Greasy Fork is available in English.
temporary lib: pixelmatch@5.2.0
Ezt a szkriptet nem ajánlott közvetlenül telepíteni. Ez egy könyvtár más szkriptek számára, amik tartalmazzák a // @require https://update.greasyfork.org/scripts/401377/970885/pixelmatch.js hivatkozást.
(function webpackUniversalModuleDefinition(root, factory) {
if(typeof exports === 'object' && typeof module === 'object')
module.exports = factory();
else if(typeof define === 'function' && define.amd)
define([], factory);
else if(typeof exports === 'object')
exports["pixelmatch"] = factory();
else
root["pixelmatch"] = factory();
})(self, function() {
return /******/ (() => { // webpackBootstrap
/******/ var __webpack_modules__ = ({
/***/ 148:
/***/ ((module) => {
"use strict";
module.exports = pixelmatch;
const defaultOptions = {
threshold: 0.1, // matching threshold (0 to 1); smaller is more sensitive
includeAA: false, // whether to skip anti-aliasing detection
alpha: 0.1, // opacity of original image in diff ouput
aaColor: [255, 255, 0], // color of anti-aliased pixels in diff output
diffColor: [255, 0, 0], // color of different pixels in diff output
diffColorAlt: null, // whether to detect dark on light differences between img1 and img2 and set an alternative color to differentiate between the two
diffMask: false // draw the diff over a transparent background (a mask)
};
function pixelmatch(img1, img2, output, width, height, options) {
if (!isPixelData(img1) || !isPixelData(img2) || (output && !isPixelData(output)))
throw new Error('Image data: Uint8Array, Uint8ClampedArray or Buffer expected.');
if (img1.length !== img2.length || (output && output.length !== img1.length))
throw new Error('Image sizes do not match.');
if (img1.length !== width * height * 4) throw new Error('Image data size does not match width/height.');
options = Object.assign({}, defaultOptions, options);
// check if images are identical
const len = width * height;
const a32 = new Uint32Array(img1.buffer, img1.byteOffset, len);
const b32 = new Uint32Array(img2.buffer, img2.byteOffset, len);
let identical = true;
for (let i = 0; i < len; i++) {
if (a32[i] !== b32[i]) { identical = false; break; }
}
if (identical) { // fast path if identical
if (output && !options.diffMask) {
for (let i = 0; i < len; i++) drawGrayPixel(img1, 4 * i, options.alpha, output);
}
return 0;
}
// maximum acceptable square distance between two colors;
// 35215 is the maximum possible value for the YIQ difference metric
const maxDelta = 35215 * options.threshold * options.threshold;
let diff = 0;
// compare each pixel of one image against the other one
for (let y = 0; y < height; y++) {
for (let x = 0; x < width; x++) {
const pos = (y * width + x) * 4;
// squared YUV distance between colors at this pixel position, negative if the img2 pixel is darker
const delta = colorDelta(img1, img2, pos, pos);
// the color difference is above the threshold
if (Math.abs(delta) > maxDelta) {
// check it's a real rendering difference or just anti-aliasing
if (!options.includeAA && (antialiased(img1, x, y, width, height, img2) ||
antialiased(img2, x, y, width, height, img1))) {
// one of the pixels is anti-aliasing; draw as yellow and do not count as difference
// note that we do not include such pixels in a mask
if (output && !options.diffMask) drawPixel(output, pos, ...options.aaColor);
} else {
// found substantial difference not caused by anti-aliasing; draw it as such
if (output) {
drawPixel(output, pos, ...(delta < 0 && options.diffColorAlt || options.diffColor));
}
diff++;
}
} else if (output) {
// pixels are similar; draw background as grayscale image blended with white
if (!options.diffMask) drawGrayPixel(img1, pos, options.alpha, output);
}
}
}
// return the number of different pixels
return diff;
}
function isPixelData(arr) {
// work around instanceof Uint8Array not working properly in some Jest environments
return ArrayBuffer.isView(arr) && arr.constructor.BYTES_PER_ELEMENT === 1;
}
// check if a pixel is likely a part of anti-aliasing;
// based on "Anti-aliased Pixel and Intensity Slope Detector" paper by V. Vysniauskas, 2009
function antialiased(img, x1, y1, width, height, img2) {
const x0 = Math.max(x1 - 1, 0);
const y0 = Math.max(y1 - 1, 0);
const x2 = Math.min(x1 + 1, width - 1);
const y2 = Math.min(y1 + 1, height - 1);
const pos = (y1 * width + x1) * 4;
let zeroes = x1 === x0 || x1 === x2 || y1 === y0 || y1 === y2 ? 1 : 0;
let min = 0;
let max = 0;
let minX, minY, maxX, maxY;
// go through 8 adjacent pixels
for (let x = x0; x <= x2; x++) {
for (let y = y0; y <= y2; y++) {
if (x === x1 && y === y1) continue;
// brightness delta between the center pixel and adjacent one
const delta = colorDelta(img, img, pos, (y * width + x) * 4, true);
// count the number of equal, darker and brighter adjacent pixels
if (delta === 0) {
zeroes++;
// if found more than 2 equal siblings, it's definitely not anti-aliasing
if (zeroes > 2) return false;
// remember the darkest pixel
} else if (delta < min) {
min = delta;
minX = x;
minY = y;
// remember the brightest pixel
} else if (delta > max) {
max = delta;
maxX = x;
maxY = y;
}
}
}
// if there are no both darker and brighter pixels among siblings, it's not anti-aliasing
if (min === 0 || max === 0) return false;
// if either the darkest or the brightest pixel has 3+ equal siblings in both images
// (definitely not anti-aliased), this pixel is anti-aliased
return (hasManySiblings(img, minX, minY, width, height) && hasManySiblings(img2, minX, minY, width, height)) ||
(hasManySiblings(img, maxX, maxY, width, height) && hasManySiblings(img2, maxX, maxY, width, height));
}
// check if a pixel has 3+ adjacent pixels of the same color.
function hasManySiblings(img, x1, y1, width, height) {
const x0 = Math.max(x1 - 1, 0);
const y0 = Math.max(y1 - 1, 0);
const x2 = Math.min(x1 + 1, width - 1);
const y2 = Math.min(y1 + 1, height - 1);
const pos = (y1 * width + x1) * 4;
let zeroes = x1 === x0 || x1 === x2 || y1 === y0 || y1 === y2 ? 1 : 0;
// go through 8 adjacent pixels
for (let x = x0; x <= x2; x++) {
for (let y = y0; y <= y2; y++) {
if (x === x1 && y === y1) continue;
const pos2 = (y * width + x) * 4;
if (img[pos] === img[pos2] &&
img[pos + 1] === img[pos2 + 1] &&
img[pos + 2] === img[pos2 + 2] &&
img[pos + 3] === img[pos2 + 3]) zeroes++;
if (zeroes > 2) return true;
}
}
return false;
}
// calculate color difference according to the paper "Measuring perceived color difference
// using YIQ NTSC transmission color space in mobile applications" by Y. Kotsarenko and F. Ramos
function colorDelta(img1, img2, k, m, yOnly) {
let r1 = img1[k + 0];
let g1 = img1[k + 1];
let b1 = img1[k + 2];
let a1 = img1[k + 3];
let r2 = img2[m + 0];
let g2 = img2[m + 1];
let b2 = img2[m + 2];
let a2 = img2[m + 3];
if (a1 === a2 && r1 === r2 && g1 === g2 && b1 === b2) return 0;
if (a1 < 255) {
a1 /= 255;
r1 = blend(r1, a1);
g1 = blend(g1, a1);
b1 = blend(b1, a1);
}
if (a2 < 255) {
a2 /= 255;
r2 = blend(r2, a2);
g2 = blend(g2, a2);
b2 = blend(b2, a2);
}
const y1 = rgb2y(r1, g1, b1);
const y2 = rgb2y(r2, g2, b2);
const y = y1 - y2;
if (yOnly) return y; // brightness difference only
const i = rgb2i(r1, g1, b1) - rgb2i(r2, g2, b2);
const q = rgb2q(r1, g1, b1) - rgb2q(r2, g2, b2);
const delta = 0.5053 * y * y + 0.299 * i * i + 0.1957 * q * q;
// encode whether the pixel lightens or darkens in the sign
return y1 > y2 ? -delta : delta;
}
function rgb2y(r, g, b) { return r * 0.29889531 + g * 0.58662247 + b * 0.11448223; }
function rgb2i(r, g, b) { return r * 0.59597799 - g * 0.27417610 - b * 0.32180189; }
function rgb2q(r, g, b) { return r * 0.21147017 - g * 0.52261711 + b * 0.31114694; }
// blend semi-transparent color with white
function blend(c, a) {
return 255 + (c - 255) * a;
}
function drawPixel(output, pos, r, g, b) {
output[pos + 0] = r;
output[pos + 1] = g;
output[pos + 2] = b;
output[pos + 3] = 255;
}
function drawGrayPixel(img, i, alpha, output) {
const r = img[i + 0];
const g = img[i + 1];
const b = img[i + 2];
const val = blend(rgb2y(r, g, b), alpha * img[i + 3] / 255);
drawPixel(output, i, val, val, val);
}
/***/ }),
/***/ 138:
/***/ ((module, __unused_webpack_exports, __webpack_require__) => {
const pixelmatch = __webpack_require__(148);
module.exports = pixelmatch;
/***/ })
/******/ });
/************************************************************************/
/******/ // The module cache
/******/ var __webpack_module_cache__ = {};
/******/
/******/ // The require function
/******/ function __webpack_require__(moduleId) {
/******/ // Check if module is in cache
/******/ var cachedModule = __webpack_module_cache__[moduleId];
/******/ if (cachedModule !== undefined) {
/******/ return cachedModule.exports;
/******/ }
/******/ // Create a new module (and put it into the cache)
/******/ var module = __webpack_module_cache__[moduleId] = {
/******/ // no module.id needed
/******/ // no module.loaded needed
/******/ exports: {}
/******/ };
/******/
/******/ // Execute the module function
/******/ __webpack_modules__[moduleId](module, module.exports, __webpack_require__);
/******/
/******/ // Return the exports of the module
/******/ return module.exports;
/******/ }
/******/
/************************************************************************/
/******/
/******/ // startup
/******/ // Load entry module and return exports
/******/ // This entry module is referenced by other modules so it can't be inlined
/******/ var __webpack_exports__ = __webpack_require__(138);
/******/
/******/ return __webpack_exports__;
/******/ })()
;
});