/* Copyright 2012 Mozilla Foundation Version: MPL 1.1/GPL 2.0/LGPL 2.1 The contents of this file are subject to the Mozilla Public License Version 1.1 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.mozilla.org/MPL Software distributed under the License is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the specific language governing rights and limitations under the License. Alternatively, the contents of this file may be used under the terms of either the GNU General Public License Version 2 or later (the "GPL"), or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), in which case the provisions of the GPL or the LGPL are applicable instead of those above. If you wish to allow use of your version of this file only under the terms of either the GPL or the LGPL, and not to allow others to use your version of this file under the terms of the MPL, indicate your decision by deleting the provisions above and replace them with the notice and other provisions required by the LGPL or the GPL. If you do not delete the provisions above, a recipient may use your version of this file under the terms of any one of the MPL, the GPL or the LGPL. Original author: L. David Baron */ // Global variables const XLINK_NS = "http://www.w3.org/1999/xlink"; const SVG_NS = "http://www.w3.org/2000/svg"; let gPhases = null; const gMagPixPaths = []; // 2D array of array-of-two objects used in the pixel magnifier const gMagWidth = 5; // number of zoomed in pixels to show horizontally const gMagHeight = 5; // number of zoomed in pixels to show vertically const gMagZoom = 16; // size of the zoomed in pixels let gImage1Data = null; // ImageData object for the test output image let gImage2Data = null; // ImageData object for the reference image const gFlashingPixels = []; // array of objects that should be flashed due to pixel color mismatch let gPath = ""; // path taken from #web= and prepended to ref/snp urls let gSelected = null; // currently selected comparison window.onload = function () { load(); function ID(id) { return document.getElementById(id); } function hashParameters() { const query = window.location.hash.substring(1); const params = new Map(); for (const [key, value] of new URLSearchParams(query)) { params.set(key.toLowerCase(), value); } return params; } function load() { gPhases = [ID("entry"), ID("loading"), ID("viewer")]; buildMag(); const params = hashParameters(); if (params.has("log")) { ID("logEntry").value = params.get("log"); logPasted(); } else if (params.has("web")) { loadFromWeb(params.get("web")); } ID("logEntry").focus(); } function buildMag() { const mag = ID("mag"); const r = document.createElementNS(SVG_NS, "rect"); r.setAttribute("x", (gMagZoom * -gMagWidth) / 2); r.setAttribute("y", (gMagZoom * -gMagHeight) / 2); r.setAttribute("width", gMagZoom * gMagWidth); r.setAttribute("height", gMagZoom * gMagHeight); mag.append(r); mag.setAttribute( "transform", "translate(" + (gMagZoom * (gMagWidth / 2) + 1) + "," + (gMagZoom * (gMagHeight / 2) + 1) + ")" ); for (let x = 0; x < gMagWidth; x++) { gMagPixPaths[x] = []; for (let y = 0; y < gMagHeight; y++) { const p1 = document.createElementNS(SVG_NS, "path"); p1.setAttribute( "d", "M" + (x - gMagWidth / 2 + 1) * gMagZoom + "," + (y - gMagHeight / 2) * gMagZoom + "h" + -gMagZoom + "v" + gMagZoom ); p1.setAttribute("stroke", "#CCC"); p1.setAttribute("stroke-width", "1px"); p1.setAttribute("fill", "#aaa"); const p2 = document.createElementNS(SVG_NS, "path"); p2.setAttribute( "d", "M" + (x - gMagWidth / 2 + 1) * gMagZoom + "," + (y - gMagHeight / 2) * gMagZoom + "v" + gMagZoom + "h" + -gMagZoom ); p2.setAttribute("stroke", "#CCC"); p2.setAttribute("stroke-width", "1px"); p2.setAttribute("fill", "#888"); mag.append(p1, p2); gMagPixPaths[x][y] = [p1, p2]; } } let flashedOn = false; setInterval(function () { flashedOn = !flashedOn; flashPixels(flashedOn); }, 500); } function showPhase(phaseId) { for (const i in gPhases) { const phase = gPhases[i]; phase.style.display = phase.id === phaseId ? "block" : "none"; } if (phaseId === "viewer") { ID("images").style.display = "none"; } } async function loadFromWeb(url) { const lastSlash = url.lastIndexOf("/"); if (lastSlash) { gPath = url.substring(0, lastSlash + 1); } const response = await fetch(url); if (!response.ok) { throw new Error(response.statusText); } processLog(await response.text()); } function fileEntryChanged() { showPhase("loading"); const input = ID("fileEntry"); const files = input.files; if (files.length > 0) { // Only handle the first file; don't handle multiple selection. // The parts of the log we care about are ASCII-only. Since we // can ignore lines we don't care about, best to read in as // ISO-8859-1, which guarantees we don't get decoding errors. const fileReader = new FileReader(); fileReader.onload = function (e) { const log = e.target.result; if (log) { processLog(log); } else { showPhase("entry"); } }; fileReader.readAsText(files[0], "iso-8859-1"); } // So the user can process the same filename again (after // overwriting the log), clear the value on the form input so we // will always get an onchange event. input.value = ""; } function logPasted() { showPhase("loading"); const entry = ID("logEntry"); const log = entry.value; entry.value = ""; processLog(log); } const gTestItems = []; function processLog(contents) { const lines = contents.split(/[\r\n]+/); for (const j in lines) { let line = lines[j]; let match = line.match(/^(?:NEXT ERROR )?REFTEST (.*)$/); if (!match) { continue; } line = match[1]; match = line.match( /^(TEST-PASS|TEST-UNEXPECTED-PASS|TEST-KNOWN-FAIL|TEST-UNEXPECTED-FAIL)(\(EXPECTED RANDOM\)|) \| ([^|]+) \|(.*)/ ); if (match) { const state = match[1]; const random = match[2]; const url = match[3]; const extra = match[4]; gTestItems.push({ pass: !state.endsWith("FAIL"), // only one of the following three should ever be true unexpected: state.startsWith("TEST-UNEXPECTED"), random: random === "(EXPECTED RANDOM)", skip: extra === " (SKIP)", url, images: [], }); continue; } match = line.match( /^ {2}IMAGE[^:]*\((\d+\.?\d*)x(\d+\.?\d*)x(\d+\.?\d*)\): (.*)$/ ); if (match) { const item = gTestItems.at(-1); item.images.push({ width: parseFloat(match[1]), height: parseFloat(match[2]), outputScale: parseFloat(match[3]), file: match[4], }); } } buildViewer(); } function buildViewer() { if (gTestItems.length === 0) { showPhase("entry"); return; } // const cell = ID("itemlist"); const table = document.getElementById("itemtable"); table.textContent = ""; // Remove any table contents from the DOM. const tbody = document.createElement("tbody"); table.append(tbody); for (const i in gTestItems) { const item = gTestItems[i]; if (item.pass && !item.unexpected) { continue; } const tr = document.createElement("tr"); let rowclass = item.pass ? "pass" : "fail"; let td = document.createElement("td"); let text = ""; if (item.unexpected) { text += "!"; rowclass += " unexpected"; } if (item.random) { text += "R"; rowclass += " random"; } if (item.skip) { text += "S"; rowclass += " skip"; } td.append(document.createTextNode(text)); tr.append(td); td = document.createElement("td"); td.id = "url" + i; td.className = "url"; const match = item.url.match(/\/mozilla\/(.*)/); text = document.createTextNode(match ? match[1] : item.url); if (item.images.length > 0) { const a = document.createElement("a"); a.id = i; a.className = "image"; a.href = "#"; a.append(text); td.append(a); } else { td.append(text); } tr.append(td); tr.className = rowclass; tbody.append(tr); } // Bind an event handler to each image link const images = document.getElementsByClassName("image"); for (const image of images) { image.addEventListener( "click", function (e) { showImages(e.target.id); }, false ); } showPhase("viewer"); } function getImageData(src, whenReady) { const img = new Image(); img.onload = function () { const canvas = document.createElement("canvas"); canvas.width = img.naturalWidth; canvas.height = img.naturalHeight; const ctx = canvas.getContext("2d"); ctx.drawImage(img, 0, 0); whenReady(ctx.getImageData(0, 0, img.naturalWidth, img.naturalHeight)); }; img.src = gPath + src; } function showImages(i) { if (gSelected !== null) { ID("url" + gSelected).classList.remove("selected"); } gSelected = i; ID("url" + gSelected).classList.add("selected"); ID("url" + gSelected).scrollIntoView(); const item = gTestItems[i]; const cell = ID("images"); ID("image1").style.display = ""; const scale = item.images[0].outputScale / window.devicePixelRatio; ID("image1").setAttribute("width", item.images[0].width * scale); ID("image1").setAttribute("height", item.images[0].height * scale); ID("svg").setAttribute("width", item.images[0].width * scale); ID("svg").setAttribute("height", item.images[0].height * scale); ID("image2").style.display = "none"; if (item.images[1]) { ID("image2").setAttribute("width", item.images[1].width * scale); ID("image2").setAttribute("height", item.images[1].height * scale); } ID("diffrect").style.display = "none"; ID("imgcontrols").reset(); ID("image1").setAttributeNS( XLINK_NS, "xlink:href", gPath + item.images[0].file ); // Making the href be #image1 doesn't seem to work ID("feimage1").setAttributeNS( XLINK_NS, "xlink:href", gPath + item.images[0].file ); if (item.images.length === 1) { ID("imgcontrols").style.display = "none"; } else { ID("imgcontrols").style.display = ""; ID("image2").setAttributeNS( XLINK_NS, "xlink:href", gPath + item.images[1].file ); // Making the href be #image2 doesn't seem to work ID("feimage2").setAttributeNS( XLINK_NS, "xlink:href", gPath + item.images[1].file ); } cell.style.display = ""; getImageData(item.images[0].file, function (data) { gImage1Data = data; }); getImageData(item.images[1].file, function (data) { gImage2Data = data; }); } function showImage(i) { if (i === 1) { ID("image1").style.display = ""; ID("image2").style.display = "none"; } else { ID("image1").style.display = "none"; ID("image2").style.display = ""; } } function showDifferences(cb) { ID("diffrect").style.display = cb.checked ? "" : "none"; } function flashPixels(on) { const stroke = on ? "#FF0000" : "#CCC"; const strokeWidth = on ? "2px" : "1px"; for (const pixel of gFlashingPixels) { pixel.setAttribute("stroke", stroke); pixel.setAttribute("stroke-width", strokeWidth); } } function cursorPoint(evt) { const m = evt.target.getScreenCTM().inverse(); let p = ID("svg").createSVGPoint(); p.x = evt.clientX; p.y = evt.clientY; p = p.matrixTransform(m); return { x: Math.floor(p.x), y: Math.floor(p.y) }; } function hex2(i) { return (i < 16 ? "0" : "") + i.toString(16); } function canvasPixelAsHex(data, x, y) { const offset = (y * data.width + x) * 4 * window.devicePixelRatio; const r = data.data[offset]; const g = data.data[offset + 1]; const b = data.data[offset + 2]; return "#" + hex2(r) + hex2(g) + hex2(b); } function hexAsRgb(hex) { return ( "rgb(" + [ parseInt(hex.substring(1, 3), 16), parseInt(hex.substring(3, 5), 16), parseInt(hex.substring(5, 7), 16), ] + ")" ); } function magnify(evt) { const cursor = cursorPoint(evt); const x = cursor.x; const y = cursor.y; let centerPixelColor1, centerPixelColor2; const dx_lo = -Math.floor(gMagWidth / 2); const dx_hi = Math.floor(gMagWidth / 2); const dy_lo = -Math.floor(gMagHeight / 2); const dy_hi = Math.floor(gMagHeight / 2); flashPixels(false); gFlashingPixels.length = 0; for (let j = dy_lo; j <= dy_hi; j++) { for (let i = dx_lo; i <= dx_hi; i++) { const px = x + i; const py = y + j; const p1 = gMagPixPaths[i + dx_hi][j + dy_hi][0]; const p2 = gMagPixPaths[i + dx_hi][j + dy_hi][1]; if ( px < 0 || py < 0 || px >= gImage1Data.width || py >= gImage1Data.height ) { p1.setAttribute("fill", "#aaa"); p2.setAttribute("fill", "#888"); } else { const color1 = canvasPixelAsHex(gImage1Data, x + i, y + j); const color2 = canvasPixelAsHex(gImage2Data, x + i, y + j); p1.setAttribute("fill", color1); p2.setAttribute("fill", color2); if (color1 !== color2) { gFlashingPixels.push(p1, p2); p1.parentNode.append(p1); p2.parentNode.append(p2); } if (i === 0 && j === 0) { centerPixelColor1 = color1; centerPixelColor2 = color2; } } } } flashPixels(true); showPixelInfo( x, y, centerPixelColor1, hexAsRgb(centerPixelColor1), centerPixelColor2, hexAsRgb(centerPixelColor2) ); } function showPixelInfo(x, y, pix1rgb, pix1hex, pix2rgb, pix2hex) { // const pixelinfo = ID("pixelinfo"); ID("coords").textContent = [x, y]; ID("pix1hex").textContent = pix1hex; ID("pix1rgb").textContent = pix1rgb; ID("pix2hex").textContent = pix2hex; ID("pix2rgb").textContent = pix2rgb; } const logPastedButton = document.getElementById("logPasted"); logPastedButton.addEventListener("click", logPasted, false); const fileEntryButton = document.getElementById("fileEntry"); fileEntryButton.addEventListener("change", fileEntryChanged, false); const testImage = document.getElementById("testImage"); testImage.addEventListener( "click", function () { showImage(1); }, false ); const referenceImage = document.getElementById("referenceImage"); referenceImage.addEventListener( "click", function () { showImage(2); }, false ); const differences = document.getElementById("differences"); differences.addEventListener( "click", function (e) { showDifferences(e.target); }, false ); const magnifyElement = document.getElementById("magnify"); magnifyElement.addEventListener( "mousemove", function (e) { magnify(e); }, false ); window.addEventListener("keydown", function keydown(event) { if (event.which === 84) { // 't' switch test/ref images let val = 0; if (document.querySelector('input[name="which"][value="0"]:checked')) { val = 1; } document .querySelector('input[name="which"][value="' + val + '"]') .click(); } else if (event.which === 68) { // 'd' toggle differences document.getElementById("differences").click(); } else if (event.which === 78 || event.which === 80) { // 'n' next image, 'p' previous image let select = gSelected; if (gSelected === null) { select = 0; } else if (event.which === 78) { select++; } else { select--; } const length = gTestItems.length; if (select < 0) { select = length - 1; } else if (select >= length) { select = 0; } showImages(select); } }); };