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<?xml version="1.0" encoding="UTF-8"?>
<!-- -*- Mode: HTML; tab-width: 2; indent-tabs-mode: nil; -*- -->
<!-- vim: set shiftwidth=2 tabstop=2 autoindent expandtab: -->
<!-- This Source Code Form is subject to the terms of the Mozilla Public
- License, v. 2.0. If a copy of the MPL was not distributed with this
- file, You can obtain one at http://mozilla.org/MPL/2.0/. -->
<!--
Features to add:
* make the left and right parts of the viewer independently scrollable
* make the test list filterable
** default to only showing unexpecteds
* add other ways to highlight differences other than circling?
* add zoom/pan to images
* Add ability to load log via XMLHttpRequest (also triggered via URL param)
* color the test list based on pass/fail and expected/unexpected/random/skip
* ability to load multiple logs ?
** rename them by clicking on the name and editing
** turn the test list into a collapsing tree view
** move log loading into popup from viewer UI
-->
<!DOCTYPE html>
<html lang="en-US" xml:lang="en-US" xmlns="http://www.w3.org/1999/xhtml">
<head>
<title>Reftest analyzer</title>
<style type="text/css"><![CDATA[
html, body { margin: 0; }
html { padding: 0; }
body { padding: 4px; }
#pixelarea, #itemlist, #images { position: absolute; }
#itemlist, #images { overflow: auto; }
#pixelarea { top: 0; left: 0; width: 320px; height: 84px; overflow: visible }
#itemlist { top: 84px; left: 0; width: 320px; bottom: 0; }
#images { top: 0; bottom: 0; left: 320px; right: 0; }
#leftpane { width: 320px; }
#images { position: fixed; top: 10px; left: 340px; }
form#imgcontrols { margin: 0; display: block; }
#itemlist > table { border-collapse: collapse; }
#itemlist > table > tbody > tr > td { border: 1px solid; padding: 1px; }
#itemlist td.activeitem { background-color: yellow; }
/*
#itemlist > table > tbody > tr.pass > td.url { background: lime; }
#itemlist > table > tbody > tr.fail > td.url { background: red; }
*/
#magnification > svg { display: block; width: 84px; height: 84px; }
#pixelinfo { font: small sans-serif; position: absolute; width: 200px; left: 84px; }
#pixelinfo table { border-collapse: collapse; }
#pixelinfo table th { white-space: nowrap; text-align: left; padding: 0; }
#pixelinfo table td { font-family: monospace; padding: 0 0 0 0.25em; }
#pixelhint { display: inline; color: #88f; cursor: help; }
#pixelhint > * { display: none; position: absolute; margin: 8px 0 0 8px; padding: 4px; width: 400px; background: #ffa; color: black; box-shadow: 3px 3px 2px #888; z-index: 1; }
#pixelhint:hover { color: #000; }
#pixelhint:hover > * { display: block; }
#pixelhint p { margin: 0; }
#pixelhint p + p { margin-top: 1em; }
]]></style>
<script type="text/javascript"><![CDATA[
let heatmapCanvas = null;
let heatmapUMouse;
let gl = null;
function heatmap_render_setup(canvas) {
gl = canvas.getContext('webgl', {antialias: false, depth: false, preserveDrawingBuffer:false});
const vertices = [
0, 0,
1, 0,
0, 1,
1, 1,
];
const vertexBuffer = gl.createBuffer();
gl.bindBuffer(gl.ARRAY_BUFFER, vertexBuffer);
gl.bufferData(gl.ARRAY_BUFFER, new Float32Array(vertices), gl.STATIC_DRAW);
const vsCode =
`
attribute vec2 a_vertCoord;
varying vec2 v_texCoord;
void main(void) {
gl_Position = vec4(2.0 * a_vertCoord - 1.0, 0.0, 1.0);
v_texCoord = a_vertCoord;
}`;
const VS = gl.createShader(gl.VERTEX_SHADER);
gl.shaderSource(VS, vsCode);
gl.compileShader(VS);
const psCode =
`
precision mediump float;
uniform vec2 heatmapUMouse;
varying vec2 v_texCoord;
uniform sampler2D u_image1, u_image2;
void main(void) {
vec2 dxy = abs(heatmapUMouse - gl_FragCoord.xy);
if(dxy.x < 1.0 || dxy.y < 1.0) { // crosshair
gl_FragColor = vec4( 1.0, 1.0, 0.5, 1.0 );
return;
}
vec3 img1 = texture2D(u_image1, v_texCoord).rgb;
vec3 img2 = texture2D(u_image2, v_texCoord).rgb;
bool is_top = gl_FragCoord.y > float(heatmapUMouse.y);
bool is_left = gl_FragCoord.x < float(heatmapUMouse.x);
vec3 rgb;
if(is_top) {
if(is_left) {
rgb = img1;
} else {
rgb = img2;
}
} else {
vec3 diff = abs(img1 - img2);
if(is_left) {
rgb = diff;
} else {
float max_diff = max(diff.r, max(diff.g, diff.b));
if(max_diff == 0.0) {
rgb = vec3(0.0, 0.0, 0.2);
} else {
// some arbitrary colorization -- transition from green to red
// with some contrast tweaks to make red stand out a bit more
// at about 0.5'ish
rgb = vec3( pow(max_diff, 0.5), pow(1.0 - max_diff, 3.0), 0.0 );
}
}
}
gl_FragColor = vec4( rgb, 1.0 );
}`;
const FS = gl.createShader(gl.FRAGMENT_SHADER);
gl.shaderSource(FS, psCode);
gl.compileShader(FS);
const program = gl.createProgram();
gl.attachShader(program, VS);
gl.attachShader(program, FS);
gl.linkProgram(program);
if (!gl.getProgramParameter(program, gl.LINK_STATUS)) {
console.error('Link failed: ' + gl.getProgramInfoLog(program));
console.error('vs info-log: ' + gl.getShaderInfoLog(VS));
console.error('fs info-log: ' + gl.getShaderInfoLog(FS));
return; // don't assign heatmapCanvas
}
gl.useProgram(program);
gl.bindBuffer(gl.ARRAY_BUFFER, vertexBuffer);
const coord = gl.getAttribLocation(program, "a_vertCoord");
gl.vertexAttribPointer(coord, 2, gl.FLOAT, false, 0, 0);
gl.enableVertexAttribArray(coord);
heatmapUMouse = gl.getUniformLocation(program, "heatmapUMouse");
gl.uniform1i(gl.getUniformLocation(program, 'u_image1'), 0);
gl.uniform1i(gl.getUniformLocation(program, 'u_image2'), 1);
gl.pixelStorei(gl.UNPACK_FLIP_Y_WEBGL, true);
heatmapCanvas = canvas;
}
function heatmap_change_image(index, image) {
if (heatmapCanvas === null) {
return;
}
const texture = gl.createTexture();
gl.activeTexture(gl.TEXTURE0 + index);
gl.bindTexture (gl.TEXTURE_2D, texture);
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_S, gl.CLAMP_TO_EDGE);
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_T, gl.CLAMP_TO_EDGE);
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.LINEAR);
gl.texImage2D (gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, image);
}
function heatmap_render(mouse_x, mouse_y) {
if (heatmapCanvas === null) {
return;
}
gl.uniform2f(heatmapUMouse, mouse_x, mouse_y);
// the canvas resizes as user selects different reftests
gl.viewport(0, 0, heatmapCanvas.width, heatmapCanvas.height);
gl.drawArrays(gl.TRIANGLE_STRIP, 0, 4);
}
function heatmap_on_mousemove(mousemove_event) {
if (heatmapCanvas === null) {
return;
}
const rect = heatmapCanvas.getBoundingClientRect();
let x = mousemove_event.clientX - rect.left;
let y = mousemove_event.clientY - rect.top;
x = x * heatmapCanvas.width / heatmapCanvas.clientWidth;
y = y * heatmapCanvas.height / heatmapCanvas.clientHeight;
// mouse has Y == 0 at the top, GL has it at the bottom:
const flip_y = heatmapCanvas.height-1 - y;
heatmap_render(x, flip_y);
return { x:x, y:y };
}
]]></script>
<script type="text/javascript"><![CDATA[
var XLINK_NS = "http://www.w3.org/1999/xlink";
var SVG_NS = "http://www.w3.org/2000/svg";
var IMAGE_NOT_AVAILABLE = "data:image/png;base64,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";
var gPhases = null;
var gIDCache = {};
var gMagPixPaths = []; // 2D array of array-of-two <path> objects used in the pixel magnifier
var gMagWidth = 5; // number of zoomed in pixels to show horizontally
var gMagHeight = 5; // number of zoomed in pixels to show vertically
var gMagZoom = 16; // size of the zoomed in pixels
var gImage1Data; // ImageData object for the reference image
var gImage2Data; // ImageData object for the test output image
var gFlashingPixels = []; // array of <path> objects that should be flashed due to pixel color mismatch
var gParams;
function ID(id) {
if (!(id in gIDCache))
gIDCache[id] = document.getElementById(id);
return gIDCache[id];
}
function hash_parameters() {
var result = { };
var params = window.location.hash.substr(1).split(/[&;]/);
for (var i = 0; i < params.length; i++) {
var parts = params[i].split("=");
result[parts[0]] = unescape(unescape(parts[1]));
}
return result;
}
function load() {
gPhases = [ ID("entry"), ID("loading"), ID("viewer") ];
build_mag();
gParams = hash_parameters();
if (gParams.log) {
show_phase("loading");
process_log(gParams.log);
} else if (gParams.logurl) {
show_phase("loading");
var req = new XMLHttpRequest();
req.onreadystatechange = function() {
if (req.readyState === 4) {
process_log(req.responseText);
}
};
req.open('GET', gParams.logurl, true);
req.send();
}
window.addEventListener('keypress', handle_keyboard_shortcut);
ID("image1").addEventListener('error', image_load_error);
ID("image2").addEventListener('error', image_load_error);
}
function image_load_error(e) {
e.target.setAttributeNS(XLINK_NS, "xlink:href", IMAGE_NOT_AVAILABLE);
}
function build_mag() {
var mag = ID("mag");
var 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.appendChild(r);
mag.setAttribute("transform", "translate(" + (gMagZoom * (gMagWidth / 2) + 1) + "," + (gMagZoom * (gMagHeight / 2) + 1) + ")");
for (var x = 0; x < gMagWidth; x++) {
gMagPixPaths[x] = [];
for (var y = 0; y < gMagHeight; y++) {
var 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", "black");
p1.setAttribute("stroke-width", "1px");
p1.setAttribute("fill", "#aaa");
var 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", "black");
p2.setAttribute("stroke-width", "1px");
p2.setAttribute("fill", "#888");
mag.appendChild(p1);
mag.appendChild(p2);
gMagPixPaths[x][y] = [p1, p2];
}
}
var flashedOn = false;
setInterval(function() {
flashedOn = !flashedOn;
flash_pixels(flashedOn);
}, 500);
}
function show_phase(phaseid) {
for (var i in gPhases) {
var phase = gPhases[i];
phase.style.display = (phase.id == phaseid) ? "" : "none";
}
if (phase == "viewer")
ID("images").style.display = "none";
}
function fileentry_changed() {
show_phase("loading");
var input = ID("fileentry");
var 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.
var fileReader = new FileReader();
fileReader.onload = function(e) {
var log = null;
log = e.target.result;
if (log)
process_log(log);
else
show_phase("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 log_pasted() {
show_phase("loading");
var entry = ID("logentry");
var log = entry.value;
entry.value = "";
process_log(log);
}
var gTestItems;
function process_log(contents) {
var lines = contents.split(/[\r\n]+/);
gTestItems = [];
for (var j in lines) {
var line = lines[j];
// Ignore duplicated output in logcat.
if (line.match(/I\/Gecko.*?REFTEST/))
continue;
var match = line.match(/^(?:.*? (?:INFO|ERROR) -\s+)?(?:REFTEST\s+)?(.*)$/);
if (!match)
continue;
line = match[1];
match = line.match(/^(TEST-PASS|TEST-UNEXPECTED-PASS|TEST-KNOWN-FAIL|TEST-UNEXPECTED-FAIL|TEST-DEBUG-INFO)(\(EXPECTED RANDOM\)|) \| ([^\|]+) \|(.*)/);
if (match) {
var state = match[1];
var random = match[2];
var url = match[3];
var extra = match[4];
gTestItems.push(
{
pass: !state.match(/DEBUG-INFO$|FAIL$/),
// only one of the following three should ever be true
unexpected: !!state.match(/^TEST-UNEXPECTED/),
random: (random == "(EXPECTED RANDOM)"),
skip: (extra == " (SKIP)"),
url: url,
images: [],
imageLabels: []
});
continue;
}
match = line.match(/IMAGE([^:]*): (data:.*)$/);
if (match) {
var item = gTestItems[gTestItems.length - 1];
item.images.push(match[2]);
item.imageLabels.push(match[1]);
}
}
build_viewer();
}
function build_viewer() {
if (gTestItems.length == 0) {
show_phase("entry");
return;
}
var cell = ID("itemlist");
while (cell.childNodes.length > 0)
cell.removeChild(cell.childNodes[cell.childNodes.length - 1]);
var table = document.createElement("table");
var tbody = document.createElement("tbody");
table.appendChild(tbody);
for (var i in gTestItems) {
var item = gTestItems[i];
// optional url filter for only showing unexpected results
if (parseInt(gParams.only_show_unexpected) && !item.unexpected)
continue;
// XXX regardless skip expected pass items until we have filtering UI
if (item.pass && !item.unexpected)
continue;
var tr = document.createElement("tr");
var rowclass = item.pass ? "pass" : "fail";
var td;
var text;
td = document.createElement("td");
text = "";
if (item.unexpected) { text += "!"; rowclass += " unexpected"; }
if (item.random) { text += "R"; rowclass += " random"; }
if (item.skip) { text += "S"; rowclass += " skip"; }
td.appendChild(document.createTextNode(text));
tr.appendChild(td);
td = document.createElement("td");
td.id = "item" + i;
td.className = "url";
// Only display part of URL after "/mozilla/".
var match = item.url.match(/\/mozilla\/(.*)/);
text = document.createTextNode(match ? match[1] : item.url);
if (item.images.length > 0) {
var a = document.createElement("a");
a.href = "javascript:show_images(" + i + ")";
a.appendChild(text);
td.appendChild(a);
} else {
td.appendChild(text);
}
tr.appendChild(td);
tbody.appendChild(tr);
}
cell.appendChild(table);
show_phase("viewer");
}
function get_image_data(src, whenReady) {
var img = new Image();
img.onload = function() {
var canvas = document.createElement("canvas");
canvas.width = img.naturalWidth;
canvas.height = img.naturalHeight;
var ctx = canvas.getContext("2d");
ctx.drawImage(img, 0, 0);
whenReady(ctx.getImageData(0, 0, img.naturalWidth, img.naturalHeight));
};
img.src = src;
}
function sync_svg_size(imageData) {
// We need the size of the 'svg' and its 'image' elements to match the size
// of the ImageData objects that we're going to read pixels from or else our
// magnify() function will be very broken.
ID("svg").setAttribute("width", imageData.width);
ID("svg").setAttribute("height", imageData.height);
}
function sync_heatmap_size(imageData) {
ID("heat_canvas").setAttribute("width" , imageData.width);
ID("heat_canvas").setAttribute("height", imageData.height);
}
function show_images(i) {
var item = gTestItems[i];
var cell = ID("images");
// Remove activeitem class from any existing elements
var activeItems = document.querySelectorAll(".activeitem");
for (var activeItemIdx = activeItems.length; activeItemIdx-- != 0;) {
activeItems[activeItemIdx].classList.remove("activeitem");
}
ID("item" + i).classList.add("activeitem");
ID("image1").style.display = "";
ID("image2").style.display = "none";
show_diff_none();
ID("imgcontrols").reset();
ID("diffcontrols").reset();
ID("image1").setAttributeNS(XLINK_NS, "xlink:href", item.images[0]);
// Making the href be #image1 doesn't seem to work
ID("feimage1").setAttributeNS(XLINK_NS, "xlink:href", item.images[0]);
if (item.images.length == 1) {
ID("imgcontrols").style.display = "none";
} else {
ID("imgcontrols").style.display = "";
ID("image2").setAttributeNS(XLINK_NS, "xlink:href", item.images[1]);
// Making the href be #image2 doesn't seem to work
ID("feimage2").setAttributeNS(XLINK_NS, "xlink:href", item.images[1]);
ID("label1").textContent = 'Image ' + item.imageLabels[0];
ID("label2").textContent = 'Image ' + item.imageLabels[1];
}
cell.style.display = "";
get_image_data(item.images[0], function(data) { gImage1Data = data; sync_svg_size(gImage1Data); sync_heatmap_size(gImage1Data); heatmap_change_image(0, gImage1Data); });
get_image_data(item.images[1], function(data) { gImage2Data = data; heatmap_change_image(1, gImage2Data); });
}
function show_image(i) {
if (i == 1) {
ID("image1").style.display = "";
ID("image2").style.display = "none";
} else {
ID("image1").style.display = "none";
ID("image2").style.display = "";
}
}
function handle_keyboard_shortcut(event) {
switch (event.charCode) {
case 49: // "1" key
document.getElementById("radio1").checked = true;
show_image(1);
break;
case 50: // "2" key
document.getElementById("radio2").checked = true;
show_image(2);
break;
case 100: // "d" key
document.getElementById("radio_diff_circle").click();
break;
case 104: // "h" key
document.getElementById("radio_diff_heatmap").click();
break;
case 112: // "p" key
shift_images(-1);
break;
case 110: // "n" key
shift_images(1);
break;
}
}
function shift_images(dir) {
var activeItem = document.querySelector(".activeitem");
if (!activeItem) {
return;
}
for (var elm = activeItem; elm; elm = elm.parentElement) {
if (elm.tagName != "tr") {
continue;
}
elm = dir > 0 ? elm.nextElementSibling : elm.previousElementSibling;
if (elm) {
elm.getElementsByTagName("a")[0].click();
}
return;
}
}
function show_diff_none() {
ID("svg") .style.display = "";
ID("diffrect") .style.display = "none";
ID("heat_canvas").style.display = "none";
}
function show_diff_circle() {
ID("svg") .style.display = "";
ID("diffrect") .style.display = "";
ID("heat_canvas").style.display = "none";
}
function show_diff_heatmap() {
ID("svg") .style.display = "none";
ID("diffrect") .style.display = "none";
ID("heat_canvas").style.display = "";
if (heatmapCanvas === null) {
canvas = document.getElementById('heat_canvas');
heatmap_render_setup(canvas);
heatmap_change_image(0, gImage1Data);
heatmap_change_image(1, gImage2Data);
heatmap_render(0, 0);
window.addEventListener('mousemove', e => {
var { x: x, y: y } = heatmap_on_mousemove(e);
magnify_around(Math.floor(x), Math.floor(y));
});
}
}
function flash_pixels(on) {
var stroke = on ? "red" : "black";
var strokeWidth = on ? "2px" : "1px";
for (var i = 0; i < gFlashingPixels.length; i++) {
gFlashingPixels[i].setAttribute("stroke", stroke);
gFlashingPixels[i].setAttribute("stroke-width", strokeWidth);
}
}
function cursor_point(evt) {
var m = evt.target.getScreenCTM().inverse();
var 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 canvas_pixel_as_hex(data, x, y) {
var offset = (y * data.width + x) * 4;
var r = data.data[offset];
var g = data.data[offset + 1];
var b = data.data[offset + 2];
return "#" + hex2(r) + hex2(g) + hex2(b);
}
function hex_as_rgb(hex) {
return "rgb(" + [parseInt(hex.substring(1, 3), 16), parseInt(hex.substring(3, 5), 16), parseInt(hex.substring(5, 7), 16)] + ")";
}
function magnify(evt) {
var { x: x, y: y } = cursor_point(evt);
magnify_around(x, y);
}
function magnify_around(x, y) {
if (x < 0 || y < 0 || x >= gImage1Data.width || y >= gImage1Data.height) {
return;
}
var centerPixelColor1, centerPixelColor2;
var dx_lo = -Math.floor(gMagWidth / 2);
var dx_hi = Math.floor(gMagWidth / 2);
var dy_lo = -Math.floor(gMagHeight / 2);
var dy_hi = Math.floor(gMagHeight / 2);
flash_pixels(false);
gFlashingPixels = [];
for (var j = dy_lo; j <= dy_hi; j++) {
for (var i = dx_lo; i <= dx_hi; i++) {
var px = x + i;
var py = y + j;
var p1 = gMagPixPaths[i + dx_hi][j + dy_hi][0];
var p2 = gMagPixPaths[i + dx_hi][j + dy_hi][1];
// Here we just use the dimensions of gImage1Data since we expect test
// and reference to have the same dimensions.
if (px < 0 || py < 0 || px >= gImage1Data.width || py >= gImage1Data.height) {
p1.setAttribute("fill", "#aaa");
p2.setAttribute("fill", "#888");
} else {
var color1 = canvas_pixel_as_hex(gImage1Data, x + i, y + j);
var color2 = canvas_pixel_as_hex(gImage2Data, x + i, y + j);
p1.setAttribute("fill", color1);
p2.setAttribute("fill", color2);
if (color1 != color2) {
gFlashingPixels.push(p1, p2);
p1.parentNode.appendChild(p1);
p2.parentNode.appendChild(p2);
}
if (i == 0 && j == 0) {
centerPixelColor1 = color1;
centerPixelColor2 = color2;
}
}
}
}
flash_pixels(true);
show_pixelinfo(x, y, centerPixelColor1, hex_as_rgb(centerPixelColor1), centerPixelColor2, hex_as_rgb(centerPixelColor2));
}
function show_pixelinfo(x, y, pix1rgb, pix1hex, pix2rgb, pix2hex) {
var pixelinfo = ID("pixelinfo");
ID("coords").textContent = [x, y];
ID("pix1hex").textContent = pix1hex;
ID("pix1rgb").textContent = pix1rgb;
ID("pix2hex").textContent = pix2hex;
ID("pix2rgb").textContent = pix2rgb;
}
]]></script>
</head>
<body onload="load()">
<div id="entry">
<h1>Reftest analyzer: load reftest log</h1>
<p>Either paste your log into this textarea:<br />
<textarea cols="80" rows="10" id="logentry"/><br/>
<input type="button" value="Process pasted log" onclick="log_pasted()" /></p>
<p>... or load it from a file:<br/>
<input type="file" id="fileentry" onchange="fileentry_changed()" />
</p>
</div>
<div id="loading" style="display:none">Loading log...</div>
<div id="viewer" style="display:none">
<div id="pixelarea">
<div id="pixelinfo">
<table>
<tbody>
<tr><th>Pixel at:</th><td colspan="2" id="coords"/></tr>
<tr><th>Image 1:</th><td id="pix1rgb"></td><td id="pix1hex"></td></tr>
<tr><th>Image 2:</th><td id="pix2rgb"></td><td id="pix2hex"></td></tr>
</tbody>
</table>
<div>
<div id="pixelhint">★
<div>
<p>Move the mouse over the reftest image on the right to show
magnified pixels on the left. The color information above is for
the pixel centered in the magnified view.</p>
<p>Image 1 is shown in the upper triangle of each pixel and Image 2
is shown in the lower triangle.</p>
</div>
</div>
</div>
</div>
<div id="magnification">
<svg xmlns="http://www.w3.org/2000/svg" width="84" height="84" shape-rendering="optimizeSpeed">
<g id="mag"/>
</svg>
</div>
</div>
<div id="itemlist"></div>
<div id="images" style="display:none">
<form id="imgcontrols">
<input id="radio1" type="radio" name="which" value="0" onchange="show_image(1)" checked="checked" /><label id="label1" title="1" for="radio1">Image 1</label>
<input id="radio2" type="radio" name="which" value="1" onchange="show_image(2)" /><label id="label2" title="2" for="radio2">Image 2</label>
</form>
<form id="diffcontrols">
Differences:
<input id="radio_diff_none" name="diff" value="0" type="radio" onchange="show_diff_none()" checked="checked"/>
<label for="radio_diff_none">None</label>
<input id="radio_diff_circle" name="diff" value="1" type="radio" onchange="show_diff_circle()" />
<label for="radio_diff_circle">Circle</label>
<input id="radio_diff_heatmap" name="diff" value="2" type="radio" onchange="show_diff_heatmap()" />
<label for="radio_diff_heatmap">Heatmap</label>
</form>
<canvas width="800" height="1000" id="heat_canvas" style="display:none;"></canvas>
<svg xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" version="1.1" width="800" height="1000" id="svg">
<defs>
<!-- use sRGB to avoid loss of data -->
<filter id="showDifferences" x="0%" y="0%" width="100%" height="100%"
style="color-interpolation-filters: sRGB">
<feImage id="feimage1" result="img1" xlink:href="#image1" />
<feImage id="feimage2" result="img2" xlink:href="#image2" />
<!-- inv1 and inv2 are the images with RGB inverted -->
<feComponentTransfer result="inv1" in="img1">
<feFuncR type="linear" slope="-1" intercept="1" />
<feFuncG type="linear" slope="-1" intercept="1" />
<feFuncB type="linear" slope="-1" intercept="1" />
</feComponentTransfer>
<feComponentTransfer result="inv2" in="img2">
<feFuncR type="linear" slope="-1" intercept="1" />
<feFuncG type="linear" slope="-1" intercept="1" />
<feFuncB type="linear" slope="-1" intercept="1" />
</feComponentTransfer>
<!-- w1 will have non-white pixels anywhere that img2
is brighter than img1, and w2 for the reverse.
It would be nice not to have to go through these
intermediate states, but feComposite
type="arithmetic" can't transform the RGB channels
and leave the alpha channel untouched. -->
<feComposite result="w1" in="img1" in2="inv2" operator="arithmetic" k2="1" k3="1" />
<feComposite result="w2" in="img2" in2="inv1" operator="arithmetic" k2="1" k3="1" />
<!-- c1 will have non-black pixels anywhere that img2
is brighter than img1, and c2 for the reverse -->
<feComponentTransfer result="c1" in="w1">
<feFuncR type="linear" slope="-1" intercept="1" />
<feFuncG type="linear" slope="-1" intercept="1" />
<feFuncB type="linear" slope="-1" intercept="1" />
</feComponentTransfer>
<feComponentTransfer result="c2" in="w2">
<feFuncR type="linear" slope="-1" intercept="1" />
<feFuncG type="linear" slope="-1" intercept="1" />
<feFuncB type="linear" slope="-1" intercept="1" />
</feComponentTransfer>
<!-- c will be nonblack (and fully on) for every pixel+component where there are differences -->
<feComposite result="c" in="c1" in2="c2" operator="arithmetic" k2="255" k3="255" />
<!-- a will be opaque for every pixel with differences and transparent for all others -->
<feColorMatrix result="a" type="matrix" values="0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 0 0" />
<!-- a, dilated by 1 pixel -->
<feMorphology result="dila1" in="a" operator="dilate" radius="1" />
<!-- a, dilated by 2 pixels -->
<feMorphology result="dila2" in="dila1" operator="dilate" radius="1" />
<!-- all the pixels in the 2-pixel dilation of a but not in the 1-pixel dilation, to highlight the diffs -->
<feComposite result="highlight" in="dila2" in2="dila1" operator="out" />
<feFlood result="red" flood-color="red" />
<feComposite result="redhighlight" in="red" in2="highlight" operator="in" />
<feFlood result="black" flood-color="black" flood-opacity="0.5" />
<feMerge>
<feMergeNode in="black" />
<feMergeNode in="redhighlight" />
</feMerge>
</filter>
</defs>
<g onmousemove="magnify(evt)">
<image x="0" y="0" width="100%" height="100%" id="image1" />
<image x="0" y="0" width="100%" height="100%" id="image2" />
</g>
<rect id="diffrect" filter="url(#showDifferences)" pointer-events="none" x="0" y="0" width="100%" height="100%" />
</svg>
</div>
</div>
</body>
</html>