined) { pointNumber = hoverDatum.binNumber; pointNumbers = hoverDatum.pointNumbers; } break; } } return { pointNumber: pointNumber, pointNumbers: pointNumbers, searchInfo: searchInfo }; } function isPointOrBinSelected(clickedPtInfo) { var trace = clickedPtInfo.searchInfo.cd[0].trace; var ptNum = clickedPtInfo.pointNumber; var ptNums = clickedPtInfo.pointNumbers; var ptNumsSet = ptNums.length > 0; // When pointsNumbers is set (e.g. histogram's binning), // it is assumed that when the first point of // a bin is selected, all others are as well var ptNumToTest = ptNumsSet ? ptNums[0] : ptNum; // TODO potential performance improvement // Primarily we need this function to determine if a click adds // or subtracts from a selection. // In cases `trace.selectedpoints` is a huge array, indexOf // might be slow. One remedy would be to introduce a hash somewhere. return trace.selectedpoints ? trace.selectedpoints.indexOf(ptNumToTest) > -1 : false; } function isOnlyThisBinSelected(searchTraces, clickedPtInfo) { var tracesWithSelectedPts = []; var searchInfo, trace, isSameTrace, i; for(i = 0; i < searchTraces.length; i++) { searchInfo = searchTraces[i]; if(searchInfo.cd[0].trace.selectedpoints && searchInfo.cd[0].trace.selectedpoints.length > 0) { tracesWithSelectedPts.push(searchInfo); } } if(tracesWithSelectedPts.length === 1) { isSameTrace = tracesWithSelectedPts[0] === clickedPtInfo.searchInfo; if(isSameTrace) { trace = clickedPtInfo.searchInfo.cd[0].trace; if(trace.selectedpoints.length === clickedPtInfo.pointNumbers.length) { for(i = 0; i < clickedPtInfo.pointNumbers.length; i++) { if(trace.selectedpoints.indexOf(clickedPtInfo.pointNumbers[i]) < 0) { return false; } } return true; } } } return false; } function isOnlyOnePointSelected(searchTraces) { var len = 0; var searchInfo, trace, i; for(i = 0; i < searchTraces.length; i++) { searchInfo = searchTraces[i]; trace = searchInfo.cd[0].trace; if(trace.selectedpoints) { if(trace.selectedpoints.length > 1) return false; len += trace.selectedpoints.length; if(len > 1) return false; } } return len === 1; } function updateSelectedState(gd, searchTraces, eventData) { var i, searchInfo, cd, trace; // before anything else, update preGUI if necessary for(i = 0; i < searchTraces.length; i++) { var fullInputTrace = searchTraces[i].cd[0].trace._fullInput; var tracePreGUI = gd._fullLayout._tracePreGUI[fullInputTrace.uid] || {}; if(tracePreGUI.selectedpoints === undefined) { tracePreGUI.selectedpoints = fullInputTrace._input.selectedpoints || null; } } if(eventData) { var pts = eventData.points || []; for(i = 0; i < searchTraces.length; i++) { trace = searchTraces[i].cd[0].trace; trace._input.selectedpoints = trace._fullInput.selectedpoints = []; if(trace._fullInput !== trace) trace.selectedpoints = []; } for(i = 0; i < pts.length; i++) { var pt = pts[i]; var data = pt.data; var fullData = pt.fullData; if(pt.pointIndices) { [].push.apply(data.selectedpoints, pt.pointIndices); if(trace._fullInput !== trace) { [].push.apply(fullData.selectedpoints, pt.pointIndices); } } else { data.selectedpoints.push(pt.pointIndex); if(trace._fullInput !== trace) { fullData.selectedpoints.push(pt.pointIndex); } } } } else { for(i = 0; i < searchTraces.length; i++) { trace = searchTraces[i].cd[0].trace; delete trace.selectedpoints; delete trace._input.selectedpoints; if(trace._fullInput !== trace) { delete trace._fullInput.selectedpoints; } } } var hasRegl = false; for(i = 0; i < searchTraces.length; i++) { searchInfo = searchTraces[i]; cd = searchInfo.cd; trace = cd[0].trace; if(Registry.traceIs(trace, 'regl')) { hasRegl = true; } var _module = searchInfo._module; var fn = _module.styleOnSelect || _module.style; if(fn) { fn(gd, cd, cd[0].node3); if(cd[0].nodeRangePlot3) fn(gd, cd, cd[0].nodeRangePlot3); } } if(hasRegl) { clearGlCanvases(gd); redrawReglTraces(gd); } } function mergePolygons(list, poly, subtract) { var res; if(subtract) { res = polybool.difference({ regions: list, inverted: false }, { regions: [poly], inverted: false }); return res.regions; } res = polybool.union({ regions: list, inverted: false }, { regions: [poly], inverted: false }); return res.regions; } function fillSelectionItem(selection, searchInfo) { if(Array.isArray(selection)) { var cd = searchInfo.cd; var trace = searchInfo.cd[0].trace; for(var i = 0; i < selection.length; i++) { selection[i] = makeEventData(selection[i], trace, cd); } } return selection; } function convertPoly(polygonsIn, isOpenMode) { // add M and L command to draft positions var polygonsOut = []; for(var i = 0; i < polygonsIn.length; i++) { polygonsOut[i] = []; for(var j = 0; j < polygonsIn[i].length; j++) { polygonsOut[i][j] = []; polygonsOut[i][j][0] = j ? 'L' : 'M'; for(var k = 0; k < polygonsIn[i][j].length; k++) { polygonsOut[i][j].push( polygonsIn[i][j][k] ); } } if(!isOpenMode) { polygonsOut[i].push([ 'Z', polygonsOut[i][0][1], // initial x polygonsOut[i][0][2] // initial y ]); } } return polygonsOut; } module.exports = { prepSelect: prepSelect, clearSelect: clearSelect, clearSelectionsCache: clearSelectionsCache, selectOnClick: selectOnClick }; },{"../../components/color":157,"../../components/dragelement/helpers":175,"../../components/drawing":179,"../../components/fx":197,"../../components/fx/helpers":193,"../../components/shapes/draw_newshape/display_outlines":245,"../../components/shapes/draw_newshape/helpers":246,"../../components/shapes/draw_newshape/newshapes":247,"../../lib":287,"../../lib/clear_gl_canvases":275,"../../lib/polygon":299,"../../lib/throttle":311,"../../plot_api/subroutines":324,"../../registry":378,"./axis_ids":338,"./constants":341,"./handle_outline":345,"./helpers":346,"polybooljs":75}],356:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var utcFormat = _dereq_('d3-time-format').utcFormat; var Lib = _dereq_('../../lib'); var numberFormat = Lib.numberFormat; var isNumeric = _dereq_('fast-isnumeric'); var cleanNumber = Lib.cleanNumber; var ms2DateTime = Lib.ms2DateTime; var dateTime2ms = Lib.dateTime2ms; var ensureNumber = Lib.ensureNumber; var isArrayOrTypedArray = Lib.isArrayOrTypedArray; var numConstants = _dereq_('../../constants/numerical'); var FP_SAFE = numConstants.FP_SAFE; var BADNUM = numConstants.BADNUM; var LOG_CLIP = numConstants.LOG_CLIP; var ONEWEEK = numConstants.ONEWEEK; var ONEDAY = numConstants.ONEDAY; var ONEHOUR = numConstants.ONEHOUR; var ONEMIN = numConstants.ONEMIN; var ONESEC = numConstants.ONESEC; var axisIds = _dereq_('./axis_ids'); var constants = _dereq_('./constants'); var HOUR_PATTERN = constants.HOUR_PATTERN; var WEEKDAY_PATTERN = constants.WEEKDAY_PATTERN; function fromLog(v) { return Math.pow(10, v); } function isValidCategory(v) { return v !== null && v !== undefined; } /** * Define the conversion functions for an axis data is used in 5 ways: * * d: data, in whatever form it's provided * c: calcdata: turned into numbers, but not linearized * l: linearized - same as c except for log axes (and other nonlinear * mappings later?) this is used when we need to know if it's * *possible* to show some data on this axis, without caring about * the current range * p: pixel value - mapped to the screen with current size and zoom * r: ranges, tick0, and annotation positions match one of the above * but are handled differently for different types: * - linear and date: data format (d) * - category: calcdata format (c), and will stay that way because * the data format has no continuous mapping * - log: linearized (l) format * TODO: in v3.0 we plan to change it to data format. At that point * shapes will work the same way as ranges, tick0, and annotations * so they can use this conversion too. * * Creates/updates these conversion functions, and a few more utilities * like cleanRange, and makeCalcdata * * also clears the autotick constraints ._minDtick, ._forceTick0 */ module.exports = function setConvert(ax, fullLayout) { fullLayout = fullLayout || {}; var axId = (ax._id || 'x'); var axLetter = axId.charAt(0); function toLog(v, clip) { if(v > 0) return Math.log(v) / Math.LN10; else if(v <= 0 && clip && ax.range && ax.range.length === 2) { // clip NaN (ie past negative infinity) to LOG_CLIP axis // length past the negative edge var r0 = ax.range[0]; var r1 = ax.range[1]; return 0.5 * (r0 + r1 - 2 * LOG_CLIP * Math.abs(r0 - r1)); } else return BADNUM; } /* * wrapped dateTime2ms that: * - accepts ms numbers for backward compatibility * - inserts a dummy arg so calendar is the 3rd arg (see notes below). * - defaults to ax.calendar */ function dt2ms(v, _, calendar, opts) { if((opts || {}).msUTC && isNumeric(v)) { // For now it is only used // to fix bar length in milliseconds & gl3d ticks // It could be applied in other places in v3 return +v; } // NOTE: Changed this behavior: previously we took any numeric value // to be a ms, even if it was a string that could be a bare year. // Now we convert it as a date if at all possible, and only try // as (local) ms if that fails. var ms = dateTime2ms(v, calendar || ax.calendar); if(ms === BADNUM) { if(isNumeric(v)) { v = +v; // keep track of tenths of ms, that `new Date` will drop // same logic as in Lib.ms2DateTime var msecTenths = Math.floor(Lib.mod(v + 0.05, 1) * 10); var msRounded = Math.round(v - msecTenths / 10); ms = dateTime2ms(new Date(msRounded)) + msecTenths / 10; } else return BADNUM; } return ms; } // wrapped ms2DateTime to insert default ax.calendar function ms2dt(v, r, calendar) { return ms2DateTime(v, r, calendar || ax.calendar); } function getCategoryName(v) { return ax._categories[Math.round(v)]; } /* * setCategoryIndex: return the index of category v, * inserting it in the list if it's not already there * * this will enter the categories in the order it * encounters them, ie all the categories from the * first data set, then all the ones from the second * that aren't in the first etc. * * it is assumed that this function is being invoked in the * already sorted category order; otherwise there would be * a disconnect between the array and the index returned */ function setCategoryIndex(v) { if(isValidCategory(v)) { if(ax._categoriesMap === undefined) { ax._categoriesMap = {}; } if(ax._categoriesMap[v] !== undefined) { return ax._categoriesMap[v]; } else { ax._categories.push(typeof v === 'number' ? String(v) : v); var curLength = ax._categories.length - 1; ax._categoriesMap[v] = curLength; return curLength; } } return BADNUM; } function setMultiCategoryIndex(arrayIn, len) { var arrayOut = new Array(len); for(var i = 0; i < len; i++) { var v0 = (arrayIn[0] || [])[i]; var v1 = (arrayIn[1] || [])[i]; arrayOut[i] = getCategoryIndex([v0, v1]); } return arrayOut; } function getCategoryIndex(v) { if(ax._categoriesMap) { return ax._categoriesMap[v]; } } function getCategoryPosition(v) { // d2l/d2c variant that that won't add categories but will also // allow numbers to be mapped to the linearized axis positions var index = getCategoryIndex(v); if(index !== undefined) return index; if(isNumeric(v)) return +v; } function getRangePosition(v) { return isNumeric(v) ? +v : getCategoryIndex(v); } // include 2 fractional digits on pixel, for PDF zooming etc function _l2p(v, m, b) { return d3.round(b + m * v, 2); } function _p2l(px, m, b) { return (px - b) / m; } var l2p = function l2p(v) { if(!isNumeric(v)) return BADNUM; return _l2p(v, ax._m, ax._b); }; var p2l = function(px) { return _p2l(px, ax._m, ax._b); }; if(ax.rangebreaks) { var isY = axLetter === 'y'; l2p = function(v) { if(!isNumeric(v)) return BADNUM; var len = ax._rangebreaks.length; if(!len) return _l2p(v, ax._m, ax._b); var flip = isY; if(ax.range[0] > ax.range[1]) flip = !flip; var signAx = flip ? -1 : 1; var pos = signAx * v; var q = 0; for(var i = 0; i < len; i++) { var min = signAx * ax._rangebreaks[i].min; var max = signAx * ax._rangebreaks[i].max; if(pos < min) break; if(pos > max) q = i + 1; else { // when falls into break, pick 'closest' offset q = pos < (min + max) / 2 ? i : i + 1; break; } } var b2 = ax._B[q] || 0; if(!isFinite(b2)) return 0; // avoid NaN translate e.g. in positionLabels if one keep zooming exactly into a break return _l2p(v, ax._m2, b2); }; p2l = function(px) { var len = ax._rangebreaks.length; if(!len) return _p2l(px, ax._m, ax._b); var q = 0; for(var i = 0; i < len; i++) { if(px < ax._rangebreaks[i].pmin) break; if(px > ax._rangebreaks[i].pmax) q = i + 1; } return _p2l(px, ax._m2, ax._B[q]); }; } // conversions among c/l/p are fairly simple - do them together for all axis types ax.c2l = (ax.type === 'log') ? toLog : ensureNumber; ax.l2c = (ax.type === 'log') ? fromLog : ensureNumber; ax.l2p = l2p; ax.p2l = p2l; ax.c2p = (ax.type === 'log') ? function(v, clip) { return l2p(toLog(v, clip)); } : l2p; ax.p2c = (ax.type === 'log') ? function(px) { return fromLog(p2l(px)); } : p2l; /* * now type-specific conversions for **ALL** other combinations * they're all written out, instead of being combinations of each other, for * both clarity and speed. */ if(['linear', '-'].indexOf(ax.type) !== -1) { // all are data vals, but d and r need cleaning ax.d2r = ax.r2d = ax.d2c = ax.r2c = ax.d2l = ax.r2l = cleanNumber; ax.c2d = ax.c2r = ax.l2d = ax.l2r = ensureNumber; ax.d2p = ax.r2p = function(v) { return ax.l2p(cleanNumber(v)); }; ax.p2d = ax.p2r = p2l; ax.cleanPos = ensureNumber; } else if(ax.type === 'log') { // d and c are data vals, r and l are logged (but d and r need cleaning) ax.d2r = ax.d2l = function(v, clip) { return toLog(cleanNumber(v), clip); }; ax.r2d = ax.r2c = function(v) { return fromLog(cleanNumber(v)); }; ax.d2c = ax.r2l = cleanNumber; ax.c2d = ax.l2r = ensureNumber; ax.c2r = toLog; ax.l2d = fromLog; ax.d2p = function(v, clip) { return ax.l2p(ax.d2r(v, clip)); }; ax.p2d = function(px) { return fromLog(p2l(px)); }; ax.r2p = function(v) { return ax.l2p(cleanNumber(v)); }; ax.p2r = p2l; ax.cleanPos = ensureNumber; } else if(ax.type === 'date') { // r and d are date strings, l and c are ms /* * Any of these functions with r and d on either side, calendar is the * **3rd** argument. log has reserved the second argument. * * Unless you need the special behavior of the second arg (ms2DateTime * uses this to limit precision, toLog uses true to clip negatives * to offscreen low rather than undefined), it's safe to pass 0. */ ax.d2r = ax.r2d = Lib.identity; ax.d2c = ax.r2c = ax.d2l = ax.r2l = dt2ms; ax.c2d = ax.c2r = ax.l2d = ax.l2r = ms2dt; ax.d2p = ax.r2p = function(v, _, calendar) { return ax.l2p(dt2ms(v, 0, calendar)); }; ax.p2d = ax.p2r = function(px, r, calendar) { return ms2dt(p2l(px), r, calendar); }; ax.cleanPos = function(v) { return Lib.cleanDate(v, BADNUM, ax.calendar); }; } else if(ax.type === 'category') { // d is categories (string) // c and l are indices (numbers) // r is categories or numbers ax.d2c = ax.d2l = setCategoryIndex; ax.r2d = ax.c2d = ax.l2d = getCategoryName; ax.d2r = ax.d2l_noadd = getCategoryPosition; ax.r2c = function(v) { var index = getRangePosition(v); return index !== undefined ? index : ax.fraction2r(0.5); }; ax.l2r = ax.c2r = ensureNumber; ax.r2l = getRangePosition; ax.d2p = function(v) { return ax.l2p(ax.r2c(v)); }; ax.p2d = function(px) { return getCategoryName(p2l(px)); }; ax.r2p = ax.d2p; ax.p2r = p2l; ax.cleanPos = function(v) { if(typeof v === 'string' && v !== '') return v; return ensureNumber(v); }; } else if(ax.type === 'multicategory') { // N.B. multicategory axes don't define d2c and d2l, // as 'data-to-calcdata' conversion needs to take into // account all data array items as in ax.makeCalcdata. ax.r2d = ax.c2d = ax.l2d = getCategoryName; ax.d2r = ax.d2l_noadd = getCategoryPosition; ax.r2c = function(v) { var index = getCategoryPosition(v); return index !== undefined ? index : ax.fraction2r(0.5); }; ax.r2c_just_indices = getCategoryIndex; ax.l2r = ax.c2r = ensureNumber; ax.r2l = getCategoryPosition; ax.d2p = function(v) { return ax.l2p(ax.r2c(v)); }; ax.p2d = function(px) { return getCategoryName(p2l(px)); }; ax.r2p = ax.d2p; ax.p2r = p2l; ax.cleanPos = function(v) { if(Array.isArray(v) || (typeof v === 'string' && v !== '')) return v; return ensureNumber(v); }; ax.setupMultiCategory = function(fullData) { var traceIndices = ax._traceIndices; var i, j; var group = ax._matchGroup; if(group && ax._categories.length === 0) { for(var axId2 in group) { if(axId2 !== axId) { var ax2 = fullLayout[axisIds.id2name(axId2)]; traceIndices = traceIndices.concat(ax2._traceIndices); } } } // [ [cnt, {$cat: index}], for 1,2 ] var seen = [[0, {}], [0, {}]]; // [ [arrayIn[0][i], arrayIn[1][i]], for i .. N ] var list = []; for(i = 0; i < traceIndices.length; i++) { var trace = fullData[traceIndices[i]]; if(axLetter in trace) { var arrayIn = trace[axLetter]; var len = trace._length || Lib.minRowLength(arrayIn); if(isArrayOrTypedArray(arrayIn[0]) && isArrayOrTypedArray(arrayIn[1])) { for(j = 0; j < len; j++) { var v0 = arrayIn[0][j]; var v1 = arrayIn[1][j]; if(isValidCategory(v0) && isValidCategory(v1)) { list.push([v0, v1]); if(!(v0 in seen[0][1])) { seen[0][1][v0] = seen[0][0]++; } if(!(v1 in seen[1][1])) { seen[1][1][v1] = seen[1][0]++; } } } } } } list.sort(function(a, b) { var ind0 = seen[0][1]; var d = ind0[a[0]] - ind0[b[0]]; if(d) return d; var ind1 = seen[1][1]; return ind1[a[1]] - ind1[b[1]]; }); for(i = 0; i < list.length; i++) { setCategoryIndex(list[i]); } }; } // find the range value at the specified (linear) fraction of the axis ax.fraction2r = function(v) { var rl0 = ax.r2l(ax.range[0]); var rl1 = ax.r2l(ax.range[1]); return ax.l2r(rl0 + v * (rl1 - rl0)); }; // find the fraction of the range at the specified range value ax.r2fraction = function(v) { var rl0 = ax.r2l(ax.range[0]); var rl1 = ax.r2l(ax.range[1]); return (ax.r2l(v) - rl0) / (rl1 - rl0); }; /* * cleanRange: make sure range is a couplet of valid & distinct values * keep numbers away from the limits of floating point numbers, * and dates away from the ends of our date system (+/- 9999 years) * * optional param rangeAttr: operate on a different attribute, like * ax._r, rather than ax.range */ ax.cleanRange = function(rangeAttr, opts) { if(!opts) opts = {}; if(!rangeAttr) rangeAttr = 'range'; var range = Lib.nestedProperty(ax, rangeAttr).get(); var i, dflt; if(ax.type === 'date') dflt = Lib.dfltRange(ax.calendar); else if(axLetter === 'y') dflt = constants.DFLTRANGEY; else if(ax._name === 'realaxis') dflt = [0, 1]; else dflt = opts.dfltRange || constants.DFLTRANGEX; // make sure we don't later mutate the defaults dflt = dflt.slice(); if(ax.rangemode === 'tozero' || ax.rangemode === 'nonnegative') { dflt[0] = 0; } if(!range || range.length !== 2) { Lib.nestedProperty(ax, rangeAttr).set(dflt); return; } if(ax.type === 'date' && !ax.autorange) { // check if milliseconds or js date objects are provided for range // and convert to date strings range[0] = Lib.cleanDate(range[0], BADNUM, ax.calendar); range[1] = Lib.cleanDate(range[1], BADNUM, ax.calendar); } for(i = 0; i < 2; i++) { if(ax.type === 'date') { if(!Lib.isDateTime(range[i], ax.calendar)) { ax[rangeAttr] = dflt; break; } if(ax.r2l(range[0]) === ax.r2l(range[1])) { // split by +/- 1 second var linCenter = Lib.constrain(ax.r2l(range[0]), Lib.MIN_MS + 1000, Lib.MAX_MS - 1000); range[0] = ax.l2r(linCenter - 1000); range[1] = ax.l2r(linCenter + 1000); break; } } else { if(!isNumeric(range[i])) { if(isNumeric(range[1 - i])) { range[i] = range[1 - i] * (i ? 10 : 0.1); } else { ax[rangeAttr] = dflt; break; } } if(range[i] < -FP_SAFE) range[i] = -FP_SAFE; else if(range[i] > FP_SAFE) range[i] = FP_SAFE; if(range[0] === range[1]) { // somewhat arbitrary: split by 1 or 1ppm, whichever is bigger var inc = Math.max(1, Math.abs(range[0] * 1e-6)); range[0] -= inc; range[1] += inc; } } } }; // set scaling to pixels ax.setScale = function(usePrivateRange) { var gs = fullLayout._size; // make sure we have a domain (pull it in from the axis // this one is overlaying if necessary) if(ax.overlaying) { var ax2 = axisIds.getFromId({ _fullLayout: fullLayout }, ax.overlaying); ax.domain = ax2.domain; } // While transitions are occurring, we get a double-transform // issue if we transform the drawn layer *and* use the new axis range to // draw the data. This allows us to construct setConvert using the pre- // interaction values of the range: var rangeAttr = (usePrivateRange && ax._r) ? '_r' : 'range'; var calendar = ax.calendar; ax.cleanRange(rangeAttr); var rl0 = ax.r2l(ax[rangeAttr][0], calendar); var rl1 = ax.r2l(ax[rangeAttr][1], calendar); var isY = axLetter === 'y'; if(isY) { ax._offset = gs.t + (1 - ax.domain[1]) * gs.h; ax._length = gs.h * (ax.domain[1] - ax.domain[0]); ax._m = ax._length / (rl0 - rl1); ax._b = -ax._m * rl1; } else { ax._offset = gs.l + ax.domain[0] * gs.w; ax._length = gs.w * (ax.domain[1] - ax.domain[0]); ax._m = ax._length / (rl1 - rl0); ax._b = -ax._m * rl0; } // set of "N" disjoint rangebreaks inside the range ax._rangebreaks = []; // length of these rangebreaks in value space - negative on reversed axes ax._lBreaks = 0; // l2p slope (same for all intervals) ax._m2 = 0; // set of l2p offsets (one for each of the (N+1) piecewise intervals) ax._B = []; if(ax.rangebreaks) { var i, brk; ax._rangebreaks = ax.locateBreaks( Math.min(rl0, rl1), Math.max(rl0, rl1) ); if(ax._rangebreaks.length) { for(i = 0; i < ax._rangebreaks.length; i++) { brk = ax._rangebreaks[i]; ax._lBreaks += Math.abs(brk.max - brk.min); } var flip = isY; if(rl0 > rl1) flip = !flip; if(flip) ax._rangebreaks.reverse(); var sign = flip ? -1 : 1; ax._m2 = sign * ax._length / (Math.abs(rl1 - rl0) - ax._lBreaks); ax._B.push(-ax._m2 * (isY ? rl1 : rl0)); for(i = 0; i < ax._rangebreaks.length; i++) { brk = ax._rangebreaks[i]; ax._B.push( ax._B[ax._B.length - 1] - sign * ax._m2 * (brk.max - brk.min) ); } // fill pixel (i.e. 'p') min/max here, // to not have to loop through the _rangebreaks twice during `p2l` for(i = 0; i < ax._rangebreaks.length; i++) { brk = ax._rangebreaks[i]; brk.pmin = l2p(brk.min); brk.pmax = l2p(brk.max); } } } if(!isFinite(ax._m) || !isFinite(ax._b) || ax._length < 0) { fullLayout._replotting = false; throw new Error('Something went wrong with axis scaling'); } }; ax.maskBreaks = function(v) { var rangebreaksIn = ax.rangebreaks || []; var bnds, b0, b1, vb, vDate; if(!rangebreaksIn._cachedPatterns) { rangebreaksIn._cachedPatterns = rangebreaksIn.map(function(brk) { return brk.enabled && brk.bounds ? Lib.simpleMap(brk.bounds, brk.pattern ? cleanNumber : ax.d2c // case of pattern: '' ) : null; }); } if(!rangebreaksIn._cachedValues) { rangebreaksIn._cachedValues = rangebreaksIn.map(function(brk) { return brk.enabled && brk.values ? Lib.simpleMap(brk.values, ax.d2c).sort(Lib.sorterAsc) : null; }); } for(var i = 0; i < rangebreaksIn.length; i++) { var brk = rangebreaksIn[i]; if(brk.enabled) { if(brk.bounds) { var pattern = brk.pattern; bnds = rangebreaksIn._cachedPatterns[i]; b0 = bnds[0]; b1 = bnds[1]; switch(pattern) { case WEEKDAY_PATTERN: vDate = new Date(v); vb = vDate.getUTCDay(); if(b0 > b1) { b1 += 7; if(vb < b0) vb += 7; } break; case HOUR_PATTERN: vDate = new Date(v); var hours = vDate.getUTCHours(); var minutes = vDate.getUTCMinutes(); var seconds = vDate.getUTCSeconds(); var milliseconds = vDate.getUTCMilliseconds(); vb = hours + ( minutes / 60 + seconds / 3600 + milliseconds / 3600000 ); if(b0 > b1) { b1 += 24; if(vb < b0) vb += 24; } break; case '': // N.B. should work on date axes as well! // e.g. { bounds: ['2020-01-04', '2020-01-05 23:59'] } // TODO should work with reversed-range axes vb = v; break; } if(vb >= b0 && vb < b1) return BADNUM; } else { var vals = rangebreaksIn._cachedValues[i]; for(var j = 0; j < vals.length; j++) { b0 = vals[j]; b1 = b0 + brk.dvalue; if(v >= b0 && v < b1) return BADNUM; } } } } return v; }; ax.locateBreaks = function(r0, r1) { var i, bnds, b0, b1; var rangebreaksOut = []; if(!ax.rangebreaks) return rangebreaksOut; var rangebreaksIn = ax.rangebreaks.slice().sort(function(a, b) { if(a.pattern === WEEKDAY_PATTERN && b.pattern === HOUR_PATTERN) return -1; if(b.pattern === WEEKDAY_PATTERN && a.pattern === HOUR_PATTERN) return 1; return 0; }); var addBreak = function(min, max) { min = Lib.constrain(min, r0, r1); max = Lib.constrain(max, r0, r1); if(min === max) return; var isNewBreak = true; for(var j = 0; j < rangebreaksOut.length; j++) { var brkj = rangebreaksOut[j]; if(min < brkj.max && max >= brkj.min) { if(min < brkj.min) { brkj.min = min; } if(max > brkj.max) { brkj.max = max; } isNewBreak = false; } } if(isNewBreak) { rangebreaksOut.push({min: min, max: max}); } }; for(i = 0; i < rangebreaksIn.length; i++) { var brk = rangebreaksIn[i]; if(brk.enabled) { if(brk.bounds) { var t0 = r0; var t1 = r1; if(brk.pattern) { // to remove decimal (most often found in auto ranges) t0 = Math.floor(t0); } bnds = Lib.simpleMap(brk.bounds, brk.pattern ? cleanNumber : ax.r2l); b0 = bnds[0]; b1 = bnds[1]; // r0 value as date var t0Date = new Date(t0); // r0 value for break pattern var bndDelta; // step in ms between rangebreaks var step; switch(brk.pattern) { case WEEKDAY_PATTERN: step = ONEWEEK; bndDelta = ( (b1 < b0 ? 7 : 0) + (b1 - b0) ) * ONEDAY; t0 += b0 * ONEDAY - ( t0Date.getUTCDay() * ONEDAY + t0Date.getUTCHours() * ONEHOUR + t0Date.getUTCMinutes() * ONEMIN + t0Date.getUTCSeconds() * ONESEC + t0Date.getUTCMilliseconds() ); break; case HOUR_PATTERN: step = ONEDAY; bndDelta = ( (b1 < b0 ? 24 : 0) + (b1 - b0) ) * ONEHOUR; t0 += b0 * ONEHOUR - ( t0Date.getUTCHours() * ONEHOUR + t0Date.getUTCMinutes() * ONEMIN + t0Date.getUTCSeconds() * ONESEC + t0Date.getUTCMilliseconds() ); break; default: t0 = Math.min(bnds[0], bnds[1]); t1 = Math.max(bnds[0], bnds[1]); step = t1 - t0; bndDelta = step; } for(var t = t0; t < t1; t += step) { addBreak(t, t + bndDelta); } } else { var vals = Lib.simpleMap(brk.values, ax.d2c); for(var j = 0; j < vals.length; j++) { b0 = vals[j]; b1 = b0 + brk.dvalue; addBreak(b0, b1); } } } } rangebreaksOut.sort(function(a, b) { return a.min - b.min; }); return rangebreaksOut; }; // makeCalcdata: takes an x or y array and converts it // to a position on the axis object "ax" // inputs: // trace - a data object from gd.data // axLetter - a string, either 'x' or 'y', for which item // to convert (TODO: is this now always the same as // the first letter of ax._id?) // in case the expected data isn't there, make a list of // integers based on the opposite data ax.makeCalcdata = function(trace, axLetter, opts) { var arrayIn, arrayOut, i, len; var axType = ax.type; var cal = axType === 'date' && trace[axLetter + 'calendar']; if(axLetter in trace) { arrayIn = trace[axLetter]; len = trace._length || Lib.minRowLength(arrayIn); if(Lib.isTypedArray(arrayIn) && (axType === 'linear' || axType === 'log')) { if(len === arrayIn.length) { return arrayIn; } else if(arrayIn.subarray) { return arrayIn.subarray(0, len); } } if(axType === 'multicategory') { return setMultiCategoryIndex(arrayIn, len); } arrayOut = new Array(len); for(i = 0; i < len; i++) { arrayOut[i] = ax.d2c(arrayIn[i], 0, cal, opts); } } else { var v0 = ((axLetter + '0') in trace) ? ax.d2c(trace[axLetter + '0'], 0, cal) : 0; var dv = (trace['d' + axLetter]) ? Number(trace['d' + axLetter]) : 1; // the opposing data, for size if we have x and dx etc arrayIn = trace[{x: 'y', y: 'x'}[axLetter]]; len = trace._length || arrayIn.length; arrayOut = new Array(len); for(i = 0; i < len; i++) { arrayOut[i] = v0 + i * dv; } } // mask (i.e. set to BADNUM) coords that fall inside rangebreaks if(ax.rangebreaks) { for(i = 0; i < len; i++) { arrayOut[i] = ax.maskBreaks(arrayOut[i]); } } return arrayOut; }; ax.isValidRange = function(range) { return ( Array.isArray(range) && range.length === 2 && isNumeric(ax.r2l(range[0])) && isNumeric(ax.r2l(range[1])) ); }; ax.isPtWithinRange = function(d, calendar) { var coord = ax.c2l(d[axLetter], null, calendar); var r0 = ax.r2l(ax.range[0]); var r1 = ax.r2l(ax.range[1]); if(r0 < r1) { return r0 <= coord && coord <= r1; } else { // Reversed axis case. return r1 <= coord && coord <= r0; } }; ax._emptyCategories = function() { ax._categories = []; ax._categoriesMap = {}; }; // should skip if not category nor multicategory ax.clearCalc = function() { var group = ax._matchGroup; if(group) { var categories = null; var categoriesMap = null; for(var axId2 in group) { var ax2 = fullLayout[axisIds.id2name(axId2)]; if(ax2._categories) { categories = ax2._categories; categoriesMap = ax2._categoriesMap; break; } } if(categories && categoriesMap) { ax._categories = categories; ax._categoriesMap = categoriesMap; } else { ax._emptyCategories(); } } else { ax._emptyCategories(); } if(ax._initialCategories) { for(var j = 0; j < ax._initialCategories.length; j++) { setCategoryIndex(ax._initialCategories[j]); } } }; // sort the axis (and all the matching ones) by _initialCategories // returns the indices of the traces affected by the reordering ax.sortByInitialCategories = function() { var affectedTraces = []; ax._emptyCategories(); if(ax._initialCategories) { for(var j = 0; j < ax._initialCategories.length; j++) { setCategoryIndex(ax._initialCategories[j]); } } affectedTraces = affectedTraces.concat(ax._traceIndices); // Propagate to matching axes var group = ax._matchGroup; for(var axId2 in group) { if(axId === axId2) continue; var ax2 = fullLayout[axisIds.id2name(axId2)]; ax2._categories = ax._categories; ax2._categoriesMap = ax._categoriesMap; affectedTraces = affectedTraces.concat(ax2._traceIndices); } return affectedTraces; }; // Propagate localization into the axis so that // methods in Axes can use it w/o having to pass fullLayout // Default (non-d3) number formatting uses separators directly // dates and d3-formatted numbers use the d3 locale // Fall back on default format for dummy axes that don't care about formatting var locale = fullLayout._d3locale; if(ax.type === 'date') { ax._dateFormat = locale ? locale.timeFormat : utcFormat; ax._extraFormat = fullLayout._extraFormat; } // occasionally we need _numFormat to pass through // even though it won't be needed by this axis ax._separators = fullLayout.separators; ax._numFormat = locale ? locale.numberFormat : numberFormat; // and for bar charts and box plots: reset forced minimum tick spacing delete ax._minDtick; delete ax._forceTick0; }; },{"../../constants/numerical":267,"../../lib":287,"./axis_ids":338,"./constants":341,"@plotly/d3":20,"d3-time-format":30,"fast-isnumeric":33}],357:[function(_dereq_,module,exports){ 'use strict'; /* * Attributes 'showexponent', 'showtickprefix' and 'showticksuffix' * share values. * * If only 1 attribute is set, * the remaining attributes inherit that value. * * If 2 attributes are set to the same value, * the remaining attribute inherits that value. * * If 2 attributes are set to different values, * the remaining is set to its dflt value. * */ module.exports = function getShowAttrDflt(containerIn) { var showAttrsAll = ['showexponent', 'showtickprefix', 'showticksuffix']; var showAttrs = showAttrsAll.filter(function(a) { return containerIn[a] !== undefined; }); var sameVal = function(a) { return containerIn[a] === containerIn[showAttrs[0]]; }; if(showAttrs.every(sameVal) || showAttrs.length === 1) { return containerIn[showAttrs[0]]; } }; },{}],358:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var contrast = _dereq_('../../components/color').contrast; var layoutAttributes = _dereq_('./layout_attributes'); var getShowAttrDflt = _dereq_('./show_dflt'); var handleArrayContainerDefaults = _dereq_('../array_container_defaults'); module.exports = function handleTickLabelDefaults(containerIn, containerOut, coerce, axType, options) { if(!options) options = {}; var showAttrDflt = getShowAttrDflt(containerIn); var showTickLabels = coerce('showticklabels'); if(showTickLabels) { var font = options.font || {}; var contColor = containerOut.color; var position = containerOut.ticklabelposition || ''; var dfltFontColor = position.indexOf('inside') !== -1 ? contrast(options.bgColor) : // as with titlefont.color, inherit axis.color only if one was // explicitly provided (contColor && contColor !== layoutAttributes.color.dflt) ? contColor : font.color; Lib.coerceFont(coerce, 'tickfont', { family: font.family, size: font.size, color: dfltFontColor }); if( !options.noTicklabelstep && axType !== 'multicategory' && axType !== 'log' ) { coerce('ticklabelstep'); } if(!options.noAng) coerce('tickangle'); if(axType !== 'category') { var tickFormat = coerce('tickformat'); handleArrayContainerDefaults(containerIn, containerOut, { name: 'tickformatstops', inclusionAttr: 'enabled', handleItemDefaults: tickformatstopDefaults }); if(!containerOut.tickformatstops.length) { delete containerOut.tickformatstops; } if(!options.noExp && !tickFormat && axType !== 'date') { coerce('showexponent', showAttrDflt); coerce('exponentformat'); coerce('minexponent'); coerce('separatethousands'); } } } }; function tickformatstopDefaults(valueIn, valueOut) { function coerce(attr, dflt) { return Lib.coerce(valueIn, valueOut, layoutAttributes.tickformatstops, attr, dflt); } var enabled = coerce('enabled'); if(enabled) { coerce('dtickrange'); coerce('value'); } } },{"../../components/color":157,"../../lib":287,"../array_container_defaults":329,"./layout_attributes":349,"./show_dflt":357}],359:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var layoutAttributes = _dereq_('./layout_attributes'); /** * options: inherits outerTicks from axes.handleAxisDefaults */ module.exports = function handleTickMarkDefaults(containerIn, containerOut, coerce, options) { var isMinor = options.isMinor; var cIn = isMinor ? containerIn.minor || {} : containerIn; var cOut = isMinor ? containerOut.minor : containerOut; var lAttr = isMinor ? layoutAttributes.minor : layoutAttributes; var prefix = isMinor ? 'minor.' : ''; var tickLen = Lib.coerce2(cIn, cOut, lAttr, 'ticklen', isMinor ? ((containerOut.ticklen || 5) * 0.6) : undefined); var tickWidth = Lib.coerce2(cIn, cOut, lAttr, 'tickwidth', isMinor ? (containerOut.tickwidth || 1) : undefined); var tickColor = Lib.coerce2(cIn, cOut, lAttr, 'tickcolor', (isMinor ? containerOut.tickcolor : undefined) || cOut.color); var showTicks = coerce(prefix + 'ticks', ( (!isMinor && options.outerTicks) || tickLen || tickWidth || tickColor ) ? 'outside' : ''); if(!showTicks) { delete cOut.ticklen; delete cOut.tickwidth; delete cOut.tickcolor; } }; },{"../../lib":287,"./layout_attributes":349}],360:[function(_dereq_,module,exports){ 'use strict'; var cleanTicks = _dereq_('./clean_ticks'); var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray; module.exports = function handleTickValueDefaults(containerIn, containerOut, coerce, axType, opts) { if(!opts) opts = {}; var isMinor = opts.isMinor; var cIn = isMinor ? containerIn.minor || {} : containerIn; var cOut = isMinor ? containerOut.minor : containerOut; var prefix = isMinor ? 'minor.' : ''; function readInput(attr) { var v = cIn[attr]; return ( v !== undefined ) ? v : (cOut._template || {})[attr]; } var _tick0 = readInput('tick0'); var _dtick = readInput('dtick'); var _tickvals = readInput('tickvals'); var tickmodeDefault = isArrayOrTypedArray(_tickvals) ? 'array' : _dtick ? 'linear' : 'auto'; var tickmode = coerce(prefix + 'tickmode', tickmodeDefault); if(tickmode === 'auto') { coerce(prefix + 'nticks'); } else if(tickmode === 'linear') { // dtick is usually a positive number, but there are some // special strings available for log or date axes // tick0 also has special logic var dtick = cOut.dtick = cleanTicks.dtick( _dtick, axType); cOut.tick0 = cleanTicks.tick0( _tick0, axType, containerOut.calendar, dtick); } else if(axType !== 'multicategory') { var tickvals = coerce(prefix + 'tickvals'); if(tickvals === undefined) cOut.tickmode = 'auto'; else if(!isMinor) coerce('ticktext'); } }; },{"../../lib":287,"./clean_ticks":340}],361:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var Drawing = _dereq_('../../components/drawing'); var Axes = _dereq_('./axes'); /** * transitionAxes * * transition axes from one set of ranges to another, using a svg * transformations, similar to during panning. * * @param {DOM element | object} gd * @param {array} edits : array of 'edits', each item with * - plotinfo {object} subplot object * - xr0 {array} initial x-range * - xr1 {array} end x-range * - yr0 {array} initial y-range * - yr1 {array} end y-range * @param {object} transitionOpts * @param {function} makeOnCompleteCallback */ module.exports = function transitionAxes(gd, edits, transitionOpts, makeOnCompleteCallback) { var fullLayout = gd._fullLayout; // special case for redraw:false Plotly.animate that relies on this // to update axis-referenced layout components if(edits.length === 0) { Axes.redrawComponents(gd); return; } function unsetSubplotTransform(subplot) { var xa = subplot.xaxis; var ya = subplot.yaxis; fullLayout._defs.select('#' + subplot.clipId + '> rect') .call(Drawing.setTranslate, 0, 0) .call(Drawing.setScale, 1, 1); subplot.plot .call(Drawing.setTranslate, xa._offset, ya._offset) .call(Drawing.setScale, 1, 1); var traceGroups = subplot.plot.selectAll('.scatterlayer .trace'); // This is specifically directed at scatter traces, applying an inverse // scale to individual points to counteract the scale of the trace // as a whole: traceGroups.selectAll('.point') .call(Drawing.setPointGroupScale, 1, 1); traceGroups.selectAll('.textpoint') .call(Drawing.setTextPointsScale, 1, 1); traceGroups .call(Drawing.hideOutsideRangePoints, subplot); } function updateSubplot(edit, progress) { var plotinfo = edit.plotinfo; var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var xlen = xa._length; var ylen = ya._length; var editX = !!edit.xr1; var editY = !!edit.yr1; var viewBox = []; if(editX) { var xr0 = Lib.simpleMap(edit.xr0, xa.r2l); var xr1 = Lib.simpleMap(edit.xr1, xa.r2l); var dx0 = xr0[1] - xr0[0]; var dx1 = xr1[1] - xr1[0]; viewBox[0] = (xr0[0] * (1 - progress) + progress * xr1[0] - xr0[0]) / (xr0[1] - xr0[0]) * xlen; viewBox[2] = xlen * ((1 - progress) + progress * dx1 / dx0); xa.range[0] = xa.l2r(xr0[0] * (1 - progress) + progress * xr1[0]); xa.range[1] = xa.l2r(xr0[1] * (1 - progress) + progress * xr1[1]); } else { viewBox[0] = 0; viewBox[2] = xlen; } if(editY) { var yr0 = Lib.simpleMap(edit.yr0, ya.r2l); var yr1 = Lib.simpleMap(edit.yr1, ya.r2l); var dy0 = yr0[1] - yr0[0]; var dy1 = yr1[1] - yr1[0]; viewBox[1] = (yr0[1] * (1 - progress) + progress * yr1[1] - yr0[1]) / (yr0[0] - yr0[1]) * ylen; viewBox[3] = ylen * ((1 - progress) + progress * dy1 / dy0); ya.range[0] = xa.l2r(yr0[0] * (1 - progress) + progress * yr1[0]); ya.range[1] = ya.l2r(yr0[1] * (1 - progress) + progress * yr1[1]); } else { viewBox[1] = 0; viewBox[3] = ylen; } Axes.drawOne(gd, xa, {skipTitle: true}); Axes.drawOne(gd, ya, {skipTitle: true}); Axes.redrawComponents(gd, [xa._id, ya._id]); var xScaleFactor = editX ? xlen / viewBox[2] : 1; var yScaleFactor = editY ? ylen / viewBox[3] : 1; var clipDx = editX ? viewBox[0] : 0; var clipDy = editY ? viewBox[1] : 0; var fracDx = editX ? (viewBox[0] / viewBox[2] * xlen) : 0; var fracDy = editY ? (viewBox[1] / viewBox[3] * ylen) : 0; var plotDx = xa._offset - fracDx; var plotDy = ya._offset - fracDy; plotinfo.clipRect .call(Drawing.setTranslate, clipDx, clipDy) .call(Drawing.setScale, 1 / xScaleFactor, 1 / yScaleFactor); plotinfo.plot .call(Drawing.setTranslate, plotDx, plotDy) .call(Drawing.setScale, xScaleFactor, yScaleFactor); // apply an inverse scale to individual points to counteract // the scale of the trace group. Drawing.setPointGroupScale(plotinfo.zoomScalePts, 1 / xScaleFactor, 1 / yScaleFactor); Drawing.setTextPointsScale(plotinfo.zoomScaleTxt, 1 / xScaleFactor, 1 / yScaleFactor); } var onComplete; if(makeOnCompleteCallback) { // This module makes the choice whether or not it notifies Plotly.transition // about completion: onComplete = makeOnCompleteCallback(); } function transitionComplete() { var aobj = {}; for(var i = 0; i < edits.length; i++) { var edit = edits[i]; var xa = edit.plotinfo.xaxis; var ya = edit.plotinfo.yaxis; if(edit.xr1) aobj[xa._name + '.range'] = edit.xr1.slice(); if(edit.yr1) aobj[ya._name + '.range'] = edit.yr1.slice(); } // Signal that this transition has completed: onComplete && onComplete(); return Registry.call('relayout', gd, aobj).then(function() { for(var i = 0; i < edits.length; i++) { unsetSubplotTransform(edits[i].plotinfo); } }); } function transitionInterrupt() { var aobj = {}; for(var i = 0; i < edits.length; i++) { var edit = edits[i]; var xa = edit.plotinfo.xaxis; var ya = edit.plotinfo.yaxis; if(edit.xr0) aobj[xa._name + '.range'] = edit.xr0.slice(); if(edit.yr0) aobj[ya._name + '.range'] = edit.yr0.slice(); } return Registry.call('relayout', gd, aobj).then(function() { for(var i = 0; i < edits.length; i++) { unsetSubplotTransform(edits[i].plotinfo); } }); } var t1, t2, raf; var easeFn = d3.ease(transitionOpts.easing); gd._transitionData._interruptCallbacks.push(function() { window.cancelAnimationFrame(raf); raf = null; return transitionInterrupt(); }); function doFrame() { t2 = Date.now(); var tInterp = Math.min(1, (t2 - t1) / transitionOpts.duration); var progress = easeFn(tInterp); for(var i = 0; i < edits.length; i++) { updateSubplot(edits[i], progress); } if(t2 - t1 > transitionOpts.duration) { transitionComplete(); raf = window.cancelAnimationFrame(doFrame); } else { raf = window.requestAnimationFrame(doFrame); } } t1 = Date.now(); raf = window.requestAnimationFrame(doFrame); return Promise.resolve(); }; },{"../../components/drawing":179,"../../lib":287,"../../registry":378,"./axes":334,"@plotly/d3":20}],362:[function(_dereq_,module,exports){ 'use strict'; var traceIs = _dereq_('../../registry').traceIs; var autoType = _dereq_('./axis_autotype'); /* * data: the plot data to use in choosing auto type * name: axis object name (ie 'xaxis') if one should be stored */ module.exports = function handleTypeDefaults(containerIn, containerOut, coerce, options) { coerce('autotypenumbers', options.autotypenumbersDflt); var axType = coerce('type', (options.splomStash || {}).type); if(axType === '-') { setAutoType(containerOut, options.data); if(containerOut.type === '-') { containerOut.type = 'linear'; } else { // copy autoType back to input axis // note that if this object didn't exist // in the input layout, we have to put it in // this happens in the main supplyDefaults function containerIn.type = containerOut.type; } } }; function setAutoType(ax, data) { // new logic: let people specify any type they want, // only autotype if type is '-' if(ax.type !== '-') return; var id = ax._id; var axLetter = id.charAt(0); var i; // support 3d if(id.indexOf('scene') !== -1) id = axLetter; var d0 = getFirstNonEmptyTrace(data, id, axLetter); if(!d0) return; // first check for histograms, as the count direction // should always default to a linear axis if(d0.type === 'histogram' && axLetter === {v: 'y', h: 'x'}[d0.orientation || 'v'] ) { ax.type = 'linear'; return; } var calAttr = axLetter + 'calendar'; var calendar = d0[calAttr]; var opts = {noMultiCategory: !traceIs(d0, 'cartesian') || traceIs(d0, 'noMultiCategory')}; // To not confuse 2D x/y used for per-box sample points for multicategory coordinates if(d0.type === 'box' && d0._hasPreCompStats && axLetter === {h: 'x', v: 'y'}[d0.orientation || 'v'] ) { opts.noMultiCategory = true; } opts.autotypenumbers = ax.autotypenumbers; // check all boxes on this x axis to see // if they're dates, numbers, or categories if(isBoxWithoutPositionCoords(d0, axLetter)) { var posLetter = getBoxPosLetter(d0); var boxPositions = []; for(i = 0; i < data.length; i++) { var trace = data[i]; if(!traceIs(trace, 'box-violin') || (trace[axLetter + 'axis'] || axLetter) !== id) continue; if(trace[posLetter] !== undefined) boxPositions.push(trace[posLetter][0]); else if(trace.name !== undefined) boxPositions.push(trace.name); else boxPositions.push('text'); if(trace[calAttr] !== calendar) calendar = undefined; } ax.type = autoType(boxPositions, calendar, opts); } else if(d0.type === 'splom') { var dimensions = d0.dimensions; var dim = dimensions[d0._axesDim[id]]; if(dim.visible) ax.type = autoType(dim.values, calendar, opts); } else { ax.type = autoType(d0[axLetter] || [d0[axLetter + '0']], calendar, opts); } } function getFirstNonEmptyTrace(data, id, axLetter) { for(var i = 0; i < data.length; i++) { var trace = data[i]; if(trace.type === 'splom' && trace._length > 0 && (trace['_' + axLetter + 'axes'] || {})[id] ) { return trace; } if((trace[axLetter + 'axis'] || axLetter) === id) { if(isBoxWithoutPositionCoords(trace, axLetter)) { return trace; } else if((trace[axLetter] || []).length || trace[axLetter + '0']) { return trace; } } } } function getBoxPosLetter(trace) { return {v: 'x', h: 'y'}[trace.orientation || 'v']; } function isBoxWithoutPositionCoords(trace, axLetter) { var posLetter = getBoxPosLetter(trace); var isBox = traceIs(trace, 'box-violin'); var isCandlestick = traceIs(trace._fullInput || {}, 'candlestick'); return ( isBox && !isCandlestick && axLetter === posLetter && trace[posLetter] === undefined && trace[posLetter + '0'] === undefined ); } },{"../../registry":378,"./axis_autotype":335}],363:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../registry'); var Lib = _dereq_('../lib'); /* * Create or update an observer. This function is designed to be * idempotent so that it can be called over and over as the component * updates, and will attach and detach listeners as needed. * * @param {optional object} container * An object on which the observer is stored. This is the mechanism * by which it is idempotent. If it already exists, another won't be * added. Each time it's called, the value lookup table is updated. * @param {array} commandList * An array of commands, following either `buttons` of `updatemenus` * or `steps` of `sliders`. * @param {function} onchange * A listener called when the value is changed. Receives data object * with information about the new state. */ exports.manageCommandObserver = function(gd, container, commandList, onchange) { var ret = {}; var enabled = true; if(container && container._commandObserver) { ret = container._commandObserver; } if(!ret.cache) { ret.cache = {}; } // Either create or just recompute this: ret.lookupTable = {}; var binding = exports.hasSimpleAPICommandBindings(gd, commandList, ret.lookupTable); if(container && container._commandObserver) { if(!binding) { // If container exists and there are no longer any bindings, // remove existing: if(container._commandObserver.remove) { container._commandObserver.remove(); container._commandObserver = null; return ret; } } else { // If container exists and there *are* bindings, then the lookup // table should have been updated and check is already attached, // so there's nothing to be done: return ret; } } // Determine whether there's anything to do for this binding: if(binding) { // Build the cache: bindingValueHasChanged(gd, binding, ret.cache); ret.check = function check() { if(!enabled) return; var update = bindingValueHasChanged(gd, binding, ret.cache); if(update.changed && onchange) { // Disable checks for the duration of this command in order to avoid // infinite loops: if(ret.lookupTable[update.value] !== undefined) { ret.disable(); Promise.resolve(onchange({ value: update.value, type: binding.type, prop: binding.prop, traces: binding.traces, index: ret.lookupTable[update.value] })).then(ret.enable, ret.enable); } } return update.changed; }; var checkEvents = [ 'plotly_relayout', 'plotly_redraw', 'plotly_restyle', 'plotly_update', 'plotly_animatingframe', 'plotly_afterplot' ]; for(var i = 0; i < checkEvents.length; i++) { gd._internalOn(checkEvents[i], ret.check); } ret.remove = function() { for(var i = 0; i < checkEvents.length; i++) { gd._removeInternalListener(checkEvents[i], ret.check); } }; } else { // TODO: It'd be really neat to actually give a *reason* for this, but at least a warning // is a start Lib.log('Unable to automatically bind plot updates to API command'); ret.lookupTable = {}; ret.remove = function() {}; } ret.disable = function disable() { enabled = false; }; ret.enable = function enable() { enabled = true; }; if(container) { container._commandObserver = ret; } return ret; }; /* * This function checks to see if an array of objects containing * method and args properties is compatible with automatic two-way * binding. The criteria right now are that * * 1. multiple traces may be affected * 2. only one property may be affected * 3. the same property must be affected by all commands */ exports.hasSimpleAPICommandBindings = function(gd, commandList, bindingsByValue) { var i; var n = commandList.length; var refBinding; for(i = 0; i < n; i++) { var binding; var command = commandList[i]; var method = command.method; var args = command.args; if(!Array.isArray(args)) args = []; // If any command has no method, refuse to bind: if(!method) { return false; } var bindings = exports.computeAPICommandBindings(gd, method, args); // Right now, handle one and *only* one property being set: if(bindings.length !== 1) { return false; } if(!refBinding) { refBinding = bindings[0]; if(Array.isArray(refBinding.traces)) { refBinding.traces.sort(); } } else { binding = bindings[0]; if(binding.type !== refBinding.type) { return false; } if(binding.prop !== refBinding.prop) { return false; } if(Array.isArray(refBinding.traces)) { if(Array.isArray(binding.traces)) { binding.traces.sort(); for(var j = 0; j < refBinding.traces.length; j++) { if(refBinding.traces[j] !== binding.traces[j]) { return false; } } } else { return false; } } else { if(binding.prop !== refBinding.prop) { return false; } } } binding = bindings[0]; var value = binding.value; if(Array.isArray(value)) { if(value.length === 1) { value = value[0]; } else { return false; } } if(bindingsByValue) { bindingsByValue[value] = i; } } return refBinding; }; function bindingValueHasChanged(gd, binding, cache) { var container, value, obj; var changed = false; if(binding.type === 'data') { // If it's data, we need to get a trace. Based on the limited scope // of what we cover, we can just take the first trace from the list, // or otherwise just the first trace: container = gd._fullData[binding.traces !== null ? binding.traces[0] : 0]; } else if(binding.type === 'layout') { container = gd._fullLayout; } else { return false; } value = Lib.nestedProperty(container, binding.prop).get(); obj = cache[binding.type] = cache[binding.type] || {}; if(obj.hasOwnProperty(binding.prop)) { if(obj[binding.prop] !== value) { changed = true; } } obj[binding.prop] = value; return { changed: changed, value: value }; } /* * Execute an API command. There's really not much to this; it just provides * a common hook so that implementations don't need to be synchronized across * multiple components with the ability to invoke API commands. * * @param {string} method * The name of the plotly command to execute. Must be one of 'animate', * 'restyle', 'relayout', 'update'. * @param {array} args * A list of arguments passed to the API command */ exports.executeAPICommand = function(gd, method, args) { if(method === 'skip') return Promise.resolve(); var _method = Registry.apiMethodRegistry[method]; var allArgs = [gd]; if(!Array.isArray(args)) args = []; for(var i = 0; i < args.length; i++) { allArgs.push(args[i]); } return _method.apply(null, allArgs).catch(function(err) { Lib.warn('API call to Plotly.' + method + ' rejected.', err); return Promise.reject(err); }); }; exports.computeAPICommandBindings = function(gd, method, args) { var bindings; if(!Array.isArray(args)) args = []; switch(method) { case 'restyle': bindings = computeDataBindings(gd, args); break; case 'relayout': bindings = computeLayoutBindings(gd, args); break; case 'update': bindings = computeDataBindings(gd, [args[0], args[2]]) .concat(computeLayoutBindings(gd, [args[1]])); break; case 'animate': bindings = computeAnimateBindings(gd, args); break; default: // This is the case where intelligent logic about what affects // this command is not implemented. It causes no ill effects. // For example, addFrames simply won't bind to a control component. bindings = []; } return bindings; }; function computeAnimateBindings(gd, args) { // We'll assume that the only relevant modification an animation // makes that's meaningfully tracked is the frame: if(Array.isArray(args[0]) && args[0].length === 1 && ['string', 'number'].indexOf(typeof args[0][0]) !== -1) { return [{type: 'layout', prop: '_currentFrame', value: args[0][0].toString()}]; } else { return []; } } function computeLayoutBindings(gd, args) { var bindings = []; var astr = args[0]; var aobj = {}; if(typeof astr === 'string') { aobj[astr] = args[1]; } else if(Lib.isPlainObject(astr)) { aobj = astr; } else { return bindings; } crawl(aobj, function(path, attrName, attr) { bindings.push({type: 'layout', prop: path, value: attr}); }, '', 0); return bindings; } function computeDataBindings(gd, args) { var traces, astr, val, aobj; var bindings = []; // Logic copied from Plotly.restyle: astr = args[0]; val = args[1]; traces = args[2]; aobj = {}; if(typeof astr === 'string') { aobj[astr] = val; } else if(Lib.isPlainObject(astr)) { // the 3-arg form aobj = astr; if(traces === undefined) { traces = val; } } else { return bindings; } if(traces === undefined) { // Explicitly assign this to null instead of undefined: traces = null; } crawl(aobj, function(path, attrName, _attr) { var thisTraces; var attr; if(Array.isArray(_attr)) { attr = _attr.slice(); var nAttr = Math.min(attr.length, gd.data.length); if(traces) { nAttr = Math.min(nAttr, traces.length); } thisTraces = []; for(var j = 0; j < nAttr; j++) { thisTraces[j] = traces ? traces[j] : j; } } else { attr = _attr; thisTraces = traces ? traces.slice() : null; } // Convert [7] to just 7 when traces is null: if(thisTraces === null) { if(Array.isArray(attr)) { attr = attr[0]; } } else if(Array.isArray(thisTraces)) { if(!Array.isArray(attr)) { var tmp = attr; attr = []; for(var i = 0; i < thisTraces.length; i++) { attr[i] = tmp; } } attr.length = Math.min(thisTraces.length, attr.length); } bindings.push({ type: 'data', prop: path, traces: thisTraces, value: attr }); }, '', 0); return bindings; } function crawl(attrs, callback, path, depth) { Object.keys(attrs).forEach(function(attrName) { var attr = attrs[attrName]; if(attrName[0] === '_') return; var thisPath = path + (depth > 0 ? '.' : '') + attrName; if(Lib.isPlainObject(attr)) { crawl(attr, callback, thisPath, depth + 1); } else { // Only execute the callback on leaf nodes: callback(thisPath, attrName, attr); } }); } },{"../lib":287,"../registry":378}],364:[function(_dereq_,module,exports){ 'use strict'; var extendFlat = _dereq_('../lib/extend').extendFlat; /** * Make a xy domain attribute group * * @param {object} opts * @param {string} * opts.name: name to be inserted in the default description * @param {boolean} * opts.trace: set to true for trace containers * @param {string} * opts.editType: editType for all pieces * @param {boolean} * opts.noGridCell: set to true to omit `row` and `column` * * @param {object} extra * @param {string} * extra.description: extra description. N.B we use * a separate extra container to make it compatible with * the compress_attributes transform. * * @return {object} attributes object containing {x,y} as specified */ exports.attributes = function(opts, extra) { opts = opts || {}; extra = extra || {}; var base = { valType: 'info_array', editType: opts.editType, items: [ {valType: 'number', min: 0, max: 1, editType: opts.editType}, {valType: 'number', min: 0, max: 1, editType: opts.editType} ], dflt: [0, 1] }; var namePart = opts.name ? opts.name + ' ' : ''; var contPart = opts.trace ? 'trace ' : 'subplot '; var descPart = extra.description ? ' ' + extra.description : ''; var out = { x: extendFlat({}, base, { }), y: extendFlat({}, base, { }), editType: opts.editType }; if(!opts.noGridCell) { out.row = { valType: 'integer', min: 0, dflt: 0, editType: opts.editType, }; out.column = { valType: 'integer', min: 0, dflt: 0, editType: opts.editType, }; } return out; }; exports.defaults = function(containerOut, layout, coerce, dfltDomains) { var dfltX = (dfltDomains && dfltDomains.x) || [0, 1]; var dfltY = (dfltDomains && dfltDomains.y) || [0, 1]; var grid = layout.grid; if(grid) { var column = coerce('domain.column'); if(column !== undefined) { if(column < grid.columns) dfltX = grid._domains.x[column]; else delete containerOut.domain.column; } var row = coerce('domain.row'); if(row !== undefined) { if(row < grid.rows) dfltY = grid._domains.y[row]; else delete containerOut.domain.row; } } var x = coerce('domain.x', dfltX); var y = coerce('domain.y', dfltY); // don't accept bad input data if(!(x[0] < x[1])) containerOut.domain.x = dfltX.slice(); if(!(y[0] < y[1])) containerOut.domain.y = dfltY.slice(); }; },{"../lib/extend":281}],365:[function(_dereq_,module,exports){ 'use strict'; /* * make a font attribute group * * @param {object} opts * @param {string} * opts.description: where & how this font is used * @param {optional bool} arrayOk: * should each part (family, size, color) be arrayOk? default false. * @param {string} editType: * the editType for all pieces of this font * @param {optional string} colorEditType: * a separate editType just for color * * @return {object} attributes object containing {family, size, color} as specified */ module.exports = function(opts) { var editType = opts.editType; var colorEditType = opts.colorEditType; if(colorEditType === undefined) colorEditType = editType; var attrs = { family: { valType: 'string', noBlank: true, strict: true, editType: editType, }, size: { valType: 'number', min: 1, editType: editType }, color: { valType: 'color', editType: colorEditType }, editType: editType, // blank strings so compress_attributes can remove // TODO - that's uber hacky... better solution? }; if(opts.autoSize) attrs.size.dflt = 'auto'; if(opts.autoColor) attrs.color.dflt = 'auto'; if(opts.arrayOk) { attrs.family.arrayOk = true; attrs.size.arrayOk = true; attrs.color.arrayOk = true; } return attrs; }; },{}],366:[function(_dereq_,module,exports){ 'use strict'; module.exports = { _isLinkedToArray: 'frames_entry', group: { valType: 'string', }, name: { valType: 'string', }, traces: { valType: 'any', }, baseframe: { valType: 'string', }, data: { valType: 'any', }, layout: { valType: 'any', } }; },{}],367:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../registry'); var SUBPLOT_PATTERN = _dereq_('./cartesian/constants').SUBPLOT_PATTERN; /** * Get calcdata trace(s) associated with a given subplot * * @param {array} calcData: as in gd.calcdata * @param {string} type: subplot type * @param {string} subplotId: subplot id to look for * * @return {array} array of calcdata traces */ exports.getSubplotCalcData = function(calcData, type, subplotId) { var basePlotModule = Registry.subplotsRegistry[type]; if(!basePlotModule) return []; var attr = basePlotModule.attr; var subplotCalcData = []; for(var i = 0; i < calcData.length; i++) { var calcTrace = calcData[i]; var trace = calcTrace[0].trace; if(trace[attr] === subplotId) subplotCalcData.push(calcTrace); } return subplotCalcData; }; /** * Get calcdata trace(s) that can be plotted with a given module * NOTE: this isn't necessarily just exactly matching trace type, * if multiple trace types use the same plotting routine, they will be * collected here. * In order to not plot the same thing multiple times, we return two arrays, * the calcdata we *will* plot with this module, and the ones we *won't* * * @param {array} calcdata: as in gd.calcdata * @param {object|string|fn} arg1: * the plotting module, or its name, or its plot method * * @return {array[array]} [foundCalcdata, remainingCalcdata] */ exports.getModuleCalcData = function(calcdata, arg1) { var moduleCalcData = []; var remainingCalcData = []; var plotMethod; if(typeof arg1 === 'string') { plotMethod = Registry.getModule(arg1).plot; } else if(typeof arg1 === 'function') { plotMethod = arg1; } else { plotMethod = arg1.plot; } if(!plotMethod) { return [moduleCalcData, calcdata]; } for(var i = 0; i < calcdata.length; i++) { var cd = calcdata[i]; var trace = cd[0].trace; // N.B. // - 'legendonly' traces do not make it past here // - skip over 'visible' traces that got trimmed completely during calc transforms if(trace.visible !== true || trace._length === 0) continue; // group calcdata trace not by 'module' (as the name of this function // would suggest), but by 'module plot method' so that if some traces // share the same module plot method (e.g. bar and histogram), we // only call it one! if(trace._module.plot === plotMethod) { moduleCalcData.push(cd); } else { remainingCalcData.push(cd); } } return [moduleCalcData, remainingCalcData]; }; /** * Get the data trace(s) associated with a given subplot. * * @param {array} data plotly full data array. * @param {string} type subplot type to look for. * @param {string} subplotId subplot id to look for. * * @return {array} list of trace objects. * */ exports.getSubplotData = function getSubplotData(data, type, subplotId) { if(!Registry.subplotsRegistry[type]) return []; var attr = Registry.subplotsRegistry[type].attr; var subplotData = []; var trace, subplotX, subplotY; if(type === 'gl2d') { var spmatch = subplotId.match(SUBPLOT_PATTERN); subplotX = 'x' + spmatch[1]; subplotY = 'y' + spmatch[2]; } for(var i = 0; i < data.length; i++) { trace = data[i]; if(type === 'gl2d' && Registry.traceIs(trace, 'gl2d')) { if(trace[attr[0]] === subplotX && trace[attr[1]] === subplotY) { subplotData.push(trace); } } else { if(trace[attr] === subplotId) subplotData.push(trace); } } return subplotData; }; },{"../registry":378,"./cartesian/constants":341}],368:[function(_dereq_,module,exports){ 'use strict'; function xformMatrix(m, v) { var out = [0, 0, 0, 0]; var i, j; for(i = 0; i < 4; ++i) { for(j = 0; j < 4; ++j) { out[j] += m[4 * i + j] * v[i]; } } return out; } function project(camera, v) { var p = xformMatrix(camera.projection, xformMatrix(camera.view, xformMatrix(camera.model, [v[0], v[1], v[2], 1]))); return p; } module.exports = project; },{}],369:[function(_dereq_,module,exports){ 'use strict'; var fontAttrs = _dereq_('./font_attributes'); var animationAttrs = _dereq_('./animation_attributes'); var colorAttrs = _dereq_('../components/color/attributes'); var drawNewShapeAttrs = _dereq_('../components/shapes/draw_newshape/attributes'); var padAttrs = _dereq_('./pad_attributes'); var extendFlat = _dereq_('../lib/extend').extendFlat; var globalFont = fontAttrs({ editType: 'calc', }); globalFont.family.dflt = '"Open Sans", verdana, arial, sans-serif'; globalFont.size.dflt = 12; globalFont.color.dflt = colorAttrs.defaultLine; module.exports = { font: globalFont, title: { text: { valType: 'string', editType: 'layoutstyle', }, font: fontAttrs({ editType: 'layoutstyle', }), xref: { valType: 'enumerated', dflt: 'container', values: ['container', 'paper'], editType: 'layoutstyle', }, yref: { valType: 'enumerated', dflt: 'container', values: ['container', 'paper'], editType: 'layoutstyle', }, x: { valType: 'number', min: 0, max: 1, dflt: 0.5, editType: 'layoutstyle', }, y: { valType: 'number', min: 0, max: 1, dflt: 'auto', editType: 'layoutstyle', }, xanchor: { valType: 'enumerated', dflt: 'auto', values: ['auto', 'left', 'center', 'right'], editType: 'layoutstyle', }, yanchor: { valType: 'enumerated', dflt: 'auto', values: ['auto', 'top', 'middle', 'bottom'], editType: 'layoutstyle', }, pad: extendFlat(padAttrs({editType: 'layoutstyle'}), { }), editType: 'layoutstyle' }, uniformtext: { mode: { valType: 'enumerated', values: [false, 'hide', 'show'], dflt: false, editType: 'plot', }, minsize: { valType: 'number', min: 0, dflt: 0, editType: 'plot', }, editType: 'plot' }, autosize: { valType: 'boolean', dflt: false, // autosize, width, and height get special editType treatment in _relayout // so we can handle noop resizes more efficiently editType: 'none', }, width: { valType: 'number', min: 10, dflt: 700, editType: 'plot', }, height: { valType: 'number', min: 10, dflt: 450, editType: 'plot', }, margin: { l: { valType: 'number', min: 0, dflt: 80, editType: 'plot', }, r: { valType: 'number', min: 0, dflt: 80, editType: 'plot', }, t: { valType: 'number', min: 0, dflt: 100, editType: 'plot', }, b: { valType: 'number', min: 0, dflt: 80, editType: 'plot', }, pad: { valType: 'number', min: 0, dflt: 0, editType: 'plot', }, autoexpand: { valType: 'boolean', dflt: true, editType: 'plot', }, editType: 'plot' }, computed: { valType: 'any', editType: 'none', }, paper_bgcolor: { valType: 'color', dflt: colorAttrs.background, editType: 'plot', }, plot_bgcolor: { // defined here, but set in cartesian.supplyLayoutDefaults // because it needs to know if there are (2D) axes or not valType: 'color', dflt: colorAttrs.background, editType: 'layoutstyle', }, autotypenumbers: { valType: 'enumerated', values: ['convert types', 'strict'], dflt: 'convert types', editType: 'calc', }, separators: { valType: 'string', editType: 'plot', }, hidesources: { valType: 'boolean', dflt: false, editType: 'plot', }, showlegend: { // handled in legend.supplyLayoutDefaults // but included here because it's not in the legend object valType: 'boolean', editType: 'legend', }, colorway: { valType: 'colorlist', dflt: colorAttrs.defaults, editType: 'calc', }, datarevision: { valType: 'any', editType: 'calc', }, uirevision: { valType: 'any', editType: 'none', }, editrevision: { valType: 'any', editType: 'none', }, selectionrevision: { valType: 'any', editType: 'none', }, template: { valType: 'any', editType: 'calc', }, newshape: drawNewShapeAttrs.newshape, activeshape: drawNewShapeAttrs.activeshape, meta: { valType: 'any', arrayOk: true, editType: 'plot', }, transition: extendFlat({}, animationAttrs.transition, { editType: 'none' }), _deprecated: { title: { valType: 'string', editType: 'layoutstyle', }, titlefont: fontAttrs({ editType: 'layoutstyle', }) } }; },{"../components/color/attributes":156,"../components/shapes/draw_newshape/attributes":242,"../lib/extend":281,"./animation_attributes":328,"./font_attributes":365,"./pad_attributes":370}],370:[function(_dereq_,module,exports){ 'use strict'; /** * Creates a set of padding attributes. * * @param {object} opts * @param {string} editType: * the editType for all pieces of this padding definition * * @return {object} attributes object containing {t, r, b, l} as specified */ module.exports = function(opts) { var editType = opts.editType; return { t: { valType: 'number', dflt: 0, editType: editType, }, r: { valType: 'number', dflt: 0, editType: editType, }, b: { valType: 'number', dflt: 0, editType: editType, }, l: { valType: 'number', dflt: 0, editType: editType, }, editType: editType }; }; },{}],371:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var timeFormatLocale = _dereq_('d3-time-format').timeFormatLocale; var formatLocale = _dereq_('d3-format').formatLocale; var isNumeric = _dereq_('fast-isnumeric'); var Registry = _dereq_('../registry'); var PlotSchema = _dereq_('../plot_api/plot_schema'); var Template = _dereq_('../plot_api/plot_template'); var Lib = _dereq_('../lib'); var Color = _dereq_('../components/color'); var BADNUM = _dereq_('../constants/numerical').BADNUM; var axisIDs = _dereq_('./cartesian/axis_ids'); var clearSelect = _dereq_('./cartesian/handle_outline').clearSelect; var animationAttrs = _dereq_('./animation_attributes'); var frameAttrs = _dereq_('./frame_attributes'); var getModuleCalcData = _dereq_('../plots/get_data').getModuleCalcData; var relinkPrivateKeys = Lib.relinkPrivateKeys; var _ = Lib._; var plots = module.exports = {}; // Expose registry methods on Plots for backward-compatibility Lib.extendFlat(plots, Registry); plots.attributes = _dereq_('./attributes'); plots.attributes.type.values = plots.allTypes; plots.fontAttrs = _dereq_('./font_attributes'); plots.layoutAttributes = _dereq_('./layout_attributes'); // TODO make this a plot attribute? plots.fontWeight = 'normal'; var transformsRegistry = plots.transformsRegistry; var commandModule = _dereq_('./command'); plots.executeAPICommand = commandModule.executeAPICommand; plots.computeAPICommandBindings = commandModule.computeAPICommandBindings; plots.manageCommandObserver = commandModule.manageCommandObserver; plots.hasSimpleAPICommandBindings = commandModule.hasSimpleAPICommandBindings; // in some cases the browser doesn't seem to know how big // the text is at first, so it needs to draw it, // then wait a little, then draw it again plots.redrawText = function(gd) { gd = Lib.getGraphDiv(gd); return new Promise(function(resolve) { setTimeout(function() { if(!gd._fullLayout) return; Registry.getComponentMethod('annotations', 'draw')(gd); Registry.getComponentMethod('legend', 'draw')(gd); Registry.getComponentMethod('colorbar', 'draw')(gd); resolve(plots.previousPromises(gd)); }, 300); }); }; // resize plot about the container size plots.resize = function(gd) { gd = Lib.getGraphDiv(gd); var resolveLastResize; var p = new Promise(function(resolve, reject) { if(!gd || Lib.isHidden(gd)) { reject(new Error('Resize must be passed a displayed plot div element.')); } if(gd._redrawTimer) clearTimeout(gd._redrawTimer); if(gd._resolveResize) resolveLastResize = gd._resolveResize; gd._resolveResize = resolve; gd._redrawTimer = setTimeout(function() { // return if there is nothing to resize or is hidden if(!gd.layout || (gd.layout.width && gd.layout.height) || Lib.isHidden(gd)) { resolve(gd); return; } delete gd.layout.width; delete gd.layout.height; // autosizing doesn't count as a change that needs saving var oldchanged = gd.changed; // nor should it be included in the undo queue gd.autoplay = true; Registry.call('relayout', gd, {autosize: true}).then(function() { gd.changed = oldchanged; // Only resolve if a new call hasn't been made! if(gd._resolveResize === resolve) { delete gd._resolveResize; resolve(gd); } }); }, 100); }); if(resolveLastResize) resolveLastResize(p); return p; }; // for use in Lib.syncOrAsync, check if there are any // pending promises in this plot and wait for them plots.previousPromises = function(gd) { if((gd._promises || []).length) { return Promise.all(gd._promises) .then(function() { gd._promises = []; }); } }; /** * Adds the 'Edit chart' link. * Note that now _doPlot calls this so it can regenerate whenever it replots * * Add source links to your graph inside the 'showSources' config argument. */ plots.addLinks = function(gd) { // Do not do anything if showLink and showSources are not set to true in config if(!gd._context.showLink && !gd._context.showSources) return; var fullLayout = gd._fullLayout; var linkContainer = Lib.ensureSingle(fullLayout._paper, 'text', 'js-plot-link-container', function(s) { s.style({ 'font-family': '"Open Sans", Arial, sans-serif', 'font-size': '12px', 'fill': Color.defaultLine, 'pointer-events': 'all' }) .each(function() { var links = d3.select(this); links.append('tspan').classed('js-link-to-tool', true); links.append('tspan').classed('js-link-spacer', true); links.append('tspan').classed('js-sourcelinks', true); }); }); // The text node inside svg var text = linkContainer.node(); var attrs = {y: fullLayout._paper.attr('height') - 9}; // If text's width is bigger than the layout // Check that text is a child node or document.body // because otherwise IE/Edge might throw an exception // when calling getComputedTextLength(). // Apparently offsetParent is null for invisibles. if(document.body.contains(text) && text.getComputedTextLength() >= (fullLayout.width - 20)) { // Align the text at the left attrs['text-anchor'] = 'start'; attrs.x = 5; } else { // Align the text at the right attrs['text-anchor'] = 'end'; attrs.x = fullLayout._paper.attr('width') - 7; } linkContainer.attr(attrs); var toolspan = linkContainer.select('.js-link-to-tool'); var spacespan = linkContainer.select('.js-link-spacer'); var sourcespan = linkContainer.select('.js-sourcelinks'); if(gd._context.showSources) gd._context.showSources(gd); // 'view in plotly' link for embedded plots if(gd._context.showLink) positionPlayWithData(gd, toolspan); // separator if we have both sources and tool link spacespan.text((toolspan.text() && sourcespan.text()) ? ' - ' : ''); }; // note that now this function is only adding the brand in // iframes and 3rd-party apps function positionPlayWithData(gd, container) { container.text(''); var link = container.append('a') .attr({ 'xlink:xlink:href': '#', 'class': 'link--impt link--embedview', 'font-weight': 'bold' }) .text(gd._context.linkText + ' ' + String.fromCharCode(187)); if(gd._context.sendData) { link.on('click', function() { plots.sendDataToCloud(gd); }); } else { var path = window.location.pathname.split('/'); var query = window.location.search; link.attr({ 'xlink:xlink:show': 'new', 'xlink:xlink:href': '/' + path[2].split('.')[0] + '/' + path[1] + query }); } } plots.sendDataToCloud = function(gd) { var baseUrl = (window.PLOTLYENV || {}).BASE_URL || gd._context.plotlyServerURL; if(!baseUrl) return; gd.emit('plotly_beforeexport'); var hiddenformDiv = d3.select(gd) .append('div') .attr('id', 'hiddenform') .style('display', 'none'); var hiddenform = hiddenformDiv .append('form') .attr({ action: baseUrl + '/external', method: 'post', target: '_blank' }); var hiddenformInput = hiddenform .append('input') .attr({ type: 'text', name: 'data' }); hiddenformInput.node().value = plots.graphJson(gd, false, 'keepdata'); hiddenform.node().submit(); hiddenformDiv.remove(); gd.emit('plotly_afterexport'); return false; }; var d3FormatKeys = [ 'days', 'shortDays', 'months', 'shortMonths', 'periods', 'dateTime', 'date', 'time', 'decimal', 'thousands', 'grouping', 'currency' ]; var extraFormatKeys = [ 'year', 'month', 'dayMonth', 'dayMonthYear' ]; /* * Fill in default values * @param {DOM element} gd * @param {object} opts * @param {boolean} opts.skipUpdateCalc: normally if the existing gd.calcdata looks * compatible with the new gd._fullData we finish by linking the new _fullData traces * to the old gd.calcdata, so it's correctly set if we're not going to recalc. But also, * if there are calcTransforms on the trace, we first remap data arrays from the old full * trace into the new one. Use skipUpdateCalc to defer this (needed by Plotly.react) * * gd.data, gd.layout: * are precisely what the user specified (except as modified by cleanData/cleanLayout), * these fields shouldn't be modified (except for filling in some auto values) * nor used directly after the supply defaults step. * * gd._fullData, gd._fullLayout: * are complete descriptions of how to draw the plot, * use these fields in all required computations. * * gd._fullLayout._modules * is a list of all the trace modules required to draw the plot. * * gd._fullLayout._visibleModules * subset of _modules, a list of modules corresponding to visible:true traces. * * gd._fullLayout._basePlotModules * is a list of all the plot modules required to draw the plot. * * gd._fullLayout._transformModules * is a list of all the transform modules invoked. * */ plots.supplyDefaults = function(gd, opts) { var skipUpdateCalc = opts && opts.skipUpdateCalc; var oldFullLayout = gd._fullLayout || {}; if(oldFullLayout._skipDefaults) { delete oldFullLayout._skipDefaults; return; } var newFullLayout = gd._fullLayout = {}; var newLayout = gd.layout || {}; var oldFullData = gd._fullData || []; var newFullData = gd._fullData = []; var newData = gd.data || []; var oldCalcdata = gd.calcdata || []; var context = gd._context || {}; var i; // Create all the storage space for frames, but only if doesn't already exist if(!gd._transitionData) plots.createTransitionData(gd); // So we only need to do this once (and since we have gd here) // get the translated placeholder titles. // These ones get used as default values so need to be known at supplyDefaults // others keep their blank defaults but render the placeholder as desired later // TODO: make these work the same way, only inserting the placeholder text at draw time? // The challenge is that this has slightly different behavior right now in editable mode: // using the placeholder as default makes this text permanently (but lightly) visible, // but explicit '' for these titles gives you a placeholder that's hidden until you mouse // over it - so you're not distracted by it if you really don't want a title, but if you do // and you're new to plotly you may not be able to find it. // When editable=false the two behave the same, no title is drawn. newFullLayout._dfltTitle = { plot: _(gd, 'Click to enter Plot title'), x: _(gd, 'Click to enter X axis title'), y: _(gd, 'Click to enter Y axis title'), colorbar: _(gd, 'Click to enter Colorscale title'), annotation: _(gd, 'new text') }; newFullLayout._traceWord = _(gd, 'trace'); var formatObj = getFormatObj(gd, d3FormatKeys); // stash the token from context so mapbox subplots can use it as default newFullLayout._mapboxAccessToken = context.mapboxAccessToken; // first fill in what we can of layout without looking at data // because fullData needs a few things from layout if(oldFullLayout._initialAutoSizeIsDone) { // coerce the updated layout while preserving width and height var oldWidth = oldFullLayout.width; var oldHeight = oldFullLayout.height; plots.supplyLayoutGlobalDefaults(newLayout, newFullLayout, formatObj); if(!newLayout.width) newFullLayout.width = oldWidth; if(!newLayout.height) newFullLayout.height = oldHeight; plots.sanitizeMargins(newFullLayout); } else { // coerce the updated layout and autosize if needed plots.supplyLayoutGlobalDefaults(newLayout, newFullLayout, formatObj); var missingWidthOrHeight = (!newLayout.width || !newLayout.height); var autosize = newFullLayout.autosize; var autosizable = context.autosizable; var initialAutoSize = missingWidthOrHeight && (autosize || autosizable); if(initialAutoSize) plots.plotAutoSize(gd, newLayout, newFullLayout); else if(missingWidthOrHeight) plots.sanitizeMargins(newFullLayout); // for backwards-compatibility with Plotly v1.x.x if(!autosize && missingWidthOrHeight) { newLayout.width = newFullLayout.width; newLayout.height = newFullLayout.height; } } newFullLayout._d3locale = getFormatter(formatObj, newFullLayout.separators); newFullLayout._extraFormat = getFormatObj(gd, extraFormatKeys); newFullLayout._initialAutoSizeIsDone = true; // keep track of how many traces are inputted newFullLayout._dataLength = newData.length; // clear the lists of trace and baseplot modules, and subplots newFullLayout._modules = []; newFullLayout._visibleModules = []; newFullLayout._basePlotModules = []; var subplots = newFullLayout._subplots = emptySubplotLists(); // initialize axis and subplot hash objects for splom-generated grids var splomAxes = newFullLayout._splomAxes = {x: {}, y: {}}; var splomSubplots = newFullLayout._splomSubplots = {}; // initialize splom grid defaults newFullLayout._splomGridDflt = {}; // for stacked area traces to share config across traces newFullLayout._scatterStackOpts = {}; // for the first scatter trace on each subplot (so it knows tonext->tozero) newFullLayout._firstScatter = {}; // for grouped bar/box/violin trace to share config across traces newFullLayout._alignmentOpts = {}; // track color axes referenced in the data newFullLayout._colorAxes = {}; // for traces to request a default rangeslider on their x axes // eg set `_requestRangeslider.x2 = true` for xaxis2 newFullLayout._requestRangeslider = {}; // pull uids from old data to use as new defaults newFullLayout._traceUids = getTraceUids(oldFullData, newData); // then do the data newFullLayout._globalTransforms = (gd._context || {}).globalTransforms; plots.supplyDataDefaults(newData, newFullData, newLayout, newFullLayout); // redo grid size defaults with info about splom x/y axes, // and fill in generated cartesian axes and subplots var splomXa = Object.keys(splomAxes.x); var splomYa = Object.keys(splomAxes.y); if(splomXa.length > 1 && splomYa.length > 1) { Registry.getComponentMethod('grid', 'sizeDefaults')(newLayout, newFullLayout); for(i = 0; i < splomXa.length; i++) { Lib.pushUnique(subplots.xaxis, splomXa[i]); } for(i = 0; i < splomYa.length; i++) { Lib.pushUnique(subplots.yaxis, splomYa[i]); } for(var k in splomSubplots) { Lib.pushUnique(subplots.cartesian, k); } } // attach helper method to check whether a plot type is present on graph newFullLayout._has = plots._hasPlotType.bind(newFullLayout); if(oldFullData.length === newFullData.length) { for(i = 0; i < newFullData.length; i++) { relinkPrivateKeys(newFullData[i], oldFullData[i]); } } // finally, fill in the pieces of layout that may need to look at data plots.supplyLayoutModuleDefaults(newLayout, newFullLayout, newFullData, gd._transitionData); // Special cases that introduce interactions between traces. // This is after relinkPrivateKeys so we can use those in crossTraceDefaults // and after layout module defaults, so we can use eg barmode var _modules = newFullLayout._visibleModules; var crossTraceDefaultsFuncs = []; for(i = 0; i < _modules.length; i++) { var funci = _modules[i].crossTraceDefaults; // some trace types share crossTraceDefaults (ie histogram2d, histogram2dcontour) if(funci) Lib.pushUnique(crossTraceDefaultsFuncs, funci); } for(i = 0; i < crossTraceDefaultsFuncs.length; i++) { crossTraceDefaultsFuncs[i](newFullData, newFullLayout); } // turn on flag to optimize large splom-only graphs // mostly by omitting SVG layers during Cartesian.drawFramework newFullLayout._hasOnlyLargeSploms = ( newFullLayout._basePlotModules.length === 1 && newFullLayout._basePlotModules[0].name === 'splom' && splomXa.length > 15 && splomYa.length > 15 && newFullLayout.shapes.length === 0 && newFullLayout.images.length === 0 ); // relink / initialize subplot axis objects plots.linkSubplots(newFullData, newFullLayout, oldFullData, oldFullLayout); // clean subplots and other artifacts from previous plot calls plots.cleanPlot(newFullData, newFullLayout, oldFullData, oldFullLayout); var hadGL2D = !!(oldFullLayout._has && oldFullLayout._has('gl2d')); var hasGL2D = !!(newFullLayout._has && newFullLayout._has('gl2d')); var hadCartesian = !!(oldFullLayout._has && oldFullLayout._has('cartesian')); var hasCartesian = !!(newFullLayout._has && newFullLayout._has('cartesian')); var hadBgLayer = hadCartesian || hadGL2D; var hasBgLayer = hasCartesian || hasGL2D; if(hadBgLayer && !hasBgLayer) { // remove bgLayer oldFullLayout._bgLayer.remove(); } else if(hasBgLayer && !hadBgLayer) { // create bgLayer newFullLayout._shouldCreateBgLayer = true; } // clear selection outline until we implement persistent selection, // don't clear them though when drag handlers (e.g. listening to // `plotly_selecting`) update the graph. // we should try to come up with a better solution when implementing // https://github.com/plotly/plotly.js/issues/1851 if(oldFullLayout._zoomlayer && !gd._dragging) { clearSelect({ // mock old gd _fullLayout: oldFullLayout }); } // fill in meta helpers fillMetaTextHelpers(newFullData, newFullLayout); // relink functions and _ attributes to promote consistency between plots relinkPrivateKeys(newFullLayout, oldFullLayout); // colorscale crossTraceDefaults needs newFullLayout with relinked keys Registry.getComponentMethod('colorscale', 'crossTraceDefaults')(newFullData, newFullLayout); // For persisting GUI-driven changes in layout // _preGUI and _tracePreGUI were already copied over in relinkPrivateKeys if(!newFullLayout._preGUI) newFullLayout._preGUI = {}; // track trace GUI changes by uid rather than by trace index if(!newFullLayout._tracePreGUI) newFullLayout._tracePreGUI = {}; var tracePreGUI = newFullLayout._tracePreGUI; var uids = {}; var uid; for(uid in tracePreGUI) uids[uid] = 'old'; for(i = 0; i < newFullData.length; i++) { uid = newFullData[i]._fullInput.uid; if(!uids[uid]) tracePreGUI[uid] = {}; uids[uid] = 'new'; } for(uid in uids) { if(uids[uid] === 'old') delete tracePreGUI[uid]; } // set up containers for margin calculations initMargins(newFullLayout); // collect and do some initial calculations for rangesliders Registry.getComponentMethod('rangeslider', 'makeData')(newFullLayout); // update object references in calcdata if(!skipUpdateCalc && oldCalcdata.length === newFullData.length) { plots.supplyDefaultsUpdateCalc(oldCalcdata, newFullData); } }; plots.supplyDefaultsUpdateCalc = function(oldCalcdata, newFullData) { for(var i = 0; i < newFullData.length; i++) { var newTrace = newFullData[i]; var cd0 = (oldCalcdata[i] || [])[0]; if(cd0 && cd0.trace) { var oldTrace = cd0.trace; if(oldTrace._hasCalcTransform) { var arrayAttrs = oldTrace._arrayAttrs; var j, astr, oldArrayVal; for(j = 0; j < arrayAttrs.length; j++) { astr = arrayAttrs[j]; oldArrayVal = Lib.nestedProperty(oldTrace, astr).get().slice(); Lib.nestedProperty(newTrace, astr).set(oldArrayVal); } } cd0.trace = newTrace; } } }; /** * Create a list of uid strings satisfying (in this order of importance): * 1. all unique, all strings * 2. matches input uids if provided * 3. matches previous data uids */ function getTraceUids(oldFullData, newData) { var len = newData.length; var oldFullInput = []; var i, prevFullInput; for(i = 0; i < oldFullData.length; i++) { var thisFullInput = oldFullData[i]._fullInput; if(thisFullInput !== prevFullInput) oldFullInput.push(thisFullInput); prevFullInput = thisFullInput; } var oldLen = oldFullInput.length; var out = new Array(len); var seenUids = {}; function setUid(uid, i) { out[i] = uid; seenUids[uid] = 1; } function tryUid(uid, i) { if(uid && typeof uid === 'string' && !seenUids[uid]) { setUid(uid, i); return true; } } for(i = 0; i < len; i++) { var newUid = newData[i].uid; if(typeof newUid === 'number') newUid = String(newUid); if(tryUid(newUid, i)) continue; if(i < oldLen && tryUid(oldFullInput[i].uid, i)) continue; setUid(Lib.randstr(seenUids), i); } return out; } /** * Make a container for collecting subplots we need to display. * * Finds all subplot types we need to enumerate once and caches it, * but makes a new output object each time. * Single-trace subplots (which have no `id`) such as pie, table, etc * do not need to be collected because we just draw all visible traces. */ function emptySubplotLists() { var collectableSubplotTypes = Registry.collectableSubplotTypes; var out = {}; var i, j; if(!collectableSubplotTypes) { collectableSubplotTypes = []; var subplotsRegistry = Registry.subplotsRegistry; for(var subplotType in subplotsRegistry) { var subplotModule = subplotsRegistry[subplotType]; var subplotAttr = subplotModule.attr; if(subplotAttr) { collectableSubplotTypes.push(subplotType); // special case, currently just for cartesian: // we need to enumerate axes, not just subplots if(Array.isArray(subplotAttr)) { for(j = 0; j < subplotAttr.length; j++) { Lib.pushUnique(collectableSubplotTypes, subplotAttr[j]); } } } } } for(i = 0; i < collectableSubplotTypes.length; i++) { out[collectableSubplotTypes[i]] = []; } return out; } /** * getFormatObj: use _context to get the format object from locale. * Used to get d3.locale argument object and extraFormat argument object * * Regarding d3.locale argument : * decimal and thousands can be overridden later by layout.separators * grouping and currency are not presently used by our automatic number * formatting system but can be used by custom formats. * * @returns {object} d3.locale format object */ function getFormatObj(gd, formatKeys) { var locale = gd._context.locale; if(!locale) locale = 'en-US'; var formatDone = false; var formatObj = {}; function includeFormat(newFormat) { var formatFinished = true; for(var i = 0; i < formatKeys.length; i++) { var formatKey = formatKeys[i]; if(!formatObj[formatKey]) { if(newFormat[formatKey]) { formatObj[formatKey] = newFormat[formatKey]; } else formatFinished = false; } } if(formatFinished) formatDone = true; } // same as localize, look for format parts in each format spec in the chain for(var i = 0; i < 2; i++) { var locales = gd._context.locales; for(var j = 0; j < 2; j++) { var formatj = (locales[locale] || {}).format; if(formatj) { includeFormat(formatj); if(formatDone) break; } locales = Registry.localeRegistry; } var baseLocale = locale.split('-')[0]; if(formatDone || baseLocale === locale) break; locale = baseLocale; } // lastly pick out defaults from english (non-US, as DMY is so much more common) if(!formatDone) includeFormat(Registry.localeRegistry.en.format); return formatObj; } /** * getFormatter: combine the final separators with the locale formatting object * we pulled earlier to generate number and time formatters * TODO: remove separators in v3, only use locale, so we don't need this step? * * @param {object} formatObj: d3.locale format object * @param {string} separators: length-2 string to override decimal and thousands * separators in number formatting * * @returns {object} {numberFormat, timeFormat} d3 formatter factory functions * for numbers and time */ function getFormatter(formatObj, separators) { formatObj.decimal = separators.charAt(0); formatObj.thousands = separators.charAt(1); return { numberFormat: function(formatStr) { try { formatStr = formatLocale(formatObj).format( Lib.adjustFormat(formatStr) ); } catch(e) { Lib.warnBadFormat(formatStr); return Lib.noFormat; } return formatStr; }, timeFormat: timeFormatLocale(formatObj).utcFormat }; } function fillMetaTextHelpers(newFullData, newFullLayout) { var _meta; var meta4data = []; if(newFullLayout.meta) { _meta = newFullLayout._meta = { meta: newFullLayout.meta, layout: {meta: newFullLayout.meta} }; } for(var i = 0; i < newFullData.length; i++) { var trace = newFullData[i]; if(trace.meta) { meta4data[trace.index] = trace._meta = {meta: trace.meta}; } else if(newFullLayout.meta) { trace._meta = {meta: newFullLayout.meta}; } if(newFullLayout.meta) { trace._meta.layout = {meta: newFullLayout.meta}; } } if(meta4data.length) { if(!_meta) { _meta = newFullLayout._meta = {}; } _meta.data = meta4data; } } // Create storage for all of the data related to frames and transitions: plots.createTransitionData = function(gd) { // Set up the default keyframe if it doesn't exist: if(!gd._transitionData) { gd._transitionData = {}; } if(!gd._transitionData._frames) { gd._transitionData._frames = []; } if(!gd._transitionData._frameHash) { gd._transitionData._frameHash = {}; } if(!gd._transitionData._counter) { gd._transitionData._counter = 0; } if(!gd._transitionData._interruptCallbacks) { gd._transitionData._interruptCallbacks = []; } }; // helper function to be bound to fullLayout to check // whether a certain plot type is present on plot // or trace has a category plots._hasPlotType = function(category) { var i; // check base plot modules var basePlotModules = this._basePlotModules || []; for(i = 0; i < basePlotModules.length; i++) { if(basePlotModules[i].name === category) return true; } // check trace modules (including non-visible:true) var modules = this._modules || []; for(i = 0; i < modules.length; i++) { var name = modules[i].name; if(name === category) return true; // N.B. this is modules[i] along with 'categories' as a hash object var _module = Registry.modules[name]; if(_module && _module.categories[category]) return true; } return false; }; plots.cleanPlot = function(newFullData, newFullLayout, oldFullData, oldFullLayout) { var i, j; var basePlotModules = oldFullLayout._basePlotModules || []; for(i = 0; i < basePlotModules.length; i++) { var _module = basePlotModules[i]; if(_module.clean) { _module.clean(newFullData, newFullLayout, oldFullData, oldFullLayout); } } var hadGl = oldFullLayout._has && oldFullLayout._has('gl'); var hasGl = newFullLayout._has && newFullLayout._has('gl'); if(hadGl && !hasGl) { if(oldFullLayout._glcontainer !== undefined) { oldFullLayout._glcontainer.selectAll('.gl-canvas').remove(); oldFullLayout._glcontainer.selectAll('.no-webgl').remove(); oldFullLayout._glcanvas = null; } } var hasInfoLayer = !!oldFullLayout._infolayer; oldLoop: for(i = 0; i < oldFullData.length; i++) { var oldTrace = oldFullData[i]; var oldUid = oldTrace.uid; for(j = 0; j < newFullData.length; j++) { var newTrace = newFullData[j]; if(oldUid === newTrace.uid) continue oldLoop; } // clean old colorbars if(hasInfoLayer) { oldFullLayout._infolayer.select('.cb' + oldUid).remove(); } } }; plots.linkSubplots = function(newFullData, newFullLayout, oldFullData, oldFullLayout) { var i, j; var oldSubplots = oldFullLayout._plots || {}; var newSubplots = newFullLayout._plots = {}; var newSubplotList = newFullLayout._subplots; var mockGd = { _fullData: newFullData, _fullLayout: newFullLayout }; var ids = newSubplotList.cartesian.concat(newSubplotList.gl2d || []); for(i = 0; i < ids.length; i++) { var id = ids[i]; var oldSubplot = oldSubplots[id]; var xaxis = axisIDs.getFromId(mockGd, id, 'x'); var yaxis = axisIDs.getFromId(mockGd, id, 'y'); var plotinfo; // link or create subplot object if(oldSubplot) { plotinfo = newSubplots[id] = oldSubplot; } else { plotinfo = newSubplots[id] = {}; plotinfo.id = id; } // add these axis ids to each others' subplot lists xaxis._counterAxes.push(yaxis._id); yaxis._counterAxes.push(xaxis._id); xaxis._subplotsWith.push(id); yaxis._subplotsWith.push(id); // update x and y axis layout object refs plotinfo.xaxis = xaxis; plotinfo.yaxis = yaxis; // By default, we clip at the subplot level, // but if one trace on a given subplot has *cliponaxis* set to false, // we need to clip at the trace module layer level; // find this out here, once of for all. plotinfo._hasClipOnAxisFalse = false; for(j = 0; j < newFullData.length; j++) { var trace = newFullData[j]; if( trace.xaxis === plotinfo.xaxis._id && trace.yaxis === plotinfo.yaxis._id && trace.cliponaxis === false ) { plotinfo._hasClipOnAxisFalse = true; break; } } } // while we're at it, link overlaying axes to their main axes and // anchored axes to the axes they're anchored to var axList = axisIDs.list(mockGd, null, true); var ax; for(i = 0; i < axList.length; i++) { ax = axList[i]; var mainAx = null; if(ax.overlaying) { mainAx = axisIDs.getFromId(mockGd, ax.overlaying); // you cannot overlay an axis that's already overlaying another if(mainAx && mainAx.overlaying) { ax.overlaying = false; mainAx = null; } } ax._mainAxis = mainAx || ax; /* * For now force overlays to overlay completely... so they * can drag together correctly and share backgrounds. * Later perhaps we make separate axis domain and * tick/line domain or something, so they can still share * the (possibly larger) dragger and background but don't * have to both be drawn over that whole domain */ if(mainAx) ax.domain = mainAx.domain.slice(); ax._anchorAxis = ax.anchor === 'free' ? null : axisIDs.getFromId(mockGd, ax.anchor); } // finally, we can find the main subplot for each axis // (on which the ticks & labels are drawn) for(i = 0; i < axList.length; i++) { ax = axList[i]; ax._counterAxes.sort(axisIDs.idSort); ax._subplotsWith.sort(Lib.subplotSort); ax._mainSubplot = findMainSubplot(ax, newFullLayout); // find "full" domain span of counter axes, // this loop can be costly, so only compute it when required if(ax._counterAxes.length && ( (ax.spikemode && ax.spikemode.indexOf('across') !== -1) || (ax.automargin && ax.mirror && ax.anchor !== 'free') || Registry.getComponentMethod('rangeslider', 'isVisible')(ax) )) { var min = 1; var max = 0; for(j = 0; j < ax._counterAxes.length; j++) { var ax2 = axisIDs.getFromId(mockGd, ax._counterAxes[j]); min = Math.min(min, ax2.domain[0]); max = Math.max(max, ax2.domain[1]); } if(min < max) { ax._counterDomainMin = min; ax._counterDomainMax = max; } } } }; function findMainSubplot(ax, fullLayout) { var mockGd = {_fullLayout: fullLayout}; var isX = ax._id.charAt(0) === 'x'; var anchorAx = ax._mainAxis._anchorAxis; var mainSubplotID = ''; var nextBestMainSubplotID = ''; var anchorID = ''; // First try the main ID with the anchor if(anchorAx) { anchorID = anchorAx._mainAxis._id; mainSubplotID = isX ? (ax._id + anchorID) : (anchorID + ax._id); } // Then look for a subplot with the counteraxis overlaying the anchor // If that fails just use the first subplot including this axis if(!mainSubplotID || !fullLayout._plots[mainSubplotID]) { mainSubplotID = ''; var counterIDs = ax._counterAxes; for(var j = 0; j < counterIDs.length; j++) { var counterPart = counterIDs[j]; var id = isX ? (ax._id + counterPart) : (counterPart + ax._id); if(!nextBestMainSubplotID) nextBestMainSubplotID = id; var counterAx = axisIDs.getFromId(mockGd, counterPart); if(anchorID && counterAx.overlaying === anchorID) { mainSubplotID = id; break; } } } return mainSubplotID || nextBestMainSubplotID; } // This function clears any trace attributes with valType: color and // no set dflt filed in the plot schema. This is needed because groupby (which // is the only transform for which this currently applies) supplies parent // trace defaults, then expanded trace defaults. The result is that `null` // colors are default-supplied and inherited as a color instead of a null. // The result is that expanded trace default colors have no effect, with // the final result that groups are indistinguishable. This function clears // those colors so that individual groupby groups get unique colors. plots.clearExpandedTraceDefaultColors = function(trace) { var colorAttrs, path, i; // This uses weird closure state in order to satisfy the linter rule // that we can't create functions in a loop. function locateColorAttrs(attr, attrName, attrs, level) { path[level] = attrName; path.length = level + 1; if(attr.valType === 'color' && attr.dflt === undefined) { colorAttrs.push(path.join('.')); } } path = []; // Get the cached colorAttrs: colorAttrs = trace._module._colorAttrs; // Or else compute and cache the colorAttrs on the module: if(!colorAttrs) { trace._module._colorAttrs = colorAttrs = []; PlotSchema.crawl( trace._module.attributes, locateColorAttrs ); } for(i = 0; i < colorAttrs.length; i++) { var origprop = Lib.nestedProperty(trace, '_input.' + colorAttrs[i]); if(!origprop.get()) { Lib.nestedProperty(trace, colorAttrs[i]).set(null); } } }; plots.supplyDataDefaults = function(dataIn, dataOut, layout, fullLayout) { var modules = fullLayout._modules; var visibleModules = fullLayout._visibleModules; var basePlotModules = fullLayout._basePlotModules; var cnt = 0; var colorCnt = 0; var i, fullTrace, trace; fullLayout._transformModules = []; function pushModule(fullTrace) { dataOut.push(fullTrace); var _module = fullTrace._module; if(!_module) return; Lib.pushUnique(modules, _module); if(fullTrace.visible === true) Lib.pushUnique(visibleModules, _module); Lib.pushUnique(basePlotModules, fullTrace._module.basePlotModule); cnt++; // TODO: do we really want color not to increment for explicitly invisible traces? // This logic is weird, but matches previous behavior: traces that you explicitly // set to visible:false do not increment the color, but traces WE determine to be // empty or invalid (and thus set to visible:false) DO increment color. // I kind of think we should just let all traces increment color, visible or not. // see mock: axes-autotype-empty vs. a test of restyling visible: false that // I can't find right now... if(fullTrace._input.visible !== false) colorCnt++; } var carpetIndex = {}; var carpetDependents = []; var dataTemplate = (layout.template || {}).data || {}; var templater = Template.traceTemplater(dataTemplate); for(i = 0; i < dataIn.length; i++) { trace = dataIn[i]; // reuse uid we may have pulled out of oldFullData // Note: templater supplies trace type fullTrace = templater.newTrace(trace); fullTrace.uid = fullLayout._traceUids[i]; plots.supplyTraceDefaults(trace, fullTrace, colorCnt, fullLayout, i); fullTrace.index = i; fullTrace._input = trace; fullTrace._expandedIndex = cnt; if(fullTrace.transforms && fullTrace.transforms.length) { var sdInvisible = trace.visible !== false && fullTrace.visible === false; var expandedTraces = applyTransforms(fullTrace, dataOut, layout, fullLayout); for(var j = 0; j < expandedTraces.length; j++) { var expandedTrace = expandedTraces[j]; // No further templating during transforms. var fullExpandedTrace = { _template: fullTrace._template, type: fullTrace.type, // set uid using parent uid and expanded index // to promote consistency between update calls uid: fullTrace.uid + j }; // If the first supplyDefaults created `visible: false`, // clear it before running supplyDefaults a second time, // because sometimes there are items we still want to coerce // inside trace modules before determining that the trace is // again `visible: false`, for example partial visibilities // in `splom` traces. if(sdInvisible && expandedTrace.visible === false) { delete expandedTrace.visible; } plots.supplyTraceDefaults(expandedTrace, fullExpandedTrace, cnt, fullLayout, i); // relink private (i.e. underscore) keys expanded trace to full expanded trace so // that transform supply-default methods can set _ keys for future use. relinkPrivateKeys(fullExpandedTrace, expandedTrace); // add info about parent data trace fullExpandedTrace.index = i; fullExpandedTrace._input = trace; fullExpandedTrace._fullInput = fullTrace; // add info about the expanded data fullExpandedTrace._expandedIndex = cnt; fullExpandedTrace._expandedInput = expandedTrace; pushModule(fullExpandedTrace); } } else { // add identify refs for consistency with transformed traces fullTrace._fullInput = fullTrace; fullTrace._expandedInput = fullTrace; pushModule(fullTrace); } if(Registry.traceIs(fullTrace, 'carpetAxis')) { carpetIndex[fullTrace.carpet] = fullTrace; } if(Registry.traceIs(fullTrace, 'carpetDependent')) { carpetDependents.push(i); } } for(i = 0; i < carpetDependents.length; i++) { fullTrace = dataOut[carpetDependents[i]]; if(!fullTrace.visible) continue; var carpetAxis = carpetIndex[fullTrace.carpet]; fullTrace._carpet = carpetAxis; if(!carpetAxis || !carpetAxis.visible) { fullTrace.visible = false; continue; } fullTrace.xaxis = carpetAxis.xaxis; fullTrace.yaxis = carpetAxis.yaxis; } }; plots.supplyAnimationDefaults = function(opts) { opts = opts || {}; var i; var optsOut = {}; function coerce(attr, dflt) { return Lib.coerce(opts || {}, optsOut, animationAttrs, attr, dflt); } coerce('mode'); coerce('direction'); coerce('fromcurrent'); if(Array.isArray(opts.frame)) { optsOut.frame = []; for(i = 0; i < opts.frame.length; i++) { optsOut.frame[i] = plots.supplyAnimationFrameDefaults(opts.frame[i] || {}); } } else { optsOut.frame = plots.supplyAnimationFrameDefaults(opts.frame || {}); } if(Array.isArray(opts.transition)) { optsOut.transition = []; for(i = 0; i < opts.transition.length; i++) { optsOut.transition[i] = plots.supplyAnimationTransitionDefaults(opts.transition[i] || {}); } } else { optsOut.transition = plots.supplyAnimationTransitionDefaults(opts.transition || {}); } return optsOut; }; plots.supplyAnimationFrameDefaults = function(opts) { var optsOut = {}; function coerce(attr, dflt) { return Lib.coerce(opts || {}, optsOut, animationAttrs.frame, attr, dflt); } coerce('duration'); coerce('redraw'); return optsOut; }; plots.supplyAnimationTransitionDefaults = function(opts) { var optsOut = {}; function coerce(attr, dflt) { return Lib.coerce(opts || {}, optsOut, animationAttrs.transition, attr, dflt); } coerce('duration'); coerce('easing'); return optsOut; }; plots.supplyFrameDefaults = function(frameIn) { var frameOut = {}; function coerce(attr, dflt) { return Lib.coerce(frameIn, frameOut, frameAttrs, attr, dflt); } coerce('group'); coerce('name'); coerce('traces'); coerce('baseframe'); coerce('data'); coerce('layout'); return frameOut; }; plots.supplyTraceDefaults = function(traceIn, traceOut, colorIndex, layout, traceInIndex) { var colorway = layout.colorway || Color.defaults; var defaultColor = colorway[colorIndex % colorway.length]; var i; function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, plots.attributes, attr, dflt); } var visible = coerce('visible'); coerce('type'); coerce('name', layout._traceWord + ' ' + traceInIndex); coerce('uirevision', layout.uirevision); // we want even invisible traces to make their would-be subplots visible // so coerce the subplot id(s) now no matter what var _module = plots.getModule(traceOut); traceOut._module = _module; if(_module) { var basePlotModule = _module.basePlotModule; var subplotAttr = basePlotModule.attr; var subplotAttrs = basePlotModule.attributes; if(subplotAttr && subplotAttrs) { var subplots = layout._subplots; var subplotId = ''; if( visible || basePlotModule.name !== 'gl2d' // for now just drop empty gl2d subplots // TODO - currently if we draw an empty gl2d subplot, it draws // nothing then gets stuck and you can't get it back without newPlot // sort this out in the regl refactor? ) { if(Array.isArray(subplotAttr)) { for(i = 0; i < subplotAttr.length; i++) { var attri = subplotAttr[i]; var vali = Lib.coerce(traceIn, traceOut, subplotAttrs, attri); if(subplots[attri]) Lib.pushUnique(subplots[attri], vali); subplotId += vali; } } else { subplotId = Lib.coerce(traceIn, traceOut, subplotAttrs, subplotAttr); } if(subplots[basePlotModule.name]) { Lib.pushUnique(subplots[basePlotModule.name], subplotId); } } } } if(visible) { coerce('customdata'); coerce('ids'); coerce('meta'); if(Registry.traceIs(traceOut, 'showLegend')) { Lib.coerce(traceIn, traceOut, _module.attributes.showlegend ? _module.attributes : plots.attributes, 'showlegend' ); coerce('legendgroup'); coerce('legendgrouptitle.text'); coerce('legendrank'); traceOut._dfltShowLegend = true; } else { traceOut._dfltShowLegend = false; } if(_module) { _module.supplyDefaults(traceIn, traceOut, defaultColor, layout); } if(!Registry.traceIs(traceOut, 'noOpacity')) { coerce('opacity'); } if(Registry.traceIs(traceOut, 'notLegendIsolatable')) { // This clears out the legendonly state for traces like carpet that // cannot be isolated in the legend traceOut.visible = !!traceOut.visible; } if(!Registry.traceIs(traceOut, 'noHover')) { if(!traceOut.hovertemplate) Lib.coerceHoverinfo(traceIn, traceOut, layout); // parcats support hover, but not hoverlabel stylings (yet) if(traceOut.type !== 'parcats') { Registry.getComponentMethod('fx', 'supplyDefaults')(traceIn, traceOut, defaultColor, layout); } } if(_module && _module.selectPoints) { coerce('selectedpoints'); } plots.supplyTransformDefaults(traceIn, traceOut, layout); } return traceOut; }; /** * hasMakesDataTransform: does this trace have a transform that makes its own * data, either by grabbing it from somewhere else or by creating it from input * parameters? If so, we should still keep going with supplyDefaults * even if the trace is invisible, which may just be because it has no data yet. */ function hasMakesDataTransform(trace) { var transforms = trace.transforms; if(Array.isArray(transforms) && transforms.length) { for(var i = 0; i < transforms.length; i++) { var ti = transforms[i]; var _module = ti._module || transformsRegistry[ti.type]; if(_module && _module.makesData) return true; } } return false; } plots.hasMakesDataTransform = hasMakesDataTransform; plots.supplyTransformDefaults = function(traceIn, traceOut, layout) { // For now we only allow transforms on 1D traces, ie those that specify a _length. // If we were to implement 2D transforms, we'd need to have each transform // describe its own applicability and disable itself when it doesn't apply. // Also allow transforms that make their own data, but not in globalTransforms if(!(traceOut._length || hasMakesDataTransform(traceIn))) return; var globalTransforms = layout._globalTransforms || []; var transformModules = layout._transformModules || []; if(!Array.isArray(traceIn.transforms) && globalTransforms.length === 0) return; var containerIn = traceIn.transforms || []; var transformList = globalTransforms.concat(containerIn); var containerOut = traceOut.transforms = []; for(var i = 0; i < transformList.length; i++) { var transformIn = transformList[i]; var type = transformIn.type; var _module = transformsRegistry[type]; var transformOut; /* * Supply defaults may run twice. First pass runs all supply defaults steps * and adds the _module to any output transforms. * If transforms exist another pass is run so that any generated traces also * go through supply defaults. This has the effect of rerunning * supplyTransformDefaults. If the transform does not have a `transform` * function it could not have generated any new traces and the second stage * is unnecessary. We detect this case with the following variables. */ var isFirstStage = !(transformIn._module && transformIn._module === _module); var doLaterStages = _module && typeof _module.transform === 'function'; if(!_module) Lib.warn('Unrecognized transform type ' + type + '.'); if(_module && _module.supplyDefaults && (isFirstStage || doLaterStages)) { transformOut = _module.supplyDefaults(transformIn, traceOut, layout, traceIn); transformOut.type = type; transformOut._module = _module; Lib.pushUnique(transformModules, _module); } else { transformOut = Lib.extendFlat({}, transformIn); } containerOut.push(transformOut); } }; function applyTransforms(fullTrace, fullData, layout, fullLayout) { var container = fullTrace.transforms; var dataOut = [fullTrace]; for(var i = 0; i < container.length; i++) { var transform = container[i]; var _module = transformsRegistry[transform.type]; if(_module && _module.transform) { dataOut = _module.transform(dataOut, { transform: transform, fullTrace: fullTrace, fullData: fullData, layout: layout, fullLayout: fullLayout, transformIndex: i }); } } return dataOut; } plots.supplyLayoutGlobalDefaults = function(layoutIn, layoutOut, formatObj) { function coerce(attr, dflt) { return Lib.coerce(layoutIn, layoutOut, plots.layoutAttributes, attr, dflt); } var template = layoutIn.template; if(Lib.isPlainObject(template)) { layoutOut.template = template; layoutOut._template = template.layout; layoutOut._dataTemplate = template.data; } coerce('autotypenumbers'); var font = Lib.coerceFont(coerce, 'font'); var fontSize = font.size; Lib.coerceFont(coerce, 'title.font', Lib.extendFlat({}, font, { size: Math.round(fontSize * 1.4) })); coerce('title.text', layoutOut._dfltTitle.plot); coerce('title.xref'); coerce('title.yref'); coerce('title.x'); coerce('title.y'); coerce('title.xanchor'); coerce('title.yanchor'); coerce('title.pad.t'); coerce('title.pad.r'); coerce('title.pad.b'); coerce('title.pad.l'); var uniformtextMode = coerce('uniformtext.mode'); if(uniformtextMode) { coerce('uniformtext.minsize'); } // Make sure that autosize is defaulted to *true* // on layouts with no set width and height for backward compatibly, // in particular https://plotly.com/javascript/responsive-fluid-layout/ // // Before https://github.com/plotly/plotly.js/pull/635 , // layouts with no set width and height were set temporary set to 'initial' // to pass through the autosize routine // // This behavior is subject to change in v3. coerce('autosize', !(layoutIn.width && layoutIn.height)); coerce('width'); coerce('height'); coerce('margin.l'); coerce('margin.r'); coerce('margin.t'); coerce('margin.b'); coerce('margin.pad'); coerce('margin.autoexpand'); if(layoutIn.width && layoutIn.height) plots.sanitizeMargins(layoutOut); Registry.getComponentMethod('grid', 'sizeDefaults')(layoutIn, layoutOut); coerce('paper_bgcolor'); coerce('separators', formatObj.decimal + formatObj.thousands); coerce('hidesources'); coerce('colorway'); coerce('datarevision'); var uirevision = coerce('uirevision'); coerce('editrevision', uirevision); coerce('selectionrevision', uirevision); Registry.getComponentMethod( 'modebar', 'supplyLayoutDefaults' )(layoutIn, layoutOut); Registry.getComponentMethod( 'shapes', 'supplyDrawNewShapeDefaults' )(layoutIn, layoutOut, coerce); coerce('meta'); // do not include defaults in fullLayout when users do not set transition if(Lib.isPlainObject(layoutIn.transition)) { coerce('transition.duration'); coerce('transition.easing'); coerce('transition.ordering'); } Registry.getComponentMethod( 'calendars', 'handleDefaults' )(layoutIn, layoutOut, 'calendar'); Registry.getComponentMethod( 'fx', 'supplyLayoutGlobalDefaults' )(layoutIn, layoutOut, coerce); }; function getComputedSize(attr) { return ( (typeof attr === 'string') && (attr.substr(attr.length - 2) === 'px') && parseFloat(attr) ); } plots.plotAutoSize = function plotAutoSize(gd, layout, fullLayout) { var context = gd._context || {}; var frameMargins = context.frameMargins; var newWidth; var newHeight; var isPlotDiv = Lib.isPlotDiv(gd); if(isPlotDiv) gd.emit('plotly_autosize'); // embedded in an iframe - just take the full iframe size // if we get to this point, with no aspect ratio restrictions if(context.fillFrame) { newWidth = window.innerWidth; newHeight = window.innerHeight; // somehow we get a few extra px height sometimes... // just hide it document.body.style.overflow = 'hidden'; } else { // plotly.js - let the developers do what they want, either // provide height and width for the container div, // specify size in layout, or take the defaults, // but don't enforce any ratio restrictions var computedStyle = isPlotDiv ? window.getComputedStyle(gd) : {}; newWidth = getComputedSize(computedStyle.width) || getComputedSize(computedStyle.maxWidth) || fullLayout.width; newHeight = getComputedSize(computedStyle.height) || getComputedSize(computedStyle.maxHeight) || fullLayout.height; if(isNumeric(frameMargins) && frameMargins > 0) { var factor = 1 - 2 * frameMargins; newWidth = Math.round(factor * newWidth); newHeight = Math.round(factor * newHeight); } } var minWidth = plots.layoutAttributes.width.min; var minHeight = plots.layoutAttributes.height.min; if(newWidth < minWidth) newWidth = minWidth; if(newHeight < minHeight) newHeight = minHeight; var widthHasChanged = !layout.width && (Math.abs(fullLayout.width - newWidth) > 1); var heightHasChanged = !layout.height && (Math.abs(fullLayout.height - newHeight) > 1); if(heightHasChanged || widthHasChanged) { if(widthHasChanged) fullLayout.width = newWidth; if(heightHasChanged) fullLayout.height = newHeight; } // cache initial autosize value, used in relayout when // width or height values are set to null if(!gd._initialAutoSize) { gd._initialAutoSize = { width: newWidth, height: newHeight }; } plots.sanitizeMargins(fullLayout); }; plots.supplyLayoutModuleDefaults = function(layoutIn, layoutOut, fullData, transitionData) { var componentsRegistry = Registry.componentsRegistry; var basePlotModules = layoutOut._basePlotModules; var component, i, _module; var Cartesian = Registry.subplotsRegistry.cartesian; // check if any components need to add more base plot modules // that weren't captured by traces for(component in componentsRegistry) { _module = componentsRegistry[component]; if(_module.includeBasePlot) { _module.includeBasePlot(layoutIn, layoutOut); } } // make sure we *at least* have some cartesian axes if(!basePlotModules.length) { basePlotModules.push(Cartesian); } // ensure all cartesian axes have at least one subplot if(layoutOut._has('cartesian')) { Registry.getComponentMethod('grid', 'contentDefaults')(layoutIn, layoutOut); Cartesian.finalizeSubplots(layoutIn, layoutOut); } // sort subplot lists for(var subplotType in layoutOut._subplots) { layoutOut._subplots[subplotType].sort(Lib.subplotSort); } // base plot module layout defaults for(i = 0; i < basePlotModules.length; i++) { _module = basePlotModules[i]; // e.g. pie does not have a layout-defaults step if(_module.supplyLayoutDefaults) { _module.supplyLayoutDefaults(layoutIn, layoutOut, fullData); } } // trace module layout defaults // use _modules rather than _visibleModules so that even // legendonly traces can include settings - eg barmode, which affects // legend.traceorder default value. var modules = layoutOut._modules; for(i = 0; i < modules.length; i++) { _module = modules[i]; if(_module.supplyLayoutDefaults) { _module.supplyLayoutDefaults(layoutIn, layoutOut, fullData); } } // transform module layout defaults var transformModules = layoutOut._transformModules; for(i = 0; i < transformModules.length; i++) { _module = transformModules[i]; if(_module.supplyLayoutDefaults) { _module.supplyLayoutDefaults(layoutIn, layoutOut, fullData, transitionData); } } for(component in componentsRegistry) { _module = componentsRegistry[component]; if(_module.supplyLayoutDefaults) { _module.supplyLayoutDefaults(layoutIn, layoutOut, fullData); } } }; // Remove all plotly attributes from a div so it can be replotted fresh // TODO: these really need to be encapsulated into a much smaller set... plots.purge = function(gd) { // note: we DO NOT remove _context because it doesn't change when we insert // a new plot, and may have been set outside of our scope. var fullLayout = gd._fullLayout || {}; if(fullLayout._glcontainer !== undefined) { fullLayout._glcontainer.selectAll('.gl-canvas').remove(); fullLayout._glcontainer.remove(); fullLayout._glcanvas = null; } // remove modebar if(fullLayout._modeBar) fullLayout._modeBar.destroy(); if(gd._transitionData) { // Ensure any dangling callbacks are simply dropped if the plot is purged. // This is more or less only actually important for testing. if(gd._transitionData._interruptCallbacks) { gd._transitionData._interruptCallbacks.length = 0; } if(gd._transitionData._animationRaf) { window.cancelAnimationFrame(gd._transitionData._animationRaf); } } // remove any planned throttles Lib.clearThrottle(); // remove responsive handler Lib.clearResponsive(gd); // data and layout delete gd.data; delete gd.layout; delete gd._fullData; delete gd._fullLayout; delete gd.calcdata; delete gd.empty; delete gd.fid; delete gd.undoqueue; // action queue delete gd.undonum; delete gd.autoplay; // are we doing an action that doesn't go in undo queue? delete gd.changed; // these get recreated on _doPlot anyway, but just to be safe // (and to have a record of them...) delete gd._promises; delete gd._redrawTimer; delete gd._hmlumcount; delete gd._hmpixcount; delete gd._transitionData; delete gd._transitioning; delete gd._initialAutoSize; delete gd._transitioningWithDuration; // created during certain events, that *should* clean them up // themselves, but may not if there was an error delete gd._dragging; delete gd._dragged; delete gd._dragdata; delete gd._hoverdata; delete gd._snapshotInProgress; delete gd._editing; delete gd._mouseDownTime; delete gd._legendMouseDownTime; // remove all event listeners if(gd.removeAllListeners) gd.removeAllListeners(); }; plots.style = function(gd) { var _modules = gd._fullLayout._visibleModules; var styleModules = []; var i; // some trace modules reuse the same style method, // make sure to not unnecessary call them multiple times. for(i = 0; i < _modules.length; i++) { var _module = _modules[i]; if(_module.style) { Lib.pushUnique(styleModules, _module.style); } } for(i = 0; i < styleModules.length; i++) { styleModules[i](gd); } }; plots.sanitizeMargins = function(fullLayout) { // polar doesn't do margins... if(!fullLayout || !fullLayout.margin) return; var width = fullLayout.width; var height = fullLayout.height; var margin = fullLayout.margin; var plotWidth = width - (margin.l + margin.r); var plotHeight = height - (margin.t + margin.b); var correction; // if margin.l + margin.r = 0 then plotWidth > 0 // as width >= 10 by supplyDefaults // similarly for margin.t + margin.b if(plotWidth < 0) { correction = (width - 1) / (margin.l + margin.r); margin.l = Math.floor(correction * margin.l); margin.r = Math.floor(correction * margin.r); } if(plotHeight < 0) { correction = (height - 1) / (margin.t + margin.b); margin.t = Math.floor(correction * margin.t); margin.b = Math.floor(correction * margin.b); } }; plots.clearAutoMarginIds = function(gd) { gd._fullLayout._pushmarginIds = {}; }; plots.allowAutoMargin = function(gd, id) { gd._fullLayout._pushmarginIds[id] = 1; }; function initMargins(fullLayout) { var margin = fullLayout.margin; if(!fullLayout._size) { var gs = fullLayout._size = { l: Math.round(margin.l), r: Math.round(margin.r), t: Math.round(margin.t), b: Math.round(margin.b), p: Math.round(margin.pad) }; gs.w = Math.round(fullLayout.width) - gs.l - gs.r; gs.h = Math.round(fullLayout.height) - gs.t - gs.b; } if(!fullLayout._pushmargin) fullLayout._pushmargin = {}; if(!fullLayout._pushmarginIds) fullLayout._pushmarginIds = {}; } // non-negotiable - this is the smallest height we will allow users to specify via explicit margins var MIN_SPECIFIED_WIDTH = 2; var MIN_SPECIFIED_HEIGHT = 2; // could be exposed as an option - the smallest we will allow automargin to shrink a larger plot var MIN_REDUCED_WIDTH = 64; var MIN_REDUCED_HEIGHT = 64; /** * autoMargin: called by components that may need to expand the margins to * be rendered on-plot. * * @param {DOM element} gd * @param {string} id - an identifier unique (within this plot) to this object, * so we can remove a previous margin expansion from the same object. * @param {object} o - the margin requirements of this object, or omit to delete * this entry (like if it's hidden). Keys are: * x, y: plot fraction of the anchor point. * xl, xr, yt, yb: if the object has an extent defined in plot fraction, * you can specify both edges as plot fractions in each dimension * l, r, t, b: the pixels to pad past the plot fraction x[l|r] and y[t|b] * pad: extra pixels to add in all directions, default 12 (why?) */ plots.autoMargin = function(gd, id, o) { var fullLayout = gd._fullLayout; var width = fullLayout.width; var height = fullLayout.height; var margin = fullLayout.margin; var minFinalWidth = Lib.constrain( width - margin.l - margin.r, MIN_SPECIFIED_WIDTH, MIN_REDUCED_WIDTH ); var minFinalHeight = Lib.constrain( height - margin.t - margin.b, MIN_SPECIFIED_HEIGHT, MIN_REDUCED_HEIGHT ); var maxSpaceW = Math.max(0, width - minFinalWidth); var maxSpaceH = Math.max(0, height - minFinalHeight); var pushMargin = fullLayout._pushmargin; var pushMarginIds = fullLayout._pushmarginIds; if(margin.autoexpand !== false) { if(!o) { delete pushMargin[id]; delete pushMarginIds[id]; } else { var pad = o.pad; if(pad === undefined) { // if no explicit pad is given, use 12px unless there's a // specified margin that's smaller than that pad = Math.min(12, margin.l, margin.r, margin.t, margin.b); } // if the item is too big, just give it enough automargin to // make sure you can still grab it and bring it back if(maxSpaceW) { var rW = (o.l + o.r) / maxSpaceW; if(rW > 1) { o.l /= rW; o.r /= rW; } } if(maxSpaceH) { var rH = (o.t + o.b) / maxSpaceH; if(rH > 1) { o.t /= rH; o.b /= rH; } } var xl = o.xl !== undefined ? o.xl : o.x; var xr = o.xr !== undefined ? o.xr : o.x; var yt = o.yt !== undefined ? o.yt : o.y; var yb = o.yb !== undefined ? o.yb : o.y; pushMargin[id] = { l: {val: xl, size: o.l + pad}, r: {val: xr, size: o.r + pad}, b: {val: yb, size: o.b + pad}, t: {val: yt, size: o.t + pad} }; pushMarginIds[id] = 1; } if(!fullLayout._replotting) { return plots.doAutoMargin(gd); } } }; plots.doAutoMargin = function(gd) { var fullLayout = gd._fullLayout; var width = fullLayout.width; var height = fullLayout.height; if(!fullLayout._size) fullLayout._size = {}; initMargins(fullLayout); var gs = fullLayout._size; var margin = fullLayout.margin; var oldMargins = Lib.extendFlat({}, gs); // adjust margins for outside components // fullLayout.margin is the requested margin, // fullLayout._size has margins and plotsize after adjustment var ml = margin.l; var mr = margin.r; var mt = margin.t; var mb = margin.b; var pushMargin = fullLayout._pushmargin; var pushMarginIds = fullLayout._pushmarginIds; if(fullLayout.margin.autoexpand !== false) { for(var k in pushMargin) { if(!pushMarginIds[k]) delete pushMargin[k]; } // fill in the requested margins pushMargin.base = { l: {val: 0, size: ml}, r: {val: 1, size: mr}, t: {val: 1, size: mt}, b: {val: 0, size: mb} }; // now cycle through all the combinations of l and r // (and t and b) to find the required margins for(var k1 in pushMargin) { var pushleft = pushMargin[k1].l || {}; var pushbottom = pushMargin[k1].b || {}; var fl = pushleft.val; var pl = pushleft.size; var fb = pushbottom.val; var pb = pushbottom.size; for(var k2 in pushMargin) { if(isNumeric(pl) && pushMargin[k2].r) { var fr = pushMargin[k2].r.val; var pr = pushMargin[k2].r.size; if(fr > fl) { var newL = (pl * fr + (pr - width) * fl) / (fr - fl); var newR = (pr * (1 - fl) + (pl - width) * (1 - fr)) / (fr - fl); if(newL + newR > ml + mr) { ml = newL; mr = newR; } } } if(isNumeric(pb) && pushMargin[k2].t) { var ft = pushMargin[k2].t.val; var pt = pushMargin[k2].t.size; if(ft > fb) { var newB = (pb * ft + (pt - height) * fb) / (ft - fb); var newT = (pt * (1 - fb) + (pb - height) * (1 - ft)) / (ft - fb); if(newB + newT > mb + mt) { mb = newB; mt = newT; } } } } } } var minFinalWidth = Lib.constrain( width - margin.l - margin.r, MIN_SPECIFIED_WIDTH, MIN_REDUCED_WIDTH ); var minFinalHeight = Lib.constrain( height - margin.t - margin.b, MIN_SPECIFIED_HEIGHT, MIN_REDUCED_HEIGHT ); var maxSpaceW = Math.max(0, width - minFinalWidth); var maxSpaceH = Math.max(0, height - minFinalHeight); if(maxSpaceW) { var rW = (ml + mr) / maxSpaceW; if(rW > 1) { ml /= rW; mr /= rW; } } if(maxSpaceH) { var rH = (mb + mt) / maxSpaceH; if(rH > 1) { mb /= rH; mt /= rH; } } gs.l = Math.round(ml); gs.r = Math.round(mr); gs.t = Math.round(mt); gs.b = Math.round(mb); gs.p = Math.round(margin.pad); gs.w = Math.round(width) - gs.l - gs.r; gs.h = Math.round(height) - gs.t - gs.b; // if things changed and we're not already redrawing, trigger a redraw if(!fullLayout._replotting && plots.didMarginChange(oldMargins, gs)) { if('_redrawFromAutoMarginCount' in fullLayout) { fullLayout._redrawFromAutoMarginCount++; } else { fullLayout._redrawFromAutoMarginCount = 1; } // Always allow at least one redraw and give each margin-push // call 3 loops to converge. Of course, for most cases this way too many, // but let's keep things on the safe side until we fix our // auto-margin pipeline problems: // https://github.com/plotly/plotly.js/issues/2704 var maxNumberOfRedraws = 3 * (1 + Object.keys(pushMarginIds).length); if(fullLayout._redrawFromAutoMarginCount < maxNumberOfRedraws) { return Registry.call('_doPlot', gd); } else { fullLayout._size = oldMargins; Lib.warn('Too many auto-margin redraws.'); } } refineTicks(gd); }; function refineTicks(gd) { var axList = axisIDs.list(gd, '', true); [ '_adjustTickLabelsOverflow', '_hideCounterAxisInsideTickLabels' ].forEach(function(k) { for(var i = 0; i < axList.length; i++) { var hideFn = axList[i][k]; if(hideFn) hideFn(); } }); } var marginKeys = ['l', 'r', 't', 'b', 'p', 'w', 'h']; plots.didMarginChange = function(margin0, margin1) { for(var i = 0; i < marginKeys.length; i++) { var k = marginKeys[i]; var m0 = margin0[k]; var m1 = margin1[k]; // use 1px tolerance in case we old/new differ only // by rounding errors, which can lead to infinite loops if(!isNumeric(m0) || Math.abs(m1 - m0) > 1) { return true; } } return false; }; /** * JSONify the graph data and layout * * This function needs to recurse because some src can be inside * sub-objects. * * It also strips out functions and private (starts with _) elements. * Therefore, we can add temporary things to data and layout that don't * get saved. * * @param gd The graphDiv * @param {Boolean} dataonly If true, don't return layout. * @param {'keepref'|'keepdata'|'keepall'} [mode='keepref'] Filter what's kept * keepref: remove data for which there's a src present * eg if there's xsrc present (and xsrc is well-formed, * ie has : and some chars before it), strip out x * keepdata: remove all src tags, don't remove the data itself * keepall: keep data and src * @param {String} output If you specify 'object', the result will not be stringified * @param {Boolean} useDefaults If truthy, use _fullLayout and _fullData * @param {Boolean} includeConfig If truthy, include _context * @returns {Object|String} */ plots.graphJson = function(gd, dataonly, mode, output, useDefaults, includeConfig) { // if the defaults aren't supplied yet, we need to do that... if((useDefaults && dataonly && !gd._fullData) || (useDefaults && !dataonly && !gd._fullLayout)) { plots.supplyDefaults(gd); } var data = (useDefaults) ? gd._fullData : gd.data; var layout = (useDefaults) ? gd._fullLayout : gd.layout; var frames = (gd._transitionData || {})._frames; function stripObj(d, keepFunction) { if(typeof d === 'function') { return keepFunction ? '_function_' : null; } if(Lib.isPlainObject(d)) { var o = {}; var src; Object.keys(d).sort().forEach(function(v) { // remove private elements and functions // _ is for private, [ is a mistake ie [object Object] if(['_', '['].indexOf(v.charAt(0)) !== -1) return; // if a function, add if necessary then move on if(typeof d[v] === 'function') { if(keepFunction) o[v] = '_function'; return; } // look for src/data matches and remove the appropriate one if(mode === 'keepdata') { // keepdata: remove all ...src tags if(v.substr(v.length - 3) === 'src') { return; } } else if(mode === 'keepstream') { // keep sourced data if it's being streamed. // similar to keepref, but if the 'stream' object exists // in a trace, we will keep the data array. src = d[v + 'src']; if(typeof src === 'string' && src.indexOf(':') > 0) { if(!Lib.isPlainObject(d.stream)) { return; } } } else if(mode !== 'keepall') { // keepref: remove sourced data but only // if the source tag is well-formed src = d[v + 'src']; if(typeof src === 'string' && src.indexOf(':') > 0) { return; } } // OK, we're including this... recurse into it o[v] = stripObj(d[v], keepFunction); }); return o; } if(Array.isArray(d)) { return d.map(function(x) {return stripObj(x, keepFunction);}); } if(Lib.isTypedArray(d)) { return Lib.simpleMap(d, Lib.identity); } // convert native dates to date strings... // mostly for external users exporting to plotly if(Lib.isJSDate(d)) return Lib.ms2DateTimeLocal(+d); return d; } var obj = { data: (data || []).map(function(v) { var d = stripObj(v); // fit has some little arrays in it that don't contain data, // just fit params and meta if(dataonly) { delete d.fit; } return d; }) }; if(!dataonly) { obj.layout = stripObj(layout); if(useDefaults) { var gs = layout._size; obj.layout.computed = { margin: { b: gs.b, l: gs.l, r: gs.r, t: gs.t } }; } } if(frames) obj.frames = stripObj(frames); if(includeConfig) obj.config = stripObj(gd._context, true); return (output === 'object') ? obj : JSON.stringify(obj); }; /** * Modify a keyframe using a list of operations: * * @param {array of objects} operations * Sequence of operations to be performed on the keyframes */ plots.modifyFrames = function(gd, operations) { var i, op, frame; var _frames = gd._transitionData._frames; var _frameHash = gd._transitionData._frameHash; for(i = 0; i < operations.length; i++) { op = operations[i]; switch(op.type) { // No reason this couldn't exist, but is currently unused/untested: /* case 'rename': frame = _frames[op.index]; delete _frameHash[frame.name]; _frameHash[op.name] = frame; frame.name = op.name; break;*/ case 'replace': frame = op.value; var oldName = (_frames[op.index] || {}).name; var newName = frame.name; _frames[op.index] = _frameHash[newName] = frame; if(newName !== oldName) { // If name has changed in addition to replacement, then update // the lookup table: delete _frameHash[oldName]; _frameHash[newName] = frame; } break; case 'insert': frame = op.value; _frameHash[frame.name] = frame; _frames.splice(op.index, 0, frame); break; case 'delete': frame = _frames[op.index]; delete _frameHash[frame.name]; _frames.splice(op.index, 1); break; } } return Promise.resolve(); }; /* * Compute a keyframe. Merge a keyframe into its base frame(s) and * expand properties. * * @param {object} frameLookup * An object containing frames keyed by name (i.e. gd._transitionData._frameHash) * @param {string} frame * The name of the keyframe to be computed * * Returns: a new object with the merged content */ plots.computeFrame = function(gd, frameName) { var frameLookup = gd._transitionData._frameHash; var i, traceIndices, traceIndex, destIndex; // Null or undefined will fail on .toString(). We'll allow numbers since we // make it clear frames must be given string names, but we'll allow numbers // here since they're otherwise fine for looking up frames as long as they're // properly cast to strings. We really just want to ensure here that this // 1) doesn't fail, and // 2) doens't give an incorrect answer (which String(frameName) would) if(!frameName) { throw new Error('computeFrame must be given a string frame name'); } var framePtr = frameLookup[frameName.toString()]; // Return false if the name is invalid: if(!framePtr) { return false; } var frameStack = [framePtr]; var frameNameStack = [framePtr.name]; // Follow frame pointers: while(framePtr.baseframe && (framePtr = frameLookup[framePtr.baseframe.toString()])) { // Avoid infinite loops: if(frameNameStack.indexOf(framePtr.name) !== -1) break; frameStack.push(framePtr); frameNameStack.push(framePtr.name); } // A new object for the merged result: var result = {}; // Merge, starting with the last and ending with the desired frame: while((framePtr = frameStack.pop())) { if(framePtr.layout) { result.layout = plots.extendLayout(result.layout, framePtr.layout); } if(framePtr.data) { if(!result.data) { result.data = []; } traceIndices = framePtr.traces; if(!traceIndices) { // If not defined, assume serial order starting at zero traceIndices = []; for(i = 0; i < framePtr.data.length; i++) { traceIndices[i] = i; } } if(!result.traces) { result.traces = []; } for(i = 0; i < framePtr.data.length; i++) { // Loop through this frames data, find out where it should go, // and merge it! traceIndex = traceIndices[i]; if(traceIndex === undefined || traceIndex === null) { continue; } destIndex = result.traces.indexOf(traceIndex); if(destIndex === -1) { destIndex = result.data.length; result.traces[destIndex] = traceIndex; } result.data[destIndex] = plots.extendTrace(result.data[destIndex], framePtr.data[i]); } } } return result; }; /* * Recompute the lookup table that maps frame name -> frame object. addFrames/ * deleteFrames already manages this data one at a time, so the only time this * is necessary is if you poke around manually in `gd._transitionData._frames` * and create and haven't updated the lookup table. */ plots.recomputeFrameHash = function(gd) { var hash = gd._transitionData._frameHash = {}; var frames = gd._transitionData._frames; for(var i = 0; i < frames.length; i++) { var frame = frames[i]; if(frame && frame.name) { hash[frame.name] = frame; } } }; /** * Extend an object, treating container arrays very differently by extracting * their contents and merging them separately. * * This exists so that we can extendDeepNoArrays and avoid stepping into data * arrays without knowledge of the plot schema, but so that we may also manually * recurse into known container arrays, such as transforms. * * See extendTrace and extendLayout below for usage. */ plots.extendObjectWithContainers = function(dest, src, containerPaths) { var containerProp, containerVal, i, j, srcProp, destProp, srcContainer, destContainer; var copy = Lib.extendDeepNoArrays({}, src || {}); var expandedObj = Lib.expandObjectPaths(copy); var containerObj = {}; // Step through and extract any container properties. Otherwise extendDeepNoArrays // will clobber any existing properties with an empty array and then supplyDefaults // will reset everything to defaults. if(containerPaths && containerPaths.length) { for(i = 0; i < containerPaths.length; i++) { containerProp = Lib.nestedProperty(expandedObj, containerPaths[i]); containerVal = containerProp.get(); if(containerVal === undefined) { Lib.nestedProperty(containerObj, containerPaths[i]).set(null); } else { containerProp.set(null); Lib.nestedProperty(containerObj, containerPaths[i]).set(containerVal); } } } dest = Lib.extendDeepNoArrays(dest || {}, expandedObj); if(containerPaths && containerPaths.length) { for(i = 0; i < containerPaths.length; i++) { srcProp = Lib.nestedProperty(containerObj, containerPaths[i]); srcContainer = srcProp.get(); if(!srcContainer) continue; destProp = Lib.nestedProperty(dest, containerPaths[i]); destContainer = destProp.get(); if(!Array.isArray(destContainer)) { destContainer = []; destProp.set(destContainer); } for(j = 0; j < srcContainer.length; j++) { var srcObj = srcContainer[j]; if(srcObj === null) destContainer[j] = null; else { destContainer[j] = plots.extendObjectWithContainers(destContainer[j], srcObj); } } destProp.set(destContainer); } } return dest; }; plots.dataArrayContainers = ['transforms', 'dimensions']; plots.layoutArrayContainers = Registry.layoutArrayContainers; /* * Extend a trace definition. This method: * * 1. directly transfers any array references * 2. manually recurses into container arrays like transforms * * The result is the original object reference with the new contents merged in. */ plots.extendTrace = function(destTrace, srcTrace) { return plots.extendObjectWithContainers(destTrace, srcTrace, plots.dataArrayContainers); }; /* * Extend a layout definition. This method: * * 1. directly transfers any array references (not critically important for * layout since there aren't really data arrays) * 2. manually recurses into container arrays like annotations * * The result is the original object reference with the new contents merged in. */ plots.extendLayout = function(destLayout, srcLayout) { return plots.extendObjectWithContainers(destLayout, srcLayout, plots.layoutArrayContainers); }; /** * Transition to a set of new data and layout properties from Plotly.animate * * @param {DOM element} gd * @param {Object[]} data * an array of data objects following the normal Plotly data definition format * @param {Object} layout * a layout object, following normal Plotly layout format * @param {Number[]} traces * indices of the corresponding traces specified in `data` * @param {Object} frameOpts * options for the frame (i.e. whether to redraw post-transition) * @param {Object} transitionOpts * options for the transition */ plots.transition = function(gd, data, layout, traces, frameOpts, transitionOpts) { var opts = {redraw: frameOpts.redraw}; var transitionedTraces = {}; var axEdits = []; opts.prepareFn = function() { var dataLength = Array.isArray(data) ? data.length : 0; var traceIndices = traces.slice(0, dataLength); for(var i = 0; i < traceIndices.length; i++) { var traceIdx = traceIndices[i]; var trace = gd._fullData[traceIdx]; var _module = trace._module; // There's nothing to do if this module is not defined: if(!_module) continue; // Don't register the trace as transitioned if it doesn't know what to do. // If it *is* registered, it will receive a callback that it's responsible // for calling in order to register the transition as having completed. if(_module.animatable) { var n = _module.basePlotModule.name; if(!transitionedTraces[n]) transitionedTraces[n] = []; transitionedTraces[n].push(traceIdx); } gd.data[traceIndices[i]] = plots.extendTrace(gd.data[traceIndices[i]], data[i]); } // Follow the same procedure. Clone it so we don't mangle the input, then // expand any object paths so we can merge deep into gd.layout: var layoutUpdate = Lib.expandObjectPaths(Lib.extendDeepNoArrays({}, layout)); // Before merging though, we need to modify the incoming layout. We only // know how to *transition* layout ranges, so it's imperative that a new // range not be sent to the layout before the transition has started. So // we must remove the things we can transition: var axisAttrRe = /^[xy]axis[0-9]*$/; for(var attr in layoutUpdate) { if(!axisAttrRe.test(attr)) continue; delete layoutUpdate[attr].range; } plots.extendLayout(gd.layout, layoutUpdate); // Supply defaults after applying the incoming properties. Note that any attempt // to simplify this step and reduce the amount of work resulted in the reconstruction // of essentially the whole supplyDefaults step, so that it seems sensible to just use // supplyDefaults even though it's heavier than would otherwise be desired for // transitions: // first delete calcdata so supplyDefaults knows a calc step is coming delete gd.calcdata; plots.supplyDefaults(gd); plots.doCalcdata(gd); var newLayout = Lib.expandObjectPaths(layout); if(newLayout) { var subplots = gd._fullLayout._plots; for(var k in subplots) { var plotinfo = subplots[k]; var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var xr0 = xa.range.slice(); var yr0 = ya.range.slice(); var xr1 = null; var yr1 = null; var editX = null; var editY = null; if(Array.isArray(newLayout[xa._name + '.range'])) { xr1 = newLayout[xa._name + '.range'].slice(); } else if(Array.isArray((newLayout[xa._name] || {}).range)) { xr1 = newLayout[xa._name].range.slice(); } if(Array.isArray(newLayout[ya._name + '.range'])) { yr1 = newLayout[ya._name + '.range'].slice(); } else if(Array.isArray((newLayout[ya._name] || {}).range)) { yr1 = newLayout[ya._name].range.slice(); } if(xr0 && xr1 && (xa.r2l(xr0[0]) !== xa.r2l(xr1[0]) || xa.r2l(xr0[1]) !== xa.r2l(xr1[1])) ) { editX = {xr0: xr0, xr1: xr1}; } if(yr0 && yr1 && (ya.r2l(yr0[0]) !== ya.r2l(yr1[0]) || ya.r2l(yr0[1]) !== ya.r2l(yr1[1])) ) { editY = {yr0: yr0, yr1: yr1}; } if(editX || editY) { axEdits.push(Lib.extendFlat({plotinfo: plotinfo}, editX, editY)); } } } return Promise.resolve(); }; opts.runFn = function(makeCallback) { var traceTransitionOpts; var basePlotModules = gd._fullLayout._basePlotModules; var hasAxisTransition = axEdits.length; var i; if(layout) { for(i = 0; i < basePlotModules.length; i++) { if(basePlotModules[i].transitionAxes) { basePlotModules[i].transitionAxes(gd, axEdits, transitionOpts, makeCallback); } } } // Here handle the exception that we refuse to animate scales and axes at the same // time. In other words, if there's an axis transition, then set the data transition // to instantaneous. if(hasAxisTransition) { traceTransitionOpts = Lib.extendFlat({}, transitionOpts); traceTransitionOpts.duration = 0; // This means do not transition cartesian traces, // this happens on layout-only (e.g. axis range) animations delete transitionedTraces.cartesian; } else { traceTransitionOpts = transitionOpts; } // Note that we pass a callback to *create* the callback that must be invoked on completion. // This is since not all traces know about transitions, so it greatly simplifies matters if // the trace is responsible for creating a callback, if needed, and then executing it when // the time is right. for(var n in transitionedTraces) { var traceIndices = transitionedTraces[n]; var _module = gd._fullData[traceIndices[0]]._module; _module.basePlotModule.plot(gd, traceIndices, traceTransitionOpts, makeCallback); } }; return _transition(gd, transitionOpts, opts); }; /** * Transition to a set of new data and layout properties from Plotly.react * * @param {DOM element} gd * @param {object} restyleFlags * - anim {'all'|'some'} * @param {object} relayoutFlags * - anim {'all'|'some'} * @param {object} oldFullLayout : old (pre Plotly.react) fullLayout */ plots.transitionFromReact = function(gd, restyleFlags, relayoutFlags, oldFullLayout) { var fullLayout = gd._fullLayout; var transitionOpts = fullLayout.transition; var opts = {}; var axEdits = []; opts.prepareFn = function() { var subplots = fullLayout._plots; // no need to redraw at end of transition, // if all changes are animatable opts.redraw = false; if(restyleFlags.anim === 'some') opts.redraw = true; if(relayoutFlags.anim === 'some') opts.redraw = true; for(var k in subplots) { var plotinfo = subplots[k]; var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var xr0 = oldFullLayout[xa._name].range.slice(); var yr0 = oldFullLayout[ya._name].range.slice(); var xr1 = xa.range.slice(); var yr1 = ya.range.slice(); xa.setScale(); ya.setScale(); var editX = null; var editY = null; if(xa.r2l(xr0[0]) !== xa.r2l(xr1[0]) || xa.r2l(xr0[1]) !== xa.r2l(xr1[1])) { editX = {xr0: xr0, xr1: xr1}; } if(ya.r2l(yr0[0]) !== ya.r2l(yr1[0]) || ya.r2l(yr0[1]) !== ya.r2l(yr1[1])) { editY = {yr0: yr0, yr1: yr1}; } if(editX || editY) { axEdits.push(Lib.extendFlat({plotinfo: plotinfo}, editX, editY)); } } return Promise.resolve(); }; opts.runFn = function(makeCallback) { var fullData = gd._fullData; var fullLayout = gd._fullLayout; var basePlotModules = fullLayout._basePlotModules; var axisTransitionOpts; var traceTransitionOpts; var transitionedTraces; var allTraceIndices = []; for(var i = 0; i < fullData.length; i++) { allTraceIndices.push(i); } function transitionAxes() { if(!gd._fullLayout) return; for(var j = 0; j < basePlotModules.length; j++) { if(basePlotModules[j].transitionAxes) { basePlotModules[j].transitionAxes(gd, axEdits, axisTransitionOpts, makeCallback); } } } function transitionTraces() { if(!gd._fullLayout) return; for(var j = 0; j < basePlotModules.length; j++) { basePlotModules[j].plot(gd, transitionedTraces, traceTransitionOpts, makeCallback); } } if(axEdits.length && restyleFlags.anim) { if(transitionOpts.ordering === 'traces first') { axisTransitionOpts = Lib.extendFlat({}, transitionOpts, {duration: 0}); transitionedTraces = allTraceIndices; traceTransitionOpts = transitionOpts; setTimeout(transitionAxes, transitionOpts.duration); transitionTraces(); } else { axisTransitionOpts = transitionOpts; transitionedTraces = null; traceTransitionOpts = Lib.extendFlat({}, transitionOpts, {duration: 0}); setTimeout(transitionTraces, axisTransitionOpts.duration); transitionAxes(); } } else if(axEdits.length) { axisTransitionOpts = transitionOpts; transitionAxes(); } else if(restyleFlags.anim) { transitionedTraces = allTraceIndices; traceTransitionOpts = transitionOpts; transitionTraces(); } }; return _transition(gd, transitionOpts, opts); }; /** * trace/layout transition wrapper that works * for transitions initiated by Plotly.animate and Plotly.react. * * @param {DOM element} gd * @param {object} transitionOpts * @param {object} opts * - redraw {boolean} * - prepareFn {function} *should return a Promise* * - runFn {function} ran inside executeTransitions */ function _transition(gd, transitionOpts, opts) { var aborted = false; function executeCallbacks(list) { var p = Promise.resolve(); if(!list) return p; while(list.length) { p = p.then((list.shift())); } return p; } function flushCallbacks(list) { if(!list) return; while(list.length) { list.shift(); } } function executeTransitions() { gd.emit('plotly_transitioning', []); return new Promise(function(resolve) { // This flag is used to disabled things like autorange: gd._transitioning = true; // When instantaneous updates are coming through quickly, it's too much to simply disable // all interaction, so store this flag so we can disambiguate whether mouse interactions // should be fully disabled or not: if(transitionOpts.duration > 0) { gd._transitioningWithDuration = true; } // If another transition is triggered, this callback will be executed simply because it's // in the interruptCallbacks queue. If this transition completes, it will instead flush // that queue and forget about this callback. gd._transitionData._interruptCallbacks.push(function() { aborted = true; }); if(opts.redraw) { gd._transitionData._interruptCallbacks.push(function() { return Registry.call('redraw', gd); }); } // Emit this and make sure it happens last: gd._transitionData._interruptCallbacks.push(function() { gd.emit('plotly_transitioninterrupted', []); }); // Construct callbacks that are executed on transition end. This ensures the d3 transitions // are *complete* before anything else is done. var numCallbacks = 0; var numCompleted = 0; function makeCallback() { numCallbacks++; return function() { numCompleted++; // When all are complete, perform a redraw: if(!aborted && numCompleted === numCallbacks) { completeTransition(resolve); } }; } opts.runFn(makeCallback); // If nothing else creates a callback, then this will trigger the completion in the next tick: setTimeout(makeCallback()); }); } function completeTransition(callback) { // This a simple workaround for tests which purge the graph before animations // have completed. That's not a very common case, so this is the simplest // fix. if(!gd._transitionData) return; flushCallbacks(gd._transitionData._interruptCallbacks); return Promise.resolve().then(function() { if(opts.redraw) { return Registry.call('redraw', gd); } }).then(function() { // Set transitioning false again once the redraw has occurred. This is used, for example, // to prevent the trailing redraw from autoranging: gd._transitioning = false; gd._transitioningWithDuration = false; gd.emit('plotly_transitioned', []); }).then(callback); } function interruptPreviousTransitions() { // Fail-safe against purged plot: if(!gd._transitionData) return; // If a transition is interrupted, set this to false. At the moment, the only thing that would // interrupt a transition is another transition, so that it will momentarily be set to true // again, but this determines whether autorange or dragbox work, so it's for the sake of // cleanliness: gd._transitioning = false; return executeCallbacks(gd._transitionData._interruptCallbacks); } var seq = [ plots.previousPromises, interruptPreviousTransitions, opts.prepareFn, plots.rehover, executeTransitions ]; var transitionStarting = Lib.syncOrAsync(seq, gd); if(!transitionStarting || !transitionStarting.then) { transitionStarting = Promise.resolve(); } return transitionStarting.then(function() { return gd; }); } plots.doCalcdata = function(gd, traces) { var axList = axisIDs.list(gd); var fullData = gd._fullData; var fullLayout = gd._fullLayout; var trace, _module, i, j; // XXX: Is this correct? Needs a closer look so that *some* traces can be recomputed without // *all* needing doCalcdata: var calcdata = new Array(fullData.length); var oldCalcdata = (gd.calcdata || []).slice(); gd.calcdata = calcdata; // extra helper variables // how many box/violins plots do we have (in case they're grouped) fullLayout._numBoxes = 0; fullLayout._numViolins = 0; // initialize violin per-scale-group stats container fullLayout._violinScaleGroupStats = {}; // for calculating avg luminosity of heatmaps gd._hmpixcount = 0; gd._hmlumcount = 0; // for sharing colors across pies / sunbursts / treemap / icicle / funnelarea (and for legend) fullLayout._piecolormap = {}; fullLayout._sunburstcolormap = {}; fullLayout._treemapcolormap = {}; fullLayout._iciclecolormap = {}; fullLayout._funnelareacolormap = {}; // If traces were specified and this trace was not included, // then transfer it over from the old calcdata: for(i = 0; i < fullData.length; i++) { if(Array.isArray(traces) && traces.indexOf(i) === -1) { calcdata[i] = oldCalcdata[i]; continue; } } for(i = 0; i < fullData.length; i++) { trace = fullData[i]; trace._arrayAttrs = PlotSchema.findArrayAttributes(trace); // keep track of trace extremes (for autorange) in here trace._extremes = {}; } // add polar axes to axis list var polarIds = fullLayout._subplots.polar || []; for(i = 0; i < polarIds.length; i++) { axList.push( fullLayout[polarIds[i]].radialaxis, fullLayout[polarIds[i]].angularaxis ); } // clear relinked cmin/cmax values in shared axes to start aggregation from scratch for(var k in fullLayout._colorAxes) { var cOpts = fullLayout[k]; if(cOpts.cauto !== false) { delete cOpts.cmin; delete cOpts.cmax; } } var hasCalcTransform = false; function transformCalci(i) { trace = fullData[i]; _module = trace._module; if(trace.visible === true && trace.transforms) { // we need one round of trace module calc before // the calc transform to 'fill in' the categories list // used for example in the data-to-coordinate method if(_module && _module.calc) { var cdi = _module.calc(gd, trace); // must clear scene 'batches', so that 2nd // _module.calc call starts from scratch if(cdi[0] && cdi[0].t && cdi[0].t._scene) { delete cdi[0].t._scene.dirty; } } for(j = 0; j < trace.transforms.length; j++) { var transform = trace.transforms[j]; _module = transformsRegistry[transform.type]; if(_module && _module.calcTransform) { trace._hasCalcTransform = true; hasCalcTransform = true; _module.calcTransform(gd, trace, transform); } } } } function calci(i, isContainer) { trace = fullData[i]; _module = trace._module; if(!!_module.isContainer !== isContainer) return; var cd = []; if(trace.visible === true && trace._length !== 0) { // clear existing ref in case it got relinked delete trace._indexToPoints; // keep ref of index-to-points map object of the *last* enabled transform, // this index-to-points map object is required to determine the calcdata indices // that correspond to input indices (e.g. from 'selectedpoints') var transforms = trace.transforms || []; for(j = transforms.length - 1; j >= 0; j--) { if(transforms[j].enabled) { trace._indexToPoints = transforms[j]._indexToPoints; break; } } if(_module && _module.calc) { cd = _module.calc(gd, trace); } } // Make sure there is a first point. // // This ensures there is a calcdata item for every trace, // even if cartesian logic doesn't handle it (for things like legends). if(!Array.isArray(cd) || !cd[0]) { cd = [{x: BADNUM, y: BADNUM}]; } // add the trace-wide properties to the first point, // per point properties to every point // t is the holder for trace-wide properties if(!cd[0].t) cd[0].t = {}; cd[0].trace = trace; calcdata[i] = cd; } setupAxisCategories(axList, fullData, fullLayout); // 'transform' loop - must calc container traces first // so that if their dependent traces can get transform properly for(i = 0; i < fullData.length; i++) calci(i, true); for(i = 0; i < fullData.length; i++) transformCalci(i); // clear stuff that should recomputed in 'regular' loop if(hasCalcTransform) setupAxisCategories(axList, fullData, fullLayout); // 'regular' loop - make sure container traces (eg carpet) calc before // contained traces (eg contourcarpet) for(i = 0; i < fullData.length; i++) calci(i, true); for(i = 0; i < fullData.length; i++) calci(i, false); doCrossTraceCalc(gd); // Sort axis categories per value if specified var sorted = sortAxisCategoriesByValue(axList, gd); if(sorted.length) { // how many box/violins plots do we have (in case they're grouped) fullLayout._numBoxes = 0; fullLayout._numViolins = 0; // If a sort operation was performed, run calc() again for(i = 0; i < sorted.length; i++) calci(sorted[i], true); for(i = 0; i < sorted.length; i++) calci(sorted[i], false); doCrossTraceCalc(gd); } Registry.getComponentMethod('fx', 'calc')(gd); Registry.getComponentMethod('errorbars', 'calc')(gd); }; var sortAxisCategoriesByValueRegex = /(total|sum|min|max|mean|median) (ascending|descending)/; function sortAxisCategoriesByValue(axList, gd) { var affectedTraces = []; var i, j, k, l, o; function zMapCategory(type, ax, value) { var axLetter = ax._id.charAt(0); if(type === 'histogram2dcontour') { var counterAxLetter = ax._counterAxes[0]; var counterAx = axisIDs.getFromId(gd, counterAxLetter); var xCategorical = axLetter === 'x' || (counterAxLetter === 'x' && counterAx.type === 'category'); var yCategorical = axLetter === 'y' || (counterAxLetter === 'y' && counterAx.type === 'category'); return function(o, l) { if(o === 0 || l === 0) return -1; // Skip first row and column if(xCategorical && o === value[l].length - 1) return -1; if(yCategorical && l === value.length - 1) return -1; return (axLetter === 'y' ? l : o) - 1; }; } else { return function(o, l) { return axLetter === 'y' ? l : o; }; } } var aggFn = { 'min': function(values) {return Lib.aggNums(Math.min, null, values);}, 'max': function(values) {return Lib.aggNums(Math.max, null, values);}, 'sum': function(values) {return Lib.aggNums(function(a, b) { return a + b;}, null, values);}, 'total': function(values) {return Lib.aggNums(function(a, b) { return a + b;}, null, values);}, 'mean': function(values) {return Lib.mean(values);}, 'median': function(values) {return Lib.median(values);} }; for(i = 0; i < axList.length; i++) { var ax = axList[i]; if(ax.type !== 'category') continue; // Order by value var match = ax.categoryorder.match(sortAxisCategoriesByValueRegex); if(match) { var aggregator = match[1]; var order = match[2]; var axLetter = ax._id.charAt(0); var isX = axLetter === 'x'; // Store values associated with each category var categoriesValue = []; for(j = 0; j < ax._categories.length; j++) { categoriesValue.push([ax._categories[j], []]); } // Collect values across traces for(j = 0; j < ax._traceIndices.length; j++) { var traceIndex = ax._traceIndices[j]; var fullTrace = gd._fullData[traceIndex]; // Skip over invisible traces if(fullTrace.visible !== true) continue; var type = fullTrace.type; if(Registry.traceIs(fullTrace, 'histogram')) { delete fullTrace._xautoBinFinished; delete fullTrace._yautoBinFinished; } var isSplom = type === 'splom'; var isScattergl = type === 'scattergl'; var cd = gd.calcdata[traceIndex]; for(k = 0; k < cd.length; k++) { var cdi = cd[k]; var catIndex, value; if(isSplom) { // If `splom`, collect values across dimensions // Find which dimension the current axis is representing var currentDimensionIndex = fullTrace._axesDim[ax._id]; // Apply logic to associated x axis if it's defined if(!isX) { var associatedXAxisID = fullTrace._diag[currentDimensionIndex][0]; if(associatedXAxisID) ax = gd._fullLayout[axisIDs.id2name(associatedXAxisID)]; } var categories = cdi.trace.dimensions[currentDimensionIndex].values; for(l = 0; l < categories.length; l++) { catIndex = ax._categoriesMap[categories[l]]; // Collect associated values at index `l` over all other dimensions for(o = 0; o < cdi.trace.dimensions.length; o++) { if(o === currentDimensionIndex) continue; var dimension = cdi.trace.dimensions[o]; categoriesValue[catIndex][1].push(dimension.values[l]); } } } else if(isScattergl) { // If `scattergl`, collect all values stashed under cdi.t for(l = 0; l < cdi.t.x.length; l++) { if(isX) { catIndex = cdi.t.x[l]; value = cdi.t.y[l]; } else { catIndex = cdi.t.y[l]; value = cdi.t.x[l]; } categoriesValue[catIndex][1].push(value); } // must clear scene 'batches', so that 2nd // _module.calc call starts from scratch if(cdi.t && cdi.t._scene) { delete cdi.t._scene.dirty; } } else if(cdi.hasOwnProperty('z')) { // If 2dMap, collect values in `z` value = cdi.z; var mapping = zMapCategory(fullTrace.type, ax, value); for(l = 0; l < value.length; l++) { for(o = 0; o < value[l].length; o++) { catIndex = mapping(o, l); if(catIndex + 1) categoriesValue[catIndex][1].push(value[l][o]); } } } else { // For all other 2d cartesian traces catIndex = cdi.p; if(catIndex === undefined) catIndex = cdi[axLetter]; value = cdi.s; if(value === undefined) value = cdi.v; if(value === undefined) value = isX ? cdi.y : cdi.x; if(!Array.isArray(value)) { if(value === undefined) value = []; else value = [value]; } for(l = 0; l < value.length; l++) { categoriesValue[catIndex][1].push(value[l]); } } } } ax._categoriesValue = categoriesValue; var categoriesAggregatedValue = []; for(j = 0; j < categoriesValue.length; j++) { categoriesAggregatedValue.push([ categoriesValue[j][0], aggFn[aggregator](categoriesValue[j][1]) ]); } // Sort by aggregated value categoriesAggregatedValue.sort(function(a, b) { return a[1] - b[1]; }); ax._categoriesAggregatedValue = categoriesAggregatedValue; // Set new category order ax._initialCategories = categoriesAggregatedValue.map(function(c) { return c[0]; }); // Reverse if descending if(order === 'descending') { ax._initialCategories.reverse(); } // Sort all matching axes affectedTraces = affectedTraces.concat(ax.sortByInitialCategories()); } } return affectedTraces; } function setupAxisCategories(axList, fullData, fullLayout) { var axLookup = {}; function setupOne(ax) { ax.clearCalc(); if(ax.type === 'multicategory') { ax.setupMultiCategory(fullData); } axLookup[ax._id] = 1; } Lib.simpleMap(axList, setupOne); // look into match groups for 'missing' axes var matchGroups = fullLayout._axisMatchGroups || []; for(var i = 0; i < matchGroups.length; i++) { for(var axId in matchGroups[i]) { if(!axLookup[axId]) { setupOne(fullLayout[axisIDs.id2name(axId)]); } } } } function doCrossTraceCalc(gd) { var fullLayout = gd._fullLayout; var modules = fullLayout._visibleModules; var hash = {}; var i, j, k; // position and range calculations for traces that // depend on each other ie bars (stacked or grouped) // and boxes (grouped) push each other out of the way for(j = 0; j < modules.length; j++) { var _module = modules[j]; var fn = _module.crossTraceCalc; if(fn) { var spType = _module.basePlotModule.name; if(hash[spType]) { Lib.pushUnique(hash[spType], fn); } else { hash[spType] = [fn]; } } } for(k in hash) { var methods = hash[k]; var subplots = fullLayout._subplots[k]; if(Array.isArray(subplots)) { for(i = 0; i < subplots.length; i++) { var sp = subplots[i]; var spInfo = k === 'cartesian' ? fullLayout._plots[sp] : fullLayout[sp]; for(j = 0; j < methods.length; j++) { methods[j](gd, spInfo, sp); } } } else { for(j = 0; j < methods.length; j++) { methods[j](gd); } } } } plots.rehover = function(gd) { if(gd._fullLayout._rehover) { gd._fullLayout._rehover(); } }; plots.redrag = function(gd) { if(gd._fullLayout._redrag) { gd._fullLayout._redrag(); } }; plots.generalUpdatePerTraceModule = function(gd, subplot, subplotCalcData, subplotLayout) { var traceHashOld = subplot.traceHash; var traceHash = {}; var i; // build up moduleName -> calcData hash for(i = 0; i < subplotCalcData.length; i++) { var calcTraces = subplotCalcData[i]; var trace = calcTraces[0].trace; // skip over visible === false traces // as they don't have `_module` ref if(trace.visible) { traceHash[trace.type] = traceHash[trace.type] || []; traceHash[trace.type].push(calcTraces); } } // when a trace gets deleted, make sure that its module's // plot method is called so that it is properly // removed from the DOM. for(var moduleNameOld in traceHashOld) { if(!traceHash[moduleNameOld]) { var fakeCalcTrace = traceHashOld[moduleNameOld][0]; var fakeTrace = fakeCalcTrace[0].trace; fakeTrace.visible = false; traceHash[moduleNameOld] = [fakeCalcTrace]; } } // call module plot method for(var moduleName in traceHash) { var moduleCalcData = traceHash[moduleName]; var _module = moduleCalcData[0][0].trace._module; _module.plot(gd, subplot, Lib.filterVisible(moduleCalcData), subplotLayout); } // update moduleName -> calcData hash subplot.traceHash = traceHash; }; plots.plotBasePlot = function(desiredType, gd, traces, transitionOpts, makeOnCompleteCallback) { var _module = Registry.getModule(desiredType); var cdmodule = getModuleCalcData(gd.calcdata, _module)[0]; _module.plot(gd, cdmodule, transitionOpts, makeOnCompleteCallback); }; plots.cleanBasePlot = function(desiredType, newFullData, newFullLayout, oldFullData, oldFullLayout) { var had = (oldFullLayout._has && oldFullLayout._has(desiredType)); var has = (newFullLayout._has && newFullLayout._has(desiredType)); if(had && !has) { oldFullLayout['_' + desiredType + 'layer'].selectAll('g.trace').remove(); } }; },{"../components/color":157,"../constants/numerical":267,"../lib":287,"../plot_api/plot_schema":322,"../plot_api/plot_template":323,"../plots/get_data":367,"../registry":378,"./animation_attributes":328,"./attributes":330,"./cartesian/axis_ids":338,"./cartesian/handle_outline":345,"./command":363,"./font_attributes":365,"./frame_attributes":366,"./layout_attributes":369,"@plotly/d3":20,"d3-format":29,"d3-time-format":30,"fast-isnumeric":33}],372:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var Template = _dereq_('../plot_api/plot_template'); var handleDomainDefaults = _dereq_('./domain').defaults; /** * Find and supply defaults to all subplots of a given type * This handles subplots that are contained within one container - so * gl3d, geo, ternary... but not 2d axes which have separate x and y axes * finds subplots, coerces their `domain` attributes, then calls the * given handleDefaults function to fill in everything else. * * layoutIn: the complete user-supplied input layout * layoutOut: the complete finished layout * fullData: the finished data array, used only to find subplots * opts: { * type: subplot type string * attributes: subplot attributes object * partition: 'x' or 'y', which direction to divide domain space by default * (default 'x', ie side-by-side subplots) * TODO: this option is only here because 3D and geo made opposite * choices in this regard previously and I didn't want to change it. * Instead we should do: * - something consistent * - something more square (4 cuts 2x2, 5/6 cuts 2x3, etc.) * - something that includes all subplot types in one arrangement, * now that we can have them together! * handleDefaults: function of (subplotLayoutIn, subplotLayoutOut, coerce, opts) * this opts object is passed through to handleDefaults, so attach any * additional items needed by this function here as well * } */ module.exports = function handleSubplotDefaults(layoutIn, layoutOut, fullData, opts) { var subplotType = opts.type; var subplotAttributes = opts.attributes; var handleDefaults = opts.handleDefaults; var partition = opts.partition || 'x'; var ids = layoutOut._subplots[subplotType]; var idsLength = ids.length; var baseId = idsLength && ids[0].replace(/\d+$/, ''); var subplotLayoutIn, subplotLayoutOut; function coerce(attr, dflt) { return Lib.coerce(subplotLayoutIn, subplotLayoutOut, subplotAttributes, attr, dflt); } for(var i = 0; i < idsLength; i++) { var id = ids[i]; // ternary traces get a layout ternary for free! if(layoutIn[id]) subplotLayoutIn = layoutIn[id]; else subplotLayoutIn = layoutIn[id] = {}; subplotLayoutOut = Template.newContainer(layoutOut, id, baseId); if(!opts.noUirevision) coerce('uirevision', layoutOut.uirevision); var dfltDomains = {}; dfltDomains[partition] = [i / idsLength, (i + 1) / idsLength]; handleDomainDefaults(subplotLayoutOut, layoutOut, coerce, dfltDomains); opts.id = id; handleDefaults(subplotLayoutIn, subplotLayoutOut, coerce, opts); } }; },{"../lib":287,"../plot_api/plot_template":323,"./domain":364}],373:[function(_dereq_,module,exports){ 'use strict'; var docs = _dereq_('../constants/docs'); var FORMAT_LINK = docs.FORMAT_LINK; var DATE_FORMAT_LINK = docs.DATE_FORMAT_LINK; function templateFormatStringDescription(opts) { var supportOther = opts && opts.supportOther; return [ 'Variables are inserted using %{variable},', 'for example "y: %{y}"' + ( supportOther ? ' as well as %{xother}, {%_xother}, {%_xother_}, {%xother_}. When showing info for several points, *xother* will be added to those with different x positions from the first point. An underscore before or after *(x|y)other* will add a space on that side, only when this field is shown.' : '.' ), 'Numbers are formatted using d3-format\'s syntax %{variable:d3-format}, for example "Price: %{y:$.2f}".', FORMAT_LINK, 'for details on the formatting syntax.', 'Dates are formatted using d3-time-format\'s syntax %{variable|d3-time-format}, for example "Day: %{2019-01-01|%A}".', DATE_FORMAT_LINK, 'for details on the date formatting syntax.' ].join(' '); } function describeVariables(extra) { var descPart = extra.description ? ' ' + extra.description : ''; var keys = extra.keys || []; if(keys.length > 0) { var quotedKeys = []; for(var i = 0; i < keys.length; i++) { quotedKeys[i] = '`' + keys[i] + '`'; } descPart = descPart + 'Finally, the template string has access to '; if(keys.length === 1) { descPart = 'variable ' + quotedKeys[0]; } else { descPart = 'variables ' + quotedKeys.slice(0, -1).join(', ') + ' and ' + quotedKeys.slice(-1) + '.'; } } return descPart; } exports.hovertemplateAttrs = function(opts, extra) { opts = opts || {}; extra = extra || {}; var descPart = describeVariables(extra); var hovertemplate = { valType: 'string', dflt: '', editType: opts.editType || 'none', }; if(opts.arrayOk !== false) { hovertemplate.arrayOk = true; } return hovertemplate; }; exports.texttemplateAttrs = function(opts, extra) { opts = opts || {}; extra = extra || {}; var descPart = describeVariables(extra); var texttemplate = { valType: 'string', dflt: '', editType: opts.editType || 'calc', }; if(opts.arrayOk !== false) { texttemplate.arrayOk = true; } return texttemplate; }; },{"../constants/docs":264}],374:[function(_dereq_,module,exports){ 'use strict'; var Ternary = _dereq_('./ternary'); var getSubplotCalcData = _dereq_('../../plots/get_data').getSubplotCalcData; var counterRegex = _dereq_('../../lib').counterRegex; var TERNARY = 'ternary'; exports.name = TERNARY; var attr = exports.attr = 'subplot'; exports.idRoot = TERNARY; exports.idRegex = exports.attrRegex = counterRegex(TERNARY); var attributes = exports.attributes = {}; attributes[attr] = { valType: 'subplotid', dflt: 'ternary', editType: 'calc', }; exports.layoutAttributes = _dereq_('./layout_attributes'); exports.supplyLayoutDefaults = _dereq_('./layout_defaults'); exports.plot = function plot(gd) { var fullLayout = gd._fullLayout; var calcData = gd.calcdata; var ternaryIds = fullLayout._subplots[TERNARY]; for(var i = 0; i < ternaryIds.length; i++) { var ternaryId = ternaryIds[i]; var ternaryCalcData = getSubplotCalcData(calcData, TERNARY, ternaryId); var ternary = fullLayout[ternaryId]._subplot; // If ternary is not instantiated, create one! if(!ternary) { ternary = new Ternary({ id: ternaryId, graphDiv: gd, container: fullLayout._ternarylayer.node() }, fullLayout ); fullLayout[ternaryId]._subplot = ternary; } ternary.plot(ternaryCalcData, fullLayout, gd._promises); } }; exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) { var oldTernaryKeys = oldFullLayout._subplots[TERNARY] || []; for(var i = 0; i < oldTernaryKeys.length; i++) { var oldTernaryKey = oldTernaryKeys[i]; var oldTernary = oldFullLayout[oldTernaryKey]._subplot; if(!newFullLayout[oldTernaryKey] && !!oldTernary) { oldTernary.plotContainer.remove(); oldTernary.clipDef.remove(); oldTernary.clipDefRelative.remove(); oldTernary.layers['a-title'].remove(); oldTernary.layers['b-title'].remove(); oldTernary.layers['c-title'].remove(); } } }; },{"../../lib":287,"../../plots/get_data":367,"./layout_attributes":375,"./layout_defaults":376,"./ternary":377}],375:[function(_dereq_,module,exports){ 'use strict'; var colorAttrs = _dereq_('../../components/color/attributes'); var domainAttrs = _dereq_('../domain').attributes; var axesAttrs = _dereq_('../cartesian/layout_attributes'); var overrideAll = _dereq_('../../plot_api/edit_types').overrideAll; var extendFlat = _dereq_('../../lib/extend').extendFlat; var ternaryAxesAttrs = { title: { text: axesAttrs.title.text, font: axesAttrs.title.font // TODO does standoff here make sense? }, color: axesAttrs.color, // ticks tickmode: axesAttrs.tickmode, nticks: extendFlat({}, axesAttrs.nticks, {dflt: 6, min: 1}), tick0: axesAttrs.tick0, dtick: axesAttrs.dtick, tickvals: axesAttrs.tickvals, ticktext: axesAttrs.ticktext, ticks: axesAttrs.ticks, ticklen: axesAttrs.ticklen, tickwidth: axesAttrs.tickwidth, tickcolor: axesAttrs.tickcolor, ticklabelstep: axesAttrs.ticklabelstep, showticklabels: axesAttrs.showticklabels, showtickprefix: axesAttrs.showtickprefix, tickprefix: axesAttrs.tickprefix, showticksuffix: axesAttrs.showticksuffix, ticksuffix: axesAttrs.ticksuffix, showexponent: axesAttrs.showexponent, exponentformat: axesAttrs.exponentformat, minexponent: axesAttrs.minexponent, separatethousands: axesAttrs.separatethousands, tickfont: axesAttrs.tickfont, tickangle: axesAttrs.tickangle, tickformat: axesAttrs.tickformat, tickformatstops: axesAttrs.tickformatstops, hoverformat: axesAttrs.hoverformat, // lines and grids showline: extendFlat({}, axesAttrs.showline, {dflt: true}), linecolor: axesAttrs.linecolor, linewidth: axesAttrs.linewidth, showgrid: extendFlat({}, axesAttrs.showgrid, {dflt: true}), gridcolor: axesAttrs.gridcolor, gridwidth: axesAttrs.gridwidth, griddash: axesAttrs.griddash, layer: axesAttrs.layer, // range min: { valType: 'number', dflt: 0, min: 0, }, _deprecated: { title: axesAttrs._deprecated.title, titlefont: axesAttrs._deprecated.titlefont } }; var attrs = module.exports = overrideAll({ domain: domainAttrs({name: 'ternary'}), bgcolor: { valType: 'color', dflt: colorAttrs.background, }, sum: { valType: 'number', dflt: 1, min: 0, }, aaxis: ternaryAxesAttrs, baxis: ternaryAxesAttrs, caxis: ternaryAxesAttrs }, 'plot', 'from-root'); // set uirevisions outside of `overrideAll` so we can get `editType: none` attrs.uirevision = { valType: 'any', editType: 'none', }; attrs.aaxis.uirevision = attrs.baxis.uirevision = attrs.caxis.uirevision = { valType: 'any', editType: 'none', }; },{"../../components/color/attributes":156,"../../lib/extend":281,"../../plot_api/edit_types":316,"../cartesian/layout_attributes":349,"../domain":364}],376:[function(_dereq_,module,exports){ 'use strict'; var Color = _dereq_('../../components/color'); var Template = _dereq_('../../plot_api/plot_template'); var Lib = _dereq_('../../lib'); var handleSubplotDefaults = _dereq_('../subplot_defaults'); var handleTickLabelDefaults = _dereq_('../cartesian/tick_label_defaults'); var handlePrefixSuffixDefaults = _dereq_('../cartesian/prefix_suffix_defaults'); var handleTickMarkDefaults = _dereq_('../cartesian/tick_mark_defaults'); var handleTickValueDefaults = _dereq_('../cartesian/tick_value_defaults'); var handleLineGridDefaults = _dereq_('../cartesian/line_grid_defaults'); var layoutAttributes = _dereq_('./layout_attributes'); var axesNames = ['aaxis', 'baxis', 'caxis']; module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) { handleSubplotDefaults(layoutIn, layoutOut, fullData, { type: 'ternary', attributes: layoutAttributes, handleDefaults: handleTernaryDefaults, font: layoutOut.font, paper_bgcolor: layoutOut.paper_bgcolor }); }; function handleTernaryDefaults(ternaryLayoutIn, ternaryLayoutOut, coerce, options) { var bgColor = coerce('bgcolor'); var sum = coerce('sum'); options.bgColor = Color.combine(bgColor, options.paper_bgcolor); var axName, containerIn, containerOut; // TODO: allow most (if not all) axis attributes to be set // in the outer container and used as defaults in the individual axes? for(var j = 0; j < axesNames.length; j++) { axName = axesNames[j]; containerIn = ternaryLayoutIn[axName] || {}; containerOut = Template.newContainer(ternaryLayoutOut, axName); containerOut._name = axName; handleAxisDefaults(containerIn, containerOut, options, ternaryLayoutOut); } // if the min values contradict each other, set them all to default (0) // and delete *all* the inputs so the user doesn't get confused later by // changing one and having them all change. var aaxis = ternaryLayoutOut.aaxis; var baxis = ternaryLayoutOut.baxis; var caxis = ternaryLayoutOut.caxis; if(aaxis.min + baxis.min + caxis.min >= sum) { aaxis.min = 0; baxis.min = 0; caxis.min = 0; if(ternaryLayoutIn.aaxis) delete ternaryLayoutIn.aaxis.min; if(ternaryLayoutIn.baxis) delete ternaryLayoutIn.baxis.min; if(ternaryLayoutIn.caxis) delete ternaryLayoutIn.caxis.min; } } function handleAxisDefaults(containerIn, containerOut, options, ternaryLayoutOut) { var axAttrs = layoutAttributes[containerOut._name]; function coerce(attr, dflt) { return Lib.coerce(containerIn, containerOut, axAttrs, attr, dflt); } coerce('uirevision', ternaryLayoutOut.uirevision); containerOut.type = 'linear'; // no other types allowed for ternary var dfltColor = coerce('color'); // if axis.color was provided, use it for fonts too; otherwise, // inherit from global font color in case that was provided. var dfltFontColor = (dfltColor !== axAttrs.color.dflt) ? dfltColor : options.font.color; var axName = containerOut._name; var letterUpper = axName.charAt(0).toUpperCase(); var dfltTitle = 'Component ' + letterUpper; var title = coerce('title.text', dfltTitle); containerOut._hovertitle = title === dfltTitle ? title : letterUpper; Lib.coerceFont(coerce, 'title.font', { family: options.font.family, size: Lib.bigFont(options.font.size), color: dfltFontColor }); // range is just set by 'min' - max is determined by the other axes mins coerce('min'); handleTickValueDefaults(containerIn, containerOut, coerce, 'linear'); handlePrefixSuffixDefaults(containerIn, containerOut, coerce, 'linear'); handleTickLabelDefaults(containerIn, containerOut, coerce, 'linear'); handleTickMarkDefaults(containerIn, containerOut, coerce, { outerTicks: true }); var showTickLabels = coerce('showticklabels'); if(showTickLabels) { Lib.coerceFont(coerce, 'tickfont', { family: options.font.family, size: options.font.size, color: dfltFontColor }); coerce('tickangle'); coerce('tickformat'); } handleLineGridDefaults(containerIn, containerOut, coerce, { dfltColor: dfltColor, bgColor: options.bgColor, // default grid color is darker here (60%, vs cartesian default ~91%) // because the grid is not square so the eye needs heavier cues to follow blend: 60, showLine: true, showGrid: true, noZeroLine: true, attributes: axAttrs }); coerce('hoverformat'); coerce('layer'); } },{"../../components/color":157,"../../lib":287,"../../plot_api/plot_template":323,"../cartesian/line_grid_defaults":351,"../cartesian/prefix_suffix_defaults":353,"../cartesian/tick_label_defaults":358,"../cartesian/tick_mark_defaults":359,"../cartesian/tick_value_defaults":360,"../subplot_defaults":372,"./layout_attributes":375}],377:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var tinycolor = _dereq_('tinycolor2'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var _ = Lib._; var Color = _dereq_('../../components/color'); var Drawing = _dereq_('../../components/drawing'); var setConvert = _dereq_('../cartesian/set_convert'); var extendFlat = _dereq_('../../lib/extend').extendFlat; var Plots = _dereq_('../plots'); var Axes = _dereq_('../cartesian/axes'); var dragElement = _dereq_('../../components/dragelement'); var Fx = _dereq_('../../components/fx'); var dragHelpers = _dereq_('../../components/dragelement/helpers'); var freeMode = dragHelpers.freeMode; var rectMode = dragHelpers.rectMode; var Titles = _dereq_('../../components/titles'); var prepSelect = _dereq_('../cartesian/select').prepSelect; var selectOnClick = _dereq_('../cartesian/select').selectOnClick; var clearSelect = _dereq_('../cartesian/select').clearSelect; var clearSelectionsCache = _dereq_('../cartesian/select').clearSelectionsCache; var constants = _dereq_('../cartesian/constants'); function Ternary(options, fullLayout) { this.id = options.id; this.graphDiv = options.graphDiv; this.init(fullLayout); this.makeFramework(fullLayout); // unfortunately, we have to keep track of some axis tick settings // as ternary subplots do not implement the 'ticks' editType this.aTickLayout = null; this.bTickLayout = null; this.cTickLayout = null; } module.exports = Ternary; var proto = Ternary.prototype; proto.init = function(fullLayout) { this.container = fullLayout._ternarylayer; this.defs = fullLayout._defs; this.layoutId = fullLayout._uid; this.traceHash = {}; this.layers = {}; }; proto.plot = function(ternaryCalcData, fullLayout) { var _this = this; var ternaryLayout = fullLayout[_this.id]; var graphSize = fullLayout._size; _this._hasClipOnAxisFalse = false; for(var i = 0; i < ternaryCalcData.length; i++) { var trace = ternaryCalcData[i][0].trace; if(trace.cliponaxis === false) { _this._hasClipOnAxisFalse = true; break; } } _this.updateLayers(ternaryLayout); _this.adjustLayout(ternaryLayout, graphSize); Plots.generalUpdatePerTraceModule(_this.graphDiv, _this, ternaryCalcData, ternaryLayout); _this.layers.plotbg.select('path').call(Color.fill, ternaryLayout.bgcolor); }; proto.makeFramework = function(fullLayout) { var _this = this; var gd = _this.graphDiv; var ternaryLayout = fullLayout[_this.id]; var clipId = _this.clipId = 'clip' + _this.layoutId + _this.id; var clipIdRelative = _this.clipIdRelative = 'clip-relative' + _this.layoutId + _this.id; // clippath for this ternary subplot _this.clipDef = Lib.ensureSingleById(fullLayout._clips, 'clipPath', clipId, function(s) { s.append('path').attr('d', 'M0,0Z'); }); // 'relative' clippath (i.e. no translation) for this ternary subplot _this.clipDefRelative = Lib.ensureSingleById(fullLayout._clips, 'clipPath', clipIdRelative, function(s) { s.append('path').attr('d', 'M0,0Z'); }); // container for everything in this ternary subplot _this.plotContainer = Lib.ensureSingle(_this.container, 'g', _this.id); _this.updateLayers(ternaryLayout); Drawing.setClipUrl(_this.layers.backplot, clipId, gd); Drawing.setClipUrl(_this.layers.grids, clipId, gd); }; proto.updateLayers = function(ternaryLayout) { var _this = this; var layers = _this.layers; // inside that container, we have one container for the data, and // one each for the three axes around it. var plotLayers = ['draglayer', 'plotbg', 'backplot', 'grids']; if(ternaryLayout.aaxis.layer === 'below traces') { plotLayers.push('aaxis', 'aline'); } if(ternaryLayout.baxis.layer === 'below traces') { plotLayers.push('baxis', 'bline'); } if(ternaryLayout.caxis.layer === 'below traces') { plotLayers.push('caxis', 'cline'); } plotLayers.push('frontplot'); if(ternaryLayout.aaxis.layer === 'above traces') { plotLayers.push('aaxis', 'aline'); } if(ternaryLayout.baxis.layer === 'above traces') { plotLayers.push('baxis', 'bline'); } if(ternaryLayout.caxis.layer === 'above traces') { plotLayers.push('caxis', 'cline'); } var toplevel = _this.plotContainer.selectAll('g.toplevel') .data(plotLayers, String); var grids = ['agrid', 'bgrid', 'cgrid']; toplevel.enter().append('g') .attr('class', function(d) { return 'toplevel ' + d; }) .each(function(d) { var s = d3.select(this); layers[d] = s; // containers for different trace types. // NOTE - this is different from cartesian, where all traces // are in front of grids. Here I'm putting maps behind the grids // so the grids will always be visible if they're requested. // Perhaps we want that for cartesian too? if(d === 'frontplot') { s.append('g').classed('scatterlayer', true); } else if(d === 'backplot') { s.append('g').classed('maplayer', true); } else if(d === 'plotbg') { s.append('path').attr('d', 'M0,0Z'); } else if(d === 'aline' || d === 'bline' || d === 'cline') { s.append('path'); } else if(d === 'grids') { grids.forEach(function(d) { layers[d] = s.append('g').classed('grid ' + d, true); }); } }); toplevel.order(); }; var whRatio = Math.sqrt(4 / 3); proto.adjustLayout = function(ternaryLayout, graphSize) { var _this = this; var domain = ternaryLayout.domain; var xDomainCenter = (domain.x[0] + domain.x[1]) / 2; var yDomainCenter = (domain.y[0] + domain.y[1]) / 2; var xDomain = domain.x[1] - domain.x[0]; var yDomain = domain.y[1] - domain.y[0]; var wmax = xDomain * graphSize.w; var hmax = yDomain * graphSize.h; var sum = ternaryLayout.sum; var amin = ternaryLayout.aaxis.min; var bmin = ternaryLayout.baxis.min; var cmin = ternaryLayout.caxis.min; var x0, y0, w, h, xDomainFinal, yDomainFinal; if(wmax > whRatio * hmax) { h = hmax; w = h * whRatio; } else { w = wmax; h = w / whRatio; } xDomainFinal = xDomain * w / wmax; yDomainFinal = yDomain * h / hmax; x0 = graphSize.l + graphSize.w * xDomainCenter - w / 2; y0 = graphSize.t + graphSize.h * (1 - yDomainCenter) - h / 2; _this.x0 = x0; _this.y0 = y0; _this.w = w; _this.h = h; _this.sum = sum; // set up the x and y axis objects we'll use to lay out the points _this.xaxis = { type: 'linear', range: [amin + 2 * cmin - sum, sum - amin - 2 * bmin], domain: [ xDomainCenter - xDomainFinal / 2, xDomainCenter + xDomainFinal / 2 ], _id: 'x' }; setConvert(_this.xaxis, _this.graphDiv._fullLayout); _this.xaxis.setScale(); _this.xaxis.isPtWithinRange = function(d) { return ( d.a >= _this.aaxis.range[0] && d.a <= _this.aaxis.range[1] && d.b >= _this.baxis.range[1] && d.b <= _this.baxis.range[0] && d.c >= _this.caxis.range[1] && d.c <= _this.caxis.range[0] ); }; _this.yaxis = { type: 'linear', range: [amin, sum - bmin - cmin], domain: [ yDomainCenter - yDomainFinal / 2, yDomainCenter + yDomainFinal / 2 ], _id: 'y' }; setConvert(_this.yaxis, _this.graphDiv._fullLayout); _this.yaxis.setScale(); _this.yaxis.isPtWithinRange = function() { return true; }; // set up the modified axes for tick drawing var yDomain0 = _this.yaxis.domain[0]; // aaxis goes up the left side. Set it up as a y axis, but with // fictitious angles and domain, but then rotate and translate // it into place at the end var aaxis = _this.aaxis = extendFlat({}, ternaryLayout.aaxis, { range: [amin, sum - bmin - cmin], side: 'left', // tickangle = 'auto' means 0 anyway for a y axis, need to coerce to 0 here // so we can shift by 30. tickangle: (+ternaryLayout.aaxis.tickangle || 0) - 30, domain: [yDomain0, yDomain0 + yDomainFinal * whRatio], anchor: 'free', position: 0, _id: 'y', _length: w }); setConvert(aaxis, _this.graphDiv._fullLayout); aaxis.setScale(); // baxis goes across the bottom (backward). We can set it up as an x axis // without any enclosing transformation. var baxis = _this.baxis = extendFlat({}, ternaryLayout.baxis, { range: [sum - amin - cmin, bmin], side: 'bottom', domain: _this.xaxis.domain, anchor: 'free', position: 0, _id: 'x', _length: w }); setConvert(baxis, _this.graphDiv._fullLayout); baxis.setScale(); // caxis goes down the right side. Set it up as a y axis, with // post-transformation similar to aaxis var caxis = _this.caxis = extendFlat({}, ternaryLayout.caxis, { range: [sum - amin - bmin, cmin], side: 'right', tickangle: (+ternaryLayout.caxis.tickangle || 0) + 30, domain: [yDomain0, yDomain0 + yDomainFinal * whRatio], anchor: 'free', position: 0, _id: 'y', _length: w }); setConvert(caxis, _this.graphDiv._fullLayout); caxis.setScale(); var triangleClip = 'M' + x0 + ',' + (y0 + h) + 'h' + w + 'l-' + (w / 2) + ',-' + h + 'Z'; _this.clipDef.select('path').attr('d', triangleClip); _this.layers.plotbg.select('path').attr('d', triangleClip); var triangleClipRelative = 'M0,' + h + 'h' + w + 'l-' + (w / 2) + ',-' + h + 'Z'; _this.clipDefRelative.select('path').attr('d', triangleClipRelative); var plotTransform = strTranslate(x0, y0); _this.plotContainer.selectAll('.scatterlayer,.maplayer') .attr('transform', plotTransform); _this.clipDefRelative.select('path').attr('transform', null); // TODO: shift axes to accommodate linewidth*sin(30) tick mark angle // TODO: there's probably an easier way to handle these translations/offsets now... var bTransform = strTranslate(x0 - baxis._offset, y0 + h); _this.layers.baxis.attr('transform', bTransform); _this.layers.bgrid.attr('transform', bTransform); var aTransform = strTranslate(x0 + w / 2, y0) + 'rotate(30)' + strTranslate(0, -aaxis._offset); _this.layers.aaxis.attr('transform', aTransform); _this.layers.agrid.attr('transform', aTransform); var cTransform = strTranslate(x0 + w / 2, y0) + 'rotate(-30)' + strTranslate(0, -caxis._offset); _this.layers.caxis.attr('transform', cTransform); _this.layers.cgrid.attr('transform', cTransform); _this.drawAxes(true); _this.layers.aline.select('path') .attr('d', aaxis.showline ? 'M' + x0 + ',' + (y0 + h) + 'l' + (w / 2) + ',-' + h : 'M0,0') .call(Color.stroke, aaxis.linecolor || '#000') .style('stroke-width', (aaxis.linewidth || 0) + 'px'); _this.layers.bline.select('path') .attr('d', baxis.showline ? 'M' + x0 + ',' + (y0 + h) + 'h' + w : 'M0,0') .call(Color.stroke, baxis.linecolor || '#000') .style('stroke-width', (baxis.linewidth || 0) + 'px'); _this.layers.cline.select('path') .attr('d', caxis.showline ? 'M' + (x0 + w / 2) + ',' + y0 + 'l' + (w / 2) + ',' + h : 'M0,0') .call(Color.stroke, caxis.linecolor || '#000') .style('stroke-width', (caxis.linewidth || 0) + 'px'); if(!_this.graphDiv._context.staticPlot) { _this.initInteractions(); } Drawing.setClipUrl( _this.layers.frontplot, _this._hasClipOnAxisFalse ? null : _this.clipId, _this.graphDiv ); }; proto.drawAxes = function(doTitles) { var _this = this; var gd = _this.graphDiv; var titlesuffix = _this.id.substr(7) + 'title'; var layers = _this.layers; var aaxis = _this.aaxis; var baxis = _this.baxis; var caxis = _this.caxis; _this.drawAx(aaxis); _this.drawAx(baxis); _this.drawAx(caxis); if(doTitles) { var apad = Math.max(aaxis.showticklabels ? aaxis.tickfont.size / 2 : 0, (caxis.showticklabels ? caxis.tickfont.size * 0.75 : 0) + (caxis.ticks === 'outside' ? caxis.ticklen * 0.87 : 0)); var bpad = (baxis.showticklabels ? baxis.tickfont.size : 0) + (baxis.ticks === 'outside' ? baxis.ticklen : 0) + 3; layers['a-title'] = Titles.draw(gd, 'a' + titlesuffix, { propContainer: aaxis, propName: _this.id + '.aaxis.title', placeholder: _(gd, 'Click to enter Component A title'), attributes: { x: _this.x0 + _this.w / 2, y: _this.y0 - aaxis.title.font.size / 3 - apad, 'text-anchor': 'middle' } }); layers['b-title'] = Titles.draw(gd, 'b' + titlesuffix, { propContainer: baxis, propName: _this.id + '.baxis.title', placeholder: _(gd, 'Click to enter Component B title'), attributes: { x: _this.x0 - bpad, y: _this.y0 + _this.h + baxis.title.font.size * 0.83 + bpad, 'text-anchor': 'middle' } }); layers['c-title'] = Titles.draw(gd, 'c' + titlesuffix, { propContainer: caxis, propName: _this.id + '.caxis.title', placeholder: _(gd, 'Click to enter Component C title'), attributes: { x: _this.x0 + _this.w + bpad, y: _this.y0 + _this.h + caxis.title.font.size * 0.83 + bpad, 'text-anchor': 'middle' } }); } }; proto.drawAx = function(ax) { var _this = this; var gd = _this.graphDiv; var axName = ax._name; var axLetter = axName.charAt(0); var axId = ax._id; var axLayer = _this.layers[axName]; var counterAngle = 30; var stashKey = axLetter + 'tickLayout'; var newTickLayout = strTickLayout(ax); if(_this[stashKey] !== newTickLayout) { axLayer.selectAll('.' + axId + 'tick').remove(); _this[stashKey] = newTickLayout; } ax.setScale(); var vals = Axes.calcTicks(ax); var valsClipped = Axes.clipEnds(ax, vals); var transFn = Axes.makeTransTickFn(ax); var tickSign = Axes.getTickSigns(ax)[2]; var caRad = Lib.deg2rad(counterAngle); var pad = tickSign * (ax.linewidth || 1) / 2; var len = tickSign * ax.ticklen; var w = _this.w; var h = _this.h; var tickPath = axLetter === 'b' ? 'M0,' + pad + 'l' + (Math.sin(caRad) * len) + ',' + (Math.cos(caRad) * len) : 'M' + pad + ',0l' + (Math.cos(caRad) * len) + ',' + (-Math.sin(caRad) * len); var gridPath = { a: 'M0,0l' + h + ',-' + (w / 2), b: 'M0,0l-' + (w / 2) + ',-' + h, c: 'M0,0l-' + h + ',' + (w / 2) }[axLetter]; Axes.drawTicks(gd, ax, { vals: ax.ticks === 'inside' ? valsClipped : vals, layer: axLayer, path: tickPath, transFn: transFn, crisp: false }); Axes.drawGrid(gd, ax, { vals: valsClipped, layer: _this.layers[axLetter + 'grid'], path: gridPath, transFn: transFn, crisp: false }); Axes.drawLabels(gd, ax, { vals: vals, layer: axLayer, transFn: transFn, labelFns: Axes.makeLabelFns(ax, 0, counterAngle) }); }; function strTickLayout(axLayout) { return axLayout.ticks + String(axLayout.ticklen) + String(axLayout.showticklabels); } // hard coded paths for zoom corners // uses the same sizing as cartesian, length is MINZOOM/2, width is 3px var CLEN = constants.MINZOOM / 2 + 0.87; var BLPATH = 'm-0.87,.5h' + CLEN + 'v3h-' + (CLEN + 5.2) + 'l' + (CLEN / 2 + 2.6) + ',-' + (CLEN * 0.87 + 4.5) + 'l2.6,1.5l-' + (CLEN / 2) + ',' + (CLEN * 0.87) + 'Z'; var BRPATH = 'm0.87,.5h-' + CLEN + 'v3h' + (CLEN + 5.2) + 'l-' + (CLEN / 2 + 2.6) + ',-' + (CLEN * 0.87 + 4.5) + 'l-2.6,1.5l' + (CLEN / 2) + ',' + (CLEN * 0.87) + 'Z'; var TOPPATH = 'm0,1l' + (CLEN / 2) + ',' + (CLEN * 0.87) + 'l2.6,-1.5l-' + (CLEN / 2 + 2.6) + ',-' + (CLEN * 0.87 + 4.5) + 'l-' + (CLEN / 2 + 2.6) + ',' + (CLEN * 0.87 + 4.5) + 'l2.6,1.5l' + (CLEN / 2) + ',-' + (CLEN * 0.87) + 'Z'; var STARTMARKER = 'm0.5,0.5h5v-2h-5v-5h-2v5h-5v2h5v5h2Z'; // I guess this could be shared with cartesian... but for now it's separate. var SHOWZOOMOUTTIP = true; proto.clearSelect = function() { clearSelectionsCache(this.dragOptions); clearSelect(this.dragOptions.gd); }; proto.initInteractions = function() { var _this = this; var dragger = _this.layers.plotbg.select('path').node(); var gd = _this.graphDiv; var zoomLayer = gd._fullLayout._zoomlayer; var scaleX; var scaleY; // use plotbg for the main interactions this.dragOptions = { element: dragger, gd: gd, plotinfo: { id: _this.id, domain: gd._fullLayout[_this.id].domain, xaxis: _this.xaxis, yaxis: _this.yaxis }, subplot: _this.id, prepFn: function(e, startX, startY) { // these aren't available yet when initInteractions // is called _this.dragOptions.xaxes = [_this.xaxis]; _this.dragOptions.yaxes = [_this.yaxis]; scaleX = gd._fullLayout._invScaleX; scaleY = gd._fullLayout._invScaleY; var dragModeNow = _this.dragOptions.dragmode = gd._fullLayout.dragmode; if(freeMode(dragModeNow)) _this.dragOptions.minDrag = 1; else _this.dragOptions.minDrag = undefined; if(dragModeNow === 'zoom') { _this.dragOptions.moveFn = zoomMove; _this.dragOptions.clickFn = clickZoomPan; _this.dragOptions.doneFn = zoomDone; zoomPrep(e, startX, startY); } else if(dragModeNow === 'pan') { _this.dragOptions.moveFn = plotDrag; _this.dragOptions.clickFn = clickZoomPan; _this.dragOptions.doneFn = dragDone; panPrep(); _this.clearSelect(gd); } else if(rectMode(dragModeNow) || freeMode(dragModeNow)) { prepSelect(e, startX, startY, _this.dragOptions, dragModeNow); } } }; var x0, y0, mins0, span0, mins, lum, path0, dimmed, zb, corners; function makeUpdate(_mins) { var attrs = {}; attrs[_this.id + '.aaxis.min'] = _mins.a; attrs[_this.id + '.baxis.min'] = _mins.b; attrs[_this.id + '.caxis.min'] = _mins.c; return attrs; } function clickZoomPan(numClicks, evt) { var clickMode = gd._fullLayout.clickmode; removeZoombox(gd); if(numClicks === 2) { gd.emit('plotly_doubleclick', null); Registry.call('_guiRelayout', gd, makeUpdate({a: 0, b: 0, c: 0})); } if(clickMode.indexOf('select') > -1 && numClicks === 1) { selectOnClick(evt, gd, [_this.xaxis], [_this.yaxis], _this.id, _this.dragOptions); } if(clickMode.indexOf('event') > -1) { Fx.click(gd, evt, _this.id); } } function zoomPrep(e, startX, startY) { var dragBBox = dragger.getBoundingClientRect(); x0 = startX - dragBBox.left; y0 = startY - dragBBox.top; gd._fullLayout._calcInverseTransform(gd); var inverse = gd._fullLayout._invTransform; var transformedCoords = Lib.apply3DTransform(inverse)(x0, y0); x0 = transformedCoords[0]; y0 = transformedCoords[1]; mins0 = { a: _this.aaxis.range[0], b: _this.baxis.range[1], c: _this.caxis.range[1] }; mins = mins0; span0 = _this.aaxis.range[1] - mins0.a; lum = tinycolor(_this.graphDiv._fullLayout[_this.id].bgcolor).getLuminance(); path0 = 'M0,' + _this.h + 'L' + (_this.w / 2) + ', 0L' + _this.w + ',' + _this.h + 'Z'; dimmed = false; zb = zoomLayer.append('path') .attr('class', 'zoombox') .attr('transform', strTranslate(_this.x0, _this.y0)) .style({ 'fill': lum > 0.2 ? 'rgba(0,0,0,0)' : 'rgba(255,255,255,0)', 'stroke-width': 0 }) .attr('d', path0); corners = zoomLayer.append('path') .attr('class', 'zoombox-corners') .attr('transform', strTranslate(_this.x0, _this.y0)) .style({ fill: Color.background, stroke: Color.defaultLine, 'stroke-width': 1, opacity: 0 }) .attr('d', 'M0,0Z'); _this.clearSelect(gd); } function getAFrac(x, y) { return 1 - (y / _this.h); } function getBFrac(x, y) { return 1 - ((x + (_this.h - y) / Math.sqrt(3)) / _this.w); } function getCFrac(x, y) { return ((x - (_this.h - y) / Math.sqrt(3)) / _this.w); } function zoomMove(dx0, dy0) { var x1 = x0 + dx0 * scaleX; var y1 = y0 + dy0 * scaleY; var afrac = Math.max(0, Math.min(1, getAFrac(x0, y0), getAFrac(x1, y1))); var bfrac = Math.max(0, Math.min(1, getBFrac(x0, y0), getBFrac(x1, y1))); var cfrac = Math.max(0, Math.min(1, getCFrac(x0, y0), getCFrac(x1, y1))); var xLeft = ((afrac / 2) + cfrac) * _this.w; var xRight = (1 - (afrac / 2) - bfrac) * _this.w; var xCenter = (xLeft + xRight) / 2; var xSpan = xRight - xLeft; var yBottom = (1 - afrac) * _this.h; var yTop = yBottom - xSpan / whRatio; if(xSpan < constants.MINZOOM) { mins = mins0; zb.attr('d', path0); corners.attr('d', 'M0,0Z'); } else { mins = { a: mins0.a + afrac * span0, b: mins0.b + bfrac * span0, c: mins0.c + cfrac * span0 }; zb.attr('d', path0 + 'M' + xLeft + ',' + yBottom + 'H' + xRight + 'L' + xCenter + ',' + yTop + 'L' + xLeft + ',' + yBottom + 'Z'); corners.attr('d', 'M' + x0 + ',' + y0 + STARTMARKER + 'M' + xLeft + ',' + yBottom + BLPATH + 'M' + xRight + ',' + yBottom + BRPATH + 'M' + xCenter + ',' + yTop + TOPPATH); } if(!dimmed) { zb.transition() .style('fill', lum > 0.2 ? 'rgba(0,0,0,0.4)' : 'rgba(255,255,255,0.3)') .duration(200); corners.transition() .style('opacity', 1) .duration(200); dimmed = true; } gd.emit('plotly_relayouting', makeUpdate(mins)); } function zoomDone() { removeZoombox(gd); if(mins === mins0) return; Registry.call('_guiRelayout', gd, makeUpdate(mins)); if(SHOWZOOMOUTTIP && gd.data && gd._context.showTips) { Lib.notifier(_(gd, 'Double-click to zoom back out'), 'long'); SHOWZOOMOUTTIP = false; } } function panPrep() { mins0 = { a: _this.aaxis.range[0], b: _this.baxis.range[1], c: _this.caxis.range[1] }; mins = mins0; } function plotDrag(dx, dy) { var dxScaled = dx / _this.xaxis._m; var dyScaled = dy / _this.yaxis._m; mins = { a: mins0.a - dyScaled, b: mins0.b + (dxScaled + dyScaled) / 2, c: mins0.c - (dxScaled - dyScaled) / 2 }; var minsorted = [mins.a, mins.b, mins.c].sort(Lib.sorterAsc); var minindices = { a: minsorted.indexOf(mins.a), b: minsorted.indexOf(mins.b), c: minsorted.indexOf(mins.c) }; if(minsorted[0] < 0) { if(minsorted[1] + minsorted[0] / 2 < 0) { minsorted[2] += minsorted[0] + minsorted[1]; minsorted[0] = minsorted[1] = 0; } else { minsorted[2] += minsorted[0] / 2; minsorted[1] += minsorted[0] / 2; minsorted[0] = 0; } mins = { a: minsorted[minindices.a], b: minsorted[minindices.b], c: minsorted[minindices.c] }; dy = (mins0.a - mins.a) * _this.yaxis._m; dx = (mins0.c - mins.c - mins0.b + mins.b) * _this.xaxis._m; } // move the data (translate, don't redraw) var plotTransform = strTranslate(_this.x0 + dx, _this.y0 + dy); _this.plotContainer.selectAll('.scatterlayer,.maplayer') .attr('transform', plotTransform); var plotTransform2 = strTranslate(-dx, -dy); _this.clipDefRelative.select('path').attr('transform', plotTransform2); // move the ticks _this.aaxis.range = [mins.a, _this.sum - mins.b - mins.c]; _this.baxis.range = [_this.sum - mins.a - mins.c, mins.b]; _this.caxis.range = [_this.sum - mins.a - mins.b, mins.c]; _this.drawAxes(false); if(_this._hasClipOnAxisFalse) { _this.plotContainer .select('.scatterlayer').selectAll('.trace') .call(Drawing.hideOutsideRangePoints, _this); } gd.emit('plotly_relayouting', makeUpdate(mins)); } function dragDone() { Registry.call('_guiRelayout', gd, makeUpdate(mins)); } // finally, set up hover and click // these event handlers must already be set before dragElement.init // so it can stash them and override them. dragger.onmousemove = function(evt) { Fx.hover(gd, evt, _this.id); gd._fullLayout._lasthover = dragger; gd._fullLayout._hoversubplot = _this.id; }; dragger.onmouseout = function(evt) { if(gd._dragging) return; dragElement.unhover(gd, evt); }; dragElement.init(this.dragOptions); }; function removeZoombox(gd) { d3.select(gd) .selectAll('.zoombox,.js-zoombox-backdrop,.js-zoombox-menu,.zoombox-corners') .remove(); } },{"../../components/color":157,"../../components/dragelement":176,"../../components/dragelement/helpers":175,"../../components/drawing":179,"../../components/fx":197,"../../components/titles":255,"../../lib":287,"../../lib/extend":281,"../../registry":378,"../cartesian/axes":334,"../cartesian/constants":341,"../cartesian/select":355,"../cartesian/set_convert":356,"../plots":371,"@plotly/d3":20,"tinycolor2":121}],378:[function(_dereq_,module,exports){ 'use strict'; var Loggers = _dereq_('./lib/loggers'); var noop = _dereq_('./lib/noop'); var pushUnique = _dereq_('./lib/push_unique'); var isPlainObject = _dereq_('./lib/is_plain_object'); var addStyleRule = _dereq_('./lib/dom').addStyleRule; var ExtendModule = _dereq_('./lib/extend'); var basePlotAttributes = _dereq_('./plots/attributes'); var baseLayoutAttributes = _dereq_('./plots/layout_attributes'); var extendFlat = ExtendModule.extendFlat; var extendDeepAll = ExtendModule.extendDeepAll; exports.modules = {}; exports.allCategories = {}; exports.allTypes = []; exports.subplotsRegistry = {}; exports.transformsRegistry = {}; exports.componentsRegistry = {}; exports.layoutArrayContainers = []; exports.layoutArrayRegexes = []; exports.traceLayoutAttributes = {}; exports.localeRegistry = {}; exports.apiMethodRegistry = {}; exports.collectableSubplotTypes = null; /** * Top-level register routine, exported as Plotly.register * * @param {object array or array of objects} _modules : * module object or list of module object to register. * * A valid `moduleType: 'trace'` module has fields: * - name {string} : the trace type * - categories {array} : categories associated with this trace type, * tested with Register.traceIs() * - meta {object} : meta info (mostly for plot-schema) * * A valid `moduleType: 'locale'` module has fields: * - name {string} : the locale name. Should be a 2-digit language string ('en', 'de') * optionally with a country/region code ('en-GB', 'de-CH'). If a country * code is used but the base language locale has not yet been supplied, * we will use this locale for the base as well. * - dictionary {object} : the dictionary mapping input strings to localized strings * generally the keys should be the literal input strings, but * if default translations are provided you can use any string as a key. * - format {object} : a `d3.locale` format specifier for this locale * any omitted keys we'll fall back on en-US. * * A valid `moduleType: 'transform'` module has fields: * - name {string} : transform name * - transform {function} : default-level transform function * - calcTransform {function} : calc-level transform function * - attributes {object} : transform attributes declarations * - supplyDefaults {function} : attributes default-supply function * * A valid `moduleType: 'component'` module has fields: * - name {string} : the component name, used it with Register.getComponentMethod() * to employ component method. * * A valid `moduleType: 'apiMethod'` module has fields: * - name {string} : the api method name. * - fn {function} : the api method called with Register.call(); * */ exports.register = function register(_modules) { exports.collectableSubplotTypes = null; if(!_modules) { throw new Error('No argument passed to Plotly.register.'); } else if(_modules && !Array.isArray(_modules)) { _modules = [_modules]; } for(var i = 0; i < _modules.length; i++) { var newModule = _modules[i]; if(!newModule) { throw new Error('Invalid module was attempted to be registered!'); } switch(newModule.moduleType) { case 'trace': registerTraceModule(newModule); break; case 'transform': registerTransformModule(newModule); break; case 'component': registerComponentModule(newModule); break; case 'locale': registerLocale(newModule); break; case 'apiMethod': var name = newModule.name; exports.apiMethodRegistry[name] = newModule.fn; break; default: throw new Error('Invalid module was attempted to be registered!'); } } }; /** * Get registered module using trace object or trace type * * @param {object||string} trace * trace object with prop 'type' or trace type as a string * @return {object} * module object corresponding to trace type */ exports.getModule = function(trace) { var _module = exports.modules[getTraceType(trace)]; if(!_module) return false; return _module._module; }; /** * Determine if this trace type is in a given category * * @param {object||string} traceType * a trace (object) or trace type (string) * @param {string} category * category in question * @return {boolean} */ exports.traceIs = function(traceType, category) { traceType = getTraceType(traceType); // old Chart Studio Cloud workspace hack, nothing to see here if(traceType === 'various') return false; var _module = exports.modules[traceType]; if(!_module) { if(traceType) { Loggers.log('Unrecognized trace type ' + traceType + '.'); } _module = exports.modules[basePlotAttributes.type.dflt]; } return !!_module.categories[category]; }; /** * Determine if this trace has a transform of the given type and return * array of matching indices. * * @param {object} data * a trace object (member of data or fullData) * @param {string} type * type of trace to test * @return {array} * array of matching indices. If none found, returns [] */ exports.getTransformIndices = function(data, type) { var indices = []; var transforms = data.transforms || []; for(var i = 0; i < transforms.length; i++) { if(transforms[i].type === type) { indices.push(i); } } return indices; }; /** * Determine if this trace has a transform of the given type * * @param {object} data * a trace object (member of data or fullData) * @param {string} type * type of trace to test * @return {boolean} */ exports.hasTransform = function(data, type) { var transforms = data.transforms || []; for(var i = 0; i < transforms.length; i++) { if(transforms[i].type === type) { return true; } } return false; }; /** * Retrieve component module method. Falls back on noop if either the * module or the method is missing, so the result can always be safely called * * @param {string} name * name of component (as declared in component module) * @param {string} method * name of component module method * @return {function} */ exports.getComponentMethod = function(name, method) { var _module = exports.componentsRegistry[name]; if(!_module) return noop; return _module[method] || noop; }; /** * Call registered api method. * * @param {string} name : api method name * @param {...array} args : arguments passed to api method * @return {any} : returns api method output */ exports.call = function() { var name = arguments[0]; var args = [].slice.call(arguments, 1); return exports.apiMethodRegistry[name].apply(null, args); }; function registerTraceModule(_module) { var thisType = _module.name; var categoriesIn = _module.categories; var meta = _module.meta; if(exports.modules[thisType]) { Loggers.log('Type ' + thisType + ' already registered'); return; } if(!exports.subplotsRegistry[_module.basePlotModule.name]) { registerSubplot(_module.basePlotModule); } var categoryObj = {}; for(var i = 0; i < categoriesIn.length; i++) { categoryObj[categoriesIn[i]] = true; exports.allCategories[categoriesIn[i]] = true; } exports.modules[thisType] = { _module: _module, categories: categoryObj }; if(meta && Object.keys(meta).length) { exports.modules[thisType].meta = meta; } exports.allTypes.push(thisType); for(var componentName in exports.componentsRegistry) { mergeComponentAttrsToTrace(componentName, thisType); } /* * Collect all trace layout attributes in one place for easier lookup later * but don't merge them into the base schema as it would confuse the docs * (at least after https://github.com/plotly/documentation/issues/202 gets done!) */ if(_module.layoutAttributes) { extendFlat(exports.traceLayoutAttributes, _module.layoutAttributes); } var basePlotModule = _module.basePlotModule; var bpmName = basePlotModule.name; // add mapbox-gl CSS here to avoid console warning on instantiation if(bpmName === 'mapbox') { var styleRules = basePlotModule.constants.styleRules; for(var k in styleRules) { addStyleRule('.js-plotly-plot .plotly .mapboxgl-' + k, styleRules[k]); } } // if `plotly-geo-assets.js` is not included, // add `PlotlyGeoAssets` global to stash references to all fetched // topojson / geojson data if((bpmName === 'geo' || bpmName === 'mapbox') && (window.PlotlyGeoAssets === undefined) ) { window.PlotlyGeoAssets = {topojson: {}}; } } function registerSubplot(_module) { var plotType = _module.name; if(exports.subplotsRegistry[plotType]) { Loggers.log('Plot type ' + plotType + ' already registered.'); return; } // relayout array handling will look for component module methods with this // name and won't find them because this is a subplot module... but that // should be fine, it will just fall back on redrawing the plot. findArrayRegexps(_module); // not sure what's best for the 'cartesian' type at this point exports.subplotsRegistry[plotType] = _module; for(var componentName in exports.componentsRegistry) { mergeComponentAttrsToSubplot(componentName, _module.name); } } function registerComponentModule(_module) { if(typeof _module.name !== 'string') { throw new Error('Component module *name* must be a string.'); } var name = _module.name; exports.componentsRegistry[name] = _module; if(_module.layoutAttributes) { if(_module.layoutAttributes._isLinkedToArray) { pushUnique(exports.layoutArrayContainers, name); } findArrayRegexps(_module); } for(var traceType in exports.modules) { mergeComponentAttrsToTrace(name, traceType); } for(var subplotName in exports.subplotsRegistry) { mergeComponentAttrsToSubplot(name, subplotName); } for(var transformType in exports.transformsRegistry) { mergeComponentAttrsToTransform(name, transformType); } if(_module.schema && _module.schema.layout) { extendDeepAll(baseLayoutAttributes, _module.schema.layout); } } function registerTransformModule(_module) { if(typeof _module.name !== 'string') { throw new Error('Transform module *name* must be a string.'); } var prefix = 'Transform module ' + _module.name; var hasTransform = typeof _module.transform === 'function'; var hasCalcTransform = typeof _module.calcTransform === 'function'; if(!hasTransform && !hasCalcTransform) { throw new Error(prefix + ' is missing a *transform* or *calcTransform* method.'); } if(hasTransform && hasCalcTransform) { Loggers.log([ prefix + ' has both a *transform* and *calcTransform* methods.', 'Please note that all *transform* methods are executed', 'before all *calcTransform* methods.' ].join(' ')); } if(!isPlainObject(_module.attributes)) { Loggers.log(prefix + ' registered without an *attributes* object.'); } if(typeof _module.supplyDefaults !== 'function') { Loggers.log(prefix + ' registered without a *supplyDefaults* method.'); } exports.transformsRegistry[_module.name] = _module; for(var componentName in exports.componentsRegistry) { mergeComponentAttrsToTransform(componentName, _module.name); } } function registerLocale(_module) { var locale = _module.name; var baseLocale = locale.split('-')[0]; var newDict = _module.dictionary; var newFormat = _module.format; var hasDict = newDict && Object.keys(newDict).length; var hasFormat = newFormat && Object.keys(newFormat).length; var locales = exports.localeRegistry; var localeObj = locales[locale]; if(!localeObj) locales[locale] = localeObj = {}; // Should we use this dict for the base locale? // In case we're overwriting a previous dict for this locale, check // whether the base matches the full locale dict now. If we're not // overwriting, locales[locale] is undefined so this just checks if // baseLocale already had a dict or not. // Same logic for dateFormats if(baseLocale !== locale) { var baseLocaleObj = locales[baseLocale]; if(!baseLocaleObj) locales[baseLocale] = baseLocaleObj = {}; if(hasDict && baseLocaleObj.dictionary === localeObj.dictionary) { baseLocaleObj.dictionary = newDict; } if(hasFormat && baseLocaleObj.format === localeObj.format) { baseLocaleObj.format = newFormat; } } if(hasDict) localeObj.dictionary = newDict; if(hasFormat) localeObj.format = newFormat; } function findArrayRegexps(_module) { if(_module.layoutAttributes) { var arrayAttrRegexps = _module.layoutAttributes._arrayAttrRegexps; if(arrayAttrRegexps) { for(var i = 0; i < arrayAttrRegexps.length; i++) { pushUnique(exports.layoutArrayRegexes, arrayAttrRegexps[i]); } } } } function mergeComponentAttrsToTrace(componentName, traceType) { var componentSchema = exports.componentsRegistry[componentName].schema; if(!componentSchema || !componentSchema.traces) return; var traceAttrs = componentSchema.traces[traceType]; if(traceAttrs) { extendDeepAll(exports.modules[traceType]._module.attributes, traceAttrs); } } function mergeComponentAttrsToTransform(componentName, transformType) { var componentSchema = exports.componentsRegistry[componentName].schema; if(!componentSchema || !componentSchema.transforms) return; var transformAttrs = componentSchema.transforms[transformType]; if(transformAttrs) { extendDeepAll(exports.transformsRegistry[transformType].attributes, transformAttrs); } } function mergeComponentAttrsToSubplot(componentName, subplotName) { var componentSchema = exports.componentsRegistry[componentName].schema; if(!componentSchema || !componentSchema.subplots) return; var subplotModule = exports.subplotsRegistry[subplotName]; var subplotAttrs = subplotModule.layoutAttributes; var subplotAttr = subplotModule.attr === 'subplot' ? subplotModule.name : subplotModule.attr; if(Array.isArray(subplotAttr)) subplotAttr = subplotAttr[0]; var componentLayoutAttrs = componentSchema.subplots[subplotAttr]; if(subplotAttrs && componentLayoutAttrs) { extendDeepAll(subplotAttrs, componentLayoutAttrs); } } function getTraceType(traceType) { if(typeof traceType === 'object') traceType = traceType.type; return traceType; } },{"./lib/dom":279,"./lib/extend":281,"./lib/is_plain_object":288,"./lib/loggers":291,"./lib/noop":296,"./lib/push_unique":301,"./plots/attributes":330,"./plots/layout_attributes":369}],379:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../registry'); var Lib = _dereq_('../lib'); var extendFlat = Lib.extendFlat; var extendDeep = Lib.extendDeep; // Put default plotTile layouts here function cloneLayoutOverride(tileClass) { var override; switch(tileClass) { case 'themes__thumb': override = { autosize: true, width: 150, height: 150, title: {text: ''}, showlegend: false, margin: {l: 5, r: 5, t: 5, b: 5, pad: 0}, annotations: [] }; break; case 'thumbnail': override = { title: {text: ''}, hidesources: true, showlegend: false, borderwidth: 0, bordercolor: '', margin: {l: 1, r: 1, t: 1, b: 1, pad: 0}, annotations: [] }; break; default: override = {}; } return override; } function keyIsAxis(keyName) { var types = ['xaxis', 'yaxis', 'zaxis']; return (types.indexOf(keyName.slice(0, 5)) > -1); } module.exports = function clonePlot(graphObj, options) { var i; var oldData = graphObj.data; var oldLayout = graphObj.layout; var newData = extendDeep([], oldData); var newLayout = extendDeep({}, oldLayout, cloneLayoutOverride(options.tileClass)); var context = graphObj._context || {}; if(options.width) newLayout.width = options.width; if(options.height) newLayout.height = options.height; if(options.tileClass === 'thumbnail' || options.tileClass === 'themes__thumb') { // kill annotations newLayout.annotations = []; var keys = Object.keys(newLayout); for(i = 0; i < keys.length; i++) { if(keyIsAxis(keys[i])) { newLayout[keys[i]].title = {text: ''}; } } // kill colorbar and pie labels for(i = 0; i < newData.length; i++) { var trace = newData[i]; trace.showscale = false; if(trace.marker) trace.marker.showscale = false; if(Registry.traceIs(trace, 'pie-like')) trace.textposition = 'none'; } } if(Array.isArray(options.annotations)) { for(i = 0; i < options.annotations.length; i++) { newLayout.annotations.push(options.annotations[i]); } } // TODO: does this scene modification really belong here? // If we still need it, can it move into the gl3d module? var sceneIds = Object.keys(newLayout).filter(function(key) { return key.match(/^scene\d*$/); }); if(sceneIds.length) { var axesImageOverride = {}; if(options.tileClass === 'thumbnail') { axesImageOverride = { title: {text: ''}, showaxeslabels: false, showticklabels: false, linetickenable: false }; } for(i = 0; i < sceneIds.length; i++) { var scene = newLayout[sceneIds[i]]; if(!scene.xaxis) { scene.xaxis = {}; } if(!scene.yaxis) { scene.yaxis = {}; } if(!scene.zaxis) { scene.zaxis = {}; } extendFlat(scene.xaxis, axesImageOverride); extendFlat(scene.yaxis, axesImageOverride); extendFlat(scene.zaxis, axesImageOverride); // TODO what does this do? scene._scene = null; } } var gd = document.createElement('div'); if(options.tileClass) gd.className = options.tileClass; var plotTile = { gd: gd, td: gd, // for external (image server) compatibility layout: newLayout, data: newData, config: { staticPlot: (options.staticPlot === undefined) ? true : options.staticPlot, plotGlPixelRatio: (options.plotGlPixelRatio === undefined) ? 2 : options.plotGlPixelRatio, displaylogo: options.displaylogo || false, showLink: options.showLink || false, showTips: options.showTips || false, mapboxAccessToken: context.mapboxAccessToken } }; if(options.setBackground !== 'transparent') { plotTile.config.setBackground = options.setBackground || 'opaque'; } // attaching the default Layout the gd, so you can grab it later plotTile.gd.defaultLayout = cloneLayoutOverride(options.tileClass); return plotTile; }; },{"../lib":287,"../registry":378}],380:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var toImage = _dereq_('../plot_api/to_image'); var fileSaver = _dereq_('./filesaver'); var helpers = _dereq_('./helpers'); /** * Plotly.downloadImage * * @param {object | string | HTML div} gd * can either be a data/layout/config object * or an existing graph
* or an id to an existing graph
* @param {object} opts (see Plotly.toImage in ../plot_api/to_image) * @return {promise} */ function downloadImage(gd, opts) { var _gd; if(!Lib.isPlainObject(gd)) _gd = Lib.getGraphDiv(gd); opts = opts || {}; opts.format = opts.format || 'png'; opts.width = opts.width || null; opts.height = opts.height || null; opts.imageDataOnly = true; return new Promise(function(resolve, reject) { if(_gd && _gd._snapshotInProgress) { reject(new Error('Snapshotting already in progress.')); } // see comments within svgtoimg for additional // discussion of problems with IE // can now draw to canvas, but CORS tainted canvas // does not allow toDataURL // svg format will work though if(Lib.isIE() && opts.format !== 'svg') { reject(new Error(helpers.MSG_IE_BAD_FORMAT)); } if(_gd) _gd._snapshotInProgress = true; var promise = toImage(gd, opts); var filename = opts.filename || gd.fn || 'newplot'; filename += '.' + opts.format.replace('-', '.'); promise.then(function(result) { if(_gd) _gd._snapshotInProgress = false; return fileSaver(result, filename, opts.format); }).then(function(name) { resolve(name); }).catch(function(err) { if(_gd) _gd._snapshotInProgress = false; reject(err); }); }); } module.exports = downloadImage; },{"../lib":287,"../plot_api/to_image":326,"./filesaver":381,"./helpers":382}],381:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var helpers = _dereq_('./helpers'); /* * substantial portions of this code from FileSaver.js * https://github.com/eligrey/FileSaver.js * License: https://github.com/eligrey/FileSaver.js/blob/master/LICENSE.md * FileSaver.js * A saveAs() FileSaver implementation. * 1.1.20160328 * * By Eli Grey, http://eligrey.com * License: MIT * See https://github.com/eligrey/FileSaver.js/blob/master/LICENSE.md */ function fileSaver(url, name, format) { var saveLink = document.createElement('a'); var canUseSaveLink = 'download' in saveLink; var promise = new Promise(function(resolve, reject) { var blob; var objectUrl; // IE 10+ (native saveAs) if(Lib.isIE()) { // At this point we are only dealing with a decoded SVG as // a data URL (since IE only supports SVG) blob = helpers.createBlob(url, 'svg'); window.navigator.msSaveBlob(blob, name); blob = null; return resolve(name); } if(canUseSaveLink) { blob = helpers.createBlob(url, format); objectUrl = helpers.createObjectURL(blob); saveLink.href = objectUrl; saveLink.download = name; document.body.appendChild(saveLink); saveLink.click(); document.body.removeChild(saveLink); helpers.revokeObjectURL(objectUrl); blob = null; return resolve(name); } // Older versions of Safari did not allow downloading of blob urls if(Lib.isSafari()) { var prefix = format === 'svg' ? ',' : ';base64,'; helpers.octetStream(prefix + encodeURIComponent(url)); return resolve(name); } reject(new Error('download error')); }); return promise; } module.exports = fileSaver; },{"../lib":287,"./helpers":382}],382:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../registry'); exports.getDelay = function(fullLayout) { if(!fullLayout._has) return 0; return ( fullLayout._has('gl3d') || fullLayout._has('gl2d') || fullLayout._has('mapbox') ) ? 500 : 0; }; exports.getRedrawFunc = function(gd) { return function() { Registry.getComponentMethod('colorbar', 'draw')(gd); }; }; exports.encodeSVG = function(svg) { return 'data:image/svg+xml,' + encodeURIComponent(svg); }; exports.encodeJSON = function(json) { return 'data:application/json,' + encodeURIComponent(json); }; var DOM_URL = window.URL || window.webkitURL; exports.createObjectURL = function(blob) { return DOM_URL.createObjectURL(blob); }; exports.revokeObjectURL = function(url) { return DOM_URL.revokeObjectURL(url); }; exports.createBlob = function(url, format) { if(format === 'svg') { return new window.Blob([url], {type: 'image/svg+xml;charset=utf-8'}); } else if(format === 'full-json') { return new window.Blob([url], {type: 'application/json;charset=utf-8'}); } else { var binary = fixBinary(window.atob(url)); return new window.Blob([binary], {type: 'image/' + format}); } }; exports.octetStream = function(s) { document.location.href = 'data:application/octet-stream' + s; }; // Taken from https://bl.ocks.org/nolanlawson/0eac306e4dac2114c752 function fixBinary(b) { var len = b.length; var buf = new ArrayBuffer(len); var arr = new Uint8Array(buf); for(var i = 0; i < len; i++) { arr[i] = b.charCodeAt(i); } return buf; } exports.IMAGE_URL_PREFIX = /^data:image\/\w+;base64,/; exports.MSG_IE_BAD_FORMAT = 'Sorry IE does not support downloading from canvas. Try {format:\'svg\'} instead.'; },{"../registry":378}],383:[function(_dereq_,module,exports){ 'use strict'; var helpers = _dereq_('./helpers'); var Snapshot = { getDelay: helpers.getDelay, getRedrawFunc: helpers.getRedrawFunc, clone: _dereq_('./cloneplot'), toSVG: _dereq_('./tosvg'), svgToImg: _dereq_('./svgtoimg'), toImage: _dereq_('./toimage'), downloadImage: _dereq_('./download') }; module.exports = Snapshot; },{"./cloneplot":379,"./download":380,"./helpers":382,"./svgtoimg":384,"./toimage":385,"./tosvg":386}],384:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var EventEmitter = _dereq_('events').EventEmitter; var helpers = _dereq_('./helpers'); function svgToImg(opts) { var ev = opts.emitter || new EventEmitter(); var promise = new Promise(function(resolve, reject) { var Image = window.Image; var svg = opts.svg; var format = opts.format || 'png'; // IE only support svg if(Lib.isIE() && format !== 'svg') { var ieSvgError = new Error(helpers.MSG_IE_BAD_FORMAT); reject(ieSvgError); // eventually remove the ev // in favor of promises if(!opts.promise) { return ev.emit('error', ieSvgError); } else { return promise; } } var canvas = opts.canvas; var scale = opts.scale || 1; var w0 = opts.width || 300; var h0 = opts.height || 150; var w1 = scale * w0; var h1 = scale * h0; var ctx = canvas.getContext('2d', {willReadFrequently: true}); var img = new Image(); var svgBlob, url; if(format === 'svg' || Lib.isSafari()) { url = helpers.encodeSVG(svg); } else { svgBlob = helpers.createBlob(svg, 'svg'); url = helpers.createObjectURL(svgBlob); } canvas.width = w1; canvas.height = h1; img.onload = function() { var imgData; svgBlob = null; helpers.revokeObjectURL(url); // don't need to draw to canvas if svg // save some time and also avoid failure on IE if(format !== 'svg') { ctx.drawImage(img, 0, 0, w1, h1); } switch(format) { case 'jpeg': imgData = canvas.toDataURL('image/jpeg'); break; case 'png': imgData = canvas.toDataURL('image/png'); break; case 'webp': imgData = canvas.toDataURL('image/webp'); break; case 'svg': imgData = url; break; default: var errorMsg = 'Image format is not jpeg, png, svg or webp.'; reject(new Error(errorMsg)); // eventually remove the ev // in favor of promises if(!opts.promise) { return ev.emit('error', errorMsg); } } resolve(imgData); // eventually remove the ev // in favor of promises if(!opts.promise) { ev.emit('success', imgData); } }; img.onerror = function(err) { svgBlob = null; helpers.revokeObjectURL(url); reject(err); // eventually remove the ev // in favor of promises if(!opts.promise) { return ev.emit('error', err); } }; img.src = url; }); // temporary for backward compatibility // move to only Promise in 2.0.0 // and eliminate the EventEmitter if(opts.promise) { return promise; } return ev; } module.exports = svgToImg; },{"../lib":287,"./helpers":382,"events":27}],385:[function(_dereq_,module,exports){ 'use strict'; var EventEmitter = _dereq_('events').EventEmitter; var Registry = _dereq_('../registry'); var Lib = _dereq_('../lib'); var helpers = _dereq_('./helpers'); var clonePlot = _dereq_('./cloneplot'); var toSVG = _dereq_('./tosvg'); var svgToImg = _dereq_('./svgtoimg'); /** * @param {object} gd figure Object * @param {object} opts option object * @param opts.format 'jpeg' | 'png' | 'webp' | 'svg' */ function toImage(gd, opts) { // first clone the GD so we can operate in a clean environment var ev = new EventEmitter(); var clone = clonePlot(gd, {format: 'png'}); var clonedGd = clone.gd; // put the cloned div somewhere off screen before attaching to DOM clonedGd.style.position = 'absolute'; clonedGd.style.left = '-5000px'; document.body.appendChild(clonedGd); function wait() { var delay = helpers.getDelay(clonedGd._fullLayout); setTimeout(function() { var svg = toSVG(clonedGd); var canvas = document.createElement('canvas'); canvas.id = Lib.randstr(); ev = svgToImg({ format: opts.format, width: clonedGd._fullLayout.width, height: clonedGd._fullLayout.height, canvas: canvas, emitter: ev, svg: svg }); ev.clean = function() { if(clonedGd) document.body.removeChild(clonedGd); }; }, delay); } var redrawFunc = helpers.getRedrawFunc(clonedGd); Registry.call('_doPlot', clonedGd, clone.data, clone.layout, clone.config) .then(redrawFunc) .then(wait) .catch(function(err) { ev.emit('error', err); }); return ev; } module.exports = toImage; },{"../lib":287,"../registry":378,"./cloneplot":379,"./helpers":382,"./svgtoimg":384,"./tosvg":386,"events":27}],386:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../lib'); var Drawing = _dereq_('../components/drawing'); var Color = _dereq_('../components/color'); var xmlnsNamespaces = _dereq_('../constants/xmlns_namespaces'); var DOUBLEQUOTE_REGEX = /"/g; var DUMMY_SUB = 'TOBESTRIPPED'; var DUMMY_REGEX = new RegExp('("' + DUMMY_SUB + ')|(' + DUMMY_SUB + '")', 'g'); function htmlEntityDecode(s) { var hiddenDiv = d3.select('body').append('div').style({display: 'none'}).html(''); var replaced = s.replace(/(&[^;]*;)/gi, function(d) { if(d === '<') { return '<'; } // special handling for brackets if(d === '&rt;') { return '>'; } if(d.indexOf('<') !== -1 || d.indexOf('>') !== -1) { return ''; } return hiddenDiv.html(d).text(); // everything else, let the browser decode it to unicode }); hiddenDiv.remove(); return replaced; } function xmlEntityEncode(str) { return str.replace(/&(?!\w+;|\#[0-9]+;| \#x[0-9A-F]+;)/g, '&'); } module.exports = function toSVG(gd, format, scale) { var fullLayout = gd._fullLayout; var svg = fullLayout._paper; var toppaper = fullLayout._toppaper; var width = fullLayout.width; var height = fullLayout.height; var i; // make background color a rect in the svg, then revert after scraping // all other alterations have been dealt with by properly preparing the svg // in the first place... like setting cursors with css classes so we don't // have to remove them, and providing the right namespaces in the svg to // begin with svg.insert('rect', ':first-child') .call(Drawing.setRect, 0, 0, width, height) .call(Color.fill, fullLayout.paper_bgcolor); // subplot-specific to-SVG methods // which notably add the contents of the gl-container // into the main svg node var basePlotModules = fullLayout._basePlotModules || []; for(i = 0; i < basePlotModules.length; i++) { var _module = basePlotModules[i]; if(_module.toSVG) _module.toSVG(gd); } // add top items above them assumes everything in toppaper is either // a group or a defs, and if it's empty (like hoverlayer) we can ignore it. if(toppaper) { var nodes = toppaper.node().childNodes; // make copy of nodes as childNodes prop gets mutated in loop below var topGroups = Array.prototype.slice.call(nodes); for(i = 0; i < topGroups.length; i++) { var topGroup = topGroups[i]; if(topGroup.childNodes.length) svg.node().appendChild(topGroup); } } // remove draglayer for Adobe Illustrator compatibility if(fullLayout._draggers) { fullLayout._draggers.remove(); } // in case the svg element had an explicit background color, remove this // we want the rect to get the color so it's the right size; svg bg will // fill whatever container it's displayed in regardless of plot size. svg.node().style.background = ''; svg.selectAll('text') .attr({'data-unformatted': null, 'data-math': null}) .each(function() { var txt = d3.select(this); // hidden text is pre-formatting mathjax, the browser ignores it // but in a static plot it's useless and it can confuse batik // we've tried to standardize on display:none but make sure we still // catch visibility:hidden if it ever arises if(this.style.visibility === 'hidden' || this.style.display === 'none') { txt.remove(); return; } else { // clear other visibility/display values to default // to not potentially confuse non-browser SVG implementations txt.style({visibility: null, display: null}); } // Font family styles break things because of quotation marks, // so we must remove them *after* the SVG DOM has been serialized // to a string (browsers convert singles back) var ff = this.style.fontFamily; if(ff && ff.indexOf('"') !== -1) { txt.style('font-family', ff.replace(DOUBLEQUOTE_REGEX, DUMMY_SUB)); } }); svg.selectAll('.gradient_filled,.pattern_filled').each(function() { var pt = d3.select(this); // similar to font family styles above, // we must remove " after the SVG DOM has been serialized var fill = this.style.fill; if(fill && fill.indexOf('url(') !== -1) { pt.style('fill', fill.replace(DOUBLEQUOTE_REGEX, DUMMY_SUB)); } var stroke = this.style.stroke; if(stroke && stroke.indexOf('url(') !== -1) { pt.style('stroke', stroke.replace(DOUBLEQUOTE_REGEX, DUMMY_SUB)); } }); if(format === 'pdf' || format === 'eps') { // these formats make the extra line MathJax adds around symbols look super thick in some cases // it looks better if this is removed entirely. svg.selectAll('#MathJax_SVG_glyphs path') .attr('stroke-width', 0); } // fix for IE namespacing quirk? // http://stackoverflow.com/questions/19610089/unwanted-namespaces-on-svg-markup-when-using-xmlserializer-in-javascript-with-ie svg.node().setAttributeNS(xmlnsNamespaces.xmlns, 'xmlns', xmlnsNamespaces.svg); svg.node().setAttributeNS(xmlnsNamespaces.xmlns, 'xmlns:xlink', xmlnsNamespaces.xlink); if(format === 'svg' && scale) { svg.attr('width', scale * width); svg.attr('height', scale * height); svg.attr('viewBox', '0 0 ' + width + ' ' + height); } var s = new window.XMLSerializer().serializeToString(svg.node()); s = htmlEntityDecode(s); s = xmlEntityEncode(s); // Fix quotations around font strings and gradient URLs s = s.replace(DUMMY_REGEX, '\''); // Do we need this process now that IE9 and IE10 are not supported? // IE is very strict, so we will need to clean // svg with the following regex // yes this is messy, but do not know a better way // Even with this IE will not work due to tainted canvas // see https://github.com/kangax/fabric.js/issues/1957 // http://stackoverflow.com/questions/18112047/canvas-todataurl-working-in-all-browsers-except-ie10 // Leave here just in case the CORS/tainted IE issue gets resolved if(Lib.isIE()) { // replace double quote with single quote s = s.replace(/"/gi, '\''); // url in svg are single quoted // since we changed double to single // we'll need to change these to double-quoted s = s.replace(/(\('#)([^']*)('\))/gi, '(\"#$2\")'); // font names with spaces will be escaped single-quoted // we'll need to change these to double-quoted s = s.replace(/(\\')/gi, '\"'); } return s; }; },{"../components/color":157,"../components/drawing":179,"../constants/xmlns_namespaces":268,"../lib":287,"@plotly/d3":20}],387:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); // arrayOk attributes, merge them into calcdata array module.exports = function arraysToCalcdata(cd, trace) { for(var i = 0; i < cd.length; i++) cd[i].i = i; Lib.mergeArray(trace.text, cd, 'tx'); Lib.mergeArray(trace.hovertext, cd, 'htx'); var marker = trace.marker; if(marker) { Lib.mergeArray(marker.opacity, cd, 'mo', true); Lib.mergeArray(marker.color, cd, 'mc'); var markerLine = marker.line; if(markerLine) { Lib.mergeArray(markerLine.color, cd, 'mlc'); Lib.mergeArrayCastPositive(markerLine.width, cd, 'mlw'); } } }; },{"../../lib":287}],388:[function(_dereq_,module,exports){ 'use strict'; var scatterAttrs = _dereq_('../scatter/attributes'); var axisHoverFormat = _dereq_('../../plots/cartesian/axis_format_attributes').axisHoverFormat; var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var texttemplateAttrs = _dereq_('../../plots/template_attributes').texttemplateAttrs; var colorScaleAttrs = _dereq_('../../components/colorscale/attributes'); var fontAttrs = _dereq_('../../plots/font_attributes'); var constants = _dereq_('./constants'); var pattern = _dereq_('../../components/drawing/attributes').pattern; var extendFlat = _dereq_('../../lib/extend').extendFlat; var textFontAttrs = fontAttrs({ editType: 'calc', arrayOk: true, colorEditType: 'style', }); var scatterMarkerAttrs = scatterAttrs.marker; var scatterMarkerLineAttrs = scatterMarkerAttrs.line; var markerLineWidth = extendFlat({}, scatterMarkerLineAttrs.width, { dflt: 0 }); var markerLine = extendFlat({ width: markerLineWidth, editType: 'calc' }, colorScaleAttrs('marker.line')); var marker = extendFlat({ line: markerLine, editType: 'calc' }, colorScaleAttrs('marker'), { opacity: { valType: 'number', arrayOk: true, dflt: 1, min: 0, max: 1, editType: 'style', }, pattern: pattern }); module.exports = { x: scatterAttrs.x, x0: scatterAttrs.x0, dx: scatterAttrs.dx, y: scatterAttrs.y, y0: scatterAttrs.y0, dy: scatterAttrs.dy, xperiod: scatterAttrs.xperiod, yperiod: scatterAttrs.yperiod, xperiod0: scatterAttrs.xperiod0, yperiod0: scatterAttrs.yperiod0, xperiodalignment: scatterAttrs.xperiodalignment, yperiodalignment: scatterAttrs.yperiodalignment, xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), text: scatterAttrs.text, texttemplate: texttemplateAttrs({editType: 'plot'}, { keys: constants.eventDataKeys }), hovertext: scatterAttrs.hovertext, hovertemplate: hovertemplateAttrs({}, { keys: constants.eventDataKeys }), textposition: { valType: 'enumerated', values: ['inside', 'outside', 'auto', 'none'], dflt: 'auto', arrayOk: true, editType: 'calc', }, insidetextanchor: { valType: 'enumerated', values: ['end', 'middle', 'start'], dflt: 'end', editType: 'plot', }, textangle: { valType: 'angle', dflt: 'auto', editType: 'plot', }, textfont: extendFlat({}, textFontAttrs, { }), insidetextfont: extendFlat({}, textFontAttrs, { }), outsidetextfont: extendFlat({}, textFontAttrs, { }), constraintext: { valType: 'enumerated', values: ['inside', 'outside', 'both', 'none'], dflt: 'both', editType: 'calc', }, cliponaxis: extendFlat({}, scatterAttrs.cliponaxis, { }), orientation: { valType: 'enumerated', values: ['v', 'h'], editType: 'calc+clearAxisTypes', }, base: { valType: 'any', dflt: null, arrayOk: true, editType: 'calc', }, offset: { valType: 'number', dflt: null, arrayOk: true, editType: 'calc', }, width: { valType: 'number', dflt: null, min: 0, arrayOk: true, editType: 'calc', }, marker: marker, offsetgroup: { valType: 'string', dflt: '', editType: 'calc', }, alignmentgroup: { valType: 'string', dflt: '', editType: 'calc', }, selected: { marker: { opacity: scatterAttrs.selected.marker.opacity, color: scatterAttrs.selected.marker.color, editType: 'style' }, textfont: scatterAttrs.selected.textfont, editType: 'style' }, unselected: { marker: { opacity: scatterAttrs.unselected.marker.opacity, color: scatterAttrs.unselected.marker.color, editType: 'style' }, textfont: scatterAttrs.unselected.textfont, editType: 'style' }, _deprecated: { bardir: { valType: 'enumerated', editType: 'calc', values: ['v', 'h'], } } }; },{"../../components/colorscale/attributes":164,"../../components/drawing/attributes":178,"../../lib/extend":281,"../../plots/cartesian/axis_format_attributes":337,"../../plots/font_attributes":365,"../../plots/template_attributes":373,"../scatter/attributes":500,"./constants":390}],389:[function(_dereq_,module,exports){ 'use strict'; var Axes = _dereq_('../../plots/cartesian/axes'); var alignPeriod = _dereq_('../../plots/cartesian/align_period'); var hasColorscale = _dereq_('../../components/colorscale/helpers').hasColorscale; var colorscaleCalc = _dereq_('../../components/colorscale/calc'); var arraysToCalcdata = _dereq_('./arrays_to_calcdata'); var calcSelection = _dereq_('../scatter/calc_selection'); module.exports = function calc(gd, trace) { var xa = Axes.getFromId(gd, trace.xaxis || 'x'); var ya = Axes.getFromId(gd, trace.yaxis || 'y'); var size, pos, origPos, pObj, hasPeriod, pLetter; var sizeOpts = { msUTC: !!(trace.base || trace.base === 0) }; if(trace.orientation === 'h') { size = xa.makeCalcdata(trace, 'x', sizeOpts); origPos = ya.makeCalcdata(trace, 'y'); pObj = alignPeriod(trace, ya, 'y', origPos); hasPeriod = !!trace.yperiodalignment; pLetter = 'y'; } else { size = ya.makeCalcdata(trace, 'y', sizeOpts); origPos = xa.makeCalcdata(trace, 'x'); pObj = alignPeriod(trace, xa, 'x', origPos); hasPeriod = !!trace.xperiodalignment; pLetter = 'x'; } pos = pObj.vals; // create the "calculated data" to plot var serieslen = Math.min(pos.length, size.length); var cd = new Array(serieslen); // set position and size for(var i = 0; i < serieslen; i++) { cd[i] = { p: pos[i], s: size[i] }; if(hasPeriod) { cd[i].orig_p = origPos[i]; // used by hover cd[i][pLetter + 'End'] = pObj.ends[i]; cd[i][pLetter + 'Start'] = pObj.starts[i]; } if(trace.ids) { cd[i].id = String(trace.ids[i]); } } // auto-z and autocolorscale if applicable if(hasColorscale(trace, 'marker')) { colorscaleCalc(gd, trace, { vals: trace.marker.color, containerStr: 'marker', cLetter: 'c' }); } if(hasColorscale(trace, 'marker.line')) { colorscaleCalc(gd, trace, { vals: trace.marker.line.color, containerStr: 'marker.line', cLetter: 'c' }); } arraysToCalcdata(cd, trace); calcSelection(cd, trace); return cd; }; },{"../../components/colorscale/calc":165,"../../components/colorscale/helpers":168,"../../plots/cartesian/align_period":331,"../../plots/cartesian/axes":334,"../scatter/calc_selection":502,"./arrays_to_calcdata":387}],390:[function(_dereq_,module,exports){ 'use strict'; module.exports = { // padding in pixels around text TEXTPAD: 3, // 'value' and 'label' are not really necessary for bar traces, // but they were made available to `texttemplate` (maybe by accident) // via tokens `%{value}` and `%{label}` starting in 1.50.0, // so let's include them in the event data also. eventDataKeys: ['value', 'label'] }; },{}],391:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray; var BADNUM = _dereq_('../../constants/numerical').BADNUM; var Registry = _dereq_('../../registry'); var Axes = _dereq_('../../plots/cartesian/axes'); var getAxisGroup = _dereq_('../../plots/cartesian/constraints').getAxisGroup; var Sieve = _dereq_('./sieve.js'); /* * Bar chart stacking/grouping positioning and autoscaling calculations * for each direction separately calculate the ranges and positions * note that this handles histograms too * now doing this one subplot at a time */ function crossTraceCalc(gd, plotinfo) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var fullLayout = gd._fullLayout; var fullTraces = gd._fullData; var calcTraces = gd.calcdata; var calcTracesHorz = []; var calcTracesVert = []; for(var i = 0; i < fullTraces.length; i++) { var fullTrace = fullTraces[i]; if( fullTrace.visible === true && Registry.traceIs(fullTrace, 'bar') && fullTrace.xaxis === xa._id && fullTrace.yaxis === ya._id ) { if(fullTrace.orientation === 'h') { calcTracesHorz.push(calcTraces[i]); } else { calcTracesVert.push(calcTraces[i]); } if(fullTrace._computePh) { var cd = gd.calcdata[i]; for(var j = 0; j < cd.length; j++) { if(typeof cd[j].ph0 === 'function') cd[j].ph0 = cd[j].ph0(); if(typeof cd[j].ph1 === 'function') cd[j].ph1 = cd[j].ph1(); } } } } var opts = { xCat: xa.type === 'category' || xa.type === 'multicategory', yCat: ya.type === 'category' || ya.type === 'multicategory', mode: fullLayout.barmode, norm: fullLayout.barnorm, gap: fullLayout.bargap, groupgap: fullLayout.bargroupgap }; setGroupPositions(gd, xa, ya, calcTracesVert, opts); setGroupPositions(gd, ya, xa, calcTracesHorz, opts); } function setGroupPositions(gd, pa, sa, calcTraces, opts) { if(!calcTraces.length) return; var excluded; var included; var i, calcTrace, fullTrace; initBase(sa, calcTraces); switch(opts.mode) { case 'overlay': setGroupPositionsInOverlayMode(pa, sa, calcTraces, opts); break; case 'group': // exclude from the group those traces for which the user set an offset excluded = []; included = []; for(i = 0; i < calcTraces.length; i++) { calcTrace = calcTraces[i]; fullTrace = calcTrace[0].trace; if(fullTrace.offset === undefined) included.push(calcTrace); else excluded.push(calcTrace); } if(included.length) { setGroupPositionsInGroupMode(gd, pa, sa, included, opts); } if(excluded.length) { setGroupPositionsInOverlayMode(pa, sa, excluded, opts); } break; case 'stack': case 'relative': // exclude from the stack those traces for which the user set a base excluded = []; included = []; for(i = 0; i < calcTraces.length; i++) { calcTrace = calcTraces[i]; fullTrace = calcTrace[0].trace; if(fullTrace.base === undefined) included.push(calcTrace); else excluded.push(calcTrace); } if(included.length) { setGroupPositionsInStackOrRelativeMode(gd, pa, sa, included, opts); } if(excluded.length) { setGroupPositionsInOverlayMode(pa, sa, excluded, opts); } break; } collectExtents(calcTraces, pa); } function initBase(sa, calcTraces) { var i, j; for(i = 0; i < calcTraces.length; i++) { var cd = calcTraces[i]; var trace = cd[0].trace; var base = (trace.type === 'funnel') ? trace._base : trace.base; var b; // not sure if it really makes sense to have dates for bar size data... // ideally if we want to make gantt charts or something we'd treat // the actual size (trace.x or y) as time delta but base as absolute // time. But included here for completeness. var scalendar = trace.orientation === 'h' ? trace.xcalendar : trace.ycalendar; // 'base' on categorical axes makes no sense var d2c = sa.type === 'category' || sa.type === 'multicategory' ? function() { return null; } : sa.d2c; if(isArrayOrTypedArray(base)) { for(j = 0; j < Math.min(base.length, cd.length); j++) { b = d2c(base[j], 0, scalendar); if(isNumeric(b)) { cd[j].b = +b; cd[j].hasB = 1; } else cd[j].b = 0; } for(; j < cd.length; j++) { cd[j].b = 0; } } else { b = d2c(base, 0, scalendar); var hasBase = isNumeric(b); b = hasBase ? b : 0; for(j = 0; j < cd.length; j++) { cd[j].b = b; if(hasBase) cd[j].hasB = 1; } } } } function setGroupPositionsInOverlayMode(pa, sa, calcTraces, opts) { // update position axis and set bar offsets and widths for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; var sieve = new Sieve([calcTrace], { posAxis: pa, sepNegVal: false, overlapNoMerge: !opts.norm }); // set bar offsets and widths, and update position axis setOffsetAndWidth(pa, sieve, opts); // set bar bases and sizes, and update size axis // // (note that `setGroupPositionsInOverlayMode` handles the case barnorm // is defined, because this function is also invoked for traces that // can't be grouped or stacked) if(opts.norm) { sieveBars(sieve); normalizeBars(sa, sieve, opts); } else { setBaseAndTop(sa, sieve); } } } function setGroupPositionsInGroupMode(gd, pa, sa, calcTraces, opts) { var sieve = new Sieve(calcTraces, { posAxis: pa, sepNegVal: false, overlapNoMerge: !opts.norm }); // set bar offsets and widths, and update position axis setOffsetAndWidthInGroupMode(gd, pa, sieve, opts); // relative-stack bars within the same trace that would otherwise // be hidden unhideBarsWithinTrace(sieve, pa); // set bar bases and sizes, and update size axis if(opts.norm) { sieveBars(sieve); normalizeBars(sa, sieve, opts); } else { setBaseAndTop(sa, sieve); } } function setGroupPositionsInStackOrRelativeMode(gd, pa, sa, calcTraces, opts) { var sieve = new Sieve(calcTraces, { posAxis: pa, sepNegVal: opts.mode === 'relative', overlapNoMerge: !(opts.norm || opts.mode === 'stack' || opts.mode === 'relative') }); // set bar offsets and widths, and update position axis setOffsetAndWidth(pa, sieve, opts); // set bar bases and sizes, and update size axis stackBars(sa, sieve, opts); // flag the outmost bar (for text display purposes) for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; for(var j = 0; j < calcTrace.length; j++) { var bar = calcTrace[j]; if(bar.s !== BADNUM) { var isOutmostBar = ((bar.b + bar.s) === sieve.get(bar.p, bar.s)); if(isOutmostBar) bar._outmost = true; } } } // Note that marking the outmost bars has to be done // before `normalizeBars` changes `bar.b` and `bar.s`. if(opts.norm) normalizeBars(sa, sieve, opts); } function setOffsetAndWidth(pa, sieve, opts) { var minDiff = sieve.minDiff; var calcTraces = sieve.traces; // set bar offsets and widths var barGroupWidth = minDiff * (1 - opts.gap); var barWidthPlusGap = barGroupWidth; var barWidth = barWidthPlusGap * (1 - (opts.groupgap || 0)); // computer bar group center and bar offset var offsetFromCenter = -barWidth / 2; for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; var t = calcTrace[0].t; // store bar width and offset for this trace t.barwidth = barWidth; t.poffset = offsetFromCenter; t.bargroupwidth = barGroupWidth; t.bardelta = minDiff; } // stack bars that only differ by rounding sieve.binWidth = calcTraces[0][0].t.barwidth / 100; // if defined, apply trace offset and width applyAttributes(sieve); // store the bar center in each calcdata item setBarCenterAndWidth(pa, sieve); // update position axes updatePositionAxis(pa, sieve); } function setOffsetAndWidthInGroupMode(gd, pa, sieve, opts) { var fullLayout = gd._fullLayout; var positions = sieve.positions; var distinctPositions = sieve.distinctPositions; var minDiff = sieve.minDiff; var calcTraces = sieve.traces; var nTraces = calcTraces.length; // if there aren't any overlapping positions, // let them have full width even if mode is group var overlap = (positions.length !== distinctPositions.length); var barGroupWidth = minDiff * (1 - opts.gap); var groupId = getAxisGroup(fullLayout, pa._id) + calcTraces[0][0].trace.orientation; var alignmentGroups = fullLayout._alignmentOpts[groupId] || {}; for(var i = 0; i < nTraces; i++) { var calcTrace = calcTraces[i]; var trace = calcTrace[0].trace; var alignmentGroupOpts = alignmentGroups[trace.alignmentgroup] || {}; var nOffsetGroups = Object.keys(alignmentGroupOpts.offsetGroups || {}).length; var barWidthPlusGap; if(nOffsetGroups) { barWidthPlusGap = barGroupWidth / nOffsetGroups; } else { barWidthPlusGap = overlap ? barGroupWidth / nTraces : barGroupWidth; } var barWidth = barWidthPlusGap * (1 - (opts.groupgap || 0)); var offsetFromCenter; if(nOffsetGroups) { offsetFromCenter = ((2 * trace._offsetIndex + 1 - nOffsetGroups) * barWidthPlusGap - barWidth) / 2; } else { offsetFromCenter = overlap ? ((2 * i + 1 - nTraces) * barWidthPlusGap - barWidth) / 2 : -barWidth / 2; } var t = calcTrace[0].t; t.barwidth = barWidth; t.poffset = offsetFromCenter; t.bargroupwidth = barGroupWidth; t.bardelta = minDiff; } // stack bars that only differ by rounding sieve.binWidth = calcTraces[0][0].t.barwidth / 100; // if defined, apply trace width applyAttributes(sieve); // store the bar center in each calcdata item setBarCenterAndWidth(pa, sieve); // update position axes updatePositionAxis(pa, sieve, overlap); } function applyAttributes(sieve) { var calcTraces = sieve.traces; var i, j; for(i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; var calcTrace0 = calcTrace[0]; var fullTrace = calcTrace0.trace; var t = calcTrace0.t; var offset = fullTrace._offset || fullTrace.offset; var initialPoffset = t.poffset; var newPoffset; if(isArrayOrTypedArray(offset)) { // if offset is an array, then clone it into t.poffset. newPoffset = Array.prototype.slice.call(offset, 0, calcTrace.length); // guard against non-numeric items for(j = 0; j < newPoffset.length; j++) { if(!isNumeric(newPoffset[j])) { newPoffset[j] = initialPoffset; } } // if the length of the array is too short, // then extend it with the initial value of t.poffset for(j = newPoffset.length; j < calcTrace.length; j++) { newPoffset.push(initialPoffset); } t.poffset = newPoffset; } else if(offset !== undefined) { t.poffset = offset; } var width = fullTrace._width || fullTrace.width; var initialBarwidth = t.barwidth; if(isArrayOrTypedArray(width)) { // if width is an array, then clone it into t.barwidth. var newBarwidth = Array.prototype.slice.call(width, 0, calcTrace.length); // guard against non-numeric items for(j = 0; j < newBarwidth.length; j++) { if(!isNumeric(newBarwidth[j])) newBarwidth[j] = initialBarwidth; } // if the length of the array is too short, // then extend it with the initial value of t.barwidth for(j = newBarwidth.length; j < calcTrace.length; j++) { newBarwidth.push(initialBarwidth); } t.barwidth = newBarwidth; // if user didn't set offset, // then correct t.poffset to ensure bars remain centered if(offset === undefined) { newPoffset = []; for(j = 0; j < calcTrace.length; j++) { newPoffset.push( initialPoffset + (initialBarwidth - newBarwidth[j]) / 2 ); } t.poffset = newPoffset; } } else if(width !== undefined) { t.barwidth = width; // if user didn't set offset, // then correct t.poffset to ensure bars remain centered if(offset === undefined) { t.poffset = initialPoffset + (initialBarwidth - width) / 2; } } } } function setBarCenterAndWidth(pa, sieve) { var calcTraces = sieve.traces; var pLetter = getAxisLetter(pa); for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; var t = calcTrace[0].t; var poffset = t.poffset; var poffsetIsArray = Array.isArray(poffset); var barwidth = t.barwidth; var barwidthIsArray = Array.isArray(barwidth); for(var j = 0; j < calcTrace.length; j++) { var calcBar = calcTrace[j]; // store the actual bar width and position, for use by hover var width = calcBar.w = barwidthIsArray ? barwidth[j] : barwidth; calcBar[pLetter] = calcBar.p + (poffsetIsArray ? poffset[j] : poffset) + width / 2; } } } function updatePositionAxis(pa, sieve, allowMinDtick) { var calcTraces = sieve.traces; var minDiff = sieve.minDiff; var vpad = minDiff / 2; Axes.minDtick(pa, sieve.minDiff, sieve.distinctPositions[0], allowMinDtick); for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; var calcTrace0 = calcTrace[0]; var fullTrace = calcTrace0.trace; var pts = []; var bar, l, r, j; for(j = 0; j < calcTrace.length; j++) { bar = calcTrace[j]; l = bar.p - vpad; r = bar.p + vpad; pts.push(l, r); } if(fullTrace.width || fullTrace.offset) { var t = calcTrace0.t; var poffset = t.poffset; var barwidth = t.barwidth; var poffsetIsArray = Array.isArray(poffset); var barwidthIsArray = Array.isArray(barwidth); for(j = 0; j < calcTrace.length; j++) { bar = calcTrace[j]; var calcBarOffset = poffsetIsArray ? poffset[j] : poffset; var calcBarWidth = barwidthIsArray ? barwidth[j] : barwidth; l = bar.p + calcBarOffset; r = l + calcBarWidth; pts.push(l, r); } } fullTrace._extremes[pa._id] = Axes.findExtremes(pa, pts, {padded: false}); } } // store these bar bases and tops in calcdata // and make sure the size axis includes zero, // along with the bases and tops of each bar. function setBaseAndTop(sa, sieve) { var calcTraces = sieve.traces; var sLetter = getAxisLetter(sa); for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; var fullTrace = calcTrace[0].trace; var pts = []; var tozero = false; for(var j = 0; j < calcTrace.length; j++) { var bar = calcTrace[j]; var base = bar.b; var top = base + bar.s; bar[sLetter] = top; pts.push(top); if(bar.hasB) pts.push(base); if(!bar.hasB || !bar.b) { tozero = true; } } fullTrace._extremes[sa._id] = Axes.findExtremes(sa, pts, { tozero: tozero, padded: true }); } } function stackBars(sa, sieve, opts) { var sLetter = getAxisLetter(sa); var calcTraces = sieve.traces; var calcTrace; var fullTrace; var isFunnel; var i, j; var bar; for(i = 0; i < calcTraces.length; i++) { calcTrace = calcTraces[i]; fullTrace = calcTrace[0].trace; if(fullTrace.type === 'funnel') { for(j = 0; j < calcTrace.length; j++) { bar = calcTrace[j]; if(bar.s !== BADNUM) { // create base of funnels sieve.put(bar.p, -0.5 * bar.s); } } } } for(i = 0; i < calcTraces.length; i++) { calcTrace = calcTraces[i]; fullTrace = calcTrace[0].trace; isFunnel = (fullTrace.type === 'funnel'); var pts = []; for(j = 0; j < calcTrace.length; j++) { bar = calcTrace[j]; if(bar.s !== BADNUM) { // stack current bar and get previous sum var value; if(isFunnel) { value = bar.s; } else { value = bar.s + bar.b; } var base = sieve.put(bar.p, value); var top = base + value; // store the bar base and top in each calcdata item bar.b = base; bar[sLetter] = top; if(!opts.norm) { pts.push(top); if(bar.hasB) { pts.push(base); } } } } // if barnorm is set, let normalizeBars update the axis range if(!opts.norm) { fullTrace._extremes[sa._id] = Axes.findExtremes(sa, pts, { // N.B. we don't stack base with 'base', // so set tozero:true always! tozero: true, padded: true }); } } } function sieveBars(sieve) { var calcTraces = sieve.traces; for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; for(var j = 0; j < calcTrace.length; j++) { var bar = calcTrace[j]; if(bar.s !== BADNUM) { sieve.put(bar.p, bar.b + bar.s); } } } } function unhideBarsWithinTrace(sieve, pa) { var calcTraces = sieve.traces; for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; var fullTrace = calcTrace[0].trace; if(fullTrace.base === undefined) { var inTraceSieve = new Sieve([calcTrace], { posAxis: pa, sepNegVal: true, overlapNoMerge: true }); for(var j = 0; j < calcTrace.length; j++) { var bar = calcTrace[j]; if(bar.p !== BADNUM) { // stack current bar and get previous sum var base = inTraceSieve.put(bar.p, bar.b + bar.s); // if previous sum if non-zero, this means: // multiple bars have same starting point are potentially hidden, // shift them vertically so that all bars are visible by default if(base) bar.b = base; } } } } } // Note: // // normalizeBars requires that either sieveBars or stackBars has been // previously invoked. function normalizeBars(sa, sieve, opts) { var calcTraces = sieve.traces; var sLetter = getAxisLetter(sa); var sTop = opts.norm === 'fraction' ? 1 : 100; var sTiny = sTop / 1e9; // in case of rounding error in sum var sMin = sa.l2c(sa.c2l(0)); var sMax = opts.mode === 'stack' ? sTop : sMin; function needsPadding(v) { return ( isNumeric(sa.c2l(v)) && ((v < sMin - sTiny) || (v > sMax + sTiny) || !isNumeric(sMin)) ); } for(var i = 0; i < calcTraces.length; i++) { var calcTrace = calcTraces[i]; var fullTrace = calcTrace[0].trace; var pts = []; var tozero = false; var padded = false; for(var j = 0; j < calcTrace.length; j++) { var bar = calcTrace[j]; if(bar.s !== BADNUM) { var scale = Math.abs(sTop / sieve.get(bar.p, bar.s)); bar.b *= scale; bar.s *= scale; var base = bar.b; var top = base + bar.s; bar[sLetter] = top; pts.push(top); padded = padded || needsPadding(top); if(bar.hasB) { pts.push(base); padded = padded || needsPadding(base); } if(!bar.hasB || !bar.b) { tozero = true; } } } fullTrace._extremes[sa._id] = Axes.findExtremes(sa, pts, { tozero: tozero, padded: padded }); } } // find the full position span of bars at each position // for use by hover, to ensure labels move in if bars are // narrower than the space they're in. // run once per trace group (subplot & direction) and // the same mapping is attached to all calcdata traces function collectExtents(calcTraces, pa) { var pLetter = getAxisLetter(pa); var extents = {}; var i, j, cd; var pMin = Infinity; var pMax = -Infinity; for(i = 0; i < calcTraces.length; i++) { cd = calcTraces[i]; for(j = 0; j < cd.length; j++) { var p = cd[j].p; if(isNumeric(p)) { pMin = Math.min(pMin, p); pMax = Math.max(pMax, p); } } } // this is just for positioning of hover labels, and nobody will care if // the label is 1px too far out; so round positions to 1/10K in case // position values don't exactly match from trace to trace var roundFactor = 10000 / (pMax - pMin); var round = extents.round = function(p) { return String(Math.round(roundFactor * (p - pMin))); }; for(i = 0; i < calcTraces.length; i++) { cd = calcTraces[i]; cd[0].t.extents = extents; var poffset = cd[0].t.poffset; var poffsetIsArray = Array.isArray(poffset); for(j = 0; j < cd.length; j++) { var di = cd[j]; var p0 = di[pLetter] - di.w / 2; if(isNumeric(p0)) { var p1 = di[pLetter] + di.w / 2; var pVal = round(di.p); if(extents[pVal]) { extents[pVal] = [Math.min(p0, extents[pVal][0]), Math.max(p1, extents[pVal][1])]; } else { extents[pVal] = [p0, p1]; } } di.p0 = di.p + (poffsetIsArray ? poffset[j] : poffset); di.p1 = di.p0 + di.w; di.s0 = di.b; di.s1 = di.s0 + di.s; } } } function getAxisLetter(ax) { return ax._id.charAt(0); } module.exports = { crossTraceCalc: crossTraceCalc, setGroupPositions: setGroupPositions }; },{"../../constants/numerical":267,"../../lib":287,"../../plots/cartesian/axes":334,"../../plots/cartesian/constraints":342,"../../registry":378,"./sieve.js":401,"fast-isnumeric":33}],392:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Color = _dereq_('../../components/color'); var Registry = _dereq_('../../registry'); var handleXYDefaults = _dereq_('../scatter/xy_defaults'); var handlePeriodDefaults = _dereq_('../scatter/period_defaults'); var handleStyleDefaults = _dereq_('./style_defaults'); var getAxisGroup = _dereq_('../../plots/cartesian/constraints').getAxisGroup; var attributes = _dereq_('./attributes'); var coerceFont = Lib.coerceFont; function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } var len = handleXYDefaults(traceIn, traceOut, layout, coerce); if(!len) { traceOut.visible = false; return; } handlePeriodDefaults(traceIn, traceOut, layout, coerce); coerce('xhoverformat'); coerce('yhoverformat'); coerce('orientation', (traceOut.x && !traceOut.y) ? 'h' : 'v'); coerce('base'); coerce('offset'); coerce('width'); coerce('text'); coerce('hovertext'); coerce('hovertemplate'); var textposition = coerce('textposition'); handleText(traceIn, traceOut, layout, coerce, textposition, { moduleHasSelected: true, moduleHasUnselected: true, moduleHasConstrain: true, moduleHasCliponaxis: true, moduleHasTextangle: true, moduleHasInsideanchor: true }); handleStyleDefaults(traceIn, traceOut, coerce, defaultColor, layout); var lineColor = (traceOut.marker.line || {}).color; // override defaultColor for error bars with defaultLine var errorBarsSupplyDefaults = Registry.getComponentMethod('errorbars', 'supplyDefaults'); errorBarsSupplyDefaults(traceIn, traceOut, lineColor || Color.defaultLine, {axis: 'y'}); errorBarsSupplyDefaults(traceIn, traceOut, lineColor || Color.defaultLine, {axis: 'x', inherit: 'y'}); Lib.coerceSelectionMarkerOpacity(traceOut, coerce); } function handleGroupingDefaults(traceIn, traceOut, fullLayout, coerce) { var orientation = traceOut.orientation; // N.B. grouping is done across all trace types that support it var posAxId = traceOut[{v: 'x', h: 'y'}[orientation] + 'axis']; var groupId = getAxisGroup(fullLayout, posAxId) + orientation; var alignmentOpts = fullLayout._alignmentOpts || {}; var alignmentgroup = coerce('alignmentgroup'); var alignmentGroups = alignmentOpts[groupId]; if(!alignmentGroups) alignmentGroups = alignmentOpts[groupId] = {}; var alignmentGroupOpts = alignmentGroups[alignmentgroup]; if(alignmentGroupOpts) { alignmentGroupOpts.traces.push(traceOut); } else { alignmentGroupOpts = alignmentGroups[alignmentgroup] = { traces: [traceOut], alignmentIndex: Object.keys(alignmentGroups).length, offsetGroups: {} }; } var offsetgroup = coerce('offsetgroup'); var offsetGroups = alignmentGroupOpts.offsetGroups; var offsetGroupOpts = offsetGroups[offsetgroup]; if(offsetgroup) { if(!offsetGroupOpts) { offsetGroupOpts = offsetGroups[offsetgroup] = { offsetIndex: Object.keys(offsetGroups).length }; } traceOut._offsetIndex = offsetGroupOpts.offsetIndex; } } function crossTraceDefaults(fullData, fullLayout) { var traceIn, traceOut; function coerce(attr) { return Lib.coerce(traceOut._input, traceOut, attributes, attr); } if(fullLayout.barmode === 'group') { for(var i = 0; i < fullData.length; i++) { traceOut = fullData[i]; if(traceOut.type === 'bar') { traceIn = traceOut._input; handleGroupingDefaults(traceIn, traceOut, fullLayout, coerce); } } } } function handleText(traceIn, traceOut, layout, coerce, textposition, opts) { opts = opts || {}; var moduleHasSelected = !(opts.moduleHasSelected === false); var moduleHasUnselected = !(opts.moduleHasUnselected === false); var moduleHasConstrain = !(opts.moduleHasConstrain === false); var moduleHasCliponaxis = !(opts.moduleHasCliponaxis === false); var moduleHasTextangle = !(opts.moduleHasTextangle === false); var moduleHasInsideanchor = !(opts.moduleHasInsideanchor === false); var hasPathbar = !!opts.hasPathbar; var hasBoth = Array.isArray(textposition) || textposition === 'auto'; var hasInside = hasBoth || textposition === 'inside'; var hasOutside = hasBoth || textposition === 'outside'; if(hasInside || hasOutside) { var dfltFont = coerceFont(coerce, 'textfont', layout.font); // Note that coercing `insidetextfont` is always needed – // even if `textposition` is `outside` for each trace – since // an outside label can become an inside one, for example because // of a bar being stacked on top of it. var insideTextFontDefault = Lib.extendFlat({}, dfltFont); var isTraceTextfontColorSet = traceIn.textfont && traceIn.textfont.color; var isColorInheritedFromLayoutFont = !isTraceTextfontColorSet; if(isColorInheritedFromLayoutFont) { delete insideTextFontDefault.color; } coerceFont(coerce, 'insidetextfont', insideTextFontDefault); if(hasPathbar) { var pathbarTextFontDefault = Lib.extendFlat({}, dfltFont); if(isColorInheritedFromLayoutFont) { delete pathbarTextFontDefault.color; } coerceFont(coerce, 'pathbar.textfont', pathbarTextFontDefault); } if(hasOutside) coerceFont(coerce, 'outsidetextfont', dfltFont); if(moduleHasSelected) coerce('selected.textfont.color'); if(moduleHasUnselected) coerce('unselected.textfont.color'); if(moduleHasConstrain) coerce('constraintext'); if(moduleHasCliponaxis) coerce('cliponaxis'); if(moduleHasTextangle) coerce('textangle'); coerce('texttemplate'); } if(hasInside) { if(moduleHasInsideanchor) coerce('insidetextanchor'); } } module.exports = { supplyDefaults: supplyDefaults, crossTraceDefaults: crossTraceDefaults, handleGroupingDefaults: handleGroupingDefaults, handleText: handleText }; },{"../../components/color":157,"../../lib":287,"../../plots/cartesian/constraints":342,"../../registry":378,"../scatter/period_defaults":520,"../scatter/xy_defaults":527,"./attributes":388,"./style_defaults":403}],393:[function(_dereq_,module,exports){ 'use strict'; module.exports = function eventData(out, pt, trace) { // standard cartesian event data out.x = 'xVal' in pt ? pt.xVal : pt.x; out.y = 'yVal' in pt ? pt.yVal : pt.y; if(pt.xa) out.xaxis = pt.xa; if(pt.ya) out.yaxis = pt.ya; if(trace.orientation === 'h') { out.label = out.y; out.value = out.x; } else { out.label = out.x; out.value = out.y; } return out; }; },{}],394:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var tinycolor = _dereq_('tinycolor2'); var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray; exports.coerceString = function(attributeDefinition, value, defaultValue) { if(typeof value === 'string') { if(value || !attributeDefinition.noBlank) return value; } else if(typeof value === 'number' || value === true) { if(!attributeDefinition.strict) return String(value); } return (defaultValue !== undefined) ? defaultValue : attributeDefinition.dflt; }; exports.coerceNumber = function(attributeDefinition, value, defaultValue) { if(isNumeric(value)) { value = +value; var min = attributeDefinition.min; var max = attributeDefinition.max; var isOutOfBounds = (min !== undefined && value < min) || (max !== undefined && value > max); if(!isOutOfBounds) return value; } return (defaultValue !== undefined) ? defaultValue : attributeDefinition.dflt; }; exports.coerceColor = function(attributeDefinition, value, defaultValue) { if(tinycolor(value).isValid()) return value; return (defaultValue !== undefined) ? defaultValue : attributeDefinition.dflt; }; exports.coerceEnumerated = function(attributeDefinition, value, defaultValue) { if(attributeDefinition.coerceNumber) value = +value; if(attributeDefinition.values.indexOf(value) !== -1) return value; return (defaultValue !== undefined) ? defaultValue : attributeDefinition.dflt; }; exports.getValue = function(arrayOrScalar, index) { var value; if(!Array.isArray(arrayOrScalar)) value = arrayOrScalar; else if(index < arrayOrScalar.length) value = arrayOrScalar[index]; return value; }; exports.getLineWidth = function(trace, di) { var w = (0 < di.mlw) ? di.mlw : !isArrayOrTypedArray(trace.marker.line.width) ? trace.marker.line.width : 0; return w; }; },{"../../lib":287,"fast-isnumeric":33,"tinycolor2":121}],395:[function(_dereq_,module,exports){ 'use strict'; var Fx = _dereq_('../../components/fx'); var Registry = _dereq_('../../registry'); var Color = _dereq_('../../components/color'); var fillText = _dereq_('../../lib').fillText; var getLineWidth = _dereq_('./helpers').getLineWidth; var hoverLabelText = _dereq_('../../plots/cartesian/axes').hoverLabelText; var BADNUM = _dereq_('../../constants/numerical').BADNUM; function hoverPoints(pointData, xval, yval, hovermode, opts) { var barPointData = hoverOnBars(pointData, xval, yval, hovermode, opts); if(barPointData) { var cd = barPointData.cd; var trace = cd[0].trace; var di = cd[barPointData.index]; barPointData.color = getTraceColor(trace, di); Registry.getComponentMethod('errorbars', 'hoverInfo')(di, trace, barPointData); return [barPointData]; } } function hoverOnBars(pointData, xval, yval, hovermode, opts) { var cd = pointData.cd; var trace = cd[0].trace; var t = cd[0].t; var isClosest = (hovermode === 'closest'); var isWaterfall = (trace.type === 'waterfall'); var maxHoverDistance = pointData.maxHoverDistance; var maxSpikeDistance = pointData.maxSpikeDistance; var posVal, sizeVal, posLetter, sizeLetter, dx, dy, pRangeCalc; if(trace.orientation === 'h') { posVal = yval; sizeVal = xval; posLetter = 'y'; sizeLetter = 'x'; dx = sizeFn; dy = positionFn; } else { posVal = xval; sizeVal = yval; posLetter = 'x'; sizeLetter = 'y'; dy = sizeFn; dx = positionFn; } var period = trace[posLetter + 'period']; var isClosestOrPeriod = isClosest || period; function thisBarMinPos(di) { return thisBarExtPos(di, -1); } function thisBarMaxPos(di) { return thisBarExtPos(di, 1); } function thisBarExtPos(di, sgn) { var w = di.w; return di[posLetter] + sgn * w / 2; } function periodLength(di) { return di[posLetter + 'End'] - di[posLetter + 'Start']; } var minPos = isClosest ? thisBarMinPos : period ? function(di) { return di.p - periodLength(di) / 2; } : function(di) { /* * In compare mode, accept a bar if you're on it *or* its group. * Nearly always it's the group that matters, but in case the bar * was explicitly set wider than its group we'd better accept the * whole bar. * * use `bardelta` instead of `bargroupwidth` so we accept hover * in the gap. That way hover doesn't flash on and off as you * mouse over the plot in compare modes. * In 'closest' mode though the flashing seems inevitable, * without far more complex logic */ return Math.min(thisBarMinPos(di), di.p - t.bardelta / 2); }; var maxPos = isClosest ? thisBarMaxPos : period ? function(di) { return di.p + periodLength(di) / 2; } : function(di) { return Math.max(thisBarMaxPos(di), di.p + t.bardelta / 2); }; function inbox(_minPos, _maxPos, maxDistance) { if(opts.finiteRange) maxDistance = 0; // add a little to the pseudo-distance for wider bars, so that like scatter, // if you are over two overlapping bars, the narrower one wins. return Fx.inbox(_minPos - posVal, _maxPos - posVal, maxDistance + Math.min(1, Math.abs(_maxPos - _minPos) / pRangeCalc) - 1); } function positionFn(di) { return inbox(minPos(di), maxPos(di), maxHoverDistance); } function thisBarPositionFn(di) { return inbox(thisBarMinPos(di), thisBarMaxPos(di), maxSpikeDistance); } function getSize(di) { var s = di[sizeLetter]; if(isWaterfall) { var rawS = Math.abs(di.rawS) || 0; if(sizeVal > 0) { s += rawS; } else if(sizeVal < 0) { s -= rawS; } } return s; } function sizeFn(di) { var v = sizeVal; var b = di.b; var s = getSize(di); // add a gradient so hovering near the end of a // bar makes it a little closer match return Fx.inbox(b - v, s - v, maxHoverDistance + (s - v) / (s - b) - 1); } function thisBarSizeFn(di) { var v = sizeVal; var b = di.b; var s = getSize(di); // add a gradient so hovering near the end of a // bar makes it a little closer match return Fx.inbox(b - v, s - v, maxSpikeDistance + (s - v) / (s - b) - 1); } var pa = pointData[posLetter + 'a']; var sa = pointData[sizeLetter + 'a']; pRangeCalc = Math.abs(pa.r2c(pa.range[1]) - pa.r2c(pa.range[0])); function dxy(di) { return (dx(di) + dy(di)) / 2; } var distfn = Fx.getDistanceFunction(hovermode, dx, dy, dxy); Fx.getClosest(cd, distfn, pointData); // skip the rest (for this trace) if we didn't find a close point if(pointData.index === false) return; // skip points inside axis rangebreaks if(cd[pointData.index].p === BADNUM) return; // if we get here and we're not in 'closest' mode, push min/max pos back // onto the group - even though that means occasionally the mouse will be // over the hover label. if(!isClosestOrPeriod) { minPos = function(di) { return Math.min(thisBarMinPos(di), di.p - t.bargroupwidth / 2); }; maxPos = function(di) { return Math.max(thisBarMaxPos(di), di.p + t.bargroupwidth / 2); }; } // the closest data point var index = pointData.index; var di = cd[index]; var size = (trace.base) ? di.b + di.s : di.s; pointData[sizeLetter + '0'] = pointData[sizeLetter + '1'] = sa.c2p(di[sizeLetter], true); pointData[sizeLetter + 'LabelVal'] = size; var extent = t.extents[t.extents.round(di.p)]; pointData[posLetter + '0'] = pa.c2p(isClosest ? minPos(di) : extent[0], true); pointData[posLetter + '1'] = pa.c2p(isClosest ? maxPos(di) : extent[1], true); var hasPeriod = di.orig_p !== undefined; pointData[posLetter + 'LabelVal'] = hasPeriod ? di.orig_p : di.p; pointData.labelLabel = hoverLabelText(pa, pointData[posLetter + 'LabelVal'], trace[posLetter + 'hoverformat']); pointData.valueLabel = hoverLabelText(sa, pointData[sizeLetter + 'LabelVal'], trace[sizeLetter + 'hoverformat']); pointData.baseLabel = hoverLabelText(sa, di.b, trace[sizeLetter + 'hoverformat']); // spikelines always want "closest" distance regardless of hovermode pointData.spikeDistance = (thisBarSizeFn(di) + thisBarPositionFn(di)) / 2; // they also want to point to the data value, regardless of where the label goes // in case of bars shifted within groups pointData[posLetter + 'Spike'] = pa.c2p(di.p, true); fillText(di, trace, pointData); pointData.hovertemplate = trace.hovertemplate; return pointData; } function getTraceColor(trace, di) { var mc = di.mcc || trace.marker.color; var mlc = di.mlcc || trace.marker.line.color; var mlw = getLineWidth(trace, di); if(Color.opacity(mc)) return mc; else if(Color.opacity(mlc) && mlw) return mlc; } module.exports = { hoverPoints: hoverPoints, hoverOnBars: hoverOnBars, getTraceColor: getTraceColor }; },{"../../components/color":157,"../../components/fx":197,"../../constants/numerical":267,"../../lib":287,"../../plots/cartesian/axes":334,"../../registry":378,"./helpers":394}],396:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), layoutAttributes: _dereq_('./layout_attributes'), supplyDefaults: _dereq_('./defaults').supplyDefaults, crossTraceDefaults: _dereq_('./defaults').crossTraceDefaults, supplyLayoutDefaults: _dereq_('./layout_defaults'), calc: _dereq_('./calc'), crossTraceCalc: _dereq_('./cross_trace_calc').crossTraceCalc, colorbar: _dereq_('../scatter/marker_colorbar'), arraysToCalcdata: _dereq_('./arrays_to_calcdata'), plot: _dereq_('./plot').plot, style: _dereq_('./style').style, styleOnSelect: _dereq_('./style').styleOnSelect, hoverPoints: _dereq_('./hover').hoverPoints, eventData: _dereq_('./event_data'), selectPoints: _dereq_('./select'), moduleType: 'trace', name: 'bar', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['bar-like', 'cartesian', 'svg', 'bar', 'oriented', 'errorBarsOK', 'showLegend', 'zoomScale'], animatable: true, meta: { } }; },{"../../plots/cartesian":348,"../scatter/marker_colorbar":518,"./arrays_to_calcdata":387,"./attributes":388,"./calc":389,"./cross_trace_calc":391,"./defaults":392,"./event_data":393,"./hover":395,"./layout_attributes":397,"./layout_defaults":398,"./plot":399,"./select":400,"./style":402}],397:[function(_dereq_,module,exports){ 'use strict'; module.exports = { barmode: { valType: 'enumerated', values: ['stack', 'group', 'overlay', 'relative'], dflt: 'group', editType: 'calc', }, barnorm: { valType: 'enumerated', values: ['', 'fraction', 'percent'], dflt: '', editType: 'calc', }, bargap: { valType: 'number', min: 0, max: 1, editType: 'calc', }, bargroupgap: { valType: 'number', min: 0, max: 1, dflt: 0, editType: 'calc', } }; },{}],398:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Axes = _dereq_('../../plots/cartesian/axes'); var Lib = _dereq_('../../lib'); var layoutAttributes = _dereq_('./layout_attributes'); module.exports = function(layoutIn, layoutOut, fullData) { function coerce(attr, dflt) { return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt); } var hasBars = false; var shouldBeGapless = false; var gappedAnyway = false; var usedSubplots = {}; var mode = coerce('barmode'); for(var i = 0; i < fullData.length; i++) { var trace = fullData[i]; if(Registry.traceIs(trace, 'bar') && trace.visible) hasBars = true; else continue; // if we have at least 2 grouped bar traces on the same subplot, // we should default to a gap anyway, even if the data is histograms if(mode === 'group') { var subploti = trace.xaxis + trace.yaxis; if(usedSubplots[subploti]) gappedAnyway = true; usedSubplots[subploti] = true; } if(trace.visible && trace.type === 'histogram') { var pa = Axes.getFromId({_fullLayout: layoutOut}, trace[trace.orientation === 'v' ? 'xaxis' : 'yaxis']); if(pa.type !== 'category') shouldBeGapless = true; } } if(!hasBars) { delete layoutOut.barmode; return; } if(mode !== 'overlay') coerce('barnorm'); coerce('bargap', (shouldBeGapless && !gappedAnyway) ? 0 : 0.2); coerce('bargroupgap'); }; },{"../../lib":287,"../../plots/cartesian/axes":334,"../../registry":378,"./layout_attributes":397}],399:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var Color = _dereq_('../../components/color'); var Drawing = _dereq_('../../components/drawing'); var Registry = _dereq_('../../registry'); var tickText = _dereq_('../../plots/cartesian/axes').tickText; var uniformText = _dereq_('./uniform_text'); var recordMinTextSize = uniformText.recordMinTextSize; var clearMinTextSize = uniformText.clearMinTextSize; var style = _dereq_('./style'); var helpers = _dereq_('./helpers'); var constants = _dereq_('./constants'); var attributes = _dereq_('./attributes'); var attributeText = attributes.text; var attributeTextPosition = attributes.textposition; var appendArrayPointValue = _dereq_('../../components/fx/helpers').appendArrayPointValue; var TEXTPAD = constants.TEXTPAD; function keyFunc(d) {return d.id;} function getKeyFunc(trace) { if(trace.ids) { return keyFunc; } } function dirSign(a, b) { return (a < b) ? 1 : -1; } function getXY(di, xa, ya, isHorizontal) { var s = []; var p = []; var sAxis = isHorizontal ? xa : ya; var pAxis = isHorizontal ? ya : xa; s[0] = sAxis.c2p(di.s0, true); p[0] = pAxis.c2p(di.p0, true); s[1] = sAxis.c2p(di.s1, true); p[1] = pAxis.c2p(di.p1, true); return isHorizontal ? [s, p] : [p, s]; } function transition(selection, fullLayout, opts, makeOnCompleteCallback) { if(!fullLayout.uniformtext.mode && hasTransition(opts)) { var onComplete; if(makeOnCompleteCallback) { onComplete = makeOnCompleteCallback(); } return selection .transition() .duration(opts.duration) .ease(opts.easing) .each('end', function() { onComplete && onComplete(); }) .each('interrupt', function() { onComplete && onComplete(); }); } else { return selection; } } function hasTransition(transitionOpts) { return transitionOpts && transitionOpts.duration > 0; } function plot(gd, plotinfo, cdModule, traceLayer, opts, makeOnCompleteCallback) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var fullLayout = gd._fullLayout; if(!opts) { opts = { mode: fullLayout.barmode, norm: fullLayout.barmode, gap: fullLayout.bargap, groupgap: fullLayout.bargroupgap }; // don't clear bar when this is called from waterfall or funnel clearMinTextSize('bar', fullLayout); } var bartraces = Lib.makeTraceGroups(traceLayer, cdModule, 'trace bars').each(function(cd) { var plotGroup = d3.select(this); var trace = cd[0].trace; var isWaterfall = (trace.type === 'waterfall'); var isFunnel = (trace.type === 'funnel'); var isBar = (trace.type === 'bar'); var shouldDisplayZeros = (isBar || isFunnel); var adjustPixel = 0; if(isWaterfall && trace.connector.visible && trace.connector.mode === 'between') { adjustPixel = trace.connector.line.width / 2; } var isHorizontal = (trace.orientation === 'h'); var withTransition = hasTransition(opts); var pointGroup = Lib.ensureSingle(plotGroup, 'g', 'points'); var keyFunc = getKeyFunc(trace); var bars = pointGroup.selectAll('g.point').data(Lib.identity, keyFunc); bars.enter().append('g') .classed('point', true); bars.exit().remove(); bars.each(function(di, i) { var bar = d3.select(this); // now display the bar // clipped xf/yf (2nd arg true): non-positive // log values go off-screen by plotwidth // so you see them continue if you drag the plot var xy = getXY(di, xa, ya, isHorizontal); var x0 = xy[0][0]; var x1 = xy[0][1]; var y0 = xy[1][0]; var y1 = xy[1][1]; // empty bars var isBlank = (isHorizontal ? x1 - x0 : y1 - y0) === 0; // display zeros if line.width > 0 if(isBlank && shouldDisplayZeros && helpers.getLineWidth(trace, di)) { isBlank = false; } // skip nulls if(!isBlank) { isBlank = ( !isNumeric(x0) || !isNumeric(x1) || !isNumeric(y0) || !isNumeric(y1) ); } // record isBlank di.isBlank = isBlank; // for blank bars, ensure start and end positions are equal - important for smooth transitions if(isBlank) { if(isHorizontal) { x1 = x0; } else { y1 = y0; } } // in waterfall mode `between` we need to adjust bar end points to match the connector width if(adjustPixel && !isBlank) { if(isHorizontal) { x0 -= dirSign(x0, x1) * adjustPixel; x1 += dirSign(x0, x1) * adjustPixel; } else { y0 -= dirSign(y0, y1) * adjustPixel; y1 += dirSign(y0, y1) * adjustPixel; } } var lw; var mc; if(trace.type === 'waterfall') { if(!isBlank) { var cont = trace[di.dir].marker; lw = cont.line.width; mc = cont.color; } } else { lw = helpers.getLineWidth(trace, di); mc = di.mc || trace.marker.color; } function roundWithLine(v) { var offset = d3.round((lw / 2) % 1, 2); // if there are explicit gaps, don't round, // it can make the gaps look crappy return (opts.gap === 0 && opts.groupgap === 0) ? d3.round(Math.round(v) - offset, 2) : v; } function expandToVisible(v, vc, hideZeroSpan) { if(hideZeroSpan && v === vc) { // should not expand zero span bars // when start and end positions are identical // i.e. for vertical when y0 === y1 // and for horizontal when x0 === x1 return v; } // if it's not in danger of disappearing entirely, // round more precisely return Math.abs(v - vc) >= 2 ? roundWithLine(v) : // but if it's very thin, expand it so it's // necessarily visible, even if it might overlap // its neighbor (v > vc ? Math.ceil(v) : Math.floor(v)); } if(!gd._context.staticPlot) { // if bars are not fully opaque or they have a line // around them, round to integer pixels, mainly for // safari so we prevent overlaps from its expansive // pixelation. if the bars ARE fully opaque and have // no line, expand to a full pixel to make sure we // can see them var op = Color.opacity(mc); var fixpx = (op < 1 || lw > 0.01) ? roundWithLine : expandToVisible; x0 = fixpx(x0, x1, isHorizontal); x1 = fixpx(x1, x0, isHorizontal); y0 = fixpx(y0, y1, !isHorizontal); y1 = fixpx(y1, y0, !isHorizontal); } var sel = transition(Lib.ensureSingle(bar, 'path'), fullLayout, opts, makeOnCompleteCallback); sel .style('vector-effect', 'non-scaling-stroke') .attr('d', (isNaN((x1 - x0) * (y1 - y0)) || (isBlank && gd._context.staticPlot)) ? 'M0,0Z' : 'M' + x0 + ',' + y0 + 'V' + y1 + 'H' + x1 + 'V' + y0 + 'Z') .call(Drawing.setClipUrl, plotinfo.layerClipId, gd); if(!fullLayout.uniformtext.mode && withTransition) { var styleFns = Drawing.makePointStyleFns(trace); Drawing.singlePointStyle(di, sel, trace, styleFns, gd); } appendBarText(gd, plotinfo, bar, cd, i, x0, x1, y0, y1, opts, makeOnCompleteCallback); if(plotinfo.layerClipId) { Drawing.hideOutsideRangePoint(di, bar.select('text'), xa, ya, trace.xcalendar, trace.ycalendar); } }); // lastly, clip points groups of `cliponaxis !== false` traces // on `plotinfo._hasClipOnAxisFalse === true` subplots var hasClipOnAxisFalse = trace.cliponaxis === false; Drawing.setClipUrl(plotGroup, hasClipOnAxisFalse ? null : plotinfo.layerClipId, gd); }); // error bars are on the top Registry.getComponentMethod('errorbars', 'plot')(gd, bartraces, plotinfo, opts); } function appendBarText(gd, plotinfo, bar, cd, i, x0, x1, y0, y1, opts, makeOnCompleteCallback) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var fullLayout = gd._fullLayout; var textPosition; function appendTextNode(bar, text, font) { var textSelection = Lib.ensureSingle(bar, 'text') .text(text) .attr({ 'class': 'bartext bartext-' + textPosition, 'text-anchor': 'middle', // prohibit tex interpretation until we can handle // tex and regular text together 'data-notex': 1 }) .call(Drawing.font, font) .call(svgTextUtils.convertToTspans, gd); return textSelection; } // get trace attributes var trace = cd[0].trace; var isHorizontal = (trace.orientation === 'h'); var text = getText(fullLayout, cd, i, xa, ya); textPosition = getTextPosition(trace, i); // compute text position var inStackOrRelativeMode = opts.mode === 'stack' || opts.mode === 'relative'; var calcBar = cd[i]; var isOutmostBar = !inStackOrRelativeMode || calcBar._outmost; if(!text || textPosition === 'none' || ((calcBar.isBlank || x0 === x1 || y0 === y1) && ( textPosition === 'auto' || textPosition === 'inside'))) { bar.select('text').remove(); return; } var layoutFont = fullLayout.font; var barColor = style.getBarColor(cd[i], trace); var insideTextFont = style.getInsideTextFont(trace, i, layoutFont, barColor); var outsideTextFont = style.getOutsideTextFont(trace, i, layoutFont); // Special case: don't use the c2p(v, true) value on log size axes, // so that we can get correctly inside text scaling var di = bar.datum(); if(isHorizontal) { if(xa.type === 'log' && di.s0 <= 0) { if(xa.range[0] < xa.range[1]) { x0 = 0; } else { x0 = xa._length; } } } else { if(ya.type === 'log' && di.s0 <= 0) { if(ya.range[0] < ya.range[1]) { y0 = ya._length; } else { y0 = 0; } } } // padding excluded var barWidth = Math.abs(x1 - x0) - 2 * TEXTPAD; var barHeight = Math.abs(y1 - y0) - 2 * TEXTPAD; var textSelection; var textBB; var textWidth; var textHeight; var font; if(textPosition === 'outside') { if(!isOutmostBar && !calcBar.hasB) textPosition = 'inside'; } if(textPosition === 'auto') { if(isOutmostBar) { // draw text using insideTextFont and check if it fits inside bar textPosition = 'inside'; font = Lib.ensureUniformFontSize(gd, insideTextFont); textSelection = appendTextNode(bar, text, font); textBB = Drawing.bBox(textSelection.node()), textWidth = textBB.width, textHeight = textBB.height; var textHasSize = (textWidth > 0 && textHeight > 0); var fitsInside = (textWidth <= barWidth && textHeight <= barHeight); var fitsInsideIfRotated = (textWidth <= barHeight && textHeight <= barWidth); var fitsInsideIfShrunk = (isHorizontal) ? (barWidth >= textWidth * (barHeight / textHeight)) : (barHeight >= textHeight * (barWidth / textWidth)); if(textHasSize && ( fitsInside || fitsInsideIfRotated || fitsInsideIfShrunk) ) { textPosition = 'inside'; } else { textPosition = 'outside'; textSelection.remove(); textSelection = null; } } else { textPosition = 'inside'; } } if(!textSelection) { font = Lib.ensureUniformFontSize(gd, (textPosition === 'outside') ? outsideTextFont : insideTextFont); textSelection = appendTextNode(bar, text, font); var currentTransform = textSelection.attr('transform'); textSelection.attr('transform', ''); textBB = Drawing.bBox(textSelection.node()), textWidth = textBB.width, textHeight = textBB.height; textSelection.attr('transform', currentTransform); if(textWidth <= 0 || textHeight <= 0) { textSelection.remove(); return; } } var angle = trace.textangle; // compute text transform var transform, constrained; if(textPosition === 'outside') { constrained = trace.constraintext === 'both' || trace.constraintext === 'outside'; transform = toMoveOutsideBar(x0, x1, y0, y1, textBB, { isHorizontal: isHorizontal, constrained: constrained, angle: angle }); } else { constrained = trace.constraintext === 'both' || trace.constraintext === 'inside'; transform = toMoveInsideBar(x0, x1, y0, y1, textBB, { isHorizontal: isHorizontal, constrained: constrained, angle: angle, anchor: trace.insidetextanchor }); } transform.fontSize = font.size; recordMinTextSize(trace.type === 'histogram' ? 'bar' : trace.type, transform, fullLayout); calcBar.transform = transform; transition(textSelection, fullLayout, opts, makeOnCompleteCallback) .attr('transform', Lib.getTextTransform(transform)); } function getRotateFromAngle(angle) { return (angle === 'auto') ? 0 : angle; } function getRotatedTextSize(textBB, rotate) { var a = Math.PI / 180 * rotate; var absSin = Math.abs(Math.sin(a)); var absCos = Math.abs(Math.cos(a)); return { x: textBB.width * absCos + textBB.height * absSin, y: textBB.width * absSin + textBB.height * absCos }; } function toMoveInsideBar(x0, x1, y0, y1, textBB, opts) { var isHorizontal = !!opts.isHorizontal; var constrained = !!opts.constrained; var angle = opts.angle || 0; var anchor = opts.anchor || 'end'; var isEnd = anchor === 'end'; var isStart = anchor === 'start'; var leftToRight = opts.leftToRight || 0; // left: -1, center: 0, right: 1 var toRight = (leftToRight + 1) / 2; var toLeft = 1 - toRight; var textWidth = textBB.width; var textHeight = textBB.height; var lx = Math.abs(x1 - x0); var ly = Math.abs(y1 - y0); // compute remaining space var textpad = ( lx > (2 * TEXTPAD) && ly > (2 * TEXTPAD) ) ? TEXTPAD : 0; lx -= 2 * textpad; ly -= 2 * textpad; var rotate = getRotateFromAngle(angle); if((angle === 'auto') && !(textWidth <= lx && textHeight <= ly) && (textWidth > lx || textHeight > ly) && ( !(textWidth > ly || textHeight > lx) || ((textWidth < textHeight) !== (lx < ly)) )) { rotate += 90; } var t = getRotatedTextSize(textBB, rotate); var scale = 1; if(constrained) { scale = Math.min( 1, lx / t.x, ly / t.y ); } // compute text and target positions var textX = ( textBB.left * toLeft + textBB.right * toRight ); var textY = (textBB.top + textBB.bottom) / 2; var targetX = ( (x0 + TEXTPAD) * toLeft + (x1 - TEXTPAD) * toRight ); var targetY = (y0 + y1) / 2; var anchorX = 0; var anchorY = 0; if(isStart || isEnd) { var extrapad = (isHorizontal ? t.x : t.y) / 2; var dir = isHorizontal ? dirSign(x0, x1) : dirSign(y0, y1); if(isHorizontal) { if(isStart) { targetX = x0 + dir * textpad; anchorX = -dir * extrapad; } else { targetX = x1 - dir * textpad; anchorX = dir * extrapad; } } else { if(isStart) { targetY = y0 + dir * textpad; anchorY = -dir * extrapad; } else { targetY = y1 - dir * textpad; anchorY = dir * extrapad; } } } return { textX: textX, textY: textY, targetX: targetX, targetY: targetY, anchorX: anchorX, anchorY: anchorY, scale: scale, rotate: rotate }; } function toMoveOutsideBar(x0, x1, y0, y1, textBB, opts) { var isHorizontal = !!opts.isHorizontal; var constrained = !!opts.constrained; var angle = opts.angle || 0; var textWidth = textBB.width; var textHeight = textBB.height; var lx = Math.abs(x1 - x0); var ly = Math.abs(y1 - y0); var textpad; // Keep the padding so the text doesn't sit right against // the bars, but don't factor it into barWidth if(isHorizontal) { textpad = (ly > 2 * TEXTPAD) ? TEXTPAD : 0; } else { textpad = (lx > 2 * TEXTPAD) ? TEXTPAD : 0; } // compute rotate and scale var scale = 1; if(constrained) { scale = (isHorizontal) ? Math.min(1, ly / textHeight) : Math.min(1, lx / textWidth); } var rotate = getRotateFromAngle(angle); var t = getRotatedTextSize(textBB, rotate); // compute text and target positions var extrapad = (isHorizontal ? t.x : t.y) / 2; var textX = (textBB.left + textBB.right) / 2; var textY = (textBB.top + textBB.bottom) / 2; var targetX = (x0 + x1) / 2; var targetY = (y0 + y1) / 2; var anchorX = 0; var anchorY = 0; var dir = isHorizontal ? dirSign(x1, x0) : dirSign(y0, y1); if(isHorizontal) { targetX = x1 - dir * textpad; anchorX = dir * extrapad; } else { targetY = y1 + dir * textpad; anchorY = -dir * extrapad; } return { textX: textX, textY: textY, targetX: targetX, targetY: targetY, anchorX: anchorX, anchorY: anchorY, scale: scale, rotate: rotate }; } function getText(fullLayout, cd, index, xa, ya) { var trace = cd[0].trace; var texttemplate = trace.texttemplate; var value; if(texttemplate) { value = calcTexttemplate(fullLayout, cd, index, xa, ya); } else if(trace.textinfo) { value = calcTextinfo(cd, index, xa, ya); } else { value = helpers.getValue(trace.text, index); } return helpers.coerceString(attributeText, value); } function getTextPosition(trace, index) { var value = helpers.getValue(trace.textposition, index); return helpers.coerceEnumerated(attributeTextPosition, value); } function calcTexttemplate(fullLayout, cd, index, xa, ya) { var trace = cd[0].trace; var texttemplate = Lib.castOption(trace, index, 'texttemplate'); if(!texttemplate) return ''; var isHistogram = (trace.type === 'histogram'); var isWaterfall = (trace.type === 'waterfall'); var isFunnel = (trace.type === 'funnel'); var isHorizontal = trace.orientation === 'h'; var pLetter, pAxis; var vLetter, vAxis; if(isHorizontal) { pLetter = 'y'; pAxis = ya; vLetter = 'x'; vAxis = xa; } else { pLetter = 'x'; pAxis = xa; vLetter = 'y'; vAxis = ya; } function formatLabel(u) { return tickText(pAxis, pAxis.c2l(u), true).text; } function formatNumber(v) { return tickText(vAxis, vAxis.c2l(v), true).text; } var cdi = cd[index]; var obj = {}; obj.label = cdi.p; obj.labelLabel = obj[pLetter + 'Label'] = formatLabel(cdi.p); var tx = Lib.castOption(trace, cdi.i, 'text'); if(tx === 0 || tx) obj.text = tx; obj.value = cdi.s; obj.valueLabel = obj[vLetter + 'Label'] = formatNumber(cdi.s); var pt = {}; appendArrayPointValue(pt, trace, cdi.i); if(isHistogram || pt.x === undefined) pt.x = isHorizontal ? obj.value : obj.label; if(isHistogram || pt.y === undefined) pt.y = isHorizontal ? obj.label : obj.value; if(isHistogram || pt.xLabel === undefined) pt.xLabel = isHorizontal ? obj.valueLabel : obj.labelLabel; if(isHistogram || pt.yLabel === undefined) pt.yLabel = isHorizontal ? obj.labelLabel : obj.valueLabel; if(isWaterfall) { obj.delta = +cdi.rawS || cdi.s; obj.deltaLabel = formatNumber(obj.delta); obj.final = cdi.v; obj.finalLabel = formatNumber(obj.final); obj.initial = obj.final - obj.delta; obj.initialLabel = formatNumber(obj.initial); } if(isFunnel) { obj.value = cdi.s; obj.valueLabel = formatNumber(obj.value); obj.percentInitial = cdi.begR; obj.percentInitialLabel = Lib.formatPercent(cdi.begR); obj.percentPrevious = cdi.difR; obj.percentPreviousLabel = Lib.formatPercent(cdi.difR); obj.percentTotal = cdi.sumR; obj.percenTotalLabel = Lib.formatPercent(cdi.sumR); } var customdata = Lib.castOption(trace, cdi.i, 'customdata'); if(customdata) obj.customdata = customdata; return Lib.texttemplateString(texttemplate, obj, fullLayout._d3locale, pt, obj, trace._meta || {}); } function calcTextinfo(cd, index, xa, ya) { var trace = cd[0].trace; var isHorizontal = (trace.orientation === 'h'); var isWaterfall = (trace.type === 'waterfall'); var isFunnel = (trace.type === 'funnel'); function formatLabel(u) { var pAxis = isHorizontal ? ya : xa; return tickText(pAxis, u, true).text; } function formatNumber(v) { var sAxis = isHorizontal ? xa : ya; return tickText(sAxis, +v, true).text; } var textinfo = trace.textinfo; var cdi = cd[index]; var parts = textinfo.split('+'); var text = []; var tx; var hasFlag = function(flag) { return parts.indexOf(flag) !== -1; }; if(hasFlag('label')) { text.push(formatLabel(cd[index].p)); } if(hasFlag('text')) { tx = Lib.castOption(trace, cdi.i, 'text'); if(tx === 0 || tx) text.push(tx); } if(isWaterfall) { var delta = +cdi.rawS || cdi.s; var final = cdi.v; var initial = final - delta; if(hasFlag('initial')) text.push(formatNumber(initial)); if(hasFlag('delta')) text.push(formatNumber(delta)); if(hasFlag('final')) text.push(formatNumber(final)); } if(isFunnel) { if(hasFlag('value')) text.push(formatNumber(cdi.s)); var nPercent = 0; if(hasFlag('percent initial')) nPercent++; if(hasFlag('percent previous')) nPercent++; if(hasFlag('percent total')) nPercent++; var hasMultiplePercents = nPercent > 1; if(hasFlag('percent initial')) { tx = Lib.formatPercent(cdi.begR); if(hasMultiplePercents) tx += ' of initial'; text.push(tx); } if(hasFlag('percent previous')) { tx = Lib.formatPercent(cdi.difR); if(hasMultiplePercents) tx += ' of previous'; text.push(tx); } if(hasFlag('percent total')) { tx = Lib.formatPercent(cdi.sumR); if(hasMultiplePercents) tx += ' of total'; text.push(tx); } } return text.join('
'); } module.exports = { plot: plot, toMoveInsideBar: toMoveInsideBar }; },{"../../components/color":157,"../../components/drawing":179,"../../components/fx/helpers":193,"../../lib":287,"../../lib/svg_text_utils":310,"../../plots/cartesian/axes":334,"../../registry":378,"./attributes":388,"./constants":390,"./helpers":394,"./style":402,"./uniform_text":404,"@plotly/d3":20,"fast-isnumeric":33}],400:[function(_dereq_,module,exports){ 'use strict'; module.exports = function selectPoints(searchInfo, selectionTester) { var cd = searchInfo.cd; var xa = searchInfo.xaxis; var ya = searchInfo.yaxis; var trace = cd[0].trace; var isFunnel = (trace.type === 'funnel'); var isHorizontal = (trace.orientation === 'h'); var selection = []; var i; if(selectionTester === false) { // clear selection for(i = 0; i < cd.length; i++) { cd[i].selected = 0; } } else { for(i = 0; i < cd.length; i++) { var di = cd[i]; var ct = 'ct' in di ? di.ct : getCentroid(di, xa, ya, isHorizontal, isFunnel); if(selectionTester.contains(ct, false, i, searchInfo)) { selection.push({ pointNumber: i, x: xa.c2d(di.x), y: ya.c2d(di.y) }); di.selected = 1; } else { di.selected = 0; } } } return selection; }; function getCentroid(d, xa, ya, isHorizontal, isFunnel) { var x0 = xa.c2p(isHorizontal ? d.s0 : d.p0, true); var x1 = xa.c2p(isHorizontal ? d.s1 : d.p1, true); var y0 = ya.c2p(isHorizontal ? d.p0 : d.s0, true); var y1 = ya.c2p(isHorizontal ? d.p1 : d.s1, true); if(isFunnel) { return [(x0 + x1) / 2, (y0 + y1) / 2]; } else { if(isHorizontal) { return [x1, (y0 + y1) / 2]; } else { return [(x0 + x1) / 2, y1]; } } } },{}],401:[function(_dereq_,module,exports){ 'use strict'; module.exports = Sieve; var distinctVals = _dereq_('../../lib').distinctVals; var BADNUM = _dereq_('../../constants/numerical').BADNUM; /** * Helper class to sieve data from traces into bins * * @class * * @param {Array} traces * Array of calculated traces * @param {object} opts * - @param {boolean} [sepNegVal] * If true, then split data at the same position into a bar * for positive values and another for negative values * - @param {boolean} [overlapNoMerge] * If true, then don't merge overlapping bars into a single bar */ function Sieve(traces, opts) { this.traces = traces; this.sepNegVal = opts.sepNegVal; this.overlapNoMerge = opts.overlapNoMerge; // for single-bin histograms - see histogram/calc var width1 = Infinity; var positions = []; for(var i = 0; i < traces.length; i++) { var trace = traces[i]; for(var j = 0; j < trace.length; j++) { var bar = trace[j]; if(bar.p !== BADNUM) positions.push(bar.p); } if(trace[0] && trace[0].width1) { width1 = Math.min(trace[0].width1, width1); } } this.positions = positions; var dv = distinctVals(positions); this.distinctPositions = dv.vals; if(dv.vals.length === 1 && width1 !== Infinity) this.minDiff = width1; else this.minDiff = Math.min(dv.minDiff, width1); var type = (opts.posAxis || {}).type; if(type === 'category' || type === 'multicategory') { this.minDiff = 1; } this.binWidth = this.minDiff; this.bins = {}; } /** * Sieve datum * * @method * @param {number} position * @param {number} value * @returns {number} Previous bin value */ Sieve.prototype.put = function put(position, value) { var label = this.getLabel(position, value); var oldValue = this.bins[label] || 0; this.bins[label] = oldValue + value; return oldValue; }; /** * Get current bin value for a given datum * * @method * @param {number} position Position of datum * @param {number} [value] Value of datum * (required if this.sepNegVal is true) * @returns {number} Current bin value */ Sieve.prototype.get = function get(position, value) { var label = this.getLabel(position, value); return this.bins[label] || 0; }; /** * Get bin label for a given datum * * @method * @param {number} position Position of datum * @param {number} [value] Value of datum * (required if this.sepNegVal is true) * @returns {string} Bin label * (prefixed with a 'v' if value is negative and this.sepNegVal is * true; otherwise prefixed with '^') */ Sieve.prototype.getLabel = function getLabel(position, value) { var prefix = (value < 0 && this.sepNegVal) ? 'v' : '^'; var label = (this.overlapNoMerge) ? position : Math.round(position / this.binWidth); return prefix + label; }; },{"../../constants/numerical":267,"../../lib":287}],402:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Color = _dereq_('../../components/color'); var Drawing = _dereq_('../../components/drawing'); var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); var resizeText = _dereq_('./uniform_text').resizeText; var attributes = _dereq_('./attributes'); var attributeTextFont = attributes.textfont; var attributeInsideTextFont = attributes.insidetextfont; var attributeOutsideTextFont = attributes.outsidetextfont; var helpers = _dereq_('./helpers'); function style(gd) { var s = d3.select(gd).selectAll('g.barlayer').selectAll('g.trace'); resizeText(gd, s, 'bar'); var barcount = s.size(); var fullLayout = gd._fullLayout; // trace styling s.style('opacity', function(d) { return d[0].trace.opacity; }) // for gapless (either stacked or neighboring grouped) bars use // crispEdges to turn off antialiasing so an artificial gap // isn't introduced. .each(function(d) { if((fullLayout.barmode === 'stack' && barcount > 1) || (fullLayout.bargap === 0 && fullLayout.bargroupgap === 0 && !d[0].trace.marker.line.width)) { d3.select(this).attr('shape-rendering', 'crispEdges'); } }); s.selectAll('g.points').each(function(d) { var sel = d3.select(this); var trace = d[0].trace; stylePoints(sel, trace, gd); }); Registry.getComponentMethod('errorbars', 'style')(s); } function stylePoints(sel, trace, gd) { Drawing.pointStyle(sel.selectAll('path'), trace, gd); styleTextPoints(sel, trace, gd); } function styleTextPoints(sel, trace, gd) { sel.selectAll('text').each(function(d) { var tx = d3.select(this); var font = Lib.ensureUniformFontSize(gd, determineFont(tx, d, trace, gd)); Drawing.font(tx, font); }); } function styleOnSelect(gd, cd, sel) { var trace = cd[0].trace; if(trace.selectedpoints) { stylePointsInSelectionMode(sel, trace, gd); } else { stylePoints(sel, trace, gd); Registry.getComponentMethod('errorbars', 'style')(sel); } } function stylePointsInSelectionMode(s, trace, gd) { Drawing.selectedPointStyle(s.selectAll('path'), trace); styleTextInSelectionMode(s.selectAll('text'), trace, gd); } function styleTextInSelectionMode(txs, trace, gd) { txs.each(function(d) { var tx = d3.select(this); var font; if(d.selected) { font = Lib.ensureUniformFontSize(gd, determineFont(tx, d, trace, gd)); var selectedFontColor = trace.selected.textfont && trace.selected.textfont.color; if(selectedFontColor) { font.color = selectedFontColor; } Drawing.font(tx, font); } else { Drawing.selectedTextStyle(tx, trace); } }); } function determineFont(tx, d, trace, gd) { var layoutFont = gd._fullLayout.font; var textFont = trace.textfont; if(tx.classed('bartext-inside')) { var barColor = getBarColor(d, trace); textFont = getInsideTextFont(trace, d.i, layoutFont, barColor); } else if(tx.classed('bartext-outside')) { textFont = getOutsideTextFont(trace, d.i, layoutFont); } return textFont; } function getTextFont(trace, index, defaultValue) { return getFontValue( attributeTextFont, trace.textfont, index, defaultValue); } function getInsideTextFont(trace, index, layoutFont, barColor) { var defaultFont = getTextFont(trace, index, layoutFont); var wouldFallBackToLayoutFont = (trace._input.textfont === undefined || trace._input.textfont.color === undefined) || (Array.isArray(trace.textfont.color) && trace.textfont.color[index] === undefined); if(wouldFallBackToLayoutFont) { defaultFont = { color: Color.contrast(barColor), family: defaultFont.family, size: defaultFont.size }; } return getFontValue( attributeInsideTextFont, trace.insidetextfont, index, defaultFont); } function getOutsideTextFont(trace, index, layoutFont) { var defaultFont = getTextFont(trace, index, layoutFont); return getFontValue( attributeOutsideTextFont, trace.outsidetextfont, index, defaultFont); } function getFontValue(attributeDefinition, attributeValue, index, defaultValue) { attributeValue = attributeValue || {}; var familyValue = helpers.getValue(attributeValue.family, index); var sizeValue = helpers.getValue(attributeValue.size, index); var colorValue = helpers.getValue(attributeValue.color, index); return { family: helpers.coerceString( attributeDefinition.family, familyValue, defaultValue.family), size: helpers.coerceNumber( attributeDefinition.size, sizeValue, defaultValue.size), color: helpers.coerceColor( attributeDefinition.color, colorValue, defaultValue.color) }; } function getBarColor(cd, trace) { if(trace.type === 'waterfall') { return trace[cd.dir].marker.color; } return cd.mcc || cd.mc || trace.marker.color; } module.exports = { style: style, styleTextPoints: styleTextPoints, styleOnSelect: styleOnSelect, getInsideTextFont: getInsideTextFont, getOutsideTextFont: getOutsideTextFont, getBarColor: getBarColor, resizeText: resizeText }; },{"../../components/color":157,"../../components/drawing":179,"../../lib":287,"../../registry":378,"./attributes":388,"./helpers":394,"./uniform_text":404,"@plotly/d3":20}],403:[function(_dereq_,module,exports){ 'use strict'; var Color = _dereq_('../../components/color'); var hasColorscale = _dereq_('../../components/colorscale/helpers').hasColorscale; var colorscaleDefaults = _dereq_('../../components/colorscale/defaults'); var coercePattern = _dereq_('../../lib').coercePattern; module.exports = function handleStyleDefaults(traceIn, traceOut, coerce, defaultColor, layout) { var markerColor = coerce('marker.color', defaultColor); var hasMarkerColorscale = hasColorscale(traceIn, 'marker'); if(hasMarkerColorscale) { colorscaleDefaults( traceIn, traceOut, layout, coerce, {prefix: 'marker.', cLetter: 'c'} ); } coerce('marker.line.color', Color.defaultLine); if(hasColorscale(traceIn, 'marker.line')) { colorscaleDefaults( traceIn, traceOut, layout, coerce, {prefix: 'marker.line.', cLetter: 'c'} ); } coerce('marker.line.width'); coerce('marker.opacity'); coercePattern(coerce, 'marker.pattern', markerColor, hasMarkerColorscale); coerce('selected.marker.color'); coerce('unselected.marker.color'); }; },{"../../components/color":157,"../../components/colorscale/defaults":167,"../../components/colorscale/helpers":168,"../../lib":287}],404:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); function resizeText(gd, gTrace, traceType) { var fullLayout = gd._fullLayout; var minSize = fullLayout['_' + traceType + 'Text_minsize']; if(minSize) { var shouldHide = fullLayout.uniformtext.mode === 'hide'; var selector; switch(traceType) { case 'funnelarea' : case 'pie' : case 'sunburst' : selector = 'g.slice'; break; case 'treemap' : case 'icicle' : selector = 'g.slice, g.pathbar'; break; default : selector = 'g.points > g.point'; } gTrace.selectAll(selector).each(function(d) { var transform = d.transform; if(transform) { transform.scale = (shouldHide && transform.hide) ? 0 : minSize / transform.fontSize; var el = d3.select(this).select('text'); el.attr('transform', Lib.getTextTransform(transform)); } }); } } function recordMinTextSize( traceType, // in transform, // inout fullLayout // inout ) { if(fullLayout.uniformtext.mode) { var minKey = getMinKey(traceType); var minSize = fullLayout.uniformtext.minsize; var size = transform.scale * transform.fontSize; transform.hide = size < minSize; fullLayout[minKey] = fullLayout[minKey] || Infinity; if(!transform.hide) { fullLayout[minKey] = Math.min( fullLayout[minKey], Math.max(size, minSize) ); } } } function clearMinTextSize( traceType, // in fullLayout // inout ) { var minKey = getMinKey(traceType); fullLayout[minKey] = undefined; } function getMinKey(traceType) { return '_' + traceType + 'Text_minsize'; } module.exports = { recordMinTextSize: recordMinTextSize, clearMinTextSize: clearMinTextSize, resizeText: resizeText }; },{"../../lib":287,"@plotly/d3":20}],405:[function(_dereq_,module,exports){ 'use strict'; var scatterAttrs = _dereq_('../scatter/attributes'); var barAttrs = _dereq_('../bar/attributes'); var colorAttrs = _dereq_('../../components/color/attributes'); var axisHoverFormat = _dereq_('../../plots/cartesian/axis_format_attributes').axisHoverFormat; var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var extendFlat = _dereq_('../../lib/extend').extendFlat; var scatterMarkerAttrs = scatterAttrs.marker; var scatterMarkerLineAttrs = scatterMarkerAttrs.line; module.exports = { y: { valType: 'data_array', editType: 'calc+clearAxisTypes', }, x: { valType: 'data_array', editType: 'calc+clearAxisTypes', }, x0: { valType: 'any', editType: 'calc+clearAxisTypes', }, y0: { valType: 'any', editType: 'calc+clearAxisTypes', }, dx: { valType: 'number', editType: 'calc', }, dy: { valType: 'number', editType: 'calc', }, xperiod: scatterAttrs.xperiod, yperiod: scatterAttrs.yperiod, xperiod0: scatterAttrs.xperiod0, yperiod0: scatterAttrs.yperiod0, xperiodalignment: scatterAttrs.xperiodalignment, yperiodalignment: scatterAttrs.yperiodalignment, xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), name: { valType: 'string', editType: 'calc+clearAxisTypes', }, q1: { valType: 'data_array', editType: 'calc+clearAxisTypes', }, median: { valType: 'data_array', editType: 'calc+clearAxisTypes', }, q3: { valType: 'data_array', editType: 'calc+clearAxisTypes', }, lowerfence: { valType: 'data_array', editType: 'calc', }, upperfence: { valType: 'data_array', editType: 'calc', }, notched: { valType: 'boolean', editType: 'calc', }, notchwidth: { valType: 'number', min: 0, max: 0.5, dflt: 0.25, editType: 'calc', }, notchspan: { valType: 'data_array', editType: 'calc', }, // TODO // maybe add // - loweroutlierbound / upperoutlierbound // - lowersuspectedoutlierbound / uppersuspectedoutlierbound boxpoints: { valType: 'enumerated', values: ['all', 'outliers', 'suspectedoutliers', false], editType: 'calc', }, jitter: { valType: 'number', min: 0, max: 1, editType: 'calc', }, pointpos: { valType: 'number', min: -2, max: 2, editType: 'calc', }, boxmean: { valType: 'enumerated', values: [true, 'sd', false], editType: 'calc', }, mean: { valType: 'data_array', editType: 'calc', }, sd: { valType: 'data_array', editType: 'calc', }, orientation: { valType: 'enumerated', values: ['v', 'h'], editType: 'calc+clearAxisTypes', }, quartilemethod: { valType: 'enumerated', values: ['linear', 'exclusive', 'inclusive'], dflt: 'linear', editType: 'calc', }, width: { valType: 'number', min: 0, dflt: 0, editType: 'calc', }, marker: { outliercolor: { valType: 'color', dflt: 'rgba(0, 0, 0, 0)', editType: 'style', }, symbol: extendFlat({}, scatterMarkerAttrs.symbol, {arrayOk: false, editType: 'plot'}), opacity: extendFlat({}, scatterMarkerAttrs.opacity, {arrayOk: false, dflt: 1, editType: 'style'}), size: extendFlat({}, scatterMarkerAttrs.size, {arrayOk: false, editType: 'calc'}), color: extendFlat({}, scatterMarkerAttrs.color, {arrayOk: false, editType: 'style'}), line: { color: extendFlat({}, scatterMarkerLineAttrs.color, {arrayOk: false, dflt: colorAttrs.defaultLine, editType: 'style'} ), width: extendFlat({}, scatterMarkerLineAttrs.width, {arrayOk: false, dflt: 0, editType: 'style'} ), outliercolor: { valType: 'color', editType: 'style', }, outlierwidth: { valType: 'number', min: 0, dflt: 1, editType: 'style', }, editType: 'style' }, editType: 'plot' }, line: { color: { valType: 'color', editType: 'style', }, width: { valType: 'number', min: 0, dflt: 2, editType: 'style', }, editType: 'plot' }, fillcolor: scatterAttrs.fillcolor, whiskerwidth: { valType: 'number', min: 0, max: 1, dflt: 0.5, editType: 'calc', }, offsetgroup: barAttrs.offsetgroup, alignmentgroup: barAttrs.alignmentgroup, selected: { marker: scatterAttrs.selected.marker, editType: 'style' }, unselected: { marker: scatterAttrs.unselected.marker, editType: 'style' }, text: extendFlat({}, scatterAttrs.text, { }), hovertext: extendFlat({}, scatterAttrs.hovertext, { }), hovertemplate: hovertemplateAttrs({ }), hoveron: { valType: 'flaglist', flags: ['boxes', 'points'], dflt: 'boxes+points', editType: 'style', } }; },{"../../components/color/attributes":156,"../../lib/extend":281,"../../plots/cartesian/axis_format_attributes":337,"../../plots/template_attributes":373,"../bar/attributes":388,"../scatter/attributes":500}],406:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Axes = _dereq_('../../plots/cartesian/axes'); var alignPeriod = _dereq_('../../plots/cartesian/align_period'); var Lib = _dereq_('../../lib'); var BADNUM = _dereq_('../../constants/numerical').BADNUM; var _ = Lib._; module.exports = function calc(gd, trace) { var fullLayout = gd._fullLayout; var xa = Axes.getFromId(gd, trace.xaxis || 'x'); var ya = Axes.getFromId(gd, trace.yaxis || 'y'); var cd = []; // N.B. violin reuses same Box.calc var numKey = trace.type === 'violin' ? '_numViolins' : '_numBoxes'; var i, j; var valAxis, valLetter; var posAxis, posLetter; var hasPeriod; if(trace.orientation === 'h') { valAxis = xa; valLetter = 'x'; posAxis = ya; posLetter = 'y'; hasPeriod = !!trace.yperiodalignment; } else { valAxis = ya; valLetter = 'y'; posAxis = xa; posLetter = 'x'; hasPeriod = !!trace.xperiodalignment; } var allPosArrays = getPosArrays(trace, posLetter, posAxis, fullLayout[numKey]); var posArray = allPosArrays[0]; var origPos = allPosArrays[1]; var dv = Lib.distinctVals(posArray, posAxis); var posDistinct = dv.vals; var dPos = dv.minDiff / 2; // item in trace calcdata var cdi; // array of {v: v, i, i} sample pts var pts; // values of the `pts` array of objects var boxVals; // length of sample var N; // single sample point var pt; // single sample value var v; // filter function for outlier pts // outlier definition based on http://www.physics.csbsju.edu/stats/box2.html var ptFilterFn = (trace.boxpoints || trace.points) === 'all' ? Lib.identity : function(pt) { return (pt.v < cdi.lf || pt.v > cdi.uf); }; if(trace._hasPreCompStats) { var valArrayRaw = trace[valLetter]; var d2c = function(k) { return valAxis.d2c((trace[k] || [])[i]); }; var minVal = Infinity; var maxVal = -Infinity; for(i = 0; i < trace._length; i++) { var posi = posArray[i]; if(!isNumeric(posi)) continue; cdi = {}; cdi.pos = cdi[posLetter] = posi; if(hasPeriod && origPos) { cdi.orig_p = origPos[i]; // used by hover } cdi.q1 = d2c('q1'); cdi.med = d2c('median'); cdi.q3 = d2c('q3'); pts = []; if(valArrayRaw && Lib.isArrayOrTypedArray(valArrayRaw[i])) { for(j = 0; j < valArrayRaw[i].length; j++) { v = valAxis.d2c(valArrayRaw[i][j]); if(v !== BADNUM) { pt = {v: v, i: [i, j]}; arraysToCalcdata(pt, trace, [i, j]); pts.push(pt); } } } cdi.pts = pts.sort(sortByVal); boxVals = cdi[valLetter] = pts.map(extractVal); N = boxVals.length; if(cdi.med !== BADNUM && cdi.q1 !== BADNUM && cdi.q3 !== BADNUM && cdi.med >= cdi.q1 && cdi.q3 >= cdi.med ) { var lf = d2c('lowerfence'); cdi.lf = (lf !== BADNUM && lf <= cdi.q1) ? lf : computeLowerFence(cdi, boxVals, N); var uf = d2c('upperfence'); cdi.uf = (uf !== BADNUM && uf >= cdi.q3) ? uf : computeUpperFence(cdi, boxVals, N); var mean = d2c('mean'); cdi.mean = (mean !== BADNUM) ? mean : (N ? Lib.mean(boxVals, N) : (cdi.q1 + cdi.q3) / 2); var sd = d2c('sd'); cdi.sd = (mean !== BADNUM && sd >= 0) ? sd : (N ? Lib.stdev(boxVals, N, cdi.mean) : (cdi.q3 - cdi.q1)); cdi.lo = computeLowerOutlierBound(cdi); cdi.uo = computeUpperOutlierBound(cdi); var ns = d2c('notchspan'); ns = (ns !== BADNUM && ns > 0) ? ns : computeNotchSpan(cdi, N); cdi.ln = cdi.med - ns; cdi.un = cdi.med + ns; var imin = cdi.lf; var imax = cdi.uf; if(trace.boxpoints && boxVals.length) { imin = Math.min(imin, boxVals[0]); imax = Math.max(imax, boxVals[N - 1]); } if(trace.notched) { imin = Math.min(imin, cdi.ln); imax = Math.max(imax, cdi.un); } cdi.min = imin; cdi.max = imax; } else { Lib.warn([ 'Invalid input - make sure that q1 <= median <= q3', 'q1 = ' + cdi.q1, 'median = ' + cdi.med, 'q3 = ' + cdi.q3 ].join('\n')); var v0; if(cdi.med !== BADNUM) { v0 = cdi.med; } else if(cdi.q1 !== BADNUM) { if(cdi.q3 !== BADNUM) v0 = (cdi.q1 + cdi.q3) / 2; else v0 = cdi.q1; } else if(cdi.q3 !== BADNUM) { v0 = cdi.q3; } else { v0 = 0; } // draw box as line segment cdi.med = v0; cdi.q1 = cdi.q3 = v0; cdi.lf = cdi.uf = v0; cdi.mean = cdi.sd = v0; cdi.ln = cdi.un = v0; cdi.min = cdi.max = v0; } minVal = Math.min(minVal, cdi.min); maxVal = Math.max(maxVal, cdi.max); cdi.pts2 = pts.filter(ptFilterFn); cd.push(cdi); } trace._extremes[valAxis._id] = Axes.findExtremes(valAxis, [minVal, maxVal], {padded: true} ); } else { var valArray = valAxis.makeCalcdata(trace, valLetter); var posBins = makeBins(posDistinct, dPos); var pLen = posDistinct.length; var ptsPerBin = initNestedArray(pLen); // bin pts info per position bins for(i = 0; i < trace._length; i++) { v = valArray[i]; if(!isNumeric(v)) continue; var n = Lib.findBin(posArray[i], posBins); if(n >= 0 && n < pLen) { pt = {v: v, i: i}; arraysToCalcdata(pt, trace, i); ptsPerBin[n].push(pt); } } var minLowerNotch = Infinity; var maxUpperNotch = -Infinity; var quartilemethod = trace.quartilemethod; var usesExclusive = quartilemethod === 'exclusive'; var usesInclusive = quartilemethod === 'inclusive'; // build calcdata trace items, one item per distinct position for(i = 0; i < pLen; i++) { if(ptsPerBin[i].length > 0) { cdi = {}; cdi.pos = cdi[posLetter] = posDistinct[i]; pts = cdi.pts = ptsPerBin[i].sort(sortByVal); boxVals = cdi[valLetter] = pts.map(extractVal); N = boxVals.length; cdi.min = boxVals[0]; cdi.max = boxVals[N - 1]; cdi.mean = Lib.mean(boxVals, N); cdi.sd = Lib.stdev(boxVals, N, cdi.mean); cdi.med = Lib.interp(boxVals, 0.5); if((N % 2) && (usesExclusive || usesInclusive)) { var lower; var upper; if(usesExclusive) { // do NOT include the median in either half lower = boxVals.slice(0, N / 2); upper = boxVals.slice(N / 2 + 1); } else if(usesInclusive) { // include the median in either half lower = boxVals.slice(0, N / 2 + 1); upper = boxVals.slice(N / 2); } cdi.q1 = Lib.interp(lower, 0.5); cdi.q3 = Lib.interp(upper, 0.5); } else { cdi.q1 = Lib.interp(boxVals, 0.25); cdi.q3 = Lib.interp(boxVals, 0.75); } // lower and upper fences cdi.lf = computeLowerFence(cdi, boxVals, N); cdi.uf = computeUpperFence(cdi, boxVals, N); // lower and upper outliers bounds cdi.lo = computeLowerOutlierBound(cdi); cdi.uo = computeUpperOutlierBound(cdi); // lower and upper notches var mci = computeNotchSpan(cdi, N); cdi.ln = cdi.med - mci; cdi.un = cdi.med + mci; minLowerNotch = Math.min(minLowerNotch, cdi.ln); maxUpperNotch = Math.max(maxUpperNotch, cdi.un); cdi.pts2 = pts.filter(ptFilterFn); cd.push(cdi); } } trace._extremes[valAxis._id] = Axes.findExtremes(valAxis, trace.notched ? valArray.concat([minLowerNotch, maxUpperNotch]) : valArray, {padded: true} ); } calcSelection(cd, trace); if(cd.length > 0) { cd[0].t = { num: fullLayout[numKey], dPos: dPos, posLetter: posLetter, valLetter: valLetter, labels: { med: _(gd, 'median:'), min: _(gd, 'min:'), q1: _(gd, 'q1:'), q3: _(gd, 'q3:'), max: _(gd, 'max:'), mean: trace.boxmean === 'sd' ? _(gd, 'mean ± σ:') : _(gd, 'mean:'), lf: _(gd, 'lower fence:'), uf: _(gd, 'upper fence:') } }; fullLayout[numKey]++; return cd; } else { return [{t: {empty: true}}]; } }; // In vertical (horizontal) box plots: // if no x (y) data, use x0 (y0), or name // so if you want one box // per trace, set x0 (y0) to the x (y) value or category for this trace // (or set x (y) to a constant array matching y (x)) function getPosArrays(trace, posLetter, posAxis, num) { var hasPosArray = posLetter in trace; var hasPos0 = posLetter + '0' in trace; var hasPosStep = 'd' + posLetter in trace; if(hasPosArray || (hasPos0 && hasPosStep)) { var origPos = posAxis.makeCalcdata(trace, posLetter); var pos = alignPeriod(trace, posAxis, posLetter, origPos).vals; return [pos, origPos]; } var pos0; if(hasPos0) { pos0 = trace[posLetter + '0']; } else if('name' in trace && ( posAxis.type === 'category' || ( isNumeric(trace.name) && ['linear', 'log'].indexOf(posAxis.type) !== -1 ) || ( Lib.isDateTime(trace.name) && posAxis.type === 'date' ) )) { pos0 = trace.name; } else { pos0 = num; } var pos0c = posAxis.type === 'multicategory' ? posAxis.r2c_just_indices(pos0) : posAxis.d2c(pos0, 0, trace[posLetter + 'calendar']); var len = trace._length; var out = new Array(len); for(var i = 0; i < len; i++) out[i] = pos0c; return [out]; } function makeBins(x, dx) { var len = x.length; var bins = new Array(len + 1); for(var i = 0; i < len; i++) { bins[i] = x[i] - dx; } bins[len] = x[len - 1] + dx; return bins; } function initNestedArray(len) { var arr = new Array(len); for(var i = 0; i < len; i++) { arr[i] = []; } return arr; } var TRACE_TO_CALC = { text: 'tx', hovertext: 'htx' }; function arraysToCalcdata(pt, trace, ptNumber) { for(var k in TRACE_TO_CALC) { if(Lib.isArrayOrTypedArray(trace[k])) { if(Array.isArray(ptNumber)) { if(Lib.isArrayOrTypedArray(trace[k][ptNumber[0]])) { pt[TRACE_TO_CALC[k]] = trace[k][ptNumber[0]][ptNumber[1]]; } } else { pt[TRACE_TO_CALC[k]] = trace[k][ptNumber]; } } } } function calcSelection(cd, trace) { if(Lib.isArrayOrTypedArray(trace.selectedpoints)) { for(var i = 0; i < cd.length; i++) { var pts = cd[i].pts || []; var ptNumber2cdIndex = {}; for(var j = 0; j < pts.length; j++) { ptNumber2cdIndex[pts[j].i] = j; } Lib.tagSelected(pts, trace, ptNumber2cdIndex); } } } function sortByVal(a, b) { return a.v - b.v; } function extractVal(o) { return o.v; } // last point below 1.5 * IQR function computeLowerFence(cdi, boxVals, N) { if(N === 0) return cdi.q1; return Math.min( cdi.q1, boxVals[Math.min( Lib.findBin(2.5 * cdi.q1 - 1.5 * cdi.q3, boxVals, true) + 1, N - 1 )] ); } // last point above 1.5 * IQR function computeUpperFence(cdi, boxVals, N) { if(N === 0) return cdi.q3; return Math.max( cdi.q3, boxVals[Math.max( Lib.findBin(2.5 * cdi.q3 - 1.5 * cdi.q1, boxVals), 0 )] ); } // 3 IQR below (don't clip to max/min, // this is only for discriminating suspected & far outliers) function computeLowerOutlierBound(cdi) { return 4 * cdi.q1 - 3 * cdi.q3; } // 3 IQR above (don't clip to max/min, // this is only for discriminating suspected & far outliers) function computeUpperOutlierBound(cdi) { return 4 * cdi.q3 - 3 * cdi.q1; } // 95% confidence intervals for median function computeNotchSpan(cdi, N) { if(N === 0) return 0; return 1.57 * (cdi.q3 - cdi.q1) / Math.sqrt(N); } },{"../../constants/numerical":267,"../../lib":287,"../../plots/cartesian/align_period":331,"../../plots/cartesian/axes":334,"fast-isnumeric":33}],407:[function(_dereq_,module,exports){ 'use strict'; var Axes = _dereq_('../../plots/cartesian/axes'); var Lib = _dereq_('../../lib'); var getAxisGroup = _dereq_('../../plots/cartesian/constraints').getAxisGroup; var orientations = ['v', 'h']; function crossTraceCalc(gd, plotinfo) { var calcdata = gd.calcdata; var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; for(var i = 0; i < orientations.length; i++) { var orientation = orientations[i]; var posAxis = orientation === 'h' ? ya : xa; var boxList = []; // make list of boxes / candlesticks // For backward compatibility, candlesticks are treated as if they *are* box traces here for(var j = 0; j < calcdata.length; j++) { var cd = calcdata[j]; var t = cd[0].t; var trace = cd[0].trace; if(trace.visible === true && (trace.type === 'box' || trace.type === 'candlestick') && !t.empty && (trace.orientation || 'v') === orientation && trace.xaxis === xa._id && trace.yaxis === ya._id ) { boxList.push(j); } } setPositionOffset('box', gd, boxList, posAxis); } } function setPositionOffset(traceType, gd, boxList, posAxis) { var calcdata = gd.calcdata; var fullLayout = gd._fullLayout; var axId = posAxis._id; var axLetter = axId.charAt(0); var i, j, calcTrace; var pointList = []; var shownPts = 0; // make list of box points for(i = 0; i < boxList.length; i++) { calcTrace = calcdata[boxList[i]]; for(j = 0; j < calcTrace.length; j++) { pointList.push(posAxis.c2l(calcTrace[j].pos, true)); shownPts += (calcTrace[j].pts2 || []).length; } } if(!pointList.length) return; // box plots - update dPos based on multiple traces var boxdv = Lib.distinctVals(pointList); if(posAxis.type === 'category' || posAxis.type === 'multicategory') { boxdv.minDiff = 1; } var dPos0 = boxdv.minDiff / 2; // check for forced minimum dtick Axes.minDtick(posAxis, boxdv.minDiff, boxdv.vals[0], true); var numKey = traceType === 'violin' ? '_numViolins' : '_numBoxes'; var numTotal = fullLayout[numKey]; var group = fullLayout[traceType + 'mode'] === 'group' && numTotal > 1; var groupFraction = 1 - fullLayout[traceType + 'gap']; var groupGapFraction = 1 - fullLayout[traceType + 'groupgap']; for(i = 0; i < boxList.length; i++) { calcTrace = calcdata[boxList[i]]; var trace = calcTrace[0].trace; var t = calcTrace[0].t; var width = trace.width; var side = trace.side; // position coordinate delta var dPos; // box half width; var bdPos; // box center offset var bPos; // half-width within which to accept hover for this box/violin // always split the distance to the closest box/violin var wHover; if(width) { dPos = bdPos = wHover = width / 2; bPos = 0; } else { dPos = dPos0; if(group) { var groupId = getAxisGroup(fullLayout, posAxis._id) + trace.orientation; var alignmentGroups = fullLayout._alignmentOpts[groupId] || {}; var alignmentGroupOpts = alignmentGroups[trace.alignmentgroup] || {}; var nOffsetGroups = Object.keys(alignmentGroupOpts.offsetGroups || {}).length; var num = nOffsetGroups || numTotal; var shift = nOffsetGroups ? trace._offsetIndex : t.num; bdPos = dPos * groupFraction * groupGapFraction / num; bPos = 2 * dPos * (-0.5 + (shift + 0.5) / num) * groupFraction; wHover = dPos * groupFraction / num; } else { bdPos = dPos * groupFraction * groupGapFraction; bPos = 0; wHover = dPos; } } t.dPos = dPos; t.bPos = bPos; t.bdPos = bdPos; t.wHover = wHover; // box/violin-only value-space push value var pushplus; var pushminus; // edge of box/violin var edge = bPos + bdPos; var edgeplus; var edgeminus; // value-space padding var vpadplus; var vpadminus; // pixel-space padding var ppadplus; var ppadminus; // do we add 5% of both sides (more logic for points beyond box/violin below) var padded = Boolean(width); // does this trace show points? var hasPts = (trace.boxpoints || trace.points) && (shownPts > 0); if(side === 'positive') { pushplus = dPos * (width ? 1 : 0.5); edgeplus = edge; pushminus = edgeplus = bPos; } else if(side === 'negative') { pushplus = edgeplus = bPos; pushminus = dPos * (width ? 1 : 0.5); edgeminus = edge; } else { pushplus = pushminus = dPos; edgeplus = edgeminus = edge; } if(hasPts) { var pointpos = trace.pointpos; var jitter = trace.jitter; var ms = trace.marker.size / 2; var pp = 0; if((pointpos + jitter) >= 0) { pp = edge * (pointpos + jitter); if(pp > pushplus) { // (++) beyond plus-value, use pp padded = true; ppadplus = ms; vpadplus = pp; } else if(pp > edgeplus) { // (+), use push-value (it's bigger), but add px-pad ppadplus = ms; vpadplus = pushplus; } } if(pp <= pushplus) { // (->) fallback to push value vpadplus = pushplus; } var pm = 0; if((pointpos - jitter) <= 0) { pm = -edge * (pointpos - jitter); if(pm > pushminus) { // (--) beyond plus-value, use pp padded = true; ppadminus = ms; vpadminus = pm; } else if(pm > edgeminus) { // (-), use push-value (it's bigger), but add px-pad ppadminus = ms; vpadminus = pushminus; } } if(pm <= pushminus) { // (<-) fallback to push value vpadminus = pushminus; } } else { vpadplus = pushplus; vpadminus = pushminus; } var pos = new Array(calcTrace.length); for(j = 0; j < calcTrace.length; j++) { pos[j] = calcTrace[j].pos; } trace._extremes[axId] = Axes.findExtremes(posAxis, pos, { padded: padded, vpadminus: vpadminus, vpadplus: vpadplus, vpadLinearized: true, // N.B. SVG px-space positive/negative ppadminus: {x: ppadminus, y: ppadplus}[axLetter], ppadplus: {x: ppadplus, y: ppadminus}[axLetter], }); } } module.exports = { crossTraceCalc: crossTraceCalc, setPositionOffset: setPositionOffset }; },{"../../lib":287,"../../plots/cartesian/axes":334,"../../plots/cartesian/constraints":342}],408:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); var Color = _dereq_('../../components/color'); var handlePeriodDefaults = _dereq_('../scatter/period_defaults'); var handleGroupingDefaults = _dereq_('../bar/defaults').handleGroupingDefaults; var autoType = _dereq_('../../plots/cartesian/axis_autotype'); var attributes = _dereq_('./attributes'); function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } handleSampleDefaults(traceIn, traceOut, coerce, layout); if(traceOut.visible === false) return; handlePeriodDefaults(traceIn, traceOut, layout, coerce); coerce('xhoverformat'); coerce('yhoverformat'); var hasPreCompStats = traceOut._hasPreCompStats; if(hasPreCompStats) { coerce('lowerfence'); coerce('upperfence'); } coerce('line.color', (traceIn.marker || {}).color || defaultColor); coerce('line.width'); coerce('fillcolor', Color.addOpacity(traceOut.line.color, 0.5)); var boxmeanDflt = false; if(hasPreCompStats) { var mean = coerce('mean'); var sd = coerce('sd'); if(mean && mean.length) { boxmeanDflt = true; if(sd && sd.length) boxmeanDflt = 'sd'; } } coerce('boxmean', boxmeanDflt); coerce('whiskerwidth'); coerce('width'); coerce('quartilemethod'); var notchedDflt = false; if(hasPreCompStats) { var notchspan = coerce('notchspan'); if(notchspan && notchspan.length) { notchedDflt = true; } } else if(Lib.validate(traceIn.notchwidth, attributes.notchwidth)) { notchedDflt = true; } var notched = coerce('notched', notchedDflt); if(notched) coerce('notchwidth'); handlePointsDefaults(traceIn, traceOut, coerce, {prefix: 'box'}); } function handleSampleDefaults(traceIn, traceOut, coerce, layout) { function getDims(arr) { var dims = 0; if(arr && arr.length) { dims += 1; if(Lib.isArrayOrTypedArray(arr[0]) && arr[0].length) { dims += 1; } } return dims; } function valid(astr) { return Lib.validate(traceIn[astr], attributes[astr]); } var y = coerce('y'); var x = coerce('x'); var sLen; if(traceOut.type === 'box') { var q1 = coerce('q1'); var median = coerce('median'); var q3 = coerce('q3'); traceOut._hasPreCompStats = ( q1 && q1.length && median && median.length && q3 && q3.length ); sLen = Math.min( Lib.minRowLength(q1), Lib.minRowLength(median), Lib.minRowLength(q3) ); } var yDims = getDims(y); var xDims = getDims(x); var yLen = yDims && Lib.minRowLength(y); var xLen = xDims && Lib.minRowLength(x); var calendar = layout.calendar; var opts = { autotypenumbers: layout.autotypenumbers }; var defaultOrientation, len; if(traceOut._hasPreCompStats) { switch(String(xDims) + String(yDims)) { // no x / no y case '00': var setInX = valid('x0') || valid('dx'); var setInY = valid('y0') || valid('dy'); if(setInY && !setInX) { defaultOrientation = 'h'; } else { defaultOrientation = 'v'; } len = sLen; break; // just x case '10': defaultOrientation = 'v'; len = Math.min(sLen, xLen); break; case '20': defaultOrientation = 'h'; len = Math.min(sLen, x.length); break; // just y case '01': defaultOrientation = 'h'; len = Math.min(sLen, yLen); break; case '02': defaultOrientation = 'v'; len = Math.min(sLen, y.length); break; // both case '12': defaultOrientation = 'v'; len = Math.min(sLen, xLen, y.length); break; case '21': defaultOrientation = 'h'; len = Math.min(sLen, x.length, yLen); break; case '11': // this one is ill-defined len = 0; break; case '22': var hasCategories = false; var i; for(i = 0; i < x.length; i++) { if(autoType(x[i], calendar, opts) === 'category') { hasCategories = true; break; } } if(hasCategories) { defaultOrientation = 'v'; len = Math.min(sLen, xLen, y.length); } else { for(i = 0; i < y.length; i++) { if(autoType(y[i], calendar, opts) === 'category') { hasCategories = true; break; } } if(hasCategories) { defaultOrientation = 'h'; len = Math.min(sLen, x.length, yLen); } else { defaultOrientation = 'v'; len = Math.min(sLen, xLen, y.length); } } break; } } else if(yDims > 0) { defaultOrientation = 'v'; if(xDims > 0) { len = Math.min(xLen, yLen); } else { len = Math.min(yLen); } } else if(xDims > 0) { defaultOrientation = 'h'; len = Math.min(xLen); } else { len = 0; } if(!len) { traceOut.visible = false; return; } traceOut._length = len; var orientation = coerce('orientation', defaultOrientation); // these are just used for positioning, they never define the sample if(traceOut._hasPreCompStats) { if(orientation === 'v' && xDims === 0) { coerce('x0', 0); coerce('dx', 1); } else if(orientation === 'h' && yDims === 0) { coerce('y0', 0); coerce('dy', 1); } } else { if(orientation === 'v' && xDims === 0) { coerce('x0'); } else if(orientation === 'h' && yDims === 0) { coerce('y0'); } } var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults'); handleCalendarDefaults(traceIn, traceOut, ['x', 'y'], layout); } function handlePointsDefaults(traceIn, traceOut, coerce, opts) { var prefix = opts.prefix; var outlierColorDflt = Lib.coerce2(traceIn, traceOut, attributes, 'marker.outliercolor'); var lineoutliercolor = coerce('marker.line.outliercolor'); var modeDflt = 'outliers'; if(traceOut._hasPreCompStats) { modeDflt = 'all'; } else if(outlierColorDflt || lineoutliercolor) { modeDflt = 'suspectedoutliers'; } var mode = coerce(prefix + 'points', modeDflt); if(mode) { coerce('jitter', mode === 'all' ? 0.3 : 0); coerce('pointpos', mode === 'all' ? -1.5 : 0); coerce('marker.symbol'); coerce('marker.opacity'); coerce('marker.size'); coerce('marker.color', traceOut.line.color); coerce('marker.line.color'); coerce('marker.line.width'); if(mode === 'suspectedoutliers') { coerce('marker.line.outliercolor', traceOut.marker.color); coerce('marker.line.outlierwidth'); } coerce('selected.marker.color'); coerce('unselected.marker.color'); coerce('selected.marker.size'); coerce('unselected.marker.size'); coerce('text'); coerce('hovertext'); } else { delete traceOut.marker; } var hoveron = coerce('hoveron'); if(hoveron === 'all' || hoveron.indexOf('points') !== -1) { coerce('hovertemplate'); } Lib.coerceSelectionMarkerOpacity(traceOut, coerce); } function crossTraceDefaults(fullData, fullLayout) { var traceIn, traceOut; function coerce(attr) { return Lib.coerce(traceOut._input, traceOut, attributes, attr); } for(var i = 0; i < fullData.length; i++) { traceOut = fullData[i]; var traceType = traceOut.type; if(traceType === 'box' || traceType === 'violin') { traceIn = traceOut._input; if(fullLayout[traceType + 'mode'] === 'group') { handleGroupingDefaults(traceIn, traceOut, fullLayout, coerce); } } } } module.exports = { supplyDefaults: supplyDefaults, crossTraceDefaults: crossTraceDefaults, handleSampleDefaults: handleSampleDefaults, handlePointsDefaults: handlePointsDefaults }; },{"../../components/color":157,"../../lib":287,"../../plots/cartesian/axis_autotype":335,"../../registry":378,"../bar/defaults":392,"../scatter/period_defaults":520,"./attributes":405}],409:[function(_dereq_,module,exports){ 'use strict'; module.exports = function eventData(out, pt) { // Note: hoverOnBox property is needed for click-to-select // to ignore when a box was clicked. This is the reason box // implements this custom eventData function. if(pt.hoverOnBox) out.hoverOnBox = pt.hoverOnBox; if('xVal' in pt) out.x = pt.xVal; if('yVal' in pt) out.y = pt.yVal; if(pt.xa) out.xaxis = pt.xa; if(pt.ya) out.yaxis = pt.ya; return out; }; },{}],410:[function(_dereq_,module,exports){ 'use strict'; var Axes = _dereq_('../../plots/cartesian/axes'); var Lib = _dereq_('../../lib'); var Fx = _dereq_('../../components/fx'); var Color = _dereq_('../../components/color'); var fillText = Lib.fillText; function hoverPoints(pointData, xval, yval, hovermode) { var cd = pointData.cd; var trace = cd[0].trace; var hoveron = trace.hoveron; var closeBoxData = []; var closePtData; if(hoveron.indexOf('boxes') !== -1) { closeBoxData = closeBoxData.concat(hoverOnBoxes(pointData, xval, yval, hovermode)); } if(hoveron.indexOf('points') !== -1) { closePtData = hoverOnPoints(pointData, xval, yval); } // If there's a point in range and hoveron has points, show the best single point only. // If hoveron has boxes and there's no point in range (or hoveron doesn't have points), show the box stats. if(hovermode === 'closest') { if(closePtData) return [closePtData]; return closeBoxData; } // Otherwise in compare mode, allow a point AND the box stats to be labeled // If there are multiple boxes in range (ie boxmode = 'overlay') we'll see stats for all of them. if(closePtData) { closeBoxData.push(closePtData); return closeBoxData; } return closeBoxData; } function hoverOnBoxes(pointData, xval, yval, hovermode) { var cd = pointData.cd; var xa = pointData.xa; var ya = pointData.ya; var trace = cd[0].trace; var t = cd[0].t; var isViolin = trace.type === 'violin'; var closeBoxData = []; var pLetter, vLetter, pAxis, vAxis, vVal, pVal, dx, dy, dPos, hoverPseudoDistance, spikePseudoDistance; var boxDelta = t.bdPos; var boxDeltaPos, boxDeltaNeg; var posAcceptance = t.wHover; var shiftPos = function(di) { return pAxis.c2l(di.pos) + t.bPos - pAxis.c2l(pVal); }; if(isViolin && trace.side !== 'both') { if(trace.side === 'positive') { dPos = function(di) { var pos = shiftPos(di); return Fx.inbox(pos, pos + posAcceptance, hoverPseudoDistance); }; boxDeltaPos = boxDelta; boxDeltaNeg = 0; } if(trace.side === 'negative') { dPos = function(di) { var pos = shiftPos(di); return Fx.inbox(pos - posAcceptance, pos, hoverPseudoDistance); }; boxDeltaPos = 0; boxDeltaNeg = boxDelta; } } else { dPos = function(di) { var pos = shiftPos(di); return Fx.inbox(pos - posAcceptance, pos + posAcceptance, hoverPseudoDistance); }; boxDeltaPos = boxDeltaNeg = boxDelta; } var dVal; if(isViolin) { dVal = function(di) { return Fx.inbox(di.span[0] - vVal, di.span[1] - vVal, hoverPseudoDistance); }; } else { dVal = function(di) { return Fx.inbox(di.min - vVal, di.max - vVal, hoverPseudoDistance); }; } if(trace.orientation === 'h') { vVal = xval; pVal = yval; dx = dVal; dy = dPos; pLetter = 'y'; pAxis = ya; vLetter = 'x'; vAxis = xa; } else { vVal = yval; pVal = xval; dx = dPos; dy = dVal; pLetter = 'x'; pAxis = xa; vLetter = 'y'; vAxis = ya; } // if two boxes are overlaying, let the narrowest one win var pseudoDistance = Math.min(1, boxDelta / Math.abs(pAxis.r2c(pAxis.range[1]) - pAxis.r2c(pAxis.range[0]))); hoverPseudoDistance = pointData.maxHoverDistance - pseudoDistance; spikePseudoDistance = pointData.maxSpikeDistance - pseudoDistance; function dxy(di) { return (dx(di) + dy(di)) / 2; } var distfn = Fx.getDistanceFunction(hovermode, dx, dy, dxy); Fx.getClosest(cd, distfn, pointData); // skip the rest (for this trace) if we didn't find a close point // and create the item(s) in closedata for this point if(pointData.index === false) return []; var di = cd[pointData.index]; var lc = trace.line.color; var mc = (trace.marker || {}).color; if(Color.opacity(lc) && trace.line.width) pointData.color = lc; else if(Color.opacity(mc) && trace.boxpoints) pointData.color = mc; else pointData.color = trace.fillcolor; pointData[pLetter + '0'] = pAxis.c2p(di.pos + t.bPos - boxDeltaNeg, true); pointData[pLetter + '1'] = pAxis.c2p(di.pos + t.bPos + boxDeltaPos, true); pointData[pLetter + 'LabelVal'] = di.orig_p !== undefined ? di.orig_p : di.pos; var spikePosAttr = pLetter + 'Spike'; pointData.spikeDistance = dxy(di) * spikePseudoDistance / hoverPseudoDistance; pointData[spikePosAttr] = pAxis.c2p(di.pos, true); // box plots: each "point" gets many labels var usedVals = {}; var attrs = ['med', 'q1', 'q3', 'min', 'max']; if(trace.boxmean || (trace.meanline || {}).visible) { attrs.push('mean'); } if(trace.boxpoints || trace.points) { attrs.push('lf', 'uf'); } for(var i = 0; i < attrs.length; i++) { var attr = attrs[i]; if(!(attr in di) || (di[attr] in usedVals)) continue; usedVals[di[attr]] = true; // copy out to a new object for each value to label var val = di[attr]; var valPx = vAxis.c2p(val, true); var pointData2 = Lib.extendFlat({}, pointData); pointData2.attr = attr; pointData2[vLetter + '0'] = pointData2[vLetter + '1'] = valPx; pointData2[vLetter + 'LabelVal'] = val; pointData2[vLetter + 'Label'] = (t.labels ? t.labels[attr] + ' ' : '') + Axes.hoverLabelText(vAxis, val, trace[vLetter + 'hoverformat']); // Note: introduced to be able to distinguish a // clicked point from a box during click-to-select pointData2.hoverOnBox = true; if(attr === 'mean' && ('sd' in di) && trace.boxmean === 'sd') { pointData2[vLetter + 'err'] = di.sd; } // only keep name and spikes on the first item (median) pointData.name = ''; pointData.spikeDistance = undefined; pointData[spikePosAttr] = undefined; // no hovertemplate support yet pointData2.hovertemplate = false; closeBoxData.push(pointData2); } return closeBoxData; } function hoverOnPoints(pointData, xval, yval) { var cd = pointData.cd; var xa = pointData.xa; var ya = pointData.ya; var trace = cd[0].trace; var xPx = xa.c2p(xval); var yPx = ya.c2p(yval); var closePtData; var dx = function(di) { var rad = Math.max(3, di.mrc || 0); return Math.max(Math.abs(xa.c2p(di.x) - xPx) - rad, 1 - 3 / rad); }; var dy = function(di) { var rad = Math.max(3, di.mrc || 0); return Math.max(Math.abs(ya.c2p(di.y) - yPx) - rad, 1 - 3 / rad); }; var distfn = Fx.quadrature(dx, dy); // show one point per trace var ijClosest = false; var di, pt; for(var i = 0; i < cd.length; i++) { di = cd[i]; for(var j = 0; j < (di.pts || []).length; j++) { pt = di.pts[j]; var newDistance = distfn(pt); if(newDistance <= pointData.distance) { pointData.distance = newDistance; ijClosest = [i, j]; } } } if(!ijClosest) return false; di = cd[ijClosest[0]]; pt = di.pts[ijClosest[1]]; var xc = xa.c2p(pt.x, true); var yc = ya.c2p(pt.y, true); var rad = pt.mrc || 1; closePtData = Lib.extendFlat({}, pointData, { // corresponds to index in x/y input data array index: pt.i, color: (trace.marker || {}).color, name: trace.name, x0: xc - rad, x1: xc + rad, y0: yc - rad, y1: yc + rad, spikeDistance: pointData.distance, hovertemplate: trace.hovertemplate }); var origPos = di.orig_p; var pos = origPos !== undefined ? origPos : di.pos; var pa; if(trace.orientation === 'h') { pa = ya; closePtData.xLabelVal = pt.x; closePtData.yLabelVal = pos; } else { pa = xa; closePtData.xLabelVal = pos; closePtData.yLabelVal = pt.y; } var pLetter = pa._id.charAt(0); closePtData[pLetter + 'Spike'] = pa.c2p(di.pos, true); fillText(pt, trace, closePtData); return closePtData; } module.exports = { hoverPoints: hoverPoints, hoverOnBoxes: hoverOnBoxes, hoverOnPoints: hoverOnPoints }; },{"../../components/color":157,"../../components/fx":197,"../../lib":287,"../../plots/cartesian/axes":334}],411:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), layoutAttributes: _dereq_('./layout_attributes'), supplyDefaults: _dereq_('./defaults').supplyDefaults, crossTraceDefaults: _dereq_('./defaults').crossTraceDefaults, supplyLayoutDefaults: _dereq_('./layout_defaults').supplyLayoutDefaults, calc: _dereq_('./calc'), crossTraceCalc: _dereq_('./cross_trace_calc').crossTraceCalc, plot: _dereq_('./plot').plot, style: _dereq_('./style').style, styleOnSelect: _dereq_('./style').styleOnSelect, hoverPoints: _dereq_('./hover').hoverPoints, eventData: _dereq_('./event_data'), selectPoints: _dereq_('./select'), moduleType: 'trace', name: 'box', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['cartesian', 'svg', 'symbols', 'oriented', 'box-violin', 'showLegend', 'boxLayout', 'zoomScale'], meta: { } }; },{"../../plots/cartesian":348,"./attributes":405,"./calc":406,"./cross_trace_calc":407,"./defaults":408,"./event_data":409,"./hover":410,"./layout_attributes":412,"./layout_defaults":413,"./plot":414,"./select":415,"./style":416}],412:[function(_dereq_,module,exports){ 'use strict'; module.exports = { boxmode: { valType: 'enumerated', values: ['group', 'overlay'], dflt: 'overlay', editType: 'calc', }, boxgap: { valType: 'number', min: 0, max: 1, dflt: 0.3, editType: 'calc', }, boxgroupgap: { valType: 'number', min: 0, max: 1, dflt: 0.3, editType: 'calc', } }; },{}],413:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var layoutAttributes = _dereq_('./layout_attributes'); function _supply(layoutIn, layoutOut, fullData, coerce, traceType) { var category = traceType + 'Layout'; var hasTraceType = false; for(var i = 0; i < fullData.length; i++) { var trace = fullData[i]; if(Registry.traceIs(trace, category)) { hasTraceType = true; break; } } if(!hasTraceType) return; coerce(traceType + 'mode'); coerce(traceType + 'gap'); coerce(traceType + 'groupgap'); } function supplyLayoutDefaults(layoutIn, layoutOut, fullData) { function coerce(attr, dflt) { return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt); } _supply(layoutIn, layoutOut, fullData, coerce, 'box'); } module.exports = { supplyLayoutDefaults: supplyLayoutDefaults, _supply: _supply }; },{"../../lib":287,"../../registry":378,"./layout_attributes":412}],414:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); var Drawing = _dereq_('../../components/drawing'); // constants for dynamic jitter (ie less jitter for sparser points) var JITTERCOUNT = 5; // points either side of this to include var JITTERSPREAD = 0.01; // fraction of IQR to count as "dense" function plot(gd, plotinfo, cdbox, boxLayer) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; Lib.makeTraceGroups(boxLayer, cdbox, 'trace boxes').each(function(cd) { var plotGroup = d3.select(this); var cd0 = cd[0]; var t = cd0.t; var trace = cd0.trace; // whisker width t.wdPos = t.bdPos * trace.whiskerwidth; if(trace.visible !== true || t.empty) { plotGroup.remove(); return; } var posAxis, valAxis; if(trace.orientation === 'h') { posAxis = ya; valAxis = xa; } else { posAxis = xa; valAxis = ya; } plotBoxAndWhiskers(plotGroup, {pos: posAxis, val: valAxis}, trace, t); plotPoints(plotGroup, {x: xa, y: ya}, trace, t); plotBoxMean(plotGroup, {pos: posAxis, val: valAxis}, trace, t); }); } function plotBoxAndWhiskers(sel, axes, trace, t) { var isHorizontal = trace.orientation === 'h'; var valAxis = axes.val; var posAxis = axes.pos; var posHasRangeBreaks = !!posAxis.rangebreaks; var bPos = t.bPos; var wdPos = t.wdPos || 0; var bPosPxOffset = t.bPosPxOffset || 0; var whiskerWidth = trace.whiskerwidth || 0; var notched = trace.notched || false; var nw = notched ? 1 - 2 * trace.notchwidth : 1; // to support for one-sided box var bdPos0; var bdPos1; if(Array.isArray(t.bdPos)) { bdPos0 = t.bdPos[0]; bdPos1 = t.bdPos[1]; } else { bdPos0 = t.bdPos; bdPos1 = t.bdPos; } var paths = sel.selectAll('path.box').data(( trace.type !== 'violin' || trace.box.visible ) ? Lib.identity : []); paths.enter().append('path') .style('vector-effect', 'non-scaling-stroke') .attr('class', 'box'); paths.exit().remove(); paths.each(function(d) { if(d.empty) return 'M0,0Z'; var lcenter = posAxis.c2l(d.pos + bPos, true); var pos0 = posAxis.l2p(lcenter - bdPos0) + bPosPxOffset; var pos1 = posAxis.l2p(lcenter + bdPos1) + bPosPxOffset; var posc = posHasRangeBreaks ? (pos0 + pos1) / 2 : posAxis.l2p(lcenter) + bPosPxOffset; var r = trace.whiskerwidth; var posw0 = posHasRangeBreaks ? pos0 * r + (1 - r) * posc : posAxis.l2p(lcenter - wdPos) + bPosPxOffset; var posw1 = posHasRangeBreaks ? pos1 * r + (1 - r) * posc : posAxis.l2p(lcenter + wdPos) + bPosPxOffset; var posm0 = posAxis.l2p(lcenter - bdPos0 * nw) + bPosPxOffset; var posm1 = posAxis.l2p(lcenter + bdPos1 * nw) + bPosPxOffset; var q1 = valAxis.c2p(d.q1, true); var q3 = valAxis.c2p(d.q3, true); // make sure median isn't identical to either of the // quartiles, so we can see it var m = Lib.constrain( valAxis.c2p(d.med, true), Math.min(q1, q3) + 1, Math.max(q1, q3) - 1 ); // for compatibility with box, violin, and candlestick // perhaps we should put this into cd0.t instead so it's more explicit, // but what we have now is: // - box always has d.lf, but boxpoints can be anything // - violin has d.lf and should always use it (boxpoints is undefined) // - candlestick has only min/max var useExtremes = (d.lf === undefined) || (trace.boxpoints === false); var lf = valAxis.c2p(useExtremes ? d.min : d.lf, true); var uf = valAxis.c2p(useExtremes ? d.max : d.uf, true); var ln = valAxis.c2p(d.ln, true); var un = valAxis.c2p(d.un, true); if(isHorizontal) { d3.select(this).attr('d', 'M' + m + ',' + posm0 + 'V' + posm1 + // median line 'M' + q1 + ',' + pos0 + 'V' + pos1 + // left edge (notched ? 'H' + ln + 'L' + m + ',' + posm1 + 'L' + un + ',' + pos1 : '' ) + // top notched edge 'H' + q3 + // end of the top edge 'V' + pos0 + // right edge (notched ? 'H' + un + 'L' + m + ',' + posm0 + 'L' + ln + ',' + pos0 : '') + // bottom notched edge 'Z' + // end of the box 'M' + q1 + ',' + posc + 'H' + lf + 'M' + q3 + ',' + posc + 'H' + uf + // whiskers (whiskerWidth === 0 ? '' : // whisker caps 'M' + lf + ',' + posw0 + 'V' + posw1 + 'M' + uf + ',' + posw0 + 'V' + posw1 ) ); } else { d3.select(this).attr('d', 'M' + posm0 + ',' + m + 'H' + posm1 + // median line 'M' + pos0 + ',' + q1 + 'H' + pos1 + // top of the box (notched ? 'V' + ln + 'L' + posm1 + ',' + m + 'L' + pos1 + ',' + un : '' ) + // notched right edge 'V' + q3 + // end of the right edge 'H' + pos0 + // bottom of the box (notched ? 'V' + un + 'L' + posm0 + ',' + m + 'L' + pos0 + ',' + ln : '' ) + // notched left edge 'Z' + // end of the box 'M' + posc + ',' + q1 + 'V' + lf + 'M' + posc + ',' + q3 + 'V' + uf + // whiskers (whiskerWidth === 0 ? '' : // whisker caps 'M' + posw0 + ',' + lf + 'H' + posw1 + 'M' + posw0 + ',' + uf + 'H' + posw1 ) ); } }); } function plotPoints(sel, axes, trace, t) { var xa = axes.x; var ya = axes.y; var bdPos = t.bdPos; var bPos = t.bPos; // to support violin points var mode = trace.boxpoints || trace.points; // repeatable pseudo-random number generator Lib.seedPseudoRandom(); // since box plot points get an extra level of nesting, each // box needs the trace styling info var fn = function(d) { d.forEach(function(v) { v.t = t; v.trace = trace; }); return d; }; var gPoints = sel.selectAll('g.points') .data(mode ? fn : []); gPoints.enter().append('g') .attr('class', 'points'); gPoints.exit().remove(); var paths = gPoints.selectAll('path') .data(function(d) { var i; var pts = d.pts2; // normally use IQR, but if this is 0 or too small, use max-min var typicalSpread = Math.max((d.max - d.min) / 10, d.q3 - d.q1); var minSpread = typicalSpread * 1e-9; var spreadLimit = typicalSpread * JITTERSPREAD; var jitterFactors = []; var maxJitterFactor = 0; var newJitter; // dynamic jitter if(trace.jitter) { if(typicalSpread === 0) { // edge case of no spread at all: fall back to max jitter maxJitterFactor = 1; jitterFactors = new Array(pts.length); for(i = 0; i < pts.length; i++) { jitterFactors[i] = 1; } } else { for(i = 0; i < pts.length; i++) { var i0 = Math.max(0, i - JITTERCOUNT); var pmin = pts[i0].v; var i1 = Math.min(pts.length - 1, i + JITTERCOUNT); var pmax = pts[i1].v; if(mode !== 'all') { if(pts[i].v < d.lf) pmax = Math.min(pmax, d.lf); else pmin = Math.max(pmin, d.uf); } var jitterFactor = Math.sqrt(spreadLimit * (i1 - i0) / (pmax - pmin + minSpread)) || 0; jitterFactor = Lib.constrain(Math.abs(jitterFactor), 0, 1); jitterFactors.push(jitterFactor); maxJitterFactor = Math.max(jitterFactor, maxJitterFactor); } } newJitter = trace.jitter * 2 / (maxJitterFactor || 1); } // fills in 'x' and 'y' in calcdata 'pts' item for(i = 0; i < pts.length; i++) { var pt = pts[i]; var v = pt.v; var jitterOffset = trace.jitter ? (newJitter * jitterFactors[i] * (Lib.pseudoRandom() - 0.5)) : 0; var posPx = d.pos + bPos + bdPos * (trace.pointpos + jitterOffset); if(trace.orientation === 'h') { pt.y = posPx; pt.x = v; } else { pt.x = posPx; pt.y = v; } // tag suspected outliers if(mode === 'suspectedoutliers' && v < d.uo && v > d.lo) { pt.so = true; } } return pts; }); paths.enter().append('path') .classed('point', true); paths.exit().remove(); paths.call(Drawing.translatePoints, xa, ya); } function plotBoxMean(sel, axes, trace, t) { var valAxis = axes.val; var posAxis = axes.pos; var posHasRangeBreaks = !!posAxis.rangebreaks; var bPos = t.bPos; var bPosPxOffset = t.bPosPxOffset || 0; // to support violin mean lines var mode = trace.boxmean || (trace.meanline || {}).visible; // to support for one-sided box var bdPos0; var bdPos1; if(Array.isArray(t.bdPos)) { bdPos0 = t.bdPos[0]; bdPos1 = t.bdPos[1]; } else { bdPos0 = t.bdPos; bdPos1 = t.bdPos; } var paths = sel.selectAll('path.mean').data(( (trace.type === 'box' && trace.boxmean) || (trace.type === 'violin' && trace.box.visible && trace.meanline.visible) ) ? Lib.identity : []); paths.enter().append('path') .attr('class', 'mean') .style({ fill: 'none', 'vector-effect': 'non-scaling-stroke' }); paths.exit().remove(); paths.each(function(d) { var lcenter = posAxis.c2l(d.pos + bPos, true); var pos0 = posAxis.l2p(lcenter - bdPos0) + bPosPxOffset; var pos1 = posAxis.l2p(lcenter + bdPos1) + bPosPxOffset; var posc = posHasRangeBreaks ? (pos0 + pos1) / 2 : posAxis.l2p(lcenter) + bPosPxOffset; var m = valAxis.c2p(d.mean, true); var sl = valAxis.c2p(d.mean - d.sd, true); var sh = valAxis.c2p(d.mean + d.sd, true); if(trace.orientation === 'h') { d3.select(this).attr('d', 'M' + m + ',' + pos0 + 'V' + pos1 + (mode === 'sd' ? 'm0,0L' + sl + ',' + posc + 'L' + m + ',' + pos0 + 'L' + sh + ',' + posc + 'Z' : '') ); } else { d3.select(this).attr('d', 'M' + pos0 + ',' + m + 'H' + pos1 + (mode === 'sd' ? 'm0,0L' + posc + ',' + sl + 'L' + pos0 + ',' + m + 'L' + posc + ',' + sh + 'Z' : '') ); } }); } module.exports = { plot: plot, plotBoxAndWhiskers: plotBoxAndWhiskers, plotPoints: plotPoints, plotBoxMean: plotBoxMean }; },{"../../components/drawing":179,"../../lib":287,"@plotly/d3":20}],415:[function(_dereq_,module,exports){ 'use strict'; module.exports = function selectPoints(searchInfo, selectionTester) { var cd = searchInfo.cd; var xa = searchInfo.xaxis; var ya = searchInfo.yaxis; var selection = []; var i, j; if(selectionTester === false) { for(i = 0; i < cd.length; i++) { for(j = 0; j < (cd[i].pts || []).length; j++) { // clear selection cd[i].pts[j].selected = 0; } } } else { for(i = 0; i < cd.length; i++) { for(j = 0; j < (cd[i].pts || []).length; j++) { var pt = cd[i].pts[j]; var x = xa.c2p(pt.x); var y = ya.c2p(pt.y); if(selectionTester.contains([x, y], null, pt.i, searchInfo)) { selection.push({ pointNumber: pt.i, x: xa.c2d(pt.x), y: ya.c2d(pt.y) }); pt.selected = 1; } else { pt.selected = 0; } } } } return selection; }; },{}],416:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Color = _dereq_('../../components/color'); var Drawing = _dereq_('../../components/drawing'); function style(gd, cd, sel) { var s = sel ? sel : d3.select(gd).selectAll('g.trace.boxes'); s.style('opacity', function(d) { return d[0].trace.opacity; }); s.each(function(d) { var el = d3.select(this); var trace = d[0].trace; var lineWidth = trace.line.width; function styleBox(boxSel, lineWidth, lineColor, fillColor) { boxSel.style('stroke-width', lineWidth + 'px') .call(Color.stroke, lineColor) .call(Color.fill, fillColor); } var allBoxes = el.selectAll('path.box'); if(trace.type === 'candlestick') { allBoxes.each(function(boxData) { if(boxData.empty) return; var thisBox = d3.select(this); var container = trace[boxData.dir]; // dir = 'increasing' or 'decreasing' styleBox(thisBox, container.line.width, container.line.color, container.fillcolor); // TODO: custom selection style for candlesticks thisBox.style('opacity', trace.selectedpoints && !boxData.selected ? 0.3 : 1); }); } else { styleBox(allBoxes, lineWidth, trace.line.color, trace.fillcolor); el.selectAll('path.mean') .style({ 'stroke-width': lineWidth, 'stroke-dasharray': (2 * lineWidth) + 'px,' + lineWidth + 'px' }) .call(Color.stroke, trace.line.color); var pts = el.selectAll('path.point'); Drawing.pointStyle(pts, trace, gd); } }); } function styleOnSelect(gd, cd, sel) { var trace = cd[0].trace; var pts = sel.selectAll('path.point'); if(trace.selectedpoints) { Drawing.selectedPointStyle(pts, trace); } else { Drawing.pointStyle(pts, trace, gd); } } module.exports = { style: style, styleOnSelect: styleOnSelect }; },{"../../components/color":157,"../../components/drawing":179,"@plotly/d3":20}],417:[function(_dereq_,module,exports){ 'use strict'; var heatmapAttrs = _dereq_('../heatmap/attributes'); var scatterAttrs = _dereq_('../scatter/attributes'); var axisFormat = _dereq_('../../plots/cartesian/axis_format_attributes'); var axisHoverFormat = axisFormat.axisHoverFormat; var descriptionOnlyNumbers = axisFormat.descriptionOnlyNumbers; var colorScaleAttrs = _dereq_('../../components/colorscale/attributes'); var dash = _dereq_('../../components/drawing/attributes').dash; var fontAttrs = _dereq_('../../plots/font_attributes'); var extendFlat = _dereq_('../../lib/extend').extendFlat; var filterOps = _dereq_('../../constants/filter_ops'); var COMPARISON_OPS2 = filterOps.COMPARISON_OPS2; var INTERVAL_OPS = filterOps.INTERVAL_OPS; var scatterLineAttrs = scatterAttrs.line; module.exports = extendFlat({ z: heatmapAttrs.z, x: heatmapAttrs.x, x0: heatmapAttrs.x0, dx: heatmapAttrs.dx, y: heatmapAttrs.y, y0: heatmapAttrs.y0, dy: heatmapAttrs.dy, xperiod: heatmapAttrs.xperiod, yperiod: heatmapAttrs.yperiod, xperiod0: scatterAttrs.xperiod0, yperiod0: scatterAttrs.yperiod0, xperiodalignment: heatmapAttrs.xperiodalignment, yperiodalignment: heatmapAttrs.yperiodalignment, text: heatmapAttrs.text, hovertext: heatmapAttrs.hovertext, transpose: heatmapAttrs.transpose, xtype: heatmapAttrs.xtype, ytype: heatmapAttrs.ytype, xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), zhoverformat: axisHoverFormat('z', 1), hovertemplate: heatmapAttrs.hovertemplate, texttemplate: extendFlat({}, heatmapAttrs.texttemplate, { }), textfont: extendFlat({}, heatmapAttrs.textfont, { }), hoverongaps: heatmapAttrs.hoverongaps, connectgaps: extendFlat({}, heatmapAttrs.connectgaps, { }), fillcolor: { valType: 'color', editType: 'calc', }, autocontour: { valType: 'boolean', dflt: true, editType: 'calc', impliedEdits: { 'contours.start': undefined, 'contours.end': undefined, 'contours.size': undefined }, }, ncontours: { valType: 'integer', dflt: 15, min: 1, editType: 'calc', }, contours: { type: { valType: 'enumerated', values: ['levels', 'constraint'], dflt: 'levels', editType: 'calc', }, start: { valType: 'number', dflt: null, editType: 'plot', impliedEdits: {'^autocontour': false}, }, end: { valType: 'number', dflt: null, editType: 'plot', impliedEdits: {'^autocontour': false}, }, size: { valType: 'number', dflt: null, min: 0, editType: 'plot', impliedEdits: {'^autocontour': false}, }, coloring: { valType: 'enumerated', values: ['fill', 'heatmap', 'lines', 'none'], dflt: 'fill', editType: 'calc', }, showlines: { valType: 'boolean', dflt: true, editType: 'plot', }, showlabels: { valType: 'boolean', dflt: false, editType: 'plot', }, labelfont: fontAttrs({ editType: 'plot', colorEditType: 'style', }), labelformat: { valType: 'string', dflt: '', editType: 'plot', description: descriptionOnlyNumbers('contour label') }, operation: { valType: 'enumerated', values: [].concat(COMPARISON_OPS2).concat(INTERVAL_OPS), dflt: '=', editType: 'calc', }, value: { valType: 'any', dflt: 0, editType: 'calc', }, editType: 'calc', impliedEdits: {'autocontour': false} }, line: { color: extendFlat({}, scatterLineAttrs.color, { editType: 'style+colorbars', }), width: { valType: 'number', min: 0, editType: 'style+colorbars', }, dash: dash, smoothing: extendFlat({}, scatterLineAttrs.smoothing, { }), editType: 'plot' } }, colorScaleAttrs('', { cLetter: 'z', autoColorDflt: false, editTypeOverride: 'calc' }) ); },{"../../components/colorscale/attributes":164,"../../components/drawing/attributes":178,"../../constants/filter_ops":265,"../../lib/extend":281,"../../plots/cartesian/axis_format_attributes":337,"../../plots/font_attributes":365,"../heatmap/attributes":439,"../scatter/attributes":500}],418:[function(_dereq_,module,exports){ 'use strict'; var Colorscale = _dereq_('../../components/colorscale'); var heatmapCalc = _dereq_('../heatmap/calc'); var setContours = _dereq_('./set_contours'); var endPlus = _dereq_('./end_plus'); // most is the same as heatmap calc, then adjust it // though a few things inside heatmap calc still look for // contour maps, because the makeBoundArray calls are too entangled module.exports = function calc(gd, trace) { var cd = heatmapCalc(gd, trace); var zOut = cd[0].z; setContours(trace, zOut); var contours = trace.contours; var cOpts = Colorscale.extractOpts(trace); var cVals; if(contours.coloring === 'heatmap' && cOpts.auto && trace.autocontour === false) { var start = contours.start; var end = endPlus(contours); var cs = contours.size || 1; var nc = Math.floor((end - start) / cs) + 1; if(!isFinite(cs)) { cs = 1; nc = 1; } var min0 = start - cs / 2; var max0 = min0 + nc * cs; cVals = [min0, max0]; } else { cVals = zOut; } Colorscale.calc(gd, trace, {vals: cVals, cLetter: 'z'}); return cd; }; },{"../../components/colorscale":169,"../heatmap/calc":440,"./end_plus":428,"./set_contours":436}],419:[function(_dereq_,module,exports){ 'use strict'; module.exports = function(pathinfo, contours) { var pi0 = pathinfo[0]; var z = pi0.z; var i; switch(contours.type) { case 'levels': // Why (just) use z[0][0] and z[0][1]? // // N.B. using boundaryMin instead of edgeVal2 here makes the // `contour_scatter` mock fail var edgeVal2 = Math.min(z[0][0], z[0][1]); for(i = 0; i < pathinfo.length; i++) { var pi = pathinfo[i]; pi.prefixBoundary = !pi.edgepaths.length && (edgeVal2 > pi.level || pi.starts.length && edgeVal2 === pi.level); } break; case 'constraint': // after convertToConstraints, pathinfo has length=0 pi0.prefixBoundary = false; // joinAllPaths does enough already when edgepaths are present if(pi0.edgepaths.length) return; var na = pi0.x.length; var nb = pi0.y.length; var boundaryMax = -Infinity; var boundaryMin = Infinity; for(i = 0; i < nb; i++) { boundaryMin = Math.min(boundaryMin, z[i][0]); boundaryMin = Math.min(boundaryMin, z[i][na - 1]); boundaryMax = Math.max(boundaryMax, z[i][0]); boundaryMax = Math.max(boundaryMax, z[i][na - 1]); } for(i = 1; i < na - 1; i++) { boundaryMin = Math.min(boundaryMin, z[0][i]); boundaryMin = Math.min(boundaryMin, z[nb - 1][i]); boundaryMax = Math.max(boundaryMax, z[0][i]); boundaryMax = Math.max(boundaryMax, z[nb - 1][i]); } var contoursValue = contours.value; var v1, v2; switch(contours._operation) { case '>': if(contoursValue > boundaryMax) { pi0.prefixBoundary = true; } break; case '<': if(contoursValue < boundaryMin || (pi0.starts.length && contoursValue === boundaryMin)) { pi0.prefixBoundary = true; } break; case '[]': v1 = Math.min(contoursValue[0], contoursValue[1]); v2 = Math.max(contoursValue[0], contoursValue[1]); if(v2 < boundaryMin || v1 > boundaryMax || (pi0.starts.length && v2 === boundaryMin)) { pi0.prefixBoundary = true; } break; case '][': v1 = Math.min(contoursValue[0], contoursValue[1]); v2 = Math.max(contoursValue[0], contoursValue[1]); if(v1 < boundaryMin && v2 > boundaryMax) { pi0.prefixBoundary = true; } break; } break; } }; },{}],420:[function(_dereq_,module,exports){ 'use strict'; var Colorscale = _dereq_('../../components/colorscale'); var makeColorMap = _dereq_('./make_color_map'); var endPlus = _dereq_('./end_plus'); function calc(gd, trace, opts) { var contours = trace.contours; var line = trace.line; var cs = contours.size || 1; var coloring = contours.coloring; var colorMap = makeColorMap(trace, {isColorbar: true}); if(coloring === 'heatmap') { var cOpts = Colorscale.extractOpts(trace); opts._fillgradient = cOpts.reversescale ? Colorscale.flipScale(cOpts.colorscale) : cOpts.colorscale; opts._zrange = [cOpts.min, cOpts.max]; } else if(coloring === 'fill') { opts._fillcolor = colorMap; } opts._line = { color: coloring === 'lines' ? colorMap : line.color, width: contours.showlines !== false ? line.width : 0, dash: line.dash }; opts._levels = { start: contours.start, end: endPlus(contours), size: cs }; } module.exports = { min: 'zmin', max: 'zmax', calc: calc }; },{"../../components/colorscale":169,"./end_plus":428,"./make_color_map":433}],421:[function(_dereq_,module,exports){ 'use strict'; module.exports = { // some constants to help with marching squares algorithm // where does the path start for each index? BOTTOMSTART: [1, 9, 13, 104, 713], TOPSTART: [4, 6, 7, 104, 713], LEFTSTART: [8, 12, 14, 208, 1114], RIGHTSTART: [2, 3, 11, 208, 1114], // which way [dx,dy] do we leave a given index? // saddles are already disambiguated NEWDELTA: [ null, [-1, 0], [0, -1], [-1, 0], [1, 0], null, [0, -1], [-1, 0], [0, 1], [0, 1], null, [0, 1], [1, 0], [1, 0], [0, -1] ], // for each saddle, the first index here is used // for dx||dy<0, the second for dx||dy>0 CHOOSESADDLE: { 104: [4, 1], 208: [2, 8], 713: [7, 13], 1114: [11, 14] }, // after one index has been used for a saddle, which do we // substitute to be used up later? SADDLEREMAINDER: {1: 4, 2: 8, 4: 1, 7: 13, 8: 2, 11: 14, 13: 7, 14: 11}, // length of a contour, as a multiple of the plot area diagonal, per label LABELDISTANCE: 2, // number of contour levels after which we start increasing the number of // labels we draw. Many contours means they will generally be close // together, so it will be harder to follow a long way to find a label LABELINCREASE: 10, // minimum length of a contour line, as a multiple of the label length, // at which we draw *any* labels LABELMIN: 3, // max number of labels to draw on a single contour path, no matter how long LABELMAX: 10, // constants for the label position cost function LABELOPTIMIZER: { // weight given to edge proximity EDGECOST: 1, // weight given to the angle off horizontal ANGLECOST: 1, // weight given to distance from already-placed labels NEIGHBORCOST: 5, // cost multiplier for labels on the same level SAMELEVELFACTOR: 10, // minimum distance (as a multiple of the label length) // for labels on the same level SAMELEVELDISTANCE: 5, // maximum cost before we won't even place the label MAXCOST: 100, // number of evenly spaced points to look at in the first // iteration of the search INITIALSEARCHPOINTS: 10, // number of binary search iterations after the initial wide search ITERATIONS: 5 } }; },{}],422:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var handleLabelDefaults = _dereq_('./label_defaults'); var Color = _dereq_('../../components/color'); var addOpacity = Color.addOpacity; var opacity = Color.opacity; var filterOps = _dereq_('../../constants/filter_ops'); var CONSTRAINT_REDUCTION = filterOps.CONSTRAINT_REDUCTION; var COMPARISON_OPS2 = filterOps.COMPARISON_OPS2; module.exports = function handleConstraintDefaults(traceIn, traceOut, coerce, layout, defaultColor, opts) { var contours = traceOut.contours; var showLines, lineColor, fillColor; var operation = coerce('contours.operation'); contours._operation = CONSTRAINT_REDUCTION[operation]; handleConstraintValueDefaults(coerce, contours); if(operation === '=') { showLines = contours.showlines = true; } else { showLines = coerce('contours.showlines'); fillColor = coerce('fillcolor', addOpacity( (traceIn.line || {}).color || defaultColor, 0.5 )); } if(showLines) { var lineDfltColor = fillColor && opacity(fillColor) ? addOpacity(traceOut.fillcolor, 1) : defaultColor; lineColor = coerce('line.color', lineDfltColor); coerce('line.width', 2); coerce('line.dash'); } coerce('line.smoothing'); handleLabelDefaults(coerce, layout, lineColor, opts); }; function handleConstraintValueDefaults(coerce, contours) { var zvalue; if(COMPARISON_OPS2.indexOf(contours.operation) === -1) { // Requires an array of two numbers: coerce('contours.value', [0, 1]); if(!Array.isArray(contours.value)) { if(isNumeric(contours.value)) { zvalue = parseFloat(contours.value); contours.value = [zvalue, zvalue + 1]; } } else if(contours.value.length > 2) { contours.value = contours.value.slice(2); } else if(contours.length === 0) { contours.value = [0, 1]; } else if(contours.length < 2) { zvalue = parseFloat(contours.value[0]); contours.value = [zvalue, zvalue + 1]; } else { contours.value = [ parseFloat(contours.value[0]), parseFloat(contours.value[1]) ]; } } else { // Requires a single scalar: coerce('contours.value', 0); if(!isNumeric(contours.value)) { if(Array.isArray(contours.value)) { contours.value = parseFloat(contours.value[0]); } else { contours.value = 0; } } } } },{"../../components/color":157,"../../constants/filter_ops":265,"./label_defaults":432,"fast-isnumeric":33}],423:[function(_dereq_,module,exports){ 'use strict'; var filterOps = _dereq_('../../constants/filter_ops'); var isNumeric = _dereq_('fast-isnumeric'); // This syntax conforms to the existing filter transform syntax, but we don't care // about open vs. closed intervals for simply drawing contours constraints: module.exports = { '[]': makeRangeSettings('[]'), '][': makeRangeSettings(']['), '>': makeInequalitySettings('>'), '<': makeInequalitySettings('<'), '=': makeInequalitySettings('=') }; // This does not in any way shape or form support calendars. It's adapted from // transforms/filter.js. function coerceValue(operation, value) { var hasArrayValue = Array.isArray(value); var coercedValue; function coerce(value) { return isNumeric(value) ? (+value) : null; } if(filterOps.COMPARISON_OPS2.indexOf(operation) !== -1) { coercedValue = hasArrayValue ? coerce(value[0]) : coerce(value); } else if(filterOps.INTERVAL_OPS.indexOf(operation) !== -1) { coercedValue = hasArrayValue ? [coerce(value[0]), coerce(value[1])] : [coerce(value), coerce(value)]; } else if(filterOps.SET_OPS.indexOf(operation) !== -1) { coercedValue = hasArrayValue ? value.map(coerce) : [coerce(value)]; } return coercedValue; } // Returns a parabola scaled so that the min/max is either +/- 1 and zero at the two values // provided. The data is mapped by this function when constructing intervals so that it's // very easy to construct contours as normal. function makeRangeSettings(operation) { return function(value) { value = coerceValue(operation, value); // Ensure proper ordering: var min = Math.min(value[0], value[1]); var max = Math.max(value[0], value[1]); return { start: min, end: max, size: max - min }; }; } function makeInequalitySettings(operation) { return function(value) { value = coerceValue(operation, value); return { start: value, end: Infinity, size: Infinity }; }; } },{"../../constants/filter_ops":265,"fast-isnumeric":33}],424:[function(_dereq_,module,exports){ 'use strict'; module.exports = function handleContourDefaults(traceIn, traceOut, coerce, coerce2) { var contourStart = coerce2('contours.start'); var contourEnd = coerce2('contours.end'); var missingEnd = (contourStart === false) || (contourEnd === false); // normally we only need size if autocontour is off. But contour.calc // pushes its calculated contour size back to the input trace, so for // things like restyle that can call supplyDefaults without calc // after the initial draw, we can just reuse the previous calculation var contourSize = coerce('contours.size'); var autoContour; if(missingEnd) autoContour = traceOut.autocontour = true; else autoContour = coerce('autocontour', false); if(autoContour || !contourSize) coerce('ncontours'); }; },{}],425:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); // The contour extraction is great, except it totally fails for constraints because we // need weird range loops and flipped contours instead of the usual format. This function // does some weird manipulation of the extracted pathinfo data such that it magically // draws contours correctly *as* constraints. // // ** I do not know which "weird range loops" the comment above is referring to. module.exports = function(pathinfo, operation) { var i, pi0, pi1; var op0 = function(arr) { return arr.reverse(); }; var op1 = function(arr) { return arr; }; switch(operation) { case '=': case '<': return pathinfo; case '>': if(pathinfo.length !== 1) { Lib.warn('Contour data invalid for the specified inequality operation.'); } // In this case there should be exactly one contour levels in pathinfo. // We flip all of the data. This will draw the contour as closed. pi0 = pathinfo[0]; for(i = 0; i < pi0.edgepaths.length; i++) { pi0.edgepaths[i] = op0(pi0.edgepaths[i]); } for(i = 0; i < pi0.paths.length; i++) { pi0.paths[i] = op0(pi0.paths[i]); } for(i = 0; i < pi0.starts.length; i++) { pi0.starts[i] = op0(pi0.starts[i]); } return pathinfo; case '][': var tmp = op0; op0 = op1; op1 = tmp; // It's a nice rule, except this definitely *is* what's intended here. /* eslint-disable: no-fallthrough */ case '[]': /* eslint-enable: no-fallthrough */ if(pathinfo.length !== 2) { Lib.warn('Contour data invalid for the specified inequality range operation.'); } // In this case there should be exactly two contour levels in pathinfo. // - We concatenate the info into one pathinfo. // - We must also flip all of the data in the `[]` case. // This will draw the contours as closed. pi0 = copyPathinfo(pathinfo[0]); pi1 = copyPathinfo(pathinfo[1]); for(i = 0; i < pi0.edgepaths.length; i++) { pi0.edgepaths[i] = op0(pi0.edgepaths[i]); } for(i = 0; i < pi0.paths.length; i++) { pi0.paths[i] = op0(pi0.paths[i]); } for(i = 0; i < pi0.starts.length; i++) { pi0.starts[i] = op0(pi0.starts[i]); } while(pi1.edgepaths.length) { pi0.edgepaths.push(op1(pi1.edgepaths.shift())); } while(pi1.paths.length) { pi0.paths.push(op1(pi1.paths.shift())); } while(pi1.starts.length) { pi0.starts.push(op1(pi1.starts.shift())); } return [pi0]; } }; function copyPathinfo(pi) { return Lib.extendFlat({}, pi, { edgepaths: Lib.extendDeep([], pi.edgepaths), paths: Lib.extendDeep([], pi.paths), starts: Lib.extendDeep([], pi.starts) }); } },{"../../lib":287}],426:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var handleXYZDefaults = _dereq_('../heatmap/xyz_defaults'); var handlePeriodDefaults = _dereq_('../scatter/period_defaults'); var handleConstraintDefaults = _dereq_('./constraint_defaults'); var handleContoursDefaults = _dereq_('./contours_defaults'); var handleStyleDefaults = _dereq_('./style_defaults'); var handleHeatmapLabelDefaults = _dereq_('../heatmap/label_defaults'); var attributes = _dereq_('./attributes'); module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } function coerce2(attr) { return Lib.coerce2(traceIn, traceOut, attributes, attr); } var len = handleXYZDefaults(traceIn, traceOut, coerce, layout); if(!len) { traceOut.visible = false; return; } handlePeriodDefaults(traceIn, traceOut, layout, coerce); coerce('xhoverformat'); coerce('yhoverformat'); coerce('text'); coerce('hovertext'); coerce('hoverongaps'); coerce('hovertemplate'); var isConstraint = (coerce('contours.type') === 'constraint'); coerce('connectgaps', Lib.isArray1D(traceOut.z)); if(isConstraint) { handleConstraintDefaults(traceIn, traceOut, coerce, layout, defaultColor); } else { handleContoursDefaults(traceIn, traceOut, coerce, coerce2); handleStyleDefaults(traceIn, traceOut, coerce, layout); } if( traceOut.contours && traceOut.contours.coloring === 'heatmap' ) { handleHeatmapLabelDefaults(coerce, layout); } }; },{"../../lib":287,"../heatmap/label_defaults":449,"../heatmap/xyz_defaults":454,"../scatter/period_defaults":520,"./attributes":417,"./constraint_defaults":422,"./contours_defaults":424,"./style_defaults":438}],427:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var constraintMapping = _dereq_('./constraint_mapping'); var endPlus = _dereq_('./end_plus'); module.exports = function emptyPathinfo(contours, plotinfo, cd0) { var contoursFinal = (contours.type === 'constraint') ? constraintMapping[contours._operation](contours.value) : contours; var cs = contoursFinal.size; var pathinfo = []; var end = endPlus(contoursFinal); var carpet = cd0.trace._carpetTrace; var basePathinfo = carpet ? { // store axes so we can convert to px xaxis: carpet.aaxis, yaxis: carpet.baxis, // full data arrays to use for interpolation x: cd0.a, y: cd0.b } : { xaxis: plotinfo.xaxis, yaxis: plotinfo.yaxis, x: cd0.x, y: cd0.y }; for(var ci = contoursFinal.start; ci < end; ci += cs) { pathinfo.push(Lib.extendFlat({ level: ci, // all the cells with nontrivial marching index crossings: {}, // starting points on the edges of the lattice for each contour starts: [], // all unclosed paths (may have less items than starts, // if a path is closed by rounding) edgepaths: [], // all closed paths paths: [], z: cd0.z, smoothing: cd0.trace.line.smoothing }, basePathinfo)); if(pathinfo.length > 1000) { Lib.warn('Too many contours, clipping at 1000', contours); break; } } return pathinfo; }; },{"../../lib":287,"./constraint_mapping":423,"./end_plus":428}],428:[function(_dereq_,module,exports){ 'use strict'; /* * tiny helper to move the end of the contours a little to prevent * losing the last contour to rounding errors */ module.exports = function endPlus(contours) { return contours.end + contours.size / 1e6; }; },{}],429:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var constants = _dereq_('./constants'); module.exports = function findAllPaths(pathinfo, xtol, ytol) { var cnt, startLoc, i, pi, j; // Default just passes these values through as they were before: xtol = xtol || 0.01; ytol = ytol || 0.01; for(i = 0; i < pathinfo.length; i++) { pi = pathinfo[i]; for(j = 0; j < pi.starts.length; j++) { startLoc = pi.starts[j]; makePath(pi, startLoc, 'edge', xtol, ytol); } cnt = 0; while(Object.keys(pi.crossings).length && cnt < 10000) { cnt++; startLoc = Object.keys(pi.crossings)[0].split(',').map(Number); makePath(pi, startLoc, undefined, xtol, ytol); } if(cnt === 10000) Lib.log('Infinite loop in contour?'); } }; function equalPts(pt1, pt2, xtol, ytol) { return Math.abs(pt1[0] - pt2[0]) < xtol && Math.abs(pt1[1] - pt2[1]) < ytol; } // distance in index units - uses the 3rd and 4th items in points function ptDist(pt1, pt2) { var dx = pt1[2] - pt2[2]; var dy = pt1[3] - pt2[3]; return Math.sqrt(dx * dx + dy * dy); } function makePath(pi, loc, edgeflag, xtol, ytol) { var locStr = loc.join(','); var mi = pi.crossings[locStr]; var marchStep = getStartStep(mi, edgeflag, loc); // start by going backward a half step and finding the crossing point var pts = [getInterpPx(pi, loc, [-marchStep[0], -marchStep[1]])]; var m = pi.z.length; var n = pi.z[0].length; var startLoc = loc.slice(); var startStep = marchStep.slice(); var cnt; // now follow the path for(cnt = 0; cnt < 10000; cnt++) { // just to avoid infinite loops if(mi > 20) { mi = constants.CHOOSESADDLE[mi][(marchStep[0] || marchStep[1]) < 0 ? 0 : 1]; pi.crossings[locStr] = constants.SADDLEREMAINDER[mi]; } else { delete pi.crossings[locStr]; } marchStep = constants.NEWDELTA[mi]; if(!marchStep) { Lib.log('Found bad marching index:', mi, loc, pi.level); break; } // find the crossing a half step forward, and then take the full step pts.push(getInterpPx(pi, loc, marchStep)); loc[0] += marchStep[0]; loc[1] += marchStep[1]; locStr = loc.join(','); // don't include the same point multiple times if(equalPts(pts[pts.length - 1], pts[pts.length - 2], xtol, ytol)) pts.pop(); var atEdge = (marchStep[0] && (loc[0] < 0 || loc[0] > n - 2)) || (marchStep[1] && (loc[1] < 0 || loc[1] > m - 2)); var closedLoop = loc[0] === startLoc[0] && loc[1] === startLoc[1] && marchStep[0] === startStep[0] && marchStep[1] === startStep[1]; // have we completed a loop, or reached an edge? if((closedLoop) || (edgeflag && atEdge)) break; mi = pi.crossings[locStr]; } if(cnt === 10000) { Lib.log('Infinite loop in contour?'); } var closedpath = equalPts(pts[0], pts[pts.length - 1], xtol, ytol); var totaldist = 0; var distThresholdFactor = 0.2 * pi.smoothing; var alldists = []; var cropstart = 0; var distgroup, cnt2, cnt3, newpt, ptcnt, ptavg, thisdist, i, j, edgepathi, edgepathj; /* * Check for points that are too close together (<1/5 the average dist * *in grid index units* (important for log axes and nonuniform grids), * less if less smoothed) and just take the center (or avg of center 2). * This cuts down on funny behavior when a point is very close to a * contour level. */ for(cnt = 1; cnt < pts.length; cnt++) { thisdist = ptDist(pts[cnt], pts[cnt - 1]); totaldist += thisdist; alldists.push(thisdist); } var distThreshold = totaldist / alldists.length * distThresholdFactor; function getpt(i) { return pts[i % pts.length]; } for(cnt = pts.length - 2; cnt >= cropstart; cnt--) { distgroup = alldists[cnt]; if(distgroup < distThreshold) { cnt3 = 0; for(cnt2 = cnt - 1; cnt2 >= cropstart; cnt2--) { if(distgroup + alldists[cnt2] < distThreshold) { distgroup += alldists[cnt2]; } else break; } // closed path with close points wrapping around the boundary? if(closedpath && cnt === pts.length - 2) { for(cnt3 = 0; cnt3 < cnt2; cnt3++) { if(distgroup + alldists[cnt3] < distThreshold) { distgroup += alldists[cnt3]; } else break; } } ptcnt = cnt - cnt2 + cnt3 + 1; ptavg = Math.floor((cnt + cnt2 + cnt3 + 2) / 2); // either endpoint included: keep the endpoint if(!closedpath && cnt === pts.length - 2) newpt = pts[pts.length - 1]; else if(!closedpath && cnt2 === -1) newpt = pts[0]; // odd # of points - just take the central one else if(ptcnt % 2) newpt = getpt(ptavg); // even # of pts - average central two else { newpt = [(getpt(ptavg)[0] + getpt(ptavg + 1)[0]) / 2, (getpt(ptavg)[1] + getpt(ptavg + 1)[1]) / 2]; } pts.splice(cnt2 + 1, cnt - cnt2 + 1, newpt); cnt = cnt2 + 1; if(cnt3) cropstart = cnt3; if(closedpath) { if(cnt === pts.length - 2) pts[cnt3] = pts[pts.length - 1]; else if(cnt === 0) pts[pts.length - 1] = pts[0]; } } } pts.splice(0, cropstart); // done with the index parts - remove them so path generation works right // because it depends on only having [xpx, ypx] for(cnt = 0; cnt < pts.length; cnt++) pts[cnt].length = 2; // don't return single-point paths (ie all points were the same // so they got deleted?) if(pts.length < 2) return; else if(closedpath) { pts.pop(); pi.paths.push(pts); } else { if(!edgeflag) { Lib.log('Unclosed interior contour?', pi.level, startLoc.join(','), pts.join('L')); } // edge path - does it start where an existing edge path ends, or vice versa? var merged = false; for(i = 0; i < pi.edgepaths.length; i++) { edgepathi = pi.edgepaths[i]; if(!merged && equalPts(edgepathi[0], pts[pts.length - 1], xtol, ytol)) { pts.pop(); merged = true; // now does it ALSO meet the end of another (or the same) path? var doublemerged = false; for(j = 0; j < pi.edgepaths.length; j++) { edgepathj = pi.edgepaths[j]; if(equalPts(edgepathj[edgepathj.length - 1], pts[0], xtol, ytol)) { doublemerged = true; pts.shift(); pi.edgepaths.splice(i, 1); if(j === i) { // the path is now closed pi.paths.push(pts.concat(edgepathj)); } else { if(j > i) j--; pi.edgepaths[j] = edgepathj.concat(pts, edgepathi); } break; } } if(!doublemerged) { pi.edgepaths[i] = pts.concat(edgepathi); } } } for(i = 0; i < pi.edgepaths.length; i++) { if(merged) break; edgepathi = pi.edgepaths[i]; if(equalPts(edgepathi[edgepathi.length - 1], pts[0], xtol, ytol)) { pts.shift(); pi.edgepaths[i] = edgepathi.concat(pts); merged = true; } } if(!merged) pi.edgepaths.push(pts); } } // special function to get the marching step of the // first point in the path (leading to loc) function getStartStep(mi, edgeflag, loc) { var dx = 0; var dy = 0; if(mi > 20 && edgeflag) { // these saddles start at +/- x if(mi === 208 || mi === 1114) { // if we're starting at the left side, we must be going right dx = loc[0] === 0 ? 1 : -1; } else { // if we're starting at the bottom, we must be going up dy = loc[1] === 0 ? 1 : -1; } } else if(constants.BOTTOMSTART.indexOf(mi) !== -1) dy = 1; else if(constants.LEFTSTART.indexOf(mi) !== -1) dx = 1; else if(constants.TOPSTART.indexOf(mi) !== -1) dy = -1; else dx = -1; return [dx, dy]; } /* * Find the pixel coordinates of a particular crossing * * @param {object} pi: the pathinfo object at this level * @param {array} loc: the grid index [x, y] of the crossing * @param {array} step: the direction [dx, dy] we're moving on the grid * * @return {array} [xpx, ypx, xi, yi]: the first two are the pixel location, * the next two are the interpolated grid indices, which we use for * distance calculations to delete points that are too close together. * This is important when the grid is nonuniform (and most dramatically when * we're on log axes and include invalid (0 or negative) values. * It's crucial to delete these extra two before turning an array of these * points into a path, because those routines require length-2 points. */ function getInterpPx(pi, loc, step) { var locx = loc[0] + Math.max(step[0], 0); var locy = loc[1] + Math.max(step[1], 0); var zxy = pi.z[locy][locx]; var xa = pi.xaxis; var ya = pi.yaxis; // Interpolate in linear space, then convert to pixel if(step[1]) { var dx = (pi.level - zxy) / (pi.z[locy][locx + 1] - zxy); // Interpolate, but protect against NaN linear values for log axis (dx will equal 1 or 0) var dxl = (dx !== 1 ? (1 - dx) * xa.c2l(pi.x[locx]) : 0) + (dx !== 0 ? dx * xa.c2l(pi.x[locx + 1]) : 0); return [xa.c2p(xa.l2c(dxl), true), ya.c2p(pi.y[locy], true), locx + dx, locy]; } else { var dy = (pi.level - zxy) / (pi.z[locy + 1][locx] - zxy); var dyl = (dy !== 1 ? (1 - dy) * ya.c2l(pi.y[locy]) : 0) + (dy !== 0 ? dy * ya.c2l(pi.y[locy + 1]) : 0); return [xa.c2p(pi.x[locx], true), ya.c2p(ya.l2c(dyl), true), locx, locy + dy]; } } },{"../../lib":287,"./constants":421}],430:[function(_dereq_,module,exports){ 'use strict'; var Color = _dereq_('../../components/color'); var heatmapHoverPoints = _dereq_('../heatmap/hover'); module.exports = function hoverPoints(pointData, xval, yval, hovermode, opts) { if(!opts) opts = {}; opts.isContour = true; var hoverData = heatmapHoverPoints(pointData, xval, yval, hovermode, opts); if(hoverData) { hoverData.forEach(function(hoverPt) { var trace = hoverPt.trace; if(trace.contours.type === 'constraint') { if(trace.fillcolor && Color.opacity(trace.fillcolor)) { hoverPt.color = Color.addOpacity(trace.fillcolor, 1); } else if(trace.contours.showlines && Color.opacity(trace.line.color)) { hoverPt.color = Color.addOpacity(trace.line.color, 1); } } }); } return hoverData; }; },{"../../components/color":157,"../heatmap/hover":446}],431:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults'), calc: _dereq_('./calc'), plot: _dereq_('./plot').plot, style: _dereq_('./style'), colorbar: _dereq_('./colorbar'), hoverPoints: _dereq_('./hover'), moduleType: 'trace', name: 'contour', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['cartesian', 'svg', '2dMap', 'contour', 'showLegend'], meta: { } }; },{"../../plots/cartesian":348,"./attributes":417,"./calc":418,"./colorbar":420,"./defaults":426,"./hover":430,"./plot":435,"./style":437}],432:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); module.exports = function handleLabelDefaults(coerce, layout, lineColor, opts) { if(!opts) opts = {}; var showLabels = coerce('contours.showlabels'); if(showLabels) { var globalFont = layout.font; Lib.coerceFont(coerce, 'contours.labelfont', { family: globalFont.family, size: globalFont.size, color: lineColor }); coerce('contours.labelformat'); } if(opts.hasHover !== false) coerce('zhoverformat'); }; },{"../../lib":287}],433:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Colorscale = _dereq_('../../components/colorscale'); var endPlus = _dereq_('./end_plus'); module.exports = function makeColorMap(trace) { var contours = trace.contours; var start = contours.start; var end = endPlus(contours); var cs = contours.size || 1; var nc = Math.floor((end - start) / cs) + 1; var extra = contours.coloring === 'lines' ? 0 : 1; var cOpts = Colorscale.extractOpts(trace); if(!isFinite(cs)) { cs = 1; nc = 1; } var scl = cOpts.reversescale ? Colorscale.flipScale(cOpts.colorscale) : cOpts.colorscale; var len = scl.length; var domain = new Array(len); var range = new Array(len); var si, i; if(contours.coloring === 'heatmap') { var zmin0 = cOpts.min; var zmax0 = cOpts.max; for(i = 0; i < len; i++) { si = scl[i]; domain[i] = si[0] * (zmax0 - zmin0) + zmin0; range[i] = si[1]; } // do the contours extend beyond the colorscale? // if so, extend the colorscale with constants var zRange = d3.extent([ zmin0, zmax0, contours.start, contours.start + cs * (nc - 1) ]); var zmin = zRange[zmin0 < zmax0 ? 0 : 1]; var zmax = zRange[zmin0 < zmax0 ? 1 : 0]; if(zmin !== zmin0) { domain.splice(0, 0, zmin); range.splice(0, 0, range[0]); } if(zmax !== zmax0) { domain.push(zmax); range.push(range[range.length - 1]); } } else { for(i = 0; i < len; i++) { si = scl[i]; domain[i] = (si[0] * (nc + extra - 1) - (extra / 2)) * cs + start; range[i] = si[1]; } } return Colorscale.makeColorScaleFunc( {domain: domain, range: range}, {noNumericCheck: true} ); }; },{"../../components/colorscale":169,"./end_plus":428,"@plotly/d3":20}],434:[function(_dereq_,module,exports){ 'use strict'; var constants = _dereq_('./constants'); // Calculate all the marching indices, for ALL levels at once. // since we want to be exhaustive we'll check for contour crossings // at every intersection, rather than just following a path // TODO: shorten the inner loop to only the relevant levels module.exports = function makeCrossings(pathinfo) { var z = pathinfo[0].z; var m = z.length; var n = z[0].length; // we already made sure z isn't ragged in interp2d var twoWide = m === 2 || n === 2; var xi; var yi; var startIndices; var ystartIndices; var label; var corners; var mi; var pi; var i; for(yi = 0; yi < m - 1; yi++) { ystartIndices = []; if(yi === 0) ystartIndices = ystartIndices.concat(constants.BOTTOMSTART); if(yi === m - 2) ystartIndices = ystartIndices.concat(constants.TOPSTART); for(xi = 0; xi < n - 1; xi++) { startIndices = ystartIndices.slice(); if(xi === 0) startIndices = startIndices.concat(constants.LEFTSTART); if(xi === n - 2) startIndices = startIndices.concat(constants.RIGHTSTART); label = xi + ',' + yi; corners = [[z[yi][xi], z[yi][xi + 1]], [z[yi + 1][xi], z[yi + 1][xi + 1]]]; for(i = 0; i < pathinfo.length; i++) { pi = pathinfo[i]; mi = getMarchingIndex(pi.level, corners); if(!mi) continue; pi.crossings[label] = mi; if(startIndices.indexOf(mi) !== -1) { pi.starts.push([xi, yi]); if(twoWide && startIndices.indexOf(mi, startIndices.indexOf(mi) + 1) !== -1) { // the same square has starts from opposite sides // it's not possible to have starts on opposite edges // of a corner, only a start and an end... // but if the array is only two points wide (either way) // you can have starts on opposite sides. pi.starts.push([xi, yi]); } } } } } }; // modified marching squares algorithm, // so we disambiguate the saddle points from the start // and we ignore the cases with no crossings // the index I'm using is based on: // http://en.wikipedia.org/wiki/Marching_squares // except that the saddles bifurcate and I represent them // as the decimal combination of the two appropriate // non-saddle indices function getMarchingIndex(val, corners) { var mi = (corners[0][0] > val ? 0 : 1) + (corners[0][1] > val ? 0 : 2) + (corners[1][1] > val ? 0 : 4) + (corners[1][0] > val ? 0 : 8); if(mi === 5 || mi === 10) { var avg = (corners[0][0] + corners[0][1] + corners[1][0] + corners[1][1]) / 4; // two peaks with a big valley if(val > avg) return (mi === 5) ? 713 : 1114; // two valleys with a big ridge return (mi === 5) ? 104 : 208; } return (mi === 15) ? 0 : mi; } },{"./constants":421}],435:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); var Drawing = _dereq_('../../components/drawing'); var Colorscale = _dereq_('../../components/colorscale'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var Axes = _dereq_('../../plots/cartesian/axes'); var setConvert = _dereq_('../../plots/cartesian/set_convert'); var heatmapPlot = _dereq_('../heatmap/plot'); var makeCrossings = _dereq_('./make_crossings'); var findAllPaths = _dereq_('./find_all_paths'); var emptyPathinfo = _dereq_('./empty_pathinfo'); var convertToConstraints = _dereq_('./convert_to_constraints'); var closeBoundaries = _dereq_('./close_boundaries'); var constants = _dereq_('./constants'); var costConstants = constants.LABELOPTIMIZER; exports.plot = function plot(gd, plotinfo, cdcontours, contourLayer) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; Lib.makeTraceGroups(contourLayer, cdcontours, 'contour').each(function(cd) { var plotGroup = d3.select(this); var cd0 = cd[0]; var trace = cd0.trace; var x = cd0.x; var y = cd0.y; var contours = trace.contours; var pathinfo = emptyPathinfo(contours, plotinfo, cd0); // use a heatmap to fill - draw it behind the lines var heatmapColoringLayer = Lib.ensureSingle(plotGroup, 'g', 'heatmapcoloring'); var cdheatmaps = []; if(contours.coloring === 'heatmap') { cdheatmaps = [cd]; } heatmapPlot(gd, plotinfo, cdheatmaps, heatmapColoringLayer); makeCrossings(pathinfo); findAllPaths(pathinfo); var leftedge = xa.c2p(x[0], true); var rightedge = xa.c2p(x[x.length - 1], true); var bottomedge = ya.c2p(y[0], true); var topedge = ya.c2p(y[y.length - 1], true); var perimeter = [ [leftedge, topedge], [rightedge, topedge], [rightedge, bottomedge], [leftedge, bottomedge] ]; var fillPathinfo = pathinfo; if(contours.type === 'constraint') { // N.B. this also mutates pathinfo fillPathinfo = convertToConstraints(pathinfo, contours._operation); } // draw everything makeBackground(plotGroup, perimeter, contours); makeFills(plotGroup, fillPathinfo, perimeter, contours); makeLinesAndLabels(plotGroup, pathinfo, gd, cd0, contours); clipGaps(plotGroup, plotinfo, gd, cd0, perimeter); }); }; function makeBackground(plotgroup, perimeter, contours) { var bggroup = Lib.ensureSingle(plotgroup, 'g', 'contourbg'); var bgfill = bggroup.selectAll('path') .data(contours.coloring === 'fill' ? [0] : []); bgfill.enter().append('path'); bgfill.exit().remove(); bgfill .attr('d', 'M' + perimeter.join('L') + 'Z') .style('stroke', 'none'); } function makeFills(plotgroup, pathinfo, perimeter, contours) { var hasFills = contours.coloring === 'fill' || (contours.type === 'constraint' && contours._operation !== '='); var boundaryPath = 'M' + perimeter.join('L') + 'Z'; // fills prefixBoundary in pathinfo items if(hasFills) { closeBoundaries(pathinfo, contours); } var fillgroup = Lib.ensureSingle(plotgroup, 'g', 'contourfill'); var fillitems = fillgroup.selectAll('path').data(hasFills ? pathinfo : []); fillitems.enter().append('path'); fillitems.exit().remove(); fillitems.each(function(pi) { // join all paths for this level together into a single path // first follow clockwise around the perimeter to close any open paths // if the whole perimeter is above this level, start with a path // enclosing the whole thing. With all that, the parity should mean // that we always fill everything above the contour, nothing below var fullpath = (pi.prefixBoundary ? boundaryPath : '') + joinAllPaths(pi, perimeter); if(!fullpath) { d3.select(this).remove(); } else { d3.select(this) .attr('d', fullpath) .style('stroke', 'none'); } }); } function joinAllPaths(pi, perimeter) { var fullpath = ''; var i = 0; var startsleft = pi.edgepaths.map(function(v, i) { return i; }); var newloop = true; var endpt; var newendpt; var cnt; var nexti; var possiblei; var addpath; function istop(pt) { return Math.abs(pt[1] - perimeter[0][1]) < 0.01; } function isbottom(pt) { return Math.abs(pt[1] - perimeter[2][1]) < 0.01; } function isleft(pt) { return Math.abs(pt[0] - perimeter[0][0]) < 0.01; } function isright(pt) { return Math.abs(pt[0] - perimeter[2][0]) < 0.01; } while(startsleft.length) { addpath = Drawing.smoothopen(pi.edgepaths[i], pi.smoothing); fullpath += newloop ? addpath : addpath.replace(/^M/, 'L'); startsleft.splice(startsleft.indexOf(i), 1); endpt = pi.edgepaths[i][pi.edgepaths[i].length - 1]; nexti = -1; // now loop through sides, moving our endpoint until we find a new start for(cnt = 0; cnt < 4; cnt++) { // just to prevent infinite loops if(!endpt) { Lib.log('Missing end?', i, pi); break; } if(istop(endpt) && !isright(endpt)) newendpt = perimeter[1]; // right top else if(isleft(endpt)) newendpt = perimeter[0]; // left top else if(isbottom(endpt)) newendpt = perimeter[3]; // right bottom else if(isright(endpt)) newendpt = perimeter[2]; // left bottom for(possiblei = 0; possiblei < pi.edgepaths.length; possiblei++) { var ptNew = pi.edgepaths[possiblei][0]; // is ptNew on the (horz. or vert.) segment from endpt to newendpt? if(Math.abs(endpt[0] - newendpt[0]) < 0.01) { if(Math.abs(endpt[0] - ptNew[0]) < 0.01 && (ptNew[1] - endpt[1]) * (newendpt[1] - ptNew[1]) >= 0) { newendpt = ptNew; nexti = possiblei; } } else if(Math.abs(endpt[1] - newendpt[1]) < 0.01) { if(Math.abs(endpt[1] - ptNew[1]) < 0.01 && (ptNew[0] - endpt[0]) * (newendpt[0] - ptNew[0]) >= 0) { newendpt = ptNew; nexti = possiblei; } } else { Lib.log('endpt to newendpt is not vert. or horz.', endpt, newendpt, ptNew); } } endpt = newendpt; if(nexti >= 0) break; fullpath += 'L' + newendpt; } if(nexti === pi.edgepaths.length) { Lib.log('unclosed perimeter path'); break; } i = nexti; // if we closed back on a loop we already included, // close it and start a new loop newloop = (startsleft.indexOf(i) === -1); if(newloop) { i = startsleft[0]; fullpath += 'Z'; } } // finally add the interior paths for(i = 0; i < pi.paths.length; i++) { fullpath += Drawing.smoothclosed(pi.paths[i], pi.smoothing); } return fullpath; } function makeLinesAndLabels(plotgroup, pathinfo, gd, cd0, contours) { var lineContainer = Lib.ensureSingle(plotgroup, 'g', 'contourlines'); var showLines = contours.showlines !== false; var showLabels = contours.showlabels; var clipLinesForLabels = showLines && showLabels; // Even if we're not going to show lines, we need to create them // if we're showing labels, because the fill paths include the perimeter // so can't be used to position the labels correctly. // In this case we'll remove the lines after making the labels. var linegroup = exports.createLines(lineContainer, showLines || showLabels, pathinfo); var lineClip = exports.createLineClip(lineContainer, clipLinesForLabels, gd, cd0.trace.uid); var labelGroup = plotgroup.selectAll('g.contourlabels') .data(showLabels ? [0] : []); labelGroup.exit().remove(); labelGroup.enter().append('g') .classed('contourlabels', true); if(showLabels) { var labelClipPathData = []; var labelData = []; // invalidate the getTextLocation cache in case paths changed Lib.clearLocationCache(); var contourFormat = exports.labelFormatter(gd, cd0); var dummyText = Drawing.tester.append('text') .attr('data-notex', 1) .call(Drawing.font, contours.labelfont); var xa = pathinfo[0].xaxis; var ya = pathinfo[0].yaxis; var xLen = xa._length; var yLen = ya._length; var xRng = xa.range; var yRng = ya.range; var xMin = Lib.aggNums(Math.min, null, cd0.x); var xMax = Lib.aggNums(Math.max, null, cd0.x); var yMin = Lib.aggNums(Math.min, null, cd0.y); var yMax = Lib.aggNums(Math.max, null, cd0.y); var x0 = Math.max(xa.c2p(xMin, true), 0); var x1 = Math.min(xa.c2p(xMax, true), xLen); var y0 = Math.max(ya.c2p(yMax, true), 0); var y1 = Math.min(ya.c2p(yMin, true), yLen); // visible bounds of the contour trace (and the midpoints, to // help with cost calculations) var bounds = {}; if(xRng[0] < xRng[1]) { bounds.left = x0; bounds.right = x1; } else { bounds.left = x1; bounds.right = x0; } if(yRng[0] < yRng[1]) { bounds.top = y0; bounds.bottom = y1; } else { bounds.top = y1; bounds.bottom = y0; } bounds.middle = (bounds.top + bounds.bottom) / 2; bounds.center = (bounds.left + bounds.right) / 2; labelClipPathData.push([ [bounds.left, bounds.top], [bounds.right, bounds.top], [bounds.right, bounds.bottom], [bounds.left, bounds.bottom] ]); var plotDiagonal = Math.sqrt(xLen * xLen + yLen * yLen); // the path length to use to scale the number of labels to draw: var normLength = constants.LABELDISTANCE * plotDiagonal / Math.max(1, pathinfo.length / constants.LABELINCREASE); linegroup.each(function(d) { var textOpts = exports.calcTextOpts(d.level, contourFormat, dummyText, gd); d3.select(this).selectAll('path').each(function() { var path = this; var pathBounds = Lib.getVisibleSegment(path, bounds, textOpts.height / 2); if(!pathBounds) return; if(pathBounds.len < (textOpts.width + textOpts.height) * constants.LABELMIN) return; var maxLabels = Math.min(Math.ceil(pathBounds.len / normLength), constants.LABELMAX); for(var i = 0; i < maxLabels; i++) { var loc = exports.findBestTextLocation(path, pathBounds, textOpts, labelData, bounds); if(!loc) break; exports.addLabelData(loc, textOpts, labelData, labelClipPathData); } }); }); dummyText.remove(); exports.drawLabels(labelGroup, labelData, gd, lineClip, clipLinesForLabels ? labelClipPathData : null); } if(showLabels && !showLines) linegroup.remove(); } exports.createLines = function(lineContainer, makeLines, pathinfo) { var smoothing = pathinfo[0].smoothing; var linegroup = lineContainer.selectAll('g.contourlevel') .data(makeLines ? pathinfo : []); linegroup.exit().remove(); linegroup.enter().append('g') .classed('contourlevel', true); if(makeLines) { // pedgepaths / ppaths are used by contourcarpet, for the paths transformed from a/b to x/y // edgepaths / paths are used by contour since it's in x/y from the start var opencontourlines = linegroup.selectAll('path.openline') .data(function(d) { return d.pedgepaths || d.edgepaths; }); opencontourlines.exit().remove(); opencontourlines.enter().append('path') .classed('openline', true); opencontourlines .attr('d', function(d) { return Drawing.smoothopen(d, smoothing); }) .style('stroke-miterlimit', 1) .style('vector-effect', 'non-scaling-stroke'); var closedcontourlines = linegroup.selectAll('path.closedline') .data(function(d) { return d.ppaths || d.paths; }); closedcontourlines.exit().remove(); closedcontourlines.enter().append('path') .classed('closedline', true); closedcontourlines .attr('d', function(d) { return Drawing.smoothclosed(d, smoothing); }) .style('stroke-miterlimit', 1) .style('vector-effect', 'non-scaling-stroke'); } return linegroup; }; exports.createLineClip = function(lineContainer, clipLinesForLabels, gd, uid) { var clips = gd._fullLayout._clips; var clipId = clipLinesForLabels ? ('clipline' + uid) : null; var lineClip = clips.selectAll('#' + clipId) .data(clipLinesForLabels ? [0] : []); lineClip.exit().remove(); lineClip.enter().append('clipPath') .classed('contourlineclip', true) .attr('id', clipId); Drawing.setClipUrl(lineContainer, clipId, gd); return lineClip; }; exports.labelFormatter = function(gd, cd0) { var fullLayout = gd._fullLayout; var trace = cd0.trace; var contours = trace.contours; var formatAxis = { type: 'linear', _id: 'ycontour', showexponent: 'all', exponentformat: 'B' }; if(contours.labelformat) { formatAxis.tickformat = contours.labelformat; setConvert(formatAxis, fullLayout); } else { var cOpts = Colorscale.extractOpts(trace); if(cOpts && cOpts.colorbar && cOpts.colorbar._axis) { formatAxis = cOpts.colorbar._axis; } else { if(contours.type === 'constraint') { var value = contours.value; if(Array.isArray(value)) { formatAxis.range = [value[0], value[value.length - 1]]; } else formatAxis.range = [value, value]; } else { formatAxis.range = [contours.start, contours.end]; formatAxis.nticks = (contours.end - contours.start) / contours.size; } if(formatAxis.range[0] === formatAxis.range[1]) { formatAxis.range[1] += formatAxis.range[0] || 1; } if(!formatAxis.nticks) formatAxis.nticks = 1000; setConvert(formatAxis, fullLayout); Axes.prepTicks(formatAxis); formatAxis._tmin = null; formatAxis._tmax = null; } } return function(v) { return Axes.tickText(formatAxis, v).text; }; }; exports.calcTextOpts = function(level, contourFormat, dummyText, gd) { var text = contourFormat(level); dummyText.text(text) .call(svgTextUtils.convertToTspans, gd); var el = dummyText.node(); var bBox = Drawing.bBox(el, true); return { text: text, width: bBox.width, height: bBox.height, fontSize: +(el.style['font-size'].replace('px', '')), level: level, dy: (bBox.top + bBox.bottom) / 2 }; }; exports.findBestTextLocation = function(path, pathBounds, textOpts, labelData, plotBounds) { var textWidth = textOpts.width; var p0, dp, pMax, pMin, loc; if(pathBounds.isClosed) { dp = pathBounds.len / costConstants.INITIALSEARCHPOINTS; p0 = pathBounds.min + dp / 2; pMax = pathBounds.max; } else { dp = (pathBounds.len - textWidth) / (costConstants.INITIALSEARCHPOINTS + 1); p0 = pathBounds.min + dp + textWidth / 2; pMax = pathBounds.max - (dp + textWidth) / 2; } var cost = Infinity; for(var j = 0; j < costConstants.ITERATIONS; j++) { for(var p = p0; p < pMax; p += dp) { var newLocation = Lib.getTextLocation(path, pathBounds.total, p, textWidth); var newCost = locationCost(newLocation, textOpts, labelData, plotBounds); if(newCost < cost) { cost = newCost; loc = newLocation; pMin = p; } } if(cost > costConstants.MAXCOST * 2) break; // subsequent iterations just look half steps away from the // best we found in the previous iteration if(j) dp /= 2; p0 = pMin - dp / 2; pMax = p0 + dp * 1.5; } if(cost <= costConstants.MAXCOST) return loc; }; /* * locationCost: a cost function for label locations * composed of three kinds of penalty: * - for open paths, being close to the end of the path * - the angle away from horizontal * - being too close to already placed neighbors */ function locationCost(loc, textOpts, labelData, bounds) { var halfWidth = textOpts.width / 2; var halfHeight = textOpts.height / 2; var x = loc.x; var y = loc.y; var theta = loc.theta; var dx = Math.cos(theta) * halfWidth; var dy = Math.sin(theta) * halfWidth; // cost for being near an edge var normX = ((x > bounds.center) ? (bounds.right - x) : (x - bounds.left)) / (dx + Math.abs(Math.sin(theta) * halfHeight)); var normY = ((y > bounds.middle) ? (bounds.bottom - y) : (y - bounds.top)) / (Math.abs(dy) + Math.cos(theta) * halfHeight); if(normX < 1 || normY < 1) return Infinity; var cost = costConstants.EDGECOST * (1 / (normX - 1) + 1 / (normY - 1)); // cost for not being horizontal cost += costConstants.ANGLECOST * theta * theta; // cost for being close to other labels var x1 = x - dx; var y1 = y - dy; var x2 = x + dx; var y2 = y + dy; for(var i = 0; i < labelData.length; i++) { var labeli = labelData[i]; var dxd = Math.cos(labeli.theta) * labeli.width / 2; var dyd = Math.sin(labeli.theta) * labeli.width / 2; var dist = Lib.segmentDistance( x1, y1, x2, y2, labeli.x - dxd, labeli.y - dyd, labeli.x + dxd, labeli.y + dyd ) * 2 / (textOpts.height + labeli.height); var sameLevel = labeli.level === textOpts.level; var distOffset = sameLevel ? costConstants.SAMELEVELDISTANCE : 1; if(dist <= distOffset) return Infinity; var distFactor = costConstants.NEIGHBORCOST * (sameLevel ? costConstants.SAMELEVELFACTOR : 1); cost += distFactor / (dist - distOffset); } return cost; } exports.addLabelData = function(loc, textOpts, labelData, labelClipPathData) { var fontSize = textOpts.fontSize; var w = textOpts.width + fontSize / 3; var h = Math.max(0, textOpts.height - fontSize / 3); var x = loc.x; var y = loc.y; var theta = loc.theta; var sin = Math.sin(theta); var cos = Math.cos(theta); var rotateXY = function(dx, dy) { return [ x + dx * cos - dy * sin, y + dx * sin + dy * cos ]; }; var bBoxPts = [ rotateXY(-w / 2, -h / 2), rotateXY(-w / 2, h / 2), rotateXY(w / 2, h / 2), rotateXY(w / 2, -h / 2) ]; labelData.push({ text: textOpts.text, x: x, y: y, dy: textOpts.dy, theta: theta, level: textOpts.level, width: w, height: h }); labelClipPathData.push(bBoxPts); }; exports.drawLabels = function(labelGroup, labelData, gd, lineClip, labelClipPathData) { var labels = labelGroup.selectAll('text') .data(labelData, function(d) { return d.text + ',' + d.x + ',' + d.y + ',' + d.theta; }); labels.exit().remove(); labels.enter().append('text') .attr({ 'data-notex': 1, 'text-anchor': 'middle' }) .each(function(d) { var x = d.x + Math.sin(d.theta) * d.dy; var y = d.y - Math.cos(d.theta) * d.dy; d3.select(this) .text(d.text) .attr({ x: x, y: y, transform: 'rotate(' + (180 * d.theta / Math.PI) + ' ' + x + ' ' + y + ')' }) .call(svgTextUtils.convertToTspans, gd); }); if(labelClipPathData) { var clipPath = ''; for(var i = 0; i < labelClipPathData.length; i++) { clipPath += 'M' + labelClipPathData[i].join('L') + 'Z'; } var lineClipPath = Lib.ensureSingle(lineClip, 'path', ''); lineClipPath.attr('d', clipPath); } }; function clipGaps(plotGroup, plotinfo, gd, cd0, perimeter) { var trace = cd0.trace; var clips = gd._fullLayout._clips; var clipId = 'clip' + trace.uid; var clipPath = clips.selectAll('#' + clipId) .data(trace.connectgaps ? [] : [0]); clipPath.enter().append('clipPath') .classed('contourclip', true) .attr('id', clipId); clipPath.exit().remove(); if(trace.connectgaps === false) { var clipPathInfo = { // fraction of the way from missing to present point // to draw the boundary. // if you make this 1 (or 1-epsilon) then a point in // a sea of missing data will disappear entirely. level: 0.9, crossings: {}, starts: [], edgepaths: [], paths: [], xaxis: plotinfo.xaxis, yaxis: plotinfo.yaxis, x: cd0.x, y: cd0.y, // 0 = no data, 1 = data z: makeClipMask(cd0), smoothing: 0 }; makeCrossings([clipPathInfo]); findAllPaths([clipPathInfo]); closeBoundaries([clipPathInfo], {type: 'levels'}); var path = Lib.ensureSingle(clipPath, 'path', ''); path.attr('d', (clipPathInfo.prefixBoundary ? 'M' + perimeter.join('L') + 'Z' : '') + joinAllPaths(clipPathInfo, perimeter) ); } else clipId = null; Drawing.setClipUrl(plotGroup, clipId, gd); } function makeClipMask(cd0) { var empties = cd0.trace._emptypoints; var z = []; var m = cd0.z.length; var n = cd0.z[0].length; var i; var row = []; var emptyPoint; for(i = 0; i < n; i++) row.push(1); for(i = 0; i < m; i++) z.push(row.slice()); for(i = 0; i < empties.length; i++) { emptyPoint = empties[i]; z[emptyPoint[0]][emptyPoint[1]] = 0; } // save this mask to determine whether to show this data in hover cd0.zmask = z; return z; } },{"../../components/colorscale":169,"../../components/drawing":179,"../../lib":287,"../../lib/svg_text_utils":310,"../../plots/cartesian/axes":334,"../../plots/cartesian/set_convert":356,"../heatmap/plot":451,"./close_boundaries":419,"./constants":421,"./convert_to_constraints":425,"./empty_pathinfo":427,"./find_all_paths":429,"./make_crossings":434,"@plotly/d3":20}],436:[function(_dereq_,module,exports){ 'use strict'; var Axes = _dereq_('../../plots/cartesian/axes'); var Lib = _dereq_('../../lib'); module.exports = function setContours(trace, vals) { var contours = trace.contours; // check if we need to auto-choose contour levels if(trace.autocontour) { // N.B. do not try to use coloraxis cmin/cmax, // these values here are meant to remain "per-trace" for now var zmin = trace.zmin; var zmax = trace.zmax; if(trace.zauto || zmin === undefined) { zmin = Lib.aggNums(Math.min, null, vals); } if(trace.zauto || zmax === undefined) { zmax = Lib.aggNums(Math.max, null, vals); } var dummyAx = autoContours(zmin, zmax, trace.ncontours); contours.size = dummyAx.dtick; contours.start = Axes.tickFirst(dummyAx); dummyAx.range.reverse(); contours.end = Axes.tickFirst(dummyAx); if(contours.start === zmin) contours.start += contours.size; if(contours.end === zmax) contours.end -= contours.size; // if you set a small ncontours, *and* the ends are exactly on zmin/zmax // there's an edge case where start > end now. Make sure there's at least // one meaningful contour, put it midway between the crossed values if(contours.start > contours.end) { contours.start = contours.end = (contours.start + contours.end) / 2; } // copy auto-contour info back to the source data. // previously we copied the whole contours object back, but that had // other info (coloring, showlines) that should be left to supplyDefaults if(!trace._input.contours) trace._input.contours = {}; Lib.extendFlat(trace._input.contours, { start: contours.start, end: contours.end, size: contours.size }); trace._input.autocontour = true; } else if(contours.type !== 'constraint') { // sanity checks on manually-supplied start/end/size var start = contours.start; var end = contours.end; var inputContours = trace._input.contours; if(start > end) { contours.start = inputContours.start = end; end = contours.end = inputContours.end = start; start = contours.start; } if(!(contours.size > 0)) { var sizeOut; if(start === end) sizeOut = 1; else sizeOut = autoContours(start, end, trace.ncontours).dtick; inputContours.size = contours.size = sizeOut; } } }; /* * autoContours: make a dummy axis object with dtick we can use * as contours.size, and if needed we can use Axes.tickFirst * with this axis object to calculate the start and end too * * start: the value to start the contours at * end: the value to end at (must be > start) * ncontours: max number of contours to make, like roughDTick * * returns: an axis object */ function autoContours(start, end, ncontours) { var dummyAx = { type: 'linear', range: [start, end] }; Axes.autoTicks( dummyAx, (end - start) / (ncontours || 15) ); return dummyAx; } },{"../../lib":287,"../../plots/cartesian/axes":334}],437:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Drawing = _dereq_('../../components/drawing'); var heatmapStyle = _dereq_('../heatmap/style'); var makeColorMap = _dereq_('./make_color_map'); module.exports = function style(gd) { var contours = d3.select(gd).selectAll('g.contour'); contours.style('opacity', function(d) { return d[0].trace.opacity; }); contours.each(function(d) { var c = d3.select(this); var trace = d[0].trace; var contours = trace.contours; var line = trace.line; var cs = contours.size || 1; var start = contours.start; // for contourcarpet only - is this a constraint-type contour trace? var isConstraintType = contours.type === 'constraint'; var colorLines = !isConstraintType && contours.coloring === 'lines'; var colorFills = !isConstraintType && contours.coloring === 'fill'; var colorMap = (colorLines || colorFills) ? makeColorMap(trace) : null; c.selectAll('g.contourlevel').each(function(d) { d3.select(this).selectAll('path') .call(Drawing.lineGroupStyle, line.width, colorLines ? colorMap(d.level) : line.color, line.dash); }); var labelFont = contours.labelfont; c.selectAll('g.contourlabels text').each(function(d) { Drawing.font(d3.select(this), { family: labelFont.family, size: labelFont.size, color: labelFont.color || (colorLines ? colorMap(d.level) : line.color) }); }); if(isConstraintType) { c.selectAll('g.contourfill path') .style('fill', trace.fillcolor); } else if(colorFills) { var firstFill; c.selectAll('g.contourfill path') .style('fill', function(d) { if(firstFill === undefined) firstFill = d.level; return colorMap(d.level + 0.5 * cs); }); if(firstFill === undefined) firstFill = start; c.selectAll('g.contourbg path') .style('fill', colorMap(firstFill - 0.5 * cs)); } }); heatmapStyle(gd); }; },{"../../components/drawing":179,"../heatmap/style":452,"./make_color_map":433,"@plotly/d3":20}],438:[function(_dereq_,module,exports){ 'use strict'; var colorscaleDefaults = _dereq_('../../components/colorscale/defaults'); var handleLabelDefaults = _dereq_('./label_defaults'); module.exports = function handleStyleDefaults(traceIn, traceOut, coerce, layout, opts) { var coloring = coerce('contours.coloring'); var showLines; var lineColor = ''; if(coloring === 'fill') showLines = coerce('contours.showlines'); if(showLines !== false) { if(coloring !== 'lines') lineColor = coerce('line.color', '#000'); coerce('line.width', 0.5); coerce('line.dash'); } if(coloring !== 'none') { // plots/plots always coerces showlegend to true, but in this case // we default to false and (by default) show a colorbar instead if(traceIn.showlegend !== true) traceOut.showlegend = false; traceOut._dfltShowLegend = false; colorscaleDefaults( traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'z'} ); } coerce('line.smoothing'); handleLabelDefaults(coerce, layout, lineColor, opts); }; },{"../../components/colorscale/defaults":167,"./label_defaults":432}],439:[function(_dereq_,module,exports){ 'use strict'; var scatterAttrs = _dereq_('../scatter/attributes'); var baseAttrs = _dereq_('../../plots/attributes'); var fontAttrs = _dereq_('../../plots/font_attributes'); var axisHoverFormat = _dereq_('../../plots/cartesian/axis_format_attributes').axisHoverFormat; var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var texttemplateAttrs = _dereq_('../../plots/template_attributes').texttemplateAttrs; var colorScaleAttrs = _dereq_('../../components/colorscale/attributes'); var extendFlat = _dereq_('../../lib/extend').extendFlat; module.exports = extendFlat({ z: { valType: 'data_array', editType: 'calc', }, x: extendFlat({}, scatterAttrs.x, {impliedEdits: {xtype: 'array'}}), x0: extendFlat({}, scatterAttrs.x0, {impliedEdits: {xtype: 'scaled'}}), dx: extendFlat({}, scatterAttrs.dx, {impliedEdits: {xtype: 'scaled'}}), y: extendFlat({}, scatterAttrs.y, {impliedEdits: {ytype: 'array'}}), y0: extendFlat({}, scatterAttrs.y0, {impliedEdits: {ytype: 'scaled'}}), dy: extendFlat({}, scatterAttrs.dy, {impliedEdits: {ytype: 'scaled'}}), xperiod: extendFlat({}, scatterAttrs.xperiod, {impliedEdits: {xtype: 'scaled'}}), yperiod: extendFlat({}, scatterAttrs.yperiod, {impliedEdits: {ytype: 'scaled'}}), xperiod0: extendFlat({}, scatterAttrs.xperiod0, {impliedEdits: {xtype: 'scaled'}}), yperiod0: extendFlat({}, scatterAttrs.yperiod0, {impliedEdits: {ytype: 'scaled'}}), xperiodalignment: extendFlat({}, scatterAttrs.xperiodalignment, {impliedEdits: {xtype: 'scaled'}}), yperiodalignment: extendFlat({}, scatterAttrs.yperiodalignment, {impliedEdits: {ytype: 'scaled'}}), text: { valType: 'data_array', editType: 'calc', }, hovertext: { valType: 'data_array', editType: 'calc', }, transpose: { valType: 'boolean', dflt: false, editType: 'calc', }, xtype: { valType: 'enumerated', values: ['array', 'scaled'], editType: 'calc+clearAxisTypes', }, ytype: { valType: 'enumerated', values: ['array', 'scaled'], editType: 'calc+clearAxisTypes', }, zsmooth: { valType: 'enumerated', values: ['fast', 'best', false], dflt: false, editType: 'calc', }, hoverongaps: { valType: 'boolean', dflt: true, editType: 'none', }, connectgaps: { valType: 'boolean', editType: 'calc', }, xgap: { valType: 'number', dflt: 0, min: 0, editType: 'plot', }, ygap: { valType: 'number', dflt: 0, min: 0, editType: 'plot', }, xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), zhoverformat: axisHoverFormat('z', 1), hovertemplate: hovertemplateAttrs(), texttemplate: texttemplateAttrs({ arrayOk: false, editType: 'plot' }, { keys: ['x', 'y', 'z', 'text'] }), textfont: fontAttrs({ editType: 'plot', autoSize: true, autoColor: true, colorEditType: 'style', }), showlegend: extendFlat({}, baseAttrs.showlegend, {dflt: false}) }, { transforms: undefined }, colorScaleAttrs('', {cLetter: 'z', autoColorDflt: false}) ); },{"../../components/colorscale/attributes":164,"../../lib/extend":281,"../../plots/attributes":330,"../../plots/cartesian/axis_format_attributes":337,"../../plots/font_attributes":365,"../../plots/template_attributes":373,"../scatter/attributes":500}],440:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var alignPeriod = _dereq_('../../plots/cartesian/align_period'); var histogram2dCalc = _dereq_('../histogram2d/calc'); var colorscaleCalc = _dereq_('../../components/colorscale/calc'); var convertColumnData = _dereq_('./convert_column_xyz'); var clean2dArray = _dereq_('./clean_2d_array'); var interp2d = _dereq_('./interp2d'); var findEmpties = _dereq_('./find_empties'); var makeBoundArray = _dereq_('./make_bound_array'); var BADNUM = _dereq_('../../constants/numerical').BADNUM; module.exports = function calc(gd, trace) { // prepare the raw data // run makeCalcdata on x and y even for heatmaps, in case of category mappings var xa = Axes.getFromId(gd, trace.xaxis || 'x'); var ya = Axes.getFromId(gd, trace.yaxis || 'y'); var isContour = Registry.traceIs(trace, 'contour'); var isHist = Registry.traceIs(trace, 'histogram'); var isGL2D = Registry.traceIs(trace, 'gl2d'); var zsmooth = isContour ? 'best' : trace.zsmooth; var x, x0, dx, origX; var y, y0, dy, origY; var z, i, binned; // cancel minimum tick spacings (only applies to bars and boxes) xa._minDtick = 0; ya._minDtick = 0; if(isHist) { binned = histogram2dCalc(gd, trace); origX = binned.orig_x; x = binned.x; x0 = binned.x0; dx = binned.dx; origY = binned.orig_y; y = binned.y; y0 = binned.y0; dy = binned.dy; z = binned.z; } else { var zIn = trace.z; if(Lib.isArray1D(zIn)) { convertColumnData(trace, xa, ya, 'x', 'y', ['z']); x = trace._x; y = trace._y; zIn = trace._z; } else { origX = trace.x ? xa.makeCalcdata(trace, 'x') : []; origY = trace.y ? ya.makeCalcdata(trace, 'y') : []; x = alignPeriod(trace, xa, 'x', origX).vals; y = alignPeriod(trace, ya, 'y', origY).vals; trace._x = x; trace._y = y; } x0 = trace.x0; dx = trace.dx; y0 = trace.y0; dy = trace.dy; z = clean2dArray(zIn, trace, xa, ya); } if(xa.rangebreaks || ya.rangebreaks) { z = dropZonBreaks(x, y, z); if(!isHist) { x = skipBreaks(x); y = skipBreaks(y); trace._x = x; trace._y = y; } } if(!isHist && (isContour || trace.connectgaps)) { trace._emptypoints = findEmpties(z); interp2d(z, trace._emptypoints); } function noZsmooth(msg) { zsmooth = trace._input.zsmooth = trace.zsmooth = false; Lib.warn('cannot use zsmooth: "fast": ' + msg); } // check whether we really can smooth (ie all boxes are about the same size) if(zsmooth === 'fast') { if(xa.type === 'log' || ya.type === 'log') { noZsmooth('log axis found'); } else if(!isHist) { if(x.length) { var avgdx = (x[x.length - 1] - x[0]) / (x.length - 1); var maxErrX = Math.abs(avgdx / 100); for(i = 0; i < x.length - 1; i++) { if(Math.abs(x[i + 1] - x[i] - avgdx) > maxErrX) { noZsmooth('x scale is not linear'); break; } } } if(y.length && zsmooth === 'fast') { var avgdy = (y[y.length - 1] - y[0]) / (y.length - 1); var maxErrY = Math.abs(avgdy / 100); for(i = 0; i < y.length - 1; i++) { if(Math.abs(y[i + 1] - y[i] - avgdy) > maxErrY) { noZsmooth('y scale is not linear'); break; } } } } } // create arrays of brick boundaries, to be used by autorange and heatmap.plot var xlen = Lib.maxRowLength(z); var xIn = trace.xtype === 'scaled' ? '' : x; var xArray = makeBoundArray(trace, xIn, x0, dx, xlen, xa); var yIn = trace.ytype === 'scaled' ? '' : y; var yArray = makeBoundArray(trace, yIn, y0, dy, z.length, ya); // handled in gl2d convert step if(!isGL2D) { trace._extremes[xa._id] = Axes.findExtremes(xa, xArray); trace._extremes[ya._id] = Axes.findExtremes(ya, yArray); } var cd0 = { x: xArray, y: yArray, z: z, text: trace._text || trace.text, hovertext: trace._hovertext || trace.hovertext }; if(trace.xperiodalignment && origX) { cd0.orig_x = origX; } if(trace.yperiodalignment && origY) { cd0.orig_y = origY; } if(xIn && xIn.length === xArray.length - 1) cd0.xCenter = xIn; if(yIn && yIn.length === yArray.length - 1) cd0.yCenter = yIn; if(isHist) { cd0.xRanges = binned.xRanges; cd0.yRanges = binned.yRanges; cd0.pts = binned.pts; } if(!isContour) { colorscaleCalc(gd, trace, {vals: z, cLetter: 'z'}); } if(isContour && trace.contours && trace.contours.coloring === 'heatmap') { var dummyTrace = { type: trace.type === 'contour' ? 'heatmap' : 'histogram2d', xcalendar: trace.xcalendar, ycalendar: trace.ycalendar }; cd0.xfill = makeBoundArray(dummyTrace, xIn, x0, dx, xlen, xa); cd0.yfill = makeBoundArray(dummyTrace, yIn, y0, dy, z.length, ya); } return [cd0]; }; function skipBreaks(a) { var b = []; var len = a.length; for(var i = 0; i < len; i++) { var v = a[i]; if(v !== BADNUM) b.push(v); } return b; } function dropZonBreaks(x, y, z) { var newZ = []; var k = -1; for(var i = 0; i < z.length; i++) { if(y[i] === BADNUM) continue; k++; newZ[k] = []; for(var j = 0; j < z[i].length; j++) { if(x[j] === BADNUM) continue; newZ[k].push(z[i][j]); } } return newZ; } },{"../../components/colorscale/calc":165,"../../constants/numerical":267,"../../lib":287,"../../plots/cartesian/align_period":331,"../../plots/cartesian/axes":334,"../../registry":378,"../histogram2d/calc":469,"./clean_2d_array":441,"./convert_column_xyz":443,"./find_empties":445,"./interp2d":448,"./make_bound_array":450}],441:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var BADNUM = _dereq_('../../constants/numerical').BADNUM; module.exports = function clean2dArray(zOld, trace, xa, ya) { var rowlen, collen, getCollen, old2new, i, j; function cleanZvalue(v) { if(!isNumeric(v)) return undefined; return +v; } if(trace && trace.transpose) { rowlen = 0; for(i = 0; i < zOld.length; i++) rowlen = Math.max(rowlen, zOld[i].length); if(rowlen === 0) return false; getCollen = function(zOld) { return zOld.length; }; old2new = function(zOld, i, j) { return (zOld[j] || [])[i]; }; } else { rowlen = zOld.length; getCollen = function(zOld, i) { return zOld[i].length; }; old2new = function(zOld, i, j) { return (zOld[i] || [])[j]; }; } var padOld2new = function(zOld, i, j) { if(i === BADNUM || j === BADNUM) return BADNUM; return old2new(zOld, i, j); }; function axisMapping(ax) { if(trace && trace.type !== 'carpet' && trace.type !== 'contourcarpet' && ax && ax.type === 'category' && trace['_' + ax._id.charAt(0)].length) { var axLetter = ax._id.charAt(0); var axMapping = {}; var traceCategories = trace['_' + axLetter + 'CategoryMap'] || trace[axLetter]; for(i = 0; i < traceCategories.length; i++) { axMapping[traceCategories[i]] = i; } return function(i) { var ind = axMapping[ax._categories[i]]; return ind + 1 ? ind : BADNUM; }; } else { return Lib.identity; } } var xMap = axisMapping(xa); var yMap = axisMapping(ya); if(ya && ya.type === 'category') rowlen = ya._categories.length; var zNew = new Array(rowlen); for(i = 0; i < rowlen; i++) { if(xa && xa.type === 'category') { collen = xa._categories.length; } else { collen = getCollen(zOld, i); } zNew[i] = new Array(collen); for(j = 0; j < collen; j++) zNew[i][j] = cleanZvalue(padOld2new(zOld, yMap(i), xMap(j))); } return zNew; }; },{"../../constants/numerical":267,"../../lib":287,"fast-isnumeric":33}],442:[function(_dereq_,module,exports){ 'use strict'; module.exports = { min: 'zmin', max: 'zmax' }; },{}],443:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var BADNUM = _dereq_('../../constants/numerical').BADNUM; var alignPeriod = _dereq_('../../plots/cartesian/align_period'); module.exports = function convertColumnData(trace, ax1, ax2, var1Name, var2Name, arrayVarNames) { var colLen = trace._length; var col1 = ax1.makeCalcdata(trace, var1Name); var col2 = ax2.makeCalcdata(trace, var2Name); col1 = alignPeriod(trace, ax1, var1Name, col1).vals; col2 = alignPeriod(trace, ax2, var2Name, col2).vals; var textCol = trace.text; var hasColumnText = (textCol !== undefined && Lib.isArray1D(textCol)); var hoverTextCol = trace.hovertext; var hasColumnHoverText = (hoverTextCol !== undefined && Lib.isArray1D(hoverTextCol)); var i, j; var col1dv = Lib.distinctVals(col1); var col1vals = col1dv.vals; var col2dv = Lib.distinctVals(col2); var col2vals = col2dv.vals; var newArrays = []; var text; var hovertext; var nI = col2vals.length; var nJ = col1vals.length; for(i = 0; i < arrayVarNames.length; i++) { newArrays[i] = Lib.init2dArray(nI, nJ); } if(hasColumnText) { text = Lib.init2dArray(nI, nJ); } if(hasColumnHoverText) { hovertext = Lib.init2dArray(nI, nJ); } var after2before = Lib.init2dArray(nI, nJ); for(i = 0; i < colLen; i++) { if(col1[i] !== BADNUM && col2[i] !== BADNUM) { var i1 = Lib.findBin(col1[i] + col1dv.minDiff / 2, col1vals); var i2 = Lib.findBin(col2[i] + col2dv.minDiff / 2, col2vals); for(j = 0; j < arrayVarNames.length; j++) { var arrayVarName = arrayVarNames[j]; var arrayVar = trace[arrayVarName]; var newArray = newArrays[j]; newArray[i2][i1] = arrayVar[i]; after2before[i2][i1] = i; } if(hasColumnText) text[i2][i1] = textCol[i]; if(hasColumnHoverText) hovertext[i2][i1] = hoverTextCol[i]; } } trace['_' + var1Name] = col1vals; trace['_' + var2Name] = col2vals; for(j = 0; j < arrayVarNames.length; j++) { trace['_' + arrayVarNames[j]] = newArrays[j]; } if(hasColumnText) trace._text = text; if(hasColumnHoverText) trace._hovertext = hovertext; if(ax1 && ax1.type === 'category') { trace['_' + var1Name + 'CategoryMap'] = col1vals.map(function(v) { return ax1._categories[v];}); } if(ax2 && ax2.type === 'category') { trace['_' + var2Name + 'CategoryMap'] = col2vals.map(function(v) { return ax2._categories[v];}); } trace._after2before = after2before; }; },{"../../constants/numerical":267,"../../lib":287,"../../plots/cartesian/align_period":331}],444:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var handleXYZDefaults = _dereq_('./xyz_defaults'); var handleHeatmapLabelDefaults = _dereq_('./label_defaults'); var handlePeriodDefaults = _dereq_('../scatter/period_defaults'); var handleStyleDefaults = _dereq_('./style_defaults'); var colorscaleDefaults = _dereq_('../../components/colorscale/defaults'); var attributes = _dereq_('./attributes'); module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } var validData = handleXYZDefaults(traceIn, traceOut, coerce, layout); if(!validData) { traceOut.visible = false; return; } handlePeriodDefaults(traceIn, traceOut, layout, coerce); coerce('xhoverformat'); coerce('yhoverformat'); coerce('text'); coerce('hovertext'); coerce('hovertemplate'); handleHeatmapLabelDefaults(coerce, layout); handleStyleDefaults(traceIn, traceOut, coerce, layout); coerce('hoverongaps'); coerce('connectgaps', Lib.isArray1D(traceOut.z) && (traceOut.zsmooth !== false)); colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'z'}); }; },{"../../components/colorscale/defaults":167,"../../lib":287,"../scatter/period_defaults":520,"./attributes":439,"./label_defaults":449,"./style_defaults":453,"./xyz_defaults":454}],445:[function(_dereq_,module,exports){ 'use strict'; var maxRowLength = _dereq_('../../lib').maxRowLength; /* Return a list of empty points in 2D array z * each empty point z[i][j] gives an array [i, j, neighborCount] * neighborCount is the count of 4 nearest neighbors that DO exist * this is to give us an order of points to evaluate for interpolation. * if no neighbors exist, we iteratively look for neighbors that HAVE * neighbors, and add a fractional neighborCount */ module.exports = function findEmpties(z) { var empties = []; var neighborHash = {}; var noNeighborList = []; var nextRow = z[0]; var row = []; var blank = [0, 0, 0]; var rowLength = maxRowLength(z); var prevRow; var i; var j; var thisPt; var p; var neighborCount; var newNeighborHash; var foundNewNeighbors; for(i = 0; i < z.length; i++) { prevRow = row; row = nextRow; nextRow = z[i + 1] || []; for(j = 0; j < rowLength; j++) { if(row[j] === undefined) { neighborCount = (row[j - 1] !== undefined ? 1 : 0) + (row[j + 1] !== undefined ? 1 : 0) + (prevRow[j] !== undefined ? 1 : 0) + (nextRow[j] !== undefined ? 1 : 0); if(neighborCount) { // for this purpose, don't count off-the-edge points // as undefined neighbors if(i === 0) neighborCount++; if(j === 0) neighborCount++; if(i === z.length - 1) neighborCount++; if(j === row.length - 1) neighborCount++; // if all neighbors that could exist do, we don't // need this for finding farther neighbors if(neighborCount < 4) { neighborHash[[i, j]] = [i, j, neighborCount]; } empties.push([i, j, neighborCount]); } else noNeighborList.push([i, j]); } } } while(noNeighborList.length) { newNeighborHash = {}; foundNewNeighbors = false; // look for cells that now have neighbors but didn't before for(p = noNeighborList.length - 1; p >= 0; p--) { thisPt = noNeighborList[p]; i = thisPt[0]; j = thisPt[1]; neighborCount = ((neighborHash[[i - 1, j]] || blank)[2] + (neighborHash[[i + 1, j]] || blank)[2] + (neighborHash[[i, j - 1]] || blank)[2] + (neighborHash[[i, j + 1]] || blank)[2]) / 20; if(neighborCount) { newNeighborHash[thisPt] = [i, j, neighborCount]; noNeighborList.splice(p, 1); foundNewNeighbors = true; } } if(!foundNewNeighbors) { throw 'findEmpties iterated with no new neighbors'; } // put these new cells into the main neighbor list for(thisPt in newNeighborHash) { neighborHash[thisPt] = newNeighborHash[thisPt]; empties.push(newNeighborHash[thisPt]); } } // sort the full list in descending order of neighbor count return empties.sort(function(a, b) { return b[2] - a[2]; }); }; },{"../../lib":287}],446:[function(_dereq_,module,exports){ 'use strict'; var Fx = _dereq_('../../components/fx'); var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var extractOpts = _dereq_('../../components/colorscale').extractOpts; module.exports = function hoverPoints(pointData, xval, yval, hovermode, opts) { if(!opts) opts = {}; var isContour = opts.isContour; var cd0 = pointData.cd[0]; var trace = cd0.trace; var xa = pointData.xa; var ya = pointData.ya; var x = cd0.x; var y = cd0.y; var z = cd0.z; var xc = cd0.xCenter; var yc = cd0.yCenter; var zmask = cd0.zmask; var zhoverformat = trace.zhoverformat; var x2 = x; var y2 = y; var xl, yl, nx, ny; if(pointData.index !== false) { try { nx = Math.round(pointData.index[1]); ny = Math.round(pointData.index[0]); } catch(e) { Lib.error('Error hovering on heatmap, ' + 'pointNumber must be [row,col], found:', pointData.index); return; } if(nx < 0 || nx >= z[0].length || ny < 0 || ny > z.length) { return; } } else if(Fx.inbox(xval - x[0], xval - x[x.length - 1], 0) > 0 || Fx.inbox(yval - y[0], yval - y[y.length - 1], 0) > 0) { return; } else { if(isContour) { var i2; x2 = [2 * x[0] - x[1]]; for(i2 = 1; i2 < x.length; i2++) { x2.push((x[i2] + x[i2 - 1]) / 2); } x2.push([2 * x[x.length - 1] - x[x.length - 2]]); y2 = [2 * y[0] - y[1]]; for(i2 = 1; i2 < y.length; i2++) { y2.push((y[i2] + y[i2 - 1]) / 2); } y2.push([2 * y[y.length - 1] - y[y.length - 2]]); } nx = Math.max(0, Math.min(x2.length - 2, Lib.findBin(xval, x2))); ny = Math.max(0, Math.min(y2.length - 2, Lib.findBin(yval, y2))); } var x0 = xa.c2p(x[nx]); var x1 = xa.c2p(x[nx + 1]); var y0 = ya.c2p(y[ny]); var y1 = ya.c2p(y[ny + 1]); var _x, _y; if(isContour) { _x = cd0.orig_x || x; _y = cd0.orig_y || y; x1 = x0; xl = _x[nx]; y1 = y0; yl = _y[ny]; } else { _x = cd0.orig_x || xc || x; _y = cd0.orig_y || yc || y; xl = xc ? _x[nx] : ((_x[nx] + _x[nx + 1]) / 2); yl = yc ? _y[ny] : ((_y[ny] + _y[ny + 1]) / 2); if(xa && xa.type === 'category') xl = x[nx]; if(ya && ya.type === 'category') yl = y[ny]; if(trace.zsmooth) { x0 = x1 = xa.c2p(xl); y0 = y1 = ya.c2p(yl); } } var zVal = z[ny][nx]; if(zmask && !zmask[ny][nx]) zVal = undefined; if(zVal === undefined && !trace.hoverongaps) return; var text; if(Array.isArray(cd0.hovertext) && Array.isArray(cd0.hovertext[ny])) { text = cd0.hovertext[ny][nx]; } else if(Array.isArray(cd0.text) && Array.isArray(cd0.text[ny])) { text = cd0.text[ny][nx]; } // dummy axis for formatting the z value var cOpts = extractOpts(trace); var dummyAx = { type: 'linear', range: [cOpts.min, cOpts.max], hoverformat: zhoverformat, _separators: xa._separators, _numFormat: xa._numFormat }; var zLabel = Axes.tickText(dummyAx, zVal, 'hover').text; return [Lib.extendFlat(pointData, { index: trace._after2before ? trace._after2before[ny][nx] : [ny, nx], // never let a 2D override 1D type as closest point distance: pointData.maxHoverDistance, spikeDistance: pointData.maxSpikeDistance, x0: x0, x1: x1, y0: y0, y1: y1, xLabelVal: xl, yLabelVal: yl, zLabelVal: zVal, zLabel: zLabel, text: text })]; }; },{"../../components/colorscale":169,"../../components/fx":197,"../../lib":287,"../../plots/cartesian/axes":334}],447:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults'), calc: _dereq_('./calc'), plot: _dereq_('./plot'), colorbar: _dereq_('./colorbar'), style: _dereq_('./style'), hoverPoints: _dereq_('./hover'), moduleType: 'trace', name: 'heatmap', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['cartesian', 'svg', '2dMap', 'showLegend'], meta: { } }; },{"../../plots/cartesian":348,"./attributes":439,"./calc":440,"./colorbar":442,"./defaults":444,"./hover":446,"./plot":451,"./style":452}],448:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var INTERPTHRESHOLD = 1e-2; var NEIGHBORSHIFTS = [[-1, 0], [1, 0], [0, -1], [0, 1]]; function correctionOvershoot(maxFractionalChange) { // start with less overshoot, until we know it's converging, // then ramp up the overshoot for faster convergence return 0.5 - 0.25 * Math.min(1, maxFractionalChange * 0.5); } /* * interp2d: Fill in missing data from a 2D array using an iterative * poisson equation solver with zero-derivative BC at edges. * Amazingly, this just amounts to repeatedly averaging all the existing * nearest neighbors, at least if we don't take x/y scaling into account, * which is the right approach here where x and y may not even have the * same units. * * @param {array of arrays} z * The 2D array to fill in. Will be mutated here. Assumed to already be * cleaned, so all entries are numbers except gaps, which are `undefined`. * @param {array of arrays} emptyPoints * Each entry [i, j, neighborCount] for empty points z[i][j] and the number * of neighbors that are *not* missing. Assumed to be sorted from most to * least neighbors, as produced by heatmap/find_empties. */ module.exports = function interp2d(z, emptyPoints) { var maxFractionalChange = 1; var i; // one pass to fill in a starting value for all the empties iterateInterp2d(z, emptyPoints); // we're don't need to iterate lone empties - remove them for(i = 0; i < emptyPoints.length; i++) { if(emptyPoints[i][2] < 4) break; } // but don't remove these points from the original array, // we'll use them for masking, so make a copy. emptyPoints = emptyPoints.slice(i); for(i = 0; i < 100 && maxFractionalChange > INTERPTHRESHOLD; i++) { maxFractionalChange = iterateInterp2d(z, emptyPoints, correctionOvershoot(maxFractionalChange)); } if(maxFractionalChange > INTERPTHRESHOLD) { Lib.log('interp2d didn\'t converge quickly', maxFractionalChange); } return z; }; function iterateInterp2d(z, emptyPoints, overshoot) { var maxFractionalChange = 0; var thisPt; var i; var j; var p; var q; var neighborShift; var neighborRow; var neighborVal; var neighborCount; var neighborSum; var initialVal; var minNeighbor; var maxNeighbor; for(p = 0; p < emptyPoints.length; p++) { thisPt = emptyPoints[p]; i = thisPt[0]; j = thisPt[1]; initialVal = z[i][j]; neighborSum = 0; neighborCount = 0; for(q = 0; q < 4; q++) { neighborShift = NEIGHBORSHIFTS[q]; neighborRow = z[i + neighborShift[0]]; if(!neighborRow) continue; neighborVal = neighborRow[j + neighborShift[1]]; if(neighborVal !== undefined) { if(neighborSum === 0) { minNeighbor = maxNeighbor = neighborVal; } else { minNeighbor = Math.min(minNeighbor, neighborVal); maxNeighbor = Math.max(maxNeighbor, neighborVal); } neighborCount++; neighborSum += neighborVal; } } if(neighborCount === 0) { throw 'iterateInterp2d order is wrong: no defined neighbors'; } // this is the laplace equation interpolation: // each point is just the average of its neighbors // note that this ignores differential x/y scaling // which I think is the right approach, since we // don't know what that scaling means z[i][j] = neighborSum / neighborCount; if(initialVal === undefined) { if(neighborCount < 4) maxFractionalChange = 1; } else { // we can make large empty regions converge faster // if we overshoot the change vs the previous value z[i][j] = (1 + overshoot) * z[i][j] - overshoot * initialVal; if(maxNeighbor > minNeighbor) { maxFractionalChange = Math.max(maxFractionalChange, Math.abs(z[i][j] - initialVal) / (maxNeighbor - minNeighbor)); } } } return maxFractionalChange; } },{"../../lib":287}],449:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); module.exports = function handleHeatmapLabelDefaults(coerce, layout) { coerce('texttemplate'); var fontDflt = Lib.extendFlat({}, layout.font, { color: 'auto', size: 'auto' }); Lib.coerceFont(coerce, 'textfont', fontDflt); }; },{"../../lib":287}],450:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray; module.exports = function makeBoundArray(trace, arrayIn, v0In, dvIn, numbricks, ax) { var arrayOut = []; var isContour = Registry.traceIs(trace, 'contour'); var isHist = Registry.traceIs(trace, 'histogram'); var isGL2D = Registry.traceIs(trace, 'gl2d'); var v0; var dv; var i; var isArrayOfTwoItemsOrMore = isArrayOrTypedArray(arrayIn) && arrayIn.length > 1; if(isArrayOfTwoItemsOrMore && !isHist && (ax.type !== 'category')) { var len = arrayIn.length; // given vals are brick centers // hopefully length === numbricks, but use this method even if too few are supplied // and extend it linearly based on the last two points if(len <= numbricks) { // contour plots only want the centers if(isContour || isGL2D) arrayOut = arrayIn.slice(0, numbricks); else if(numbricks === 1) { arrayOut = [arrayIn[0] - 0.5, arrayIn[0] + 0.5]; } else { arrayOut = [1.5 * arrayIn[0] - 0.5 * arrayIn[1]]; for(i = 1; i < len; i++) { arrayOut.push((arrayIn[i - 1] + arrayIn[i]) * 0.5); } arrayOut.push(1.5 * arrayIn[len - 1] - 0.5 * arrayIn[len - 2]); } if(len < numbricks) { var lastPt = arrayOut[arrayOut.length - 1]; var delta = lastPt - arrayOut[arrayOut.length - 2]; for(i = len; i < numbricks; i++) { lastPt += delta; arrayOut.push(lastPt); } } } else { // hopefully length === numbricks+1, but do something regardless: // given vals are brick boundaries return isContour ? arrayIn.slice(0, numbricks) : // we must be strict for contours arrayIn.slice(0, numbricks + 1); } } else { var calendar = trace[ax._id.charAt(0) + 'calendar']; if(isHist) { v0 = ax.r2c(v0In, 0, calendar); } else { if(isArrayOrTypedArray(arrayIn) && arrayIn.length === 1) { v0 = arrayIn[0]; } else if(v0In === undefined) { v0 = 0; } else { var fn = ax.type === 'log' ? ax.d2c : ax.r2c; v0 = fn(v0In, 0, calendar); } } dv = dvIn || 1; for(i = (isContour || isGL2D) ? 0 : -0.5; i < numbricks; i++) { arrayOut.push(v0 + dv * i); } } return arrayOut; }; },{"../../lib":287,"../../registry":378}],451:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var tinycolor = _dereq_('tinycolor2'); var Registry = _dereq_('../../registry'); var Drawing = _dereq_('../../components/drawing'); var Axes = _dereq_('../../plots/cartesian/axes'); var Lib = _dereq_('../../lib'); var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var formatLabels = _dereq_('../scatter/format_labels'); var Color = _dereq_('../../components/color'); var extractOpts = _dereq_('../../components/colorscale').extractOpts; var makeColorScaleFuncFromTrace = _dereq_('../../components/colorscale').makeColorScaleFuncFromTrace; var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces'); var alignmentConstants = _dereq_('../../constants/alignment'); var LINE_SPACING = alignmentConstants.LINE_SPACING; var labelClass = 'heatmap-label'; function selectLabels(plotGroup) { return plotGroup.selectAll('g.' + labelClass); } function removeLabels(plotGroup) { selectLabels(plotGroup).remove(); } module.exports = function(gd, plotinfo, cdheatmaps, heatmapLayer) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; Lib.makeTraceGroups(heatmapLayer, cdheatmaps, 'hm').each(function(cd) { var plotGroup = d3.select(this); var cd0 = cd[0]; var trace = cd0.trace; var xGap = trace.xgap || 0; var yGap = trace.ygap || 0; var z = cd0.z; var x = cd0.x; var y = cd0.y; var xc = cd0.xCenter; var yc = cd0.yCenter; var isContour = Registry.traceIs(trace, 'contour'); var zsmooth = isContour ? 'best' : trace.zsmooth; // get z dims var m = z.length; var n = Lib.maxRowLength(z); var xrev = false; var yrev = false; var left, right, temp, top, bottom, i, j, k; // TODO: if there are multiple overlapping categorical heatmaps, // or if we allow category sorting, then the categories may not be // sequential... may need to reorder and/or expand z // Get edges of png in pixels (xa.c2p() maps axes coordinates to pixel coordinates) // figure out if either axis is reversed (y is usually reversed, in pixel coords) // also clip the image to maximum 50% outside the visible plot area // bigger image lets you pan more naturally, but slows performance. // TODO: use low-resolution images outside the visible plot for panning // these while loops find the first and last brick bounds that are defined // (in case of log of a negative) i = 0; while(left === undefined && i < x.length - 1) { left = xa.c2p(x[i]); i++; } i = x.length - 1; while(right === undefined && i > 0) { right = xa.c2p(x[i]); i--; } if(right < left) { temp = right; right = left; left = temp; xrev = true; } i = 0; while(top === undefined && i < y.length - 1) { top = ya.c2p(y[i]); i++; } i = y.length - 1; while(bottom === undefined && i > 0) { bottom = ya.c2p(y[i]); i--; } if(bottom < top) { temp = top; top = bottom; bottom = temp; yrev = true; } // for contours with heatmap fill, we generate the boundaries based on // brick centers but then use the brick edges for drawing the bricks if(isContour) { xc = x; yc = y; x = cd0.xfill; y = cd0.yfill; } // make an image that goes at most half a screen off either side, to keep // time reasonable when you zoom in. if zsmooth is true/fast, don't worry // about this, because zooming doesn't increase number of pixels // if zsmooth is best, don't include anything off screen because it takes too long if(zsmooth !== 'fast') { var extra = zsmooth === 'best' ? 0 : 0.5; left = Math.max(-extra * xa._length, left); right = Math.min((1 + extra) * xa._length, right); top = Math.max(-extra * ya._length, top); bottom = Math.min((1 + extra) * ya._length, bottom); } var imageWidth = Math.round(right - left); var imageHeight = Math.round(bottom - top); // setup image nodes // if image is entirely off-screen, don't even draw it var isOffScreen = (imageWidth <= 0 || imageHeight <= 0); if(isOffScreen) { var noImage = plotGroup.selectAll('image').data([]); noImage.exit().remove(); removeLabels(plotGroup); return; } // generate image data var canvasW, canvasH; if(zsmooth === 'fast') { canvasW = n; canvasH = m; } else { canvasW = imageWidth; canvasH = imageHeight; } var canvas = document.createElement('canvas'); canvas.width = canvasW; canvas.height = canvasH; var context = canvas.getContext('2d'); var sclFunc = makeColorScaleFuncFromTrace(trace, {noNumericCheck: true, returnArray: true}); // map brick boundaries to image pixels var xpx, ypx; if(zsmooth === 'fast') { xpx = xrev ? function(index) { return n - 1 - index; } : Lib.identity; ypx = yrev ? function(index) { return m - 1 - index; } : Lib.identity; } else { xpx = function(index) { return Lib.constrain(Math.round(xa.c2p(x[index]) - left), 0, imageWidth); }; ypx = function(index) { return Lib.constrain(Math.round(ya.c2p(y[index]) - top), 0, imageHeight); }; } // build the pixel map brick-by-brick // cruise through z-matrix row-by-row // build a brick at each z-matrix value var yi = ypx(0); var yb = [yi, yi]; var xbi = xrev ? 0 : 1; var ybi = yrev ? 0 : 1; // for collecting an average luminosity of the heatmap var pixcount = 0; var rcount = 0; var gcount = 0; var bcount = 0; var xb, xi, v, row, c; function setColor(v, pixsize) { if(v !== undefined) { var c = sclFunc(v); c[0] = Math.round(c[0]); c[1] = Math.round(c[1]); c[2] = Math.round(c[2]); pixcount += pixsize; rcount += c[0] * pixsize; gcount += c[1] * pixsize; bcount += c[2] * pixsize; return c; } return [0, 0, 0, 0]; } function interpColor(r0, r1, xinterp, yinterp) { var z00 = r0[xinterp.bin0]; if(z00 === undefined) return setColor(undefined, 1); var z01 = r0[xinterp.bin1]; var z10 = r1[xinterp.bin0]; var z11 = r1[xinterp.bin1]; var dx = (z01 - z00) || 0; var dy = (z10 - z00) || 0; var dxy; // the bilinear interpolation term needs different calculations // for all the different permutations of missing data // among the neighbors of the main point, to ensure // continuity across brick boundaries. if(z01 === undefined) { if(z11 === undefined) dxy = 0; else if(z10 === undefined) dxy = 2 * (z11 - z00); else dxy = (2 * z11 - z10 - z00) * 2 / 3; } else if(z11 === undefined) { if(z10 === undefined) dxy = 0; else dxy = (2 * z00 - z01 - z10) * 2 / 3; } else if(z10 === undefined) dxy = (2 * z11 - z01 - z00) * 2 / 3; else dxy = (z11 + z00 - z01 - z10); return setColor(z00 + xinterp.frac * dx + yinterp.frac * (dy + xinterp.frac * dxy)); } if(zsmooth) { // best or fast, works fastest with imageData var pxIndex = 0; var pixels; try { pixels = new Uint8Array(imageWidth * imageHeight * 4); } catch(e) { pixels = new Array(imageWidth * imageHeight * 4); } if(zsmooth === 'best') { var xForPx = xc || x; var yForPx = yc || y; var xPixArray = new Array(xForPx.length); var yPixArray = new Array(yForPx.length); var xinterpArray = new Array(imageWidth); var findInterpX = xc ? findInterpFromCenters : findInterp; var findInterpY = yc ? findInterpFromCenters : findInterp; var yinterp, r0, r1; // first make arrays of x and y pixel locations of brick boundaries for(i = 0; i < xForPx.length; i++) xPixArray[i] = Math.round(xa.c2p(xForPx[i]) - left); for(i = 0; i < yForPx.length; i++) yPixArray[i] = Math.round(ya.c2p(yForPx[i]) - top); // then make arrays of interpolations // (bin0=closest, bin1=next, frac=fractional dist.) for(i = 0; i < imageWidth; i++) xinterpArray[i] = findInterpX(i, xPixArray); // now do the interpolations and fill the png for(j = 0; j < imageHeight; j++) { yinterp = findInterpY(j, yPixArray); r0 = z[yinterp.bin0]; r1 = z[yinterp.bin1]; for(i = 0; i < imageWidth; i++, pxIndex += 4) { c = interpColor(r0, r1, xinterpArray[i], yinterp); putColor(pixels, pxIndex, c); } } } else { // zsmooth = fast for(j = 0; j < m; j++) { row = z[j]; yb = ypx(j); for(i = 0; i < imageWidth; i++) { c = setColor(row[i], 1); pxIndex = (yb * imageWidth + xpx(i)) * 4; putColor(pixels, pxIndex, c); } } } var imageData = context.createImageData(imageWidth, imageHeight); try { imageData.data.set(pixels); } catch(e) { var pxArray = imageData.data; var dlen = pxArray.length; for(j = 0; j < dlen; j ++) { pxArray[j] = pixels[j]; } } context.putImageData(imageData, 0, 0); } else { // zsmooth = false -> filling potentially large bricks works fastest with fillRect // gaps do not need to be exact integers, but if they *are* we will get // cleaner edges by rounding at least one edge var xGapLeft = Math.floor(xGap / 2); var yGapTop = Math.floor(yGap / 2); for(j = 0; j < m; j++) { row = z[j]; yb.reverse(); yb[ybi] = ypx(j + 1); if(yb[0] === yb[1] || yb[0] === undefined || yb[1] === undefined) { continue; } xi = xpx(0); xb = [xi, xi]; for(i = 0; i < n; i++) { // build one color brick! xb.reverse(); xb[xbi] = xpx(i + 1); if(xb[0] === xb[1] || xb[0] === undefined || xb[1] === undefined) { continue; } v = row[i]; c = setColor(v, (xb[1] - xb[0]) * (yb[1] - yb[0])); context.fillStyle = 'rgba(' + c.join(',') + ')'; context.fillRect(xb[0] + xGapLeft, yb[0] + yGapTop, xb[1] - xb[0] - xGap, yb[1] - yb[0] - yGap); } } } rcount = Math.round(rcount / pixcount); gcount = Math.round(gcount / pixcount); bcount = Math.round(bcount / pixcount); var avgColor = tinycolor('rgb(' + rcount + ',' + gcount + ',' + bcount + ')'); gd._hmpixcount = (gd._hmpixcount||0) + pixcount; gd._hmlumcount = (gd._hmlumcount||0) + pixcount * avgColor.getLuminance(); var image3 = plotGroup.selectAll('image') .data(cd); image3.enter().append('svg:image').attr({ xmlns: xmlnsNamespaces.svg, preserveAspectRatio: 'none' }); image3.attr({ height: imageHeight, width: imageWidth, x: left, y: top, 'xlink:href': canvas.toDataURL('image/png') }); removeLabels(plotGroup); var texttemplate = trace.texttemplate; if(texttemplate) { // dummy axis for formatting the z value var cOpts = extractOpts(trace); var dummyAx = { type: 'linear', range: [cOpts.min, cOpts.max], _separators: xa._separators, _numFormat: xa._numFormat }; var aHistogram2dContour = trace.type === 'histogram2dcontour'; var aContour = trace.type === 'contour'; var iStart = aContour ? 1 : 0; var iStop = aContour ? m - 1 : m; var jStart = aContour ? 1 : 0; var jStop = aContour ? n - 1 : n; var textData = []; for(i = iStart; i < iStop; i++) { var yVal; if(aContour) { yVal = cd0.y[i]; } else if(aHistogram2dContour) { if(i === 0 || i === m - 1) continue; yVal = cd0.y[i]; } else if(cd0.yCenter) { yVal = cd0.yCenter[i]; } else { if(i + 1 === m && cd0.y[i + 1] === undefined) continue; yVal = (cd0.y[i] + cd0.y[i + 1]) / 2; } var _y = Math.round(ya.c2p(yVal)); if(0 > _y || _y > ya._length) continue; for(j = jStart; j < jStop; j++) { var xVal; if(aContour) { xVal = cd0.x[j]; } else if(aHistogram2dContour) { if(j === 0 || j === n - 1) continue; xVal = cd0.x[j]; } else if(cd0.xCenter) { xVal = cd0.xCenter[j]; } else { if(j + 1 === n && cd0.x[j + 1] === undefined) continue; xVal = (cd0.x[j] + cd0.x[j + 1]) / 2; } var _x = Math.round(xa.c2p(xVal)); if(0 > _x || _x > xa._length) continue; var obj = formatLabels({ x: xVal, y: yVal }, trace, gd._fullLayout); obj.x = xVal; obj.y = yVal; var zVal = cd0.z[i][j]; if(zVal === undefined) { obj.z = ''; obj.zLabel = ''; } else { obj.z = zVal; obj.zLabel = Axes.tickText(dummyAx, zVal, 'hover').text; } var theText = cd0.text && cd0.text[i] && cd0.text[i][j]; if(theText === undefined || theText === false) theText = ''; obj.text = theText; var _t = Lib.texttemplateString(texttemplate, obj, gd._fullLayout._d3locale, obj, trace._meta || {}); if(!_t) continue; var lines = _t.split('
'); var nL = lines.length; var nC = 0; for(k = 0; k < nL; k++) { nC = Math.max(nC, lines[k].length); } textData.push({ l: nL, // number of lines c: nC, // maximum number of chars in a line t: _t, // text x: _x, y: _y, z: zVal }); } } var font = trace.textfont; var fontFamily = font.family; var fontSize = font.size; var globalFontSize = gd._fullLayout.font.size; if(!fontSize || fontSize === 'auto') { var minW = Infinity; var minH = Infinity; var maxL = 0; var maxC = 0; for(k = 0; k < textData.length; k++) { var d = textData[k]; maxL = Math.max(maxL, d.l); maxC = Math.max(maxC, d.c); if(k < textData.length - 1) { var nextD = textData[k + 1]; var dx = Math.abs(nextD.x - d.x); var dy = Math.abs(nextD.y - d.y); if(dx) minW = Math.min(minW, dx); if(dy) minH = Math.min(minH, dy); } } if( !isFinite(minW) || !isFinite(minH) ) { fontSize = globalFontSize; } else { minW -= xGap; minH -= yGap; minW /= maxC; minH /= maxL; minW /= LINE_SPACING / 2; minH /= LINE_SPACING; fontSize = Math.min( Math.floor(minW), Math.floor(minH), globalFontSize ); } } if(fontSize <= 0 || !isFinite(fontSize)) return; var xFn = function(d) { return d.x; }; var yFn = function(d) { return d.y - fontSize * ((d.l * LINE_SPACING) / 2 - 1); }; var labels = selectLabels(plotGroup).data(textData); labels .enter() .append('g') .classed(labelClass, 1) .append('text') .attr('text-anchor', 'middle') .each(function(d) { var thisLabel = d3.select(this); var fontColor = font.color; if(!fontColor || fontColor === 'auto') { fontColor = Color.contrast( 'rgba(' + sclFunc(d.z).join() + ')' ); } thisLabel .attr('data-notex', 1) .call(svgTextUtils.positionText, xFn(d), yFn(d)) .call(Drawing.font, fontFamily, fontSize, fontColor) .text(d.t) .call(svgTextUtils.convertToTspans, gd); }); } }); }; // get interpolated bin value. Returns {bin0:closest bin, frac:fractional dist to next, bin1:next bin} function findInterp(pixel, pixArray) { var maxBin = pixArray.length - 2; var bin = Lib.constrain(Lib.findBin(pixel, pixArray), 0, maxBin); var pix0 = pixArray[bin]; var pix1 = pixArray[bin + 1]; var interp = Lib.constrain(bin + (pixel - pix0) / (pix1 - pix0) - 0.5, 0, maxBin); var bin0 = Math.round(interp); var frac = Math.abs(interp - bin0); if(!interp || interp === maxBin || !frac) { return { bin0: bin0, bin1: bin0, frac: 0 }; } return { bin0: bin0, frac: frac, bin1: Math.round(bin0 + frac / (interp - bin0)) }; } function findInterpFromCenters(pixel, centerPixArray) { var maxBin = centerPixArray.length - 1; var bin = Lib.constrain(Lib.findBin(pixel, centerPixArray), 0, maxBin); var pix0 = centerPixArray[bin]; var pix1 = centerPixArray[bin + 1]; var frac = ((pixel - pix0) / (pix1 - pix0)) || 0; if(frac <= 0) { return { bin0: bin, bin1: bin, frac: 0 }; } if(frac < 0.5) { return { bin0: bin, bin1: bin + 1, frac: frac }; } return { bin0: bin + 1, bin1: bin, frac: 1 - frac }; } function putColor(pixels, pxIndex, c) { pixels[pxIndex] = c[0]; pixels[pxIndex + 1] = c[1]; pixels[pxIndex + 2] = c[2]; pixels[pxIndex + 3] = Math.round(c[3] * 255); } },{"../../components/color":157,"../../components/colorscale":169,"../../components/drawing":179,"../../constants/alignment":262,"../../constants/xmlns_namespaces":268,"../../lib":287,"../../lib/svg_text_utils":310,"../../plots/cartesian/axes":334,"../../registry":378,"../scatter/format_labels":509,"@plotly/d3":20,"tinycolor2":121}],452:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); module.exports = function style(gd) { d3.select(gd).selectAll('.hm image') .style('opacity', function(d) { return d.trace.opacity; }); }; },{"@plotly/d3":20}],453:[function(_dereq_,module,exports){ 'use strict'; module.exports = function handleStyleDefaults(traceIn, traceOut, coerce) { var zsmooth = coerce('zsmooth'); if(zsmooth === false) { // ensure that xgap and ygap are coerced only when zsmooth allows them to have an effect. coerce('xgap'); coerce('ygap'); } coerce('zhoverformat'); }; },{}],454:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); module.exports = function handleXYZDefaults(traceIn, traceOut, coerce, layout, xName, yName) { var z = coerce('z'); xName = xName || 'x'; yName = yName || 'y'; var x, y; if(z === undefined || !z.length) return 0; if(Lib.isArray1D(traceIn.z)) { x = coerce(xName); y = coerce(yName); var xlen = Lib.minRowLength(x); var ylen = Lib.minRowLength(y); // column z must be accompanied by xName and yName arrays if(xlen === 0 || ylen === 0) return 0; traceOut._length = Math.min(xlen, ylen, z.length); } else { x = coordDefaults(xName, coerce); y = coordDefaults(yName, coerce); // TODO put z validation elsewhere if(!isValidZ(z)) return 0; coerce('transpose'); traceOut._length = null; } if(traceIn.type === 'heatmapgl') return true; // skip calendars until we handle them in those traces var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults'); handleCalendarDefaults(traceIn, traceOut, [xName, yName], layout); return true; }; function coordDefaults(coordStr, coerce) { var coord = coerce(coordStr); var coordType = coord ? coerce(coordStr + 'type', 'array') : 'scaled'; if(coordType === 'scaled') { coerce(coordStr + '0'); coerce('d' + coordStr); } return coord; } function isValidZ(z) { var allRowsAreArrays = true; var oneRowIsFilled = false; var hasOneNumber = false; var zi; /* * Without this step: * * hasOneNumber = false breaks contour but not heatmap * allRowsAreArrays = false breaks contour but not heatmap * oneRowIsFilled = false breaks both */ for(var i = 0; i < z.length; i++) { zi = z[i]; if(!Lib.isArrayOrTypedArray(zi)) { allRowsAreArrays = false; break; } if(zi.length > 0) oneRowIsFilled = true; for(var j = 0; j < zi.length; j++) { if(isNumeric(zi[j])) { hasOneNumber = true; break; } } } return (allRowsAreArrays && oneRowIsFilled && hasOneNumber); } },{"../../lib":287,"../../registry":378,"fast-isnumeric":33}],455:[function(_dereq_,module,exports){ 'use strict'; var barAttrs = _dereq_('../bar/attributes'); var axisHoverFormat = _dereq_('../../plots/cartesian/axis_format_attributes').axisHoverFormat; var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var texttemplateAttrs = _dereq_('../../plots/template_attributes').texttemplateAttrs; var fontAttrs = _dereq_('../../plots/font_attributes'); var makeBinAttrs = _dereq_('./bin_attributes'); var constants = _dereq_('./constants'); var extendFlat = _dereq_('../../lib/extend').extendFlat; module.exports = { x: { valType: 'data_array', editType: 'calc+clearAxisTypes', }, y: { valType: 'data_array', editType: 'calc+clearAxisTypes', }, xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), text: extendFlat({}, barAttrs.text, { }), hovertext: extendFlat({}, barAttrs.hovertext, { }), orientation: barAttrs.orientation, histfunc: { valType: 'enumerated', values: ['count', 'sum', 'avg', 'min', 'max'], dflt: 'count', editType: 'calc', }, histnorm: { valType: 'enumerated', values: ['', 'percent', 'probability', 'density', 'probability density'], dflt: '', editType: 'calc', }, cumulative: { enabled: { valType: 'boolean', dflt: false, editType: 'calc', }, direction: { valType: 'enumerated', values: ['increasing', 'decreasing'], dflt: 'increasing', editType: 'calc', }, currentbin: { valType: 'enumerated', values: ['include', 'exclude', 'half'], dflt: 'include', editType: 'calc', }, editType: 'calc' }, nbinsx: { valType: 'integer', min: 0, dflt: 0, editType: 'calc', }, xbins: makeBinAttrs('x', true), nbinsy: { valType: 'integer', min: 0, dflt: 0, editType: 'calc', }, ybins: makeBinAttrs('y', true), autobinx: { valType: 'boolean', dflt: null, editType: 'calc', }, autobiny: { valType: 'boolean', dflt: null, editType: 'calc', }, bingroup: { valType: 'string', dflt: '', editType: 'calc', }, hovertemplate: hovertemplateAttrs({}, { keys: constants.eventDataKeys }), texttemplate: texttemplateAttrs({ arrayOk: false, editType: 'plot' }, { keys: ['label', 'value'] }), textposition: extendFlat({}, barAttrs.textposition, { arrayOk: false }), textfont: fontAttrs({ arrayOk: false, editType: 'plot', colorEditType: 'style', }), outsidetextfont: fontAttrs({ arrayOk: false, editType: 'plot', colorEditType: 'style', }), insidetextfont: fontAttrs({ arrayOk: false, editType: 'plot', colorEditType: 'style', }), insidetextanchor: barAttrs.insidetextanchor, textangle: barAttrs.textangle, cliponaxis: barAttrs.cliponaxis, constraintext: barAttrs.constraintext, marker: barAttrs.marker, offsetgroup: barAttrs.offsetgroup, alignmentgroup: barAttrs.alignmentgroup, selected: barAttrs.selected, unselected: barAttrs.unselected, _deprecated: { bardir: barAttrs._deprecated.bardir } }; },{"../../lib/extend":281,"../../plots/cartesian/axis_format_attributes":337,"../../plots/font_attributes":365,"../../plots/template_attributes":373,"../bar/attributes":388,"./bin_attributes":457,"./constants":461}],456:[function(_dereq_,module,exports){ 'use strict'; module.exports = function doAvg(size, counts) { var nMax = size.length; var total = 0; for(var i = 0; i < nMax; i++) { if(counts[i]) { size[i] /= counts[i]; total += size[i]; } else size[i] = null; } return total; }; },{}],457:[function(_dereq_,module,exports){ 'use strict'; module.exports = function makeBinAttrs(axLetter, match) { return { start: { valType: 'any', // for date axes editType: 'calc', }, end: { valType: 'any', // for date axes editType: 'calc', }, size: { valType: 'any', // for date axes editType: 'calc', }, editType: 'calc' }; }; },{}],458:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); module.exports = { count: function(n, i, size) { size[n]++; return 1; }, sum: function(n, i, size, counterData) { var v = counterData[i]; if(isNumeric(v)) { v = Number(v); size[n] += v; return v; } return 0; }, avg: function(n, i, size, counterData, counts) { var v = counterData[i]; if(isNumeric(v)) { v = Number(v); size[n] += v; counts[n]++; } return 0; }, min: function(n, i, size, counterData) { var v = counterData[i]; if(isNumeric(v)) { v = Number(v); if(!isNumeric(size[n])) { size[n] = v; return v; } else if(size[n] > v) { var delta = v - size[n]; size[n] = v; return delta; } } return 0; }, max: function(n, i, size, counterData) { var v = counterData[i]; if(isNumeric(v)) { v = Number(v); if(!isNumeric(size[n])) { size[n] = v; return v; } else if(size[n] < v) { var delta = v - size[n]; size[n] = v; return delta; } } return 0; } }; },{"fast-isnumeric":33}],459:[function(_dereq_,module,exports){ 'use strict'; var numConstants = _dereq_('../../constants/numerical'); var oneYear = numConstants.ONEAVGYEAR; var oneMonth = numConstants.ONEAVGMONTH; var oneDay = numConstants.ONEDAY; var oneHour = numConstants.ONEHOUR; var oneMin = numConstants.ONEMIN; var oneSec = numConstants.ONESEC; var tickIncrement = _dereq_('../../plots/cartesian/axes').tickIncrement; /* * make a function that will find rounded bin edges * @param {number} leftGap: how far from the left edge of any bin is the closest data value? * @param {number} rightGap: how far from the right edge of any bin is the closest data value? * @param {Array[number]} binEdges: the actual edge values used in binning * @param {object} pa: the position axis * @param {string} calendar: the data calendar * * @return {function(v, isRightEdge)}: * find the start (isRightEdge is falsy) or end (truthy) label value for a bin edge `v` */ module.exports = function getBinSpanLabelRound(leftGap, rightGap, binEdges, pa, calendar) { // the rounding digit is the largest digit that changes in *all* of 4 regions: // - inside the rightGap before binEdges[0] (shifted 10% to the left) // - inside the leftGap after binEdges[0] (expanded by 10% of rightGap on each end) // - same for binEdges[1] var dv0 = -1.1 * rightGap; var dv1 = -0.1 * rightGap; var dv2 = leftGap - dv1; var edge0 = binEdges[0]; var edge1 = binEdges[1]; var leftDigit = Math.min( biggestDigitChanged(edge0 + dv1, edge0 + dv2, pa, calendar), biggestDigitChanged(edge1 + dv1, edge1 + dv2, pa, calendar) ); var rightDigit = Math.min( biggestDigitChanged(edge0 + dv0, edge0 + dv1, pa, calendar), biggestDigitChanged(edge1 + dv0, edge1 + dv1, pa, calendar) ); // normally we try to make the label for the right edge different from // the left edge label, so it's unambiguous which bin gets data on the edge. // but if this results in more than 3 extra digits (or for dates, more than // 2 fields ie hr&min or min&sec, which is 3600x), it'll be more clutter than // useful so keep the label cleaner instead var digit, disambiguateEdges; if(leftDigit > rightDigit && rightDigit < Math.abs(edge1 - edge0) / 4000) { digit = leftDigit; disambiguateEdges = false; } else { digit = Math.min(leftDigit, rightDigit); disambiguateEdges = true; } if(pa.type === 'date' && digit > oneDay) { var dashExclude = (digit === oneYear) ? 1 : 6; var increment = (digit === oneYear) ? 'M12' : 'M1'; return function(v, isRightEdge) { var dateStr = pa.c2d(v, oneYear, calendar); var dashPos = dateStr.indexOf('-', dashExclude); if(dashPos > 0) dateStr = dateStr.substr(0, dashPos); var roundedV = pa.d2c(dateStr, 0, calendar); if(roundedV < v) { var nextV = tickIncrement(roundedV, increment, false, calendar); if((roundedV + nextV) / 2 < v + leftGap) roundedV = nextV; } if(isRightEdge && disambiguateEdges) { return tickIncrement(roundedV, increment, true, calendar); } return roundedV; }; } return function(v, isRightEdge) { var roundedV = digit * Math.round(v / digit); // if we rounded down and we could round up and still be < leftGap // (or what leftGap values round to), do that if(roundedV + (digit / 10) < v && roundedV + (digit * 0.9) < v + leftGap) { roundedV += digit; } // finally for the right edge back off one digit - but only if we can do that // and not clip off any data that's potentially in the bin if(isRightEdge && disambiguateEdges) { roundedV -= digit; } return roundedV; }; }; /* * Find the largest digit that changes within a (calcdata) region [v1, v2] * if dates, "digit" means date/time part when it's bigger than a second * returns the unit value to round to this digit, eg 0.01 to round to hundredths, or * 100 to round to hundreds. returns oneMonth or oneYear for month or year rounding, * so that Math.min will work, rather than 'M1' and 'M12' */ function biggestDigitChanged(v1, v2, pa, calendar) { // are we crossing zero? can't say anything. // in principle this doesn't apply to dates but turns out this doesn't matter. if(v1 * v2 <= 0) return Infinity; var dv = Math.abs(v2 - v1); var isDate = pa.type === 'date'; var digit = biggestGuaranteedDigitChanged(dv, isDate); // see if a larger digit also changed for(var i = 0; i < 10; i++) { // numbers: next digit needs to be >10x but <100x then gets rounded down. // dates: next digit can be as much as 60x (then rounded down) var nextDigit = biggestGuaranteedDigitChanged(digit * 80, isDate); // if we get to years, the chain stops if(digit === nextDigit) break; if(didDigitChange(nextDigit, v1, v2, isDate, pa, calendar)) digit = nextDigit; else break; } return digit; } /* * Find the largest digit that *definitely* changes in a region [v, v + dv] for any v * for nonuniform date regions (months/years) pick the largest */ function biggestGuaranteedDigitChanged(dv, isDate) { if(isDate && dv > oneSec) { // this is supposed to be the biggest *guaranteed* change // so compare to the longest month and year across any calendar, // and we'll iterate back up later // note: does not support rounding larger than one year. We could add // that if anyone wants it, but seems unusual and not strictly necessary. if(dv > oneDay) { if(dv > oneYear * 1.1) return oneYear; if(dv > oneMonth * 1.1) return oneMonth; return oneDay; } if(dv > oneHour) return oneHour; if(dv > oneMin) return oneMin; return oneSec; } return Math.pow(10, Math.floor(Math.log(dv) / Math.LN10)); } function didDigitChange(digit, v1, v2, isDate, pa, calendar) { if(isDate && digit > oneDay) { var dateParts1 = dateParts(v1, pa, calendar); var dateParts2 = dateParts(v2, pa, calendar); var parti = (digit === oneYear) ? 0 : 1; return dateParts1[parti] !== dateParts2[parti]; } return Math.floor(v2 / digit) - Math.floor(v1 / digit) > 0.1; } function dateParts(v, pa, calendar) { var parts = pa.c2d(v, oneYear, calendar).split('-'); if(parts[0] === '') { parts.unshift(); parts[0] = '-' + parts[0]; } return parts; } },{"../../constants/numerical":267,"../../plots/cartesian/axes":334}],460:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); var Axes = _dereq_('../../plots/cartesian/axes'); var arraysToCalcdata = _dereq_('../bar/arrays_to_calcdata'); var binFunctions = _dereq_('./bin_functions'); var normFunctions = _dereq_('./norm_functions'); var doAvg = _dereq_('./average'); var getBinSpanLabelRound = _dereq_('./bin_label_vals'); function calc(gd, trace) { var pos = []; var size = []; var isHorizontal = trace.orientation === 'h'; var pa = Axes.getFromId(gd, isHorizontal ? trace.yaxis : trace.xaxis); var mainData = isHorizontal ? 'y' : 'x'; var counterData = {x: 'y', y: 'x'}[mainData]; var calendar = trace[mainData + 'calendar']; var cumulativeSpec = trace.cumulative; var i; var binsAndPos = calcAllAutoBins(gd, trace, pa, mainData); var binSpec = binsAndPos[0]; var pos0 = binsAndPos[1]; var nonuniformBins = typeof binSpec.size === 'string'; var binEdges = []; var bins = nonuniformBins ? binEdges : binSpec; // make the empty bin array var inc = []; var counts = []; var inputPoints = []; var total = 0; var norm = trace.histnorm; var func = trace.histfunc; var densityNorm = norm.indexOf('density') !== -1; var i2, binEnd, n; if(cumulativeSpec.enabled && densityNorm) { // we treat "cumulative" like it means "integral" if you use a density norm, // which in the end means it's the same as without "density" norm = norm.replace(/ ?density$/, ''); densityNorm = false; } var extremeFunc = func === 'max' || func === 'min'; var sizeInit = extremeFunc ? null : 0; var binFunc = binFunctions.count; var normFunc = normFunctions[norm]; var isAvg = false; var pr2c = function(v) { return pa.r2c(v, 0, calendar); }; var rawCounterData; if(Lib.isArrayOrTypedArray(trace[counterData]) && func !== 'count') { rawCounterData = trace[counterData]; isAvg = func === 'avg'; binFunc = binFunctions[func]; } // create the bins (and any extra arrays needed) // assume more than 1e6 bins is an error, so we don't crash the browser i = pr2c(binSpec.start); // decrease end a little in case of rounding errors binEnd = pr2c(binSpec.end) + (i - Axes.tickIncrement(i, binSpec.size, false, calendar)) / 1e6; while(i < binEnd && pos.length < 1e6) { i2 = Axes.tickIncrement(i, binSpec.size, false, calendar); pos.push((i + i2) / 2); size.push(sizeInit); inputPoints.push([]); // nonuniform bins (like months) we need to search, // rather than straight calculate the bin we're in binEdges.push(i); // nonuniform bins also need nonuniform normalization factors if(densityNorm) inc.push(1 / (i2 - i)); if(isAvg) counts.push(0); // break to avoid infinite loops if(i2 <= i) break; i = i2; } binEdges.push(i); // for date axes we need bin bounds to be calcdata. For nonuniform bins // we already have this, but uniform with start/end/size they're still strings. if(!nonuniformBins && pa.type === 'date') { bins = { start: pr2c(bins.start), end: pr2c(bins.end), size: bins.size }; } // stash left and right gaps by group if(!gd._fullLayout._roundFnOpts) gd._fullLayout._roundFnOpts = {}; var groupName = trace['_' + mainData + 'bingroup']; var roundFnOpts = {leftGap: Infinity, rightGap: Infinity}; if(groupName) { if(!gd._fullLayout._roundFnOpts[groupName]) gd._fullLayout._roundFnOpts[groupName] = roundFnOpts; roundFnOpts = gd._fullLayout._roundFnOpts[groupName]; } // bin the data // and make histogram-specific pt-number-to-cd-index map object var nMax = size.length; var uniqueValsPerBin = true; var leftGap = roundFnOpts.leftGap; var rightGap = roundFnOpts.rightGap; var ptNumber2cdIndex = {}; for(i = 0; i < pos0.length; i++) { var posi = pos0[i]; n = Lib.findBin(posi, bins); if(n >= 0 && n < nMax) { total += binFunc(n, i, size, rawCounterData, counts); if(uniqueValsPerBin && inputPoints[n].length && posi !== pos0[inputPoints[n][0]]) { uniqueValsPerBin = false; } inputPoints[n].push(i); ptNumber2cdIndex[i] = n; leftGap = Math.min(leftGap, posi - binEdges[n]); rightGap = Math.min(rightGap, binEdges[n + 1] - posi); } } roundFnOpts.leftGap = leftGap; roundFnOpts.rightGap = rightGap; var roundFn; if(!uniqueValsPerBin) { roundFn = function(v, isRightEdge) { return function() { var roundFnOpts = gd._fullLayout._roundFnOpts[groupName]; return getBinSpanLabelRound( roundFnOpts.leftGap, roundFnOpts.rightGap, binEdges, pa, calendar )(v, isRightEdge); }; }; } // average and/or normalize the data, if needed if(isAvg) total = doAvg(size, counts); if(normFunc) normFunc(size, total, inc); // after all normalization etc, now we can accumulate if desired if(cumulativeSpec.enabled) cdf(size, cumulativeSpec.direction, cumulativeSpec.currentbin); var seriesLen = Math.min(pos.length, size.length); var cd = []; var firstNonzero = 0; var lastNonzero = seriesLen - 1; // look for empty bins at the ends to remove, so autoscale omits them for(i = 0; i < seriesLen; i++) { if(size[i]) { firstNonzero = i; break; } } for(i = seriesLen - 1; i >= firstNonzero; i--) { if(size[i]) { lastNonzero = i; break; } } // create the "calculated data" to plot for(i = firstNonzero; i <= lastNonzero; i++) { if((isNumeric(pos[i]) && isNumeric(size[i]))) { var cdi = { p: pos[i], s: size[i], b: 0 }; // setup hover and event data fields, // N.B. pts and "hover" positions ph0/ph1 don't seem to make much sense // for cumulative distributions if(!cumulativeSpec.enabled) { cdi.pts = inputPoints[i]; if(uniqueValsPerBin) { cdi.ph0 = cdi.ph1 = (inputPoints[i].length) ? pos0[inputPoints[i][0]] : pos[i]; } else { // Defer evaluation of ph(0|1) in crossTraceCalc trace._computePh = true; cdi.ph0 = roundFn(binEdges[i]); cdi.ph1 = roundFn(binEdges[i + 1], true); } } cd.push(cdi); } } if(cd.length === 1) { // when we collapse to a single bin, calcdata no longer describes bin size // so we need to explicitly specify it cd[0].width1 = Axes.tickIncrement(cd[0].p, binSpec.size, false, calendar) - cd[0].p; } arraysToCalcdata(cd, trace); if(Lib.isArrayOrTypedArray(trace.selectedpoints)) { Lib.tagSelected(cd, trace, ptNumber2cdIndex); } return cd; } /* * calcAllAutoBins: we want all histograms inside the same bingroup * (see logic in Histogram.crossTraceDefaults) to share bin specs * * If the user has explicitly specified differing * bin specs, there's nothing we can do, but if possible we will try to use the * smallest bins of any of the auto values for all histograms inside the same * bingroup. */ function calcAllAutoBins(gd, trace, pa, mainData, _overlayEdgeCase) { var binAttr = mainData + 'bins'; var fullLayout = gd._fullLayout; var groupName = trace['_' + mainData + 'bingroup']; var binOpts = fullLayout._histogramBinOpts[groupName]; var isOverlay = fullLayout.barmode === 'overlay'; var i, traces, tracei, calendar, pos0, autoVals, cumulativeSpec; var r2c = function(v) { return pa.r2c(v, 0, calendar); }; var c2r = function(v) { return pa.c2r(v, 0, calendar); }; var cleanBound = pa.type === 'date' ? function(v) { return (v || v === 0) ? Lib.cleanDate(v, null, calendar) : null; } : function(v) { return isNumeric(v) ? Number(v) : null; }; function setBound(attr, bins, newBins) { if(bins[attr + 'Found']) { bins[attr] = cleanBound(bins[attr]); if(bins[attr] === null) bins[attr] = newBins[attr]; } else { autoVals[attr] = bins[attr] = newBins[attr]; Lib.nestedProperty(traces[0], binAttr + '.' + attr).set(newBins[attr]); } } // all but the first trace in this group has already been marked finished // clear this flag, so next time we run calc we will run autobin again if(trace['_' + mainData + 'autoBinFinished']) { delete trace['_' + mainData + 'autoBinFinished']; } else { traces = binOpts.traces; var allPos = []; // Note: we're including `legendonly` traces here for autobin purposes, // so that showing & hiding from the legend won't affect bins. // But this complicates things a bit since those traces don't `calc`, // hence `isFirstVisible`. var isFirstVisible = true; var has2dMap = false; var hasHist2dContour = false; for(i = 0; i < traces.length; i++) { tracei = traces[i]; if(tracei.visible) { var mainDatai = binOpts.dirs[i]; pos0 = tracei['_' + mainDatai + 'pos0'] = pa.makeCalcdata(tracei, mainDatai); allPos = Lib.concat(allPos, pos0); delete tracei['_' + mainData + 'autoBinFinished']; if(trace.visible === true) { if(isFirstVisible) { isFirstVisible = false; } else { delete tracei._autoBin; tracei['_' + mainData + 'autoBinFinished'] = 1; } if(Registry.traceIs(tracei, '2dMap')) { has2dMap = true; } if(tracei.type === 'histogram2dcontour') { hasHist2dContour = true; } } } } calendar = traces[0][mainData + 'calendar']; var newBinSpec = Axes.autoBin(allPos, pa, binOpts.nbins, has2dMap, calendar, binOpts.sizeFound && binOpts.size); var autoBin = traces[0]._autoBin = {}; autoVals = autoBin[binOpts.dirs[0]] = {}; if(hasHist2dContour) { // the "true" 2nd argument reverses the tick direction (which we can't // just do with a minus sign because of month bins) if(!binOpts.size) { newBinSpec.start = c2r(Axes.tickIncrement( r2c(newBinSpec.start), newBinSpec.size, true, calendar)); } if(binOpts.end === undefined) { newBinSpec.end = c2r(Axes.tickIncrement( r2c(newBinSpec.end), newBinSpec.size, false, calendar)); } } // Edge case: single-valued histogram overlaying others // Use them all together to calculate the bin size for the single-valued one if(isOverlay && !Registry.traceIs(trace, '2dMap') && newBinSpec._dataSpan === 0 && pa.type !== 'category' && pa.type !== 'multicategory') { // Several single-valued histograms! Stop infinite recursion, // just return an extra flag that tells handleSingleValueOverlays // to sort out this trace too if(_overlayEdgeCase) return [newBinSpec, pos0, true]; newBinSpec = handleSingleValueOverlays(gd, trace, pa, mainData, binAttr); } // adjust for CDF edge cases cumulativeSpec = tracei.cumulative || {}; if(cumulativeSpec.enabled && (cumulativeSpec.currentbin !== 'include')) { if(cumulativeSpec.direction === 'decreasing') { newBinSpec.start = c2r(Axes.tickIncrement( r2c(newBinSpec.start), newBinSpec.size, true, calendar)); } else { newBinSpec.end = c2r(Axes.tickIncrement( r2c(newBinSpec.end), newBinSpec.size, false, calendar)); } } binOpts.size = newBinSpec.size; if(!binOpts.sizeFound) { autoVals.size = newBinSpec.size; Lib.nestedProperty(traces[0], binAttr + '.size').set(newBinSpec.size); } setBound('start', binOpts, newBinSpec); setBound('end', binOpts, newBinSpec); } pos0 = trace['_' + mainData + 'pos0']; delete trace['_' + mainData + 'pos0']; // Each trace can specify its own start/end, or if omitted // we ensure they're beyond the bounds of this trace's data, // and we need to make sure start is aligned with the main start var traceInputBins = trace._input[binAttr] || {}; var traceBinOptsCalc = Lib.extendFlat({}, binOpts); var mainStart = binOpts.start; var startIn = pa.r2l(traceInputBins.start); var hasStart = startIn !== undefined; if((binOpts.startFound || hasStart) && startIn !== pa.r2l(mainStart)) { // We have an explicit start to reconcile across traces // if this trace has an explicit start, shift it down to a bin edge // if another trace had an explicit start, shift it down to a // bin edge past our data var traceStart = hasStart ? startIn : Lib.aggNums(Math.min, null, pos0); var dummyAx = { type: (pa.type === 'category' || pa.type === 'multicategory') ? 'linear' : pa.type, r2l: pa.r2l, dtick: binOpts.size, tick0: mainStart, calendar: calendar, range: ([traceStart, Axes.tickIncrement(traceStart, binOpts.size, false, calendar)]).map(pa.l2r) }; var newStart = Axes.tickFirst(dummyAx); if(newStart > pa.r2l(traceStart)) { newStart = Axes.tickIncrement(newStart, binOpts.size, true, calendar); } traceBinOptsCalc.start = pa.l2r(newStart); if(!hasStart) Lib.nestedProperty(trace, binAttr + '.start').set(traceBinOptsCalc.start); } var mainEnd = binOpts.end; var endIn = pa.r2l(traceInputBins.end); var hasEnd = endIn !== undefined; if((binOpts.endFound || hasEnd) && endIn !== pa.r2l(mainEnd)) { // Reconciling an explicit end is easier, as it doesn't need to // match bin edges var traceEnd = hasEnd ? endIn : Lib.aggNums(Math.max, null, pos0); traceBinOptsCalc.end = pa.l2r(traceEnd); if(!hasEnd) Lib.nestedProperty(trace, binAttr + '.start').set(traceBinOptsCalc.end); } // Backward compatibility for one-time autobinning. // autobin: true is handled in cleanData, but autobin: false // needs to be here where we have determined the values. var autoBinAttr = 'autobin' + mainData; if(trace._input[autoBinAttr] === false) { trace._input[binAttr] = Lib.extendFlat({}, trace[binAttr] || {}); delete trace._input[autoBinAttr]; delete trace[autoBinAttr]; } return [traceBinOptsCalc, pos0]; } /* * Adjust single-value histograms in overlay mode to make as good a * guess as we can at autobin values the user would like. * * Returns the binSpec for the trace that sparked all this */ function handleSingleValueOverlays(gd, trace, pa, mainData, binAttr) { var fullLayout = gd._fullLayout; var overlaidTraceGroup = getConnectedHistograms(gd, trace); var pastThisTrace = false; var minSize = Infinity; var singleValuedTraces = [trace]; var i, tracei, binOpts; // first collect all the: // - min bin size from all multi-valued traces // - single-valued traces for(i = 0; i < overlaidTraceGroup.length; i++) { tracei = overlaidTraceGroup[i]; if(tracei === trace) { pastThisTrace = true; } else if(!pastThisTrace) { // This trace has already had its autobins calculated, so either: // - it is part of a bingroup // - it is NOT a single-valued trace binOpts = fullLayout._histogramBinOpts[tracei['_' + mainData + 'bingroup']]; minSize = Math.min(minSize, binOpts.size || tracei[binAttr].size); } else { var resulti = calcAllAutoBins(gd, tracei, pa, mainData, true); var binSpeci = resulti[0]; var isSingleValued = resulti[2]; // so we can use this result when we get to tracei in the normal // course of events, mark it as done and put _pos0 back tracei['_' + mainData + 'autoBinFinished'] = 1; tracei['_' + mainData + 'pos0'] = resulti[1]; if(isSingleValued) { singleValuedTraces.push(tracei); } else { minSize = Math.min(minSize, binSpeci.size); } } } // find the real data values for each single-valued trace // hunt through pos0 for the first valid value var dataVals = new Array(singleValuedTraces.length); for(i = 0; i < singleValuedTraces.length; i++) { var pos0 = singleValuedTraces[i]['_' + mainData + 'pos0']; for(var j = 0; j < pos0.length; j++) { if(pos0[j] !== undefined) { dataVals[i] = pos0[j]; break; } } } // are ALL traces are single-valued? use the min difference between // all of their values (which defaults to 1 if there's still only one) if(!isFinite(minSize)) { minSize = Lib.distinctVals(dataVals).minDiff; } // now apply the min size we found to all single-valued traces for(i = 0; i < singleValuedTraces.length; i++) { tracei = singleValuedTraces[i]; var calendar = tracei[mainData + 'calendar']; var newBins = { start: pa.c2r(dataVals[i] - minSize / 2, 0, calendar), end: pa.c2r(dataVals[i] + minSize / 2, 0, calendar), size: minSize }; tracei._input[binAttr] = tracei[binAttr] = newBins; binOpts = fullLayout._histogramBinOpts[tracei['_' + mainData + 'bingroup']]; if(binOpts) Lib.extendFlat(binOpts, newBins); } return trace[binAttr]; } /* * Return an array of histograms that share axes and orientation. * * Only considers histograms. In principle we could include bars in a * similar way to how we do manually binned histograms, though this * would have tons of edge cases and value judgments to make. */ function getConnectedHistograms(gd, trace) { var xid = trace.xaxis; var yid = trace.yaxis; var orientation = trace.orientation; var out = []; var fullData = gd._fullData; for(var i = 0; i < fullData.length; i++) { var tracei = fullData[i]; if(tracei.type === 'histogram' && tracei.visible === true && tracei.orientation === orientation && tracei.xaxis === xid && tracei.yaxis === yid ) { out.push(tracei); } } return out; } function cdf(size, direction, currentBin) { var i, vi, prevSum; function firstHalfPoint(i) { prevSum = size[i]; size[i] /= 2; } function nextHalfPoint(i) { vi = size[i]; size[i] = prevSum + vi / 2; prevSum += vi; } if(currentBin === 'half') { if(direction === 'increasing') { firstHalfPoint(0); for(i = 1; i < size.length; i++) { nextHalfPoint(i); } } else { firstHalfPoint(size.length - 1); for(i = size.length - 2; i >= 0; i--) { nextHalfPoint(i); } } } else if(direction === 'increasing') { for(i = 1; i < size.length; i++) { size[i] += size[i - 1]; } // 'exclude' is identical to 'include' just shifted one bin over if(currentBin === 'exclude') { size.unshift(0); size.pop(); } } else { for(i = size.length - 2; i >= 0; i--) { size[i] += size[i + 1]; } if(currentBin === 'exclude') { size.push(0); size.shift(); } } } module.exports = { calc: calc, calcAllAutoBins: calcAllAutoBins }; },{"../../lib":287,"../../plots/cartesian/axes":334,"../../registry":378,"../bar/arrays_to_calcdata":387,"./average":456,"./bin_functions":458,"./bin_label_vals":459,"./norm_functions":467,"fast-isnumeric":33}],461:[function(_dereq_,module,exports){ 'use strict'; module.exports = { eventDataKeys: ['binNumber'] }; },{}],462:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var axisIds = _dereq_('../../plots/cartesian/axis_ids'); var traceIs = _dereq_('../../registry').traceIs; var handleGroupingDefaults = _dereq_('../bar/defaults').handleGroupingDefaults; var nestedProperty = Lib.nestedProperty; var getAxisGroup = _dereq_('../../plots/cartesian/constraints').getAxisGroup; var BINATTRS = [ {aStr: {x: 'xbins.start', y: 'ybins.start'}, name: 'start'}, {aStr: {x: 'xbins.end', y: 'ybins.end'}, name: 'end'}, {aStr: {x: 'xbins.size', y: 'ybins.size'}, name: 'size'}, {aStr: {x: 'nbinsx', y: 'nbinsy'}, name: 'nbins'} ]; var BINDIRECTIONS = ['x', 'y']; // handle bin attrs and relink auto-determined values so fullData is complete module.exports = function crossTraceDefaults(fullData, fullLayout) { var allBinOpts = fullLayout._histogramBinOpts = {}; var histTraces = []; var mustMatchTracesLookup = {}; var otherTracesList = []; var traceOut, traces, groupName, binDir; var i, j, k; function coerce(attr, dflt) { return Lib.coerce(traceOut._input, traceOut, traceOut._module.attributes, attr, dflt); } function orientation2binDir(traceOut) { return traceOut.orientation === 'v' ? 'x' : 'y'; } function getAxisType(traceOut, binDir) { var ax = axisIds.getFromTrace({_fullLayout: fullLayout}, traceOut, binDir); return ax.type; } function fillBinOpts(traceOut, groupName, binDir) { // N.B. group traces that don't have a bingroup with themselves var fallbackGroupName = traceOut.uid + '__' + binDir; if(!groupName) groupName = fallbackGroupName; var axType = getAxisType(traceOut, binDir); var calendar = traceOut[binDir + 'calendar'] || ''; var binOpts = allBinOpts[groupName]; var needsNewItem = true; if(binOpts) { if(axType === binOpts.axType && calendar === binOpts.calendar) { needsNewItem = false; binOpts.traces.push(traceOut); binOpts.dirs.push(binDir); } else { groupName = fallbackGroupName; if(axType !== binOpts.axType) { Lib.warn([ 'Attempted to group the bins of trace', traceOut.index, 'set on a', 'type:' + axType, 'axis', 'with bins on', 'type:' + binOpts.axType, 'axis.' ].join(' ')); } if(calendar !== binOpts.calendar) { // prohibit bingroup for traces using different calendar, // there's probably a way to make this work, but skip for now Lib.warn([ 'Attempted to group the bins of trace', traceOut.index, 'set with a', calendar, 'calendar', 'with bins', (binOpts.calendar ? 'on a ' + binOpts.calendar + ' calendar' : 'w/o a set calendar') ].join(' ')); } } } if(needsNewItem) { allBinOpts[groupName] = { traces: [traceOut], dirs: [binDir], axType: axType, calendar: traceOut[binDir + 'calendar'] || '' }; } traceOut['_' + binDir + 'bingroup'] = groupName; } for(i = 0; i < fullData.length; i++) { traceOut = fullData[i]; if(traceIs(traceOut, 'histogram')) { histTraces.push(traceOut); // TODO: this shouldn't be relinked as it's only used within calc // https://github.com/plotly/plotly.js/issues/749 delete traceOut._xautoBinFinished; delete traceOut._yautoBinFinished; // N.B. need to coerce *alignmentgroup* before *bingroup*, as traces // in same alignmentgroup "have to match" if(!traceIs(traceOut, '2dMap')) { handleGroupingDefaults(traceOut._input, traceOut, fullLayout, coerce); } } } var alignmentOpts = fullLayout._alignmentOpts || {}; // Look for traces that "have to match", that is: // - 1d histogram traces on the same subplot with same orientation under barmode:stack, // - 1d histogram traces on the same subplot with same orientation under barmode:group // - 1d histogram traces on the same position axis with the same orientation // and the same *alignmentgroup* (coerced under barmode:group) // - Once `stackgroup` gets implemented (see https://github.com/plotly/plotly.js/issues/3614), // traces within the same stackgroup will also "have to match" for(i = 0; i < histTraces.length; i++) { traceOut = histTraces[i]; groupName = ''; if(!traceIs(traceOut, '2dMap')) { binDir = orientation2binDir(traceOut); if(fullLayout.barmode === 'group' && traceOut.alignmentgroup) { var pa = traceOut[binDir + 'axis']; var aGroupId = getAxisGroup(fullLayout, pa) + traceOut.orientation; if((alignmentOpts[aGroupId] || {})[traceOut.alignmentgroup]) { groupName = aGroupId; } } if(!groupName && fullLayout.barmode !== 'overlay') { groupName = ( getAxisGroup(fullLayout, traceOut.xaxis) + getAxisGroup(fullLayout, traceOut.yaxis) + orientation2binDir(traceOut) ); } } if(groupName) { if(!mustMatchTracesLookup[groupName]) { mustMatchTracesLookup[groupName] = []; } mustMatchTracesLookup[groupName].push(traceOut); } else { otherTracesList.push(traceOut); } } // Setup binOpts for traces that have to match, // if the traces have a valid bingroup, use that // if not use axis+binDir groupName for(groupName in mustMatchTracesLookup) { traces = mustMatchTracesLookup[groupName]; // no need to 'force' anything when a single // trace is detected as "must match" if(traces.length === 1) { otherTracesList.push(traces[0]); continue; } var binGroupFound = false; if(traces.length) { traceOut = traces[0]; binGroupFound = coerce('bingroup'); } groupName = binGroupFound || groupName; for(i = 0; i < traces.length; i++) { traceOut = traces[i]; var bingroupIn = traceOut._input.bingroup; if(bingroupIn && bingroupIn !== groupName) { Lib.warn([ 'Trace', traceOut.index, 'must match', 'within bingroup', groupName + '.', 'Ignoring its bingroup:', bingroupIn, 'setting.' ].join(' ')); } traceOut.bingroup = groupName; // N.B. no need to worry about 2dMap case // (where both bin direction are set in each trace) // as 2dMap trace never "have to match" fillBinOpts(traceOut, groupName, orientation2binDir(traceOut)); } } // setup binOpts for traces that can but don't have to match, // notice that these traces can be matched with traces that have to match for(i = 0; i < otherTracesList.length; i++) { traceOut = otherTracesList[i]; var binGroup = coerce('bingroup'); if(traceIs(traceOut, '2dMap')) { for(k = 0; k < 2; k++) { binDir = BINDIRECTIONS[k]; var binGroupInDir = coerce(binDir + 'bingroup', binGroup ? binGroup + '__' + binDir : null ); fillBinOpts(traceOut, binGroupInDir, binDir); } } else { fillBinOpts(traceOut, binGroup, orientation2binDir(traceOut)); } } // coerce bin attrs! for(groupName in allBinOpts) { var binOpts = allBinOpts[groupName]; traces = binOpts.traces; for(j = 0; j < BINATTRS.length; j++) { var attrSpec = BINATTRS[j]; var attr = attrSpec.name; var aStr; var autoVals; // nbins(x|y) is moot if we have a size. This depends on // nbins coming after size in binAttrs. if(attr === 'nbins' && binOpts.sizeFound) continue; for(i = 0; i < traces.length; i++) { traceOut = traces[i]; binDir = binOpts.dirs[i]; aStr = attrSpec.aStr[binDir]; if(nestedProperty(traceOut._input, aStr).get() !== undefined) { binOpts[attr] = coerce(aStr); binOpts[attr + 'Found'] = true; break; } autoVals = (traceOut._autoBin || {})[binDir] || {}; if(autoVals[attr]) { // if this is the *first* autoval nestedProperty(traceOut, aStr).set(autoVals[attr]); } } // start and end we need to coerce anyway, after having collected the // first of each into binOpts, in case a trace wants to restrict its // data to a certain range if(attr === 'start' || attr === 'end') { for(; i < traces.length; i++) { traceOut = traces[i]; if(traceOut['_' + binDir + 'bingroup']) { autoVals = (traceOut._autoBin || {})[binDir] || {}; coerce(aStr, autoVals[attr]); } } } if(attr === 'nbins' && !binOpts.sizeFound && !binOpts.nbinsFound) { traceOut = traces[0]; binOpts[attr] = coerce(aStr); } } } }; },{"../../lib":287,"../../plots/cartesian/axis_ids":338,"../../plots/cartesian/constraints":342,"../../registry":378,"../bar/defaults":392}],463:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var Color = _dereq_('../../components/color'); var handleText = _dereq_('../bar/defaults').handleText; var handleStyleDefaults = _dereq_('../bar/style_defaults'); var attributes = _dereq_('./attributes'); module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } var x = coerce('x'); var y = coerce('y'); var cumulative = coerce('cumulative.enabled'); if(cumulative) { coerce('cumulative.direction'); coerce('cumulative.currentbin'); } coerce('text'); var textposition = coerce('textposition'); handleText(traceIn, traceOut, layout, coerce, textposition, { moduleHasSelected: true, moduleHasUnselected: true, moduleHasConstrain: true, moduleHasCliponaxis: true, moduleHasTextangle: true, moduleHasInsideanchor: true }); coerce('hovertext'); coerce('hovertemplate'); coerce('xhoverformat'); coerce('yhoverformat'); var orientation = coerce('orientation', (y && !x) ? 'h' : 'v'); var sampleLetter = orientation === 'v' ? 'x' : 'y'; var aggLetter = orientation === 'v' ? 'y' : 'x'; var len = (x && y) ? Math.min(Lib.minRowLength(x) && Lib.minRowLength(y)) : Lib.minRowLength(traceOut[sampleLetter] || []); if(!len) { traceOut.visible = false; return; } traceOut._length = len; var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults'); handleCalendarDefaults(traceIn, traceOut, ['x', 'y'], layout); var hasAggregationData = traceOut[aggLetter]; if(hasAggregationData) coerce('histfunc'); coerce('histnorm'); // Note: bin defaults are now handled in Histogram.crossTraceDefaults // autobin(x|y) are only included here to appease Plotly.validate coerce('autobin' + sampleLetter); handleStyleDefaults(traceIn, traceOut, coerce, defaultColor, layout); Lib.coerceSelectionMarkerOpacity(traceOut, coerce); var lineColor = (traceOut.marker.line || {}).color; // override defaultColor for error bars with defaultLine var errorBarsSupplyDefaults = Registry.getComponentMethod('errorbars', 'supplyDefaults'); errorBarsSupplyDefaults(traceIn, traceOut, lineColor || Color.defaultLine, {axis: 'y'}); errorBarsSupplyDefaults(traceIn, traceOut, lineColor || Color.defaultLine, {axis: 'x', inherit: 'y'}); }; },{"../../components/color":157,"../../lib":287,"../../registry":378,"../bar/defaults":392,"../bar/style_defaults":403,"./attributes":455}],464:[function(_dereq_,module,exports){ 'use strict'; module.exports = function eventData(out, pt, trace, cd, pointNumber) { // standard cartesian event data out.x = 'xVal' in pt ? pt.xVal : pt.x; out.y = 'yVal' in pt ? pt.yVal : pt.y; // for 2d histograms if('zLabelVal' in pt) out.z = pt.zLabelVal; if(pt.xa) out.xaxis = pt.xa; if(pt.ya) out.yaxis = pt.ya; // specific to histogram - CDFs do not have pts (yet?) if(!(trace.cumulative || {}).enabled) { var pts = Array.isArray(pointNumber) ? cd[0].pts[pointNumber[0]][pointNumber[1]] : cd[pointNumber].pts; out.pointNumbers = pts; out.binNumber = out.pointNumber; delete out.pointNumber; delete out.pointIndex; var pointIndices; if(trace._indexToPoints) { pointIndices = []; for(var i = 0; i < pts.length; i++) { pointIndices = pointIndices.concat(trace._indexToPoints[pts[i]]); } } else { pointIndices = pts; } out.pointIndices = pointIndices; } return out; }; },{}],465:[function(_dereq_,module,exports){ 'use strict'; var barHover = _dereq_('../bar/hover').hoverPoints; var hoverLabelText = _dereq_('../../plots/cartesian/axes').hoverLabelText; module.exports = function hoverPoints(pointData, xval, yval, hovermode, opts) { var pts = barHover(pointData, xval, yval, hovermode, opts); if(!pts) return; pointData = pts[0]; var di = pointData.cd[pointData.index]; var trace = pointData.cd[0].trace; if(!trace.cumulative.enabled) { var posLetter = trace.orientation === 'h' ? 'y' : 'x'; pointData[posLetter + 'Label'] = hoverLabelText(pointData[posLetter + 'a'], [di.ph0, di.ph1], trace[posLetter + 'hoverformat']); } return pts; }; },{"../../plots/cartesian/axes":334,"../bar/hover":395}],466:[function(_dereq_,module,exports){ 'use strict'; /** * Histogram has its own attribute, defaults and calc steps, * but uses bar's plot to display * and bar's crossTraceCalc (formerly known as setPositions) for stacking and grouping */ /** * histogram errorBarsOK is debatable, but it's put in for backward compat. * there are use cases for it - sqrt for a simple histogram works right now, * constant and % work but they're not so meaningful. I guess it could be cool * to allow quadrature combination of errors in summed histograms... */ module.exports = { attributes: _dereq_('./attributes'), layoutAttributes: _dereq_('../bar/layout_attributes'), supplyDefaults: _dereq_('./defaults'), crossTraceDefaults: _dereq_('./cross_trace_defaults'), supplyLayoutDefaults: _dereq_('../bar/layout_defaults'), calc: _dereq_('./calc').calc, crossTraceCalc: _dereq_('../bar/cross_trace_calc').crossTraceCalc, plot: _dereq_('../bar/plot').plot, layerName: 'barlayer', style: _dereq_('../bar/style').style, styleOnSelect: _dereq_('../bar/style').styleOnSelect, colorbar: _dereq_('../scatter/marker_colorbar'), hoverPoints: _dereq_('./hover'), selectPoints: _dereq_('../bar/select'), eventData: _dereq_('./event_data'), moduleType: 'trace', name: 'histogram', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['bar-like', 'cartesian', 'svg', 'bar', 'histogram', 'oriented', 'errorBarsOK', 'showLegend'], meta: { } }; },{"../../plots/cartesian":348,"../bar/cross_trace_calc":391,"../bar/layout_attributes":397,"../bar/layout_defaults":398,"../bar/plot":399,"../bar/select":400,"../bar/style":402,"../scatter/marker_colorbar":518,"./attributes":455,"./calc":460,"./cross_trace_defaults":462,"./defaults":463,"./event_data":464,"./hover":465}],467:[function(_dereq_,module,exports){ 'use strict'; module.exports = { percent: function(size, total) { var nMax = size.length; var norm = 100 / total; for(var n = 0; n < nMax; n++) size[n] *= norm; }, probability: function(size, total) { var nMax = size.length; for(var n = 0; n < nMax; n++) size[n] /= total; }, density: function(size, total, inc, yinc) { var nMax = size.length; yinc = yinc || 1; for(var n = 0; n < nMax; n++) size[n] *= inc[n] * yinc; }, 'probability density': function(size, total, inc, yinc) { var nMax = size.length; if(yinc) total /= yinc; for(var n = 0; n < nMax; n++) size[n] *= inc[n] / total; } }; },{}],468:[function(_dereq_,module,exports){ 'use strict'; var histogramAttrs = _dereq_('../histogram/attributes'); var makeBinAttrs = _dereq_('../histogram/bin_attributes'); var heatmapAttrs = _dereq_('../heatmap/attributes'); var baseAttrs = _dereq_('../../plots/attributes'); var axisHoverFormat = _dereq_('../../plots/cartesian/axis_format_attributes').axisHoverFormat; var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var texttemplateAttrs = _dereq_('../../plots/template_attributes').texttemplateAttrs; var colorScaleAttrs = _dereq_('../../components/colorscale/attributes'); var extendFlat = _dereq_('../../lib/extend').extendFlat; module.exports = extendFlat( { x: histogramAttrs.x, y: histogramAttrs.y, z: { valType: 'data_array', editType: 'calc', }, marker: { color: { valType: 'data_array', editType: 'calc', }, editType: 'calc' }, histnorm: histogramAttrs.histnorm, histfunc: histogramAttrs.histfunc, nbinsx: histogramAttrs.nbinsx, xbins: makeBinAttrs('x'), nbinsy: histogramAttrs.nbinsy, ybins: makeBinAttrs('y'), autobinx: histogramAttrs.autobinx, autobiny: histogramAttrs.autobiny, bingroup: extendFlat({}, histogramAttrs.bingroup, { }), xbingroup: extendFlat({}, histogramAttrs.bingroup, { }), ybingroup: extendFlat({}, histogramAttrs.bingroup, { }), xgap: heatmapAttrs.xgap, ygap: heatmapAttrs.ygap, zsmooth: heatmapAttrs.zsmooth, xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), zhoverformat: axisHoverFormat('z', 1), hovertemplate: hovertemplateAttrs({}, {keys: 'z'}), texttemplate: texttemplateAttrs({ arrayOk: false, editType: 'plot' }, { keys: 'z' }), textfont: heatmapAttrs.textfont, showlegend: extendFlat({}, baseAttrs.showlegend, {dflt: false}) }, colorScaleAttrs('', {cLetter: 'z', autoColorDflt: false}) ); },{"../../components/colorscale/attributes":164,"../../lib/extend":281,"../../plots/attributes":330,"../../plots/cartesian/axis_format_attributes":337,"../../plots/template_attributes":373,"../heatmap/attributes":439,"../histogram/attributes":455,"../histogram/bin_attributes":457}],469:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var binFunctions = _dereq_('../histogram/bin_functions'); var normFunctions = _dereq_('../histogram/norm_functions'); var doAvg = _dereq_('../histogram/average'); var getBinSpanLabelRound = _dereq_('../histogram/bin_label_vals'); var calcAllAutoBins = _dereq_('../histogram/calc').calcAllAutoBins; module.exports = function calc(gd, trace) { var xa = Axes.getFromId(gd, trace.xaxis); var ya = Axes.getFromId(gd, trace.yaxis); var xcalendar = trace.xcalendar; var ycalendar = trace.ycalendar; var xr2c = function(v) { return xa.r2c(v, 0, xcalendar); }; var yr2c = function(v) { return ya.r2c(v, 0, ycalendar); }; var xc2r = function(v) { return xa.c2r(v, 0, xcalendar); }; var yc2r = function(v) { return ya.c2r(v, 0, ycalendar); }; var i, j, n, m; // calculate the bins var xBinsAndPos = calcAllAutoBins(gd, trace, xa, 'x'); var xBinSpec = xBinsAndPos[0]; var xPos0 = xBinsAndPos[1]; var yBinsAndPos = calcAllAutoBins(gd, trace, ya, 'y'); var yBinSpec = yBinsAndPos[0]; var yPos0 = yBinsAndPos[1]; var serieslen = trace._length; if(xPos0.length > serieslen) xPos0.splice(serieslen, xPos0.length - serieslen); if(yPos0.length > serieslen) yPos0.splice(serieslen, yPos0.length - serieslen); // make the empty bin array & scale the map var z = []; var onecol = []; var zerocol = []; var nonuniformBinsX = typeof xBinSpec.size === 'string'; var nonuniformBinsY = typeof yBinSpec.size === 'string'; var xEdges = []; var yEdges = []; var xbins = nonuniformBinsX ? xEdges : xBinSpec; var ybins = nonuniformBinsY ? yEdges : yBinSpec; var total = 0; var counts = []; var inputPoints = []; var norm = trace.histnorm; var func = trace.histfunc; var densitynorm = norm.indexOf('density') !== -1; var extremefunc = func === 'max' || func === 'min'; var sizeinit = extremefunc ? null : 0; var binfunc = binFunctions.count; var normfunc = normFunctions[norm]; var doavg = false; var xinc = []; var yinc = []; // set a binning function other than count? // for binning functions: check first for 'z', // then 'mc' in case we had a colored scatter plot // and want to transfer these colors to the 2D histo // TODO: axe this, make it the responsibility of the app changing type? or an impliedEdit? var rawCounterData = ('z' in trace) ? trace.z : (('marker' in trace && Array.isArray(trace.marker.color)) ? trace.marker.color : ''); if(rawCounterData && func !== 'count') { doavg = func === 'avg'; binfunc = binFunctions[func]; } // decrease end a little in case of rounding errors var xBinSize = xBinSpec.size; var xBinStart = xr2c(xBinSpec.start); var xBinEnd = xr2c(xBinSpec.end) + (xBinStart - Axes.tickIncrement(xBinStart, xBinSize, false, xcalendar)) / 1e6; for(i = xBinStart; i < xBinEnd; i = Axes.tickIncrement(i, xBinSize, false, xcalendar)) { onecol.push(sizeinit); xEdges.push(i); if(doavg) zerocol.push(0); } xEdges.push(i); var nx = onecol.length; var dx = (i - xBinStart) / nx; var x0 = xc2r(xBinStart + dx / 2); var yBinSize = yBinSpec.size; var yBinStart = yr2c(yBinSpec.start); var yBinEnd = yr2c(yBinSpec.end) + (yBinStart - Axes.tickIncrement(yBinStart, yBinSize, false, ycalendar)) / 1e6; for(i = yBinStart; i < yBinEnd; i = Axes.tickIncrement(i, yBinSize, false, ycalendar)) { z.push(onecol.slice()); yEdges.push(i); var ipCol = new Array(nx); for(j = 0; j < nx; j++) ipCol[j] = []; inputPoints.push(ipCol); if(doavg) counts.push(zerocol.slice()); } yEdges.push(i); var ny = z.length; var dy = (i - yBinStart) / ny; var y0 = yc2r(yBinStart + dy / 2); if(densitynorm) { xinc = makeIncrements(onecol.length, xbins, dx, nonuniformBinsX); yinc = makeIncrements(z.length, ybins, dy, nonuniformBinsY); } // for date axes we need bin bounds to be calcdata. For nonuniform bins // we already have this, but uniform with start/end/size they're still strings. if(!nonuniformBinsX && xa.type === 'date') xbins = binsToCalc(xr2c, xbins); if(!nonuniformBinsY && ya.type === 'date') ybins = binsToCalc(yr2c, ybins); // put data into bins var uniqueValsPerX = true; var uniqueValsPerY = true; var xVals = new Array(nx); var yVals = new Array(ny); var xGapLow = Infinity; var xGapHigh = Infinity; var yGapLow = Infinity; var yGapHigh = Infinity; for(i = 0; i < serieslen; i++) { var xi = xPos0[i]; var yi = yPos0[i]; n = Lib.findBin(xi, xbins); m = Lib.findBin(yi, ybins); if(n >= 0 && n < nx && m >= 0 && m < ny) { total += binfunc(n, i, z[m], rawCounterData, counts[m]); inputPoints[m][n].push(i); if(uniqueValsPerX) { if(xVals[n] === undefined) xVals[n] = xi; else if(xVals[n] !== xi) uniqueValsPerX = false; } if(uniqueValsPerY) { if(yVals[m] === undefined) yVals[m] = yi; else if(yVals[m] !== yi) uniqueValsPerY = false; } xGapLow = Math.min(xGapLow, xi - xEdges[n]); xGapHigh = Math.min(xGapHigh, xEdges[n + 1] - xi); yGapLow = Math.min(yGapLow, yi - yEdges[m]); yGapHigh = Math.min(yGapHigh, yEdges[m + 1] - yi); } } // normalize, if needed if(doavg) { for(m = 0; m < ny; m++) total += doAvg(z[m], counts[m]); } if(normfunc) { for(m = 0; m < ny; m++) normfunc(z[m], total, xinc, yinc[m]); } return { x: xPos0, xRanges: getRanges(xEdges, uniqueValsPerX && xVals, xGapLow, xGapHigh, xa, xcalendar), x0: x0, dx: dx, y: yPos0, yRanges: getRanges(yEdges, uniqueValsPerY && yVals, yGapLow, yGapHigh, ya, ycalendar), y0: y0, dy: dy, z: z, pts: inputPoints }; }; function makeIncrements(len, bins, dv, nonuniform) { var out = new Array(len); var i; if(nonuniform) { for(i = 0; i < len; i++) out[i] = 1 / (bins[i + 1] - bins[i]); } else { var inc = 1 / dv; for(i = 0; i < len; i++) out[i] = inc; } return out; } function binsToCalc(r2c, bins) { return { start: r2c(bins.start), end: r2c(bins.end), size: bins.size }; } function getRanges(edges, uniqueVals, gapLow, gapHigh, ax, calendar) { var i; var len = edges.length - 1; var out = new Array(len); var roundFn = getBinSpanLabelRound(gapLow, gapHigh, edges, ax, calendar); for(i = 0; i < len; i++) { var v = (uniqueVals || [])[i]; out[i] = v === undefined ? [roundFn(edges[i]), roundFn(edges[i + 1], true)] : [v, v]; } return out; } },{"../../lib":287,"../../plots/cartesian/axes":334,"../histogram/average":456,"../histogram/bin_functions":458,"../histogram/bin_label_vals":459,"../histogram/calc":460,"../histogram/norm_functions":467}],470:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var handleSampleDefaults = _dereq_('./sample_defaults'); var handleStyleDefaults = _dereq_('../heatmap/style_defaults'); var colorscaleDefaults = _dereq_('../../components/colorscale/defaults'); var handleHeatmapLabelDefaults = _dereq_('../heatmap/label_defaults'); var attributes = _dereq_('./attributes'); module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } handleSampleDefaults(traceIn, traceOut, coerce, layout); if(traceOut.visible === false) return; handleStyleDefaults(traceIn, traceOut, coerce, layout); colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: '', cLetter: 'z'}); coerce('hovertemplate'); handleHeatmapLabelDefaults(coerce, layout); coerce('xhoverformat'); coerce('yhoverformat'); }; },{"../../components/colorscale/defaults":167,"../../lib":287,"../heatmap/label_defaults":449,"../heatmap/style_defaults":453,"./attributes":468,"./sample_defaults":473}],471:[function(_dereq_,module,exports){ 'use strict'; var heatmapHover = _dereq_('../heatmap/hover'); var hoverLabelText = _dereq_('../../plots/cartesian/axes').hoverLabelText; module.exports = function hoverPoints(pointData, xval, yval, hovermode, opts) { var pts = heatmapHover(pointData, xval, yval, hovermode, opts); if(!pts) return; pointData = pts[0]; var indices = pointData.index; var ny = indices[0]; var nx = indices[1]; var cd0 = pointData.cd[0]; var trace = cd0.trace; var xRange = cd0.xRanges[nx]; var yRange = cd0.yRanges[ny]; pointData.xLabel = hoverLabelText(pointData.xa, [xRange[0], xRange[1]], trace.xhoverformat); pointData.yLabel = hoverLabelText(pointData.ya, [yRange[0], yRange[1]], trace.yhoverformat); return pts; }; },{"../../plots/cartesian/axes":334,"../heatmap/hover":446}],472:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults'), crossTraceDefaults: _dereq_('../histogram/cross_trace_defaults'), calc: _dereq_('../heatmap/calc'), plot: _dereq_('../heatmap/plot'), layerName: 'heatmaplayer', colorbar: _dereq_('../heatmap/colorbar'), style: _dereq_('../heatmap/style'), hoverPoints: _dereq_('./hover'), eventData: _dereq_('../histogram/event_data'), moduleType: 'trace', name: 'histogram2d', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['cartesian', 'svg', '2dMap', 'histogram', 'showLegend'], meta: { } }; },{"../../plots/cartesian":348,"../heatmap/calc":440,"../heatmap/colorbar":442,"../heatmap/plot":451,"../heatmap/style":452,"../histogram/cross_trace_defaults":462,"../histogram/event_data":464,"./attributes":468,"./defaults":470,"./hover":471}],473:[function(_dereq_,module,exports){ 'use strict'; var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); module.exports = function handleSampleDefaults(traceIn, traceOut, coerce, layout) { var x = coerce('x'); var y = coerce('y'); var xlen = Lib.minRowLength(x); var ylen = Lib.minRowLength(y); // we could try to accept x0 and dx, etc... // but that's a pretty weird use case. // for now require both x and y explicitly specified. if(!xlen || !ylen) { traceOut.visible = false; return; } traceOut._length = Math.min(xlen, ylen); var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults'); handleCalendarDefaults(traceIn, traceOut, ['x', 'y'], layout); // if marker.color is an array, we can use it in aggregation instead of z var hasAggregationData = coerce('z') || coerce('marker.color'); if(hasAggregationData) coerce('histfunc'); coerce('histnorm'); // Note: bin defaults are now handled in Histogram2D.crossTraceDefaults // autobin(x|y) are only included here to appease Plotly.validate coerce('autobinx'); coerce('autobiny'); }; },{"../../lib":287,"../../registry":378}],474:[function(_dereq_,module,exports){ 'use strict'; var histogram2dAttrs = _dereq_('../histogram2d/attributes'); var contourAttrs = _dereq_('../contour/attributes'); var colorScaleAttrs = _dereq_('../../components/colorscale/attributes'); var axisHoverFormat = _dereq_('../../plots/cartesian/axis_format_attributes').axisHoverFormat; var extendFlat = _dereq_('../../lib/extend').extendFlat; module.exports = extendFlat({ x: histogram2dAttrs.x, y: histogram2dAttrs.y, z: histogram2dAttrs.z, marker: histogram2dAttrs.marker, histnorm: histogram2dAttrs.histnorm, histfunc: histogram2dAttrs.histfunc, nbinsx: histogram2dAttrs.nbinsx, xbins: histogram2dAttrs.xbins, nbinsy: histogram2dAttrs.nbinsy, ybins: histogram2dAttrs.ybins, autobinx: histogram2dAttrs.autobinx, autobiny: histogram2dAttrs.autobiny, bingroup: histogram2dAttrs.bingroup, xbingroup: histogram2dAttrs.xbingroup, ybingroup: histogram2dAttrs.ybingroup, autocontour: contourAttrs.autocontour, ncontours: contourAttrs.ncontours, contours: contourAttrs.contours, line: { color: contourAttrs.line.color, width: extendFlat({}, contourAttrs.line.width, { dflt: 0.5, }), dash: contourAttrs.line.dash, smoothing: contourAttrs.line.smoothing, editType: 'plot' }, xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), zhoverformat: axisHoverFormat('z', 1), hovertemplate: histogram2dAttrs.hovertemplate, texttemplate: contourAttrs.texttemplate, textfont: contourAttrs.textfont }, colorScaleAttrs('', { cLetter: 'z', editTypeOverride: 'calc' }) ); },{"../../components/colorscale/attributes":164,"../../lib/extend":281,"../../plots/cartesian/axis_format_attributes":337,"../contour/attributes":417,"../histogram2d/attributes":468}],475:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var handleSampleDefaults = _dereq_('../histogram2d/sample_defaults'); var handleContoursDefaults = _dereq_('../contour/contours_defaults'); var handleStyleDefaults = _dereq_('../contour/style_defaults'); var handleHeatmapLabelDefaults = _dereq_('../heatmap/label_defaults'); var attributes = _dereq_('./attributes'); module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } function coerce2(attr) { return Lib.coerce2(traceIn, traceOut, attributes, attr); } handleSampleDefaults(traceIn, traceOut, coerce, layout); if(traceOut.visible === false) return; handleContoursDefaults(traceIn, traceOut, coerce, coerce2); handleStyleDefaults(traceIn, traceOut, coerce, layout); coerce('xhoverformat'); coerce('yhoverformat'); coerce('hovertemplate'); if( traceOut.contours && traceOut.contours.coloring === 'heatmap' ) { handleHeatmapLabelDefaults(coerce, layout); } }; },{"../../lib":287,"../contour/contours_defaults":424,"../contour/style_defaults":438,"../heatmap/label_defaults":449,"../histogram2d/sample_defaults":473,"./attributes":474}],476:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults'), crossTraceDefaults: _dereq_('../histogram/cross_trace_defaults'), calc: _dereq_('../contour/calc'), plot: _dereq_('../contour/plot').plot, layerName: 'contourlayer', style: _dereq_('../contour/style'), colorbar: _dereq_('../contour/colorbar'), hoverPoints: _dereq_('../contour/hover'), moduleType: 'trace', name: 'histogram2dcontour', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['cartesian', 'svg', '2dMap', 'contour', 'histogram', 'showLegend'], meta: { } }; },{"../../plots/cartesian":348,"../contour/calc":418,"../contour/colorbar":420,"../contour/hover":430,"../contour/plot":435,"../contour/style":437,"../histogram/cross_trace_defaults":462,"./attributes":474,"./defaults":475}],477:[function(_dereq_,module,exports){ 'use strict'; var baseAttrs = _dereq_('../../plots/attributes'); var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var extendFlat = _dereq_('../../lib/extend').extendFlat; var colormodel = _dereq_('./constants').colormodel; var cm = ['rgb', 'rgba', 'rgba256', 'hsl', 'hsla']; var zminDesc = []; var zmaxDesc = []; for(var i = 0; i < cm.length; i++) { var cr = colormodel[cm[i]]; zminDesc.push('For the `' + cm[i] + '` colormodel, it is [' + (cr.zminDflt || cr.min).join(', ') + '].'); zmaxDesc.push('For the `' + cm[i] + '` colormodel, it is [' + (cr.zmaxDflt || cr.max).join(', ') + '].'); } module.exports = extendFlat({ source: { valType: 'string', editType: 'calc', }, z: { valType: 'data_array', editType: 'calc', }, colormodel: { valType: 'enumerated', values: cm, editType: 'calc', }, zsmooth: { valType: 'enumerated', values: ['fast', false], dflt: false, editType: 'plot', }, zmin: { valType: 'info_array', items: [ {valType: 'number', editType: 'calc'}, {valType: 'number', editType: 'calc'}, {valType: 'number', editType: 'calc'}, {valType: 'number', editType: 'calc'} ], editType: 'calc', }, zmax: { valType: 'info_array', items: [ {valType: 'number', editType: 'calc'}, {valType: 'number', editType: 'calc'}, {valType: 'number', editType: 'calc'}, {valType: 'number', editType: 'calc'} ], editType: 'calc', }, x0: { valType: 'any', dflt: 0, editType: 'calc+clearAxisTypes', }, y0: { valType: 'any', dflt: 0, editType: 'calc+clearAxisTypes', }, dx: { valType: 'number', dflt: 1, editType: 'calc', }, dy: { valType: 'number', dflt: 1, editType: 'calc', }, text: { valType: 'data_array', editType: 'plot', }, hovertext: { valType: 'data_array', editType: 'plot', }, hoverinfo: extendFlat({}, baseAttrs.hoverinfo, { flags: ['x', 'y', 'z', 'color', 'name', 'text'], dflt: 'x+y+z+text+name' }), hovertemplate: hovertemplateAttrs({}, { keys: ['z', 'color', 'colormodel'] }), transforms: undefined }); },{"../../lib/extend":281,"../../plots/attributes":330,"../../plots/template_attributes":373,"./constants":479}],478:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var constants = _dereq_('./constants'); var isNumeric = _dereq_('fast-isnumeric'); var Axes = _dereq_('../../plots/cartesian/axes'); var maxRowLength = _dereq_('../../lib').maxRowLength; var getImageSize = _dereq_('./helpers').getImageSize; module.exports = function calc(gd, trace) { var h; var w; if(trace._hasZ) { h = trace.z.length; w = maxRowLength(trace.z); } else if(trace._hasSource) { var size = getImageSize(trace.source); h = size.height; w = size.width; } var xa = Axes.getFromId(gd, trace.xaxis || 'x'); var ya = Axes.getFromId(gd, trace.yaxis || 'y'); var x0 = xa.d2c(trace.x0) - trace.dx / 2; var y0 = ya.d2c(trace.y0) - trace.dy / 2; // Set axis range var i; var xrange = [x0, x0 + w * trace.dx]; var yrange = [y0, y0 + h * trace.dy]; if(xa && xa.type === 'log') for(i = 0; i < w; i++) xrange.push(x0 + i * trace.dx); if(ya && ya.type === 'log') for(i = 0; i < h; i++) yrange.push(y0 + i * trace.dy); trace._extremes[xa._id] = Axes.findExtremes(xa, xrange); trace._extremes[ya._id] = Axes.findExtremes(ya, yrange); trace._scaler = makeScaler(trace); var cd0 = { x0: x0, y0: y0, z: trace.z, w: w, h: h }; return [cd0]; }; function scale(zero, ratio, min, max) { return function(c) { return Lib.constrain((c - zero) * ratio, min, max); }; } function constrain(min, max) { return function(c) { return Lib.constrain(c, min, max);}; } // Generate a function to scale color components according to zmin/zmax and the colormodel function makeScaler(trace) { var cr = constants.colormodel[trace.colormodel]; var colormodel = (cr.colormodel || trace.colormodel); var n = colormodel.length; trace._sArray = []; // Loop over all color components for(var k = 0; k < n; k++) { if(cr.min[k] !== trace.zmin[k] || cr.max[k] !== trace.zmax[k]) { trace._sArray.push(scale( trace.zmin[k], (cr.max[k] - cr.min[k]) / (trace.zmax[k] - trace.zmin[k]), cr.min[k], cr.max[k] )); } else { trace._sArray.push(constrain(cr.min[k], cr.max[k])); } } return function(pixel) { var c = pixel.slice(0, n); for(var k = 0; k < n; k++) { var ck = c[k]; if(!isNumeric(ck)) return false; c[k] = trace._sArray[k](ck); } return c; }; } },{"../../lib":287,"../../plots/cartesian/axes":334,"./constants":479,"./helpers":482,"fast-isnumeric":33}],479:[function(_dereq_,module,exports){ 'use strict'; module.exports = { colormodel: { // min and max define the numerical range accepted in CSS // If z(min|max)Dflt are not defined, z(min|max) will default to min/max rgb: { min: [0, 0, 0], max: [255, 255, 255], fmt: function(c) {return c.slice(0, 3);}, suffix: ['', '', ''] }, rgba: { min: [0, 0, 0, 0], max: [255, 255, 255, 1], fmt: function(c) {return c.slice(0, 4);}, suffix: ['', '', '', ''] }, rgba256: { colormodel: 'rgba', // because rgba256 is not an accept colormodel in CSS zminDflt: [0, 0, 0, 0], zmaxDflt: [255, 255, 255, 255], min: [0, 0, 0, 0], max: [255, 255, 255, 1], fmt: function(c) {return c.slice(0, 4);}, suffix: ['', '', '', ''] }, hsl: { min: [0, 0, 0], max: [360, 100, 100], fmt: function(c) { var p = c.slice(0, 3); p[1] = p[1] + '%'; p[2] = p[2] + '%'; return p; }, suffix: ['°', '%', '%'] }, hsla: { min: [0, 0, 0, 0], max: [360, 100, 100, 1], fmt: function(c) { var p = c.slice(0, 4); p[1] = p[1] + '%'; p[2] = p[2] + '%'; return p; }, suffix: ['°', '%', '%', ''] } }, // For pixelated image rendering // http://phrogz.net/tmp/canvas_image_zoom.html // https://developer.mozilla.org/en-US/docs/Web/CSS/image-rendering pixelatedStyle: [ 'image-rendering: optimizeSpeed', 'image-rendering: -moz-crisp-edges', 'image-rendering: -o-crisp-edges', 'image-rendering: -webkit-optimize-contrast', 'image-rendering: optimize-contrast', 'image-rendering: crisp-edges', 'image-rendering: pixelated', '' ].join('; ') }; },{}],480:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var attributes = _dereq_('./attributes'); var constants = _dereq_('./constants'); var dataUri = _dereq_('../../snapshot/helpers').IMAGE_URL_PREFIX; module.exports = function supplyDefaults(traceIn, traceOut) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } coerce('source'); // sanitize source to only allow for data URI representing images if(traceOut.source && !traceOut.source.match(dataUri)) delete traceOut.source; traceOut._hasSource = !!traceOut.source; var z = coerce('z'); traceOut._hasZ = !(z === undefined || !z.length || !z[0] || !z[0].length); if(!traceOut._hasZ && !traceOut._hasSource) { traceOut.visible = false; return; } coerce('x0'); coerce('y0'); coerce('dx'); coerce('dy'); var cm; if(traceOut._hasZ) { coerce('colormodel', 'rgb'); cm = constants.colormodel[traceOut.colormodel]; coerce('zmin', (cm.zminDflt || cm.min)); coerce('zmax', (cm.zmaxDflt || cm.max)); } else if(traceOut._hasSource) { traceOut.colormodel = 'rgba256'; cm = constants.colormodel[traceOut.colormodel]; traceOut.zmin = cm.zminDflt; traceOut.zmax = cm.zmaxDflt; } coerce('zsmooth'); coerce('text'); coerce('hovertext'); coerce('hovertemplate'); traceOut._length = null; }; },{"../../lib":287,"../../snapshot/helpers":382,"./attributes":477,"./constants":479}],481:[function(_dereq_,module,exports){ 'use strict'; module.exports = function eventData(out, pt) { if('xVal' in pt) out.x = pt.xVal; if('yVal' in pt) out.y = pt.yVal; if(pt.xa) out.xaxis = pt.xa; if(pt.ya) out.yaxis = pt.ya; out.color = pt.color; out.colormodel = pt.trace.colormodel; if(!out.z) out.z = pt.color; return out; }; },{}],482:[function(_dereq_,module,exports){ 'use strict'; var probeSync = _dereq_('probe-image-size/sync'); var dataUri = _dereq_('../../snapshot/helpers').IMAGE_URL_PREFIX; var Buffer = _dereq_('buffer/').Buffer; // note: the trailing slash is important! exports.getImageSize = function(src) { var data = src.replace(dataUri, ''); var buff = new Buffer(data, 'base64'); return probeSync(buff); }; },{"../../snapshot/helpers":382,"buffer/":28,"probe-image-size/sync":97}],483:[function(_dereq_,module,exports){ 'use strict'; var Fx = _dereq_('../../components/fx'); var Lib = _dereq_('../../lib'); var constants = _dereq_('./constants'); module.exports = function hoverPoints(pointData, xval, yval) { var cd0 = pointData.cd[0]; var trace = cd0.trace; var xa = pointData.xa; var ya = pointData.ya; // Return early if not on image if(Fx.inbox(xval - cd0.x0, xval - (cd0.x0 + cd0.w * trace.dx), 0) > 0 || Fx.inbox(yval - cd0.y0, yval - (cd0.y0 + cd0.h * trace.dy), 0) > 0) { return; } // Find nearest pixel's index var nx = Math.floor((xval - cd0.x0) / trace.dx); var ny = Math.floor(Math.abs(yval - cd0.y0) / trace.dy); var pixel; if(trace._hasZ) { pixel = cd0.z[ny][nx]; } else if(trace._hasSource) { pixel = trace._canvas.el.getContext('2d', {willReadFrequently: true}).getImageData(nx, ny, 1, 1).data; } // return early if pixel is undefined if(!pixel) return; var hoverinfo = cd0.hi || trace.hoverinfo; var fmtColor; if(hoverinfo) { var parts = hoverinfo.split('+'); if(parts.indexOf('all') !== -1) parts = ['color']; if(parts.indexOf('color') !== -1) fmtColor = true; } var cr = constants.colormodel[trace.colormodel]; var colormodel = cr.colormodel || trace.colormodel; var dims = colormodel.length; var c = trace._scaler(pixel); var s = cr.suffix; var colorstring = []; if(trace.hovertemplate || fmtColor) { colorstring.push('[' + [c[0] + s[0], c[1] + s[1], c[2] + s[2]].join(', ')); if(dims === 4) colorstring.push(', ' + c[3] + s[3]); colorstring.push(']'); colorstring = colorstring.join(''); pointData.extraText = colormodel.toUpperCase() + ': ' + colorstring; } var text; if(Array.isArray(trace.hovertext) && Array.isArray(trace.hovertext[ny])) { text = trace.hovertext[ny][nx]; } else if(Array.isArray(trace.text) && Array.isArray(trace.text[ny])) { text = trace.text[ny][nx]; } // TODO: for color model with 3 dims, display something useful for hovertemplate `%{color[3]}` var py = ya.c2p(cd0.y0 + (ny + 0.5) * trace.dy); var xVal = cd0.x0 + (nx + 0.5) * trace.dx; var yVal = cd0.y0 + (ny + 0.5) * trace.dy; var zLabel = '[' + pixel.slice(0, trace.colormodel.length).join(', ') + ']'; return [Lib.extendFlat(pointData, { index: [ny, nx], x0: xa.c2p(cd0.x0 + nx * trace.dx), x1: xa.c2p(cd0.x0 + (nx + 1) * trace.dx), y0: py, y1: py, color: c, xVal: xVal, xLabelVal: xVal, yVal: yVal, yLabelVal: yVal, zLabelVal: zLabel, text: text, hovertemplateLabels: { 'zLabel': zLabel, 'colorLabel': colorstring, 'color[0]Label': c[0] + s[0], 'color[1]Label': c[1] + s[1], 'color[2]Label': c[2] + s[2], 'color[3]Label': c[3] + s[3] } })]; }; },{"../../components/fx":197,"../../lib":287,"./constants":479}],484:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults'), calc: _dereq_('./calc'), plot: _dereq_('./plot'), style: _dereq_('./style'), hoverPoints: _dereq_('./hover'), eventData: _dereq_('./event_data'), moduleType: 'trace', name: 'image', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['cartesian', 'svg', '2dMap', 'noSortingByValue'], animatable: false, meta: { } }; },{"../../plots/cartesian":348,"./attributes":477,"./calc":478,"./defaults":480,"./event_data":481,"./hover":483,"./plot":485,"./style":486}],485:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); var strTranslate = Lib.strTranslate; var xmlnsNamespaces = _dereq_('../../constants/xmlns_namespaces'); var constants = _dereq_('./constants'); var unsupportedBrowsers = Lib.isIOS() || Lib.isSafari() || Lib.isIE(); module.exports = function plot(gd, plotinfo, cdimage, imageLayer) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var supportsPixelatedImage = !(unsupportedBrowsers || gd._context._exportedPlot); Lib.makeTraceGroups(imageLayer, cdimage, 'im').each(function(cd) { var plotGroup = d3.select(this); var cd0 = cd[0]; var trace = cd0.trace; var realImage = ( ((trace.zsmooth === 'fast') || (trace.zsmooth === false && supportsPixelatedImage)) && !trace._hasZ && trace._hasSource && xa.type === 'linear' && ya.type === 'linear' ); trace._realImage = realImage; var z = cd0.z; var x0 = cd0.x0; var y0 = cd0.y0; var w = cd0.w; var h = cd0.h; var dx = trace.dx; var dy = trace.dy; var left, right, temp, top, bottom, i; // in case of log of a negative i = 0; while(left === undefined && i < w) { left = xa.c2p(x0 + i * dx); i++; } i = w; while(right === undefined && i > 0) { right = xa.c2p(x0 + i * dx); i--; } i = 0; while(top === undefined && i < h) { top = ya.c2p(y0 + i * dy); i++; } i = h; while(bottom === undefined && i > 0) { bottom = ya.c2p(y0 + i * dy); i--; } if(right < left) { temp = right; right = left; left = temp; } if(bottom < top) { temp = top; top = bottom; bottom = temp; } // Reduce image size when zoomed in to save memory if(!realImage) { var extra = 0.5; // half the axis size left = Math.max(-extra * xa._length, left); right = Math.min((1 + extra) * xa._length, right); top = Math.max(-extra * ya._length, top); bottom = Math.min((1 + extra) * ya._length, bottom); } var imageWidth = Math.round(right - left); var imageHeight = Math.round(bottom - top); // if image is entirely off-screen, don't even draw it var isOffScreen = (imageWidth <= 0 || imageHeight <= 0); if(isOffScreen) { var noImage = plotGroup.selectAll('image').data([]); noImage.exit().remove(); return; } // Create a new canvas and draw magnified pixels on it function drawMagnifiedPixelsOnCanvas(readPixel) { var canvas = document.createElement('canvas'); canvas.width = imageWidth; canvas.height = imageHeight; var context = canvas.getContext('2d', {willReadFrequently: true}); var ipx = function(i) {return Lib.constrain(Math.round(xa.c2p(x0 + i * dx) - left), 0, imageWidth);}; var jpx = function(j) {return Lib.constrain(Math.round(ya.c2p(y0 + j * dy) - top), 0, imageHeight);}; var cr = constants.colormodel[trace.colormodel]; var colormodel = (cr.colormodel || trace.colormodel); var fmt = cr.fmt; var c; for(i = 0; i < cd0.w; i++) { var ipx0 = ipx(i); var ipx1 = ipx(i + 1); if(ipx1 === ipx0 || isNaN(ipx1) || isNaN(ipx0)) continue; for(var j = 0; j < cd0.h; j++) { var jpx0 = jpx(j); var jpx1 = jpx(j + 1); if(jpx1 === jpx0 || isNaN(jpx1) || isNaN(jpx0) || !readPixel(i, j)) continue; c = trace._scaler(readPixel(i, j)); if(c) { context.fillStyle = colormodel + '(' + fmt(c).join(',') + ')'; } else { // Return a transparent pixel context.fillStyle = 'rgba(0,0,0,0)'; } context.fillRect(ipx0, jpx0, ipx1 - ipx0, jpx1 - jpx0); } } return canvas; } var image3 = plotGroup.selectAll('image') .data([cd]); image3.enter().append('svg:image').attr({ xmlns: xmlnsNamespaces.svg, preserveAspectRatio: 'none' }); image3.exit().remove(); var style = (trace.zsmooth === false) ? constants.pixelatedStyle : ''; if(realImage) { var xRange = Lib.simpleMap(xa.range, xa.r2l); var yRange = Lib.simpleMap(ya.range, ya.r2l); var flipX = xRange[1] < xRange[0]; var flipY = yRange[1] > yRange[0]; if(flipX || flipY) { var tx = left + imageWidth / 2; var ty = top + imageHeight / 2; style += 'transform:' + strTranslate(tx + 'px', ty + 'px') + 'scale(' + (flipX ? -1 : 1) + ',' + (flipY ? -1 : 1) + ')' + strTranslate(-tx + 'px', -ty + 'px') + ';'; } } image3.attr('style', style); var p = new Promise(function(resolve) { if(trace._hasZ) { resolve(); } else if(trace._hasSource) { // Check if canvas already exists and has the right data if( trace._canvas && trace._canvas.el.width === w && trace._canvas.el.height === h && trace._canvas.source === trace.source ) { resolve(); } else { // Create a canvas and transfer image onto it to access pixel information var canvas = document.createElement('canvas'); canvas.width = w; canvas.height = h; var context = canvas.getContext('2d', {willReadFrequently: true}); trace._image = trace._image || new Image(); var image = trace._image; image.onload = function() { context.drawImage(image, 0, 0); trace._canvas = { el: canvas, source: trace.source }; resolve(); }; image.setAttribute('src', trace.source); } } }) .then(function() { var href, canvas; if(trace._hasZ) { canvas = drawMagnifiedPixelsOnCanvas(function(i, j) {return z[j][i];}); href = canvas.toDataURL('image/png'); } else if(trace._hasSource) { if(realImage) { href = trace.source; } else { var context = trace._canvas.el.getContext('2d', {willReadFrequently: true}); var data = context.getImageData(0, 0, w, h).data; canvas = drawMagnifiedPixelsOnCanvas(function(i, j) { var index = 4 * (j * w + i); return [ data[index], data[index + 1], data[index + 2], data[index + 3] ]; }); href = canvas.toDataURL('image/png'); } } image3.attr({ 'xlink:href': href, height: imageHeight, width: imageWidth, x: left, y: top }); }); gd._promises.push(p); }); }; },{"../../constants/xmlns_namespaces":268,"../../lib":287,"./constants":479,"@plotly/d3":20}],486:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); module.exports = function style(gd) { d3.select(gd).selectAll('.im image') .style('opacity', function(d) { return d[0].trace.opacity; }); }; },{"@plotly/d3":20}],487:[function(_dereq_,module,exports){ 'use strict'; var baseAttrs = _dereq_('../../plots/attributes'); var domainAttrs = _dereq_('../../plots/domain').attributes; var fontAttrs = _dereq_('../../plots/font_attributes'); var colorAttrs = _dereq_('../../components/color/attributes'); var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var texttemplateAttrs = _dereq_('../../plots/template_attributes').texttemplateAttrs; var extendFlat = _dereq_('../../lib/extend').extendFlat; var textFontAttrs = fontAttrs({ editType: 'plot', arrayOk: true, colorEditType: 'plot', }); module.exports = { labels: { valType: 'data_array', editType: 'calc', }, // equivalent of x0 and dx, if label is missing label0: { valType: 'number', dflt: 0, editType: 'calc', }, dlabel: { valType: 'number', dflt: 1, editType: 'calc', }, values: { valType: 'data_array', editType: 'calc', }, marker: { colors: { valType: 'data_array', // TODO 'color_array' ? editType: 'calc', }, line: { color: { valType: 'color', dflt: colorAttrs.defaultLine, arrayOk: true, editType: 'style', }, width: { valType: 'number', min: 0, dflt: 0, arrayOk: true, editType: 'style', }, editType: 'calc' }, editType: 'calc' }, text: { valType: 'data_array', editType: 'plot', }, hovertext: { valType: 'string', dflt: '', arrayOk: true, editType: 'style', }, // 'see eg:' // 'https://www.e-education.psu.edu/natureofgeoinfo/sites/www.e-education.psu.edu.natureofgeoinfo/files/image/hisp_pies.gif', // '(this example involves a map too - may someday be a whole trace type', // 'of its own. but the point is the size of the whole pie is important.)' scalegroup: { valType: 'string', dflt: '', editType: 'calc', }, // labels (legend is handled by plots.attributes.showlegend and layout.hiddenlabels) textinfo: { valType: 'flaglist', flags: ['label', 'text', 'value', 'percent'], extras: ['none'], editType: 'calc', }, hoverinfo: extendFlat({}, baseAttrs.hoverinfo, { flags: ['label', 'text', 'value', 'percent', 'name'] }), hovertemplate: hovertemplateAttrs({}, { keys: ['label', 'color', 'value', 'percent', 'text'] }), texttemplate: texttemplateAttrs({editType: 'plot'}, { keys: ['label', 'color', 'value', 'percent', 'text'] }), textposition: { valType: 'enumerated', values: ['inside', 'outside', 'auto', 'none'], dflt: 'auto', arrayOk: true, editType: 'plot', }, textfont: extendFlat({}, textFontAttrs, { }), insidetextorientation: { valType: 'enumerated', values: ['horizontal', 'radial', 'tangential', 'auto'], dflt: 'auto', editType: 'plot', }, insidetextfont: extendFlat({}, textFontAttrs, { }), outsidetextfont: extendFlat({}, textFontAttrs, { }), automargin: { valType: 'boolean', dflt: false, editType: 'plot', }, title: { text: { valType: 'string', dflt: '', editType: 'plot', }, font: extendFlat({}, textFontAttrs, { }), position: { valType: 'enumerated', values: [ 'top left', 'top center', 'top right', 'middle center', 'bottom left', 'bottom center', 'bottom right' ], editType: 'plot', }, editType: 'plot' }, // position and shape domain: domainAttrs({name: 'pie', trace: true, editType: 'calc'}), hole: { valType: 'number', min: 0, max: 1, dflt: 0, editType: 'calc', }, // ordering and direction sort: { valType: 'boolean', dflt: true, editType: 'calc', }, direction: { /** * there are two common conventions, both of which place the first * (largest, if sorted) slice with its left edge at 12 o'clock but * succeeding slices follow either cw or ccw from there. * * see http://visage.co/data-visualization-101-pie-charts/ */ valType: 'enumerated', values: ['clockwise', 'counterclockwise'], dflt: 'counterclockwise', editType: 'calc', }, rotation: { valType: 'number', min: -360, max: 360, dflt: 0, editType: 'calc', }, pull: { valType: 'number', min: 0, max: 1, dflt: 0, arrayOk: true, editType: 'calc', }, _deprecated: { title: { valType: 'string', dflt: '', editType: 'calc', }, titlefont: extendFlat({}, textFontAttrs, { }), titleposition: { valType: 'enumerated', values: [ 'top left', 'top center', 'top right', 'middle center', 'bottom left', 'bottom center', 'bottom right' ], editType: 'calc', } } }; },{"../../components/color/attributes":156,"../../lib/extend":281,"../../plots/attributes":330,"../../plots/domain":364,"../../plots/font_attributes":365,"../../plots/template_attributes":373}],488:[function(_dereq_,module,exports){ 'use strict'; var plots = _dereq_('../../plots/plots'); exports.name = 'pie'; exports.plot = function(gd, traces, transitionOpts, makeOnCompleteCallback) { plots.plotBasePlot(exports.name, gd, traces, transitionOpts, makeOnCompleteCallback); }; exports.clean = function(newFullData, newFullLayout, oldFullData, oldFullLayout) { plots.cleanBasePlot(exports.name, newFullData, newFullLayout, oldFullData, oldFullLayout); }; },{"../../plots/plots":371}],489:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var tinycolor = _dereq_('tinycolor2'); var Color = _dereq_('../../components/color'); var extendedColorWayList = {}; function calc(gd, trace) { var cd = []; var fullLayout = gd._fullLayout; var hiddenLabels = fullLayout.hiddenlabels || []; var labels = trace.labels; var colors = trace.marker.colors || []; var vals = trace.values; var len = trace._length; var hasValues = trace._hasValues && len; var i, pt; if(trace.dlabel) { labels = new Array(len); for(i = 0; i < len; i++) { labels[i] = String(trace.label0 + i * trace.dlabel); } } var allThisTraceLabels = {}; var pullColor = makePullColorFn(fullLayout['_' + trace.type + 'colormap']); var vTotal = 0; var isAggregated = false; for(i = 0; i < len; i++) { var v, label, hidden; if(hasValues) { v = vals[i]; if(!isNumeric(v)) continue; v = +v; } else v = 1; label = labels[i]; if(label === undefined || label === '') label = i; label = String(label); var thisLabelIndex = allThisTraceLabels[label]; if(thisLabelIndex === undefined) { allThisTraceLabels[label] = cd.length; hidden = hiddenLabels.indexOf(label) !== -1; if(!hidden) vTotal += v; cd.push({ v: v, label: label, color: pullColor(colors[i], label), i: i, pts: [i], hidden: hidden }); } else { isAggregated = true; pt = cd[thisLabelIndex]; pt.v += v; pt.pts.push(i); if(!pt.hidden) vTotal += v; if(pt.color === false && colors[i]) { pt.color = pullColor(colors[i], label); } } } // Drop aggregate sums of value 0 or less cd = cd.filter(function(elem) { return elem.v >= 0; }); var shouldSort = (trace.type === 'funnelarea') ? isAggregated : trace.sort; if(shouldSort) cd.sort(function(a, b) { return b.v - a.v; }); // include the sum of all values in the first point if(cd[0]) cd[0].vTotal = vTotal; return cd; } function makePullColorFn(colorMap) { return function pullColor(color, id) { if(!color) return false; color = tinycolor(color); if(!color.isValid()) return false; color = Color.addOpacity(color, color.getAlpha()); if(!colorMap[id]) colorMap[id] = color; return color; }; } /* * `calc` filled in (and collated) explicit colors. * Now we need to propagate these explicit colors to other traces, * and fill in default colors. * This is done after sorting, so we pick defaults * in the order slices will be displayed */ function crossTraceCalc(gd, plotinfo) { // TODO: should we name the second argument opts? var desiredType = (plotinfo || {}).type; if(!desiredType) desiredType = 'pie'; var fullLayout = gd._fullLayout; var calcdata = gd.calcdata; var colorWay = fullLayout[desiredType + 'colorway']; var colorMap = fullLayout['_' + desiredType + 'colormap']; if(fullLayout['extend' + desiredType + 'colors']) { colorWay = generateExtendedColors(colorWay, extendedColorWayList); } var dfltColorCount = 0; for(var i = 0; i < calcdata.length; i++) { var cd = calcdata[i]; var traceType = cd[0].trace.type; if(traceType !== desiredType) continue; for(var j = 0; j < cd.length; j++) { var pt = cd[j]; if(pt.color === false) { // have we seen this label and assigned a color to it in a previous trace? if(colorMap[pt.label]) { pt.color = colorMap[pt.label]; } else { colorMap[pt.label] = pt.color = colorWay[dfltColorCount % colorWay.length]; dfltColorCount++; } } } } } /** * pick a default color from the main default set, augmented by * itself lighter then darker before repeating */ function generateExtendedColors(colorList, extendedColorWays) { var i; var colorString = JSON.stringify(colorList); var colors = extendedColorWays[colorString]; if(!colors) { colors = colorList.slice(); for(i = 0; i < colorList.length; i++) { colors.push(tinycolor(colorList[i]).lighten(20).toHexString()); } for(i = 0; i < colorList.length; i++) { colors.push(tinycolor(colorList[i]).darken(20).toHexString()); } extendedColorWays[colorString] = colors; } return colors; } module.exports = { calc: calc, crossTraceCalc: crossTraceCalc, makePullColorFn: makePullColorFn, generateExtendedColors: generateExtendedColors }; },{"../../components/color":157,"fast-isnumeric":33,"tinycolor2":121}],490:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var attributes = _dereq_('./attributes'); var handleDomainDefaults = _dereq_('../../plots/domain').defaults; var handleText = _dereq_('../bar/defaults').handleText; function handleLabelsAndValues(labels, values) { var hasLabels = Array.isArray(labels); var hasValues = Lib.isArrayOrTypedArray(values); var len = Math.min( hasLabels ? labels.length : Infinity, hasValues ? values.length : Infinity ); if(!isFinite(len)) len = 0; if(len && hasValues) { var hasPositive; for(var i = 0; i < len; i++) { var v = values[i]; if(isNumeric(v) && v > 0) { hasPositive = true; break; } } if(!hasPositive) len = 0; } return { hasLabels: hasLabels, hasValues: hasValues, len: len }; } function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } var labels = coerce('labels'); var values = coerce('values'); var res = handleLabelsAndValues(labels, values); var len = res.len; traceOut._hasLabels = res.hasLabels; traceOut._hasValues = res.hasValues; if(!traceOut._hasLabels && traceOut._hasValues ) { coerce('label0'); coerce('dlabel'); } if(!len) { traceOut.visible = false; return; } traceOut._length = len; var lineWidth = coerce('marker.line.width'); if(lineWidth) coerce('marker.line.color'); coerce('marker.colors'); coerce('scalegroup'); // TODO: hole needs to be coerced to the same value within a scaleegroup var textData = coerce('text'); var textTemplate = coerce('texttemplate'); var textInfo; if(!textTemplate) textInfo = coerce('textinfo', Array.isArray(textData) ? 'text+percent' : 'percent'); coerce('hovertext'); coerce('hovertemplate'); if(textTemplate || (textInfo && textInfo !== 'none')) { var textposition = coerce('textposition'); handleText(traceIn, traceOut, layout, coerce, textposition, { moduleHasSelected: false, moduleHasUnselected: false, moduleHasConstrain: false, moduleHasCliponaxis: false, moduleHasTextangle: false, moduleHasInsideanchor: false }); var hasBoth = Array.isArray(textposition) || textposition === 'auto'; var hasOutside = hasBoth || textposition === 'outside'; if(hasOutside) { coerce('automargin'); } if(textposition === 'inside' || textposition === 'auto' || Array.isArray(textposition)) { coerce('insidetextorientation'); } } handleDomainDefaults(traceOut, layout, coerce); var hole = coerce('hole'); var title = coerce('title.text'); if(title) { var titlePosition = coerce('title.position', hole ? 'middle center' : 'top center'); if(!hole && titlePosition === 'middle center') traceOut.title.position = 'top center'; Lib.coerceFont(coerce, 'title.font', layout.font); } coerce('sort'); coerce('direction'); coerce('rotation'); coerce('pull'); } module.exports = { handleLabelsAndValues: handleLabelsAndValues, supplyDefaults: supplyDefaults }; },{"../../lib":287,"../../plots/domain":364,"../bar/defaults":392,"./attributes":487,"fast-isnumeric":33}],491:[function(_dereq_,module,exports){ 'use strict'; var appendArrayMultiPointValues = _dereq_('../../components/fx/helpers').appendArrayMultiPointValues; // Note: like other eventData routines, this creates the data for hover/unhover/click events // but it has a different API and goes through a totally different pathway. // So to ensure it doesn't get misused, it's not attached to the Pie module. module.exports = function eventData(pt, trace) { var out = { curveNumber: trace.index, pointNumbers: pt.pts, data: trace._input, fullData: trace, label: pt.label, color: pt.color, value: pt.v, percent: pt.percent, text: pt.text, bbox: pt.bbox, // pt.v (and pt.i below) for backward compatibility v: pt.v }; // Only include pointNumber if it's unambiguous if(pt.pts.length === 1) out.pointNumber = out.i = pt.pts[0]; // Add extra data arrays to the output // notice that this is the multi-point version ('s' on the end!) // so added data will be arrays matching the pointNumbers array. appendArrayMultiPointValues(out, trace, pt.pts); // don't include obsolete fields in new funnelarea traces if(trace.type === 'funnelarea') { delete out.v; delete out.i; } return out; }; },{"../../components/fx/helpers":193}],492:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); function format(vRounded) { return ( vRounded.indexOf('e') !== -1 ? vRounded.replace(/[.]?0+e/, 'e') : vRounded.indexOf('.') !== -1 ? vRounded.replace(/[.]?0+$/, '') : vRounded ); } exports.formatPiePercent = function formatPiePercent(v, separators) { var vRounded = format((v * 100).toPrecision(3)); return Lib.numSeparate(vRounded, separators) + '%'; }; exports.formatPieValue = function formatPieValue(v, separators) { var vRounded = format(v.toPrecision(10)); return Lib.numSeparate(vRounded, separators); }; exports.getFirstFilled = function getFirstFilled(array, indices) { if(!Array.isArray(array)) return; for(var i = 0; i < indices.length; i++) { var v = array[indices[i]]; if(v || v === 0 || v === '') return v; } }; exports.castOption = function castOption(item, indices) { if(Array.isArray(item)) return exports.getFirstFilled(item, indices); else if(item) return item; }; exports.getRotationAngle = function(rotation) { return (rotation === 'auto' ? 0 : rotation) * Math.PI / 180; }; },{"../../lib":287}],493:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults').supplyDefaults, supplyLayoutDefaults: _dereq_('./layout_defaults'), layoutAttributes: _dereq_('./layout_attributes'), calc: _dereq_('./calc').calc, crossTraceCalc: _dereq_('./calc').crossTraceCalc, plot: _dereq_('./plot').plot, style: _dereq_('./style'), styleOne: _dereq_('./style_one'), moduleType: 'trace', name: 'pie', basePlotModule: _dereq_('./base_plot'), categories: ['pie-like', 'pie', 'showLegend'], meta: { } }; },{"./attributes":487,"./base_plot":488,"./calc":489,"./defaults":490,"./layout_attributes":494,"./layout_defaults":495,"./plot":496,"./style":497,"./style_one":498}],494:[function(_dereq_,module,exports){ 'use strict'; module.exports = { hiddenlabels: { valType: 'data_array', editType: 'calc', }, piecolorway: { valType: 'colorlist', editType: 'calc', }, extendpiecolors: { valType: 'boolean', dflt: true, editType: 'calc', } }; },{}],495:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var layoutAttributes = _dereq_('./layout_attributes'); module.exports = function supplyLayoutDefaults(layoutIn, layoutOut) { function coerce(attr, dflt) { return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt); } coerce('hiddenlabels'); coerce('piecolorway', layoutOut.colorway); coerce('extendpiecolors'); }; },{"../../lib":287,"./layout_attributes":494}],496:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Plots = _dereq_('../../plots/plots'); var Fx = _dereq_('../../components/fx'); var Color = _dereq_('../../components/color'); var Drawing = _dereq_('../../components/drawing'); var Lib = _dereq_('../../lib'); var strScale = Lib.strScale; var strTranslate = Lib.strTranslate; var svgTextUtils = _dereq_('../../lib/svg_text_utils'); var uniformText = _dereq_('../bar/uniform_text'); var recordMinTextSize = uniformText.recordMinTextSize; var clearMinTextSize = uniformText.clearMinTextSize; var TEXTPAD = _dereq_('../bar/constants').TEXTPAD; var helpers = _dereq_('./helpers'); var eventData = _dereq_('./event_data'); var isValidTextValue = _dereq_('../../lib').isValidTextValue; function plot(gd, cdModule) { var fullLayout = gd._fullLayout; var gs = fullLayout._size; clearMinTextSize('pie', fullLayout); prerenderTitles(cdModule, gd); layoutAreas(cdModule, gs); var plotGroups = Lib.makeTraceGroups(fullLayout._pielayer, cdModule, 'trace').each(function(cd) { var plotGroup = d3.select(this); var cd0 = cd[0]; var trace = cd0.trace; setCoords(cd); // TODO: miter might look better but can sometimes cause problems // maybe miter with a small-ish stroke-miterlimit? plotGroup.attr('stroke-linejoin', 'round'); plotGroup.each(function() { var slices = d3.select(this).selectAll('g.slice').data(cd); slices.enter().append('g') .classed('slice', true); slices.exit().remove(); var quadrants = [ [[], []], // y<0: x<0, x>=0 [[], []] // y>=0: x<0, x>=0 ]; var hasOutsideText = false; slices.each(function(pt, i) { if(pt.hidden) { d3.select(this).selectAll('path,g').remove(); return; } // to have consistent event data compared to other traces pt.pointNumber = pt.i; pt.curveNumber = trace.index; quadrants[pt.pxmid[1] < 0 ? 0 : 1][pt.pxmid[0] < 0 ? 0 : 1].push(pt); var cx = cd0.cx; var cy = cd0.cy; var sliceTop = d3.select(this); var slicePath = sliceTop.selectAll('path.surface').data([pt]); slicePath.enter().append('path') .classed('surface', true) .style({'pointer-events': 'all'}); sliceTop.call(attachFxHandlers, gd, cd); if(trace.pull) { var pull = +helpers.castOption(trace.pull, pt.pts) || 0; if(pull > 0) { cx += pull * pt.pxmid[0]; cy += pull * pt.pxmid[1]; } } pt.cxFinal = cx; pt.cyFinal = cy; function arc(start, finish, cw, scale) { var dx = scale * (finish[0] - start[0]); var dy = scale * (finish[1] - start[1]); return 'a' + (scale * cd0.r) + ',' + (scale * cd0.r) + ' 0 ' + pt.largeArc + (cw ? ' 1 ' : ' 0 ') + dx + ',' + dy; } var hole = trace.hole; if(pt.v === cd0.vTotal) { // 100% fails bcs arc start and end are identical var outerCircle = 'M' + (cx + pt.px0[0]) + ',' + (cy + pt.px0[1]) + arc(pt.px0, pt.pxmid, true, 1) + arc(pt.pxmid, pt.px0, true, 1) + 'Z'; if(hole) { slicePath.attr('d', 'M' + (cx + hole * pt.px0[0]) + ',' + (cy + hole * pt.px0[1]) + arc(pt.px0, pt.pxmid, false, hole) + arc(pt.pxmid, pt.px0, false, hole) + 'Z' + outerCircle); } else slicePath.attr('d', outerCircle); } else { var outerArc = arc(pt.px0, pt.px1, true, 1); if(hole) { var rim = 1 - hole; slicePath.attr('d', 'M' + (cx + hole * pt.px1[0]) + ',' + (cy + hole * pt.px1[1]) + arc(pt.px1, pt.px0, false, hole) + 'l' + (rim * pt.px0[0]) + ',' + (rim * pt.px0[1]) + outerArc + 'Z'); } else { slicePath.attr('d', 'M' + cx + ',' + cy + 'l' + pt.px0[0] + ',' + pt.px0[1] + outerArc + 'Z'); } } // add text formatSliceLabel(gd, pt, cd0); var textPosition = helpers.castOption(trace.textposition, pt.pts); var sliceTextGroup = sliceTop.selectAll('g.slicetext') .data(pt.text && (textPosition !== 'none') ? [0] : []); sliceTextGroup.enter().append('g') .classed('slicetext', true); sliceTextGroup.exit().remove(); sliceTextGroup.each(function() { var sliceText = Lib.ensureSingle(d3.select(this), 'text', '', function(s) { // prohibit tex interpretation until we can handle // tex and regular text together s.attr('data-notex', 1); }); var font = Lib.ensureUniformFontSize(gd, textPosition === 'outside' ? determineOutsideTextFont(trace, pt, fullLayout.font) : determineInsideTextFont(trace, pt, fullLayout.font) ); sliceText.text(pt.text) .attr({ 'class': 'slicetext', transform: '', 'text-anchor': 'middle' }) .call(Drawing.font, font) .call(svgTextUtils.convertToTspans, gd); // position the text relative to the slice var textBB = Drawing.bBox(sliceText.node()); var transform; if(textPosition === 'outside') { transform = transformOutsideText(textBB, pt); } else { transform = transformInsideText(textBB, pt, cd0); if(textPosition === 'auto' && transform.scale < 1) { var newFont = Lib.ensureUniformFontSize(gd, trace.outsidetextfont); sliceText.call(Drawing.font, newFont); textBB = Drawing.bBox(sliceText.node()); transform = transformOutsideText(textBB, pt); } } var textPosAngle = transform.textPosAngle; var textXY = textPosAngle === undefined ? pt.pxmid : getCoords(cd0.r, textPosAngle); transform.targetX = cx + textXY[0] * transform.rCenter + (transform.x || 0); transform.targetY = cy + textXY[1] * transform.rCenter + (transform.y || 0); computeTransform(transform, textBB); // save some stuff to use later ensure no labels overlap if(transform.outside) { var targetY = transform.targetY; pt.yLabelMin = targetY - textBB.height / 2; pt.yLabelMid = targetY; pt.yLabelMax = targetY + textBB.height / 2; pt.labelExtraX = 0; pt.labelExtraY = 0; hasOutsideText = true; } transform.fontSize = font.size; recordMinTextSize(trace.type, transform, fullLayout); cd[i].transform = transform; sliceText.attr('transform', Lib.getTextTransform(transform)); }); }); // add the title var titleTextGroup = d3.select(this).selectAll('g.titletext') .data(trace.title.text ? [0] : []); titleTextGroup.enter().append('g') .classed('titletext', true); titleTextGroup.exit().remove(); titleTextGroup.each(function() { var titleText = Lib.ensureSingle(d3.select(this), 'text', '', function(s) { // prohibit tex interpretation as above s.attr('data-notex', 1); }); var txt = trace.title.text; if(trace._meta) { txt = Lib.templateString(txt, trace._meta); } titleText.text(txt) .attr({ 'class': 'titletext', transform: '', 'text-anchor': 'middle', }) .call(Drawing.font, trace.title.font) .call(svgTextUtils.convertToTspans, gd); var transform; if(trace.title.position === 'middle center') { transform = positionTitleInside(cd0); } else { transform = positionTitleOutside(cd0, gs); } titleText.attr('transform', strTranslate(transform.x, transform.y) + strScale(Math.min(1, transform.scale)) + strTranslate(transform.tx, transform.ty)); }); // now make sure no labels overlap (at least within one pie) if(hasOutsideText) scootLabels(quadrants, trace); plotTextLines(slices, trace); if(hasOutsideText && trace.automargin) { // TODO if we ever want to improve perf, // we could reuse the textBB computed above together // with the sliceText transform info var traceBbox = Drawing.bBox(plotGroup.node()); var domain = trace.domain; var vpw = gs.w * (domain.x[1] - domain.x[0]); var vph = gs.h * (domain.y[1] - domain.y[0]); var xgap = (0.5 * vpw - cd0.r) / gs.w; var ygap = (0.5 * vph - cd0.r) / gs.h; Plots.autoMargin(gd, 'pie.' + trace.uid + '.automargin', { xl: domain.x[0] - xgap, xr: domain.x[1] + xgap, yb: domain.y[0] - ygap, yt: domain.y[1] + ygap, l: Math.max(cd0.cx - cd0.r - traceBbox.left, 0), r: Math.max(traceBbox.right - (cd0.cx + cd0.r), 0), b: Math.max(traceBbox.bottom - (cd0.cy + cd0.r), 0), t: Math.max(cd0.cy - cd0.r - traceBbox.top, 0), pad: 5 }); } }); }); // This is for a bug in Chrome (as of 2015-07-22, and does not affect FF) // if insidetextfont and outsidetextfont are different sizes, sometimes the size // of an "em" gets taken from the wrong element at first so lines are // spaced wrong. You just have to tell it to try again later and it gets fixed. // I have no idea why we haven't seen this in other contexts. Also, sometimes // it gets the initial draw correct but on redraw it gets confused. setTimeout(function() { plotGroups.selectAll('tspan').each(function() { var s = d3.select(this); if(s.attr('dy')) s.attr('dy', s.attr('dy')); }); }, 0); } // TODO add support for transition function plotTextLines(slices, trace) { slices.each(function(pt) { var sliceTop = d3.select(this); if(!pt.labelExtraX && !pt.labelExtraY) { sliceTop.select('path.textline').remove(); return; } // first move the text to its new location var sliceText = sliceTop.select('g.slicetext text'); pt.transform.targetX += pt.labelExtraX; pt.transform.targetY += pt.labelExtraY; sliceText.attr('transform', Lib.getTextTransform(pt.transform)); // then add a line to the new location var lineStartX = pt.cxFinal + pt.pxmid[0]; var lineStartY = pt.cyFinal + pt.pxmid[1]; var textLinePath = 'M' + lineStartX + ',' + lineStartY; var finalX = (pt.yLabelMax - pt.yLabelMin) * (pt.pxmid[0] < 0 ? -1 : 1) / 4; if(pt.labelExtraX) { var yFromX = pt.labelExtraX * pt.pxmid[1] / pt.pxmid[0]; var yNet = pt.yLabelMid + pt.labelExtraY - (pt.cyFinal + pt.pxmid[1]); if(Math.abs(yFromX) > Math.abs(yNet)) { textLinePath += 'l' + (yNet * pt.pxmid[0] / pt.pxmid[1]) + ',' + yNet + 'H' + (lineStartX + pt.labelExtraX + finalX); } else { textLinePath += 'l' + pt.labelExtraX + ',' + yFromX + 'v' + (yNet - yFromX) + 'h' + finalX; } } else { textLinePath += 'V' + (pt.yLabelMid + pt.labelExtraY) + 'h' + finalX; } Lib.ensureSingle(sliceTop, 'path', 'textline') .call(Color.stroke, trace.outsidetextfont.color) .attr({ 'stroke-width': Math.min(2, trace.outsidetextfont.size / 8), d: textLinePath, fill: 'none' }); }); } function attachFxHandlers(sliceTop, gd, cd) { var cd0 = cd[0]; var cx = cd0.cx; var cy = cd0.cy; var trace = cd0.trace; var isFunnelArea = trace.type === 'funnelarea'; // hover state vars // have we drawn a hover label, so it should be cleared later if(!('_hasHoverLabel' in trace)) trace._hasHoverLabel = false; // have we emitted a hover event, so later an unhover event should be emitted // note that click events do not depend on this - you can still get them // with hovermode: false or if you were earlier dragging, then clicked // in the same slice that you moused up in if(!('_hasHoverEvent' in trace)) trace._hasHoverEvent = false; sliceTop.on('mouseover', function(pt) { // in case fullLayout or fullData has changed without a replot var fullLayout2 = gd._fullLayout; var trace2 = gd._fullData[trace.index]; if(gd._dragging || fullLayout2.hovermode === false) return; var hoverinfo = trace2.hoverinfo; if(Array.isArray(hoverinfo)) { // super hacky: we need to pull out the *first* hoverinfo from // pt.pts, then put it back into an array in a dummy trace // and call castHoverinfo on that. // TODO: do we want to have Fx.castHoverinfo somehow handle this? // it already takes an array for index, for 2D, so this seems tricky. hoverinfo = Fx.castHoverinfo({ hoverinfo: [helpers.castOption(hoverinfo, pt.pts)], _module: trace._module }, fullLayout2, 0); } if(hoverinfo === 'all') hoverinfo = 'label+text+value+percent+name'; // in case we dragged over the pie from another subplot, // or if hover is turned off if(trace2.hovertemplate || (hoverinfo !== 'none' && hoverinfo !== 'skip' && hoverinfo)) { var rInscribed = pt.rInscribed || 0; var hoverCenterX = cx + pt.pxmid[0] * (1 - rInscribed); var hoverCenterY = cy + pt.pxmid[1] * (1 - rInscribed); var separators = fullLayout2.separators; var text = []; if(hoverinfo && hoverinfo.indexOf('label') !== -1) text.push(pt.label); pt.text = helpers.castOption(trace2.hovertext || trace2.text, pt.pts); if(hoverinfo && hoverinfo.indexOf('text') !== -1) { var tx = pt.text; if(Lib.isValidTextValue(tx)) text.push(tx); } pt.value = pt.v; pt.valueLabel = helpers.formatPieValue(pt.v, separators); if(hoverinfo && hoverinfo.indexOf('value') !== -1) text.push(pt.valueLabel); pt.percent = pt.v / cd0.vTotal; pt.percentLabel = helpers.formatPiePercent(pt.percent, separators); if(hoverinfo && hoverinfo.indexOf('percent') !== -1) text.push(pt.percentLabel); var hoverLabel = trace2.hoverlabel; var hoverFont = hoverLabel.font; var bbox = []; Fx.loneHover({ trace: trace, x0: hoverCenterX - rInscribed * cd0.r, x1: hoverCenterX + rInscribed * cd0.r, y: hoverCenterY, _x0: isFunnelArea ? cx + pt.TL[0] : hoverCenterX - rInscribed * cd0.r, _x1: isFunnelArea ? cx + pt.TR[0] : hoverCenterX + rInscribed * cd0.r, _y0: isFunnelArea ? cy + pt.TL[1] : hoverCenterY - rInscribed * cd0.r, _y1: isFunnelArea ? cy + pt.BL[1] : hoverCenterY + rInscribed * cd0.r, text: text.join('
'), name: (trace2.hovertemplate || hoverinfo.indexOf('name') !== -1) ? trace2.name : undefined, idealAlign: pt.pxmid[0] < 0 ? 'left' : 'right', color: helpers.castOption(hoverLabel.bgcolor, pt.pts) || pt.color, borderColor: helpers.castOption(hoverLabel.bordercolor, pt.pts), fontFamily: helpers.castOption(hoverFont.family, pt.pts), fontSize: helpers.castOption(hoverFont.size, pt.pts), fontColor: helpers.castOption(hoverFont.color, pt.pts), nameLength: helpers.castOption(hoverLabel.namelength, pt.pts), textAlign: helpers.castOption(hoverLabel.align, pt.pts), hovertemplate: helpers.castOption(trace2.hovertemplate, pt.pts), hovertemplateLabels: pt, eventData: [eventData(pt, trace2)] }, { container: fullLayout2._hoverlayer.node(), outerContainer: fullLayout2._paper.node(), gd: gd, inOut_bbox: bbox }); pt.bbox = bbox[0]; trace._hasHoverLabel = true; } trace._hasHoverEvent = true; gd.emit('plotly_hover', { points: [eventData(pt, trace2)], event: d3.event }); }); sliceTop.on('mouseout', function(evt) { var fullLayout2 = gd._fullLayout; var trace2 = gd._fullData[trace.index]; var pt = d3.select(this).datum(); if(trace._hasHoverEvent) { evt.originalEvent = d3.event; gd.emit('plotly_unhover', { points: [eventData(pt, trace2)], event: d3.event }); trace._hasHoverEvent = false; } if(trace._hasHoverLabel) { Fx.loneUnhover(fullLayout2._hoverlayer.node()); trace._hasHoverLabel = false; } }); sliceTop.on('click', function(pt) { // TODO: this does not support right-click. If we want to support it, we // would likely need to change pie to use dragElement instead of straight // mapbox event binding. Or perhaps better, make a simple wrapper with the // right mousedown, mousemove, and mouseup handlers just for a left/right click // mapbox would use this too. var fullLayout2 = gd._fullLayout; var trace2 = gd._fullData[trace.index]; if(gd._dragging || fullLayout2.hovermode === false) return; gd._hoverdata = [eventData(pt, trace2)]; Fx.click(gd, d3.event); }); } function determineOutsideTextFont(trace, pt, layoutFont) { var color = helpers.castOption(trace.outsidetextfont.color, pt.pts) || helpers.castOption(trace.textfont.color, pt.pts) || layoutFont.color; var family = helpers.castOption(trace.outsidetextfont.family, pt.pts) || helpers.castOption(trace.textfont.family, pt.pts) || layoutFont.family; var size = helpers.castOption(trace.outsidetextfont.size, pt.pts) || helpers.castOption(trace.textfont.size, pt.pts) || layoutFont.size; return { color: color, family: family, size: size }; } function determineInsideTextFont(trace, pt, layoutFont) { var customColor = helpers.castOption(trace.insidetextfont.color, pt.pts); if(!customColor && trace._input.textfont) { // Why not simply using trace.textfont? Because if not set, it // defaults to layout.font which has a default color. But if // textfont.color and insidetextfont.color don't supply a value, // a contrasting color shall be used. customColor = helpers.castOption(trace._input.textfont.color, pt.pts); } var family = helpers.castOption(trace.insidetextfont.family, pt.pts) || helpers.castOption(trace.textfont.family, pt.pts) || layoutFont.family; var size = helpers.castOption(trace.insidetextfont.size, pt.pts) || helpers.castOption(trace.textfont.size, pt.pts) || layoutFont.size; return { color: customColor || Color.contrast(pt.color), family: family, size: size }; } function prerenderTitles(cdModule, gd) { var cd0, trace; // Determine the width and height of the title for each pie. for(var i = 0; i < cdModule.length; i++) { cd0 = cdModule[i][0]; trace = cd0.trace; if(trace.title.text) { var txt = trace.title.text; if(trace._meta) { txt = Lib.templateString(txt, trace._meta); } var dummyTitle = Drawing.tester.append('text') .attr('data-notex', 1) .text(txt) .call(Drawing.font, trace.title.font) .call(svgTextUtils.convertToTspans, gd); var bBox = Drawing.bBox(dummyTitle.node(), true); cd0.titleBox = { width: bBox.width, height: bBox.height, }; dummyTitle.remove(); } } } function transformInsideText(textBB, pt, cd0) { var r = cd0.r || pt.rpx1; var rInscribed = pt.rInscribed; var isEmpty = pt.startangle === pt.stopangle; if(isEmpty) { return { rCenter: 1 - rInscribed, scale: 0, rotate: 0, textPosAngle: 0 }; } var ring = pt.ring; var isCircle = (ring === 1) && (Math.abs(pt.startangle - pt.stopangle) === Math.PI * 2); var halfAngle = pt.halfangle; var midAngle = pt.midangle; var orientation = cd0.trace.insidetextorientation; var isHorizontal = orientation === 'horizontal'; var isTangential = orientation === 'tangential'; var isRadial = orientation === 'radial'; var isAuto = orientation === 'auto'; var allTransforms = []; var newT; if(!isAuto) { // max size if text is placed (horizontally) at the top or bottom of the arc var considerCrossing = function(angle, key) { if(isCrossing(pt, angle)) { var dStart = Math.abs(angle - pt.startangle); var dStop = Math.abs(angle - pt.stopangle); var closestEdge = dStart < dStop ? dStart : dStop; if(key === 'tan') { newT = calcTanTransform(textBB, r, ring, closestEdge, 0); } else { // case of 'rad' newT = calcRadTransform(textBB, r, ring, closestEdge, Math.PI / 2); } newT.textPosAngle = angle; allTransforms.push(newT); } }; // to cover all cases with trace.rotation added var i; if(isHorizontal || isTangential) { // top for(i = 4; i >= -4; i -= 2) considerCrossing(Math.PI * i, 'tan'); // bottom for(i = 4; i >= -4; i -= 2) considerCrossing(Math.PI * (i + 1), 'tan'); } if(isHorizontal || isRadial) { // left for(i = 4; i >= -4; i -= 2) considerCrossing(Math.PI * (i + 1.5), 'rad'); // right for(i = 4; i >= -4; i -= 2) considerCrossing(Math.PI * (i + 0.5), 'rad'); } } if(isCircle || isAuto || isHorizontal) { // max size text can be inserted inside without rotating it // this inscribes the text rectangle in a circle, which is then inscribed // in the slice, so it will be an underestimate, which some day we may want // to improve so this case can get more use var textDiameter = Math.sqrt(textBB.width * textBB.width + textBB.height * textBB.height); newT = { scale: rInscribed * r * 2 / textDiameter, // and the center position and rotation in this case rCenter: 1 - rInscribed, rotate: 0 }; newT.textPosAngle = (pt.startangle + pt.stopangle) / 2; if(newT.scale >= 1) return newT; allTransforms.push(newT); } if(isAuto || isRadial) { newT = calcRadTransform(textBB, r, ring, halfAngle, midAngle); newT.textPosAngle = (pt.startangle + pt.stopangle) / 2; allTransforms.push(newT); } if(isAuto || isTangential) { newT = calcTanTransform(textBB, r, ring, halfAngle, midAngle); newT.textPosAngle = (pt.startangle + pt.stopangle) / 2; allTransforms.push(newT); } var id = 0; var maxScale = 0; for(var k = 0; k < allTransforms.length; k++) { var s = allTransforms[k].scale; if(maxScale < s) { maxScale = s; id = k; } if(!isAuto && maxScale >= 1) { // respect test order for non-auto options break; } } return allTransforms[id]; } function isCrossing(pt, angle) { var start = pt.startangle; var stop = pt.stopangle; return ( (start > angle && angle > stop) || (start < angle && angle < stop) ); } function calcRadTransform(textBB, r, ring, halfAngle, midAngle) { r = Math.max(0, r - 2 * TEXTPAD); // max size if text is rotated radially var a = textBB.width / textBB.height; var s = calcMaxHalfSize(a, halfAngle, r, ring); return { scale: s * 2 / textBB.height, rCenter: calcRCenter(a, s / r), rotate: calcRotate(midAngle) }; } function calcTanTransform(textBB, r, ring, halfAngle, midAngle) { r = Math.max(0, r - 2 * TEXTPAD); // max size if text is rotated tangentially var a = textBB.height / textBB.width; var s = calcMaxHalfSize(a, halfAngle, r, ring); return { scale: s * 2 / textBB.width, rCenter: calcRCenter(a, s / r), rotate: calcRotate(midAngle + Math.PI / 2) }; } function calcRCenter(a, b) { return Math.cos(b) - a * b; } function calcRotate(t) { return (180 / Math.PI * t + 720) % 180 - 90; } function calcMaxHalfSize(a, halfAngle, r, ring) { var q = a + 1 / (2 * Math.tan(halfAngle)); return r * Math.min( 1 / (Math.sqrt(q * q + 0.5) + q), ring / (Math.sqrt(a * a + ring / 2) + a) ); } function getInscribedRadiusFraction(pt, cd0) { if(pt.v === cd0.vTotal && !cd0.trace.hole) return 1;// special case of 100% with no hole return Math.min(1 / (1 + 1 / Math.sin(pt.halfangle)), pt.ring / 2); } function transformOutsideText(textBB, pt) { var x = pt.pxmid[0]; var y = pt.pxmid[1]; var dx = textBB.width / 2; var dy = textBB.height / 2; if(x < 0) dx *= -1; if(y < 0) dy *= -1; return { scale: 1, rCenter: 1, rotate: 0, x: dx + Math.abs(dy) * (dx > 0 ? 1 : -1) / 2, y: dy / (1 + x * x / (y * y)), outside: true }; } function positionTitleInside(cd0) { var textDiameter = Math.sqrt(cd0.titleBox.width * cd0.titleBox.width + cd0.titleBox.height * cd0.titleBox.height); return { x: cd0.cx, y: cd0.cy, scale: cd0.trace.hole * cd0.r * 2 / textDiameter, tx: 0, ty: - cd0.titleBox.height / 2 + cd0.trace.title.font.size }; } function positionTitleOutside(cd0, plotSize) { var scaleX = 1; var scaleY = 1; var maxPull; var trace = cd0.trace; // position of the baseline point of the text box in the plot, before scaling. // we anchored the text in the middle, so the baseline is on the bottom middle // of the first line of text. var topMiddle = { x: cd0.cx, y: cd0.cy }; // relative translation of the text box after scaling var translate = { tx: 0, ty: 0 }; // we reason below as if the baseline is the top middle point of the text box. // so we must add the font size to approximate the y-coord. of the top. // note that this correction must happen after scaling. translate.ty += trace.title.font.size; maxPull = getMaxPull(trace); if(trace.title.position.indexOf('top') !== -1) { topMiddle.y -= (1 + maxPull) * cd0.r; translate.ty -= cd0.titleBox.height; } else if(trace.title.position.indexOf('bottom') !== -1) { topMiddle.y += (1 + maxPull) * cd0.r; } var rx = applyAspectRatio(cd0.r, cd0.trace.aspectratio); var maxWidth = plotSize.w * (trace.domain.x[1] - trace.domain.x[0]) / 2; if(trace.title.position.indexOf('left') !== -1) { // we start the text at the left edge of the pie maxWidth = maxWidth + rx; topMiddle.x -= (1 + maxPull) * rx; translate.tx += cd0.titleBox.width / 2; } else if(trace.title.position.indexOf('center') !== -1) { maxWidth *= 2; } else if(trace.title.position.indexOf('right') !== -1) { maxWidth = maxWidth + rx; topMiddle.x += (1 + maxPull) * rx; translate.tx -= cd0.titleBox.width / 2; } scaleX = maxWidth / cd0.titleBox.width; scaleY = getTitleSpace(cd0, plotSize) / cd0.titleBox.height; return { x: topMiddle.x, y: topMiddle.y, scale: Math.min(scaleX, scaleY), tx: translate.tx, ty: translate.ty }; } function applyAspectRatio(x, aspectratio) { return x / ((aspectratio === undefined) ? 1 : aspectratio); } function getTitleSpace(cd0, plotSize) { var trace = cd0.trace; var pieBoxHeight = plotSize.h * (trace.domain.y[1] - trace.domain.y[0]); // use at most half of the plot for the title return Math.min(cd0.titleBox.height, pieBoxHeight / 2); } function getMaxPull(trace) { var maxPull = trace.pull; if(!maxPull) return 0; var j; if(Array.isArray(maxPull)) { maxPull = 0; for(j = 0; j < trace.pull.length; j++) { if(trace.pull[j] > maxPull) maxPull = trace.pull[j]; } } return maxPull; } function scootLabels(quadrants, trace) { var xHalf, yHalf, equatorFirst, farthestX, farthestY, xDiffSign, yDiffSign, thisQuad, oppositeQuad, wholeSide, i, thisQuadOutside, firstOppositeOutsidePt; function topFirst(a, b) { return a.pxmid[1] - b.pxmid[1]; } function bottomFirst(a, b) { return b.pxmid[1] - a.pxmid[1]; } function scootOneLabel(thisPt, prevPt) { if(!prevPt) prevPt = {}; var prevOuterY = prevPt.labelExtraY + (yHalf ? prevPt.yLabelMax : prevPt.yLabelMin); var thisInnerY = yHalf ? thisPt.yLabelMin : thisPt.yLabelMax; var thisOuterY = yHalf ? thisPt.yLabelMax : thisPt.yLabelMin; var thisSliceOuterY = thisPt.cyFinal + farthestY(thisPt.px0[1], thisPt.px1[1]); var newExtraY = prevOuterY - thisInnerY; var xBuffer, i, otherPt, otherOuterY, otherOuterX, newExtraX; // make sure this label doesn't overlap other labels // this *only* has us move these labels vertically if(newExtraY * yDiffSign > 0) thisPt.labelExtraY = newExtraY; // make sure this label doesn't overlap any slices if(!Array.isArray(trace.pull)) return; // this can only happen with array pulls for(i = 0; i < wholeSide.length; i++) { otherPt = wholeSide[i]; // overlap can only happen if the other point is pulled more than this one if(otherPt === thisPt || ( (helpers.castOption(trace.pull, thisPt.pts) || 0) >= (helpers.castOption(trace.pull, otherPt.pts) || 0)) ) { continue; } if((thisPt.pxmid[1] - otherPt.pxmid[1]) * yDiffSign > 0) { // closer to the equator - by construction all of these happen first // move the text vertically to get away from these slices otherOuterY = otherPt.cyFinal + farthestY(otherPt.px0[1], otherPt.px1[1]); newExtraY = otherOuterY - thisInnerY - thisPt.labelExtraY; if(newExtraY * yDiffSign > 0) thisPt.labelExtraY += newExtraY; } else if((thisOuterY + thisPt.labelExtraY - thisSliceOuterY) * yDiffSign > 0) { // farther from the equator - happens after we've done all the // vertical moving we're going to do // move horizontally to get away from these more polar slices // if we're moving horz. based on a slice that's several slices away from this one // then we need some extra space for the lines to labels between them xBuffer = 3 * xDiffSign * Math.abs(i - wholeSide.indexOf(thisPt)); otherOuterX = otherPt.cxFinal + farthestX(otherPt.px0[0], otherPt.px1[0]); newExtraX = otherOuterX + xBuffer - (thisPt.cxFinal + thisPt.pxmid[0]) - thisPt.labelExtraX; if(newExtraX * xDiffSign > 0) thisPt.labelExtraX += newExtraX; } } } for(yHalf = 0; yHalf < 2; yHalf++) { equatorFirst = yHalf ? topFirst : bottomFirst; farthestY = yHalf ? Math.max : Math.min; yDiffSign = yHalf ? 1 : -1; for(xHalf = 0; xHalf < 2; xHalf++) { farthestX = xHalf ? Math.max : Math.min; xDiffSign = xHalf ? 1 : -1; // first sort the array // note this is a copy of cd, so cd itself doesn't get sorted // but we can still modify points in place. thisQuad = quadrants[yHalf][xHalf]; thisQuad.sort(equatorFirst); oppositeQuad = quadrants[1 - yHalf][xHalf]; wholeSide = oppositeQuad.concat(thisQuad); thisQuadOutside = []; for(i = 0; i < thisQuad.length; i++) { if(thisQuad[i].yLabelMid !== undefined) thisQuadOutside.push(thisQuad[i]); } firstOppositeOutsidePt = false; for(i = 0; yHalf && i < oppositeQuad.length; i++) { if(oppositeQuad[i].yLabelMid !== undefined) { firstOppositeOutsidePt = oppositeQuad[i]; break; } } // each needs to avoid the previous for(i = 0; i < thisQuadOutside.length; i++) { var prevPt = i && thisQuadOutside[i - 1]; // bottom half needs to avoid the first label of the top half // top half we still need to call scootOneLabel on the first slice // so we can avoid other slices, but we don't pass a prevPt if(firstOppositeOutsidePt && !i) prevPt = firstOppositeOutsidePt; scootOneLabel(thisQuadOutside[i], prevPt); } } } } function layoutAreas(cdModule, plotSize) { var scaleGroups = []; // figure out the center and maximum radius for(var i = 0; i < cdModule.length; i++) { var cd0 = cdModule[i][0]; var trace = cd0.trace; var domain = trace.domain; var width = plotSize.w * (domain.x[1] - domain.x[0]); var height = plotSize.h * (domain.y[1] - domain.y[0]); // leave some space for the title, if it will be displayed outside if(trace.title.text && trace.title.position !== 'middle center') { height -= getTitleSpace(cd0, plotSize); } var rx = width / 2; var ry = height / 2; if(trace.type === 'funnelarea' && !trace.scalegroup) { ry /= trace.aspectratio; } cd0.r = Math.min(rx, ry) / (1 + getMaxPull(trace)); cd0.cx = plotSize.l + plotSize.w * (trace.domain.x[1] + trace.domain.x[0]) / 2; cd0.cy = plotSize.t + plotSize.h * (1 - trace.domain.y[0]) - height / 2; if(trace.title.text && trace.title.position.indexOf('bottom') !== -1) { cd0.cy -= getTitleSpace(cd0, plotSize); } if(trace.scalegroup && scaleGroups.indexOf(trace.scalegroup) === -1) { scaleGroups.push(trace.scalegroup); } } groupScale(cdModule, scaleGroups); } function groupScale(cdModule, scaleGroups) { var cd0, i, trace; // scale those that are grouped for(var k = 0; k < scaleGroups.length; k++) { var min = Infinity; var g = scaleGroups[k]; for(i = 0; i < cdModule.length; i++) { cd0 = cdModule[i][0]; trace = cd0.trace; if(trace.scalegroup === g) { var area; if(trace.type === 'pie') { area = cd0.r * cd0.r; } else if(trace.type === 'funnelarea') { var rx, ry; if(trace.aspectratio > 1) { rx = cd0.r; ry = rx / trace.aspectratio; } else { ry = cd0.r; rx = ry * trace.aspectratio; } rx *= (1 + trace.baseratio) / 2; area = rx * ry; } min = Math.min(min, area / cd0.vTotal); } } for(i = 0; i < cdModule.length; i++) { cd0 = cdModule[i][0]; trace = cd0.trace; if(trace.scalegroup === g) { var v = min * cd0.vTotal; if(trace.type === 'funnelarea') { v /= (1 + trace.baseratio) / 2; v /= trace.aspectratio; } cd0.r = Math.sqrt(v); } } } } function setCoords(cd) { var cd0 = cd[0]; var r = cd0.r; var trace = cd0.trace; var currentAngle = helpers.getRotationAngle(trace.rotation); var angleFactor = 2 * Math.PI / cd0.vTotal; var firstPt = 'px0'; var lastPt = 'px1'; var i, cdi, currentCoords; if(trace.direction === 'counterclockwise') { for(i = 0; i < cd.length; i++) { if(!cd[i].hidden) break; // find the first non-hidden slice } if(i === cd.length) return; // all slices hidden currentAngle += angleFactor * cd[i].v; angleFactor *= -1; firstPt = 'px1'; lastPt = 'px0'; } currentCoords = getCoords(r, currentAngle); for(i = 0; i < cd.length; i++) { cdi = cd[i]; if(cdi.hidden) continue; cdi[firstPt] = currentCoords; cdi.startangle = currentAngle; currentAngle += angleFactor * cdi.v / 2; cdi.pxmid = getCoords(r, currentAngle); cdi.midangle = currentAngle; currentAngle += angleFactor * cdi.v / 2; currentCoords = getCoords(r, currentAngle); cdi.stopangle = currentAngle; cdi[lastPt] = currentCoords; cdi.largeArc = (cdi.v > cd0.vTotal / 2) ? 1 : 0; cdi.halfangle = Math.PI * Math.min(cdi.v / cd0.vTotal, 0.5); cdi.ring = 1 - trace.hole; cdi.rInscribed = getInscribedRadiusFraction(cdi, cd0); } } function getCoords(r, angle) { return [r * Math.sin(angle), -r * Math.cos(angle)]; } function formatSliceLabel(gd, pt, cd0) { var fullLayout = gd._fullLayout; var trace = cd0.trace; // look for textemplate var texttemplate = trace.texttemplate; // now insert text var textinfo = trace.textinfo; if(!texttemplate && textinfo && textinfo !== 'none') { var parts = textinfo.split('+'); var hasFlag = function(flag) { return parts.indexOf(flag) !== -1; }; var hasLabel = hasFlag('label'); var hasText = hasFlag('text'); var hasValue = hasFlag('value'); var hasPercent = hasFlag('percent'); var separators = fullLayout.separators; var text; text = hasLabel ? [pt.label] : []; if(hasText) { var tx = helpers.getFirstFilled(trace.text, pt.pts); if(isValidTextValue(tx)) text.push(tx); } if(hasValue) text.push(helpers.formatPieValue(pt.v, separators)); if(hasPercent) text.push(helpers.formatPiePercent(pt.v / cd0.vTotal, separators)); pt.text = text.join('
'); } function makeTemplateVariables(pt) { return { label: pt.label, value: pt.v, valueLabel: helpers.formatPieValue(pt.v, fullLayout.separators), percent: pt.v / cd0.vTotal, percentLabel: helpers.formatPiePercent(pt.v / cd0.vTotal, fullLayout.separators), color: pt.color, text: pt.text, customdata: Lib.castOption(trace, pt.i, 'customdata') }; } if(texttemplate) { var txt = Lib.castOption(trace, pt.i, 'texttemplate'); if(!txt) { pt.text = ''; } else { var obj = makeTemplateVariables(pt); var ptTx = helpers.getFirstFilled(trace.text, pt.pts); if(isValidTextValue(ptTx) || ptTx === '') obj.text = ptTx; pt.text = Lib.texttemplateString(txt, obj, gd._fullLayout._d3locale, obj, trace._meta || {}); } } } function computeTransform( transform, // inout textBB // in ) { var a = transform.rotate * Math.PI / 180; var cosA = Math.cos(a); var sinA = Math.sin(a); var midX = (textBB.left + textBB.right) / 2; var midY = (textBB.top + textBB.bottom) / 2; transform.textX = midX * cosA - midY * sinA; transform.textY = midX * sinA + midY * cosA; transform.noCenter = true; } module.exports = { plot: plot, formatSliceLabel: formatSliceLabel, transformInsideText: transformInsideText, determineInsideTextFont: determineInsideTextFont, positionTitleOutside: positionTitleOutside, prerenderTitles: prerenderTitles, layoutAreas: layoutAreas, attachFxHandlers: attachFxHandlers, computeTransform: computeTransform }; },{"../../components/color":157,"../../components/drawing":179,"../../components/fx":197,"../../lib":287,"../../lib/svg_text_utils":310,"../../plots/plots":371,"../bar/constants":390,"../bar/uniform_text":404,"./event_data":491,"./helpers":492,"@plotly/d3":20}],497:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var styleOne = _dereq_('./style_one'); var resizeText = _dereq_('../bar/uniform_text').resizeText; module.exports = function style(gd) { var s = gd._fullLayout._pielayer.selectAll('.trace'); resizeText(gd, s, 'pie'); s.each(function(cd) { var cd0 = cd[0]; var trace = cd0.trace; var traceSelection = d3.select(this); traceSelection.style({opacity: trace.opacity}); traceSelection.selectAll('path.surface').each(function(pt) { d3.select(this).call(styleOne, pt, trace); }); }); }; },{"../bar/uniform_text":404,"./style_one":498,"@plotly/d3":20}],498:[function(_dereq_,module,exports){ 'use strict'; var Color = _dereq_('../../components/color'); var castOption = _dereq_('./helpers').castOption; module.exports = function styleOne(s, pt, trace) { var line = trace.marker.line; var lineColor = castOption(line.color, pt.pts) || Color.defaultLine; var lineWidth = castOption(line.width, pt.pts) || 0; s.style('stroke-width', lineWidth) .call(Color.fill, pt.color) .call(Color.stroke, lineColor); }; },{"../../components/color":157,"./helpers":492}],499:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); // arrayOk attributes, merge them into calcdata array module.exports = function arraysToCalcdata(cd, trace) { // so each point knows which index it originally came from for(var i = 0; i < cd.length; i++) cd[i].i = i; Lib.mergeArray(trace.text, cd, 'tx'); Lib.mergeArray(trace.texttemplate, cd, 'txt'); Lib.mergeArray(trace.hovertext, cd, 'htx'); Lib.mergeArray(trace.customdata, cd, 'data'); Lib.mergeArray(trace.textposition, cd, 'tp'); if(trace.textfont) { Lib.mergeArrayCastPositive(trace.textfont.size, cd, 'ts'); Lib.mergeArray(trace.textfont.color, cd, 'tc'); Lib.mergeArray(trace.textfont.family, cd, 'tf'); } var marker = trace.marker; if(marker) { Lib.mergeArrayCastPositive(marker.size, cd, 'ms'); Lib.mergeArrayCastPositive(marker.opacity, cd, 'mo'); Lib.mergeArray(marker.symbol, cd, 'mx'); Lib.mergeArray(marker.color, cd, 'mc'); var markerLine = marker.line; if(marker.line) { Lib.mergeArray(markerLine.color, cd, 'mlc'); Lib.mergeArrayCastPositive(markerLine.width, cd, 'mlw'); } var markerGradient = marker.gradient; if(markerGradient && markerGradient.type !== 'none') { Lib.mergeArray(markerGradient.type, cd, 'mgt'); Lib.mergeArray(markerGradient.color, cd, 'mgc'); } } }; },{"../../lib":287}],500:[function(_dereq_,module,exports){ 'use strict'; var axisHoverFormat = _dereq_('../../plots/cartesian/axis_format_attributes').axisHoverFormat; var texttemplateAttrs = _dereq_('../../plots/template_attributes').texttemplateAttrs; var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var colorScaleAttrs = _dereq_('../../components/colorscale/attributes'); var fontAttrs = _dereq_('../../plots/font_attributes'); var dash = _dereq_('../../components/drawing/attributes').dash; var pattern = _dereq_('../../components/drawing/attributes').pattern; var Drawing = _dereq_('../../components/drawing'); var constants = _dereq_('./constants'); var extendFlat = _dereq_('../../lib/extend').extendFlat; function axisPeriod(axis) { return { valType: 'any', dflt: 0, editType: 'calc', }; } function axisPeriod0(axis) { return { valType: 'any', editType: 'calc', }; } function axisPeriodAlignment(axis) { return { valType: 'enumerated', values: [ 'start', 'middle', 'end' ], dflt: 'middle', editType: 'calc', }; } module.exports = { x: { valType: 'data_array', editType: 'calc+clearAxisTypes', anim: true, }, x0: { valType: 'any', dflt: 0, editType: 'calc+clearAxisTypes', anim: true, }, dx: { valType: 'number', dflt: 1, editType: 'calc', anim: true, }, y: { valType: 'data_array', editType: 'calc+clearAxisTypes', anim: true, }, y0: { valType: 'any', dflt: 0, editType: 'calc+clearAxisTypes', anim: true, }, dy: { valType: 'number', dflt: 1, editType: 'calc', anim: true, }, xperiod: axisPeriod('x'), yperiod: axisPeriod('y'), xperiod0: axisPeriod0('x0'), yperiod0: axisPeriod0('y0'), xperiodalignment: axisPeriodAlignment('x'), yperiodalignment: axisPeriodAlignment('y'), xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), stackgroup: { valType: 'string', dflt: '', editType: 'calc', }, orientation: { valType: 'enumerated', values: ['v', 'h'], editType: 'calc', }, groupnorm: { valType: 'enumerated', values: ['', 'fraction', 'percent'], dflt: '', editType: 'calc', }, stackgaps: { valType: 'enumerated', values: ['infer zero', 'interpolate'], dflt: 'infer zero', editType: 'calc', }, text: { valType: 'string', dflt: '', arrayOk: true, editType: 'calc', }, texttemplate: texttemplateAttrs({}, { }), hovertext: { valType: 'string', dflt: '', arrayOk: true, editType: 'style', }, mode: { valType: 'flaglist', flags: ['lines', 'markers', 'text'], extras: ['none'], editType: 'calc', }, hoveron: { valType: 'flaglist', flags: ['points', 'fills'], editType: 'style', }, hovertemplate: hovertemplateAttrs({}, { keys: constants.eventDataKeys }), line: { color: { valType: 'color', editType: 'style', anim: true, }, width: { valType: 'number', min: 0, dflt: 2, editType: 'style', anim: true, }, shape: { valType: 'enumerated', values: ['linear', 'spline', 'hv', 'vh', 'hvh', 'vhv'], dflt: 'linear', editType: 'plot', }, smoothing: { valType: 'number', min: 0, max: 1.3, dflt: 1, editType: 'plot', }, dash: extendFlat({}, dash, {editType: 'style'}), simplify: { valType: 'boolean', dflt: true, editType: 'plot', }, editType: 'plot' }, connectgaps: { valType: 'boolean', dflt: false, editType: 'calc', }, cliponaxis: { valType: 'boolean', dflt: true, editType: 'plot', }, fill: { valType: 'enumerated', values: ['none', 'tozeroy', 'tozerox', 'tonexty', 'tonextx', 'toself', 'tonext'], editType: 'calc', }, fillcolor: { valType: 'color', editType: 'style', anim: true, }, fillpattern: pattern, marker: extendFlat({ symbol: { valType: 'enumerated', values: Drawing.symbolList, dflt: 'circle', arrayOk: true, editType: 'style', }, opacity: { valType: 'number', min: 0, max: 1, arrayOk: true, editType: 'style', anim: true, }, size: { valType: 'number', min: 0, dflt: 6, arrayOk: true, editType: 'calc', anim: true, }, maxdisplayed: { valType: 'number', min: 0, dflt: 0, editType: 'plot', }, sizeref: { valType: 'number', dflt: 1, editType: 'calc', }, sizemin: { valType: 'number', min: 0, dflt: 0, editType: 'calc', }, sizemode: { valType: 'enumerated', values: ['diameter', 'area'], dflt: 'diameter', editType: 'calc', }, line: extendFlat({ width: { valType: 'number', min: 0, arrayOk: true, editType: 'style', anim: true, }, editType: 'calc' }, colorScaleAttrs('marker.line', {anim: true}) ), gradient: { type: { valType: 'enumerated', values: ['radial', 'horizontal', 'vertical', 'none'], arrayOk: true, dflt: 'none', editType: 'calc', }, color: { valType: 'color', arrayOk: true, editType: 'calc', }, editType: 'calc' }, editType: 'calc' }, colorScaleAttrs('marker', {anim: true}) ), selected: { marker: { opacity: { valType: 'number', min: 0, max: 1, editType: 'style', }, color: { valType: 'color', editType: 'style', }, size: { valType: 'number', min: 0, editType: 'style', }, editType: 'style' }, textfont: { color: { valType: 'color', editType: 'style', }, editType: 'style' }, editType: 'style' }, unselected: { marker: { opacity: { valType: 'number', min: 0, max: 1, editType: 'style', }, color: { valType: 'color', editType: 'style', }, size: { valType: 'number', min: 0, editType: 'style', }, editType: 'style' }, textfont: { color: { valType: 'color', editType: 'style', }, editType: 'style' }, editType: 'style' }, textposition: { valType: 'enumerated', values: [ 'top left', 'top center', 'top right', 'middle left', 'middle center', 'middle right', 'bottom left', 'bottom center', 'bottom right' ], dflt: 'middle center', arrayOk: true, editType: 'calc', }, textfont: fontAttrs({ editType: 'calc', colorEditType: 'style', arrayOk: true, }), }; },{"../../components/colorscale/attributes":164,"../../components/drawing":179,"../../components/drawing/attributes":178,"../../lib/extend":281,"../../plots/cartesian/axis_format_attributes":337,"../../plots/font_attributes":365,"../../plots/template_attributes":373,"./constants":504}],501:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var alignPeriod = _dereq_('../../plots/cartesian/align_period'); var BADNUM = _dereq_('../../constants/numerical').BADNUM; var subTypes = _dereq_('./subtypes'); var calcColorscale = _dereq_('./colorscale_calc'); var arraysToCalcdata = _dereq_('./arrays_to_calcdata'); var calcSelection = _dereq_('./calc_selection'); function calc(gd, trace) { var fullLayout = gd._fullLayout; var xa = Axes.getFromId(gd, trace.xaxis || 'x'); var ya = Axes.getFromId(gd, trace.yaxis || 'y'); var origX = xa.makeCalcdata(trace, 'x'); var origY = ya.makeCalcdata(trace, 'y'); var xObj = alignPeriod(trace, xa, 'x', origX); var yObj = alignPeriod(trace, ya, 'y', origY); var x = xObj.vals; var y = yObj.vals; var serieslen = trace._length; var cd = new Array(serieslen); var ids = trace.ids; var stackGroupOpts = getStackOpts(trace, fullLayout, xa, ya); var interpolateGaps = false; var isV, i, j, k, interpolate, vali; setFirstScatter(fullLayout, trace); var xAttr = 'x'; var yAttr = 'y'; var posAttr; if(stackGroupOpts) { Lib.pushUnique(stackGroupOpts.traceIndices, trace._expandedIndex); isV = stackGroupOpts.orientation === 'v'; // size, like we use for bar if(isV) { yAttr = 's'; posAttr = 'x'; } else { xAttr = 's'; posAttr = 'y'; } interpolate = stackGroupOpts.stackgaps === 'interpolate'; } else { var ppad = calcMarkerSize(trace, serieslen); calcAxisExpansion(gd, trace, xa, ya, x, y, ppad); } var hasPeriodX = !!trace.xperiodalignment; var hasPeriodY = !!trace.yperiodalignment; for(i = 0; i < serieslen; i++) { var cdi = cd[i] = {}; var xValid = isNumeric(x[i]); var yValid = isNumeric(y[i]); if(xValid && yValid) { cdi[xAttr] = x[i]; cdi[yAttr] = y[i]; if(hasPeriodX) { cdi.orig_x = origX[i]; // used by hover cdi.xEnd = xObj.ends[i]; cdi.xStart = xObj.starts[i]; } if(hasPeriodY) { cdi.orig_y = origY[i]; // used by hover cdi.yEnd = yObj.ends[i]; cdi.yStart = yObj.starts[i]; } } else if(stackGroupOpts && (isV ? xValid : yValid)) { // if we're stacking we need to hold on to all valid positions // even with invalid sizes cdi[posAttr] = isV ? x[i] : y[i]; cdi.gap = true; if(interpolate) { cdi.s = BADNUM; interpolateGaps = true; } else { cdi.s = 0; } } else { cdi[xAttr] = cdi[yAttr] = BADNUM; } if(ids) { cdi.id = String(ids[i]); } } arraysToCalcdata(cd, trace); calcColorscale(gd, trace); calcSelection(cd, trace); if(stackGroupOpts) { // remove bad positions and sort // note that original indices get added to cd in arraysToCalcdata i = 0; while(i < cd.length) { if(cd[i][posAttr] === BADNUM) { cd.splice(i, 1); } else i++; } Lib.sort(cd, function(a, b) { return (a[posAttr] - b[posAttr]) || (a.i - b.i); }); if(interpolateGaps) { // first fill the beginning with constant from the first point i = 0; while(i < cd.length - 1 && cd[i].gap) { i++; } vali = cd[i].s; if(!vali) vali = cd[i].s = 0; // in case of no data AT ALL in this trace - use 0 for(j = 0; j < i; j++) { cd[j].s = vali; } // then fill the end with constant from the last point k = cd.length - 1; while(k > i && cd[k].gap) { k--; } vali = cd[k].s; for(j = cd.length - 1; j > k; j--) { cd[j].s = vali; } // now interpolate internal gaps linearly while(i < k) { i++; if(cd[i].gap) { j = i + 1; while(cd[j].gap) { j++; } var pos0 = cd[i - 1][posAttr]; var size0 = cd[i - 1].s; var m = (cd[j].s - size0) / (cd[j][posAttr] - pos0); while(i < j) { cd[i].s = size0 + (cd[i][posAttr] - pos0) * m; i++; } } } } } return cd; } function calcAxisExpansion(gd, trace, xa, ya, x, y, ppad) { var serieslen = trace._length; var fullLayout = gd._fullLayout; var xId = xa._id; var yId = ya._id; var firstScatter = fullLayout._firstScatter[firstScatterGroup(trace)] === trace.uid; var stackOrientation = (getStackOpts(trace, fullLayout, xa, ya) || {}).orientation; var fill = trace.fill; // cancel minimum tick spacings (only applies to bars and boxes) xa._minDtick = 0; ya._minDtick = 0; // check whether bounds should be tight, padded, extended to zero... // most cases both should be padded on both ends, so start with that. var xOptions = {padded: true}; var yOptions = {padded: true}; if(ppad) { xOptions.ppad = yOptions.ppad = ppad; } // TODO: text size var openEnded = serieslen < 2 || (x[0] !== x[serieslen - 1]) || (y[0] !== y[serieslen - 1]); if(openEnded && ( (fill === 'tozerox') || ((fill === 'tonextx') && (firstScatter || stackOrientation === 'h')) )) { // include zero (tight) and extremes (padded) if fill to zero // (unless the shape is closed, then it's just filling the shape regardless) xOptions.tozero = true; } else if(!(trace.error_y || {}).visible && ( // if no error bars, markers or text, or fill to y=0 remove x padding (fill === 'tonexty' || fill === 'tozeroy') || (!subTypes.hasMarkers(trace) && !subTypes.hasText(trace)) )) { xOptions.padded = false; xOptions.ppad = 0; } if(openEnded && ( (fill === 'tozeroy') || ((fill === 'tonexty') && (firstScatter || stackOrientation === 'v')) )) { // now check for y - rather different logic, though still mostly padded both ends // include zero (tight) and extremes (padded) if fill to zero // (unless the shape is closed, then it's just filling the shape regardless) yOptions.tozero = true; } else if(fill === 'tonextx' || fill === 'tozerox') { // tight y: any x fill yOptions.padded = false; } // N.B. asymmetric splom traces call this with blank {} xa or ya if(xId) trace._extremes[xId] = Axes.findExtremes(xa, x, xOptions); if(yId) trace._extremes[yId] = Axes.findExtremes(ya, y, yOptions); } function calcMarkerSize(trace, serieslen) { if(!subTypes.hasMarkers(trace)) return; // Treat size like x or y arrays --- Run d2c // this needs to go before ppad computation var marker = trace.marker; var sizeref = 1.6 * (trace.marker.sizeref || 1); var markerTrans; if(trace.marker.sizemode === 'area') { markerTrans = function(v) { return Math.max(Math.sqrt((v || 0) / sizeref), 3); }; } else { markerTrans = function(v) { return Math.max((v || 0) / sizeref, 3); }; } if(Lib.isArrayOrTypedArray(marker.size)) { // I tried auto-type but category and dates dont make much sense. var ax = {type: 'linear'}; Axes.setConvert(ax); var s = ax.makeCalcdata(trace.marker, 'size'); var sizeOut = new Array(serieslen); for(var i = 0; i < serieslen; i++) { sizeOut[i] = markerTrans(s[i]); } return sizeOut; } else { return markerTrans(marker.size); } } /** * mark the first scatter trace for each subplot * note that scatter and scattergl each get their own first trace * note also that I'm doing this during calc rather than supplyDefaults * so I don't need to worry about transforms, but if we ever do * per-trace calc this will get confused. */ function setFirstScatter(fullLayout, trace) { var group = firstScatterGroup(trace); var firstScatter = fullLayout._firstScatter; if(!firstScatter[group]) firstScatter[group] = trace.uid; } function firstScatterGroup(trace) { var stackGroup = trace.stackgroup; return trace.xaxis + trace.yaxis + trace.type + (stackGroup ? '-' + stackGroup : ''); } function getStackOpts(trace, fullLayout, xa, ya) { var stackGroup = trace.stackgroup; if(!stackGroup) return; var stackOpts = fullLayout._scatterStackOpts[xa._id + ya._id][stackGroup]; var stackAx = stackOpts.orientation === 'v' ? ya : xa; // Allow stacking only on numeric axes // calc is a little late to be figuring this out, but during supplyDefaults // we don't know the axis type yet if(stackAx.type === 'linear' || stackAx.type === 'log') return stackOpts; } module.exports = { calc: calc, calcMarkerSize: calcMarkerSize, calcAxisExpansion: calcAxisExpansion, setFirstScatter: setFirstScatter, getStackOpts: getStackOpts }; },{"../../constants/numerical":267,"../../lib":287,"../../plots/cartesian/align_period":331,"../../plots/cartesian/axes":334,"./arrays_to_calcdata":499,"./calc_selection":502,"./colorscale_calc":503,"./subtypes":525,"fast-isnumeric":33}],502:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); module.exports = function calcSelection(cd, trace) { if(Lib.isArrayOrTypedArray(trace.selectedpoints)) { Lib.tagSelected(cd, trace); } }; },{"../../lib":287}],503:[function(_dereq_,module,exports){ 'use strict'; var hasColorscale = _dereq_('../../components/colorscale/helpers').hasColorscale; var calcColorscale = _dereq_('../../components/colorscale/calc'); var subTypes = _dereq_('./subtypes'); module.exports = function calcMarkerColorscale(gd, trace) { if(subTypes.hasLines(trace) && hasColorscale(trace, 'line')) { calcColorscale(gd, trace, { vals: trace.line.color, containerStr: 'line', cLetter: 'c' }); } if(subTypes.hasMarkers(trace)) { if(hasColorscale(trace, 'marker')) { calcColorscale(gd, trace, { vals: trace.marker.color, containerStr: 'marker', cLetter: 'c' }); } if(hasColorscale(trace, 'marker.line')) { calcColorscale(gd, trace, { vals: trace.marker.line.color, containerStr: 'marker.line', cLetter: 'c' }); } } }; },{"../../components/colorscale/calc":165,"../../components/colorscale/helpers":168,"./subtypes":525}],504:[function(_dereq_,module,exports){ 'use strict'; module.exports = { PTS_LINESONLY: 20, // fixed parameters of clustering and clipping algorithms // fraction of clustering tolerance "so close we don't even consider it a new point" minTolerance: 0.2, // how fast does clustering tolerance increase as you get away from the visible region toleranceGrowth: 10, // number of viewport sizes away from the visible region // at which we clip all lines to the perimeter maxScreensAway: 20, eventDataKeys: [] }; },{}],505:[function(_dereq_,module,exports){ 'use strict'; var calc = _dereq_('./calc'); /* * Scatter stacking & normalization calculations * runs per subplot, and can handle multiple stacking groups */ module.exports = function crossTraceCalc(gd, plotinfo) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var subplot = xa._id + ya._id; var subplotStackOpts = gd._fullLayout._scatterStackOpts[subplot]; if(!subplotStackOpts) return; var calcTraces = gd.calcdata; var i, j, k, i2, cd, cd0, posj, sumj, norm; var groupOpts, interpolate, groupnorm, posAttr, valAttr; var hasAnyBlanks; for(var stackGroup in subplotStackOpts) { groupOpts = subplotStackOpts[stackGroup]; var indices = groupOpts.traceIndices; // can get here with no indices if the stack axis is non-numeric if(!indices.length) continue; interpolate = groupOpts.stackgaps === 'interpolate'; groupnorm = groupOpts.groupnorm; if(groupOpts.orientation === 'v') { posAttr = 'x'; valAttr = 'y'; } else { posAttr = 'y'; valAttr = 'x'; } hasAnyBlanks = new Array(indices.length); for(i = 0; i < hasAnyBlanks.length; i++) { hasAnyBlanks[i] = false; } // Collect the complete set of all positions across ALL traces. // Start with the first trace, then interleave items from later traces // as needed. // Fill in mising items as we go. cd0 = calcTraces[indices[0]]; var allPositions = new Array(cd0.length); for(i = 0; i < cd0.length; i++) { allPositions[i] = cd0[i][posAttr]; } for(i = 1; i < indices.length; i++) { cd = calcTraces[indices[i]]; for(j = k = 0; j < cd.length; j++) { posj = cd[j][posAttr]; for(; posj > allPositions[k] && k < allPositions.length; k++) { // the current trace is missing a position from some previous trace(s) insertBlank(cd, j, allPositions[k], i, hasAnyBlanks, interpolate, posAttr); j++; } if(posj !== allPositions[k]) { // previous trace(s) are missing a position from the current trace for(i2 = 0; i2 < i; i2++) { insertBlank(calcTraces[indices[i2]], k, posj, i2, hasAnyBlanks, interpolate, posAttr); } allPositions.splice(k, 0, posj); } k++; } for(; k < allPositions.length; k++) { insertBlank(cd, j, allPositions[k], i, hasAnyBlanks, interpolate, posAttr); j++; } } var serieslen = allPositions.length; // stack (and normalize)! for(j = 0; j < cd0.length; j++) { sumj = cd0[j][valAttr] = cd0[j].s; for(i = 1; i < indices.length; i++) { cd = calcTraces[indices[i]]; cd[0].trace._rawLength = cd[0].trace._length; cd[0].trace._length = serieslen; sumj += cd[j].s; cd[j][valAttr] = sumj; } if(groupnorm) { norm = ((groupnorm === 'fraction') ? sumj : (sumj / 100)) || 1; for(i = 0; i < indices.length; i++) { var cdj = calcTraces[indices[i]][j]; cdj[valAttr] /= norm; cdj.sNorm = cdj.s / norm; } } } // autorange for(i = 0; i < indices.length; i++) { cd = calcTraces[indices[i]]; var trace = cd[0].trace; var ppad = calc.calcMarkerSize(trace, trace._rawLength); var arrayPad = Array.isArray(ppad); if((ppad && hasAnyBlanks[i]) || arrayPad) { var ppadRaw = ppad; ppad = new Array(serieslen); for(j = 0; j < serieslen; j++) { ppad[j] = cd[j].gap ? 0 : (arrayPad ? ppadRaw[cd[j].i] : ppadRaw); } } var x = new Array(serieslen); var y = new Array(serieslen); for(j = 0; j < serieslen; j++) { x[j] = cd[j].x; y[j] = cd[j].y; } calc.calcAxisExpansion(gd, trace, xa, ya, x, y, ppad); // while we're here (in a loop over all traces in the stack) // record the orientation, so hover can find it easily cd[0].t.orientation = groupOpts.orientation; } } }; function insertBlank(calcTrace, index, position, traceIndex, hasAnyBlanks, interpolate, posAttr) { hasAnyBlanks[traceIndex] = true; var newEntry = { i: null, gap: true, s: 0 }; newEntry[posAttr] = position; calcTrace.splice(index, 0, newEntry); // Even if we're not interpolating, if one trace has multiple // values at the same position and this trace only has one value there, // we just duplicate that one value rather than insert a zero. // We also make it look like a real point - because it's ambiguous which // one really is the real one! if(index && position === calcTrace[index - 1][posAttr]) { var prevEntry = calcTrace[index - 1]; newEntry.s = prevEntry.s; // TODO is it going to cause any problems to have multiple // calcdata points with the same index? newEntry.i = prevEntry.i; newEntry.gap = prevEntry.gap; } else if(interpolate) { newEntry.s = getInterp(calcTrace, index, position, posAttr); } if(!index) { // t and trace need to stay on the first cd entry calcTrace[0].t = calcTrace[1].t; calcTrace[0].trace = calcTrace[1].trace; delete calcTrace[1].t; delete calcTrace[1].trace; } } function getInterp(calcTrace, index, position, posAttr) { var pt0 = calcTrace[index - 1]; var pt1 = calcTrace[index + 1]; if(!pt1) return pt0.s; if(!pt0) return pt1.s; return pt0.s + (pt1.s - pt0.s) * (position - pt0[posAttr]) / (pt1[posAttr] - pt0[posAttr]); } },{"./calc":501}],506:[function(_dereq_,module,exports){ 'use strict'; // remove opacity for any trace that has a fill or is filled to module.exports = function crossTraceDefaults(fullData) { for(var i = 0; i < fullData.length; i++) { var tracei = fullData[i]; if(tracei.type !== 'scatter') continue; var filli = tracei.fill; if(filli === 'none' || filli === 'toself') continue; tracei.opacity = undefined; if(filli === 'tonexty' || filli === 'tonextx') { for(var j = i - 1; j >= 0; j--) { var tracej = fullData[j]; if((tracej.type === 'scatter') && (tracej.xaxis === tracei.xaxis) && (tracej.yaxis === tracei.yaxis)) { tracej.opacity = undefined; break; } } } } }; },{}],507:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); var attributes = _dereq_('./attributes'); var constants = _dereq_('./constants'); var subTypes = _dereq_('./subtypes'); var handleXYDefaults = _dereq_('./xy_defaults'); var handlePeriodDefaults = _dereq_('./period_defaults'); var handleStackDefaults = _dereq_('./stack_defaults'); var handleMarkerDefaults = _dereq_('./marker_defaults'); var handleLineDefaults = _dereq_('./line_defaults'); var handleLineShapeDefaults = _dereq_('./line_shape_defaults'); var handleTextDefaults = _dereq_('./text_defaults'); var handleFillColorDefaults = _dereq_('./fillcolor_defaults'); var coercePattern = _dereq_('../../lib').coercePattern; module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } var len = handleXYDefaults(traceIn, traceOut, layout, coerce); if(!len) traceOut.visible = false; if(!traceOut.visible) return; handlePeriodDefaults(traceIn, traceOut, layout, coerce); coerce('xhoverformat'); coerce('yhoverformat'); var stackGroupOpts = handleStackDefaults(traceIn, traceOut, layout, coerce); var defaultMode = !stackGroupOpts && (len < constants.PTS_LINESONLY) ? 'lines+markers' : 'lines'; coerce('text'); coerce('hovertext'); coerce('mode', defaultMode); if(subTypes.hasLines(traceOut)) { handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce); handleLineShapeDefaults(traceIn, traceOut, coerce); coerce('connectgaps'); coerce('line.simplify'); } if(subTypes.hasMarkers(traceOut)) { handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {gradient: true}); } if(subTypes.hasText(traceOut)) { coerce('texttemplate'); handleTextDefaults(traceIn, traceOut, layout, coerce); } var dfltHoverOn = []; if(subTypes.hasMarkers(traceOut) || subTypes.hasText(traceOut)) { coerce('cliponaxis'); coerce('marker.maxdisplayed'); dfltHoverOn.push('points'); } // It's possible for this default to be changed by a later trace. // We handle that case in some hacky code inside handleStackDefaults. coerce('fill', stackGroupOpts ? stackGroupOpts.fillDflt : 'none'); if(traceOut.fill !== 'none') { handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce); if(!subTypes.hasLines(traceOut)) handleLineShapeDefaults(traceIn, traceOut, coerce); coercePattern(coerce, 'fillpattern', traceOut.fillcolor, false); } var lineColor = (traceOut.line || {}).color; var markerColor = (traceOut.marker || {}).color; if(traceOut.fill === 'tonext' || traceOut.fill === 'toself') { dfltHoverOn.push('fills'); } coerce('hoveron', dfltHoverOn.join('+') || 'points'); if(traceOut.hoveron !== 'fills') coerce('hovertemplate'); var errorBarsSupplyDefaults = Registry.getComponentMethod('errorbars', 'supplyDefaults'); errorBarsSupplyDefaults(traceIn, traceOut, lineColor || markerColor || defaultColor, {axis: 'y'}); errorBarsSupplyDefaults(traceIn, traceOut, lineColor || markerColor || defaultColor, {axis: 'x', inherit: 'y'}); Lib.coerceSelectionMarkerOpacity(traceOut, coerce); }; },{"../../lib":287,"../../registry":378,"./attributes":500,"./constants":504,"./fillcolor_defaults":508,"./line_defaults":513,"./line_shape_defaults":515,"./marker_defaults":519,"./period_defaults":520,"./stack_defaults":523,"./subtypes":525,"./text_defaults":526,"./xy_defaults":527}],508:[function(_dereq_,module,exports){ 'use strict'; var Color = _dereq_('../../components/color'); var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray; module.exports = function fillColorDefaults(traceIn, traceOut, defaultColor, coerce) { var inheritColorFromMarker = false; if(traceOut.marker) { // don't try to inherit a color array var markerColor = traceOut.marker.color; var markerLineColor = (traceOut.marker.line || {}).color; if(markerColor && !isArrayOrTypedArray(markerColor)) { inheritColorFromMarker = markerColor; } else if(markerLineColor && !isArrayOrTypedArray(markerLineColor)) { inheritColorFromMarker = markerLineColor; } } coerce('fillcolor', Color.addOpacity( (traceOut.line || {}).color || inheritColorFromMarker || defaultColor, 0.5 )); }; },{"../../components/color":157,"../../lib":287}],509:[function(_dereq_,module,exports){ 'use strict'; var Axes = _dereq_('../../plots/cartesian/axes'); module.exports = function formatLabels(cdi, trace, fullLayout) { var labels = {}; var mockGd = {_fullLayout: fullLayout}; var xa = Axes.getFromTrace(mockGd, trace, 'x'); var ya = Axes.getFromTrace(mockGd, trace, 'y'); labels.xLabel = Axes.tickText(xa, xa.c2l(cdi.x), true).text; labels.yLabel = Axes.tickText(ya, ya.c2l(cdi.y), true).text; return labels; }; },{"../../plots/cartesian/axes":334}],510:[function(_dereq_,module,exports){ 'use strict'; var Color = _dereq_('../../components/color'); var subtypes = _dereq_('./subtypes'); module.exports = function getTraceColor(trace, di) { var lc, tc; // TODO: text modes if(trace.mode === 'lines') { lc = trace.line.color; return (lc && Color.opacity(lc)) ? lc : trace.fillcolor; } else if(trace.mode === 'none') { return trace.fill ? trace.fillcolor : ''; } else { var mc = di.mcc || (trace.marker || {}).color; var mlc = di.mlcc || ((trace.marker || {}).line || {}).color; tc = (mc && Color.opacity(mc)) ? mc : (mlc && Color.opacity(mlc) && (di.mlw || ((trace.marker || {}).line || {}).width)) ? mlc : ''; if(tc) { // make sure the points aren't TOO transparent if(Color.opacity(tc) < 0.3) { return Color.addOpacity(tc, 0.3); } else return tc; } else { lc = (trace.line || {}).color; return (lc && Color.opacity(lc) && subtypes.hasLines(trace) && trace.line.width) ? lc : trace.fillcolor; } } }; },{"../../components/color":157,"./subtypes":525}],511:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Fx = _dereq_('../../components/fx'); var Registry = _dereq_('../../registry'); var getTraceColor = _dereq_('./get_trace_color'); var Color = _dereq_('../../components/color'); var fillText = Lib.fillText; module.exports = function hoverPoints(pointData, xval, yval, hovermode) { var cd = pointData.cd; var trace = cd[0].trace; var xa = pointData.xa; var ya = pointData.ya; var xpx = xa.c2p(xval); var ypx = ya.c2p(yval); var pt = [xpx, ypx]; var hoveron = trace.hoveron || ''; var minRad = (trace.mode.indexOf('markers') !== -1) ? 3 : 0.5; var xPeriod = !!trace.xperiodalignment; var yPeriod = !!trace.yperiodalignment; // look for points to hover on first, then take fills only if we // didn't find a point if(hoveron.indexOf('points') !== -1) { // dx and dy are used in compare modes - here we want to always // prioritize the closest data point, at least as long as markers are // the same size or nonexistent, but still try to prioritize small markers too. var dx = function(di) { if(xPeriod) { var x0 = xa.c2p(di.xStart); var x1 = xa.c2p(di.xEnd); return ( xpx >= Math.min(x0, x1) && xpx <= Math.max(x0, x1) ) ? 0 : Infinity; } var rad = Math.max(3, di.mrc || 0); var kink = 1 - 1 / rad; var dxRaw = Math.abs(xa.c2p(di.x) - xpx); return (dxRaw < rad) ? (kink * dxRaw / rad) : (dxRaw - rad + kink); }; var dy = function(di) { if(yPeriod) { var y0 = ya.c2p(di.yStart); var y1 = ya.c2p(di.yEnd); return ( ypx >= Math.min(y0, y1) && ypx <= Math.max(y0, y1) ) ? 0 : Infinity; } var rad = Math.max(3, di.mrc || 0); var kink = 1 - 1 / rad; var dyRaw = Math.abs(ya.c2p(di.y) - ypx); return (dyRaw < rad) ? (kink * dyRaw / rad) : (dyRaw - rad + kink); }; // scatter points: d.mrc is the calculated marker radius // adjust the distance so if you're inside the marker it // always will show up regardless of point size, but // prioritize smaller points var dxy = function(di) { var rad = Math.max(minRad, di.mrc || 0); var dx = xa.c2p(di.x) - xpx; var dy = ya.c2p(di.y) - ypx; return Math.max(Math.sqrt(dx * dx + dy * dy) - rad, 1 - minRad / rad); }; var distfn = Fx.getDistanceFunction(hovermode, dx, dy, dxy); Fx.getClosest(cd, distfn, pointData); // skip the rest (for this trace) if we didn't find a close point if(pointData.index !== false) { // the closest data point var di = cd[pointData.index]; var xc = xa.c2p(di.x, true); var yc = ya.c2p(di.y, true); var rad = di.mrc || 1; // now we're done using the whole `calcdata` array, replace the // index with the original index (in case of inserted point from // stacked area) pointData.index = di.i; var orientation = cd[0].t.orientation; // TODO: for scatter and bar, option to show (sub)totals and // raw data? Currently stacked and/or normalized bars just show // the normalized individual sizes, so that's what I'm doing here // for now. var sizeVal = orientation && (di.sNorm || di.s); var xLabelVal = (orientation === 'h') ? sizeVal : di.orig_x !== undefined ? di.orig_x : di.x; var yLabelVal = (orientation === 'v') ? sizeVal : di.orig_y !== undefined ? di.orig_y : di.y; Lib.extendFlat(pointData, { color: getTraceColor(trace, di), x0: xc - rad, x1: xc + rad, xLabelVal: xLabelVal, y0: yc - rad, y1: yc + rad, yLabelVal: yLabelVal, spikeDistance: dxy(di), hovertemplate: trace.hovertemplate }); fillText(di, trace, pointData); Registry.getComponentMethod('errorbars', 'hoverInfo')(di, trace, pointData); return [pointData]; } } // even if hoveron is 'fills', only use it if we have polygons too if(hoveron.indexOf('fills') !== -1 && trace._polygons) { var polygons = trace._polygons; var polygonsIn = []; var inside = false; var xmin = Infinity; var xmax = -Infinity; var ymin = Infinity; var ymax = -Infinity; var i, j, polygon, pts, xCross, x0, x1, y0, y1; for(i = 0; i < polygons.length; i++) { polygon = polygons[i]; // TODO: this is not going to work right for curved edges, it will // act as though they're straight. That's probably going to need // the elements themselves to capture the events. Worth it? if(polygon.contains(pt)) { inside = !inside; // TODO: need better than just the overall bounding box polygonsIn.push(polygon); ymin = Math.min(ymin, polygon.ymin); ymax = Math.max(ymax, polygon.ymax); } } if(inside) { // constrain ymin/max to the visible plot, so the label goes // at the middle of the piece you can see ymin = Math.max(ymin, 0); ymax = Math.min(ymax, ya._length); // find the overall left-most and right-most points of the // polygon(s) we're inside at their combined vertical midpoint. // This is where we will draw the hover label. // Note that this might not be the vertical midpoint of the // whole trace, if it's disjoint. var yAvg = (ymin + ymax) / 2; for(i = 0; i < polygonsIn.length; i++) { pts = polygonsIn[i].pts; for(j = 1; j < pts.length; j++) { y0 = pts[j - 1][1]; y1 = pts[j][1]; if((y0 > yAvg) !== (y1 >= yAvg)) { x0 = pts[j - 1][0]; x1 = pts[j][0]; if(y1 - y0) { xCross = x0 + (x1 - x0) * (yAvg - y0) / (y1 - y0); xmin = Math.min(xmin, xCross); xmax = Math.max(xmax, xCross); } } } } // constrain xmin/max to the visible plot now too xmin = Math.max(xmin, 0); xmax = Math.min(xmax, xa._length); // get only fill or line color for the hover color var color = Color.defaultLine; if(Color.opacity(trace.fillcolor)) color = trace.fillcolor; else if(Color.opacity((trace.line || {}).color)) { color = trace.line.color; } Lib.extendFlat(pointData, { // never let a 2D override 1D type as closest point // also: no spikeDistance, it's not allowed for fills distance: pointData.maxHoverDistance, x0: xmin, x1: xmax, y0: yAvg, y1: yAvg, color: color, hovertemplate: false }); delete pointData.index; if(trace.text && !Array.isArray(trace.text)) { pointData.text = String(trace.text); } else pointData.text = trace.name; return [pointData]; } } }; },{"../../components/color":157,"../../components/fx":197,"../../lib":287,"../../registry":378,"./get_trace_color":510}],512:[function(_dereq_,module,exports){ 'use strict'; var subtypes = _dereq_('./subtypes'); module.exports = { hasLines: subtypes.hasLines, hasMarkers: subtypes.hasMarkers, hasText: subtypes.hasText, isBubble: subtypes.isBubble, attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults'), crossTraceDefaults: _dereq_('./cross_trace_defaults'), calc: _dereq_('./calc').calc, crossTraceCalc: _dereq_('./cross_trace_calc'), arraysToCalcdata: _dereq_('./arrays_to_calcdata'), plot: _dereq_('./plot'), colorbar: _dereq_('./marker_colorbar'), formatLabels: _dereq_('./format_labels'), style: _dereq_('./style').style, styleOnSelect: _dereq_('./style').styleOnSelect, hoverPoints: _dereq_('./hover'), selectPoints: _dereq_('./select'), animatable: true, moduleType: 'trace', name: 'scatter', basePlotModule: _dereq_('../../plots/cartesian'), categories: [ 'cartesian', 'svg', 'symbols', 'errorBarsOK', 'showLegend', 'scatter-like', 'zoomScale' ], meta: { } }; },{"../../plots/cartesian":348,"./arrays_to_calcdata":499,"./attributes":500,"./calc":501,"./cross_trace_calc":505,"./cross_trace_defaults":506,"./defaults":507,"./format_labels":509,"./hover":511,"./marker_colorbar":518,"./plot":521,"./select":522,"./style":524,"./subtypes":525}],513:[function(_dereq_,module,exports){ 'use strict'; var isArrayOrTypedArray = _dereq_('../../lib').isArrayOrTypedArray; var hasColorscale = _dereq_('../../components/colorscale/helpers').hasColorscale; var colorscaleDefaults = _dereq_('../../components/colorscale/defaults'); module.exports = function lineDefaults(traceIn, traceOut, defaultColor, layout, coerce, opts) { var markerColor = (traceIn.marker || {}).color; coerce('line.color', defaultColor); if(hasColorscale(traceIn, 'line')) { colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: 'line.', cLetter: 'c'}); } else { var lineColorDflt = (isArrayOrTypedArray(markerColor) ? false : markerColor) || defaultColor; coerce('line.color', lineColorDflt); } coerce('line.width'); if(!(opts || {}).noDash) coerce('line.dash'); }; },{"../../components/colorscale/defaults":167,"../../components/colorscale/helpers":168,"../../lib":287}],514:[function(_dereq_,module,exports){ 'use strict'; var numConstants = _dereq_('../../constants/numerical'); var BADNUM = numConstants.BADNUM; var LOG_CLIP = numConstants.LOG_CLIP; var LOG_CLIP_PLUS = LOG_CLIP + 0.5; var LOG_CLIP_MINUS = LOG_CLIP - 0.5; var Lib = _dereq_('../../lib'); var segmentsIntersect = Lib.segmentsIntersect; var constrain = Lib.constrain; var constants = _dereq_('./constants'); module.exports = function linePoints(d, opts) { var xa = opts.xaxis; var ya = opts.yaxis; var xLog = xa.type === 'log'; var yLog = ya.type === 'log'; var xLen = xa._length; var yLen = ya._length; var connectGaps = opts.connectGaps; var baseTolerance = opts.baseTolerance; var shape = opts.shape; var linear = shape === 'linear'; var fill = opts.fill && opts.fill !== 'none'; var segments = []; var minTolerance = constants.minTolerance; var len = d.length; var pts = new Array(len); var pti = 0; var i; // pt variables are pixel coordinates [x,y] of one point // these four are the outputs of clustering on a line var clusterStartPt, clusterEndPt, clusterHighPt, clusterLowPt; // "this" is the next point we're considering adding to the cluster var thisPt; // did we encounter the high point first, then a low point, or vice versa? var clusterHighFirst; // the first two points in the cluster determine its unit vector // so the second is always in the "High" direction var clusterUnitVector; // the pixel delta from clusterStartPt var thisVector; // val variables are (signed) pixel distances along the cluster vector var clusterRefDist, clusterHighVal, clusterLowVal, thisVal; // deviation variables are (signed) pixel distances normal to the cluster vector var clusterMinDeviation, clusterMaxDeviation, thisDeviation; // turn one calcdata point into pixel coordinates function getPt(index) { var di = d[index]; if(!di) return false; var x = opts.linearized ? xa.l2p(di.x) : xa.c2p(di.x); var y = opts.linearized ? ya.l2p(di.y) : ya.c2p(di.y); // if non-positive log values, set them VERY far off-screen // so the line looks essentially straight from the previous point. if(x === BADNUM) { if(xLog) x = xa.c2p(di.x, true); if(x === BADNUM) return false; // If BOTH were bad log values, make the line follow a constant // exponent rather than a constant slope if(yLog && y === BADNUM) { x *= Math.abs(xa._m * yLen * (xa._m > 0 ? LOG_CLIP_PLUS : LOG_CLIP_MINUS) / (ya._m * xLen * (ya._m > 0 ? LOG_CLIP_PLUS : LOG_CLIP_MINUS))); } x *= 1000; } if(y === BADNUM) { if(yLog) y = ya.c2p(di.y, true); if(y === BADNUM) return false; y *= 1000; } return [x, y]; } function crossesViewport(xFrac0, yFrac0, xFrac1, yFrac1) { var dx = xFrac1 - xFrac0; var dy = yFrac1 - yFrac0; var dx0 = 0.5 - xFrac0; var dy0 = 0.5 - yFrac0; var norm2 = dx * dx + dy * dy; var dot = dx * dx0 + dy * dy0; if(dot > 0 && dot < norm2) { var cross = dx0 * dy - dy0 * dx; if(cross * cross < norm2) return true; } } var latestXFrac, latestYFrac; // if we're off-screen, increase tolerance over baseTolerance function getTolerance(pt, nextPt) { var xFrac = pt[0] / xLen; var yFrac = pt[1] / yLen; var offScreenFraction = Math.max(0, -xFrac, xFrac - 1, -yFrac, yFrac - 1); if(offScreenFraction && (latestXFrac !== undefined) && crossesViewport(xFrac, yFrac, latestXFrac, latestYFrac) ) { offScreenFraction = 0; } if(offScreenFraction && nextPt && crossesViewport(xFrac, yFrac, nextPt[0] / xLen, nextPt[1] / yLen) ) { offScreenFraction = 0; } return (1 + constants.toleranceGrowth * offScreenFraction) * baseTolerance; } function ptDist(pt1, pt2) { var dx = pt1[0] - pt2[0]; var dy = pt1[1] - pt2[1]; return Math.sqrt(dx * dx + dy * dy); } // last bit of filtering: clip paths that are VERY far off-screen // so we don't get near the browser's hard limit (+/- 2^29 px in Chrome and FF) var maxScreensAway = constants.maxScreensAway; // find the intersections between the segment from pt1 to pt2 // and the large rectangle maxScreensAway around the viewport // if one of pt1 and pt2 is inside and the other outside, there // will be only one intersection. // if both are outside there will be 0 or 2 intersections // (or 1 if it's right at a corner - we'll treat that like 0) // returns an array of intersection pts var xEdge0 = -xLen * maxScreensAway; var xEdge1 = xLen * (1 + maxScreensAway); var yEdge0 = -yLen * maxScreensAway; var yEdge1 = yLen * (1 + maxScreensAway); var edges = [ [xEdge0, yEdge0, xEdge1, yEdge0], [xEdge1, yEdge0, xEdge1, yEdge1], [xEdge1, yEdge1, xEdge0, yEdge1], [xEdge0, yEdge1, xEdge0, yEdge0] ]; var xEdge, yEdge, lastXEdge, lastYEdge, lastFarPt, edgePt; // for linear line shape, edge intersections should be linearly interpolated // spline uses this too, which isn't precisely correct but is actually pretty // good, because Catmull-Rom weights far-away points less in creating the curvature function getLinearEdgeIntersections(pt1, pt2) { var out = []; var ptCount = 0; for(var i = 0; i < 4; i++) { var edge = edges[i]; var ptInt = segmentsIntersect( pt1[0], pt1[1], pt2[0], pt2[1], edge[0], edge[1], edge[2], edge[3] ); if(ptInt && (!ptCount || Math.abs(ptInt.x - out[0][0]) > 1 || Math.abs(ptInt.y - out[0][1]) > 1 )) { ptInt = [ptInt.x, ptInt.y]; // if we have 2 intersections, make sure the closest one to pt1 comes first if(ptCount && ptDist(ptInt, pt1) < ptDist(out[0], pt1)) out.unshift(ptInt); else out.push(ptInt); ptCount++; } } return out; } function onlyConstrainedPoint(pt) { if(pt[0] < xEdge0 || pt[0] > xEdge1 || pt[1] < yEdge0 || pt[1] > yEdge1) { return [constrain(pt[0], xEdge0, xEdge1), constrain(pt[1], yEdge0, yEdge1)]; } } function sameEdge(pt1, pt2) { if(pt1[0] === pt2[0] && (pt1[0] === xEdge0 || pt1[0] === xEdge1)) return true; if(pt1[1] === pt2[1] && (pt1[1] === yEdge0 || pt1[1] === yEdge1)) return true; } // for line shapes hv and vh, movement in the two dimensions is decoupled, // so all we need to do is constrain each dimension independently function getHVEdgeIntersections(pt1, pt2) { var out = []; var ptInt1 = onlyConstrainedPoint(pt1); var ptInt2 = onlyConstrainedPoint(pt2); if(ptInt1 && ptInt2 && sameEdge(ptInt1, ptInt2)) return out; if(ptInt1) out.push(ptInt1); if(ptInt2) out.push(ptInt2); return out; } // hvh and vhv we sometimes have to move one of the intersection points // out BEYOND the clipping rect, by a maximum of a factor of 2, so that // the midpoint line is drawn in the right place function getABAEdgeIntersections(dim, limit0, limit1) { return function(pt1, pt2) { var ptInt1 = onlyConstrainedPoint(pt1); var ptInt2 = onlyConstrainedPoint(pt2); var out = []; if(ptInt1 && ptInt2 && sameEdge(ptInt1, ptInt2)) return out; if(ptInt1) out.push(ptInt1); if(ptInt2) out.push(ptInt2); var midShift = 2 * Lib.constrain((pt1[dim] + pt2[dim]) / 2, limit0, limit1) - ((ptInt1 || pt1)[dim] + (ptInt2 || pt2)[dim]); if(midShift) { var ptToAlter; if(ptInt1 && ptInt2) { ptToAlter = (midShift > 0 === ptInt1[dim] > ptInt2[dim]) ? ptInt1 : ptInt2; } else ptToAlter = ptInt1 || ptInt2; ptToAlter[dim] += midShift; } return out; }; } var getEdgeIntersections; if(shape === 'linear' || shape === 'spline') { getEdgeIntersections = getLinearEdgeIntersections; } else if(shape === 'hv' || shape === 'vh') { getEdgeIntersections = getHVEdgeIntersections; } else if(shape === 'hvh') getEdgeIntersections = getABAEdgeIntersections(0, xEdge0, xEdge1); else if(shape === 'vhv') getEdgeIntersections = getABAEdgeIntersections(1, yEdge0, yEdge1); // a segment pt1->pt2 entirely outside the nearby region: // find the corner it gets closest to touching function getClosestCorner(pt1, pt2) { var dx = pt2[0] - pt1[0]; var m = (pt2[1] - pt1[1]) / dx; var b = (pt1[1] * pt2[0] - pt2[1] * pt1[0]) / dx; if(b > 0) return [m > 0 ? xEdge0 : xEdge1, yEdge1]; else return [m > 0 ? xEdge1 : xEdge0, yEdge0]; } function updateEdge(pt) { var x = pt[0]; var y = pt[1]; var xSame = x === pts[pti - 1][0]; var ySame = y === pts[pti - 1][1]; // duplicate point? if(xSame && ySame) return; if(pti > 1) { // backtracking along an edge? var xSame2 = x === pts[pti - 2][0]; var ySame2 = y === pts[pti - 2][1]; if(xSame && (x === xEdge0 || x === xEdge1) && xSame2) { if(ySame2) pti--; // backtracking exactly - drop prev pt and don't add else pts[pti - 1] = pt; // not exact: replace the prev pt } else if(ySame && (y === yEdge0 || y === yEdge1) && ySame2) { if(xSame2) pti--; else pts[pti - 1] = pt; } else pts[pti++] = pt; } else pts[pti++] = pt; } function updateEdgesForReentry(pt) { // if we're outside the nearby region and going back in, // we may need to loop around a corner point if(pts[pti - 1][0] !== pt[0] && pts[pti - 1][1] !== pt[1]) { updateEdge([lastXEdge, lastYEdge]); } updateEdge(pt); lastFarPt = null; lastXEdge = lastYEdge = 0; } function addPt(pt) { latestXFrac = pt[0] / xLen; latestYFrac = pt[1] / yLen; // Are we more than maxScreensAway off-screen any direction? // if so, clip to this box, but in such a way that on-screen // drawing is unchanged xEdge = (pt[0] < xEdge0) ? xEdge0 : (pt[0] > xEdge1) ? xEdge1 : 0; yEdge = (pt[1] < yEdge0) ? yEdge0 : (pt[1] > yEdge1) ? yEdge1 : 0; if(xEdge || yEdge) { if(!pti) { // to get fills right - if first point is far, push it toward the // screen in whichever direction(s) are far pts[pti++] = [xEdge || pt[0], yEdge || pt[1]]; } else if(lastFarPt) { // both this point and the last are outside the nearby region // check if we're crossing the nearby region var intersections = getEdgeIntersections(lastFarPt, pt); if(intersections.length > 1) { updateEdgesForReentry(intersections[0]); pts[pti++] = intersections[1]; } } else { // we're leaving the nearby region - add the point where we left it edgePt = getEdgeIntersections(pts[pti - 1], pt)[0]; pts[pti++] = edgePt; } var lastPt = pts[pti - 1]; if(xEdge && yEdge && (lastPt[0] !== xEdge || lastPt[1] !== yEdge)) { // we've gone out beyond a new corner: add the corner too // so that the next point will take the right winding if(lastFarPt) { if(lastXEdge !== xEdge && lastYEdge !== yEdge) { if(lastXEdge && lastYEdge) { // we've gone around to an opposite corner - we // need to add the correct extra corner // in order to get the right winding updateEdge(getClosestCorner(lastFarPt, pt)); } else { // we're coming from a far edge - the extra corner // we need is determined uniquely by the sectors updateEdge([lastXEdge || xEdge, lastYEdge || yEdge]); } } else if(lastXEdge && lastYEdge) { updateEdge([lastXEdge, lastYEdge]); } } updateEdge([xEdge, yEdge]); } else if((lastXEdge - xEdge) && (lastYEdge - yEdge)) { // we're coming from an edge or far corner to an edge - again the // extra corner we need is uniquely determined by the sectors updateEdge([xEdge || lastXEdge, yEdge || lastYEdge]); } lastFarPt = pt; lastXEdge = xEdge; lastYEdge = yEdge; } else { if(lastFarPt) { // this point is in range but the previous wasn't: add its entry pt first updateEdgesForReentry(getEdgeIntersections(lastFarPt, pt)[0]); } pts[pti++] = pt; } } // loop over ALL points in this trace for(i = 0; i < len; i++) { clusterStartPt = getPt(i); if(!clusterStartPt) continue; pti = 0; lastFarPt = null; addPt(clusterStartPt); // loop over one segment of the trace for(i++; i < len; i++) { clusterHighPt = getPt(i); if(!clusterHighPt) { if(connectGaps) continue; else break; } // can't decimate if nonlinear line shape // TODO: we *could* decimate [hv]{2,3} shapes if we restricted clusters to horz or vert again // but spline would be verrry awkward to decimate if(!linear || !opts.simplify) { addPt(clusterHighPt); continue; } var nextPt = getPt(i + 1); clusterRefDist = ptDist(clusterHighPt, clusterStartPt); // #3147 - always include the very first and last points for fills if(!(fill && (pti === 0 || pti === len - 1)) && clusterRefDist < getTolerance(clusterHighPt, nextPt) * minTolerance) continue; clusterUnitVector = [ (clusterHighPt[0] - clusterStartPt[0]) / clusterRefDist, (clusterHighPt[1] - clusterStartPt[1]) / clusterRefDist ]; clusterLowPt = clusterStartPt; clusterHighVal = clusterRefDist; clusterLowVal = clusterMinDeviation = clusterMaxDeviation = 0; clusterHighFirst = false; clusterEndPt = clusterHighPt; // loop over one cluster of points that collapse onto one line for(i++; i < d.length; i++) { thisPt = nextPt; nextPt = getPt(i + 1); if(!thisPt) { if(connectGaps) continue; else break; } thisVector = [ thisPt[0] - clusterStartPt[0], thisPt[1] - clusterStartPt[1] ]; // cross product (or dot with normal to the cluster vector) thisDeviation = thisVector[0] * clusterUnitVector[1] - thisVector[1] * clusterUnitVector[0]; clusterMinDeviation = Math.min(clusterMinDeviation, thisDeviation); clusterMaxDeviation = Math.max(clusterMaxDeviation, thisDeviation); if(clusterMaxDeviation - clusterMinDeviation > getTolerance(thisPt, nextPt)) break; clusterEndPt = thisPt; thisVal = thisVector[0] * clusterUnitVector[0] + thisVector[1] * clusterUnitVector[1]; if(thisVal > clusterHighVal) { clusterHighVal = thisVal; clusterHighPt = thisPt; clusterHighFirst = false; } else if(thisVal < clusterLowVal) { clusterLowVal = thisVal; clusterLowPt = thisPt; clusterHighFirst = true; } } // insert this cluster into pts // we've already inserted the start pt, now check if we have high and low pts if(clusterHighFirst) { addPt(clusterHighPt); if(clusterEndPt !== clusterLowPt) addPt(clusterLowPt); } else { if(clusterLowPt !== clusterStartPt) addPt(clusterLowPt); if(clusterEndPt !== clusterHighPt) addPt(clusterHighPt); } // and finally insert the end pt addPt(clusterEndPt); // have we reached the end of this segment? if(i >= d.length || !thisPt) break; // otherwise we have an out-of-cluster point to insert as next clusterStartPt addPt(thisPt); clusterStartPt = thisPt; } // to get fills right - repeat what we did at the start if(lastFarPt) updateEdge([lastXEdge || lastFarPt[0], lastYEdge || lastFarPt[1]]); segments.push(pts.slice(0, pti)); } return segments; }; },{"../../constants/numerical":267,"../../lib":287,"./constants":504}],515:[function(_dereq_,module,exports){ 'use strict'; // common to 'scatter' and 'scatterternary' module.exports = function handleLineShapeDefaults(traceIn, traceOut, coerce) { var shape = coerce('line.shape'); if(shape === 'spline') coerce('line.smoothing'); }; },{}],516:[function(_dereq_,module,exports){ 'use strict'; var LINKEDFILLS = {tonextx: 1, tonexty: 1, tonext: 1}; module.exports = function linkTraces(gd, plotinfo, cdscatter) { var trace, i, group, prevtrace, groupIndex; // first sort traces to keep stacks & filled-together groups together var groupIndices = {}; var needsSort = false; var prevGroupIndex = -1; var nextGroupIndex = 0; var prevUnstackedGroupIndex = -1; for(i = 0; i < cdscatter.length; i++) { trace = cdscatter[i][0].trace; group = trace.stackgroup || ''; if(group) { if(group in groupIndices) { groupIndex = groupIndices[group]; } else { groupIndex = groupIndices[group] = nextGroupIndex; nextGroupIndex++; } } else if(trace.fill in LINKEDFILLS && prevUnstackedGroupIndex >= 0) { groupIndex = prevUnstackedGroupIndex; } else { groupIndex = prevUnstackedGroupIndex = nextGroupIndex; nextGroupIndex++; } if(groupIndex < prevGroupIndex) needsSort = true; trace._groupIndex = prevGroupIndex = groupIndex; } var cdscatterSorted = cdscatter.slice(); if(needsSort) { cdscatterSorted.sort(function(a, b) { var traceA = a[0].trace; var traceB = b[0].trace; return (traceA._groupIndex - traceB._groupIndex) || (traceA.index - traceB.index); }); } // now link traces to each other var prevtraces = {}; for(i = 0; i < cdscatterSorted.length; i++) { trace = cdscatterSorted[i][0].trace; group = trace.stackgroup || ''; // Note: The check which ensures all cdscatter here are for the same axis and // are either cartesian or scatterternary has been removed. This code assumes // the passed scattertraces have been filtered to the proper plot types and // the proper subplots. if(trace.visible === true) { trace._nexttrace = null; if(trace.fill in LINKEDFILLS) { prevtrace = prevtraces[group]; trace._prevtrace = prevtrace || null; if(prevtrace) { prevtrace._nexttrace = trace; } } trace._ownfill = (trace.fill && ( trace.fill.substr(0, 6) === 'tozero' || trace.fill === 'toself' || (trace.fill.substr(0, 2) === 'to' && !trace._prevtrace) )); prevtraces[group] = trace; } else { trace._prevtrace = trace._nexttrace = trace._ownfill = null; } } return cdscatterSorted; }; },{}],517:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); // used in the drawing step for 'scatter' and 'scattegeo' and // in the convert step for 'scatter3d' module.exports = function makeBubbleSizeFn(trace, factor) { if(!factor) { factor = 2; } var marker = trace.marker; var sizeRef = marker.sizeref || 1; var sizeMin = marker.sizemin || 0; // for bubble charts, allow scaling the provided value linearly // and by area or diameter. // Note this only applies to the array-value sizes var baseFn = (marker.sizemode === 'area') ? function(v) { return Math.sqrt(v / sizeRef); } : function(v) { return v / sizeRef; }; // TODO add support for position/negative bubbles? // TODO add 'sizeoffset' attribute? return function(v) { var baseSize = baseFn(v / factor); // don't show non-numeric and negative sizes return (isNumeric(baseSize) && (baseSize > 0)) ? Math.max(baseSize, sizeMin) : 0; }; }; },{"fast-isnumeric":33}],518:[function(_dereq_,module,exports){ 'use strict'; module.exports = { container: 'marker', min: 'cmin', max: 'cmax' }; },{}],519:[function(_dereq_,module,exports){ 'use strict'; var Color = _dereq_('../../components/color'); var hasColorscale = _dereq_('../../components/colorscale/helpers').hasColorscale; var colorscaleDefaults = _dereq_('../../components/colorscale/defaults'); var subTypes = _dereq_('./subtypes'); /* * opts: object of flags to control features not all marker users support * noLine: caller does not support marker lines * gradient: caller supports gradients * noSelect: caller does not support selected/unselected attribute containers */ module.exports = function markerDefaults(traceIn, traceOut, defaultColor, layout, coerce, opts) { var isBubble = subTypes.isBubble(traceIn); var lineColor = (traceIn.line || {}).color; var defaultMLC; opts = opts || {}; // marker.color inherit from line.color (even if line.color is an array) if(lineColor) defaultColor = lineColor; coerce('marker.symbol'); coerce('marker.opacity', isBubble ? 0.7 : 1); coerce('marker.size'); coerce('marker.color', defaultColor); if(hasColorscale(traceIn, 'marker')) { colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: 'marker.', cLetter: 'c'}); } if(!opts.noSelect) { coerce('selected.marker.color'); coerce('unselected.marker.color'); coerce('selected.marker.size'); coerce('unselected.marker.size'); } if(!opts.noLine) { // if there's a line with a different color than the marker, use // that line color as the default marker line color // (except when it's an array) // mostly this is for transparent markers to behave nicely if(lineColor && !Array.isArray(lineColor) && (traceOut.marker.color !== lineColor)) { defaultMLC = lineColor; } else if(isBubble) defaultMLC = Color.background; else defaultMLC = Color.defaultLine; coerce('marker.line.color', defaultMLC); if(hasColorscale(traceIn, 'marker.line')) { colorscaleDefaults(traceIn, traceOut, layout, coerce, {prefix: 'marker.line.', cLetter: 'c'}); } coerce('marker.line.width', isBubble ? 1 : 0); } if(isBubble) { coerce('marker.sizeref'); coerce('marker.sizemin'); coerce('marker.sizemode'); } if(opts.gradient) { var gradientType = coerce('marker.gradient.type'); if(gradientType !== 'none') { coerce('marker.gradient.color'); } } }; },{"../../components/color":157,"../../components/colorscale/defaults":167,"../../components/colorscale/helpers":168,"./subtypes":525}],520:[function(_dereq_,module,exports){ 'use strict'; var dateTick0 = _dereq_('../../lib').dateTick0; var numConstants = _dereq_('../../constants/numerical'); var ONEWEEK = numConstants.ONEWEEK; function getPeriod0Dflt(period, calendar) { if(period % ONEWEEK === 0) { return dateTick0(calendar, 1); // Sunday } return dateTick0(calendar, 0); } module.exports = function handlePeriodDefaults(traceIn, traceOut, layout, coerce, opts) { if(!opts) { opts = { x: true, y: true }; } if(opts.x) { var xperiod = coerce('xperiod'); if(xperiod) { coerce('xperiod0', getPeriod0Dflt(xperiod, traceOut.xcalendar)); coerce('xperiodalignment'); } } if(opts.y) { var yperiod = coerce('yperiod'); if(yperiod) { coerce('yperiod0', getPeriod0Dflt(yperiod, traceOut.ycalendar)); coerce('yperiodalignment'); } } }; },{"../../constants/numerical":267,"../../lib":287}],521:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Registry = _dereq_('../../registry'); var Lib = _dereq_('../../lib'); var ensureSingle = Lib.ensureSingle; var identity = Lib.identity; var Drawing = _dereq_('../../components/drawing'); var subTypes = _dereq_('./subtypes'); var linePoints = _dereq_('./line_points'); var linkTraces = _dereq_('./link_traces'); var polygonTester = _dereq_('../../lib/polygon').tester; module.exports = function plot(gd, plotinfo, cdscatter, scatterLayer, transitionOpts, makeOnCompleteCallback) { var join, onComplete; // If transition config is provided, then it is only a partial replot and traces not // updated are removed. var isFullReplot = !transitionOpts; var hasTransition = !!transitionOpts && transitionOpts.duration > 0; // Link traces so the z-order of fill layers is correct var cdscatterSorted = linkTraces(gd, plotinfo, cdscatter); join = scatterLayer.selectAll('g.trace') .data(cdscatterSorted, function(d) { return d[0].trace.uid; }); // Append new traces: join.enter().append('g') .attr('class', function(d) { return 'trace scatter trace' + d[0].trace.uid; }) .style('stroke-miterlimit', 2); join.order(); createFills(gd, join, plotinfo); if(hasTransition) { if(makeOnCompleteCallback) { // If it was passed a callback to register completion, make a callback. If // this is created, then it must be executed on completion, otherwise the // pos-transition redraw will not execute: onComplete = makeOnCompleteCallback(); } var transition = d3.transition() .duration(transitionOpts.duration) .ease(transitionOpts.easing) .each('end', function() { onComplete && onComplete(); }) .each('interrupt', function() { onComplete && onComplete(); }); transition.each(function() { // Must run the selection again since otherwise enters/updates get grouped together // and these get executed out of order. Except we need them in order! scatterLayer.selectAll('g.trace').each(function(d, i) { plotOne(gd, i, plotinfo, d, cdscatterSorted, this, transitionOpts); }); }); } else { join.each(function(d, i) { plotOne(gd, i, plotinfo, d, cdscatterSorted, this, transitionOpts); }); } if(isFullReplot) { join.exit().remove(); } // remove paths that didn't get used scatterLayer.selectAll('path:not([d])').remove(); }; function createFills(gd, traceJoin, plotinfo) { traceJoin.each(function(d) { var fills = ensureSingle(d3.select(this), 'g', 'fills'); Drawing.setClipUrl(fills, plotinfo.layerClipId, gd); var trace = d[0].trace; var fillData = []; if(trace._ownfill) fillData.push('_ownFill'); if(trace._nexttrace) fillData.push('_nextFill'); var fillJoin = fills.selectAll('g').data(fillData, identity); fillJoin.enter().append('g'); fillJoin.exit() .each(function(d) { trace[d] = null; }) .remove(); fillJoin.order().each(function(d) { // make a path element inside the fill group, just so // we can give it its own data later on and the group can // keep its simple '_*Fill' data trace[d] = ensureSingle(d3.select(this), 'path', 'js-fill'); }); }); } function plotOne(gd, idx, plotinfo, cdscatter, cdscatterAll, element, transitionOpts) { var i; // Since this has been reorganized and we're executing this on individual traces, // we need to pass it the full list of cdscatter as well as this trace's index (idx) // since it does an internal n^2 loop over comparisons with other traces: selectMarkers(gd, idx, plotinfo, cdscatter, cdscatterAll); var hasTransition = !!transitionOpts && transitionOpts.duration > 0; function transition(selection) { return hasTransition ? selection.transition() : selection; } var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var trace = cdscatter[0].trace; var line = trace.line; var tr = d3.select(element); var errorBarGroup = ensureSingle(tr, 'g', 'errorbars'); var lines = ensureSingle(tr, 'g', 'lines'); var points = ensureSingle(tr, 'g', 'points'); var text = ensureSingle(tr, 'g', 'text'); // error bars are at the bottom Registry.getComponentMethod('errorbars', 'plot')(gd, errorBarGroup, plotinfo, transitionOpts); if(trace.visible !== true) return; transition(tr).style('opacity', trace.opacity); // BUILD LINES AND FILLS var ownFillEl3, tonext; var ownFillDir = trace.fill.charAt(trace.fill.length - 1); if(ownFillDir !== 'x' && ownFillDir !== 'y') ownFillDir = ''; // store node for tweaking by selectPoints cdscatter[0][plotinfo.isRangePlot ? 'nodeRangePlot3' : 'node3'] = tr; var prevRevpath = ''; var prevPolygons = []; var prevtrace = trace._prevtrace; if(prevtrace) { prevRevpath = prevtrace._prevRevpath || ''; tonext = prevtrace._nextFill; prevPolygons = prevtrace._polygons; } var thispath; var thisrevpath; // fullpath is all paths for this curve, joined together straight // across gaps, for filling var fullpath = ''; // revpath is fullpath reversed, for fill-to-next var revpath = ''; // functions for converting a point array to a path var pathfn, revpathbase, revpathfn; // variables used before and after the data join var pt0, lastSegment, pt1, thisPolygons; // initialize line join data / method var segments = []; var makeUpdate = Lib.noop; ownFillEl3 = trace._ownFill; if(subTypes.hasLines(trace) || trace.fill !== 'none') { if(tonext) { // This tells .style which trace to use for fill information: tonext.datum(cdscatter); } if(['hv', 'vh', 'hvh', 'vhv'].indexOf(line.shape) !== -1) { pathfn = Drawing.steps(line.shape); revpathbase = Drawing.steps( line.shape.split('').reverse().join('') ); } else if(line.shape === 'spline') { pathfn = revpathbase = function(pts) { var pLast = pts[pts.length - 1]; if(pts.length > 1 && pts[0][0] === pLast[0] && pts[0][1] === pLast[1]) { // identical start and end points: treat it as a // closed curve so we don't get a kink return Drawing.smoothclosed(pts.slice(1), line.smoothing); } else { return Drawing.smoothopen(pts, line.smoothing); } }; } else { pathfn = revpathbase = function(pts) { return 'M' + pts.join('L'); }; } revpathfn = function(pts) { // note: this is destructive (reverses pts in place) so can't use pts after this return revpathbase(pts.reverse()); }; segments = linePoints(cdscatter, { xaxis: xa, yaxis: ya, connectGaps: trace.connectgaps, baseTolerance: Math.max(line.width || 1, 3) / 4, shape: line.shape, simplify: line.simplify, fill: trace.fill }); // since we already have the pixel segments here, use them to make // polygons for hover on fill // TODO: can we skip this if hoveron!=fills? That would mean we // need to redraw when you change hoveron... thisPolygons = trace._polygons = new Array(segments.length); for(i = 0; i < segments.length; i++) { trace._polygons[i] = polygonTester(segments[i]); } if(segments.length) { pt0 = segments[0][0]; lastSegment = segments[segments.length - 1]; pt1 = lastSegment[lastSegment.length - 1]; } makeUpdate = function(isEnter) { return function(pts) { thispath = pathfn(pts); thisrevpath = revpathfn(pts); if(!fullpath) { fullpath = thispath; revpath = thisrevpath; } else if(ownFillDir) { fullpath += 'L' + thispath.substr(1); revpath = thisrevpath + ('L' + revpath.substr(1)); } else { fullpath += 'Z' + thispath; revpath = thisrevpath + 'Z' + revpath; } if(subTypes.hasLines(trace) && pts.length > 1) { var el = d3.select(this); // This makes the coloring work correctly: el.datum(cdscatter); if(isEnter) { transition(el.style('opacity', 0) .attr('d', thispath) .call(Drawing.lineGroupStyle)) .style('opacity', 1); } else { var sel = transition(el); sel.attr('d', thispath); Drawing.singleLineStyle(cdscatter, sel); } } }; }; } var lineJoin = lines.selectAll('.js-line').data(segments); transition(lineJoin.exit()) .style('opacity', 0) .remove(); lineJoin.each(makeUpdate(false)); lineJoin.enter().append('path') .classed('js-line', true) .style('vector-effect', 'non-scaling-stroke') .call(Drawing.lineGroupStyle) .each(makeUpdate(true)); Drawing.setClipUrl(lineJoin, plotinfo.layerClipId, gd); function clearFill(selection) { transition(selection).attr('d', 'M0,0Z'); } if(segments.length) { if(ownFillEl3) { ownFillEl3.datum(cdscatter); if(pt0 && pt1) { if(ownFillDir) { if(ownFillDir === 'y') { pt0[1] = pt1[1] = ya.c2p(0, true); } else if(ownFillDir === 'x') { pt0[0] = pt1[0] = xa.c2p(0, true); } // fill to zero: full trace path, plus extension of // the endpoints to the appropriate axis // For the sake of animations, wrap the points around so that // the points on the axes are the first two points. Otherwise // animations get a little crazy if the number of points changes. transition(ownFillEl3).attr('d', 'M' + pt1 + 'L' + pt0 + 'L' + fullpath.substr(1)) .call(Drawing.singleFillStyle, gd); } else { // fill to self: just join the path to itself transition(ownFillEl3).attr('d', fullpath + 'Z') .call(Drawing.singleFillStyle, gd); } } } else if(tonext) { if(trace.fill.substr(0, 6) === 'tonext' && fullpath && prevRevpath) { // fill to next: full trace path, plus the previous path reversed if(trace.fill === 'tonext') { // tonext: for use by concentric shapes, like manually constructed // contours, we just add the two paths closed on themselves. // This makes strange results if one path is *not* entirely // inside the other, but then that is a strange usage. transition(tonext).attr('d', fullpath + 'Z' + prevRevpath + 'Z') .call(Drawing.singleFillStyle, gd); } else { // tonextx/y: for now just connect endpoints with lines. This is // the correct behavior if the endpoints are at the same value of // y/x, but if they *aren't*, we should ideally do more complicated // things depending on whether the new endpoint projects onto the // existing curve or off the end of it transition(tonext).attr('d', fullpath + 'L' + prevRevpath.substr(1) + 'Z') .call(Drawing.singleFillStyle, gd); } trace._polygons = trace._polygons.concat(prevPolygons); } else { clearFill(tonext); trace._polygons = null; } } trace._prevRevpath = revpath; trace._prevPolygons = thisPolygons; } else { if(ownFillEl3) clearFill(ownFillEl3); else if(tonext) clearFill(tonext); trace._polygons = trace._prevRevpath = trace._prevPolygons = null; } function visFilter(d) { return d.filter(function(v) { return !v.gap && v.vis; }); } function visFilterWithGaps(d) { return d.filter(function(v) { return v.vis; }); } function gapFilter(d) { return d.filter(function(v) { return !v.gap; }); } function keyFunc(d) { return d.id; } // Returns a function if the trace is keyed, otherwise returns undefined function getKeyFunc(trace) { if(trace.ids) { return keyFunc; } } function hideFilter() { return false; } function makePoints(points, text, cdscatter) { var join, selection, hasNode; var trace = cdscatter[0].trace; var showMarkers = subTypes.hasMarkers(trace); var showText = subTypes.hasText(trace); var keyFunc = getKeyFunc(trace); var markerFilter = hideFilter; var textFilter = hideFilter; if(showMarkers || showText) { var showFilter = identity; // if we're stacking, "infer zero" gap mode gets markers in the // gap points - because we've inferred a zero there - but other // modes (currently "interpolate", later "interrupt" hopefully) // we don't draw generated markers var stackGroup = trace.stackgroup; var isInferZero = stackGroup && ( gd._fullLayout._scatterStackOpts[xa._id + ya._id][stackGroup].stackgaps === 'infer zero'); if(trace.marker.maxdisplayed || trace._needsCull) { showFilter = isInferZero ? visFilterWithGaps : visFilter; } else if(stackGroup && !isInferZero) { showFilter = gapFilter; } if(showMarkers) markerFilter = showFilter; if(showText) textFilter = showFilter; } // marker points selection = points.selectAll('path.point'); join = selection.data(markerFilter, keyFunc); var enter = join.enter().append('path') .classed('point', true); if(hasTransition) { enter .call(Drawing.pointStyle, trace, gd) .call(Drawing.translatePoints, xa, ya) .style('opacity', 0) .transition() .style('opacity', 1); } join.order(); var styleFns; if(showMarkers) { styleFns = Drawing.makePointStyleFns(trace); } join.each(function(d) { var el = d3.select(this); var sel = transition(el); hasNode = Drawing.translatePoint(d, sel, xa, ya); if(hasNode) { Drawing.singlePointStyle(d, sel, trace, styleFns, gd); if(plotinfo.layerClipId) { Drawing.hideOutsideRangePoint(d, sel, xa, ya, trace.xcalendar, trace.ycalendar); } if(trace.customdata) { el.classed('plotly-customdata', d.data !== null && d.data !== undefined); } } else { sel.remove(); } }); if(hasTransition) { join.exit().transition() .style('opacity', 0) .remove(); } else { join.exit().remove(); } // text points selection = text.selectAll('g'); join = selection.data(textFilter, keyFunc); // each text needs to go in its own 'g' in case // it gets converted to mathjax join.enter().append('g').classed('textpoint', true).append('text'); join.order(); join.each(function(d) { var g = d3.select(this); var sel = transition(g.select('text')); hasNode = Drawing.translatePoint(d, sel, xa, ya); if(hasNode) { if(plotinfo.layerClipId) { Drawing.hideOutsideRangePoint(d, g, xa, ya, trace.xcalendar, trace.ycalendar); } } else { g.remove(); } }); join.selectAll('text') .call(Drawing.textPointStyle, trace, gd) .each(function(d) { // This just *has* to be totally custom because of SVG text positioning :( // It's obviously copied from translatePoint; we just can't use that var x = xa.c2p(d.x); var y = ya.c2p(d.y); d3.select(this).selectAll('tspan.line').each(function() { transition(d3.select(this)).attr({x: x, y: y}); }); }); join.exit().remove(); } points.datum(cdscatter); text.datum(cdscatter); makePoints(points, text, cdscatter); // lastly, clip points groups of `cliponaxis !== false` traces // on `plotinfo._hasClipOnAxisFalse === true` subplots var hasClipOnAxisFalse = trace.cliponaxis === false; var clipUrl = hasClipOnAxisFalse ? null : plotinfo.layerClipId; Drawing.setClipUrl(points, clipUrl, gd); Drawing.setClipUrl(text, clipUrl, gd); } function selectMarkers(gd, idx, plotinfo, cdscatter, cdscatterAll) { var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; var xr = d3.extent(Lib.simpleMap(xa.range, xa.r2c)); var yr = d3.extent(Lib.simpleMap(ya.range, ya.r2c)); var trace = cdscatter[0].trace; if(!subTypes.hasMarkers(trace)) return; // if marker.maxdisplayed is used, select a maximum of // mnum markers to show, from the set that are in the viewport var mnum = trace.marker.maxdisplayed; // TODO: remove some as we get away from the viewport? if(mnum === 0) return; var cd = cdscatter.filter(function(v) { return v.x >= xr[0] && v.x <= xr[1] && v.y >= yr[0] && v.y <= yr[1]; }); var inc = Math.ceil(cd.length / mnum); var tnum = 0; cdscatterAll.forEach(function(cdj, j) { var tracei = cdj[0].trace; if(subTypes.hasMarkers(tracei) && tracei.marker.maxdisplayed > 0 && j < idx) { tnum++; } }); // if multiple traces use maxdisplayed, stagger which markers we // display this formula offsets successive traces by 1/3 of the // increment, adding an extra small amount after each triplet so // it's not quite periodic var i0 = Math.round(tnum * inc / 3 + Math.floor(tnum / 3) * inc / 7.1); // for error bars: save in cd which markers to show // so we don't have to repeat this cdscatter.forEach(function(v) { delete v.vis; }); cd.forEach(function(v, i) { if(Math.round((i + i0) % inc) === 0) v.vis = true; }); } },{"../../components/drawing":179,"../../lib":287,"../../lib/polygon":299,"../../registry":378,"./line_points":514,"./link_traces":516,"./subtypes":525,"@plotly/d3":20}],522:[function(_dereq_,module,exports){ 'use strict'; var subtypes = _dereq_('./subtypes'); module.exports = function selectPoints(searchInfo, selectionTester) { var cd = searchInfo.cd; var xa = searchInfo.xaxis; var ya = searchInfo.yaxis; var selection = []; var trace = cd[0].trace; var i; var di; var x; var y; var hasOnlyLines = (!subtypes.hasMarkers(trace) && !subtypes.hasText(trace)); if(hasOnlyLines) return []; if(selectionTester === false) { // clear selection for(i = 0; i < cd.length; i++) { cd[i].selected = 0; } } else { for(i = 0; i < cd.length; i++) { di = cd[i]; x = xa.c2p(di.x); y = ya.c2p(di.y); if((di.i !== null) && selectionTester.contains([x, y], false, i, searchInfo)) { selection.push({ pointNumber: di.i, x: xa.c2d(di.x), y: ya.c2d(di.y) }); di.selected = 1; } else { di.selected = 0; } } } return selection; }; },{"./subtypes":525}],523:[function(_dereq_,module,exports){ 'use strict'; var perStackAttrs = ['orientation', 'groupnorm', 'stackgaps']; module.exports = function handleStackDefaults(traceIn, traceOut, layout, coerce) { var stackOpts = layout._scatterStackOpts; var stackGroup = coerce('stackgroup'); if(stackGroup) { // use independent stacking options per subplot var subplot = traceOut.xaxis + traceOut.yaxis; var subplotStackOpts = stackOpts[subplot]; if(!subplotStackOpts) subplotStackOpts = stackOpts[subplot] = {}; var groupOpts = subplotStackOpts[stackGroup]; var firstTrace = false; if(groupOpts) { groupOpts.traces.push(traceOut); } else { groupOpts = subplotStackOpts[stackGroup] = { // keep track of trace indices for use during stacking calculations // this will be filled in during `calc` and used during `crossTraceCalc` // so it's OK if we don't recreate it during a non-calc edit traceIndices: [], // Hold on to the whole set of prior traces // First one is most important, so we can clear defaults // there if we find explicit values only in later traces. // We're only going to *use* the values stored in groupOpts, // but for the editor and validate we want things self-consistent // The full set of traces is used only to fix `fill` default if // we find `orientation: 'h'` beyond the first trace traces: [traceOut] }; firstTrace = true; } // TODO: how is this going to work with groupby transforms? // in principle it should be OK I guess, as long as explicit group styles // don't override explicit base-trace styles? var dflts = { orientation: (traceOut.x && !traceOut.y) ? 'h' : 'v' }; for(var i = 0; i < perStackAttrs.length; i++) { var attr = perStackAttrs[i]; var attrFound = attr + 'Found'; if(!groupOpts[attrFound]) { var traceHasAttr = traceIn[attr] !== undefined; var isOrientation = attr === 'orientation'; if(traceHasAttr || firstTrace) { groupOpts[attr] = coerce(attr, dflts[attr]); if(isOrientation) { groupOpts.fillDflt = groupOpts[attr] === 'h' ? 'tonextx' : 'tonexty'; } if(traceHasAttr) { // Note: this will show a value here even if it's invalid // in which case it will revert to default. groupOpts[attrFound] = true; // Note: only one trace in the stack will get a _fullData // entry for a given stack-wide attribute. If no traces // (or the first trace) specify that attribute, the // first trace will get it. If the first trace does NOT // specify it but some later trace does, then it gets // removed from the first trace and only included in the // one that specified it. This is mostly important for // editors (that want to see the full values to know // what settings are available) and Plotly.react diffing. // Editors may want to use fullLayout._scatterStackOpts // directly and make these settings available from all // traces in the stack... then set the new value into // the first trace, and clear all later traces. if(!firstTrace) { delete groupOpts.traces[0][attr]; // orientation can affect default fill of previous traces if(isOrientation) { for(var j = 0; j < groupOpts.traces.length - 1; j++) { var trace2 = groupOpts.traces[j]; if(trace2._input.fill !== trace2.fill) { trace2.fill = groupOpts.fillDflt; } } } } } } } } return groupOpts; } }; },{}],524:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Drawing = _dereq_('../../components/drawing'); var Registry = _dereq_('../../registry'); function style(gd) { var s = d3.select(gd).selectAll('g.trace.scatter'); s.style('opacity', function(d) { return d[0].trace.opacity; }); s.selectAll('g.points').each(function(d) { var sel = d3.select(this); var trace = d.trace || d[0].trace; stylePoints(sel, trace, gd); }); s.selectAll('g.text').each(function(d) { var sel = d3.select(this); var trace = d.trace || d[0].trace; styleText(sel, trace, gd); }); s.selectAll('g.trace path.js-line') .call(Drawing.lineGroupStyle); s.selectAll('g.trace path.js-fill') .call(Drawing.fillGroupStyle, gd); Registry.getComponentMethod('errorbars', 'style')(s); } function stylePoints(sel, trace, gd) { Drawing.pointStyle(sel.selectAll('path.point'), trace, gd); } function styleText(sel, trace, gd) { Drawing.textPointStyle(sel.selectAll('text'), trace, gd); } function styleOnSelect(gd, cd, sel) { var trace = cd[0].trace; if(trace.selectedpoints) { Drawing.selectedPointStyle(sel.selectAll('path.point'), trace); Drawing.selectedTextStyle(sel.selectAll('text'), trace); } else { stylePoints(sel, trace, gd); styleText(sel, trace, gd); } } module.exports = { style: style, stylePoints: stylePoints, styleText: styleText, styleOnSelect: styleOnSelect }; },{"../../components/drawing":179,"../../registry":378,"@plotly/d3":20}],525:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); module.exports = { hasLines: function(trace) { return trace.visible && trace.mode && trace.mode.indexOf('lines') !== -1; }, hasMarkers: function(trace) { return trace.visible && ( (trace.mode && trace.mode.indexOf('markers') !== -1) || // until splom implements 'mode' trace.type === 'splom' ); }, hasText: function(trace) { return trace.visible && trace.mode && trace.mode.indexOf('text') !== -1; }, isBubble: function(trace) { return Lib.isPlainObject(trace.marker) && Lib.isArrayOrTypedArray(trace.marker.size); } }; },{"../../lib":287}],526:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); /* * opts: object of flags to control features not all text users support * noSelect: caller does not support selected/unselected attribute containers */ module.exports = function(traceIn, traceOut, layout, coerce, opts) { opts = opts || {}; coerce('textposition'); Lib.coerceFont(coerce, 'textfont', layout.font); if(!opts.noSelect) { coerce('selected.textfont.color'); coerce('unselected.textfont.color'); } }; },{"../../lib":287}],527:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Registry = _dereq_('../../registry'); module.exports = function handleXYDefaults(traceIn, traceOut, layout, coerce) { var x = coerce('x'); var y = coerce('y'); var len; var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleTraceDefaults'); handleCalendarDefaults(traceIn, traceOut, ['x', 'y'], layout); if(x) { var xlen = Lib.minRowLength(x); if(y) { len = Math.min(xlen, Lib.minRowLength(y)); } else { len = xlen; coerce('y0'); coerce('dy'); } } else { if(!y) return 0; len = Lib.minRowLength(y); coerce('x0'); coerce('dx'); } traceOut._length = len; return len; }; },{"../../lib":287,"../../registry":378}],528:[function(_dereq_,module,exports){ 'use strict'; var hovertemplateAttrs = _dereq_('../../plots/template_attributes').hovertemplateAttrs; var texttemplateAttrs = _dereq_('../../plots/template_attributes').texttemplateAttrs; var scatterAttrs = _dereq_('../scatter/attributes'); var baseAttrs = _dereq_('../../plots/attributes'); var colorScaleAttrs = _dereq_('../../components/colorscale/attributes'); var dash = _dereq_('../../components/drawing/attributes').dash; var extendFlat = _dereq_('../../lib/extend').extendFlat; var scatterMarkerAttrs = scatterAttrs.marker; var scatterLineAttrs = scatterAttrs.line; var scatterMarkerLineAttrs = scatterMarkerAttrs.line; module.exports = { a: { valType: 'data_array', editType: 'calc', }, b: { valType: 'data_array', editType: 'calc', }, c: { valType: 'data_array', editType: 'calc', }, sum: { valType: 'number', dflt: 0, min: 0, editType: 'calc', }, mode: extendFlat({}, scatterAttrs.mode, {dflt: 'markers'}), text: extendFlat({}, scatterAttrs.text, { }), texttemplate: texttemplateAttrs({editType: 'plot'}, { keys: ['a', 'b', 'c', 'text'] }), hovertext: extendFlat({}, scatterAttrs.hovertext, { }), line: { color: scatterLineAttrs.color, width: scatterLineAttrs.width, dash: dash, shape: extendFlat({}, scatterLineAttrs.shape, {values: ['linear', 'spline']}), smoothing: scatterLineAttrs.smoothing, editType: 'calc' }, connectgaps: scatterAttrs.connectgaps, cliponaxis: scatterAttrs.cliponaxis, fill: extendFlat({}, scatterAttrs.fill, { values: ['none', 'toself', 'tonext'], dflt: 'none', }), fillcolor: scatterAttrs.fillcolor, marker: extendFlat({ symbol: scatterMarkerAttrs.symbol, opacity: scatterMarkerAttrs.opacity, maxdisplayed: scatterMarkerAttrs.maxdisplayed, size: scatterMarkerAttrs.size, sizeref: scatterMarkerAttrs.sizeref, sizemin: scatterMarkerAttrs.sizemin, sizemode: scatterMarkerAttrs.sizemode, line: extendFlat({ width: scatterMarkerLineAttrs.width, editType: 'calc' }, colorScaleAttrs('marker.line') ), gradient: scatterMarkerAttrs.gradient, editType: 'calc' }, colorScaleAttrs('marker') ), textfont: scatterAttrs.textfont, textposition: scatterAttrs.textposition, selected: scatterAttrs.selected, unselected: scatterAttrs.unselected, hoverinfo: extendFlat({}, baseAttrs.hoverinfo, { flags: ['a', 'b', 'c', 'text', 'name'] }), hoveron: scatterAttrs.hoveron, hovertemplate: hovertemplateAttrs(), }; },{"../../components/colorscale/attributes":164,"../../components/drawing/attributes":178,"../../lib/extend":281,"../../plots/attributes":330,"../../plots/template_attributes":373,"../scatter/attributes":500}],529:[function(_dereq_,module,exports){ 'use strict'; var isNumeric = _dereq_('fast-isnumeric'); var calcColorscale = _dereq_('../scatter/colorscale_calc'); var arraysToCalcdata = _dereq_('../scatter/arrays_to_calcdata'); var calcSelection = _dereq_('../scatter/calc_selection'); var calcMarkerSize = _dereq_('../scatter/calc').calcMarkerSize; var dataArrays = ['a', 'b', 'c']; var arraysToFill = {a: ['b', 'c'], b: ['a', 'c'], c: ['a', 'b']}; module.exports = function calc(gd, trace) { var ternary = gd._fullLayout[trace.subplot]; var displaySum = ternary.sum; var normSum = trace.sum || displaySum; var arrays = {a: trace.a, b: trace.b, c: trace.c}; var i, j, dataArray, newArray, fillArray1, fillArray2; // fill in one missing component for(i = 0; i < dataArrays.length; i++) { dataArray = dataArrays[i]; if(arrays[dataArray]) continue; fillArray1 = arrays[arraysToFill[dataArray][0]]; fillArray2 = arrays[arraysToFill[dataArray][1]]; newArray = new Array(fillArray1.length); for(j = 0; j < fillArray1.length; j++) { newArray[j] = normSum - fillArray1[j] - fillArray2[j]; } arrays[dataArray] = newArray; } // make the calcdata array var serieslen = trace._length; var cd = new Array(serieslen); var a, b, c, norm, x, y; for(i = 0; i < serieslen; i++) { a = arrays.a[i]; b = arrays.b[i]; c = arrays.c[i]; if(isNumeric(a) && isNumeric(b) && isNumeric(c)) { a = +a; b = +b; c = +c; norm = displaySum / (a + b + c); if(norm !== 1) { a *= norm; b *= norm; c *= norm; } // map a, b, c onto x and y where the full scale of y // is [0, sum], and x is [-sum, sum] // TODO: this makes `a` always the top, `b` the bottom left, // and `c` the bottom right. Do we want options to rearrange // these? y = a; x = c - b; cd[i] = {x: x, y: y, a: a, b: b, c: c}; } else cd[i] = {x: false, y: false}; } calcMarkerSize(trace, serieslen); calcColorscale(gd, trace); arraysToCalcdata(cd, trace); calcSelection(cd, trace); return cd; }; },{"../scatter/arrays_to_calcdata":499,"../scatter/calc":501,"../scatter/calc_selection":502,"../scatter/colorscale_calc":503,"fast-isnumeric":33}],530:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var constants = _dereq_('../scatter/constants'); var subTypes = _dereq_('../scatter/subtypes'); var handleMarkerDefaults = _dereq_('../scatter/marker_defaults'); var handleLineDefaults = _dereq_('../scatter/line_defaults'); var handleLineShapeDefaults = _dereq_('../scatter/line_shape_defaults'); var handleTextDefaults = _dereq_('../scatter/text_defaults'); var handleFillColorDefaults = _dereq_('../scatter/fillcolor_defaults'); var attributes = _dereq_('./attributes'); module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } var a = coerce('a'); var b = coerce('b'); var c = coerce('c'); var len; // allow any one array to be missing, len is the minimum length of those // present. Note that after coerce data_array's are either Arrays (which // are truthy even if empty) or undefined. As in scatter, an empty array // is different from undefined, because it can signify that this data is // not known yet but expected in the future if(a) { len = a.length; if(b) { len = Math.min(len, b.length); if(c) len = Math.min(len, c.length); } else if(c) len = Math.min(len, c.length); else len = 0; } else if(b && c) { len = Math.min(b.length, c.length); } if(!len) { traceOut.visible = false; return; } traceOut._length = len; coerce('sum'); coerce('text'); coerce('hovertext'); if(traceOut.hoveron !== 'fills') coerce('hovertemplate'); var defaultMode = len < constants.PTS_LINESONLY ? 'lines+markers' : 'lines'; coerce('mode', defaultMode); if(subTypes.hasLines(traceOut)) { handleLineDefaults(traceIn, traceOut, defaultColor, layout, coerce); handleLineShapeDefaults(traceIn, traceOut, coerce); coerce('connectgaps'); } if(subTypes.hasMarkers(traceOut)) { handleMarkerDefaults(traceIn, traceOut, defaultColor, layout, coerce, {gradient: true}); } if(subTypes.hasText(traceOut)) { coerce('texttemplate'); handleTextDefaults(traceIn, traceOut, layout, coerce); } var dfltHoverOn = []; if(subTypes.hasMarkers(traceOut) || subTypes.hasText(traceOut)) { coerce('cliponaxis'); coerce('marker.maxdisplayed'); dfltHoverOn.push('points'); } coerce('fill'); if(traceOut.fill !== 'none') { handleFillColorDefaults(traceIn, traceOut, defaultColor, coerce); if(!subTypes.hasLines(traceOut)) handleLineShapeDefaults(traceIn, traceOut, coerce); } if(traceOut.fill === 'tonext' || traceOut.fill === 'toself') { dfltHoverOn.push('fills'); } coerce('hoveron', dfltHoverOn.join('+') || 'points'); Lib.coerceSelectionMarkerOpacity(traceOut, coerce); }; },{"../../lib":287,"../scatter/constants":504,"../scatter/fillcolor_defaults":508,"../scatter/line_defaults":513,"../scatter/line_shape_defaults":515,"../scatter/marker_defaults":519,"../scatter/subtypes":525,"../scatter/text_defaults":526,"./attributes":528}],531:[function(_dereq_,module,exports){ 'use strict'; module.exports = function eventData(out, pt, trace, cd, pointNumber) { if(pt.xa) out.xaxis = pt.xa; if(pt.ya) out.yaxis = pt.ya; if(cd[pointNumber]) { var cdi = cd[pointNumber]; // N.B. These are the normalized coordinates. out.a = cdi.a; out.b = cdi.b; out.c = cdi.c; } else { // for fill-hover only out.a = pt.a; out.b = pt.b; out.c = pt.c; } return out; }; },{}],532:[function(_dereq_,module,exports){ 'use strict'; var Axes = _dereq_('../../plots/cartesian/axes'); module.exports = function formatLabels(cdi, trace, fullLayout) { var labels = {}; var subplot = fullLayout[trace.subplot]._subplot; labels.aLabel = Axes.tickText(subplot.aaxis, cdi.a, true).text; labels.bLabel = Axes.tickText(subplot.baxis, cdi.b, true).text; labels.cLabel = Axes.tickText(subplot.caxis, cdi.c, true).text; return labels; }; },{"../../plots/cartesian/axes":334}],533:[function(_dereq_,module,exports){ 'use strict'; var scatterHover = _dereq_('../scatter/hover'); module.exports = function hoverPoints(pointData, xval, yval, hovermode) { var scatterPointData = scatterHover(pointData, xval, yval, hovermode); if(!scatterPointData || scatterPointData[0].index === false) return; var newPointData = scatterPointData[0]; // if hovering on a fill, we don't show any point data so the label is // unchanged from what scatter gives us - except that it needs to // be constrained to the trianglular plot area, not just the rectangular // area defined by the synthetic x and y axes // TODO: in some cases the vertical middle of the shape is not within // the triangular viewport at all, so the label can become disconnected // from the shape entirely. But calculating what portion of the shape // is actually visible, as constrained by the diagonal axis lines, is not // so easy and anyway we lost the information we would have needed to do // this inside scatterHover. if(newPointData.index === undefined) { var yFracUp = 1 - (newPointData.y0 / pointData.ya._length); var xLen = pointData.xa._length; var xMin = xLen * yFracUp / 2; var xMax = xLen - xMin; newPointData.x0 = Math.max(Math.min(newPointData.x0, xMax), xMin); newPointData.x1 = Math.max(Math.min(newPointData.x1, xMax), xMin); return scatterPointData; } var cdi = newPointData.cd[newPointData.index]; var trace = newPointData.trace; var subplot = newPointData.subplot; newPointData.a = cdi.a; newPointData.b = cdi.b; newPointData.c = cdi.c; newPointData.xLabelVal = undefined; newPointData.yLabelVal = undefined; var fullLayout = {}; fullLayout[trace.subplot] = {_subplot: subplot}; var labels = trace._module.formatLabels(cdi, trace, fullLayout); newPointData.aLabel = labels.aLabel; newPointData.bLabel = labels.bLabel; newPointData.cLabel = labels.cLabel; var hoverinfo = cdi.hi || trace.hoverinfo; var text = []; function textPart(ax, val) { text.push(ax._hovertitle + ': ' + val); } if(!trace.hovertemplate) { var parts = hoverinfo.split('+'); if(parts.indexOf('all') !== -1) parts = ['a', 'b', 'c']; if(parts.indexOf('a') !== -1) textPart(subplot.aaxis, newPointData.aLabel); if(parts.indexOf('b') !== -1) textPart(subplot.baxis, newPointData.bLabel); if(parts.indexOf('c') !== -1) textPart(subplot.caxis, newPointData.cLabel); } newPointData.extraText = text.join('
'); newPointData.hovertemplate = trace.hovertemplate; return scatterPointData; }; },{"../scatter/hover":511}],534:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), supplyDefaults: _dereq_('./defaults'), colorbar: _dereq_('../scatter/marker_colorbar'), formatLabels: _dereq_('./format_labels'), calc: _dereq_('./calc'), plot: _dereq_('./plot'), style: _dereq_('../scatter/style').style, styleOnSelect: _dereq_('../scatter/style').styleOnSelect, hoverPoints: _dereq_('./hover'), selectPoints: _dereq_('../scatter/select'), eventData: _dereq_('./event_data'), moduleType: 'trace', name: 'scatterternary', basePlotModule: _dereq_('../../plots/ternary'), categories: ['ternary', 'symbols', 'showLegend', 'scatter-like'], meta: { } }; },{"../../plots/ternary":374,"../scatter/marker_colorbar":518,"../scatter/select":522,"../scatter/style":524,"./attributes":528,"./calc":529,"./defaults":530,"./event_data":531,"./format_labels":532,"./hover":533,"./plot":535}],535:[function(_dereq_,module,exports){ 'use strict'; var scatterPlot = _dereq_('../scatter/plot'); module.exports = function plot(gd, ternary, moduleCalcData) { var plotContainer = ternary.plotContainer; // remove all nodes inside the scatter layer plotContainer.select('.scatterlayer').selectAll('*').remove(); // mimic cartesian plotinfo var plotinfo = { xaxis: ternary.xaxis, yaxis: ternary.yaxis, plot: plotContainer, layerClipId: ternary._hasClipOnAxisFalse ? ternary.clipIdRelative : null }; var scatterLayer = ternary.layers.frontplot.select('g.scatterlayer'); scatterPlot(gd, plotinfo, moduleCalcData, scatterLayer); }; },{"../scatter/plot":521}],536:[function(_dereq_,module,exports){ 'use strict'; var boxAttrs = _dereq_('../box/attributes'); var extendFlat = _dereq_('../../lib/extend').extendFlat; var axisHoverFormat = _dereq_('../../plots/cartesian/axis_format_attributes').axisHoverFormat; module.exports = { y: boxAttrs.y, x: boxAttrs.x, x0: boxAttrs.x0, y0: boxAttrs.y0, xhoverformat: axisHoverFormat('x'), yhoverformat: axisHoverFormat('y'), name: extendFlat({}, boxAttrs.name, { }), orientation: extendFlat({}, boxAttrs.orientation, { }), bandwidth: { valType: 'number', min: 0, editType: 'calc', }, scalegroup: { valType: 'string', dflt: '', editType: 'calc', }, scalemode: { valType: 'enumerated', values: ['width', 'count'], dflt: 'width', editType: 'calc', }, spanmode: { valType: 'enumerated', values: ['soft', 'hard', 'manual'], dflt: 'soft', editType: 'calc', }, span: { valType: 'info_array', items: [ {valType: 'any', editType: 'calc'}, {valType: 'any', editType: 'calc'} ], editType: 'calc', }, line: { color: { valType: 'color', editType: 'style', }, width: { valType: 'number', min: 0, dflt: 2, editType: 'style', }, editType: 'plot' }, fillcolor: boxAttrs.fillcolor, points: extendFlat({}, boxAttrs.boxpoints, { }), jitter: extendFlat({}, boxAttrs.jitter, { }), pointpos: extendFlat({}, boxAttrs.pointpos, { }), width: extendFlat({}, boxAttrs.width, { }), marker: boxAttrs.marker, text: boxAttrs.text, hovertext: boxAttrs.hovertext, hovertemplate: boxAttrs.hovertemplate, box: { visible: { valType: 'boolean', dflt: false, editType: 'plot', }, width: { valType: 'number', min: 0, max: 1, dflt: 0.25, editType: 'plot', }, fillcolor: { valType: 'color', editType: 'style', }, line: { color: { valType: 'color', editType: 'style', }, width: { valType: 'number', min: 0, editType: 'style', }, editType: 'style' }, editType: 'plot' }, meanline: { visible: { valType: 'boolean', dflt: false, editType: 'plot', }, color: { valType: 'color', editType: 'style', }, width: { valType: 'number', min: 0, editType: 'style', }, editType: 'plot' }, side: { valType: 'enumerated', values: ['both', 'positive', 'negative'], dflt: 'both', editType: 'calc', }, offsetgroup: boxAttrs.offsetgroup, alignmentgroup: boxAttrs.alignmentgroup, selected: boxAttrs.selected, unselected: boxAttrs.unselected, hoveron: { valType: 'flaglist', flags: ['violins', 'points', 'kde'], dflt: 'violins+points+kde', extras: ['all'], editType: 'style', } }; },{"../../lib/extend":281,"../../plots/cartesian/axis_format_attributes":337,"../box/attributes":405}],537:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var boxCalc = _dereq_('../box/calc'); var helpers = _dereq_('./helpers'); var BADNUM = _dereq_('../../constants/numerical').BADNUM; module.exports = function calc(gd, trace) { var cd = boxCalc(gd, trace); if(cd[0].t.empty) return cd; var fullLayout = gd._fullLayout; var valAxis = Axes.getFromId( gd, trace[trace.orientation === 'h' ? 'xaxis' : 'yaxis'] ); var spanMin = Infinity; var spanMax = -Infinity; var maxKDE = 0; var maxCount = 0; for(var i = 0; i < cd.length; i++) { var cdi = cd[i]; var vals = cdi.pts.map(helpers.extractVal); var bandwidth = cdi.bandwidth = calcBandwidth(trace, cdi, vals); var span = cdi.span = calcSpan(trace, cdi, valAxis, bandwidth); if(cdi.min === cdi.max && bandwidth === 0) { // if span is zero and bandwidth is zero, we want a violin with zero width span = cdi.span = [cdi.min, cdi.max]; cdi.density = [{v: 1, t: span[0]}]; cdi.bandwidth = bandwidth; maxKDE = Math.max(maxKDE, 1); } else { // step that well covers the bandwidth and is multiple of span distance var dist = span[1] - span[0]; var n = Math.ceil(dist / (bandwidth / 3)); var step = dist / n; if(!isFinite(step) || !isFinite(n)) { Lib.error('Something went wrong with computing the violin span'); cd[0].t.empty = true; return cd; } var kde = helpers.makeKDE(cdi, trace, vals); cdi.density = new Array(n); for(var k = 0, t = span[0]; t < (span[1] + step / 2); k++, t += step) { var v = kde(t); cdi.density[k] = {v: v, t: t}; maxKDE = Math.max(maxKDE, v); } } maxCount = Math.max(maxCount, vals.length); spanMin = Math.min(spanMin, span[0]); spanMax = Math.max(spanMax, span[1]); } var extremes = Axes.findExtremes(valAxis, [spanMin, spanMax], {padded: true}); trace._extremes[valAxis._id] = extremes; if(trace.width) { cd[0].t.maxKDE = maxKDE; } else { var violinScaleGroupStats = fullLayout._violinScaleGroupStats; var scaleGroup = trace.scalegroup; var groupStats = violinScaleGroupStats[scaleGroup]; if(groupStats) { groupStats.maxKDE = Math.max(groupStats.maxKDE, maxKDE); groupStats.maxCount = Math.max(groupStats.maxCount, maxCount); } else { violinScaleGroupStats[scaleGroup] = { maxKDE: maxKDE, maxCount: maxCount }; } } cd[0].t.labels.kde = Lib._(gd, 'kde:'); return cd; }; // Default to Silveman's rule of thumb // - https://stats.stackexchange.com/a/6671 // - https://en.wikipedia.org/wiki/Kernel_density_estimation#A_rule-of-thumb_bandwidth_estimator // - https://github.com/statsmodels/statsmodels/blob/master/statsmodels/nonparametric/bandwidths.py function silvermanRule(len, ssd, iqr) { var a = Math.min(ssd, iqr / 1.349); return 1.059 * a * Math.pow(len, -0.2); } function calcBandwidth(trace, cdi, vals) { var span = cdi.max - cdi.min; // If span is zero if(!span) { if(trace.bandwidth) { return trace.bandwidth; } else { // if span is zero and no bandwidth is specified // it returns zero bandwidth which is a special case return 0; } } // Limit how small the bandwidth can be. // // Silverman's rule of thumb can be "very" small // when IQR does a poor job at describing the spread // of the distribution. // We also want to limit custom bandwidths // to not blow up kde computations. if(trace.bandwidth) { return Math.max(trace.bandwidth, span / 1e4); } else { var len = vals.length; var ssd = Lib.stdev(vals, len - 1, cdi.mean); return Math.max( silvermanRule(len, ssd, cdi.q3 - cdi.q1), span / 100 ); } } function calcSpan(trace, cdi, valAxis, bandwidth) { var spanmode = trace.spanmode; var spanIn = trace.span || []; var spanTight = [cdi.min, cdi.max]; var spanLoose = [cdi.min - 2 * bandwidth, cdi.max + 2 * bandwidth]; var spanOut; function calcSpanItem(index) { var s = spanIn[index]; var sc = valAxis.type === 'multicategory' ? valAxis.r2c(s) : valAxis.d2c(s, 0, trace[cdi.valLetter + 'calendar']); return sc === BADNUM ? spanLoose[index] : sc; } if(spanmode === 'soft') { spanOut = spanLoose; } else if(spanmode === 'hard') { spanOut = spanTight; } else { spanOut = [calcSpanItem(0), calcSpanItem(1)]; } // to reuse the equal-range-item block var dummyAx = { type: 'linear', range: spanOut }; Axes.setConvert(dummyAx); dummyAx.cleanRange(); return spanOut; } },{"../../constants/numerical":267,"../../lib":287,"../../plots/cartesian/axes":334,"../box/calc":406,"./helpers":540}],538:[function(_dereq_,module,exports){ 'use strict'; var setPositionOffset = _dereq_('../box/cross_trace_calc').setPositionOffset; var orientations = ['v', 'h']; module.exports = function crossTraceCalc(gd, plotinfo) { var calcdata = gd.calcdata; var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; for(var i = 0; i < orientations.length; i++) { var orientation = orientations[i]; var posAxis = orientation === 'h' ? ya : xa; var violinList = []; for(var j = 0; j < calcdata.length; j++) { var cd = calcdata[j]; var t = cd[0].t; var trace = cd[0].trace; if(trace.visible === true && trace.type === 'violin' && !t.empty && trace.orientation === orientation && trace.xaxis === xa._id && trace.yaxis === ya._id ) { violinList.push(j); } } setPositionOffset('violin', gd, violinList, posAxis); } }; },{"../box/cross_trace_calc":407}],539:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Color = _dereq_('../../components/color'); var boxDefaults = _dereq_('../box/defaults'); var attributes = _dereq_('./attributes'); module.exports = function supplyDefaults(traceIn, traceOut, defaultColor, layout) { function coerce(attr, dflt) { return Lib.coerce(traceIn, traceOut, attributes, attr, dflt); } function coerce2(attr, dflt) { return Lib.coerce2(traceIn, traceOut, attributes, attr, dflt); } boxDefaults.handleSampleDefaults(traceIn, traceOut, coerce, layout); if(traceOut.visible === false) return; coerce('bandwidth'); coerce('side'); var width = coerce('width'); if(!width) { coerce('scalegroup', traceOut.name); coerce('scalemode'); } var span = coerce('span'); var spanmodeDflt; if(Array.isArray(span)) spanmodeDflt = 'manual'; coerce('spanmode', spanmodeDflt); var lineColor = coerce('line.color', (traceIn.marker || {}).color || defaultColor); var lineWidth = coerce('line.width'); var fillColor = coerce('fillcolor', Color.addOpacity(traceOut.line.color, 0.5)); boxDefaults.handlePointsDefaults(traceIn, traceOut, coerce, {prefix: ''}); var boxWidth = coerce2('box.width'); var boxFillColor = coerce2('box.fillcolor', fillColor); var boxLineColor = coerce2('box.line.color', lineColor); var boxLineWidth = coerce2('box.line.width', lineWidth); var boxVisible = coerce('box.visible', Boolean(boxWidth || boxFillColor || boxLineColor || boxLineWidth)); if(!boxVisible) traceOut.box = {visible: false}; var meanLineColor = coerce2('meanline.color', lineColor); var meanLineWidth = coerce2('meanline.width', lineWidth); var meanLineVisible = coerce('meanline.visible', Boolean(meanLineColor || meanLineWidth)); if(!meanLineVisible) traceOut.meanline = {visible: false}; }; },{"../../components/color":157,"../../lib":287,"../box/defaults":408,"./attributes":536}],540:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); // Maybe add kernels more down the road, // but note that the default `spanmode: 'soft'` bounds might have // to become kernel-dependent var kernels = { gaussian: function(v) { return (1 / Math.sqrt(2 * Math.PI)) * Math.exp(-0.5 * v * v); } }; exports.makeKDE = function(calcItem, trace, vals) { var len = vals.length; var kernel = kernels.gaussian; var bandwidth = calcItem.bandwidth; var factor = 1 / (len * bandwidth); // don't use Lib.aggNums to skip isNumeric checks return function(x) { var sum = 0; for(var i = 0; i < len; i++) { sum += kernel((x - vals[i]) / bandwidth); } return factor * sum; }; }; exports.getPositionOnKdePath = function(calcItem, trace, valuePx) { var posLetter, valLetter; if(trace.orientation === 'h') { posLetter = 'y'; valLetter = 'x'; } else { posLetter = 'x'; valLetter = 'y'; } var pointOnPath = Lib.findPointOnPath( calcItem.path, valuePx, valLetter, {pathLength: calcItem.pathLength} ); var posCenterPx = calcItem.posCenterPx; var posOnPath0 = pointOnPath[posLetter]; var posOnPath1 = trace.side === 'both' ? 2 * posCenterPx - posOnPath0 : posCenterPx; return [posOnPath0, posOnPath1]; }; exports.getKdeValue = function(calcItem, trace, valueDist) { var vals = calcItem.pts.map(exports.extractVal); var kde = exports.makeKDE(calcItem, trace, vals); return kde(valueDist) / calcItem.posDensityScale; }; exports.extractVal = function(o) { return o.v; }; },{"../../lib":287}],541:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var Axes = _dereq_('../../plots/cartesian/axes'); var boxHoverPoints = _dereq_('../box/hover'); var helpers = _dereq_('./helpers'); module.exports = function hoverPoints(pointData, xval, yval, hovermode, opts) { if(!opts) opts = {}; var hoverLayer = opts.hoverLayer; var cd = pointData.cd; var trace = cd[0].trace; var hoveron = trace.hoveron; var hasHoveronViolins = hoveron.indexOf('violins') !== -1; var hasHoveronKDE = hoveron.indexOf('kde') !== -1; var closeData = []; var closePtData; var violinLineAttrs; if(hasHoveronViolins || hasHoveronKDE) { var closeBoxData = boxHoverPoints.hoverOnBoxes(pointData, xval, yval, hovermode); if(hasHoveronKDE && closeBoxData.length > 0) { var xa = pointData.xa; var ya = pointData.ya; var pLetter, vLetter, pAxis, vAxis, vVal; if(trace.orientation === 'h') { vVal = xval; pLetter = 'y'; pAxis = ya; vLetter = 'x'; vAxis = xa; } else { vVal = yval; pLetter = 'x'; pAxis = xa; vLetter = 'y'; vAxis = ya; } var di = cd[pointData.index]; if(vVal >= di.span[0] && vVal <= di.span[1]) { var kdePointData = Lib.extendFlat({}, pointData); var vValPx = vAxis.c2p(vVal, true); var kdeVal = helpers.getKdeValue(di, trace, vVal); var pOnPath = helpers.getPositionOnKdePath(di, trace, vValPx); var paOffset = pAxis._offset; var paLength = pAxis._length; kdePointData[pLetter + '0'] = pOnPath[0]; kdePointData[pLetter + '1'] = pOnPath[1]; kdePointData[vLetter + '0'] = kdePointData[vLetter + '1'] = vValPx; kdePointData[vLetter + 'Label'] = vLetter + ': ' + Axes.hoverLabelText(vAxis, vVal, trace[vLetter + 'hoverformat']) + ', ' + cd[0].t.labels.kde + ' ' + kdeVal.toFixed(3); // move the spike to the KDE point kdePointData.spikeDistance = closeBoxData[0].spikeDistance; var spikePosAttr = pLetter + 'Spike'; kdePointData[spikePosAttr] = closeBoxData[0][spikePosAttr]; closeBoxData[0].spikeDistance = undefined; closeBoxData[0][spikePosAttr] = undefined; // no hovertemplate support yet kdePointData.hovertemplate = false; closeData.push(kdePointData); violinLineAttrs = {stroke: pointData.color}; violinLineAttrs[pLetter + '1'] = Lib.constrain(paOffset + pOnPath[0], paOffset, paOffset + paLength); violinLineAttrs[pLetter + '2'] = Lib.constrain(paOffset + pOnPath[1], paOffset, paOffset + paLength); violinLineAttrs[vLetter + '1'] = violinLineAttrs[vLetter + '2'] = vAxis._offset + vValPx; } } if(hasHoveronViolins) { closeData = closeData.concat(closeBoxData); } } if(hoveron.indexOf('points') !== -1) { closePtData = boxHoverPoints.hoverOnPoints(pointData, xval, yval); } // update violin line (if any) var violinLine = hoverLayer.selectAll('.violinline-' + trace.uid) .data(violinLineAttrs ? [0] : []); violinLine.enter().append('line') .classed('violinline-' + trace.uid, true) .attr('stroke-width', 1.5); violinLine.exit().remove(); violinLine.attr(violinLineAttrs); // same combine logic as box hoverPoints if(hovermode === 'closest') { if(closePtData) return [closePtData]; return closeData; } if(closePtData) { closeData.push(closePtData); return closeData; } return closeData; }; },{"../../lib":287,"../../plots/cartesian/axes":334,"../box/hover":410,"./helpers":540}],542:[function(_dereq_,module,exports){ 'use strict'; module.exports = { attributes: _dereq_('./attributes'), layoutAttributes: _dereq_('./layout_attributes'), supplyDefaults: _dereq_('./defaults'), crossTraceDefaults: _dereq_('../box/defaults').crossTraceDefaults, supplyLayoutDefaults: _dereq_('./layout_defaults'), calc: _dereq_('./calc'), crossTraceCalc: _dereq_('./cross_trace_calc'), plot: _dereq_('./plot'), style: _dereq_('./style'), styleOnSelect: _dereq_('../scatter/style').styleOnSelect, hoverPoints: _dereq_('./hover'), selectPoints: _dereq_('../box/select'), moduleType: 'trace', name: 'violin', basePlotModule: _dereq_('../../plots/cartesian'), categories: ['cartesian', 'svg', 'symbols', 'oriented', 'box-violin', 'showLegend', 'violinLayout', 'zoomScale'], meta: { } }; },{"../../plots/cartesian":348,"../box/defaults":408,"../box/select":415,"../scatter/style":524,"./attributes":536,"./calc":537,"./cross_trace_calc":538,"./defaults":539,"./hover":541,"./layout_attributes":543,"./layout_defaults":544,"./plot":545,"./style":546}],543:[function(_dereq_,module,exports){ 'use strict'; var boxLayoutAttrs = _dereq_('../box/layout_attributes'); var extendFlat = _dereq_('../../lib').extendFlat; module.exports = { violinmode: extendFlat({}, boxLayoutAttrs.boxmode, { }), violingap: extendFlat({}, boxLayoutAttrs.boxgap, { }), violingroupgap: extendFlat({}, boxLayoutAttrs.boxgroupgap, { }) }; },{"../../lib":287,"../box/layout_attributes":412}],544:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../../lib'); var layoutAttributes = _dereq_('./layout_attributes'); var boxLayoutDefaults = _dereq_('../box/layout_defaults'); module.exports = function supplyLayoutDefaults(layoutIn, layoutOut, fullData) { function coerce(attr, dflt) { return Lib.coerce(layoutIn, layoutOut, layoutAttributes, attr, dflt); } boxLayoutDefaults._supply(layoutIn, layoutOut, fullData, coerce, 'violin'); }; },{"../../lib":287,"../box/layout_defaults":413,"./layout_attributes":543}],545:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Lib = _dereq_('../../lib'); var Drawing = _dereq_('../../components/drawing'); var boxPlot = _dereq_('../box/plot'); var linePoints = _dereq_('../scatter/line_points'); var helpers = _dereq_('./helpers'); module.exports = function plot(gd, plotinfo, cdViolins, violinLayer) { var fullLayout = gd._fullLayout; var xa = plotinfo.xaxis; var ya = plotinfo.yaxis; function makePath(pts) { var segments = linePoints(pts, { xaxis: xa, yaxis: ya, connectGaps: true, baseTolerance: 0.75, shape: 'spline', simplify: true, linearized: true }); return Drawing.smoothopen(segments[0], 1); } Lib.makeTraceGroups(violinLayer, cdViolins, 'trace violins').each(function(cd) { var plotGroup = d3.select(this); var cd0 = cd[0]; var t = cd0.t; var trace = cd0.trace; if(trace.visible !== true || t.empty) { plotGroup.remove(); return; } var bPos = t.bPos; var bdPos = t.bdPos; var valAxis = plotinfo[t.valLetter + 'axis']; var posAxis = plotinfo[t.posLetter + 'axis']; var hasBothSides = trace.side === 'both'; var hasPositiveSide = hasBothSides || trace.side === 'positive'; var hasNegativeSide = hasBothSides || trace.side === 'negative'; var violins = plotGroup.selectAll('path.violin').data(Lib.identity); violins.enter().append('path') .style('vector-effect', 'non-scaling-stroke') .attr('class', 'violin'); violins.exit().remove(); violins.each(function(d) { var pathSel = d3.select(this); var density = d.density; var len = density.length; var posCenter = posAxis.c2l(d.pos + bPos, true); var posCenterPx = posAxis.l2p(posCenter); var scale; if(trace.width) { scale = t.maxKDE / bdPos; } else { var groupStats = fullLayout._violinScaleGroupStats[trace.scalegroup]; scale = trace.scalemode === 'count' ? (groupStats.maxKDE / bdPos) * (groupStats.maxCount / d.pts.length) : groupStats.maxKDE / bdPos; } var pathPos, pathNeg, path; var i, k, pts, pt; if(hasPositiveSide) { pts = new Array(len); for(i = 0; i < len; i++) { pt = pts[i] = {}; pt[t.posLetter] = posCenter + (density[i].v / scale); pt[t.valLetter] = valAxis.c2l(density[i].t, true); } pathPos = makePath(pts); } if(hasNegativeSide) { pts = new Array(len); for(k = 0, i = len - 1; k < len; k++, i--) { pt = pts[k] = {}; pt[t.posLetter] = posCenter - (density[i].v / scale); pt[t.valLetter] = valAxis.c2l(density[i].t, true); } pathNeg = makePath(pts); } if(hasBothSides) { path = pathPos + 'L' + pathNeg.substr(1) + 'Z'; } else { var startPt = [posCenterPx, valAxis.c2p(density[0].t)]; var endPt = [posCenterPx, valAxis.c2p(density[len - 1].t)]; if(trace.orientation === 'h') { startPt.reverse(); endPt.reverse(); } if(hasPositiveSide) { path = 'M' + startPt + 'L' + pathPos.substr(1) + 'L' + endPt; } else { path = 'M' + endPt + 'L' + pathNeg.substr(1) + 'L' + startPt; } } pathSel.attr('d', path); // save a few things used in getPositionOnKdePath, getKdeValue // on hover and for meanline draw block below d.posCenterPx = posCenterPx; d.posDensityScale = scale * bdPos; d.path = pathSel.node(); d.pathLength = d.path.getTotalLength() / (hasBothSides ? 2 : 1); }); var boxAttrs = trace.box; var boxWidth = boxAttrs.width; var boxLineWidth = (boxAttrs.line || {}).width; var bdPosScaled; var bPosPxOffset; if(hasBothSides) { bdPosScaled = bdPos * boxWidth; bPosPxOffset = 0; } else if(hasPositiveSide) { bdPosScaled = [0, bdPos * boxWidth / 2]; bPosPxOffset = boxLineWidth * {x: 1, y: -1}[t.posLetter]; } else { bdPosScaled = [bdPos * boxWidth / 2, 0]; bPosPxOffset = boxLineWidth * {x: -1, y: 1}[t.posLetter]; } // inner box boxPlot.plotBoxAndWhiskers(plotGroup, {pos: posAxis, val: valAxis}, trace, { bPos: bPos, bdPos: bdPosScaled, bPosPxOffset: bPosPxOffset }); // meanline insider box boxPlot.plotBoxMean(plotGroup, {pos: posAxis, val: valAxis}, trace, { bPos: bPos, bdPos: bdPosScaled, bPosPxOffset: bPosPxOffset }); var fn; if(!trace.box.visible && trace.meanline.visible) { fn = Lib.identity; } // N.B. use different class name than boxPlot.plotBoxMean, // to avoid selectAll conflict var meanPaths = plotGroup.selectAll('path.meanline').data(fn || []); meanPaths.enter().append('path') .attr('class', 'meanline') .style('fill', 'none') .style('vector-effect', 'non-scaling-stroke'); meanPaths.exit().remove(); meanPaths.each(function(d) { var v = valAxis.c2p(d.mean, true); var p = helpers.getPositionOnKdePath(d, trace, v); d3.select(this).attr('d', trace.orientation === 'h' ? 'M' + v + ',' + p[0] + 'V' + p[1] : 'M' + p[0] + ',' + v + 'H' + p[1] ); }); boxPlot.plotPoints(plotGroup, {x: xa, y: ya}, trace, t); }); }; },{"../../components/drawing":179,"../../lib":287,"../box/plot":414,"../scatter/line_points":514,"./helpers":540,"@plotly/d3":20}],546:[function(_dereq_,module,exports){ 'use strict'; var d3 = _dereq_('@plotly/d3'); var Color = _dereq_('../../components/color'); var stylePoints = _dereq_('../scatter/style').stylePoints; module.exports = function style(gd) { var s = d3.select(gd).selectAll('g.trace.violins'); s.style('opacity', function(d) { return d[0].trace.opacity; }); s.each(function(d) { var trace = d[0].trace; var sel = d3.select(this); var box = trace.box || {}; var boxLine = box.line || {}; var meanline = trace.meanline || {}; var meanLineWidth = meanline.width; sel.selectAll('path.violin') .style('stroke-width', trace.line.width + 'px') .call(Color.stroke, trace.line.color) .call(Color.fill, trace.fillcolor); sel.selectAll('path.box') .style('stroke-width', boxLine.width + 'px') .call(Color.stroke, boxLine.color) .call(Color.fill, box.fillcolor); var meanLineStyle = { 'stroke-width': meanLineWidth + 'px', 'stroke-dasharray': (2 * meanLineWidth) + 'px,' + meanLineWidth + 'px' }; sel.selectAll('path.mean') .style(meanLineStyle) .call(Color.stroke, meanline.color); sel.selectAll('path.meanline') .style(meanLineStyle) .call(Color.stroke, meanline.color); stylePoints(sel, trace, gd); }); }; },{"../../components/color":157,"../scatter/style":524,"@plotly/d3":20}],547:[function(_dereq_,module,exports){ 'use strict'; var Axes = _dereq_('../plots/cartesian/axes'); var Lib = _dereq_('../lib'); var PlotSchema = _dereq_('../plot_api/plot_schema'); var pointsAccessorFunction = _dereq_('./helpers').pointsAccessorFunction; var BADNUM = _dereq_('../constants/numerical').BADNUM; exports.moduleType = 'transform'; exports.name = 'aggregate'; var attrs = exports.attributes = { enabled: { valType: 'boolean', dflt: true, editType: 'calc', }, groups: { // TODO: groupby should support string or array grouping this way too // currently groupby only allows a grouping array valType: 'string', strict: true, noBlank: true, arrayOk: true, dflt: 'x', editType: 'calc', }, aggregations: { _isLinkedToArray: 'aggregation', target: { valType: 'string', editType: 'calc', }, func: { valType: 'enumerated', values: ['count', 'sum', 'avg', 'median', 'mode', 'rms', 'stddev', 'min', 'max', 'first', 'last', 'change', 'range'], dflt: 'first', editType: 'calc', }, funcmode: { valType: 'enumerated', values: ['sample', 'population'], dflt: 'sample', editType: 'calc', }, enabled: { valType: 'boolean', dflt: true, editType: 'calc', }, editType: 'calc' }, editType: 'calc' }; var aggAttrs = attrs.aggregations; /** * Supply transform attributes defaults * * @param {object} transformIn * object linked to trace.transforms[i] with 'func' set to exports.name * @param {object} traceOut * the _fullData trace this transform applies to * @param {object} layout * the plot's (not-so-full) layout * @param {object} traceIn * the input data trace this transform applies to * * @return {object} transformOut * copy of transformIn that contains attribute defaults */ exports.supplyDefaults = function(transformIn, traceOut) { var transformOut = {}; var i; function coerce(attr, dflt) { return Lib.coerce(transformIn, transformOut, attrs, attr, dflt); } var enabled = coerce('enabled'); if(!enabled) return transformOut; /* * Normally _arrayAttrs is calculated during doCalc, but that comes later. * Anyway this can change due to *count* aggregations (see below) so it's not * necessarily the same set. * * For performance we turn it into an object of truthy values * we'll use 1 for arrays we haven't aggregated yet, 0 for finished arrays, * as distinct from undefined which means this array isn't present in the input * missing arrays can still be aggregate outputs for *count* aggregations. */ var arrayAttrArray = PlotSchema.findArrayAttributes(traceOut); var arrayAttrs = {}; for(i = 0; i < arrayAttrArray.length; i++) arrayAttrs[arrayAttrArray[i]] = 1; var groups = coerce('groups'); if(!Array.isArray(groups)) { if(!arrayAttrs[groups]) { transformOut.enabled = false; return transformOut; } arrayAttrs[groups] = 0; } var aggregationsIn = transformIn.aggregations || []; var aggregationsOut = transformOut.aggregations = new Array(aggregationsIn.length); var aggregationOut; function coercei(attr, dflt) { return Lib.coerce(aggregationsIn[i], aggregationOut, aggAttrs, attr, dflt); } for(i = 0; i < aggregationsIn.length; i++) { aggregationOut = {_index: i}; var target = coercei('target'); var func = coercei('func'); var enabledi = coercei('enabled'); // add this aggregation to the output only if it's the first instance // of a valid target attribute - or an unused target attribute with "count" if(enabledi && target && (arrayAttrs[target] || (func === 'count' && arrayAttrs[target] === undefined))) { if(func === 'stddev') coercei('funcmode'); arrayAttrs[target] = 0; aggregationsOut[i] = aggregationOut; } else aggregationsOut[i] = {enabled: false, _index: i}; } // any array attributes we haven't yet covered, fill them with the default aggregation for(i = 0; i < arrayAttrArray.length; i++) { if(arrayAttrs[arrayAttrArray[i]]) { aggregationsOut.push({ target: arrayAttrArray[i], func: aggAttrs.func.dflt, enabled: true, _index: -1 }); } } return transformOut; }; exports.calcTransform = function(gd, trace, opts) { if(!opts.enabled) return; var groups = opts.groups; var groupArray = Lib.getTargetArray(trace, {target: groups}); if(!groupArray) return; var i, vi, groupIndex, newGrouping; var groupIndices = {}; var indexToPoints = {}; var groupings = []; var originalPointsAccessor = pointsAccessorFunction(trace.transforms, opts); var len = groupArray.length; if(trace._length) len = Math.min(len, trace._length); for(i = 0; i < len; i++) { vi = groupArray[i]; groupIndex = groupIndices[vi]; if(groupIndex === undefined) { groupIndices[vi] = groupings.length; newGrouping = [i]; groupings.push(newGrouping); indexToPoints[groupIndices[vi]] = originalPointsAccessor(i); } else { groupings[groupIndex].push(i); indexToPoints[groupIndices[vi]] = (indexToPoints[groupIndices[vi]] || []).concat(originalPointsAccessor(i)); } } opts._indexToPoints = indexToPoints; var aggregations = opts.aggregations; for(i = 0; i < aggregations.length; i++) { aggregateOneArray(gd, trace, groupings, aggregations[i]); } if(typeof groups === 'string') { aggregateOneArray(gd, trace, groupings, { target: groups, func: 'first', enabled: true }); } trace._length = groupings.length; }; function aggregateOneArray(gd, trace, groupings, aggregation) { if(!aggregation.enabled) return; var attr = aggregation.target; var targetNP = Lib.nestedProperty(trace, attr); var arrayIn = targetNP.get(); var conversions = Axes.getDataConversions(gd, trace, attr, arrayIn); var func = getAggregateFunction(aggregation, conversions); var arrayOut = new Array(groupings.length); for(var i = 0; i < groupings.length; i++) { arrayOut[i] = func(arrayIn, groupings[i]); } targetNP.set(arrayOut); if(aggregation.func === 'count') { // count does not depend on an input array, so it's likely not part of _arrayAttrs yet // but after this transform it most definitely *is* an array attribute. Lib.pushUnique(trace._arrayAttrs, attr); } } function getAggregateFunction(opts, conversions) { var func = opts.func; var d2c = conversions.d2c; var c2d = conversions.c2d; switch(func) { // count, first, and last don't depend on anything about the data // point back to pure functions for performance case 'count': return count; case 'first': return first; case 'last': return last; case 'sum': // This will produce output in all cases even though it's nonsensical // for date or category data. return function(array, indices) { var total = 0; for(var i = 0; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) total += vi; } return c2d(total); }; case 'avg': // Generally meaningless for category data but it still does something. return function(array, indices) { var total = 0; var cnt = 0; for(var i = 0; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) { total += vi; cnt++; } } return cnt ? c2d(total / cnt) : BADNUM; }; case 'min': return function(array, indices) { var out = Infinity; for(var i = 0; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) out = Math.min(out, vi); } return (out === Infinity) ? BADNUM : c2d(out); }; case 'max': return function(array, indices) { var out = -Infinity; for(var i = 0; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) out = Math.max(out, vi); } return (out === -Infinity) ? BADNUM : c2d(out); }; case 'range': return function(array, indices) { var min = Infinity; var max = -Infinity; for(var i = 0; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) { min = Math.min(min, vi); max = Math.max(max, vi); } } return (max === -Infinity || min === Infinity) ? BADNUM : c2d(max - min); }; case 'change': return function(array, indices) { var first = d2c(array[indices[0]]); var last = d2c(array[indices[indices.length - 1]]); return (first === BADNUM || last === BADNUM) ? BADNUM : c2d(last - first); }; case 'median': return function(array, indices) { var sortCalc = []; for(var i = 0; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) sortCalc.push(vi); } if(!sortCalc.length) return BADNUM; sortCalc.sort(Lib.sorterAsc); var mid = (sortCalc.length - 1) / 2; return c2d((sortCalc[Math.floor(mid)] + sortCalc[Math.ceil(mid)]) / 2); }; case 'mode': return function(array, indices) { var counts = {}; var maxCnt = 0; var out = BADNUM; for(var i = 0; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) { var counti = counts[vi] = (counts[vi] || 0) + 1; if(counti > maxCnt) { maxCnt = counti; out = vi; } } } return maxCnt ? c2d(out) : BADNUM; }; case 'rms': return function(array, indices) { var total = 0; var cnt = 0; for(var i = 0; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) { total += vi * vi; cnt++; } } return cnt ? c2d(Math.sqrt(total / cnt)) : BADNUM; }; case 'stddev': return function(array, indices) { // balance numerical stability with performance: // so that we call d2c once per element but don't need to // store them, reference all to the first element var total = 0; var total2 = 0; var cnt = 1; var v0 = BADNUM; var i; for(i = 0; i < indices.length && v0 === BADNUM; i++) { v0 = d2c(array[indices[i]]); } if(v0 === BADNUM) return BADNUM; for(; i < indices.length; i++) { var vi = d2c(array[indices[i]]); if(vi !== BADNUM) { var dv = vi - v0; total += dv; total2 += dv * dv; cnt++; } } // This is population std dev, if we want sample std dev // we would need (...) / (cnt - 1) // Also note there's no c2d here - that means for dates the result // is a number of milliseconds, and for categories it's a number // of category differences, which is not generically meaningful but // as in other cases we don't forbid it. var norm = (opts.funcmode === 'sample') ? (cnt - 1) : cnt; // this is debatable: should a count of 1 return sample stddev of // 0 or undefined? if(!norm) return 0; return Math.sqrt((total2 - (total * total / cnt)) / norm); }; } } function count(array, indices) { return indices.length; } function first(array, indices) { return array[indices[0]]; } function last(array, indices) { return array[indices[indices.length - 1]]; } },{"../constants/numerical":267,"../lib":287,"../plot_api/plot_schema":322,"../plots/cartesian/axes":334,"./helpers":550}],548:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var Registry = _dereq_('../registry'); var Axes = _dereq_('../plots/cartesian/axes'); var pointsAccessorFunction = _dereq_('./helpers').pointsAccessorFunction; var filterOps = _dereq_('../constants/filter_ops'); var COMPARISON_OPS = filterOps.COMPARISON_OPS; var INTERVAL_OPS = filterOps.INTERVAL_OPS; var SET_OPS = filterOps.SET_OPS; exports.moduleType = 'transform'; exports.name = 'filter'; exports.attributes = { enabled: { valType: 'boolean', dflt: true, editType: 'calc', }, target: { valType: 'string', strict: true, noBlank: true, arrayOk: true, dflt: 'x', editType: 'calc', }, operation: { valType: 'enumerated', values: [] .concat(COMPARISON_OPS) .concat(INTERVAL_OPS) .concat(SET_OPS), dflt: '=', editType: 'calc', }, value: { valType: 'any', dflt: 0, editType: 'calc', }, preservegaps: { valType: 'boolean', dflt: false, editType: 'calc', }, editType: 'calc' }; exports.supplyDefaults = function(transformIn) { var transformOut = {}; function coerce(attr, dflt) { return Lib.coerce(transformIn, transformOut, exports.attributes, attr, dflt); } var enabled = coerce('enabled'); if(enabled) { var target = coerce('target'); if(Lib.isArrayOrTypedArray(target) && target.length === 0) { transformOut.enabled = false; return transformOut; } coerce('preservegaps'); coerce('operation'); coerce('value'); var handleCalendarDefaults = Registry.getComponentMethod('calendars', 'handleDefaults'); handleCalendarDefaults(transformIn, transformOut, 'valuecalendar', null); handleCalendarDefaults(transformIn, transformOut, 'targetcalendar', null); } return transformOut; }; exports.calcTransform = function(gd, trace, opts) { if(!opts.enabled) return; var targetArray = Lib.getTargetArray(trace, opts); if(!targetArray) return; var target = opts.target; var len = targetArray.length; if(trace._length) len = Math.min(len, trace._length); var targetCalendar = opts.targetcalendar; var arrayAttrs = trace._arrayAttrs; var preservegaps = opts.preservegaps; // even if you provide targetcalendar, if target is a string and there // is a calendar attribute matching target it will get used instead. if(typeof target === 'string') { var attrTargetCalendar = Lib.nestedProperty(trace, target + 'calendar').get(); if(attrTargetCalendar) targetCalendar = attrTargetCalendar; } var d2c = Axes.getDataToCoordFunc(gd, trace, target, targetArray); var filterFunc = getFilterFunc(opts, d2c, targetCalendar); var originalArrays = {}; var indexToPoints = {}; var index = 0; function forAllAttrs(fn, index) { for(var j = 0; j < arrayAttrs.length; j++) { var np = Lib.nestedProperty(trace, arrayAttrs[j]); fn(np, index); } } var initFn; var fillFn; if(preservegaps) { initFn = function(np) { originalArrays[np.astr] = Lib.extendDeep([], np.get()); np.set(new Array(len)); }; fillFn = function(np, index) { var val = originalArrays[np.astr][index]; np.get()[index] = val; }; } else { initFn = function(np) { originalArrays[np.astr] = Lib.extendDeep([], np.get()); np.set([]); }; fillFn = function(np, index) { var val = originalArrays[np.astr][index]; np.get().push(val); }; } // copy all original array attribute values, and clear arrays in trace forAllAttrs(initFn); var originalPointsAccessor = pointsAccessorFunction(trace.transforms, opts); // loop through filter array, fill trace arrays if passed for(var i = 0; i < len; i++) { var passed = filterFunc(targetArray[i]); if(passed) { forAllAttrs(fillFn, i); indexToPoints[index++] = originalPointsAccessor(i); } else if(preservegaps) index++; } opts._indexToPoints = indexToPoints; trace._length = index; }; function getFilterFunc(opts, d2c, targetCalendar) { var operation = opts.operation; var value = opts.value; var hasArrayValue = Array.isArray(value); function isOperationIn(array) { return array.indexOf(operation) !== -1; } var d2cValue = function(v) { return d2c(v, 0, opts.valuecalendar); }; var d2cTarget = function(v) { return d2c(v, 0, targetCalendar); }; var coercedValue; if(isOperationIn(COMPARISON_OPS)) { coercedValue = hasArrayValue ? d2cValue(value[0]) : d2cValue(value); } else if(isOperationIn(INTERVAL_OPS)) { coercedValue = hasArrayValue ? [d2cValue(value[0]), d2cValue(value[1])] : [d2cValue(value), d2cValue(value)]; } else if(isOperationIn(SET_OPS)) { coercedValue = hasArrayValue ? value.map(d2cValue) : [d2cValue(value)]; } switch(operation) { case '=': return function(v) { return d2cTarget(v) === coercedValue; }; case '!=': return function(v) { return d2cTarget(v) !== coercedValue; }; case '<': return function(v) { return d2cTarget(v) < coercedValue; }; case '<=': return function(v) { return d2cTarget(v) <= coercedValue; }; case '>': return function(v) { return d2cTarget(v) > coercedValue; }; case '>=': return function(v) { return d2cTarget(v) >= coercedValue; }; case '[]': return function(v) { var cv = d2cTarget(v); return cv >= coercedValue[0] && cv <= coercedValue[1]; }; case '()': return function(v) { var cv = d2cTarget(v); return cv > coercedValue[0] && cv < coercedValue[1]; }; case '[)': return function(v) { var cv = d2cTarget(v); return cv >= coercedValue[0] && cv < coercedValue[1]; }; case '(]': return function(v) { var cv = d2cTarget(v); return cv > coercedValue[0] && cv <= coercedValue[1]; }; case '][': return function(v) { var cv = d2cTarget(v); return cv <= coercedValue[0] || cv >= coercedValue[1]; }; case ')(': return function(v) { var cv = d2cTarget(v); return cv < coercedValue[0] || cv > coercedValue[1]; }; case '](': return function(v) { var cv = d2cTarget(v); return cv <= coercedValue[0] || cv > coercedValue[1]; }; case ')[': return function(v) { var cv = d2cTarget(v); return cv < coercedValue[0] || cv >= coercedValue[1]; }; case '{}': return function(v) { return coercedValue.indexOf(d2cTarget(v)) !== -1; }; case '}{': return function(v) { return coercedValue.indexOf(d2cTarget(v)) === -1; }; } } },{"../constants/filter_ops":265,"../lib":287,"../plots/cartesian/axes":334,"../registry":378,"./helpers":550}],549:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var PlotSchema = _dereq_('../plot_api/plot_schema'); var Plots = _dereq_('../plots/plots'); var pointsAccessorFunction = _dereq_('./helpers').pointsAccessorFunction; exports.moduleType = 'transform'; exports.name = 'groupby'; exports.attributes = { enabled: { valType: 'boolean', dflt: true, editType: 'calc', }, groups: { valType: 'data_array', dflt: [], editType: 'calc', }, nameformat: { valType: 'string', editType: 'calc', }, styles: { _isLinkedToArray: 'style', target: { valType: 'string', editType: 'calc', }, value: { valType: 'any', dflt: {}, editType: 'calc', _compareAsJSON: true }, editType: 'calc' }, editType: 'calc' }; /** * Supply transform attributes defaults * * @param {object} transformIn * object linked to trace.transforms[i] with 'type' set to exports.name * @param {object} traceOut * the _fullData trace this transform applies to * @param {object} layout * the plot's (not-so-full) layout * @param {object} traceIn * the input data trace this transform applies to * * @return {object} transformOut * copy of transformIn that contains attribute defaults */ exports.supplyDefaults = function(transformIn, traceOut, layout) { var i; var transformOut = {}; function coerce(attr, dflt) { return Lib.coerce(transformIn, transformOut, exports.attributes, attr, dflt); } var enabled = coerce('enabled'); if(!enabled) return transformOut; coerce('groups'); coerce('nameformat', layout._dataLength > 1 ? '%{group} (%{trace})' : '%{group}'); var styleIn = transformIn.styles; var styleOut = transformOut.styles = []; if(styleIn) { for(i = 0; i < styleIn.length; i++) { var thisStyle = styleOut[i] = {}; Lib.coerce(styleIn[i], styleOut[i], exports.attributes.styles, 'target'); var value = Lib.coerce(styleIn[i], styleOut[i], exports.attributes.styles, 'value'); // so that you can edit value in place and have Plotly.react notice it, or // rebuild it every time and have Plotly.react NOT think it changed: // use _compareAsJSON to say we should diff the _JSON_value if(Lib.isPlainObject(value)) thisStyle.value = Lib.extendDeep({}, value); else if(value) delete thisStyle.value; } } return transformOut; }; /** * Apply transform !!! * * @param {array} data * array of transformed traces (is [fullTrace] upon first transform) * * @param {object} state * state object which includes: * - transform {object} full transform attributes * - fullTrace {object} full trace object which is being transformed * - fullData {array} full pre-transform(s) data array * - layout {object} the plot's (not-so-full) layout * * @return {object} newData * array of transformed traces */ exports.transform = function(data, state) { var newTraces, i, j; var newData = []; for(i = 0; i < data.length; i++) { newTraces = transformOne(data[i], state); for(j = 0; j < newTraces.length; j++) { newData.push(newTraces[j]); } } return newData; }; function transformOne(trace, state) { var i, j, k, attr, srcArray, groupName, newTrace, transforms, arrayLookup; var groupNameObj; var opts = state.transform; var transformIndex = state.transformIndex; var groups = trace.transforms[transformIndex].groups; var originalPointsAccessor = pointsAccessorFunction(trace.transforms, opts); if(!(Lib.isArrayOrTypedArray(groups)) || groups.length === 0) { return [trace]; } var groupNames = Lib.filterUnique(groups); var newData = new Array(groupNames.length); var len = groups.length; var arrayAttrs = PlotSchema.findArrayAttributes(trace); var styles = opts.styles || []; var styleLookup = {}; for(i = 0; i < styles.length; i++) { styleLookup[styles[i].target] = styles[i].value; } if(opts.styles) { groupNameObj = Lib.keyedContainer(opts, 'styles', 'target', 'value.name'); } // An index to map group name --> expanded trace index var indexLookup = {}; var indexCnts = {}; for(i = 0; i < groupNames.length; i++) { groupName = groupNames[i]; indexLookup[groupName] = i; indexCnts[groupName] = 0; // Start with a deep extend that just copies array references. newTrace = newData[i] = Lib.extendDeepNoArrays({}, trace); newTrace._group = groupName; newTrace.transforms[transformIndex]._indexToPoints = {}; var suppliedName = null; if(groupNameObj) { suppliedName = groupNameObj.get(groupName); } if(suppliedName || suppliedName === '') { newTrace.name = suppliedName; } else { newTrace.name = Lib.templateString(opts.nameformat, { trace: trace.name, group: groupName }); } // In order for groups to apply correctly to other transform data (e.g. // a filter transform), we have to break the connection and clone the // transforms so that each group writes grouped values into a different // destination. This function does not break the array reference // connection between the split transforms it creates. That's handled in // initialize, which creates a new empty array for each arrayAttr. transforms = newTrace.transforms; newTrace.transforms = []; for(j = 0; j < transforms.length; j++) { newTrace.transforms[j] = Lib.extendDeepNoArrays({}, transforms[j]); } // Initialize empty arrays for the arrayAttrs, to be split in the next step for(j = 0; j < arrayAttrs.length; j++) { Lib.nestedProperty(newTrace, arrayAttrs[j]).set([]); } } // For each array attribute including those nested inside this and other // transforms (small note that we technically only need to do this for // transforms that have not yet been applied): for(k = 0; k < arrayAttrs.length; k++) { attr = arrayAttrs[k]; // Cache all the arrays to which we'll push: for(j = 0, arrayLookup = []; j < groupNames.length; j++) { arrayLookup[j] = Lib.nestedProperty(newData[j], attr).get(); } // Get the input data: srcArray = Lib.nestedProperty(trace, attr).get(); // Send each data point to the appropriate expanded trace: for(j = 0; j < len; j++) { // Map group data --> trace index --> array and push data onto it arrayLookup[indexLookup[groups[j]]].push(srcArray[j]); } } for(j = 0; j < len; j++) { newTrace = newData[indexLookup[groups[j]]]; var indexToPoints = newTrace.transforms[transformIndex]._indexToPoints; indexToPoints[indexCnts[groups[j]]] = originalPointsAccessor(j); indexCnts[groups[j]]++; } for(i = 0; i < groupNames.length; i++) { groupName = groupNames[i]; newTrace = newData[i]; Plots.clearExpandedTraceDefaultColors(newTrace); // there's no need to coerce styleLookup[groupName] here // as another round of supplyDefaults is done on the transformed traces newTrace = Lib.extendDeepNoArrays(newTrace, styleLookup[groupName] || {}); } return newData; } },{"../lib":287,"../plot_api/plot_schema":322,"../plots/plots":371,"./helpers":550}],550:[function(_dereq_,module,exports){ 'use strict'; exports.pointsAccessorFunction = function(transforms, opts) { var tr; var prevIndexToPoints; for(var i = 0; i < transforms.length; i++) { tr = transforms[i]; if(tr === opts) break; if(!tr._indexToPoints || tr.enabled === false) continue; prevIndexToPoints = tr._indexToPoints; } var originalPointsAccessor = prevIndexToPoints ? function(i) {return prevIndexToPoints[i];} : function(i) {return [i];}; return originalPointsAccessor; }; },{}],551:[function(_dereq_,module,exports){ 'use strict'; var Lib = _dereq_('../lib'); var Axes = _dereq_('../plots/cartesian/axes'); var pointsAccessorFunction = _dereq_('./helpers').pointsAccessorFunction; var BADNUM = _dereq_('../constants/numerical').BADNUM; exports.moduleType = 'transform'; exports.name = 'sort'; exports.attributes = { enabled: { valType: 'boolean', dflt: true, editType: 'calc', }, target: { valType: 'string', strict: true, noBlank: true, arrayOk: true, dflt: 'x', editType: 'calc', }, order: { valType: 'enumerated', values: ['ascending', 'descending'], dflt: 'ascending', editType: 'calc', }, editType: 'calc' }; exports.supplyDefaults = function(transformIn) { var transformOut = {}; function coerce(attr, dflt) { return Lib.coerce(transformIn, transformOut, exports.attributes, attr, dflt); } var enabled = coerce('enabled'); if(enabled) { coerce('target'); coerce('order'); } return transformOut; }; exports.calcTransform = function(gd, trace, opts) { if(!opts.enabled) return; var targetArray = Lib.getTargetArray(trace, opts); if(!targetArray) return; var target = opts.target; var len = targetArray.length; if(trace._length) len = Math.min(len, trace._length); var arrayAttrs = trace._arrayAttrs; var d2c = Axes.getDataToCoordFunc(gd, trace, target, targetArray); var indices = getIndices(opts, targetArray, d2c, len); var originalPointsAccessor = pointsAccessorFunction(trace.transforms, opts); var indexToPoints = {}; var i, j; for(i = 0; i < arrayAttrs.length; i++) { var np = Lib.nestedProperty(trace, arrayAttrs[i]); var arrayOld = np.get(); var arrayNew = new Array(len); for(j = 0; j < len; j++) { arrayNew[j] = arrayOld[indices[j]]; } np.set(arrayNew); } for(j = 0; j < len; j++) { indexToPoints[j] = originalPointsAccessor(indices[j]); } opts._indexToPoints = indexToPoints; trace._length = len; }; function getIndices(opts, targetArray, d2c, len) { var sortedArray = new Array(len); var indices = new Array(len); var i; for(i = 0; i < len; i++) { sortedArray[i] = {v: targetArray[i], i: i}; } sortedArray.sort(getSortFunc(opts, d2c)); for(i = 0; i < len; i++) { indices[i] = sortedArray[i].i; } return indices; } function getSortFunc(opts, d2c) { switch(opts.order) { case 'ascending': return function(a, b) { var ac = d2c(a.v); var bc = d2c(b.v); if(ac === BADNUM) { return 1; } if(bc === BADNUM) { return -1; } return ac - bc; }; case 'descending': return function(a, b) { var ac = d2c(a.v); var bc = d2c(b.v); if(ac === BADNUM) { return 1; } if(bc === BADNUM) { return -1; } return bc - ac; }; } } },{"../constants/numerical":267,"../lib":287,"../plots/cartesian/axes":334,"./helpers":550}],552:[function(_dereq_,module,exports){ 'use strict'; // package version injected by `npm run preprocess` exports.version = '2.12.1'; },{}]},{},[15])(15) }); var locale={moduleType:"locale",name:"ca",dictionary:{},format:{days:["Diumenge","Dilluns","Dimarts","Dimecres","Dijous","Divendres","Dissabte"],shortDays:["Dug","Dln","Dmt","Dmc","Djs","Dvn","Dsb"],months:["Gener","Febrer","Mar\xe7","Abril","Maig","Juny","Juliol","Agost","Setembre","Octubre","Novembre","Desembre"],shortMonths:["Gen","Feb","Mar","Abr","Mai","Jun","Jul","Ago","Set","Oct","Nov","Des"],date:"%d/%m/%Y"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"de",dictionary:{Autoscale:"Automatische Skalierung","Box Select":"Rechteckauswahl","Click to enter Colorscale title":"Klicken, um den Farbskalatitel einzugeben","Click to enter Component A title":"Klicken, um den Titel der Komponente A einzugeben","Click to enter Component B title":"Klicken, um den Titel der Komponente B einzugeben","Click to enter Component C title":"Klicken, um den Titel der Komponente C einzugeben","Click to enter Plot title":"Klicken, um den Titel des Graphen einzugeben","Click to enter X axis title":"Klicken, um den Titel der X-Achse einzugeben","Click to enter Y axis title":"Klicken, um den Titel der Y-Achse einzugeben","Compare data on hover":"\xdcber die Daten fahren, um sie zu vergleichen","Double-click on legend to isolate one trace":"Daten isolieren durch Doppelklick in der Legende","Double-click to zoom back out":"Herauszoomen durch Doppelklick","Download plot as a png":"Graphen als PNG herunterladen","Download plot":"Graphen herunterladen","Edit in Chart Studio":"Im Chart Studio bearbeiten","IE only supports svg. Changing format to svg.":"IE unterst\xfctzt nur SVG-Dateien. Format wird zu SVG gewechselt.","Lasso Select":"Lassoauswahl","Orbital rotation":"Orbitalrotation",Pan:"Verschieben","Produced with Plotly.js":"Erstellt mit Plotly.js",Reset:"Zur\xfccksetzen","Reset axes":"Achsen zur\xfccksetzen","Reset camera to default":"Kamera auf Standard zur\xfccksetzen","Reset camera to last save":"Kamera auf letzte Speicherung zur\xfccksetzen","Reset view":"Ansicht zur\xfccksetzen","Reset views":"Ansichten zur\xfccksetzen","Show closest data on hover":"Zeige n\xe4heste Daten beim \xdcberfahren","Snapshot succeeded":"Snapshot erfolgreich","Sorry, there was a problem downloading your snapshot!":"Es gab ein Problem beim Herunterladen des Snapshots","Taking snapshot - this may take a few seconds":"Erstelle einen Snapshot - dies kann einige Sekunden dauern",Zoom:"Zoom","Zoom in":"Hineinzoomen","Zoom out":"Herauszoomen","close:":"Schluss:",trace:"Datenspur","lat:":"Lat.:","lon:":"Lon.:","q1:":"q1:","q3:":"q3:","source:":"Quelle:","target:":"Ziel:","lower fence:":"Untere Schranke:","upper fence:":"Obere Schranke:","max:":"Max.:","mean \xb1 \u03c3:":"Mittelwert \xb1 \u03c3:","mean:":"Mittelwert:","median:":"Median:","min:":"Min.:","Turntable rotation":"Drehscheibenorbit","Toggle Spike Lines":"Bezugslinien an-/abschalten","open:":"Er\xf6ffnung:","high:":"H\xf6chstkurs:","low:":"Tiefstkurs:","Toggle show closest data on hover":"Anzeige der n\xe4hesten Daten an-/abschalten","incoming flow count:":"Anzahl eingehender Verbindungen:","outgoing flow count:":"Anzahl ausgehender Verbindungen:","kde:":"Dichte:"},format:{days:["Sonntag","Montag","Dienstag","Mittwoch","Donnerstag","Freitag","Samstag"],shortDays:["So","Mo","Di","Mi","Do","Fr","Sa"],months:["Januar","Februar","M\xe4rz","April","Mai","Juni","Juli","August","September","Oktober","November","Dezember"],shortMonths:["Jan","Feb","M\xe4r","Apr","Mai","Jun","Jul","Aug","Sep","Okt","Nov","Dez"],date:"%d.%m.%Y",decimal:",",thousands:"."}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"es",dictionary:{Autoscale:"Autoescalar","Box Select":"Seleccionar Caja","Click to enter Colorscale title":"Introducir el t\xedtulo de la Escala de Color","Click to enter Component A title":"Introducir el t\xedtulo del Componente A","Click to enter Component B title":"Introducir el t\xedtulo del Componente B","Click to enter Component C title":"Introducir el t\xedtulo del Componente C","Click to enter Plot title":"Introducir el t\xedtulo de la Gr\xe1fica","Click to enter X axis title":"Introducir el t\xedtulo del eje X","Click to enter Y axis title":"Introducir el t\xedtulo del eje Y","Click to enter radial axis title":"Introducir el t\xedtulo del eje radial","Compare data on hover":"Comparar datos al pasar por encima","Double-click on legend to isolate one trace":"Haga doble-clic en la leyenda para aislar una traza","Double-click to zoom back out":"Haga doble-clic para restaurar la escala","Download plot as a png":"Descargar gr\xe1fica como png","Download plot":"Descargar gr\xe1fica","Edit in Chart Studio":"Editar en Chart Studio","IE only supports svg. Changing format to svg.":"IE solo soporta svg. Cambiando formato a svg.","Lasso Select":"Seleccionar con lazo","Orbital rotation":"Rotaci\xf3n esf\xe9rica",Pan:"Modo Panor\xe1mica","Produced with Plotly.js":"Hecho con Plotly.js",Reset:"Reiniciar","Reset axes":"Reiniciar ejes","Reset camera to default":"Restaurar c\xe1mara predeterminada","Reset camera to last save":"Restaurar anterior c\xe1mara","Reset view":"Restaurar vista","Reset views":"Restaurar vistas","Show closest data on hover":"Mostrar el dato m\xe1s cercano al pasar por encima","Snapshot succeeded":"La captura de la instant\xe1nea finaliz\xf3 correctamente","Sorry, there was a problem downloading your snapshot!":"\xa1La descarga de la instant\xe1nea fall\xf3!","Taking snapshot - this may take a few seconds":"Capturando una instant\xe1nea - podr\xeda tardar unos segundos","Toggle Spike Lines":"Mostrar/Ocultar Gu\xedas","Toggle show closest data on hover":"Activar/Desactivar mostrar el dato m\xe1s cercano al pasar por encima","Turntable rotation":"Rotaci\xf3n plana",Zoom:"Modo Ampliar/Reducir","Zoom in":"Ampliar","Zoom out":"Reducir","close:":"cierre:","high:":"alza:","incoming flow count:":"flujo de entrada:","kde:":"edp:","lat:":"lat:","lon:":"lon:","low:":"baja:","lower fence:":"l\xedmite inferior:","max:":"m\xe1x:","mean \xb1 \u03c3:":"media \xb1 \u03c3:","mean:":"media:","median:":"mediana:","min:":"m\xedn:","new text":"nuevo texto","open:":"apertura:","outgoing flow count:":"flujo de salida:","q1:":"q1:","q3:":"q3:","source:":"fuente:","target:":"destino:",trace:"traza","upper fence:":"l\xedmite superior:"},format:{days:["Domingo","Lunes","Martes","Mi\xe9rcoles","Jueves","Viernes","S\xe1bado"],shortDays:["Dom","Lun","Mar","Mi\xe9","Jue","Vie","S\xe1b"],months:["Enero","Febrero","Marzo","Abril","Mayo","Junio","Julio","Agosto","Septiembre","Octubre","Noviembre","Diciembre"],shortMonths:["Ene","Feb","Mar","Abr","May","Jun","Jul","Ago","Sep","Oct","Nov","Dic"],date:"%d/%m/%Y",decimal:",",thousands:" "}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"fi",dictionary:{Autoscale:"Autoskaalaa","Box Select":"Laatikkovalinta","Click to enter Colorscale title":"Klikkaa antaaksesi v\xe4riskaalan otsikko","Click to enter Component A title":"Klikkaa antaaksesi komponentin A otsikko","Click to enter Component B title":"Klikkaa antaaksesi komponentin B otsikko","Click to enter Component C title":"Klikkaa antaaksesi komponentin C otsikko","Click to enter Plot title":"Klikkaa antaaksesi kuvion otsikko","Click to enter X axis title":"Klikkaa antaaksesi x-akselin otsikko","Click to enter Y axis title":"Klikkaa antaaksesi y-akselin otsikko","Click to enter radial axis title":"Klikkaa antaaksesi radiaalisen akselin otsikko","Compare data on hover":"Vertaa dataa kursorilla","Double-click on legend to isolate one trace":"Kaksoisklikkaa selitett\xe4 erist\xe4\xe4ksesi yksi sarja","Double-click to zoom back out":"Kaksoisklikkaa zoomataksesi ulos","Download plot":"Lataa kuvio","Download plot as png":"Lataa kuvio png-muodossa","Edit in Chart Studio":"Muokkaa Chart Studiossa","IE only supports svg. Changing format to svg.":"Formaatiksi vaihdetaan IE:n tukema svg.","Lasso Select":"Lassovalinta","Orbital rotation":"Orbitaalikierto",Pan:"Panorointi","Produced with Plotly.js":"Tuotettu Plotly.jsll\xe4",Reset:"Palauta oletusasetukset","Reset axes":"Palauta akselien oletusasetukset","Reset camera to default":"Palauta kameran oletusasetukset","Reset camera to last save":"Palauta kameran viimeksi tallennetut asetukset","Reset view":"Palauta n\xe4kym\xe4n oletusasetukset","Reset views":"Palauta n\xe4kymien oletusasetukset","Show closest data on hover":"N\xe4yt\xe4 kursoria l\xe4hin data","Snapshot succeeded":"Tilannekuvan ottaminen onnistui","Sorry, there was a problem downloading your snapshot!":"Pahoittelut, tilannekuvan lataaminen ep\xe4onnistui!","Taking snapshot - this may take a few seconds":"Otetaan tilannekuvaa - odota hetki","Toggle Spike Lines":"N\xe4yt\xe4 huiput","Toggle show closest data on hover":"N\xe4yt\xe4 kursoria l\xe4hin data","Turntable rotation":"Tasokierto",Zoom:"Zoomaus","Zoom in":"Zoomaa sis\xe4\xe4n","Zoom out":"Zoomaa ulos","close:":"loppu:","high:":"korkein:","incoming flow count:":"saapuva virtaus:","kde:":"ydinestimointi:","lat:":"lat.:","lon:":"lon.:","low:":"matalin:","lower fence:":"alempi raja:","max:":"maks.:","mean \xb1 \u03c3:":"keskiarvo \xb1 \u03c3:","mean:":"keskiarvo:","median:":"mediaani:","min:":"min.:","new text":"uusi teksti","open:":"alku:","outgoing flow count:":"l\xe4htev\xe4 virtaus:","q1:":"q1:","q3:":"q3:","source:":"l\xe4hde:","target:":"kohde:",trace:"sarja","upper fence:":"ylempi raja:"},format:{days:["sunnuntai","maanantai","tiistai","keskiviikko","torstai","perjantai","lauantai"],shortDays:["su","ma","ti","ke","to","pe","la"],months:["tammikuu","helmikuu","maaliskuu","huhtikuu","toukokuu","kes\xe4kuu","hein\xe4kuu","elokuu","syyskuu","lokakuu","marraskuu","joulukuu"],shortMonths:["tammi","helmi","maalis","huhti","touko","kes\xe4","hein\xe4","elo","syys","loka","marras","joulu"],date:"%d.%m.%Y"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"fr",dictionary:{Autoscale:"\xc9chelle automatique","Box Select":"S\xe9lection rectangulaire","Click to enter Colorscale title":"Ajouter un titre \xe0 l'\xe9chelle de couleurs","Click to enter Component A title":"Ajouter un titre \xe0 la composante A","Click to enter Component B title":"Ajouter un titre \xe0 la composante B","Click to enter Component C title":"Ajouter un titre \xe0 la composante C","Click to enter Plot title":"Ajouter un titre au graphique","Click to enter X axis title":"Ajouter un titre \xe0 l'axe des x","Click to enter Y axis title":"Ajouter un titre \xe0 l'axe des y","Click to enter radial axis title":"Ajouter un titre \xe0 l'axe radial","Compare data on hover":"Comparaison entre donn\xe9es en survol","Double-click on legend to isolate one trace":"Double-cliquer sur la l\xe9gende pour isoler une s\xe9rie","Double-click to zoom back out":"Double-cliquer pour d\xe9zoomer","Download plot as a png":"T\xe9l\xe9charger le graphique en fichier PNG","Download plot":"T\xe9l\xe9charger le graphique","Edit in Chart Studio":"\xc9diter le graphique sur Chart Studio","IE only supports svg. Changing format to svg.":"IE ne permet que les conversions en SVG. Conversion en SVG en cours.","Lasso Select":"S\xe9lection lasso","Orbital rotation":"Rotation orbitale",Pan:"Translation","Produced with Plotly.js":"G\xe9n\xe9r\xe9 avec Plotly.js",Reset:"R\xe9initialiser","Reset axes":"R\xe9initialiser les axes","Reset camera to default":"R\xe9gler la cam\xe9ra \xe0 sa valeur d\xe9faut","Reset camera to last save":"R\xe9gler la cam\xe9ra \xe0 sa valeur sauvegard\xe9e","Reset view":"R\xe9initialiser","Reset views":"R\xe9initialiser","Show closest data on hover":"Donn\xe9es les plus proches en survol","Snapshot succeeded":"Conversion r\xe9ussie","Sorry, there was a problem downloading your snapshot!":"D\xe9sol\xe9, un probl\xe8me est survenu lors du t\xe9l\xe9chargement de votre graphique","Taking snapshot - this may take a few seconds":"Conversion en cours, ceci peut prendre quelques secondes",Zoom:"Zoom","Zoom in":"Zoom int\xe9rieur","Zoom out":"Zoom ext\xe9rieur","close:":"fermeture :",trace:"s\xe9rie","lat:":"lat. :","lon:":"lon. :","q1:":"q1 :","q3:":"q3 :","source:":"source :","target:":"embouchure :","lower fence:":"cl\xf4ture sup\xe9rieure :","upper fence:":"cl\xf4ture inf\xe9rieure :","max:":"max. :","mean \xb1 \u03c3:":"moyenne \xb1 \u03c3 :","mean:":"moyenne :","median:":"m\xe9diane :","min:":"min. :","new text":"nouveau texte","Turntable rotation":"Rotation planaire","Toggle Spike Lines":"Activer/d\xe9sactiver les pics","open:":"ouverture :","high:":"haut :","low:":"bas :","Toggle show closest data on hover":"Activer/d\xe9sactiver le survol","incoming flow count:":"flux entrant :","outgoing flow count:":"flux sortant :","kde:":"est. par noyau :"},format:{days:["Dimanche","Lundi","Mardi","Mercredi","Jeudi","Vendredi","Samedi"],shortDays:["Dim","Lun","Mar","Mer","Jeu","Ven","Sam"],months:["Janvier","F\xe9vrier","Mars","Avril","Mai","Juin","Juillet","Ao\xfbt","Septembre","Octobre","Novembre","D\xe9cembre"],shortMonths:["Jan","F\xe9v","Mar","Avr","Mai","Jun","Jul","Ao\xfb","Sep","Oct","Nov","D\xe9c"],date:"%d/%m/%Y",decimal:",",thousands:" ",year:"%Y",month:"%b %Y",dayMonth:"%-d %b",dayMonthYear:"%-d %b %Y"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"it",dictionary:{Autoscale:"Scala automaticamente","Box Select":"Selezione box","Click to enter Colorscale title":"Clicca per inserire un titolo alla scala di colori","Click to enter Component A title":"Clicca per inserire un titolo al componente A","Click to enter Component B title":"Clicca per inserire un titolo al componente B","Click to enter Component C title":"Clicca per inserire un titolo al componente C","Click to enter Plot title":"Clicca per inserire un titolo al grafico","Click to enter X axis title":"Clicca per inserire un titolo all'asse X","Click to enter Y axis title":"Clicca per inserire un titolo all'asse Y","Click to enter radial axis title":"Clicca per inserire un titolo per l' asse radiale","Compare data on hover":"Paragona i dati al passaggio del mouse","Double-click on legend to isolate one trace":"Doppio click per isolare i dati di una traccia","Double-click to zoom back out":"Doppio click per tornare allo zoom iniziale","Download plot as a png":"Scarica il grafico come immagine png","Download plot":"Scarica il grafico","Edit in Chart Studio":"Modifica in Chart Studio","IE only supports svg. Changing format to svg.":"IE supporta solo svg. Modifica formato in svg.","Lasso Select":"Selezione lazo","Orbital rotation":"Rotazione orbitale",Pan:"Sposta","Produced with Plotly.js":"Creato con Plotly.js",Reset:"Reset","Reset axes":"Resetta gli assi","Reset camera to default":"Reimposta la camera ai valori predefiniti","Reset camera to last save":"Reimposta la camera all' ultimo salvataggio","Reset view":"Reimposta la vista","Reset views":"Reimposta le viste","Show closest data on hover":"Mostra i dati pi\xf9 vicini al passaggio del mouse","Snapshot succeeded":"Screenshot creato con successo","Sorry, there was a problem downloading your snapshot!":"Si \xe8 verificato un errore durante la creazione dello screenshot","Taking snapshot - this may take a few seconds":"Creazione screenshot - potrebbe richiedere qualche secondo",Zoom:"Zoom","Zoom in":"Ingrandisci","Zoom out":"Rimpicciolisci","close:":"chiudi:",trace:"traccia","lat:":"lat.:","lon:":"lon.:","q1:":"q1:","q3:":"q3:","source:":"sorgente:","target:":"target:","max:":"max.:","mean \xb1 \u03c3:":"media \xb1 \u03c3:","mean:":"media:","median:":"mediana:","min:":"min.:","new text:":"Nuovo testo:","upper fence:":"limite superiore:","lower fence:":"limite inferiore:","Turntable rotation":"Rotazione piattaforma","Toggle Spike Lines":"Abilita linee di identificazione","open:":"apri:","high:":"alto:","kde:":"kde:","low:":"basso:","incoming flow count:":"Flusso in entrata:","outgoing flow count:":"Flusso in uscita:","Toggle show closest data on hover":"Abilita mostra i dati pi\xf9 vicini al passaggio del mouse"},format:{days:["Domenica","Luned\xec","Marted\xec","Mercoled\xec","Gioved\xec","Venerd\xec","Sabato"],shortDays:["Dom","Lun","Mar","Mer","Gio","Ven","Sab"],months:["Gennaio","Febbraio","Marzo","Aprile","Maggio","Giugno","Luglio","Agosto","Settembre","Ottobre","Novembre","Dicembre"],shortMonths:["Gen","Feb","Mar","Apr","Mag","Giu","Lug","Ago","Set","Ott","Nov","Dic"],date:"%d/%m/%Y",decimal:",",thousands:"."}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"nl",dictionary:{},format:{days:["zondag","maandag","dinsdag","woensdag","donderdag","vrijdag","zaterdag"],shortDays:["zon","maa","din","woe","don","vri","zat"],months:["januari","februari","maart","april","mei","juni","juli","augustus","september","oktober","november","december"],shortMonths:["jan","feb","maa","apr","mei","jun","jul","aug","sep","okt","nov","dec"],date:"%d-%m-%Y"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"pl",dictionary:{},format:{days:["Niedziela","Poniedzia\u0142ek","Wtorek","\u015aroda","Czwartek","Pi\u0105tek","Sobota"],shortDays:["Nie","Pn","Wt","\u015ar","Czw","Pt","So"],months:["Stycze\u0144","Luty","Marzec","Kwiecie\u0144","Maj","Czerwiec","Lipiec","Sierpie\u0144","Wrzesie\u0144","Pa\u017adziernik","Listopad","Grudzie\u0144"],shortMonths:["Sty","Lu","Mar","Kw","Maj","Cze","Lip","Sie","Wrz","Pa","Lis","Gru"],date:"%Y-%m-%d"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"pt-BR",dictionary:{Autoscale:"Escala autom\xe1tica","Box Select":"Sele\xe7\xe3o retangular","Click to enter Colorscale title":"Clique para editar o t\xedtulo da escala de cor","Click to enter Component A title":"Clique para editar o t\xedtulo do Componente A","Click to enter Component B title":"Clique para editar o t\xedtulo do Componente B","Click to enter Component C title":"Clique para editar o t\xedtulo do Componente C","Click to enter Plot title":"Clique para editar o t\xedtulo do Gr\xe1fico","Click to enter X axis title":"Clique para editar o t\xedtulo do eixo X","Click to enter Y axis title":"Clique para editar o t\xedtulo do eixo Y","Click to enter radial axis title":"Clique para editar o t\xedtulo do eixo radial","Compare data on hover":"Comparar dados ao pairar","Double-click on legend to isolate one trace":"Duplo clique na legenda para isolar uma s\xe9rie","Double-click to zoom back out":"Duplo clique para reverter zoom","Download plot as a png":"Fazer download do gr\xe1fico como imagem (png)","Download plot":"Fazer download do gr\xe1fico","Edit in Chart Studio":"Editar no Chart Studio","IE only supports svg. Changing format to svg.":"IE suporta apenas svg. Alterando formato para svg","Lasso Select":"Sele\xe7\xe3o de la\xe7o","Orbital rotation":"Rota\xe7\xe3o orbital",Pan:"Mover","Produced with Plotly.js":"Criado com o Plotly.js",Reset:"Restaurar","Reset axes":"Restaurar eixos","Reset camera to default":"Restaurar c\xe2mera para padr\xe3o","Reset camera to last save":"Restaurar c\xe2mera para \xfaltima salva","Reset view":"Restaurar vis\xe3o","Reset views":"Restaurar vis\xf5es","Show closest data on hover":"Exibir dado mais pr\xf3ximo ao pairar","Snapshot succeeded":"Captura instant\xe2nea completa","Sorry, there was a problem downloading your snapshot!":"Desculpe, houve um problema no download de sua captura instant\xe2nea!","Taking snapshot - this may take a few seconds":"Efetuando captura instant\xe2nea - isso pode levar alguns instantes","Toggle Spike Lines":"Habilitar/desabilitar triangula\xe7\xe3o de linhas","Toggle show closest data on hover":"Habilitar/desabilitar exibi\xe7\xe3o de dado mais pr\xf3ximo ao pairar","Turntable rotation":"Rota\xe7\xe3o de mesa",Zoom:"Zoom","Zoom in":"Ampliar zoom","Zoom out":"Reduzir zoom",close:"fechamento",high:"alta","incoming flow count":"contagem de fluxo de entrada",kde:"kde",lat:"latitude",lon:"longitude",low:"baixa","lower fence":"limite inferior",max:"m\xe1ximo","mean \xb1 \u03c3":"m\xe9dia \xb1 \u03c3",mean:"m\xe9dia",median:"mediana",min:"m\xednimo","new text":"novo texto",open:"abertura","outgoing flow count":"contagem de fluxo de sa\xedda",q1:"q1",q3:"q3",source:"origem",target:"destino",trace:"s\xe9rie","upper fence":"limite superior"},format:{days:["Domingo","Segunda-feira","Ter\xe7a-feira","Quarta-feira","Quinta-feira","Sexta-feira","S\xe1bado"],shortDays:["Dom","Seg","Ter","Qua","Qui","Sex","S\xe1b"],months:["Janeiro","Fevereiro","Mar\xe7o","Abril","Maio","Junho","Julho","Agosto","Setembro","Outubro","Novembro","Dezembro"],shortMonths:["Jan","Fev","Mar","Abr","Mai","Jun","Jul","Ago","Set","Out","Nov","Dez"],date:"%d/%m/%Y"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"pt-PT",dictionary:{Autoscale:"Escala autom\xe1tica","Box Select":"Sele\xe7\xe3o retangular","Click to enter Colorscale title":"Clique para editar o t\xedtulo da escala de cor","Click to enter Component A title":"Clique para editar o t\xedtulo do Componente A","Click to enter Component B title":"Clique para editar o t\xedtulo do Componente B","Click to enter Component C title":"Clique para editar o t\xedtulo do Componente C","Click to enter Plot title":"Clique para editar o t\xedtulo do Gr\xe1fico","Click to enter X axis title":"Clique para editar o t\xedtulo do eixo X","Click to enter Y axis title":"Clique para editar o t\xedtulo do eixo Y","Click to enter radial axis title":"Clique para editar o t\xedtulo do eixo radial","Compare data on hover":"Comparar dados ao pairar","Double-click on legend to isolate one trace":"Duplo clique na legenda para isolar uma s\xe9rie","Double-click to zoom back out":"Duplo clique para reverter amplia\xe7\xe3o","Download plot as a png":"Baixar gr\xe1fico como imagem (png)","Download plot":"Baixar gr\xe1fico","Edit in Chart Studio":"Editar no Chart Studio","IE only supports svg. Changing format to svg.":"IE suporta apenas svg. Alterando formato para svg","Lasso Select":"Sele\xe7\xe3o de la\xe7o","Orbital rotation":"Rota\xe7\xe3o orbital",Pan:"Mover","Produced with Plotly.js":"Criado com Plotly.js",Reset:"Restaurar","Reset axes":"Restaurar eixos","Reset camera to default":"Restaurar c\xe2mera para padr\xe3o","Reset camera to last save":"Restaurar c\xe2mera para \xfaltima grava\xe7\xe3o","Reset view":"Restaurar vista","Reset views":"Restaurar vistas","Show closest data on hover":"Exibir dado mais pr\xf3ximo ao pairar","Snapshot succeeded":"Captura instant\xe2nea com sucesso","Sorry, there was a problem downloading your snapshot!":"Desculpe, houve um problema no download de sua captura instant\xe2nea!","Taking snapshot - this may take a few seconds":"Efetuando captura instant\xe2nea - isso pode demorar alguns segundos","Toggle Spike Lines":"Habilitar/desabilitar triangula\xe7\xe3o de linhas","Toggle show closest data on hover":"Habilitar/desabilitar exibi\xe7\xe3o de dado mais pr\xf3ximo ao pairar","Turntable rotation":"Rodar",Zoom:"Ampliar","Zoom in":"Aumentar Amplia\xe7\xe3o","Zoom out":"Reduzir Amplia\xe7\xe3o",close:"fechar",high:"alta","incoming flow count":"contagem de fluxo de entrada",kde:"kde",lat:"latitude",lon:"longitude",low:"baixa","lower fence":"limite inferior",max:"m\xe1ximo","mean \xb1 \u03c3":"m\xe9dia \xb1 \u03c3",mean:"m\xe9dia",median:"mediana",min:"m\xednimo","new text":"novo texto",open:"abrir","outgoing flow count":"contagem de fluxo de sa\xedda",q1:"q1",q3:"q3",source:"origem",target:"destino",trace:"s\xe9rie","upper fence":"limite superior"},format:{days:["domingo","segunda-feira","ter\xe7a-feira","quarta-feira","quinta-feira","sexta-feira","s\xe1bado"],shortDays:["Dom","Seg","Ter","Qua","Qui","Sex","S\xe1b"],months:["Janeiro","Fevereiro","Mar\xe7o","Abril","Maio","Junho","Julho","Agosto","Setembro","Outubro","Novembro","Dezembro"],shortMonths:["Jan","Fev","Mar","Abr","Mai","Jun","Jul","Ago","Set","Out","Nov","Dez"],date:"%d/%m/%Y"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"sv",dictionary:{Autoscale:"Autoskala","Box Select":"V\xe4lj rektangel","Click to enter Colorscale title":"Klicka f\xf6r att ange titel p\xe5 f\xe4rgskala","Click to enter Component A title":"Klicka f\xf6r att ange titel p\xe5 komponent A","Click to enter Component B title":"Klicka f\xf6r att ange titel p\xe5 komponent B","Click to enter Component C title":"Klicka f\xf6r att ange titel p\xe5 komponent C","Click to enter Plot title":"Klicka f\xf6r att ange titel p\xe5 diagram","Click to enter X axis title":"Klicka f\xf6r att ange titel p\xe5 x-axel","Click to enter Y axis title":"Klicka f\xf6r att ange titel p\xe5 y-axel","Click to enter radial axis title":"Klicka f\xf6r att ange titel p\xe5 radiell axel","Compare data on hover":"J\xe4mf\xf6r data n\xe4r muspekaren h\xe5lls \xf6ver","Double-click on legend to isolate one trace":"Dubbelklicka p\xe5 f\xf6rklaringen f\xf6r att visa endast en serie","Double-click to zoom back out":"Dubbelklicka f\xf6r att zooma ut igen","Download plot":"Ladda ner diagram","Download plot as a png":"Ladda ner diagram som png","Edit in Chart Studio":"Editera i Chart Studio","IE only supports svg. Changing format to svg.":"IE st\xf6der enbart svg. Byter format till svg.","Lasso Select":"V\xe4lj lasso","Orbital rotation":"Orbital rotation",Pan:"Panorera","Produced with Plotly.js":"Skapad med Plotly.js",Reset:"\xc5terst\xe4ll","Reset axes":"\xc5terst\xe4ll axlar","Reset camera to default":"\xc5terst\xe4ll kamera till standard","Reset camera to last save":"\xc5terst\xe4ll kamera till senast sparad","Reset view":"\xc5terst\xe4ll vy","Reset views":"\xc5terst\xe4ll vyer","Show closest data on hover":"Visa n\xe4rmaste v\xe4rde n\xe4r muspekaren h\xe5lls \xf6ver","Snapshot succeeded":"Bild skapad","Sorry, there was a problem downloading your snapshot!":"Tyv\xe4rr gick n\xe5got fel vid nedladdning av bild","Taking snapshot - this may take a few seconds":"Skapar bild - detta kan ta n\xe5gra sekunder","Toggle Spike Lines":"Aktivera/Inaktivera topplinjer","Toggle show closest data on hover":"Aktivera/Inaktivera visa n\xe4rmaste v\xe4rde n\xe4r muspekaren h\xe5lls \xf6ver","Turntable rotation":"Platt rotation",Zoom:"Zooma","Zoom in":"Zooma in","Zoom out":"Zooma ut","close:":"st\xe4ngning:","concentration:":"koncentration:","high:":"h\xf6g:","incoming flow count:":"inkommande fl\xf6de summering:","kde:":"kde:","lat:":"lat:","lon:":"lon:","low:":"l\xe5g:","lower fence:":"undre gr\xe4ns:","max:":"max:","mean \xb1 \u03c3:":"medel \xb1 \u03c3:","mean:":"medel:","median:":"median:","min:":"min:","new text":"ny text","open:":"\xf6ppning:","outgoing flow count:":"utg\xe5ende fl\xf6de summering:","q1:":"q1:","q3:":"q3:","source:":"k\xe4lla:","target:":"m\xe5l:",trace:"serie","upper fence:":"\xf6vre gr\xe4ns:"},format:{days:["S\xf6ndag","M\xe5ndag","Tisdag","Onsdag","Torsdag","Fredag","L\xf6rdag"],shortDays:["S\xf6n","M\xe5n","Tis","Ons","Tor","Fre","L\xf6r"],months:["Januari","Februari","Mars","April","Maj","Juni","Juli","Augusti","September","Oktober","November","December"],shortMonths:["Jan","Feb","Mar","Apr","Maj","Jun","Jul","Aug","Sep","Okt","Nov","Dec"],date:"%Y-%m-%d"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"tr",dictionary:{},format:{days:["Pazar","Pazartesi","Sal\u0131","\xc7ar\u015famba","Per\u015fembe","Cuma","Cumartesi"],shortDays:["Pz","Pt","Sa","\xc7a","Pe","Cu","Ct"],months:["Ocak","\u015eubat","Mart","Nisan","May\u0131s","Haziran","Temmuz","A\u011fustos","Eyl\xfcl","Ekim","Kas\u0131m","Aral\u0131k"],shortMonths:["Oca","\u015eub","Mar","Nis","May","Haz","Tem","A\u011fu","Eyl","Eki","Kas","Ara"],date:"%d.%m.%Y"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"uk",dictionary:{Autoscale:"\u0410\u0432\u0442\u043e\u043c\u0430\u0442\u0438\u0447\u043d\u0435 \u0448\u043a\u0430\u043b\u044e\u0432\u0430\u043d\u043d\u044f","Box Select":"\u0412\u0438\u0434\u0456\u043b\u0435\u043d\u043d\u044f \u043f\u0440\u044f\u043c\u043e\u043a\u0443\u0442\u043d\u043e\u0457 \u043e\u0431\u043b\u0430\u0441\u0442\u0456","Click to enter Colorscale title":"\u041d\u0430\u0442\u0438\u0441\u043d\u0456\u0442\u044c \u0434\u043b\u044f \u0432\u0432\u0435\u0434\u0435\u043d\u043d\u044f \u043d\u0430\u0437\u0432\u0438 \u0448\u043a\u0430\u043b\u0438 \u043a\u043e\u043b\u044c\u043e\u0440\u0443","Click to enter Component A title":"\u041d\u0430\u0442\u0438\u0441\u043d\u0456\u0442\u044c \u0434\u043b\u044f \u0432\u0432\u0435\u0434\u0435\u043d\u043d\u044f \u043d\u0430\u0437\u0432\u0438 \u043a\u043e\u043c\u043f\u043e\u043d\u0435\u043d\u0442\u0443 A","Click to enter Component B title":"\u041d\u0430\u0442\u0438\u0441\u043d\u0456\u0442\u044c \u0434\u043b\u044f \u0432\u0432\u0435\u0434\u0435\u043d\u043d\u044f \u043d\u0430\u0437\u0432\u0438 \u043a\u043e\u043c\u043f\u043e\u043d\u0435\u043d\u0442\u0443 B","Click to enter Component C title":"\u041d\u0430\u0442\u0438\u0441\u043d\u0456\u0442\u044c \u0434\u043b\u044f \u0432\u0432\u0435\u0434\u0435\u043d\u043d\u044f \u043d\u0430\u0437\u0432\u0438 \u043a\u043e\u043c\u043f\u043e\u043d\u0435\u043d\u0442\u0443 C","Click to enter Plot title":"\u041d\u0430\u0442\u0438\u0441\u043d\u0456\u0442\u044c \u0434\u043b\u044f \u0432\u0432\u0435\u0434\u0435\u043d\u043d\u044f \u043d\u0430\u0437\u0432\u0438 \u0433\u0440\u0430\u0444\u0456\u043a\u0430","Click to enter X axis title":"\u041d\u0430\u0442\u0438\u0441\u043d\u0456\u0442\u044c \u0434\u043b\u044f \u0432\u0432\u0435\u0434\u0435\u043d\u043d\u044f \u043d\u0430\u0437\u0432\u0438 \u043e\u0441\u0456 X","Click to enter Y axis title":"\u041d\u0430\u0442\u0438\u0441\u043d\u0456\u0442\u044c \u0434\u043b\u044f \u0432\u0432\u0435\u0434\u0435\u043d\u043d\u044f \u043d\u0430\u0437\u0432\u0438 \u043e\u0441\u0456 Y","Click to enter radial axis title":"\u041d\u0430\u0442\u0438\u0441\u043d\u0456\u0442\u044c \u0434\u043b\u044f \u0432\u0432\u0435\u0434\u0435\u043d\u043d\u044f \u043d\u0430\u0437\u0432\u0438 \u043f\u043e\u043b\u044f\u0440\u043d\u043e\u0457 \u043e\u0441\u0456","Compare data on hover":"\u041f\u0440\u0438 \u043d\u0430\u0432\u0435\u0434\u0435\u043d\u043d\u0456 \u043f\u043e\u043a\u0430\u0437\u0443\u0432\u0430\u0442\u0438 \u0432\u0441\u0456 \u0434\u0430\u043d\u0456","Double-click on legend to isolate one trace":"\u0414\u0432\u0456\u0447\u0456 \u043a\u043b\u0430\u0446\u043d\u0456\u0442\u044c \u043f\u043e \u043b\u0435\u0433\u0435\u043d\u0434\u0456 \u0434\u043b\u044f \u0432\u0438\u0434\u0456\u043b\u0435\u043d\u043d\u044f \u043e\u043a\u0440\u0435\u043c\u0438\u0445 \u0434\u0430\u043d\u0438\u0445","Double-click to zoom back out":"\u0414\u043b\u044f \u0432\u0441\u0442\u0430\u043d\u043e\u0432\u043b\u0435\u043d\u043d\u044f \u043c\u0430\u0441\u0448\u0442\u0430\u0431\u0443 \u0437\u043d\u0430\u0447\u0435\u043d\u043d\u044f \u0437\u0430 \u0437\u0430\u043c\u043e\u0432\u0447\u0443\u0432\u0430\u043d\u043d\u044f\u043c \u0434\u0432\u0456\u0447\u0456 \u043a\u043b\u0430\u0446\u043d\u0456\u0442\u044c \u043c\u0438\u0448\u0435\u044e","Download plot":"\u0417\u0431\u0435\u0440\u0435\u0433\u0442\u0438 \u0433\u0440\u0430\u0444\u0456\u043a","Download plot as a png":"\u0417\u0431\u0435\u0440\u0435\u0433\u0442\u0438 \u0443 \u0444\u043e\u0440\u043c\u0430\u0442\u0456 PNG","Edit in Chart Studio":"\u0420\u0435\u0434\u0430\u0433\u0443\u0432\u0430\u0442\u0438 \u0443 Chart Studio","IE only supports svg. Changing format to svg.":"IE \u043f\u0456\u0434\u0442\u0440\u0438\u043c\u0443\u0454 \u043b\u0438\u0448\u0435 svg. \u0424\u043e\u0440\u043c\u0430\u0442 \u0437\u043c\u0456\u043d\u044e\u0454\u0442\u044c\u0441\u044f \u043d\u0430 svg.","Lasso Select":"\u041b\u0430\u0441\u043e","Orbital rotation":"\u0420\u0443\u0445 \u043f\u043e \u043e\u0440\u0431\u0456\u0442\u0456",Pan:"\u0417\u0441\u0443\u0432","Produced with Plotly.js":"\u0421\u0442\u0432\u043e\u0440\u0435\u043d\u043e \u0437\u0430 \u0434\u043e\u043f\u043e\u043c\u043e\u0433\u043e\u044e Plotly.js",Reset:"\u0412\u0441\u0442\u0430\u043d\u043e\u0432\u0438\u0442\u0438 \u0437\u043d\u0430\u0447\u0435\u043d\u043d\u044f \u0437\u0430 \u0437\u0430\u043c\u043e\u0432\u0447\u0443\u0432\u0430\u043d\u043d\u044f\u043c","Reset axes":"\u0412\u0441\u0442\u0430\u043d\u043e\u0432\u0438\u0442\u0438 \u043e\u0441\u044f\u043c \u0437\u043d\u0430\u0447\u0435\u043d\u043d\u044f \u0437\u0430 \u0437\u0430\u043c\u043e\u0432\u0447\u0443\u0432\u0430\u043d\u043d\u044f\u043c","Reset camera to default":"\u0412\u0441\u0442\u0430\u043d\u043e\u0432\u0438\u0442\u0438 \u043a\u0430\u043c\u0435\u0440\u0456 \u0437\u043d\u0430\u0447\u0435\u043d\u043d\u044f \u0437\u0430 \u0437\u0430\u043c\u043e\u0432\u0447\u0443\u0432\u0430\u043d\u043d\u044f\u043c","Reset camera to last save":"\u041f\u043e\u0432\u0435\u0440\u043d\u0443\u0442\u0438 \u043a\u0430\u043c\u0435\u0440\u0443 \u0432 \u043e\u0441\u0442\u0430\u043d\u043d\u0456\u0439 \u0437\u0431\u0435\u0440\u0435\u0436\u0435\u043d\u0438\u0439 \u0441\u0442\u0430\u043d","Reset view":"\u0412\u0441\u0442\u0430\u043d\u043e\u0432\u0438\u0442\u0438 \u0432\u0456\u0434\u043e\u0431\u0440\u0430\u0436\u0435\u043d\u043d\u044e \u0437\u043d\u0430\u0447\u0435\u043d\u043d\u044f \u0437\u0430 \u0437\u0430\u043c\u043e\u0432\u0447\u0443\u0432\u0430\u043d\u043d\u044f\u043c","Reset views":"\u0412\u0441\u0442\u0430\u043d\u043e\u0432\u0438\u0442\u0438 \u0432\u0456\u0434\u043e\u0431\u0440\u0430\u0436\u0435\u043d\u043d\u044f\u043c \u0437\u043d\u0430\u0447\u0435\u043d\u043d\u044f \u0437\u0430 \u0437\u0430\u043c\u043e\u0432\u0447\u0443\u0432\u0430\u043d\u043d\u044f\u043c","Show closest data on hover":"\u041f\u0440\u0438 \u043d\u0430\u0432\u0435\u0434\u0435\u043d\u043d\u0456 \u043f\u043e\u043a\u0430\u0437\u0443\u0432\u0430\u0442\u0438 \u043d\u0430\u0439\u0431\u043b\u0438\u0436\u0447\u0456 \u0434\u0430\u043d\u0456","Snapshot succeeded":"\u0417\u043d\u0456\u043c\u043e\u043a \u0443\u0441\u043f\u0456\u0448\u043d\u043e \u0441\u0442\u0432\u043e\u0440\u0435\u043d\u0438\u0439","Sorry, there was a problem downloading your snapshot!":"\u041d\u0430 \u0436\u0430\u043b\u044c, \u0432\u0438\u043d\u0438\u043a\u043b\u0430 \u043f\u0440\u043e\u0431\u043b\u0435\u043c\u0430 \u043f\u0440\u0438 \u0437\u0431\u0435\u0440\u0435\u0436\u0435\u043d\u043d\u0456 \u0437\u043d\u0456\u043c\u043a\u0443","Taking snapshot - this may take a few seconds":"\u0421\u0442\u0432\u043e\u0440\u044e\u0454\u0442\u044c\u0441\u044f \u0437\u043d\u0456\u043c\u043e\u043a - \u0446\u0435 \u043c\u043e\u0436\u0435 \u0437\u0430\u0439\u043d\u044f\u0442\u0438 \u043a\u0456\u043b\u044c\u043a\u0430 \u0441\u0435\u043a\u0443\u043d\u0434","Toggle Spike Lines":"\u0423\u0432\u0456\u043c\u043a\u043d\u0443\u0442\u0438/\u0432\u0438\u043c\u043a\u043d\u0443\u0442\u0438 \u0432\u0456\u0434\u043e\u0431\u0440\u0430\u0436\u0435\u043d\u043d\u044f \u043b\u0456\u043d\u0456\u0439 \u043f\u0440\u043e\u0435\u043a\u0446\u0456\u0439 \u0442\u043e\u0447\u043e\u043a","Toggle show closest data on hover":"\u0423\u0432\u0456\u043c\u043a\u043d\u0443\u0442\u0438/\u0432\u0438\u043c\u043a\u043d\u0443\u0442\u0438 \u0432\u0456\u0434\u043e\u0431\u0440\u0430\u0436\u0435\u043d\u043d\u044f \u043d\u0430\u0439\u0431\u043b\u0438\u0436\u0447\u0438\u0445 \u0434\u0430\u043d\u0438\u0445 \u043f\u0440\u0438 \u043d\u0430\u0432\u0435\u0434\u0435\u043d\u043d\u0456","Turntable rotation":"\u041e\u0431\u0435\u0440\u0442\u0430\u043d\u043d\u044f \u043d\u0430 \u043f\u043e\u0432\u043e\u0440\u043e\u0442\u043d\u043e\u043c\u0443 \u0441\u0442\u043e\u043b\u0456",Zoom:"\u0417\u0443\u043c","Zoom in":"\u0417\u0431\u0456\u043b\u044c\u0448\u0438\u0442\u0438","Zoom out":"\u0417\u043c\u0435\u043d\u0448\u0438\u0442\u0438","close:":"\u0417\u0430\u043a\u0440\u0438\u0442\u0442\u044f:","concentration:":"\u041a\u043e\u043d\u0446\u0435\u043d\u0442\u0440\u0430\u0446\u0456\u044f:","high:":"\u041c\u0430\u043a\u0441\u0438\u043c\u0443\u043c:","incoming flow count:":"\u041a\u0456\u043b\u044c\u043a\u0456\u0441\u0442\u044c \u0432\u0445\u0456\u0434\u043d\u0438\u0445 \u0437\u0432'\u044f\u0437\u043a\u0456\u0432:","kde:":"\u042f\u0434\u0440\u043e\u0432\u0430 \u043e\u0446\u0456\u043d\u043a\u0430 \u0433\u0443\u0441\u0442\u0438\u043d\u0438 \u0440\u043e\u0437\u043f\u043e\u0434\u0456\u043b\u0443:","lat:":"\u0428\u0438\u0440\u043e\u0442\u0430:","lon:":"\u0414\u043e\u0432\u0433\u043e\u0442\u0430:","low:":"\u041c\u0456\u043d\u0456\u043c\u0443\u043c:","lower fence:":"\u041d\u0438\u0436\u043d\u044f \u0433\u0440\u0430\u043d\u0438\u0446\u044f:","max:":"\u041c\u0430\u043a\u0441.:","mean \xb1 \u03c3:":"\u0421\u0435\u0440\u0435\u0434\u043d\u0454 \xb1 \u03c3:","mean:":"\u0421\u0435\u0440\u0435\u0434\u043d\u0454:","median:":"\u041c\u0435\u0434\u0456\u0430\u043d\u0430:","min:":"\u041c\u0456\u043d.:","new text":"\u041d\u043e\u0432\u0438\u0439 \u0442\u0435\u043a\u0441\u0442","open:":"\u0412\u0456\u0434\u043a\u0440\u0438\u0442\u0442\u044f:","outgoing flow count:":"\u041a\u0456\u043b\u044c\u043a\u0456\u0441\u0442\u044c \u0432\u0438\u0445\u0456\u0434\u043d\u0438\u0445 \u0437\u0432'\u044f\u0437\u043a\u0456\u0432:","q1:":"q1:","q3:":"q3:","source:":"\u0414\u0436\u0435\u0440\u0435\u043b\u043e:","target:":"\u0426\u0456\u043b\u044c:",trace:"\u0420\u044f\u0434","upper fence:":"\u0412\u0435\u0440\u0445\u043d\u044f \u0433\u0440\u0430\u043d\u0438\u0446\u044f:"},format:{days:["\u043d\u0435\u0434\u0456\u043b\u044f","\u043f\u043e\u043d\u0435\u0434\u0456\u043b\u043e\u043a","\u0432\u0456\u0432\u0442\u043e\u0440\u043e\u043a","\u0441\u0435\u0440\u0435\u0434\u0430","\u0447\u0435\u0442\u0432\u0435\u0440","\u043f'\u044f\u0442\u043d\u0438\u0446\u044f","\u0441\u0443\u0431\u043e\u0442\u0430"],shortDays:["\u043d\u0434","\u043f\u043d","\u0432\u0442","\u0441\u0440","\u0447\u0442","\u043f\u0442","\u0441\u0431"],months:["\u0421\u0456\u0447\u0435\u043d\u044c","\u041b\u044e\u0442\u0438\u0439","\u0411\u0435\u0440\u0435\u0437\u0435\u043d\u044c","\u041a\u0432\u0456\u0442\u0435\u043d\u044c","\u0422\u0440\u0430\u0432\u0435\u043d\u044c","\u0427\u0435\u0440\u0432\u0435\u043d\u044c","\u041b\u0438\u043f\u0435\u043d\u044c","\u0421\u0435\u0440\u043f\u0435\u043d\u044c","\u0412\u0435\u0440\u0435\u0441\u0435\u043d\u044c","\u0416\u043e\u0432\u0442\u0435\u043d\u044c","\u041b\u0438\u0441\u0442\u043e\u043f\u0430\u0434","\u0413\u0440\u0443\u0434\u0435\u043d\u044c"],shortMonths:["\u0421\u0456\u0447.","\u041b\u044e\u0442.","\u0411\u0435\u0440\u0435\u0437.","\u041a\u0432\u0456\u0442.","\u0422\u0440\u0430\u0432.","\u0427\u0435\u0440\u0432.","\u041b\u0438\u043f.","\u0421\u0435\u0440\u043f.","\u0412\u0435\u0440\u0435\u0441.","\u0416\u043e\u0432\u0442.","\u041b\u0438\u0441\u0442\u043e\u043f.","\u0413\u0440\u0443\u0434."],date:"%d.%m.%Y",decimal:",",thousands:" "}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale); var locale={moduleType:"locale",name:"zh-CN",dictionary:{Autoscale:"\u81ea\u52a8\u7f29\u653e","Box Select":"\u77e9\u5f62\u6846\u9009","Click to enter Colorscale title":"\u70b9\u51fb\u8f93\u5165\u8272\u9636\u7684\u6807\u9898","Click to enter Component A title":"\u70b9\u51fb\u8f93\u5165\u7ec4\u4ef6A\u7684\u6807\u9898","Click to enter Component B title":"\u70b9\u51fb\u8f93\u5165\u7ec4\u4ef6B\u7684\u6807\u9898","Click to enter Component C title":"\u70b9\u51fb\u8f93\u5165\u7ec4\u4ef6C\u7684\u6807\u9898","Click to enter Plot title":"\u70b9\u51fb\u8f93\u5165\u56fe\u8868\u7684\u6807\u9898","Click to enter X axis title":"\u70b9\u51fb\u8f93\u5165X\u8f74\u7684\u6807\u9898","Click to enter Y axis title":"\u70b9\u51fb\u8f93\u5165Y\u8f74\u7684\u6807\u9898","Compare data on hover":"\u60ac\u505c\u65f6\u6bd4\u8f83\u6570\u636e","Double-click on legend to isolate one trace":"\u53cc\u51fb\u56fe\u4f8b\u6765\u7a81\u663e\u5bf9\u5e94\u8f68\u8ff9","Double-click to zoom back out":"\u53cc\u51fb\u8fd4\u56de\u7f29\u5c0f\u663e\u793a","Download plot as a png":"\u4e0b\u8f7d\u56fe\u8868\u4e3aPNG\u683c\u5f0f","Download plot":"\u4e0b\u8f7d\u56fe\u8868","Edit in Chart Studio":"\u5728Chart Studio\u4e2d\u7f16\u8f91","IE only supports svg. Changing format to svg.":"IE\u53ea\u652f\u6301SVG\u3002\u8f6c\u6362\u683c\u5f0f\u4e3aSVG\u3002","Lasso Select":"\u5957\u7d22\u9009\u62e9","Orbital rotation":"\u8f68\u9053\u65cb\u8f6c",Pan:"\u5e73\u79fb","Produced with Plotly.js":"\u7531Plotly.js\u751f\u6210",Reset:"\u91cd\u7f6e","Reset axes":"\u91cd\u7f6e\u8f74","Reset camera to default":"\u91cd\u7f6e\u955c\u5934\u89c6\u89d2\u4e3a\u9ed8\u8ba4\u72b6\u6001","Reset camera to last save":"\u91cd\u7f6e\u955c\u5934\u89c6\u89d2\u4e3a\u4e0a\u6b21\u4fdd\u5b58\u72b6\u6001","Reset view":"\u91cd\u7f6e\u89c6\u56fe","Reset views":"\u91cd\u7f6e\u89c6\u56fe","Show closest data on hover":"\u60ac\u505c\u65f6\u663e\u793a\u6700\u8fd1\u7684\u6570\u636e","Snapshot succeeded":"\u751f\u6210\u5feb\u7167\u6210\u529f","Sorry, there was a problem downloading your snapshot!":"\u62b1\u6b49\uff0c\u4e0b\u8f7d\u5feb\u7167\u51fa\u73b0\u95ee\u9898\uff01","Taking snapshot - this may take a few seconds":"\u6b63\u5728\u751f\u6210\u5feb\u7167 - \u53ef\u80fd\u9700\u8981\u51e0\u79d2\u949f",Zoom:"\u7f29\u653e","Zoom in":"\u653e\u5927","Zoom out":"\u7f29\u5c0f","close:":"\u5173\u95ed:",trace:"\u8e2a\u8ff9:","lat:":"\u7eac\u5ea6:","lon:":"\u7ecf\u5ea6:","q1:":"\u7b2c\u4e00\u56db\u5206\u4f4d\u6570:","q3:":"\u7b2c\u4e09\u56db\u5206\u4f4d\u6570:","source:":"\u6e90:","target:":"\u76ee\u6807:","lower fence:":"\u5185\u4fa7\u680f(lower fence):","upper fence:":"\u5916\u4fa7\u680f(upper fence):","max:":"\u6700\u5927\u503c:","mean \xb1 \u03c3:":"\u5e73\u5747\u6570 \xb1 \u6807\u51c6\u5dee\u03c3:","mean:":"\u5e73\u5747\u6570:","median:":"\u4e2d\u4f4d\u6570:","min:":"\u6700\u5c0f\u503c:","Turntable rotation":"\u65cb\u8f6c\u8f6c\u76d8:","Toggle Spike Lines":"\u5207\u6362\u663e\u793a\u6570\u636e\u70b9\u8f85\u52a9\u7ebf(Spike Lines)","open:":"\u6253\u5f00:","high:":"\u9ad8:","low:":"\u4f4e:","Toggle show closest data on hover":"\u5207\u6362\u60ac\u505c\u65f6\u663e\u793a\u6700\u8fd1\u7684\u6570\u636e\u70b9","incoming flow count:":"\u6d41\u5165\u6570\u91cf:","outgoing flow count:":"\u6d41\u51fa\u6570\u91cf:","kde:":"kde:","Click to enter radial axis title":"\u70b9\u51fb\u8f93\u5165\u5f84\u5411\u8f74\u6807\u9898","new text":"\u65b0\u5efa\u6587\u672c"},format:{days:["\u661f\u671f\u65e5","\u661f\u671f\u4e00","\u661f\u671f\u4e8c","\u661f\u671f\u4e09","\u661f\u671f\u56db","\u661f\u671f\u4e94","\u661f\u671f\u516d"],shortDays:["\u5468\u65e5","\u5468\u4e00","\u5468\u4e8c","\u5468\u4e09","\u5468\u56db","\u5468\u4e94","\u5468\u516d"],months:["\u4e00\u6708","\u4e8c\u6708","\u4e09\u6708","\u56db\u6708","\u4e94\u6708","\u516d\u6708","\u4e03\u6708","\u516b\u6708","\u4e5d\u6708","\u5341\u6708","\u5341\u4e00\u6708","\u5341\u4e8c\u6708"],shortMonths:["\u4e00","\u4e8c","\u4e09","\u56db","\u4e94","\u516d","\u4e03","\u516b","\u4e5d","\u5341","\u5341\u4e00","\u5341\u4e8c"],date:"%Y-%m-%d"}};"undefined"==typeof Plotly?(window.PlotlyLocales=window.PlotlyLocales||[],window.PlotlyLocales.push(locale)):Plotly.register(locale);