blob: 12e7600d5e9bd887baebcd7850dfec43edc57874 [file] [log] [blame]
/*
* Copyright (C) 2013 Google Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/**
* @unrestricted
*/
Timeline.TimelineEventOverview = class extends PerfUI.TimelineOverviewBase {
/**
* @param {string} id
* @param {?string} title
*/
constructor(id, title) {
super();
this.element.id = 'timeline-overview-' + id;
this.element.classList.add('overview-strip');
/** @type {?Timeline.PerformanceModel} */
this._model = null;
if (title) {
this.element.createChild('div', 'timeline-overview-strip-title').textContent = title;
}
}
/**
* @param {?Timeline.PerformanceModel} model
*/
setModel(model) {
this._model = model;
}
/**
* @param {number} begin
* @param {number} end
* @param {number} position
* @param {number} height
* @param {string} color
*/
_renderBar(begin, end, position, height, color) {
const x = begin;
const width = end - begin;
const ctx = this.context();
ctx.fillStyle = color;
ctx.fillRect(x, position, width, height);
}
};
/**
* @unrestricted
*/
Timeline.TimelineEventOverviewInput = class extends Timeline.TimelineEventOverview {
constructor() {
super('input', null);
}
/**
* @override
*/
update() {
super.update();
if (!this._model) {
return;
}
const height = this.height();
const descriptors = Timeline.TimelineUIUtils.eventDispatchDesciptors();
/** @type {!Map.<string,!Timeline.TimelineUIUtils.EventDispatchTypeDescriptor>} */
const descriptorsByType = new Map();
let maxPriority = -1;
for (const descriptor of descriptors) {
for (const type of descriptor.eventTypes) {
descriptorsByType.set(type, descriptor);
}
maxPriority = Math.max(maxPriority, descriptor.priority);
}
const minWidth = 2 * window.devicePixelRatio;
const timeOffset = this._model.timelineModel().minimumRecordTime();
const timeSpan = this._model.timelineModel().maximumRecordTime() - timeOffset;
const canvasWidth = this.width();
const scale = canvasWidth / timeSpan;
for (let priority = 0; priority <= maxPriority; ++priority) {
for (const track of this._model.timelineModel().tracks()) {
for (let i = 0; i < track.events.length; ++i) {
const event = track.events[i];
if (event.name !== TimelineModel.TimelineModel.RecordType.EventDispatch) {
continue;
}
const descriptor = descriptorsByType.get(event.args['data']['type']);
if (!descriptor || descriptor.priority !== priority) {
continue;
}
const start = Number.constrain(Math.floor((event.startTime - timeOffset) * scale), 0, canvasWidth);
const end = Number.constrain(Math.ceil((event.endTime - timeOffset) * scale), 0, canvasWidth);
const width = Math.max(end - start, minWidth);
this._renderBar(start, start + width, 0, height, descriptor.color);
}
}
}
}
};
/**
* @unrestricted
*/
Timeline.TimelineEventOverviewNetwork = class extends Timeline.TimelineEventOverview {
constructor() {
super('network', Common.UIString('NET'));
}
/**
* @override
*/
update() {
super.update();
if (!this._model) {
return;
}
const timelineModel = this._model.timelineModel();
const bandHeight = this.height() / 2;
const timeOffset = timelineModel.minimumRecordTime();
const timeSpan = timelineModel.maximumRecordTime() - timeOffset;
const canvasWidth = this.width();
const scale = canvasWidth / timeSpan;
const highPath = new Path2D();
const lowPath = new Path2D();
const priorities = Protocol.Network.ResourcePriority;
const highPrioritySet = new Set([priorities.VeryHigh, priorities.High, priorities.Medium]);
for (const request of timelineModel.networkRequests()) {
const path = highPrioritySet.has(request.priority) ? highPath : lowPath;
const s = Math.max(Math.floor((request.startTime - timeOffset) * scale), 0);
const e = Math.min(Math.ceil((request.endTime - timeOffset) * scale + 1), canvasWidth);
path.rect(s, 0, e - s, bandHeight - 1);
}
const ctx = this.context();
ctx.save();
ctx.fillStyle = 'hsl(214, 60%, 60%)';
ctx.fill(/** @type {?} */ (highPath));
ctx.translate(0, bandHeight);
ctx.fillStyle = 'hsl(214, 80%, 80%)';
ctx.fill(/** @type {?} */ (lowPath));
ctx.restore();
}
};
/**
* @unrestricted
*/
Timeline.TimelineEventOverviewCPUActivity = class extends Timeline.TimelineEventOverview {
constructor() {
super('cpu-activity', Common.UIString('CPU'));
this._backgroundCanvas = this.element.createChild('canvas', 'fill background');
}
/**
* @override
*/
resetCanvas() {
super.resetCanvas();
this._backgroundCanvas.width = this.element.clientWidth * window.devicePixelRatio;
this._backgroundCanvas.height = this.element.clientHeight * window.devicePixelRatio;
}
/**
* @override
*/
update() {
super.update();
if (!this._model) {
return;
}
const timelineModel = this._model.timelineModel();
const /** @const */ quantSizePx = 4 * window.devicePixelRatio;
const width = this.width();
const height = this.height();
const baseLine = height;
const timeOffset = timelineModel.minimumRecordTime();
const timeSpan = timelineModel.maximumRecordTime() - timeOffset;
const scale = width / timeSpan;
const quantTime = quantSizePx / scale;
const categories = Timeline.TimelineUIUtils.categories();
const categoryOrder = Timeline.TimelineUIUtils.getTimelineMainEventCategories();
const otherIndex = categoryOrder.indexOf('other');
const idleIndex = 0;
console.assert(idleIndex === categoryOrder.indexOf('idle'));
for (let i = idleIndex + 1; i < categoryOrder.length; ++i) {
categories[categoryOrder[i]]._overviewIndex = i;
}
const backgroundContext = this._backgroundCanvas.getContext('2d');
for (const track of timelineModel.tracks()) {
if (track.type === TimelineModel.TimelineModel.TrackType.MainThread && track.forMainFrame) {
drawThreadEvents(this.context(), track.events);
} else {
drawThreadEvents(backgroundContext, track.events);
}
}
applyPattern(backgroundContext);
/**
* @param {!CanvasRenderingContext2D} ctx
* @param {!Array<!SDK.TracingModel.Event>} events
*/
function drawThreadEvents(ctx, events) {
const quantizer = new Timeline.Quantizer(timeOffset, quantTime, drawSample);
let x = 0;
const categoryIndexStack = [];
const paths = [];
const lastY = [];
for (let i = 0; i < categoryOrder.length; ++i) {
paths[i] = new Path2D();
paths[i].moveTo(0, height);
lastY[i] = height;
}
/**
* @param {!Array<number>} counters
*/
function drawSample(counters) {
let y = baseLine;
for (let i = idleIndex + 1; i < categoryOrder.length; ++i) {
const h = (counters[i] || 0) / quantTime * height;
y -= h;
paths[i].bezierCurveTo(x, lastY[i], x, y, x + quantSizePx / 2, y);
lastY[i] = y;
}
x += quantSizePx;
}
/**
* @param {!SDK.TracingModel.Event} e
*/
function onEventStart(e) {
const index = categoryIndexStack.length ? categoryIndexStack.peekLast() : idleIndex;
quantizer.appendInterval(e.startTime, index);
categoryIndexStack.push(Timeline.TimelineUIUtils.eventStyle(e).category._overviewIndex || otherIndex);
}
/**
* @param {!SDK.TracingModel.Event} e
*/
function onEventEnd(e) {
quantizer.appendInterval(e.endTime, categoryIndexStack.pop());
}
TimelineModel.TimelineModel.forEachEvent(events, onEventStart, onEventEnd);
quantizer.appendInterval(timeOffset + timeSpan + quantTime, idleIndex); // Kick drawing the last bucket.
for (let i = categoryOrder.length - 1; i > 0; --i) {
paths[i].lineTo(width, height);
ctx.fillStyle = categories[categoryOrder[i]].color;
ctx.fill(paths[i]);
}
}
/**
* @param {!CanvasRenderingContext2D} ctx
*/
function applyPattern(ctx) {
const step = 4 * window.devicePixelRatio;
ctx.save();
ctx.lineWidth = step / Math.sqrt(8);
for (let x = 0.5; x < width + height; x += step) {
ctx.moveTo(x, 0);
ctx.lineTo(x - height, height);
}
ctx.globalCompositeOperation = 'destination-out';
ctx.stroke();
ctx.restore();
}
}
};
/**
* @unrestricted
*/
Timeline.TimelineEventOverviewResponsiveness = class extends Timeline.TimelineEventOverview {
constructor() {
super('responsiveness', null);
}
/**
* @override
*/
update() {
super.update();
if (!this._model) {
return;
}
const height = this.height();
const timeOffset = this._model.timelineModel().minimumRecordTime();
const timeSpan = this._model.timelineModel().maximumRecordTime() - timeOffset;
const scale = this.width() / timeSpan;
const frames = this._model.frames();
// This is due to usage of new signatures of fill() and storke() that closure compiler does not recognize.
const ctx = /** @type {!Object} */ (this.context());
const fillPath = new Path2D();
const markersPath = new Path2D();
for (let i = 0; i < frames.length; ++i) {
const frame = frames[i];
if (!frame.hasWarnings()) {
continue;
}
paintWarningDecoration(frame.startTime, frame.duration);
}
for (const track of this._model.timelineModel().tracks()) {
const events = track.events;
for (let i = 0; i < events.length; ++i) {
if (!TimelineModel.TimelineData.forEvent(events[i]).warning) {
continue;
}
paintWarningDecoration(events[i].startTime, events[i].duration);
}
}
ctx.fillStyle = 'hsl(0, 80%, 90%)';
ctx.strokeStyle = 'red';
ctx.lineWidth = 2 * window.devicePixelRatio;
ctx.fill(fillPath);
ctx.stroke(markersPath);
/**
* @param {number} time
* @param {number} duration
*/
function paintWarningDecoration(time, duration) {
const x = Math.round(scale * (time - timeOffset));
const w = Math.round(scale * duration);
fillPath.rect(x, 0, w, height);
markersPath.moveTo(x + w, 0);
markersPath.lineTo(x + w, height);
}
}
};
/**
* @unrestricted
*/
Timeline.TimelineFilmStripOverview = class extends Timeline.TimelineEventOverview {
constructor() {
super('filmstrip', null);
this.reset();
}
/**
* @override
*/
update() {
super.update();
const frames = this._model ? this._model.filmStripModel().frames() : [];
if (!frames.length) {
return;
}
const drawGeneration = Symbol('drawGeneration');
this._drawGeneration = drawGeneration;
this._imageByFrame(frames[0]).then(image => {
if (this._drawGeneration !== drawGeneration) {
return;
}
if (!image || !image.naturalWidth || !image.naturalHeight) {
return;
}
const imageHeight = this.height() - 2 * Timeline.TimelineFilmStripOverview.Padding;
const imageWidth = Math.ceil(imageHeight * image.naturalWidth / image.naturalHeight);
const popoverScale = Math.min(200 / image.naturalWidth, 1);
this._emptyImage = new Image(image.naturalWidth * popoverScale, image.naturalHeight * popoverScale);
this._drawFrames(imageWidth, imageHeight);
});
}
/**
* @param {!SDK.FilmStripModel.Frame} frame
* @return {!Promise<?HTMLImageElement>}
*/
_imageByFrame(frame) {
let imagePromise = this._frameToImagePromise.get(frame);
if (!imagePromise) {
imagePromise = frame.imageDataPromise().then(data => UI.loadImageFromData(data));
this._frameToImagePromise.set(frame, imagePromise);
}
return imagePromise;
}
/**
* @param {number} imageWidth
* @param {number} imageHeight
*/
_drawFrames(imageWidth, imageHeight) {
if (!imageWidth || !this._model) {
return;
}
const filmStripModel = this._model.filmStripModel();
if (!filmStripModel.frames().length) {
return;
}
const padding = Timeline.TimelineFilmStripOverview.Padding;
const width = this.width();
const zeroTime = filmStripModel.zeroTime();
const spanTime = filmStripModel.spanTime();
const scale = spanTime / width;
const context = this.context();
const drawGeneration = this._drawGeneration;
context.beginPath();
for (let x = padding; x < width; x += imageWidth + 2 * padding) {
const time = zeroTime + (x + imageWidth / 2) * scale;
const frame = filmStripModel.frameByTimestamp(time);
if (!frame) {
continue;
}
context.rect(x - 0.5, 0.5, imageWidth + 1, imageHeight + 1);
this._imageByFrame(frame).then(drawFrameImage.bind(this, x));
}
context.strokeStyle = '#ddd';
context.stroke();
/**
* @param {number} x
* @param {?HTMLImageElement} image
* @this {Timeline.TimelineFilmStripOverview}
*/
function drawFrameImage(x, image) {
// Ignore draws deferred from a previous update call.
if (this._drawGeneration !== drawGeneration || !image) {
return;
}
context.drawImage(image, x, 1, imageWidth, imageHeight);
}
}
/**
* @override
* @param {number} x
* @return {!Promise<?Element>}
*/
overviewInfoPromise(x) {
if (!this._model || !this._model.filmStripModel().frames().length) {
return Promise.resolve(/** @type {?Element} */ (null));
}
const time = this.calculator().positionToTime(x);
const frame = this._model.filmStripModel().frameByTimestamp(time);
if (frame === this._lastFrame) {
return Promise.resolve(this._lastElement);
}
const imagePromise = frame ? this._imageByFrame(frame) : Promise.resolve(this._emptyImage);
return imagePromise.then(createFrameElement.bind(this));
/**
* @this {Timeline.TimelineFilmStripOverview}
* @param {?HTMLImageElement} image
* @return {?Element}
*/
function createFrameElement(image) {
const element = createElementWithClass('div', 'frame');
if (image) {
element.createChild('div', 'thumbnail').appendChild(image);
}
this._lastFrame = frame;
this._lastElement = element;
return element;
}
}
/**
* @override
*/
reset() {
this._lastFrame = undefined;
this._lastElement = null;
/** @type {!Map<!SDK.FilmStripModel.Frame,!Promise<!HTMLImageElement>>} */
this._frameToImagePromise = new Map();
this._imageWidth = 0;
}
};
Timeline.TimelineFilmStripOverview.Padding = 2;
/**
* @unrestricted
*/
Timeline.TimelineEventOverviewFrames = class extends Timeline.TimelineEventOverview {
constructor() {
super('framerate', Common.UIString('FPS'));
}
/**
* @override
*/
update() {
super.update();
if (!this._model) {
return;
}
const frames = this._model.frames();
if (!frames.length) {
return;
}
const height = this.height();
const /** @const */ padding = 1 * window.devicePixelRatio;
const /** @const */ baseFrameDurationMs = 1e3 / 60;
const visualHeight = height - 2 * padding;
const timeOffset = this._model.timelineModel().minimumRecordTime();
const timeSpan = this._model.timelineModel().maximumRecordTime() - timeOffset;
const scale = this.width() / timeSpan;
const baseY = height - padding;
const ctx = this.context();
const bottomY = baseY + 10 * window.devicePixelRatio;
let x = 0;
let y = bottomY;
const lineWidth = window.devicePixelRatio;
const offset = lineWidth & 1 ? 0.5 : 0;
const tickDepth = 1.5 * window.devicePixelRatio;
ctx.beginPath();
ctx.moveTo(0, y);
for (let i = 0; i < frames.length; ++i) {
const frame = frames[i];
x = Math.round((frame.startTime - timeOffset) * scale) + offset;
ctx.lineTo(x, y);
ctx.lineTo(x, y + tickDepth);
y = frame.idle ? bottomY :
Math.round(baseY - visualHeight * Math.min(baseFrameDurationMs / frame.duration, 1)) - offset;
ctx.lineTo(x, y + tickDepth);
ctx.lineTo(x, y);
}
const lastFrame = frames.peekLast();
x = Math.round((lastFrame.startTime + lastFrame.duration - timeOffset) * scale) + offset;
ctx.lineTo(x, y);
ctx.lineTo(x, bottomY);
ctx.fillStyle = 'hsl(110, 50%, 88%)';
ctx.strokeStyle = 'hsl(110, 50%, 60%)';
ctx.lineWidth = lineWidth;
ctx.fill();
ctx.stroke();
}
};
/**
* @unrestricted
*/
Timeline.TimelineEventOverviewMemory = class extends Timeline.TimelineEventOverview {
constructor() {
super('memory', Common.UIString('HEAP'));
this._heapSizeLabel = this.element.createChild('div', 'memory-graph-label');
}
resetHeapSizeLabels() {
this._heapSizeLabel.textContent = '';
}
/**
* @override
*/
update() {
super.update();
const ratio = window.devicePixelRatio;
if (!this._model) {
this.resetHeapSizeLabels();
return;
}
const tracks = this._model.timelineModel().tracks().filter(
track => track.type === TimelineModel.TimelineModel.TrackType.MainThread && track.forMainFrame);
const trackEvents = tracks.map(track => track.events);
const lowerOffset = 3 * ratio;
let maxUsedHeapSize = 0;
let minUsedHeapSize = 100000000000;
const minTime = this._model.timelineModel().minimumRecordTime();
const maxTime = this._model.timelineModel().maximumRecordTime();
/**
* @param {!SDK.TracingModel.Event} event
* @return {boolean}
*/
function isUpdateCountersEvent(event) {
return event.name === TimelineModel.TimelineModel.RecordType.UpdateCounters;
}
for (let i = 0; i < trackEvents.length; i++) {
trackEvents[i] = trackEvents[i].filter(isUpdateCountersEvent);
}
/**
* @param {!SDK.TracingModel.Event} event
*/
function calculateMinMaxSizes(event) {
const counters = event.args.data;
if (!counters || !counters.jsHeapSizeUsed) {
return;
}
maxUsedHeapSize = Math.max(maxUsedHeapSize, counters.jsHeapSizeUsed);
minUsedHeapSize = Math.min(minUsedHeapSize, counters.jsHeapSizeUsed);
}
for (let i = 0; i < trackEvents.length; i++) {
trackEvents[i].forEach(calculateMinMaxSizes);
}
minUsedHeapSize = Math.min(minUsedHeapSize, maxUsedHeapSize);
const lineWidth = 1;
const width = this.width();
const height = this.height() - lowerOffset;
const xFactor = width / (maxTime - minTime);
const yFactor = (height - lineWidth) / Math.max(maxUsedHeapSize - minUsedHeapSize, 1);
const histogram = new Array(width);
/**
* @param {!SDK.TracingModel.Event} event
*/
function buildHistogram(event) {
const counters = event.args.data;
if (!counters || !counters.jsHeapSizeUsed) {
return;
}
const x = Math.round((event.startTime - minTime) * xFactor);
const y = Math.round((counters.jsHeapSizeUsed - minUsedHeapSize) * yFactor);
// TODO(alph): use sum instead of max.
histogram[x] = Math.max(histogram[x] || 0, y);
}
for (let i = 0; i < trackEvents.length; i++) {
trackEvents[i].forEach(buildHistogram);
}
const ctx = this.context();
const heightBeyondView = height + lowerOffset + lineWidth;
ctx.translate(0.5, 0.5);
ctx.beginPath();
ctx.moveTo(-lineWidth, heightBeyondView);
let y = 0;
let isFirstPoint = true;
let lastX = 0;
for (let x = 0; x < histogram.length; x++) {
if (typeof histogram[x] === 'undefined') {
continue;
}
if (isFirstPoint) {
isFirstPoint = false;
y = histogram[x];
ctx.lineTo(-lineWidth, height - y);
}
const nextY = histogram[x];
if (Math.abs(nextY - y) > 2 && Math.abs(x - lastX) > 1) {
ctx.lineTo(x, height - y);
}
y = nextY;
ctx.lineTo(x, height - y);
lastX = x;
}
ctx.lineTo(width + lineWidth, height - y);
ctx.lineTo(width + lineWidth, heightBeyondView);
ctx.closePath();
ctx.fillStyle = 'hsla(220, 90%, 70%, 0.2)';
ctx.fill();
ctx.lineWidth = lineWidth;
ctx.strokeStyle = 'hsl(220, 90%, 70%)';
ctx.stroke();
this._heapSizeLabel.textContent =
Common.UIString('%s \u2013 %s', Number.bytesToString(minUsedHeapSize), Number.bytesToString(maxUsedHeapSize));
}
};
/**
* @unrestricted
*/
Timeline.Quantizer = class {
/**
* @param {number} startTime
* @param {number} quantDuration
* @param {function(!Array<number>)} callback
*/
constructor(startTime, quantDuration, callback) {
this._lastTime = startTime;
this._quantDuration = quantDuration;
this._callback = callback;
this._counters = [];
this._remainder = quantDuration;
}
/**
* @param {number} time
* @param {number} group
*/
appendInterval(time, group) {
let interval = time - this._lastTime;
if (interval <= this._remainder) {
this._counters[group] = (this._counters[group] || 0) + interval;
this._remainder -= interval;
this._lastTime = time;
return;
}
this._counters[group] = (this._counters[group] || 0) + this._remainder;
this._callback(this._counters);
interval -= this._remainder;
while (interval >= this._quantDuration) {
const counters = [];
counters[group] = this._quantDuration;
this._callback(counters);
interval -= this._quantDuration;
}
this._counters = [];
this._counters[group] = interval;
this._lastTime = time;
this._remainder = this._quantDuration - interval;
}
};
/**
* @unrestricted
*/
Timeline.TimelineEventOverviewCoverage = class extends Timeline.TimelineEventOverview {
constructor() {
super('coverage', Common.UIString('COVERAGE'));
this._heapSizeLabel = this.element.createChild('div', 'timeline-overview-coverage-label');
}
resetHeapSizeLabels() {
this._heapSizeLabel.textContent = '';
}
/**
* @override
* @param {?Timeline.PerformanceModel} model
*/
setModel(model) {
super.setModel(model);
if (this._model) {
this._coverageModel = model.mainTarget().model(Coverage.CoverageModel);
}
}
/**
* @override
*/
update() {
super.update();
const ratio = window.devicePixelRatio;
if (!this._coverageModel) {
return;
}
let total = 0;
let total_used = 0;
/** @type {!Map<!Coverage.CoverageInfo>} */
const usedByTimestamp = new Map();
/** @type {!Map<!Coverage.CoverageInfo>} */
const totalByTimestamp = new Map();
for (const urlInfo of this._coverageModel.entries()) {
for (const info of urlInfo.entries()) {
total += info.size();
for (const [stamp, used] of info.usedByTimestamp()) {
total_used += used;
if (!totalByTimestamp.has(stamp)) {
totalByTimestamp.set(stamp, new Set());
}
totalByTimestamp.get(stamp).add(info);
if (!usedByTimestamp.has(stamp)) {
usedByTimestamp.set(stamp, used);
} else {
usedByTimestamp.set(stamp, usedByTimestamp.get(stamp) + used);
}
}
}
}
/** @type {!Set<!Coverage.CoverageInfo>} */
const seen = new Set();
/** @type {!Map<number, number>} */
const coverageByTimestamp = new Map();
let sumTotal = 0, sumUsed = 0;
const sortedByTimestamp = Array.from(totalByTimestamp.entries()).sort((a, b) => a[0] - b[0]);
for (const [stamp, infos] of sortedByTimestamp) {
for (const info of infos.values()) {
if (seen.has(info)) {
continue;
}
seen.add(info);
sumTotal += info.size();
}
sumUsed += usedByTimestamp.get(stamp);
coverageByTimestamp.set(stamp, sumUsed / sumTotal);
}
const percentUsed = total ? Math.round(100 * total_used / total) : 0;
const lowerOffset = 3 * ratio;
const minTime = this._model.recordStartTime();
const maxTime =
minTime + (this._model.timelineModel().maximumRecordTime() - this._model.timelineModel().minimumRecordTime());
const lineWidth = 1;
const width = this.width();
const height = this.height() - lowerOffset;
const xFactor = width / (maxTime - minTime);
const yFactor = height - lineWidth;
let yOffset = 0;
const ctx = this.context();
const heightBeyondView = height + lowerOffset + lineWidth;
ctx.translate(0.5, 0.5);
ctx.beginPath();
ctx.moveTo(-lineWidth, heightBeyondView);
ctx.lineTo(-lineWidth, height - yOffset);
for (const [stamp, coverage] of coverageByTimestamp) {
if (stamp > maxTime) {
break;
}
const x = (stamp - minTime) * xFactor;
yOffset = coverage * yFactor;
ctx.lineTo(x, height - yOffset);
}
ctx.lineTo(width + lineWidth, height - yOffset);
ctx.lineTo(width + lineWidth, heightBeyondView);
ctx.closePath();
ctx.fillStyle = 'hsla(220, 90%, 70%, 0.2)';
ctx.fill();
ctx.lineWidth = lineWidth;
ctx.strokeStyle = 'hsl(220, 90%, 70%)';
ctx.stroke();
for (const [stamp, coverage] of coverageByTimestamp) {
if (stamp > maxTime) {
break;
}
ctx.beginPath();
const x = (stamp - minTime) * xFactor;
const y = height - coverage * yFactor;
ctx.arc(x, y, 2 * lineWidth, 0, 2 * Math.PI, false);
ctx.closePath();
ctx.stroke();
ctx.fill();
}
this._heapSizeLabel.textContent = `${percentUsed}% used`;
}
};