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META-INF.dirigible.dev-tools.timeline.TimelineFlameChartDataProvider.js Maven / Gradle / Ivy
/*
* Copyright (C) 2014 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.
*/
import * as Bindings from '../bindings/bindings.js';
import * as Common from '../common/common.js';
import * as Host from '../host/host.js';
import * as PerfUI from '../perf_ui/perf_ui.js';
import * as SDK from '../sdk/sdk.js';
import * as TimelineModel from '../timeline_model/timeline_model.js';
import * as UI from '../ui/ui.js';
import {PerformanceModel} from './PerformanceModel.js'; // eslint-disable-line no-unused-vars
import {FlameChartStyle, Selection, TimelineFlameChartMarker} from './TimelineFlameChartView.js';
import {TimelineSelection} from './TimelinePanel.js';
import {TimelineCategory, TimelineUIUtils} from './TimelineUIUtils.js'; // eslint-disable-line no-unused-vars
/**
* @implements {PerfUI.FlameChart.FlameChartDataProvider}
* @unrestricted
*/
export class TimelineFlameChartDataProvider extends Common.ObjectWrapper.ObjectWrapper {
constructor() {
super();
this.reset();
this._font = '11px ' + Host.Platform.fontFamily();
/** @type {?PerfUI.FlameChart.TimelineData} */
this._timelineData = null;
this._currentLevel = 0;
/** @type {?PerformanceModel} */
this._performanceModel = null;
/** @type {?TimelineModel.TimelineModel.TimelineModelImpl} */
this._model = null;
this._minimumBoundary = 0;
this._maximumBoundary = 0;
this._timeSpan = 0;
this._consoleColorGenerator =
new Common.Color.Generator({min: 30, max: 55}, {min: 70, max: 100, count: 6}, 50, 0.7);
this._extensionColorGenerator =
new Common.Color.Generator({min: 210, max: 300}, {min: 70, max: 100, count: 6}, 70, 0.7);
this._headerLevel1 = this._buildGroupStyle({shareHeaderLine: false});
this._headerLevel2 = this._buildGroupStyle({padding: 2, nestingLevel: 1, collapsible: false});
this._staticHeader = this._buildGroupStyle({collapsible: false});
this._framesHeader = this._buildGroupStyle({useFirstLineForOverview: true});
this._timingsHeader = this._buildGroupStyle({shareHeaderLine: true, useFirstLineForOverview: true});
this._screenshotsHeader =
this._buildGroupStyle({useFirstLineForOverview: true, nestingLevel: 1, collapsible: false, itemsHeight: 150});
this._interactionsHeaderLevel1 = this._buildGroupStyle({useFirstLineForOverview: true});
this._interactionsHeaderLevel2 = this._buildGroupStyle({padding: 2, nestingLevel: 1});
/** @type {!Map} */
this._flowEventIndexById = new Map();
}
/**
* @param {!Object} extra
* @return {!PerfUI.FlameChart.GroupStyle}
*/
_buildGroupStyle(extra) {
const defaultGroupStyle = {
padding: 4,
height: 17,
collapsible: true,
color: self.UI.themeSupport.patchColorText('#222', UI.UIUtils.ThemeSupport.ColorUsage.Foreground),
backgroundColor: self.UI.themeSupport.patchColorText('white', UI.UIUtils.ThemeSupport.ColorUsage.Background),
font: this._font,
nestingLevel: 0,
shareHeaderLine: true
};
return /** @type {!PerfUI.FlameChart.GroupStyle} */ (Object.assign(defaultGroupStyle, extra));
}
/**
* @param {?PerformanceModel} performanceModel
*/
setModel(performanceModel) {
this.reset();
this._performanceModel = performanceModel;
this._model = performanceModel && performanceModel.timelineModel();
}
/**
* @param {!PerfUI.FlameChart.Group} group
* @return {?TimelineModel.TimelineModel.Track}
*/
groupTrack(group) {
return group._track || null;
}
/**
* @override
* @param {number} entryIndex
* @return {?string}
*/
entryTitle(entryIndex) {
const entryTypes = EntryType;
const entryType = this._entryType(entryIndex);
if (entryType === entryTypes.Event) {
const event = /** @type {!SDK.TracingModel.Event} */ (this._entryData[entryIndex]);
if (event.phase === SDK.TracingModel.Phase.AsyncStepInto ||
event.phase === SDK.TracingModel.Phase.AsyncStepPast) {
return event.name + ':' + event.args['step'];
}
if (event._blackboxRoot) {
return Common.UIString.UIString('Blackboxed');
}
if (this._performanceModel.timelineModel().isMarkerEvent(event)) {
return TimelineUIUtils.markerShortTitle(event);
}
return TimelineUIUtils.eventTitle(event);
}
if (entryType === entryTypes.ExtensionEvent) {
const event = /** @type {!SDK.TracingModel.Event} */ (this._entryData[entryIndex]);
return event.name;
}
if (entryType === entryTypes.Screenshot) {
return '';
}
let title = this._entryIndexToTitle[entryIndex];
if (!title) {
title = Common.UIString.UIString('Unexpected entryIndex %d', entryIndex);
console.error(title);
}
return title;
}
/**
* @override
* @param {number} index
* @return {string}
*/
textColor(index) {
const event = this._entryData[index];
return event && event._blackboxRoot ? '#888' : FlameChartStyle.textColor;
}
/**
* @override
* @param {number} index
* @return {?string}
*/
entryFont(index) {
return this._font;
}
reset() {
this._currentLevel = 0;
this._timelineData = null;
/** @type {!Array} */
this._entryData = [];
/** @type {!Array} */
this._entryParent = [];
/** @type {!Array} */
this._entryTypeByLevel = [];
/** @type {!Array} */
this._entryIndexToTitle = [];
/** @type {!Array} */
this._markers = [];
/** @type {!Map} */
this._asyncColorByCategory = new Map();
/** @type {!Map} */
this._asyncColorByInteractionPhase = new Map();
/** @type {!Array} */
this._extensionInfo = [];
/** @type {!Map} */
this._screenshotImageCache = new Map();
}
/**
* @override
* @return {number}
*/
maxStackDepth() {
return this._currentLevel;
}
/**
* @override
* @return {!PerfUI.FlameChart.TimelineData}
*/
timelineData() {
if (this._timelineData) {
return this._timelineData;
}
this._timelineData = new PerfUI.FlameChart.TimelineData([], [], [], []);
if (!this._model) {
return this._timelineData;
}
this._flowEventIndexById.clear();
this._minimumBoundary = this._model.minimumRecordTime();
this._timeSpan = this._model.isEmpty() ? 1000 : this._model.maximumRecordTime() - this._minimumBoundary;
this._currentLevel = 0;
if (this._model.isGenericTrace()) {
this._processGenericTrace();
} else {
this._processInspectorTrace();
}
return this._timelineData;
}
_processGenericTrace() {
const processGroupStyle = this._buildGroupStyle({shareHeaderLine: false});
const threadGroupStyle = this._buildGroupStyle({padding: 2, nestingLevel: 1, shareHeaderLine: false});
const eventEntryType = EntryType.Event;
/** @type {!Platform.Multimap} */
const tracksByProcess = new Platform.Multimap();
for (const track of this._model.tracks()) {
if (track.thread !== null) {
tracksByProcess.set(track.thread.process(), track);
} else {
// The Timings track can reach this point, so we should probably do something more useful.
console.error('Failed to process track');
}
}
for (const process of tracksByProcess.keysArray()) {
if (tracksByProcess.size > 1) {
const name = `${process.name()} ${process.id()}`;
this._appendHeader(name, processGroupStyle, false /* selectable */);
}
for (const track of tracksByProcess.get(process)) {
const group = this._appendSyncEvents(
track, track.events, track.name, threadGroupStyle, eventEntryType, true /* selectable */);
if (!this._timelineData.selectedGroup ||
track.name === TimelineModel.TimelineModel.TimelineModelImpl.BrowserMainThreadName) {
this._timelineData.selectedGroup = group;
}
}
}
}
_processInspectorTrace() {
this._appendFrames();
this._appendInteractionRecords();
const eventEntryType = EntryType.Event;
const weight = track => {
switch (track.type) {
case TimelineModel.TimelineModel.TrackType.Input:
return 0;
case TimelineModel.TimelineModel.TrackType.Animation:
return 1;
case TimelineModel.TimelineModel.TrackType.Timings:
return 2;
case TimelineModel.TimelineModel.TrackType.Console:
return 3;
case TimelineModel.TimelineModel.TrackType.MainThread:
return track.forMainFrame ? 4 : 5;
case TimelineModel.TimelineModel.TrackType.Worker:
return 6;
case TimelineModel.TimelineModel.TrackType.Raster:
return 7;
case TimelineModel.TimelineModel.TrackType.GPU:
return 8;
case TimelineModel.TimelineModel.TrackType.Other:
return 9;
}
};
const tracks = this._model.tracks().slice();
tracks.sort((a, b) => weight(a) - weight(b));
let rasterCount = 0;
for (const track of tracks) {
switch (track.type) {
case TimelineModel.TimelineModel.TrackType.Input: {
this._appendAsyncEventsGroup(
track, ls`Input`, track.asyncEvents, this._interactionsHeaderLevel2, eventEntryType,
false /* selectable */);
break;
}
case TimelineModel.TimelineModel.TrackType.Animation: {
this._appendAsyncEventsGroup(
track, ls`Animation`, track.asyncEvents, this._interactionsHeaderLevel2, eventEntryType,
false /* selectable */);
break;
}
case TimelineModel.TimelineModel.TrackType.Timings: {
const group = this._appendHeader(ls`Timings`, this._timingsHeader, true /* selectable */);
group._track = track;
this._appendPageMetrics();
this._appendAsyncEventsGroup(
track, null, track.asyncEvents, this._timingsHeader, eventEntryType, true /* selectable */);
break;
}
case TimelineModel.TimelineModel.TrackType.Console: {
this._appendAsyncEventsGroup(
track, ls`Console`, track.asyncEvents, this._headerLevel1, eventEntryType, true /* selectable */);
break;
}
case TimelineModel.TimelineModel.TrackType.MainThread: {
if (track.forMainFrame) {
const group = this._appendSyncEvents(
track, track.events, track.url ? ls`Main \u2014 ${track.url}` : ls`Main`, this._headerLevel1,
eventEntryType, true /* selectable */);
if (group) {
this._timelineData.selectedGroup = group;
}
} else {
this._appendSyncEvents(
track, track.events, track.url ? ls`Frame \u2014 ${track.url}` : ls`Subframe`, this._headerLevel1,
eventEntryType, true /* selectable */);
}
break;
}
case TimelineModel.TimelineModel.TrackType.Worker: {
this._appendSyncEvents(
track, track.events, track.url ? ls`Worker \u2014 ${track.url}` : ls`Dedicated Worker`,
this._headerLevel1, eventEntryType, true /* selectable */);
break;
}
case TimelineModel.TimelineModel.TrackType.Raster: {
if (!rasterCount) {
this._appendHeader(ls`Raster`, this._headerLevel1, false /* selectable */);
}
++rasterCount;
this._appendSyncEvents(
track, track.events, ls`Rasterizer Thread ${rasterCount}`, this._headerLevel2, eventEntryType,
true /* selectable */);
break;
}
case TimelineModel.TimelineModel.TrackType.GPU: {
this._appendSyncEvents(
track, track.events, ls`GPU`, this._headerLevel1, eventEntryType, true /* selectable */);
break;
}
case TimelineModel.TimelineModel.TrackType.Other: {
this._appendSyncEvents(
track, track.events, track.name || ls`Thread`, this._headerLevel1, eventEntryType, true /* selectable */);
this._appendAsyncEventsGroup(
track, track.name, track.asyncEvents, this._headerLevel1, eventEntryType, true /* selectable */);
break;
}
}
}
if (this._timelineData.selectedGroup) {
this._timelineData.selectedGroup.expanded = true;
}
for (let extensionIndex = 0; extensionIndex < this._extensionInfo.length; extensionIndex++) {
this._innerAppendExtensionEvents(extensionIndex);
}
this._markers.sort((a, b) => a.startTime() - b.startTime());
this._timelineData.markers = this._markers;
this._flowEventIndexById.clear();
}
/**
* @override
* @return {number}
*/
minimumBoundary() {
return this._minimumBoundary;
}
/**
* @override
* @return {number}
*/
totalTime() {
return this._timeSpan;
}
/**
* @param {number} startTime
* @param {number} endTime
* @param {!TimelineModel.TimelineModelFilter.TimelineModelFilter} filter
* @return {!Array}
*/
search(startTime, endTime, filter) {
const result = [];
const entryTypes = EntryType;
this.timelineData();
for (let i = 0; i < this._entryData.length; ++i) {
if (this._entryType(i) !== entryTypes.Event) {
continue;
}
const event = /** @type {!SDK.TracingModel.Event} */ (this._entryData[i]);
if (event.startTime > endTime) {
continue;
}
if ((event.endTime || event.startTime) < startTime) {
continue;
}
if (filter.accept(event)) {
result.push(i);
}
}
result.sort(
(a, b) => SDK.TracingModel.Event.compareStartTime(
/** @type {!SDK.TracingModel.Event} */ (this._entryData[a]),
/** @type {!SDK.TracingModel.Event} */ (this._entryData[b])));
return result;
}
/**
* @param {?TimelineModel.TimelineModel.Track} track
* @param {!Array} events
* @param {string} title
* @param {!PerfUI.FlameChart.GroupStyle} style
* @param {!EntryType} entryType
* @param {boolean} selectable
* @return {?PerfUI.FlameChart.Group}
*/
_appendSyncEvents(track, events, title, style, entryType, selectable) {
if (!events.length) {
return null;
}
const isExtension = entryType === EntryType.ExtensionEvent;
const openEvents = [];
const flowEventsEnabled = Root.Runtime.experiments.isEnabled('timelineFlowEvents');
const blackboxingEnabled = !isExtension && Root.Runtime.experiments.isEnabled('blackboxJSFramesOnTimeline');
let maxStackDepth = 0;
let group = null;
if (track && track.type === TimelineModel.TimelineModel.TrackType.MainThread) {
group = this._appendHeader(title, style, selectable);
group._track = track;
}
for (let i = 0; i < events.length; ++i) {
const e = events[i];
if (!isExtension && this._performanceModel.timelineModel().isMarkerEvent(e)) {
this._markers.push(new TimelineFlameChartMarker(
e.startTime, e.startTime - this._model.minimumRecordTime(), TimelineUIUtils.markerStyleForEvent(e)));
}
if (!SDK.TracingModel.TracingModel.isFlowPhase(e.phase)) {
if (!e.endTime && e.phase !== SDK.TracingModel.Phase.Instant) {
continue;
}
if (SDK.TracingModel.TracingModel.isAsyncPhase(e.phase)) {
continue;
}
if (!isExtension && !this._performanceModel.isVisible(e)) {
continue;
}
}
while (openEvents.length && openEvents.peekLast().endTime <= e.startTime) {
openEvents.pop();
}
e._blackboxRoot = false;
if (blackboxingEnabled && this._isBlackboxedEvent(e)) {
const parent = openEvents.peekLast();
if (parent && parent._blackboxRoot) {
continue;
}
e._blackboxRoot = true;
}
if (!group) {
group = this._appendHeader(title, style, selectable);
if (selectable) {
group._track = track;
}
}
const level = this._currentLevel + openEvents.length;
if (flowEventsEnabled) {
this._appendFlowEvent(e, level);
}
const index = this._appendEvent(e, level);
if (openEvents.length) {
this._entryParent[index] = openEvents.peekLast();
}
if (!isExtension && this._performanceModel.timelineModel().isMarkerEvent(e)) {
this._timelineData.entryTotalTimes[this._entryData.length] = undefined;
}
maxStackDepth = Math.max(maxStackDepth, openEvents.length + 1);
if (e.endTime) {
openEvents.push(e);
}
}
this._entryTypeByLevel.length = this._currentLevel + maxStackDepth;
this._entryTypeByLevel.fill(entryType, this._currentLevel);
this._currentLevel += maxStackDepth;
return group;
}
/**
* @param {!SDK.TracingModel.Event} event
* @return {boolean}
*/
_isBlackboxedEvent(event) {
if (event.name !== TimelineModel.TimelineModel.RecordType.JSFrame) {
return false;
}
const url = event.args['data']['url'];
return url && this._isBlackboxedURL(url);
}
/**
* @param {string} url
* @return {boolean}
*/
_isBlackboxedURL(url) {
return Bindings.BlackboxManager.BlackboxManager.instance().isBlackboxedURL(url);
}
/**
* @param {?TimelineModel.TimelineModel.Track} track
* @param {?string} header
* @param {!Array} events
* @param {!PerfUI.FlameChart.GroupStyle} style
* @param {!EntryType} entryType
* @param {boolean} selectable
* @return {?PerfUI.FlameChart.Group}
*/
_appendAsyncEventsGroup(track, header, events, style, entryType, selectable) {
if (!events.length) {
return null;
}
const lastUsedTimeByLevel = [];
let group = null;
for (let i = 0; i < events.length; ++i) {
const asyncEvent = events[i];
if (!this._performanceModel.isVisible(asyncEvent)) {
continue;
}
if (!group && header) {
group = this._appendHeader(header, style, selectable);
if (selectable) {
group._track = track;
}
}
const startTime = asyncEvent.startTime;
let level;
for (level = 0; level < lastUsedTimeByLevel.length && lastUsedTimeByLevel[level] > startTime; ++level) {
}
this._appendAsyncEvent(asyncEvent, this._currentLevel + level);
lastUsedTimeByLevel[level] = asyncEvent.endTime;
}
this._entryTypeByLevel.length = this._currentLevel + lastUsedTimeByLevel.length;
this._entryTypeByLevel.fill(entryType, this._currentLevel);
this._currentLevel += lastUsedTimeByLevel.length;
return group;
}
_appendInteractionRecords() {
const interactionRecords = this._performanceModel.interactionRecords();
if (!interactionRecords.length) {
return;
}
this._appendHeader(ls`Interactions`, this._interactionsHeaderLevel1, false /* selectable */);
for (const segment of interactionRecords) {
const index = this._entryData.length;
this._entryData.push(/** @type {!TimelineModel.TimelineIRModel.Phases} */ (segment.data));
this._entryIndexToTitle[index] = /** @type {string} */ (segment.data);
this._timelineData.entryLevels[index] = this._currentLevel;
this._timelineData.entryTotalTimes[index] = segment.end - segment.begin;
this._timelineData.entryStartTimes[index] = segment.begin;
}
this._entryTypeByLevel[this._currentLevel++] = EntryType.InteractionRecord;
}
_appendPageMetrics() {
this._entryTypeByLevel[this._currentLevel] = EntryType.Event;
/** @type {!Array} */
const metricEvents = [];
const lcpEvents = [];
const timelineModel = this._performanceModel.timelineModel();
for (const track of this._model.tracks()) {
for (const event of track.events) {
if (!timelineModel.isMarkerEvent(event)) {
continue;
}
if (timelineModel.isLCPCandidateEvent(event) || timelineModel.isLCPInvalidateEvent(event)) {
lcpEvents.push(event);
} else {
metricEvents.push(event);
}
}
}
// Only the LCP event with the largest candidate index is relevant.
// Do not record an LCP event if it is an invalidate event.
if (lcpEvents.length > 0) {
/** @type {!Map} */
const lcpEventsByNavigationId = new Map();
for (const e of lcpEvents) {
const key = e.args['data']['navigationId'];
const previousLastEvent = lcpEventsByNavigationId.get(key);
if (!previousLastEvent || previousLastEvent.args['data']['candidateIndex'] < e.args['data']['candidateIndex']) {
lcpEventsByNavigationId.set(key, e);
}
}
const latestCandidates = Array.from(lcpEventsByNavigationId.values());
const latestEvents = latestCandidates.filter(e => timelineModel.isLCPCandidateEvent(e));
metricEvents.push(...latestEvents);
}
metricEvents.sort(SDK.TracingModel.Event.compareStartTime);
const totalTimes = this._timelineData.entryTotalTimes;
for (const event of metricEvents) {
this._appendEvent(event, this._currentLevel);
totalTimes[totalTimes.length - 1] = Number.NaN;
}
++this._currentLevel;
}
_appendFrames() {
const screenshots = this._performanceModel.filmStripModel().frames();
const hasFilmStrip = !!screenshots.length;
this._framesHeader.collapsible = hasFilmStrip;
this._appendHeader(Common.UIString.UIString('Frames'), this._framesHeader, false /* selectable */);
this._frameGroup = this._timelineData.groups.peekLast();
const style = TimelineUIUtils.markerStyleForFrame();
this._entryTypeByLevel[this._currentLevel] = EntryType.Frame;
for (const frame of this._performanceModel.frames()) {
this._markers.push(
new TimelineFlameChartMarker(frame.startTime, frame.startTime - this._model.minimumRecordTime(), style));
this._appendFrame(frame);
}
++this._currentLevel;
if (!hasFilmStrip) {
return;
}
this._appendHeader('', this._screenshotsHeader, false /* selectable */);
this._entryTypeByLevel[this._currentLevel] = EntryType.Screenshot;
let prevTimestamp;
for (const screenshot of screenshots) {
this._entryData.push(screenshot);
this._timelineData.entryLevels.push(this._currentLevel);
this._timelineData.entryStartTimes.push(screenshot.timestamp);
if (prevTimestamp) {
this._timelineData.entryTotalTimes.push(screenshot.timestamp - prevTimestamp);
}
prevTimestamp = screenshot.timestamp;
}
if (screenshots.length) {
this._timelineData.entryTotalTimes.push(this._model.maximumRecordTime() - prevTimestamp);
}
++this._currentLevel;
}
/**
* @param {number} entryIndex
* @return {!EntryType}
*/
_entryType(entryIndex) {
return this._entryTypeByLevel[this._timelineData.entryLevels[entryIndex]];
}
/**
* @override
* @param {number} entryIndex
* @return {?Element}
*/
prepareHighlightedEntryInfo(entryIndex) {
let time = '';
let title;
let warning;
const type = this._entryType(entryIndex);
if (type === EntryType.Event) {
const event = /** @type {!SDK.TracingModel.Event} */ (this._entryData[entryIndex]);
const totalTime = event.duration;
const selfTime = event.selfTime;
const /** @const */ eps = 1e-6;
if (typeof totalTime === 'number') {
time = Math.abs(totalTime - selfTime) > eps && selfTime > eps ?
Common.UIString.UIString(
'%s (self %s)', Number.millisToString(totalTime, true), Number.millisToString(selfTime, true)) :
Number.millisToString(totalTime, true);
}
if (this._performanceModel.timelineModel().isMarkerEvent(event)) {
title = TimelineUIUtils.eventTitle(event);
} else {
title = this.entryTitle(entryIndex);
}
warning = TimelineUIUtils.eventWarning(event);
} else if (type === EntryType.Frame) {
const frame = /** @type {!TimelineModel.TimelineFrameModel.TimelineFrame} */ (this._entryData[entryIndex]);
time = Common.UIString.UIString(
'%s ~ %.0f\xa0fps', Number.preciseMillisToString(frame.duration, 1), (1000 / frame.duration));
title = frame.idle ? Common.UIString.UIString('Idle Frame') : Common.UIString.UIString('Frame');
if (frame.hasWarnings()) {
warning = createElement('span');
warning.textContent = Common.UIString.UIString('Long frame');
}
} else {
return null;
}
const element = createElement('div');
const root = UI.Utils.createShadowRootWithCoreStyles(element, 'timeline/timelineFlamechartPopover.css');
const contents = root.createChild('div', 'timeline-flamechart-popover');
contents.createChild('span', 'timeline-info-time').textContent = time;
contents.createChild('span', 'timeline-info-title').textContent = title;
if (warning) {
warning.classList.add('timeline-info-warning');
contents.appendChild(warning);
}
return element;
}
/**
* @override
* @param {number} entryIndex
* @return {string}
*/
entryColor(entryIndex) {
// This is not annotated due to closure compiler failure to properly infer cache container's template type.
function patchColorAndCache(cache, key, lookupColor) {
let color = cache.get(key);
if (color) {
return color;
}
const parsedColor = Common.Color.Color.parse(lookupColor(key));
color = parsedColor.setAlpha(0.7).asString(Common.Color.Format.RGBA) || '';
cache.set(key, color);
return color;
}
const entryTypes = EntryType;
const type = this._entryType(entryIndex);
if (type === entryTypes.Event) {
const event = /** @type {!SDK.TracingModel.Event} */ (this._entryData[entryIndex]);
if (this._model.isGenericTrace()) {
return this._genericTraceEventColor(event);
}
if (this._performanceModel.timelineModel().isMarkerEvent(event)) {
return TimelineUIUtils.markerStyleForEvent(event).color;
}
if (!SDK.TracingModel.TracingModel.isAsyncPhase(event.phase)) {
return this._colorForEvent(event);
}
if (event.hasCategory(TimelineModel.TimelineModel.TimelineModelImpl.Category.Console) ||
event.hasCategory(TimelineModel.TimelineModel.TimelineModelImpl.Category.UserTiming)) {
return this._consoleColorGenerator.colorForID(event.name);
}
if (event.hasCategory(TimelineModel.TimelineModel.TimelineModelImpl.Category.LatencyInfo)) {
const phase = TimelineModel.TimelineIRModel.TimelineIRModel.phaseForEvent(event) ||
TimelineModel.TimelineIRModel.Phases.Uncategorized;
return patchColorAndCache(this._asyncColorByInteractionPhase, phase, TimelineUIUtils.interactionPhaseColor);
}
const category = TimelineUIUtils.eventStyle(event).category;
return patchColorAndCache(this._asyncColorByCategory, category, () => category.color);
}
if (type === entryTypes.Frame) {
return 'white';
}
if (type === entryTypes.InteractionRecord) {
return 'transparent';
}
if (type === entryTypes.ExtensionEvent) {
const event = /** @type {!SDK.TracingModel.Event} */ (this._entryData[entryIndex]);
return this._extensionColorGenerator.colorForID(event.name);
}
return '';
}
/**
* @param {!SDK.TracingModel.Event} event
* @return {string}
*/
_genericTraceEventColor(event) {
const key = event.categoriesString || event.name;
return key ? `hsl(${String.hashCode(key) % 300 + 30}, 40%, 70%)` : '#ccc';
}
/**
* @param {number} entryIndex
* @param {!CanvasRenderingContext2D} context
* @param {?string} text
* @param {number} barX
* @param {number} barY
* @param {number} barWidth
* @param {number} barHeight
*/
_drawFrame(entryIndex, context, text, barX, barY, barWidth, barHeight) {
const /** @const */ hPadding = 1;
const frame = /** @type {!TimelineModel.TimelineFrameModel.TimelineFrame} */ (this._entryData[entryIndex]);
barX += hPadding;
barWidth -= 2 * hPadding;
context.fillStyle = frame.idle ? 'white' : (frame.hasWarnings() ? '#fad1d1' : '#d7f0d1');
context.fillRect(barX, barY, barWidth, barHeight);
const frameDurationText = Number.preciseMillisToString(frame.duration, 1);
const textWidth = context.measureText(frameDurationText).width;
if (textWidth <= barWidth) {
context.fillStyle = this.textColor(entryIndex);
context.fillText(frameDurationText, barX + (barWidth - textWidth) / 2, barY + barHeight - 4);
}
}
/**
* @param {number} entryIndex
* @param {!CanvasRenderingContext2D} context
* @param {number} barX
* @param {number} barY
* @param {number} barWidth
* @param {number} barHeight
*/
async _drawScreenshot(entryIndex, context, barX, barY, barWidth, barHeight) {
const screenshot = /** @type {!SDK.FilmStripModel.Frame} */ (this._entryData[entryIndex]);
if (!this._screenshotImageCache.has(screenshot)) {
this._screenshotImageCache.set(screenshot, null);
const data = await screenshot.imageDataPromise();
const image = await UI.UIUtils.loadImageFromData(data);
this._screenshotImageCache.set(screenshot, image);
this.dispatchEventToListeners(Events.DataChanged);
return;
}
const image = this._screenshotImageCache.get(screenshot);
if (!image) {
return;
}
const imageX = barX + 1;
const imageY = barY + 1;
const imageHeight = barHeight - 2;
const scale = imageHeight / image.naturalHeight;
const imageWidth = Math.floor(image.naturalWidth * scale);
context.save();
context.beginPath();
context.rect(barX, barY, barWidth, barHeight);
context.clip();
context.drawImage(image, imageX, imageY, imageWidth, imageHeight);
context.strokeStyle = '#ccc';
context.strokeRect(imageX - 0.5, imageY - 0.5, Math.min(barWidth - 1, imageWidth + 1), imageHeight);
context.restore();
}
/**
* @override
* @param {number} entryIndex
* @param {!CanvasRenderingContext2D} context
* @param {?string} text
* @param {number} barX
* @param {number} barY
* @param {number} barWidth
* @param {number} barHeight
* @param {number} unclippedBarX
* @param {number} timeToPixels
* @return {boolean}
*/
decorateEntry(entryIndex, context, text, barX, barY, barWidth, barHeight, unclippedBarX, timeToPixels) {
const data = this._entryData[entryIndex];
const type = this._entryType(entryIndex);
const entryTypes = EntryType;
if (type === entryTypes.Frame) {
this._drawFrame(entryIndex, context, text, barX, barY, barWidth, barHeight);
return true;
}
if (type === entryTypes.Screenshot) {
this._drawScreenshot(entryIndex, context, barX, barY, barWidth, barHeight);
return true;
}
if (type === entryTypes.InteractionRecord) {
const color = TimelineUIUtils.interactionPhaseColor(
/** @type {!TimelineModel.TimelineIRModel.Phases} */ (data));
context.fillStyle = color;
context.fillRect(barX, barY, barWidth - 1, 2);
context.fillRect(barX, barY - 3, 2, 3);
context.fillRect(barX + barWidth - 3, barY - 3, 2, 3);
return false;
}
if (type === entryTypes.Event) {
const event = /** @type {!SDK.TracingModel.Event} */ (data);
if (event.hasCategory(TimelineModel.TimelineModel.TimelineModelImpl.Category.LatencyInfo)) {
const timeWaitingForMainThread =
TimelineModel.TimelineModel.TimelineData.forEvent(event).timeWaitingForMainThread;
if (timeWaitingForMainThread) {
context.fillStyle = 'hsla(0, 70%, 60%, 1)';
const width = Math.floor(unclippedBarX - barX + timeWaitingForMainThread * timeToPixels);
context.fillRect(barX, barY + barHeight - 3, width, 2);
}
}
if (TimelineModel.TimelineModel.TimelineData.forEvent(event).warning) {
paintWarningDecoration(barX, barWidth - 1.5);
}
}
/**
* @param {number} x
* @param {number} width
*/
function paintWarningDecoration(x, width) {
const /** @const */ triangleSize = 8;
context.save();
context.beginPath();
context.rect(x, barY, width, barHeight);
context.clip();
context.beginPath();
context.fillStyle = 'red';
context.moveTo(x + width - triangleSize, barY);
context.lineTo(x + width, barY);
context.lineTo(x + width, barY + triangleSize);
context.fill();
context.restore();
}
return false;
}
/**
* @override
* @param {number} entryIndex
* @return {boolean}
*/
forceDecoration(entryIndex) {
const entryTypes = EntryType;
const type = this._entryType(entryIndex);
if (type === entryTypes.Frame) {
return true;
}
if (type === entryTypes.Screenshot) {
return true;
}
if (type === entryTypes.Event) {
const event = /** @type {!SDK.TracingModel.Event} */ (this._entryData[entryIndex]);
return !!TimelineModel.TimelineModel.TimelineData.forEvent(event).warning;
}
return false;
}
/**
* @param {!{title: string, model: !SDK.TracingModel.TracingModel}} entry
*/
appendExtensionEvents(entry) {
this._extensionInfo.push(entry);
if (this._timelineData) {
this._innerAppendExtensionEvents(this._extensionInfo.length - 1);
}
}
/**
* @param {number} index
*/
_innerAppendExtensionEvents(index) {
const entry = this._extensionInfo[index];
const entryType = EntryType.ExtensionEvent;
const allThreads = [].concat(...entry.model.sortedProcesses().map(process => process.sortedThreads()));
if (!allThreads.length) {
return;
}
const singleTrack =
allThreads.length === 1 && (!allThreads[0].events().length || !allThreads[0].asyncEvents().length);
if (!singleTrack) {
this._appendHeader(entry.title, this._headerLevel1, false /* selectable */);
}
const style = singleTrack ? this._headerLevel2 : this._headerLevel1;
let threadIndex = 0;
for (const thread of allThreads) {
const title = singleTrack ? entry.title : thread.name() || ls`Thread ${++threadIndex}`;
this._appendAsyncEventsGroup(null, title, thread.asyncEvents(), style, entryType, false /* selectable */);
this._appendSyncEvents(null, thread.events(), title, style, entryType, false /* selectable */);
}
}
/**
* @param {string} title
* @param {!PerfUI.FlameChart.GroupStyle} style
* @param {boolean} selectable
* @return {!PerfUI.FlameChart.Group}
*/
_appendHeader(title, style, selectable) {
const group = {startLevel: this._currentLevel, name: title, style: style, selectable: selectable};
this._timelineData.groups.push(group);
return group;
}
/**
* @param {!SDK.TracingModel.Event} event
* @param {number} level
* @return {number}
*/
_appendEvent(event, level) {
const index = this._entryData.length;
this._entryData.push(event);
this._timelineData.entryLevels[index] = level;
this._timelineData.entryTotalTimes[index] = event.duration || InstantEventVisibleDurationMs;
this._timelineData.entryStartTimes[index] = event.startTime;
event[indexSymbol] = index;
return index;
}
/**
* @param {!SDK.TracingModel.AsyncEvent} asyncEvent
* @param {number} level
*/
_appendAsyncEvent(asyncEvent, level) {
if (SDK.TracingModel.TracingModel.isNestableAsyncPhase(asyncEvent.phase)) {
// FIXME: also add steps once we support event nesting in the FlameChart.
this._appendEvent(asyncEvent, level);
return;
}
const steps = asyncEvent.steps;
// If we have past steps, put the end event for each range rather than start one.
const eventOffset = steps.length > 1 && steps[1].phase === SDK.TracingModel.Phase.AsyncStepPast ? 1 : 0;
for (let i = 0; i < steps.length - 1; ++i) {
const index = this._entryData.length;
this._entryData.push(steps[i + eventOffset]);
const startTime = steps[i].startTime;
this._timelineData.entryLevels[index] = level;
this._timelineData.entryTotalTimes[index] = steps[i + 1].startTime - startTime;
this._timelineData.entryStartTimes[index] = startTime;
}
}
/**
* @param {!SDK.TracingModel.Event} event
* @param {number} level
*/
_appendFlowEvent(event, level) {
const timelineData = this._timelineData;
/**
* @param {!SDK.TracingModel.Event} event
* @return {number}
*/
function pushStartFlow(event) {
const flowIndex = timelineData.flowStartTimes.length;
timelineData.flowStartTimes.push(event.startTime);
timelineData.flowStartLevels.push(level);
return flowIndex;
}
/**
* @param {!SDK.TracingModel.Event} event
* @param {number} flowIndex
*/
function pushEndFlow(event, flowIndex) {
timelineData.flowEndTimes[flowIndex] = event.startTime;
timelineData.flowEndLevels[flowIndex] = level;
}
switch (event.phase) {
case SDK.TracingModel.Phase.FlowBegin:
this._flowEventIndexById.set(event.id, pushStartFlow(event));
break;
case SDK.TracingModel.Phase.FlowStep:
pushEndFlow(event, this._flowEventIndexById.get(event.id));
this._flowEventIndexById.set(event.id, pushStartFlow(event));
break;
case SDK.TracingModel.Phase.FlowEnd:
pushEndFlow(event, this._flowEventIndexById.get(event.id));
this._flowEventIndexById.delete(event.id);
break;
}
}
/**
* @param {!TimelineModel.TimelineFrameModel.TimelineFrame} frame
*/
_appendFrame(frame) {
const index = this._entryData.length;
this._entryData.push(frame);
this._entryIndexToTitle[index] = Number.millisToString(frame.duration, true);
this._timelineData.entryLevels[index] = this._currentLevel;
this._timelineData.entryTotalTimes[index] = frame.duration;
this._timelineData.entryStartTimes[index] = frame.startTime;
}
/**
* @param {number} entryIndex
* @return {?TimelineSelection}
*/
createSelection(entryIndex) {
const type = this._entryType(entryIndex);
let timelineSelection = null;
if (type === EntryType.Event) {
timelineSelection = TimelineSelection.fromTraceEvent(
/** @type {!SDK.TracingModel.Event} */ (this._entryData[entryIndex]));
} else if (type === EntryType.Frame) {
timelineSelection = TimelineSelection.fromFrame(
/** @type {!TimelineModel.TimelineFrameModel.TimelineFrame} */ (this._entryData[entryIndex]));
}
if (timelineSelection) {
this._lastSelection = new Selection(timelineSelection, entryIndex);
}
return timelineSelection;
}
/**
* @override
* @param {number} value
* @param {number=} precision
* @return {string}
*/
formatValue(value, precision) {
return Number.preciseMillisToString(value, precision);
}
/**
* @override
* @param {number} entryIndex
* @return {boolean}
*/
canJumpToEntry(entryIndex) {
return false;
}
/**
* @param {?TimelineSelection} selection
* @return {number}
*/
entryIndexForSelection(selection) {
if (!selection || selection.type() === TimelineSelection.Type.Range) {
return -1;
}
if (this._lastSelection && this._lastSelection.timelineSelection.object() === selection.object()) {
return this._lastSelection.entryIndex;
}
const index = this._entryData.indexOf(
/** @type {!SDK.TracingModel.Event|!TimelineModel.TimelineFrameModel.TimelineFrame|!TimelineModel.TimelineIRModel.Phases} */
(selection.object()));
if (index !== -1) {
this._lastSelection = new Selection(selection, index);
}
return index;
}
/**
* @param {number} entryIndex
* @return {boolean}
*/
buildFlowForInitiator(entryIndex) {
if (this._lastInitiatorEntry === entryIndex) {
return false;
}
this._lastInitiatorEntry = entryIndex;
let event = this.eventByIndex(entryIndex);
const td = this._timelineData;
td.flowStartTimes = [];
td.flowStartLevels = [];
td.flowEndTimes = [];
td.flowEndLevels = [];
while (event) {
// Find the closest ancestor with an initiator.
let initiator;
for (; event; event = this._eventParent(event)) {
initiator = TimelineModel.TimelineModel.TimelineData.forEvent(event).initiator();
if (initiator) {
break;
}
}
if (!initiator) {
break;
}
const eventIndex = event[indexSymbol];
const initiatorIndex = initiator[indexSymbol];
td.flowStartTimes.push(initiator.endTime || initiator.startTime);
td.flowStartLevels.push(td.entryLevels[initiatorIndex]);
td.flowEndTimes.push(event.startTime);
td.flowEndLevels.push(td.entryLevels[eventIndex]);
event = initiator;
}
return true;
}
/**
* @param {!SDK.TracingModel.Event} event
* @return {?SDK.TracingModel.Event}
*/
_eventParent(event) {
return this._entryParent[event[indexSymbol]] || null;
}
/**
* @param {number} entryIndex
* @return {?SDK.TracingModel.Event}
*/
eventByIndex(entryIndex) {
return entryIndex >= 0 && this._entryType(entryIndex) === EntryType.Event ?
/** @type {!SDK.TracingModel.Event} */ (this._entryData[entryIndex]) :
null;
}
/**
* @param {function(!SDK.TracingModel.Event):string} colorForEvent
*/
setEventColorMapping(colorForEvent) {
this._colorForEvent = colorForEvent;
}
}
export const InstantEventVisibleDurationMs = 0.001;
export const indexSymbol = Symbol('index');
/** @enum {symbol} */
export const Events = {
DataChanged: Symbol('DataChanged')
};
/** @enum {symbol} */
export const EntryType = {
Frame: Symbol('Frame'),
Event: Symbol('Event'),
InteractionRecord: Symbol('InteractionRecord'),
ExtensionEvent: Symbol('ExtensionEvent'),
Screenshot: Symbol('Screenshot'),
};