winamp/Src/external_dependencies/openmpt-trunk/mptrack/PatternCursor.h

370 lines
9.0 KiB
C++

/*
* PatternCursor.h
* ---------------
* Purpose: Class for storing pattern cursor information.
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#pragma once
#include "openmpt/all/BuildSettings.hpp"
#include "../soundlib/Snd_defs.h"
OPENMPT_NAMESPACE_BEGIN
class PatternCursor
{
friend class PatternRect;
public:
enum Columns
{
firstColumn = 0,
noteColumn = firstColumn,
instrColumn,
volumeColumn,
effectColumn,
paramColumn,
lastColumn = paramColumn,
};
protected:
// Pattern cursor structure (MSB to LSB):
// | 16 bits - row | 13 bits - channel | 3 bits - channel component |
// As you can see, the highest 16 bits contain a row index.
// It is followed by a channel index, which is 13 bits wide.
// The lowest 3 bits are used for addressing the components of a channel.
// They are *not* used as a bit set, but treated as one of the Columns enum entries that can be found above.
uint32 cursor;
static_assert(MAX_BASECHANNELS <= 0x1FFF, "Check: Channel index in class PatternCursor is only 13 bits wide!");
static_assert(MAX_PATTERN_ROWS <= 0xFFFF, "Check: Row index in class PatternCursor is only 16 bits wide!");
public:
// Construct cursor from given coordinates.
PatternCursor(ROWINDEX row = 0, CHANNELINDEX channel = 0, Columns column = firstColumn)
{
Set(row, channel, column);
};
// Construct cursor from a given row and another cursor's horizontal position (channel + column).
PatternCursor(ROWINDEX row, const PatternCursor &other)
{
Set(row, other);
};
// Get the pattern row the cursor is located in.
ROWINDEX GetRow() const
{
return static_cast<ROWINDEX>(cursor >> 16);
};
// Get the pattern channel the cursor is located in.
CHANNELINDEX GetChannel() const
{
return static_cast<CHANNELINDEX>((cursor & 0xFFFF) >> 3);
};
// Get the pattern channel column the cursor is located in.
Columns GetColumnType() const
{
return static_cast<Columns>((cursor & 0x07));
};
// Set the cursor to given coordinates.
void Set(ROWINDEX row, CHANNELINDEX channel, Columns column = firstColumn)
{
cursor = (row << 16) | ((channel << 3) & 0x1FFF) | (column & 0x07);
};
// Set the cursor to the same position as another curosr.
void Set(const PatternCursor &other)
{
*this = other;
};
// Set the cursor to a given row and another cursor's horizontal position (channel + column).
void Set(ROWINDEX row, const PatternCursor &other)
{
cursor = (row << 16) | (other.cursor & 0xFFFF);
};
// Only update the row of a cursor.
void SetRow(ROWINDEX row)
{
Set(row, *this);
};
// Only update the horizontal position of a cursor.
void SetColumn(CHANNELINDEX chn, Columns col)
{
Set(GetRow(), chn, col);
};
// Move the cursor relatively.
void Move(int rows, int channels, int columns)
{
int row = std::max(int(0), static_cast<int>(GetRow()) + rows);
int chn = static_cast<int>(GetChannel()) + channels;
int col = static_cast<int>(GetColumnType() + columns);
// Boundary checking
if(chn < 0)
{
// Moving too far left
chn = 0;
col = firstColumn;
}
if(col < firstColumn)
{
// Extending beyond first column
col = lastColumn;
chn--;
} else if(col > lastColumn)
{
// Extending beyond last column
col = firstColumn;
chn++;
}
Set(static_cast<ROWINDEX>(row), static_cast<CHANNELINDEX>(chn), static_cast<Columns>(col));
}
// Remove the channel column type from the cursor position.
void RemoveColType()
{
cursor &= ~0x07;
}
// Compare the row of two cursors.
// Returns -1 if this cursor is above of the other cursor,
// 1 if it is below of the other cursor and 0 if they are at the same vertical position.
int CompareRow(const PatternCursor &other) const
{
if(GetRow() < other.GetRow()) return -1;
if(GetRow() > other.GetRow()) return 1;
return 0;
}
// Compare the column (channel + sub column) of two cursors.
// Returns -1 if this cursor is left of the other cursor,
// 1 if it is right of the other cursor and 0 if they are at the same horizontal position.
int CompareColumn(const PatternCursor &other) const
{
if((cursor & 0xFFFF) < (other.cursor & 0xFFFF)) return -1;
if((cursor & 0xFFFF) > (other.cursor & 0xFFFF)) return 1;
return 0;
}
// Check whether the cursor is placed on the first channel and first column.
bool IsInFirstColumn() const
{
return (cursor & 0xFFFF) == 0;
}
// Ensure that the point lies within a given pattern size.
void Sanitize(ROWINDEX maxRows, CHANNELINDEX maxChans)
{
ROWINDEX row = std::min(GetRow(), static_cast<ROWINDEX>(maxRows - 1));
CHANNELINDEX chn = GetChannel();
Columns col = GetColumnType();
if(chn >= maxChans)
{
chn = maxChans - 1;
col = lastColumn;
} else if(col > lastColumn)
{
col = lastColumn;
}
Set(row, chn, col);
};
bool operator == (const PatternCursor &other) const
{
return cursor == other.cursor;
}
bool operator != (const PatternCursor &other) const
{
return !(*this == other);
}
};
class PatternRect
{
protected:
PatternCursor upperLeft, lowerRight;
public:
// Construct selection from two pattern cursors.
PatternRect(const PatternCursor &p1, const PatternCursor &p2)
{
if(p1.CompareColumn(p2) <= 0)
{
upperLeft.cursor = (p1.cursor & 0xFFFF);
lowerRight.cursor = (p2.cursor & 0xFFFF);
} else
{
upperLeft.cursor = (p2.cursor & 0xFFFF);
lowerRight.cursor = (p1.cursor & 0xFFFF);
}
if(p1.CompareRow(p2) <= 0)
{
upperLeft.cursor |= (p1.GetRow() << 16);
lowerRight.cursor |= (p2.GetRow() << 16);
} else
{
upperLeft.cursor |= (p2.GetRow() << 16);
lowerRight.cursor |= (p1.GetRow() << 16);
}
};
// Construct empty rect.
PatternRect()
{
upperLeft.Set(0);
lowerRight.Set(0);
}
// Return upper-left corner of selection.
PatternCursor GetUpperLeft() const
{
return upperLeft;
};
// Return lower-right corner of selection.
PatternCursor GetLowerRight() const
{
return lowerRight;
};
// Check if a given point is within the horizontal boundaries of the rect
bool ContainsHorizontal(const PatternCursor &point) const
{
return point.CompareColumn(upperLeft) >= 0 && point.CompareColumn(lowerRight) <= 0;
}
// Check if a given point is within the vertical boundaries of the rect
bool ContainsVertical(const PatternCursor &point) const
{
return point.CompareRow(upperLeft) >= 0 && point.CompareRow(lowerRight) <= 0;
}
// Check if a given point is within the rect
bool Contains(const PatternCursor &point) const
{
return ContainsHorizontal(point) && ContainsVertical(point);
}
// Ensure that the selection doesn't exceed a given pattern size.
void Sanitize(ROWINDEX maxRows, CHANNELINDEX maxChans)
{
upperLeft.Sanitize(maxRows, maxChans);
lowerRight.Sanitize(maxRows, maxChans);
};
// Get first row of selection
ROWINDEX GetStartRow() const
{
ASSERT(upperLeft.GetRow() <= lowerRight.GetRow());
return upperLeft.GetRow();
}
// Get last row of selection
ROWINDEX GetEndRow() const
{
ASSERT(upperLeft.GetRow() <= lowerRight.GetRow());
return lowerRight.GetRow();
}
// Get first channel of selection
CHANNELINDEX GetStartChannel() const
{
ASSERT(upperLeft.GetChannel() <= lowerRight.GetChannel());
return upperLeft.GetChannel();
}
// Get last channel of selection
CHANNELINDEX GetEndChannel() const
{
ASSERT(upperLeft.GetChannel() <= lowerRight.GetChannel());
return lowerRight.GetChannel();
}
PatternCursor::Columns GetStartColumn() const
{
ASSERT((upperLeft.cursor & 0xFFFF) <= (lowerRight.cursor & 0xFFFF));
return upperLeft.GetColumnType();
}
PatternCursor::Columns GetEndColumn() const
{
ASSERT((upperLeft.cursor & 0xFFFF) <= (lowerRight.cursor & 0xFFFF));
return lowerRight.GetColumnType();
}
// Create a bitset of the selected columns of a channel. If a column is selected, the corresponding bit is set.
// Example: If the first and second column of the channel are selected, the bits 00000011 would be returned.
uint8 GetSelectionBits(CHANNELINDEX chn) const
{
const CHANNELINDEX startChn = GetStartChannel(), endChn = GetEndChannel();
uint8 bits = 0;
if(chn >= startChn && chn <= endChn)
{
// All columns could be selected (unless this is the first or last channel).
bits = uint8_max;
if(chn == startChn)
{
// First channel: Remove columns left of the start column type.
bits <<= GetUpperLeft().GetColumnType();
}
if(chn == endChn)
{
// Last channel: Remove columns right of the end column type.
bits &= (2 << GetLowerRight().GetColumnType()) - 1;
}
}
return (bits & 0x1F);
}
// Get number of rows in selection
ROWINDEX GetNumRows() const
{
ASSERT(upperLeft.GetRow() <= lowerRight.GetRow());
return 1 + GetEndRow() - GetStartRow();
}
// Get number of channels in selection
CHANNELINDEX GetNumChannels() const
{
ASSERT(upperLeft.GetChannel() <= lowerRight.GetChannel());
return 1 + GetEndChannel() - GetStartChannel();
}
bool operator == (const PatternRect &other) const
{
return upperLeft == other.upperLeft && lowerRight == other.lowerRight;
}
};
OPENMPT_NAMESPACE_END