"DATE_FORMAT({$table_name}.date_created, '%Y-%m-%d %H')", 'day' => "DATE_FORMAT({$table_name}.date_created, '%Y-%m-%d')", 'week' => $week_format, 'month' => "DATE_FORMAT({$table_name}.date_created, '%Y-%m')", 'quarter' => "CONCAT(YEAR({$table_name}.date_created), '-', QUARTER({$table_name}.date_created))", 'year' => "YEAR({$table_name}.date_created)", ); return $mysql_date_format_mapping[ $time_interval ]; } /** * Returns quarter for the DateTime. * * @param DateTime $datetime Date & time. * @return int|null */ public static function quarter( $datetime ) { switch ( (int) $datetime->format( 'm' ) ) { case 1: case 2: case 3: return 1; case 4: case 5: case 6: return 2; case 7: case 8: case 9: return 3; case 10: case 11: case 12: return 4; } return null; } /** * Returns simple week number for the DateTime, for week starting on $first_day_of_week. * * The first week of the year is considered to be the week containing January 1. * The second week starts on the next $first_day_of_week. * * @param DateTime $datetime Date for which the week number is to be calculated. * @param int $first_day_of_week 0 for Sunday to 6 for Saturday. * @return int */ public static function simple_week_number( $datetime, $first_day_of_week ) { $beg_of_year_day = new DateTime( "{$datetime->format('Y')}-01-01" ); $adj_day_beg_of_year = ( (int) $beg_of_year_day->format( 'w' ) - $first_day_of_week + 7 ) % 7; $days_since_start_of_year = (int) $datetime->format( 'z' ) + 1; return (int) floor( ( ( $days_since_start_of_year + $adj_day_beg_of_year - 1 ) / 7 ) ) + 1; } /** * Returns ISO 8601 week number for the DateTime, if week starts on Monday, * otherwise returns simple week number. * * @see WC_Admin_Reports_Interval::simple_week_number() * * @param DateTime $datetime Date for which the week number is to be calculated. * @param int $first_day_of_week 0 for Sunday to 6 for Saturday. * @return int */ public static function week_number( $datetime, $first_day_of_week ) { if ( 1 === $first_day_of_week ) { $week_number = (int) $datetime->format( 'W' ); } else { $week_number = self::simple_week_number( $datetime, $first_day_of_week ); } return $week_number; } /** * Returns time interval id for the DateTime. * * @param string $time_interval Time interval type (week, day, etc). * @param DateTime $datetime Date & time. * @return string */ public static function time_interval_id( $time_interval, $datetime ) { // Whenever this is changed, double check method db_datetime_format to make sure they are in sync. $php_time_format_for = array( 'hour' => 'Y-m-d H', 'day' => 'Y-m-d', 'week' => 'o-W', 'month' => 'Y-m', 'quarter' => 'Y-' . self::quarter( $datetime ), 'year' => 'Y', ); // If the week does not begin on Monday. $first_day_of_week = absint( get_option( 'start_of_week' ) ); if ( 'week' === $time_interval && 1 !== $first_day_of_week ) { $week_no = self::simple_week_number( $datetime, $first_day_of_week ); $week_no = str_pad( $week_no, 2, '0', STR_PAD_LEFT ); $year_no = $datetime->format( 'Y' ); return "$year_no-$week_no"; } return $datetime->format( $php_time_format_for[ $time_interval ] ); } /** * Calculates number of time intervals between two dates, closed interval on both sides. * * @param string $start Start date & time. * @param string $end End date & time. * @param string $interval Time interval increment, e.g. hour, day, week. * @return int */ public static function intervals_between( $start, $end, $interval ) { $start_datetime = new DateTime( $start ); $end_datetime = new DateTime( $end ); switch ( $interval ) { case 'hour': $end_timestamp = (int) $end_datetime->format( 'U' ); $start_timestamp = (int) $start_datetime->format( 'U' ); $addendum = 0; $end_min_sec = $end_timestamp % HOUR_IN_SECONDS; $start_min_sec = $start_timestamp % HOUR_IN_SECONDS; if ( $end_min_sec < $start_min_sec ) { $addendum = 1; } $diff_timestamp = $end_timestamp - $start_timestamp; return (int) floor( ( (int) $diff_timestamp ) / HOUR_IN_SECONDS ) + 1 + $addendum; case 'day': $end_timestamp = (int) $end_datetime->format( 'U' ); $start_timestamp = (int) $start_datetime->format( 'U' ); $addendum = 0; $end_hour_min_sec = $end_timestamp % DAY_IN_SECONDS; $start_hour_min_sec = $start_timestamp % DAY_IN_SECONDS; if ( $end_hour_min_sec < $start_hour_min_sec ) { $addendum = 1; } $diff_timestamp = $end_timestamp - $start_timestamp; return (int) floor( ( (int) $diff_timestamp ) / DAY_IN_SECONDS ) + 1 + $addendum; case 'week': // TODO: optimize? approximately day count / 7, but year end is tricky, a week can have fewer days. $week_count = 0; do { $start_datetime = self::next_week_start( $start_datetime ); $week_count++; } while ( $start_datetime <= $end_datetime ); return $week_count; case 'month': // Year diff in months: (end_year - start_year - 1) * 12. $year_diff_in_months = ( (int) $end_datetime->format( 'Y' ) - (int) $start_datetime->format( 'Y' ) - 1 ) * 12; // All the months in end_date year plus months from X to 12 in the start_date year. $month_diff = (int) $end_datetime->format( 'n' ) + ( 12 - (int) $start_datetime->format( 'n' ) ); // Add months for number of years between end_date and start_date. $month_diff += $year_diff_in_months + 1; return $month_diff; case 'quarter': // Year diff in quarters: (end_year - start_year - 1) * 4. $year_diff_in_quarters = ( (int) $end_datetime->format( 'Y' ) - (int) $start_datetime->format( 'Y' ) - 1 ) * 4; // All the quarters in end_date year plus quarters from X to 4 in the start_date year. $quarter_diff = self::quarter( $end_datetime ) + ( 4 - self::quarter( $start_datetime ) ); // Add quarters for number of years between end_date and start_date. $quarter_diff += $year_diff_in_quarters + 1; return $quarter_diff; case 'year': $year_diff = (int) $end_datetime->format( 'Y' ) - (int) $start_datetime->format( 'Y' ); return $year_diff + 1; } return 0; } /** * Returns a new DateTime object representing the next hour start/previous hour end if reversed. * * @param DateTime $datetime Date and time. * @param bool $reversed Going backwards in time instead of forward. * @return DateTime */ public static function next_hour_start( $datetime, $reversed = false ) { $hour_increment = $reversed ? 0 : 1; $timestamp = (int) $datetime->format( 'U' ); $hours_offset_timestamp = ( floor( $timestamp / HOUR_IN_SECONDS ) + $hour_increment ) * HOUR_IN_SECONDS; if ( $reversed ) { $hours_offset_timestamp --; } $hours_offset_time = new DateTime(); $hours_offset_time->setTimestamp( $hours_offset_timestamp ); return $hours_offset_time; } /** * Returns a new DateTime object representing the next day start, or previous day end if reversed. * * @param DateTime $datetime Date and time. * @param bool $reversed Going backwards in time instead of forward. * @return DateTime */ public static function next_day_start( $datetime, $reversed = false ) { $day_increment = $reversed ? -1 : 1; $timestamp = (int) $datetime->format( 'U' ); $next_day_timestamp = ( floor( $timestamp / DAY_IN_SECONDS ) + $day_increment ) * DAY_IN_SECONDS; $next_day = new DateTime(); $next_day->setTimestamp( $next_day_timestamp ); // The day boundary is actually next midnight when going in reverse, so set it to day -1 at 23:59:59. if ( $reversed ) { $timestamp = (int) $next_day->format( 'U' ); $end_of_day_timestamp = floor( $timestamp / DAY_IN_SECONDS ) * DAY_IN_SECONDS + DAY_IN_SECONDS - 1; $next_day->setTimestamp( $end_of_day_timestamp ); } return $next_day; } /** * Returns DateTime object representing the next week start, or previous week end if reversed. * * @param DateTime $datetime Date and time. * @param bool $reversed Going backwards in time instead of forward. * @return DateTime */ public static function next_week_start( $datetime, $reversed = false ) { $first_day_of_week = absint( get_option( 'start_of_week' ) ); $initial_week_no = self::week_number( $datetime, $first_day_of_week ); do { $datetime = self::next_day_start( $datetime, $reversed ); $current_week_no = self::week_number( $datetime, $first_day_of_week ); } while ( $current_week_no === $initial_week_no ); // The week boundary is actually next midnight when going in reverse, so set it to day -1 at 23:59:59. if ( $reversed ) { $timestamp = (int) $datetime->format( 'U' ); $end_of_day_timestamp = floor( $timestamp / DAY_IN_SECONDS ) * DAY_IN_SECONDS + DAY_IN_SECONDS - 1; $datetime->setTimestamp( $end_of_day_timestamp ); } return $datetime; } /** * Returns a new DateTime object representing the next month start, or previous month end if reversed. * * @param DateTime $datetime Date and time. * @param bool $reversed Going backwards in time instead of forward. * @return DateTime */ public static function next_month_start( $datetime, $reversed = false ) { $month_increment = 1; $year = $datetime->format( 'Y' ); $month = (int) $datetime->format( 'm' ); if ( $reversed ) { $beg_of_month_datetime = new DateTime( "$year-$month-01 00:00:00" ); $timestamp = (int) $beg_of_month_datetime->format( 'U' ); $end_of_prev_month_timestamp = $timestamp - 1; $datetime->setTimestamp( $end_of_prev_month_timestamp ); } else { $month += $month_increment; if ( $month > 12 ) { $month = 1; $year ++; } $day = '01'; $datetime = new DateTime( "$year-$month-$day 00:00:00" ); } return $datetime; } /** * Returns a new DateTime object representing the next quarter start, or previous quarter end if reversed. * * @param DateTime $datetime Date and time. * @param bool $reversed Going backwards in time instead of forward. * @return DateTime */ public static function next_quarter_start( $datetime, $reversed = false ) { $year = $datetime->format( 'Y' ); $month = (int) $datetime->format( 'n' ); switch ( $month ) { case 1: case 2: case 3: if ( $reversed ) { $month = 1; } else { $month = 4; } break; case 4: case 5: case 6: if ( $reversed ) { $month = 4; } else { $month = 7; } break; case 7: case 8: case 9: if ( $reversed ) { $month = 7; } else { $month = 10; } break; case 10: case 11: case 12: if ( $reversed ) { $month = 10; } else { $month = 1; $year ++; } break; } $datetime = new DateTime( "$year-$month-01 00:00:00" ); if ( $reversed ) { $timestamp = (int) $datetime->format( 'U' ); $end_of_prev_month_timestamp = $timestamp - 1; $datetime->setTimestamp( $end_of_prev_month_timestamp ); } return $datetime; } /** * Return a new DateTime object representing the next year start, or previous year end if reversed. * * @param DateTime $datetime Date and time. * @param bool $reversed Going backwards in time instead of forward. * @return DateTime */ public static function next_year_start( $datetime, $reversed = false ) { $year_increment = 1; $year = (int) $datetime->format( 'Y' ); $month = '01'; $day = '01'; if ( $reversed ) { $datetime = new DateTime( "$year-$month-$day 00:00:00" ); $timestamp = (int) $datetime->format( 'U' ); $end_of_prev_year_timestamp = $timestamp - 1; $datetime->setTimestamp( $end_of_prev_year_timestamp ); } else { $year += $year_increment; $datetime = new DateTime( "$year-$month-$day 00:00:00" ); } return $datetime; } /** * Returns beginning of next time interval for provided DateTime. * * E.g. for current DateTime, beginning of next day, week, quarter, etc. * * @param DateTime $datetime Date and time. * @param string $time_interval Time interval, e.g. week, day, hour. * @param bool $reversed Going backwards in time instead of forward. * @return DateTime */ public static function iterate( $datetime, $time_interval, $reversed = false ) { // $result_datetime = // $result_timestamp_adjusted = $result_datetime->format( 'U' ) - 1; // $result_datetime->setTimestamp( $result_timestamp_adjusted ); return call_user_func( array( __CLASS__, "next_{$time_interval}_start" ), $datetime, $reversed ); } /** * Returns expected number of items on the page in case of date ordering. * * @param int $expected_interval_count Expected number of intervals in total. * @param int $items_per_page Number of items per page. * @param int $page_no Page number. * * @return float|int */ public static function expected_intervals_on_page( $expected_interval_count, $items_per_page, $page_no ) { $total_pages = (int) ceil( $expected_interval_count / $items_per_page ); if ( $page_no < $total_pages ) { return $items_per_page; } elseif ( $page_no === $total_pages ) { return $expected_interval_count - ( $page_no - 1 ) * $items_per_page; } else { return 0; } } /** * Returns true if there are any intervals that need to be filled in the response. * * @param int $expected_interval_count Expected number of intervals in total. * @param int $db_records Total number of records for given period in the database. * @param int $items_per_page Number of items per page. * @param int $page_no Page number. * @param string $order asc or desc. * @param string $order_by Column by which the result will be sorted. * @param int $intervals_count Number of records for given (possibly shortened) time interval. * * @return bool */ public static function intervals_missing( $expected_interval_count, $db_records, $items_per_page, $page_no, $order, $order_by, $intervals_count ) { if ( $expected_interval_count > $db_records ) { if ( 'date' === $order_by ) { $expected_intervals_on_page = self::expected_intervals_on_page( $expected_interval_count, $items_per_page, $page_no ); if ( $intervals_count < $expected_intervals_on_page ) { return true; } else { return false; } } else { if ( 'desc' === $order ) { if ( $page_no > floor( $db_records / $items_per_page ) ) { return true; } else { return false; } } elseif ( 'asc' === $order ) { if ( $page_no <= ceil( ( $expected_interval_count - $db_records ) / $items_per_page ) ) { return true; } else { return false; } } else { // Invalid ordering. return false; } } } else { return false; } } /** * Normalize "*_between" parameters to "*_min" and "*_max". * * @param array $request Query params from REST API request. * @param string|array $param_names One or more param names to handle. Should not include "_between" suffix. * @param bool $is_date Boolean if the param is date is related. * @return array Normalized query values. */ public static function normalize_between_params( $request, $param_names, $is_date ) { if ( ! is_array( $param_names ) ) { $param_names = array( $param_names ); } $normalized = array(); foreach ( $param_names as $param_name ) { if ( ! is_array( $request[ $param_name . '_between' ] ) ) { continue; } $range = $request[ $param_name . '_between' ]; if ( 2 !== count( $range ) ) { continue; } $min = $is_date ? '_after' : '_min'; $max = $is_date ? '_before' : '_max'; if ( $range[0] < $range[1] ) { $normalized[ $param_name . $min ] = $range[0]; $normalized[ $param_name . $max ] = $range[1]; } else { $normalized[ $param_name . $min ] = $range[1]; $normalized[ $param_name . $max ] = $range[0]; } } return $normalized; } /** * Validate a "*_between" range argument (an array with 2 numeric items). * * @param mixed $value Parameter value. * @param WP_REST_Request $request REST Request. * @param string $param Parameter name. * @return WP_Error|boolean */ public static function rest_validate_between_numeric_arg( $value, $request, $param ) { if ( ! wp_is_numeric_array( $value ) ) { return new WP_Error( 'rest_invalid_param', /* translators: 1: parameter name */ sprintf( __( '%1$s is not a numerically indexed array.', 'wc-admin' ), $param ) ); } if ( 2 !== count( $value ) || ! is_numeric( $value[0] ) || ! is_numeric( $value[1] ) ) { return new WP_Error( 'rest_invalid_param', /* translators: %s: parameter name */ sprintf( __( '%s must contain 2 numbers.', 'wc-admin' ), $param ) ); } return true; } /** * Validate a "*_between" range argument (an array with 2 date items). * * @param mixed $value Parameter value. * @param WP_REST_Request $request REST Request. * @param string $param Parameter name. * @return WP_Error|boolean */ public static function rest_validate_between_date_arg( $value, $request, $param ) { if ( ! wp_is_numeric_array( $value ) ) { return new WP_Error( 'rest_invalid_param', /* translators: 1: parameter name */ sprintf( __( '%1$s is not a numerically indexed array.', 'wc-admin' ), $param ) ); } if ( 2 !== count( $value ) || ! rest_parse_date( $value[0] ) || ! rest_parse_date( $value[1] ) ) { return new WP_Error( 'rest_invalid_param', /* translators: %s: parameter name */ sprintf( __( '%s must contain 2 valid dates.', 'wc-admin' ), $param ) ); } return true; } }