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/* YUI 3.17.2 (build 9c3c78e) Copyright 2014 Yahoo! Inc. All rights reserved. Licensed under the BSD License. http://yuilibrary.com/license/ */ YUI.add('color-harmony', function (Y, NAME) { /** Color Harmony provides methods useful for color combination discovery. @module color @submodule color-harmony @class Harmony @namespace Color @since 3.8.0 */ var HSL = 'hsl', RGB = 'rgb', SPLIT_OFFSET = 30, ANALOGOUS_OFFSET = 10, TRIAD_OFFSET = 360/3, TETRAD_OFFSET = 360/6, SQUARE_OFFSET = 360/4 , DEF_COUNT = 5, DEF_OFFSET = 10, Color = Y.Color, Harmony = { // Color Groups /** Returns an Array of two colors. The first color in the Array will be the color passed in. The second will be the complementary color of the color provided @public @method getComplementary @param {String} str @param {String} [to] @return {Array} @since 3.8.0 **/ getComplementary: function(str, to) { var c = Harmony._start(str), offsets = []; to = to || Color.findType(str); offsets.push({}); offsets.push({ h: 180 }); return Harmony._adjustOffsetAndFinish(c, offsets, to); }, /** Returns an Array of three colors. The first color in the Array will be the color passed in. The second two will be split complementary colors. @public @method getSplit @param {String} str @param {Number} [offset] @param {String} [to] @return {String} @since 3.8.0 **/ getSplit: function(str, offset, to) { var c = Harmony._start(str), offsets = []; offset = offset || SPLIT_OFFSET; to = to || Color.findType(str); offsets.push({}); offsets.push({ h: 180 + offset }); offsets.push({ h: 180 - offset }); return Harmony._adjustOffsetAndFinish(c, offsets, to); }, /** Returns an Array of five colors. The first color in the Array will be the color passed in. The remaining four will be analogous colors two in either direction from the initially provided color. @public @method getAnalogous @param {String} str @param {Number} [offset] @param {String} [to] @return {String} @since 3.8.0 **/ getAnalogous: function(str, offset, to) { var c = Harmony._start(str), offsets = []; offset = offset || ANALOGOUS_OFFSET; to = to || Color.findType(str); offsets.push({}); offsets.push({ h: offset }); offsets.push({ h: offset * 2 }); offsets.push({ h: -offset }); offsets.push({ h: -offset * 2 }); return Harmony._adjustOffsetAndFinish(c, offsets, to); }, /** Returns an Array of three colors. The first color in the Array will be the color passed in. The second two will be equidistant from the start color and each other. @public @method getTriad @param {String} str @param {String} [to] @return {String} @since 3.8.0 **/ getTriad: function(str, to) { var c = Harmony._start(str), offsets = []; to = to || Color.findType(str); offsets.push({}); offsets.push({ h: TRIAD_OFFSET }); offsets.push({ h: -TRIAD_OFFSET }); return Harmony._adjustOffsetAndFinish(c, offsets, to); }, /** Returns an Array of four colors. The first color in the Array will be the color passed in. The remaining three colors are equidistant offsets from the starting color and each other. @public @method getTetrad @param {String} str @param {Number} [offset] @param {String} [to] @return {String} @since 3.8.0 **/ getTetrad: function(str, offset, to) { var c = Harmony._start(str), offsets = []; offset = offset || TETRAD_OFFSET; to = to || Color.findType(str); offsets.push({}); offsets.push({ h: offset }); offsets.push({ h: 180 }); offsets.push({ h: 180 + offset }); return Harmony._adjustOffsetAndFinish(c, offsets, to); }, /** Returns an Array of four colors. The first color in the Array will be the color passed in. The remaining three colors are equidistant offsets from the starting color and each other. @public @method getSquare @param {String} str @param {String} [to] @return {String} @since 3.8.0 **/ getSquare: function(str, to) { var c = Harmony._start(str), offsets = []; to = to || Color.findType(str); offsets.push({}); offsets.push({ h: SQUARE_OFFSET }); offsets.push({ h: SQUARE_OFFSET * 2 }); offsets.push({ h: SQUARE_OFFSET * 3 }); return Harmony._adjustOffsetAndFinish(c, offsets, to); }, /** Calculates lightness offsets resulting in a monochromatic Array of values. @public @method getMonochrome @param {String} str @param {Number} [count] @param {String} [to] @return {String} @since 3.8.0 **/ getMonochrome: function(str, count, to) { var c = Harmony._start(str), colors = [], i = 0, l, step, _c = c.concat(); count = count || DEF_COUNT; to = to || Color.findType(str); if (count < 2) { return str; } step = 100 / (count - 1); for (; i <= 100; i += step) { _c[2] = Math.max(Math.min(i, 100), 0); colors.push(_c.concat()); } l = colors.length; for (i=0; i
100) ? 100 : offset; sMin = Math.max(0, s - slOffset); sMax = Math.min(100, s + slOffset); lMin = Math.max(0, l - slOffset); lMax = Math.min(100, l + slOffset); offsets.push({}); for (i = 0; i < count; i++) { sRand = ( Math.round( (Math.random() * (sMax - sMin)) + sMin ) ); lRand = ( Math.round( (Math.random() * (lMax - lMin)) + lMin ) ); offsets.push({ h: ( Math.random() * (offset * 2)) - offset, // because getOffset adjusts from the existing color, we // need to adjust it negatively to get a good number for // saturation and luminance, otherwise we get a lot of white s: -(s - sRand), l: -(l - lRand) }); } return Harmony._adjustOffsetAndFinish(c, offsets, to); }, /** Adjusts the provided color by the offset(s) given. You may adjust hue, saturation, and/or luminance in one step. @public @method getOffset @param {String} str @param {Object} adjust @param {Number} [adjust.h] @param {Number} [adjust.s] @param {Number} [adjust.l] @param {String} [to] @return {String} @since 3.8.0 **/ getOffset: function(str, adjust, to) { var started = Y.Lang.isArray(str), hsla, type; if (!started) { hsla = Harmony._start(str); type = Color.findType(str); } else { hsla = str; type = 'hsl'; } to = to || type; if (adjust.h) { hsla[0] = ((+hsla[0]) + adjust.h) % 360; } if (adjust.s) { hsla[1] = Math.max(Math.min((+hsla[1]) + adjust.s, 100), 0); } if (adjust.l) { hsla[2] = Math.max(Math.min((+hsla[2]) + adjust.l, 100), 0); } if (!started) { return Harmony._finish(hsla, to); } return hsla; }, /** Returns 0 - 100 percentage of brightness from `0` (black) being the darkest to `100` (white) being the brightest. @public @method getBrightness @param {String} str @return {Number} @since 3.8.0 **/ getBrightness: function(str) { var c = Color.toArray(Color._convertTo(str, RGB)), r = c[0], g = c[1], b = c[2], weights = Y.Color._brightnessWeights; return Math.round(Math.sqrt( (r * r * weights.r) + (g * g * weights.g) + (b * b * weights.b) ) / 255 * 100); }, /** Returns a new color value with adjusted luminance so that the brightness of the return color matches the perceived brightness of the `match` color provided. @public @method getSimilarBrightness @param {String} str @param {String} match @param {String} [to] @return {String} @since 3.8.0 **/ getSimilarBrightness: function(str, match, to){ var c = Color.toArray(Color._convertTo(str, HSL)), b = Harmony.getBrightness(match); to = to || Color.findType(str); if (to === 'keyword') { to = 'hex'; } c[2] = Harmony._searchLuminanceForBrightness(c, b, 0, 100); str = Color.fromArray(c, Y.Color.TYPES.HSLA); return Color._convertTo(str, to); }, //-------------------- // PRIVATE //-------------------- /** Converts the provided color from additive to subtractive returning an Array of HSLA values @private @method _start @param {String} str @return {Array} @since 3.8.0 */ _start: function(str) { var hsla = Color.toArray(Color._convertTo(str, HSL)); hsla[0] = Harmony._toSubtractive(hsla[0]); return hsla; }, /** Converts the provided HSLA values from subtractive to additive returning a converted color string @private @method _finish @param {Array} hsla @param {String} [to] @return {String} @since 3.8.0 */ _finish: function(hsla, to) { hsla[0] = Harmony._toAdditive(hsla[0]); hsla = 'hsla(' + hsla[0] + ', ' + hsla[1] + '%, ' + hsla[2] + '%, ' + hsla[3] + ')'; if (to === 'keyword') { to = 'hex'; } return Color._convertTo(hsla, to); }, /** Adjusts the hue degree from subtractive to additive @private @method _toAdditive @param {Number} hue @return {Number} Converted additive hue @since 3.8.0 */ _toAdditive: function(hue) { hue = Y.Color._constrainHue(hue); if (hue <= 180) { hue /= 1.5; } else if (hue < 240) { hue = 120 + (hue - 180) * 2; } return Y.Color._constrainHue(hue, 10); }, /** Adjusts the hue degree from additive to subtractive @private @method _toSubtractive @param {Number} hue @return {Number} Converted subtractive hue @since 3.8.0 */ _toSubtractive: function(hue) { hue = Y.Color._constrainHue(hue); if (hue <= 120) { hue *= 1.5; } else if (hue < 240) { hue = 180 + (hue - 120) / 2; } return Y.Color._constrainHue(hue, 10); }, /** Contrain the hue to a value between 0 and 360 for calculations and real color wheel value space. Provide a precision value to round return value to a decimal place @private @method _constrainHue @param {Number} hue @param {Number} [precision] @return {Number} Constrained hue value @since 3.8.0 **/ _constrainHue: function(hue, precision) { while (hue < 0) { hue += 360; } hue %= 360; if (precision) { hue = Math.round(hue * precision) / precision; } return hue; }, /** Brightness weight factors for perceived brightness calculations "standard" values are listed as R: 0.241, G: 0.691, B: 0.068 These values were changed based on grey scale comparison of hsl to new hsl where brightness is said to be within plus or minus 0.01. @private @property _brightnessWeights @since 3.8.0 */ _brightnessWeights: { r: 0.221, g: 0.711, b: 0.068 }, /** Calculates the luminance as a mid range between the min and max to match the brightness level provided @private @method _searchLuminanceForBrightness @param {Array} color HSLA values @param {Number} brightness Brightness to be matched @param {Number} min Minimum range for luminance @param {Number} max Maximum range for luminance @return {Number} Found luminance to achieve requested brightness @since 3.8.0 **/ _searchLuminanceForBrightness: function(color, brightness, min, max) { var luminance = (max + min) / 2, b; color[2] = luminance; b = Harmony.getBrightness(Color.fromArray(color, Y.Color.TYPES.HSL)); if (b + 2 > brightness && b - 2 < brightness) { return luminance; } else if (b > brightness) { return Harmony._searchLuminanceForBrightness(color, brightness, min, luminance); } else { return Harmony._searchLuminanceForBrightness(color, brightness, luminance, max); } }, /** Takes an HSL array, and an array of offsets and returns and array of colors that have been adjusted. The returned colors will match the array of offsets provided. If you wish you have the same color value returned, you can provide null or an empty object to the offsets. The returned array will contain color value strings that have been adjusted from subtractive to additive. @private @method _adjustOffsetAndFinish @param {Array} color @param {Array} offsets @param {String} to @return {Array} @since 3.8.0 **/ _adjustOffsetAndFinish: function(color, offsets, to) { var colors = [], i, l = offsets.length, _c; for (i = 0; i < l; i++ ) { _c = color.concat(); if (offsets[i]) { _c = Harmony.getOffset(_c, offsets[i]); } colors.push(Harmony._finish(_c, to)); } return colors; } }; Y.Color = Y.mix(Y.Color, Harmony); }, '3.17.2', {"requires": ["color-hsl"]});