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<?php /** * Color Calculations class for Kirki * Initially built for the Shoestrap-3 theme and then tweaked for Kirki. * * @package Kirki * @category Core * @author Ari Stathopoulos (@aristath) * @copyright Copyright (c) 2020, David Vongries * @license https://opensource.org/licenses/MIT * @since 1.0 */ // phpcs:ignoreFile // Exit if accessed directly. if ( ! defined( 'ABSPATH' ) ) { exit; } /** * Helper class for color manipulation. */ final class Kirki_Color extends ariColor { /** * A proxy for the sanitize_color method. * * @param string|array $color The color. * @param bool $hash Whether we want to include a hash (#) at the beginning or not. * @return string The sanitized hex color. */ public static function sanitize_hex( $color = '#FFFFFF', $hash = true ) { if ( ! $hash ) { return ltrim( self::sanitize_color( $color, 'hex' ), '#' ); } return self::sanitize_color( $color, 'hex' ); } /** * A proxy the sanitize_color method. * * @static * @access public * @param string $color The color. * @return string */ public static function sanitize_rgba( $color ) { return self::sanitize_color( $color, 'rgba' ); } /** * Sanitize colors. * Determine if the current value is a hex or an rgba color and call the appropriate method. * * @static * @access public * @since 0.8.5 * @param string|array $color The color. * @param string $mode The mode to be used. * @return string */ public static function sanitize_color( $color = '', $mode = 'auto' ) { if ( is_string( $color ) && 'transparent' == trim( $color ) ) { return 'transparent'; } $obj = ariColor::newColor( $color ); if ( 'auto' == $mode ) { $mode = $obj->mode; } return $obj->toCSS( $mode ); } /** * Gets the rgb value of a color. * * @static * @access public * @param string $color The color. * @param boolean $implode Whether we want to implode the values or not. * @return array|string */ public static function get_rgb( $color, $implode = false ) { $obj = ariColor::newColor( $color ); if ( $implode ) { return $obj->toCSS( 'rgb' ); } return array( $obj->red, $obj->green, $obj->blue ); } /** * A proxy for the sanitize_color method. * * @static * @access public * @param string|array $color The color to convert. * @return string The hex value of the color. */ public static function rgba2hex( $color ) { return self::sanitize_color( $color, 'hex' ); } /** * Get the alpha channel from an rgba color. * * @static * @access public * @param string $color The rgba color formatted like rgba(r,g,b,a). * @return int|float The alpha value of the color. */ public static function get_alpha_from_rgba( $color ) { $obj = ariColor::newColor( $color ); return $obj->alpha; } /** * Gets the rgba value of the $color. * * @static * @access public * @param string $color The hex value of a color. * @param int|float $alpha Opacity level (0-1). * @return string */ public static function get_rgba( $color = '#fff', $alpha = 1 ) { $obj = ariColor::newColor( $color ); if ( 1 == $alpha ) { return $obj->toCSS( 'rgba' ); } // Make sure that opacity is properly formatted. // Converts 1-100 values to 0-1. if ( $alpha > 1 || $alpha < -1 ) { // Divide by 100. $alpha /= 100; } // Get absolute value. $alpha = abs( $alpha ); // Max 1. if ( 1 < $alpha ) { $alpha = 1; } $new_obj = $obj->getNew( 'alpha', $alpha ); return $new_obj->toCSS( 'rgba' ); } /** * Strips the alpha value from an RGBA color string. * * @static * @access public * @param string $color The RGBA color string. * @return string The corresponding RGB string. */ public static function rgba_to_rgb( $color ) { $obj = ariColor::newColor( $color ); return $obj->toCSS( 'rgb' ); } /** * Gets the brightness of the $hex color. * * @static * @access public * @param string $hex The hex value of a color. * @return int Value between 0 and 255. */ public static function get_brightness( $hex ) { $hex = self::sanitize_hex( $hex, false ); // Returns brightness value from 0 to 255. return intval( ( ( hexdec( substr( $hex, 0, 2 ) ) * 299 ) + ( hexdec( substr( $hex, 2, 2 ) ) * 587 ) + ( hexdec( substr( $hex, 4, 2 ) ) * 114 ) ) / 1000 ); } /** * Adjusts brightness of the $hex color. * * @static * @access public * @param string $hex The hex value of a color. * @param integer $steps Should be between -255 and 255. Negative = darker, positive = lighter. * @return string Returns hex color. */ public static function adjust_brightness( $hex, $steps ) { $hex = self::sanitize_hex( $hex, false ); $steps = max( -255, min( 255, $steps ) ); // Adjust number of steps and keep it inside 0 to 255. $red = max( 0, min( 255, hexdec( substr( $hex, 0, 2 ) ) + $steps ) ); $green = max( 0, min( 255, hexdec( substr( $hex, 2, 2 ) ) + $steps ) ); $blue = max( 0, min( 255, hexdec( substr( $hex, 4, 2 ) ) + $steps ) ); $red_hex = str_pad( dechex( $red ), 2, '0', STR_PAD_LEFT ); $green_hex = str_pad( dechex( $green ), 2, '0', STR_PAD_LEFT ); $blue_hex = str_pad( dechex( $blue ), 2, '0', STR_PAD_LEFT ); return self::sanitize_hex( $red_hex . $green_hex . $blue_hex ); } /** * Mixes 2 hex colors. * The "percentage" variable is the percent of the first color. * to be used it the mix. default is 50 (equal mix). * * @static * @access public * @param string|false $hex1 Color. * @param string|false $hex2 Color. * @param int $percentage A value between 0 and 100. * @return string Returns hex color. */ public static function mix_colors( $hex1, $hex2, $percentage ) { $hex1 = self::sanitize_hex( $hex1, false ); $hex2 = self::sanitize_hex( $hex2, false ); $red = ( $percentage * hexdec( substr( $hex1, 0, 2 ) ) + ( 100 - $percentage ) * hexdec( substr( $hex2, 0, 2 ) ) ) / 100; $green = ( $percentage * hexdec( substr( $hex1, 2, 2 ) ) + ( 100 - $percentage ) * hexdec( substr( $hex2, 2, 2 ) ) ) / 100; $blue = ( $percentage * hexdec( substr( $hex1, 4, 2 ) ) + ( 100 - $percentage ) * hexdec( substr( $hex2, 4, 2 ) ) ) / 100; $red_hex = str_pad( dechex( $red ), 2, '0', STR_PAD_LEFT ); $green_hex = str_pad( dechex( $green ), 2, '0', STR_PAD_LEFT ); $blue_hex = str_pad( dechex( $blue ), 2, '0', STR_PAD_LEFT ); return self::sanitize_hex( $red_hex . $green_hex . $blue_hex ); } /** * Convert hex color to hsv. * * @static * @access public * @param string $hex The hex value of color 1. * @return array Returns array( 'h', 's', 'v' ). */ public static function hex_to_hsv( $hex ) { $rgb = (array) (array) self::get_rgb( self::sanitize_hex( $hex, false ) ); return self::rgb_to_hsv( $rgb ); } /** * Convert hex color to hsv. * * @static * @access public * @param string $color The rgb color to convert array( 'r', 'g', 'b' ). * @return array Returns array( 'h', 's', 'v' ). */ public static function rgb_to_hsv( $color = array() ) { $var_r = ( $color[0] / 255 ); $var_g = ( $color[1] / 255 ); $var_b = ( $color[2] / 255 ); $var_min = min( $var_r, $var_g, $var_b ); $var_max = max( $var_r, $var_g, $var_b ); $del_max = $var_max - $var_min; $h = 0; $s = 0; $v = $var_max; if ( 0 != $del_max ) { $s = $del_max / $var_max; $del_r = ( ( ( $var_max - $var_r ) / 6 ) + ( $del_max / 2 ) ) / $del_max; $del_g = ( ( ( $var_max - $var_g ) / 6 ) + ( $del_max / 2 ) ) / $del_max; $del_b = ( ( ( $var_max - $var_b ) / 6 ) + ( $del_max / 2 ) ) / $del_max; if ( $var_r == $var_max ) { $h = $del_b - $del_g; } elseif ( $var_g == $var_max ) { $h = ( 1 / 3 ) + $del_r - $del_b; } elseif ( $var_b == $var_max ) { $h = ( 2 / 3 ) + $del_g - $del_r; } if ( $h < 0 ) { $h++; } if ( $h > 1 ) { $h--; } } return array( 'h' => round( $h, 2 ), 's' => round( $s, 2 ), 'v' => round( $v, 2 ), ); } /** * This is a very simple algorithm that works by summing up the differences between the three color components red, green and blue. * A value higher than 500 is recommended for good readability. * * @static * @access public * @param string $color_1 The 1st color. * @param string $color_2 The 2nd color. * @return string */ public static function color_difference( $color_1 = '#ffffff', $color_2 = '#000000' ) { $color_1 = self::sanitize_hex( $color_1, false ); $color_2 = self::sanitize_hex( $color_2, false ); $color_1_rgb = self::get_rgb( $color_1 ); $color_2_rgb = self::get_rgb( $color_2 ); $r_diff = max( $color_1_rgb[0], $color_2_rgb[0] ) - min( $color_1_rgb[0], $color_2_rgb[0] ); $g_diff = max( $color_1_rgb[1], $color_2_rgb[1] ) - min( $color_1_rgb[1], $color_2_rgb[1] ); $b_diff = max( $color_1_rgb[2], $color_2_rgb[2] ) - min( $color_1_rgb[2], $color_2_rgb[2] ); $color_diff = $r_diff + $g_diff + $b_diff; return $color_diff; } /** * This function tries to compare the brightness of the colors. * A return value of more than 125 is recommended. * Combining it with the color_difference function above might make sense. * * @static * @access public * @param string $color_1 The 1st color. * @param string $color_2 The 2nd color. * @return string */ public static function brightness_difference( $color_1 = '#ffffff', $color_2 = '#000000' ) { $color_1 = self::sanitize_hex( $color_1, false ); $color_2 = self::sanitize_hex( $color_2, false ); $color_1_rgb = self::get_rgb( $color_1 ); $color_2_rgb = self::get_rgb( $color_2 ); $br_1 = ( 299 * $color_1_rgb[0] + 587 * $color_1_rgb[1] + 114 * $color_1_rgb[2] ) / 1000; $br_2 = ( 299 * $color_2_rgb[0] + 587 * $color_2_rgb[1] + 114 * $color_2_rgb[2] ) / 1000; return intval( abs( $br_1 - $br_2 ) ); } /** * Uses the luminosity to calculate the difference between the given colors. * The returned value should be bigger than 5 for best readability. * * @static * @access public * @param string $color_1 The 1st color. * @param string $color_2 The 2nd color. * @return string */ public static function lumosity_difference( $color_1 = '#ffffff', $color_2 = '#000000' ) { $color_1 = self::sanitize_hex( $color_1, false ); $color_2 = self::sanitize_hex( $color_2, false ); $color_1_rgb = self::get_rgb( $color_1 ); $color_2_rgb = self::get_rgb( $color_2 ); $l1 = 0.2126 * pow( $color_1_rgb[0] / 255, 2.2 ) + 0.7152 * pow( $color_1_rgb[1] / 255, 2.2 ) + 0.0722 * pow( $color_1_rgb[2] / 255, 2.2 ); $l2 = 0.2126 * pow( $color_2_rgb[0] / 255, 2.2 ) + 0.7152 * pow( $color_2_rgb[1] / 255, 2.2 ) + 0.0722 * pow( $color_2_rgb[2] / 255, 2.2 ); $lum_diff = ( $l1 > $l2 ) ? ( $l1 + 0.05 ) / ( $l2 + 0.05 ) : ( $l2 + 0.05 ) / ( $l1 + 0.05 ); return round( $lum_diff, 2 ); } }