/* James Cryer / Huddle 2015 URL: https://github.com/Huddle/Resemble.js */ (function (root, factory) { if (typeof define === 'function' && define.amd) { define([], factory); } else if (typeof module === 'object' && module.exports) { module.exports = factory(); } else { root.resemble = factory(); } }(this, function () { 'use strict'; var pixelTransparency = 1; var errorPixelColor = { // Color for Error Pixels. Between 0 and 255. red: 255, green: 0, blue: 255, alpha: 255 }; function colorsDistance(c1, c2){ return (Math.abs(c1.r - c2.r) + Math.abs(c1.g - c2.g) + Math.abs(c1.b - c2.b))/3; } var errorPixelTransform = { flat : function (d1, d2){ return { r: errorPixelColor.red, g: errorPixelColor.green, b: errorPixelColor.blue, a: errorPixelColor.alpha } }, movement: function (d1, d2){ return { r: ((d2.r*(errorPixelColor.red/255)) + errorPixelColor.red)/2, g: ((d2.g*(errorPixelColor.green/255)) + errorPixelColor.green)/2, b: ((d2.b*(errorPixelColor.blue/255)) + errorPixelColor.blue)/2, a: d2.a } }, flatDifferenceIntensity: function (d1, d2){ return { r: errorPixelColor.red, g: errorPixelColor.green, b: errorPixelColor.blue, a: colorsDistance(d1, d2) } }, movementDifferenceIntensity: function (d1, d2){ var ratio = colorsDistance(d1, d2)/255 * 0.8; return { r: ((1-ratio)*(d2.r*(errorPixelColor.red/255)) + ratio*errorPixelColor.red), g: ((1-ratio)*(d2.g*(errorPixelColor.green/255)) + ratio*errorPixelColor.green), b: ((1-ratio)*(d2.b*(errorPixelColor.blue/255)) + ratio*errorPixelColor.blue), a: d2.a } } }; var errorPixelTransformer = errorPixelTransform.flat; var largeImageThreshold = 1200; var useCrossOrigin = true; var document = typeof window != "undefined" ? window.document : {}; var resemble = function( fileData ){ var data = {}; var images = []; var updateCallbackArray = []; var tolerance = { // between 0 and 255 red: 16, green: 16, blue: 16, alpha: 16, minBrightness: 16, maxBrightness: 240 }; var ignoreAntialiasing = false; var ignoreColors = false; var scaleToSameSize = false; function triggerDataUpdate(){ var len = updateCallbackArray.length; var i; for(i=0;i 0) { hiddenImage.onload(); } } else if (typeof fileData.data !== 'undefined' && typeof fileData.width === 'number' && typeof fileData.height === 'number') { images.push(fileData); callback(fileData, fileData.width, fileData.height); } else { fileReader = new FileReader(); fileReader.onload = function (event) { hiddenImage.src = event.target.result; }; fileReader.readAsDataURL(fileData); } } function isColorSimilar(a, b, color){ var absDiff = Math.abs(a - b); if(typeof a === 'undefined'){ return false; } if(typeof b === 'undefined'){ return false; } if(a === b){ return true; } else if ( absDiff < tolerance[color] ) { return true; } else { return false; } } function isPixelBrightnessSimilar(d1, d2){ var alpha = isColorSimilar(d1.a, d2.a, 'alpha'); var brightness = isColorSimilar(d1.brightness, d2.brightness, 'minBrightness'); return brightness && alpha; } function getBrightness(r,g,b){ return 0.3*r + 0.59*g + 0.11*b; } function isRGBSame(d1,d2){ var red = d1.r === d2.r; var green = d1.g === d2.g; var blue = d1.b === d2.b; return red && green && blue; } function isRGBSimilar(d1, d2){ var red = isColorSimilar(d1.r,d2.r,'red'); var green = isColorSimilar(d1.g,d2.g,'green'); var blue = isColorSimilar(d1.b,d2.b,'blue'); var alpha = isColorSimilar(d1.a, d2.a, 'alpha'); return red && green && blue && alpha; } function isContrasting(d1, d2){ return Math.abs(d1.brightness - d2.brightness) > tolerance.maxBrightness; } function getHue(r,g,b){ r = r / 255; g = g / 255; b = b / 255; var max = Math.max(r, g, b), min = Math.min(r, g, b); var h; var d; if (max == min){ h = 0; // achromatic } else{ 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; } function isAntialiased(sourcePix, data, cacheSet, verticalPos, horizontalPos, width){ var offset; var targetPix; var distance = 1; var i; var j; var hasHighContrastSibling = 0; var hasSiblingWithDifferentHue = 0; var hasEquivalentSibling = 0; addHueInfo(sourcePix); for (i = distance*-1; i <= distance; i++){ for (j = distance*-1; j <= distance; j++){ if(i===0 && j===0){ // ignore source pixel } else { offset = ((verticalPos+j)*width + (horizontalPos+i)) * 4; targetPix = getPixelInfo(data, offset, cacheSet); if(targetPix === null){ continue; } addBrightnessInfo(targetPix); addHueInfo(targetPix); if( isContrasting(sourcePix, targetPix) ){ hasHighContrastSibling++; } if( isRGBSame(sourcePix,targetPix) ){ hasEquivalentSibling++; } if( Math.abs(targetPix.h - sourcePix.h) > 0.3 ){ hasSiblingWithDifferentHue++; } if( hasSiblingWithDifferentHue > 1 || hasHighContrastSibling > 1){ return true; } } } } if(hasEquivalentSibling < 2){ return true; } return false; } function errorPixel(px, offset, data1, data2){ var data = errorPixelTransformer(data1, data2); px[offset] = data.r; px[offset + 1] = data.g; px[offset + 2] = data.b; px[offset + 3] = data.a; } function copyPixel(px, offset, data){ px[offset] = data.r; //r px[offset + 1] = data.g; //g px[offset + 2] = data.b; //b px[offset + 3] = data.a * pixelTransparency; //a } function copyGrayScalePixel(px, offset, data){ px[offset] = data.brightness; //r px[offset + 1] = data.brightness; //g px[offset + 2] = data.brightness; //b px[offset + 3] = data.a * pixelTransparency; //a } function getPixelInfo(data, offset, cacheSet){ var r; var g; var b; var d; var a; r = data[offset]; if(typeof r !== 'undefined'){ g = data[offset+1]; b = data[offset+2]; a = data[offset+3]; d = { r: r, g: g, b: b, a: a }; return d; } else { return null; } } function addBrightnessInfo(data){ data.brightness = getBrightness(data.r,data.g,data.b); // 'corrected' lightness } function addHueInfo(data){ data.h = getHue(data.r,data.g,data.b); } function analyseImages(img1, img2, width, height){ var hiddenCanvas = document.createElement('canvas'); var data1 = img1.data; var data2 = img2.data; hiddenCanvas.width = width; hiddenCanvas.height = height; var context = hiddenCanvas.getContext('2d'); var imgd = context.createImageData(width,height); var targetPix = imgd.data; var mismatchCount = 0; var diffBounds = { top: height, left: width, bottom: 0, right: 0 }; var updateBounds = function(x, y) { diffBounds.left = Math.min(x, diffBounds.left); diffBounds.right = Math.max(x, diffBounds.right); diffBounds.top = Math.min(y, diffBounds.top); diffBounds.bottom = Math.max(y, diffBounds.bottom); }; var time = Date.now(); var skip; if(!!largeImageThreshold && ignoreAntialiasing && (width > largeImageThreshold || height > largeImageThreshold)){ skip = 6; } loop(height, width, function(verticalPos, horizontalPos){ if(skip){ // only skip if the image isn't small if(verticalPos % skip === 0 || horizontalPos % skip === 0){ return; } } var offset = (verticalPos*width + horizontalPos) * 4; var pixel1 = getPixelInfo(data1, offset, 1); var pixel2 = getPixelInfo(data2, offset, 2); if(pixel1 === null || pixel2 === null){ return; } if (ignoreColors){ addBrightnessInfo(pixel1); addBrightnessInfo(pixel2); if( isPixelBrightnessSimilar(pixel1, pixel2) ){ copyGrayScalePixel(targetPix, offset, pixel2); } else { errorPixel(targetPix, offset, pixel1, pixel2); mismatchCount++; updateBounds(horizontalPos, verticalPos); } return; } if( isRGBSimilar(pixel1, pixel2) ){ copyPixel(targetPix, offset, pixel1, pixel2); } else if( ignoreAntialiasing && ( addBrightnessInfo(pixel1), // jit pixel info augmentation looks a little weird, sorry. addBrightnessInfo(pixel2), isAntialiased(pixel1, data1, 1, verticalPos, horizontalPos, width) || isAntialiased(pixel2, data2, 2, verticalPos, horizontalPos, width) )){ if( isPixelBrightnessSimilar(pixel1, pixel2) ){ copyGrayScalePixel(targetPix, offset, pixel2); } else { errorPixel(targetPix, offset, pixel1, pixel2); mismatchCount++; updateBounds(horizontalPos, verticalPos); } } else { errorPixel(targetPix, offset, pixel1, pixel2); mismatchCount++; updateBounds(horizontalPos, verticalPos); } }); data.rawMisMatchPercentage = (mismatchCount / (height*width) * 100); data.misMatchPercentage = data.rawMisMatchPercentage.toFixed(2); data.diffBounds = diffBounds; data.analysisTime = Date.now() - time; data.getImageDataUrl = function(text){ var barHeight = 0; if(text){ barHeight = addLabel(text,context,hiddenCanvas); } context.putImageData(imgd, 0, barHeight); return hiddenCanvas.toDataURL("image/png"); }; } function addLabel(text, context, hiddenCanvas){ var textPadding = 2; context.font = '12px sans-serif'; var textWidth = context.measureText(text).width + textPadding*2; var barHeight = 22; if(textWidth > hiddenCanvas.width){ hiddenCanvas.width = textWidth; } hiddenCanvas.height += barHeight; context.fillStyle = "#666"; context.fillRect(0,0,hiddenCanvas.width,barHeight -4); context.fillStyle = "#fff"; context.fillRect(0,barHeight -4,hiddenCanvas.width, 4); context.fillStyle = "#fff"; context.textBaseline = "top"; context.font = '12px sans-serif'; context.fillText(text, textPadding, 1); return barHeight; } function normalise(img, w, h){ var c; var context; if(img.height < h || img.width < w){ c = document.createElement('canvas'); c.width = w; c.height = h; context = c.getContext('2d'); context.putImageData(img, 0, 0); return context.getImageData(0, 0, w, h); } return img; } function compare(one, two){ function onceWeHaveBoth(){ var width; var height; if(images.length === 2){ if( images[0].error || images[1].error ){ data = {}; data.error = images[0].error ? images[0].error : images[1].error; triggerDataUpdate(); return; } width = images[0].width > images[1].width ? images[0].width : images[1].width; height = images[0].height > images[1].height ? images[0].height : images[1].height; if( (images[0].width === images[1].width) && (images[0].height === images[1].height) ){ data.isSameDimensions = true; } else { data.isSameDimensions = false; } data.dimensionDifference = { width: images[0].width - images[1].width, height: images[0].height - images[1].height }; analyseImages( normalise(images[0],width, height), normalise(images[1],width, height), width, height); triggerDataUpdate(); } } images = []; loadImageData(one, onceWeHaveBoth); loadImageData(two, onceWeHaveBoth); } function getCompareApi(param){ var secondFileData, hasMethod = typeof param === 'function'; if( !hasMethod ){ // assume it's file data secondFileData = param; } var self = { scaleToSameSize: function(){ scaleToSameSize = true; if(hasMethod) { param(); } return self; }, useOriginalSize: function(){ scaleToSameSize = false; if(hasMethod) { param(); } return self; }, ignoreNothing: function(){ tolerance.red = 0; tolerance.green = 0; tolerance.blue = 0; tolerance.alpha = 0; tolerance.minBrightness = 0; tolerance.maxBrightness = 255; ignoreAntialiasing = false; ignoreColors = false; if(hasMethod) { param(); } return self; }, ignoreLess: function(){ tolerance.red = 16; tolerance.green = 16; tolerance.blue = 16; tolerance.alpha = 16; tolerance.minBrightness = 16; tolerance.maxBrightness = 240; ignoreAntialiasing = false; ignoreColors = false; if(hasMethod) { param(); } return self; }, ignoreAntialiasing: function(){ tolerance.red = 32; tolerance.green = 32; tolerance.blue = 32; tolerance.alpha = 32; tolerance.minBrightness = 64; tolerance.maxBrightness = 96; ignoreAntialiasing = true; ignoreColors = false; if(hasMethod) { param(); } return self; }, ignoreColors: function(){ tolerance.alpha = 16; tolerance.minBrightness = 16; tolerance.maxBrightness = 240; ignoreAntialiasing = false; ignoreColors = true; if(hasMethod) { param(); } return self; }, repaint: function(){ if(hasMethod) { param(); } return self; }, onComplete: function( callback ){ updateCallbackArray.push(callback); var wrapper = function(){ compare(fileData, secondFileData); }; wrapper(); return getCompareApi(wrapper); } }; return self; } return { onComplete: function( callback ){ updateCallbackArray.push(callback); loadImageData(fileData, function(imageData, width, height){ parseImage(imageData.data, width, height); }); }, compareTo: function(secondFileData){ return getCompareApi(secondFileData); } }; }; resemble.outputSettings = function(options){ var key; var undefined; if(options.errorColor){ for (key in options.errorColor) { errorPixelColor[key] = options.errorColor[key] === undefined ? errorPixelColor[key] : options.errorColor[key]; } } if(options.errorType && errorPixelTransform[options.errorType] ){ errorPixelTransformer = errorPixelTransform[options.errorType]; } pixelTransparency = isNaN(Number(options.transparency)) ? pixelTransparency : options.transparency; if (options.largeImageThreshold !== undefined) { largeImageThreshold = options.largeImageThreshold; } if (options.useCrossOrigin !== undefined) { useCrossOrigin = options.useCrossOrigin; } return this; }; return resemble; }));