third_party/perfetto/ui/src/frontend/flamegraph.ts - cobalt - Git at Google

 // Copyright (C) 2018 The Android Open Source Project
 //
 // Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 import {searchSegment} from '../base/binary_search';
 import {cropText} from '../common/canvas_utils';

 import {CallsiteInfo} from '../common/state';

 interface Node {
   width: number;
   x: number;
   nextXForChildren: number;
   size: number;
 }

 interface CallsiteInfoWidth {
   callsite: CallsiteInfo;
   width: number;
 }

 // Height of one 'row' on the flame chart including 1px of whitespace
 // below the box.
 const NODE_HEIGHT = 18;

 export const FLAMEGRAPH_HOVERED_COLOR = 'hsl(224, 45%, 55%)';

 export function findRootSize(data: CallsiteInfo[]) {
   let totalSize = 0;
   let i = 0;
   while (i < data.length && data[i].depth === 0) {
     totalSize += data[i].totalSize;
     i++;
   }
   return totalSize;
 }

 export interface NodeRendering {
   totalSize?: string;
   selfSize?: string;
 }

 export class Flamegraph {
   private nodeRendering: NodeRendering = {};
   private flamegraphData: CallsiteInfo[];
   private highlightSomeNodes = false;
   private maxDepth = -1;
   private totalSize = -1;
   // Initialised on first draw() call
   private labelCharWidth = 0;
   private labelFontStyle = '12px Roboto Mono';
   private rolloverFontStyle = '12px Roboto Condensed';
   // Key for the map is depth followed by x coordinate - `depth;x`
   private graphData: Map<string, CallsiteInfoWidth> = new Map();
   private xStartsPerDepth: Map<number, number[]> = new Map();

   private hoveredX = -1;
   private hoveredY = -1;
   private hoveredCallsite?: CallsiteInfo;
   private clickedCallsite?: CallsiteInfo;

   private startingY = 0;

   constructor(flamegraphData: CallsiteInfo[]) {
     this.flamegraphData = flamegraphData;
     this.findMaxDepth();
   }

   private findMaxDepth() {
     this.maxDepth =
         Math.max(...this.flamegraphData.map((value) => value.depth));
   }

   // Instead of highlighting the interesting nodes, we actually want to
   // de-emphasize the non-highlighted nodes. Returns true if there
   // are any highlighted nodes in the flamegraph.
   private highlightingExists() {
     this.highlightSomeNodes = this.flamegraphData.some((e) => e.highlighted);
   }

   generateColor(name: string, isGreyedOut = false, highlighted: boolean):
       string {
     if (isGreyedOut) {
       return '#d9d9d9';
     }
     if (name === 'unknown' || name === 'root') {
       return '#c0c0c0';
     }
     let x = 0;
     for (let i = 0; i < name.length; i += 1) {
       x += name.charCodeAt(i) % 64;
     }
     x = x % 360;
     let l = '76';
     // Make non-highlighted node lighter.
     if (this.highlightSomeNodes && !highlighted) {
       l = '90';
     }
     return `hsl(${x}deg, 45%, ${l}%)`;
   }

   // Caller will have to call draw method after updating data to have updated
   // graph.
   updateDataIfChanged(
       nodeRendering: NodeRendering, flamegraphData: CallsiteInfo[],
       clickedCallsite?: CallsiteInfo) {
     this.nodeRendering = nodeRendering;
     this.clickedCallsite = clickedCallsite;
     if (this.flamegraphData === flamegraphData) {
       return;
     }
     this.flamegraphData = flamegraphData;
     this.clickedCallsite = clickedCallsite;
     this.findMaxDepth();
     this.highlightingExists();
     // Finding total size of roots.
     this.totalSize = findRootSize(flamegraphData);
   }

   draw(
       ctx: CanvasRenderingContext2D, width: number, height: number, x = 0,
       y = 0, unit = 'B') {
     if (this.flamegraphData === undefined) {
       return;
     }

     ctx.font = this.labelFontStyle;
     ctx.textBaseline = 'middle';
     if (this.labelCharWidth === 0) {
       this.labelCharWidth = ctx.measureText('_').width;
     }

     this.startingY = y;

     // For each node, we use this map to get information about it's parent
     // (total size of it, width and where it starts in graph) so we can
     // calculate it's own position in graph.
     const nodesMap = new Map<number, Node>();
     let currentY = y;
     nodesMap.set(-1, {width, nextXForChildren: x, size: this.totalSize, x});

     // Initialize data needed for click/hover behavior.
     this.graphData = new Map();
     this.xStartsPerDepth = new Map();

     // Draw root node.
     ctx.fillStyle = this.generateColor('root', false, false);
     ctx.fillRect(x, currentY, width, NODE_HEIGHT - 1);
     const text = cropText(
         `root: ${
             this.displaySize(
                 this.totalSize, unit, unit === 'B' ? 1024 : 1000)}`,
         this.labelCharWidth,
         width - 2);
     ctx.fillStyle = 'black';
     ctx.fillText(text, x + 5, currentY + (NODE_HEIGHT - 1) / 2);
     currentY += NODE_HEIGHT;

     // Set style for borders.
     ctx.strokeStyle = 'white';
     ctx.lineWidth = 0.5;

     for (let i = 0; i < this.flamegraphData.length; i++) {
       if (currentY > height) {
         break;
       }
       const value = this.flamegraphData[i];
       const parentNode = nodesMap.get(value.parentId);
       if (parentNode === undefined) {
         continue;
       }

       const isClicked = this.clickedCallsite !== undefined;
       const isFullWidth =
           isClicked && value.depth <= this.clickedCallsite!.depth;
       const isGreyedOut =
           isClicked && value.depth < this.clickedCallsite!.depth;

       const parent = value.parentId;
       const parentSize = parent === -1 ? this.totalSize : parentNode.size;
       // Calculate node's width based on its proportion in parent.
       const width =
           (isFullWidth ? 1 : value.totalSize / parentSize) * parentNode.width;

       const currentX = parentNode.nextXForChildren;
       currentY = y + NODE_HEIGHT * (value.depth + 1);

       // Draw node.
       const name = this.getCallsiteName(value);
       ctx.fillStyle = this.generateColor(name, isGreyedOut, value.highlighted);
       ctx.fillRect(currentX, currentY, width, NODE_HEIGHT - 1);

       // Set current node's data in map for children to use.
       nodesMap.set(value.id, {
         width,
         nextXForChildren: currentX,
         size: value.totalSize,
         x: currentX,
       });
       // Update next x coordinate in parent.
       nodesMap.set(value.parentId, {
         width: parentNode.width,
         nextXForChildren: currentX + width,
         size: parentNode.size,
         x: parentNode.x,
       });

       // Draw name.
       const labelPaddingPx = 5;
       const maxLabelWidth = width - labelPaddingPx * 2;
       let text = cropText(name, this.labelCharWidth, maxLabelWidth);
       // If cropped text and the original text are within 20% we keep the
       // original text and just squish it a bit.
       if (text.length * 1.2 > name.length) {
         text = name;
       }
       ctx.fillStyle = 'black';
       ctx.fillText(
           text,
           currentX + labelPaddingPx,
           currentY + (NODE_HEIGHT - 1) / 2,
           maxLabelWidth);

       // Draw border on the right of node.
       ctx.beginPath();
       ctx.moveTo(currentX + width, currentY);
       ctx.lineTo(currentX + width, currentY + NODE_HEIGHT);
       ctx.stroke();

       // Add this node for recognizing in click/hover.
       // Map graphData contains one callsite which is on that depth and X
       // start. Map xStartsPerDepth for each depth contains all X start
       // coordinates that callsites on that level have.
       this.graphData.set(
           `${value.depth};${currentX}`, {callsite: value, width});
       const xStarts = this.xStartsPerDepth.get(value.depth);
       if (xStarts === undefined) {
         this.xStartsPerDepth.set(value.depth, [currentX]);
       } else {
         xStarts.push(currentX);
       }
     }

     // Draw the tooltip.
     if (this.hoveredX > -1 && this.hoveredY > -1 && this.hoveredCallsite) {
       // Must set these before measureText below.
       ctx.font = this.rolloverFontStyle;
       ctx.textBaseline = 'top';

       // Size in px of the border around the text and the edge of the rollover
       // background.
       const paddingPx = 8;
       // Size in px of the x and y offset between the mouse and the top left
       // corner of the rollover box.
       const offsetPx = 4;

       const lines: string[] = [];

       let textWidth = this.addToTooltip(
           this.getCallsiteName(this.hoveredCallsite),
           width - paddingPx,
           ctx,
           lines);
       if (this.hoveredCallsite.location != null) {
         textWidth = Math.max(
             textWidth,
             this.addToTooltip(
                 this.hoveredCallsite.location, width, ctx, lines));
       }
       textWidth = Math.max(
           textWidth,
           this.addToTooltip(this.hoveredCallsite.mapping, width, ctx, lines));

       if (this.nodeRendering.totalSize !== undefined) {
         const percentage =
             this.hoveredCallsite.totalSize / this.totalSize * 100;
         const totalSizeText = `${this.nodeRendering.totalSize}: ${
             this.displaySize(
                 this.hoveredCallsite.totalSize,
                 unit,
                 unit === 'B' ? 1024 : 1000)} (${percentage.toFixed(2)}%)`;
         textWidth = Math.max(
             textWidth, this.addToTooltip(totalSizeText, width, ctx, lines));
       }

       if (this.nodeRendering.selfSize !== undefined &&
           this.hoveredCallsite.selfSize > 0) {
         const selfPercentage =
             this.hoveredCallsite.selfSize / this.totalSize * 100;
         const selfSizeText = `${this.nodeRendering.selfSize}: ${
             this.displaySize(
                 this.hoveredCallsite.selfSize,
                 unit,
                 unit === 'B' ? 1024 : 1000)} (${selfPercentage.toFixed(2)}%)`;
         textWidth = Math.max(
             textWidth, this.addToTooltip(selfSizeText, width, ctx, lines));
       }

       // Compute a line height as the bounding box height + 50%:
       const heightSample = ctx.measureText(
           'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ');
       const lineHeight =
           Math.round(heightSample.actualBoundingBoxDescent * 1.5);

       const rectWidth = textWidth + 2 * paddingPx;
       const rectHeight = lineHeight * lines.length + 2 * paddingPx;

       let rectXStart = this.hoveredX + offsetPx;
       let rectYStart = this.hoveredY + offsetPx;

       if (rectXStart + rectWidth > width) {
         rectXStart = width - rectWidth;
       }

       if (rectYStart + rectHeight > height) {
         rectYStart = height - rectHeight;
       }

       ctx.fillStyle = 'rgba(255, 255, 255, 0.9)';
       ctx.fillRect(rectXStart, rectYStart, rectWidth, rectHeight);
       ctx.fillStyle = 'hsl(200, 50%, 40%)';
       ctx.textAlign = 'left';
       for (let i = 0; i < lines.length; i++) {
         const line = lines[i];
         ctx.fillText(
             line,
             rectXStart + paddingPx,
             rectYStart + paddingPx + i * lineHeight);
       }
     }
   }

   private addToTooltip(
       text: string, width: number, ctx: CanvasRenderingContext2D,
       lines: string[]): number {
     const lineSplitter: LineSplitter =
         splitIfTooBig(text, width, ctx.measureText(text).width);
     lines.push(...lineSplitter.lines);
     return lineSplitter.lineWidth;
   }

   private getCallsiteName(value: CallsiteInfo): string {
     return value.name === undefined || value.name === '' ? 'unknown' :
                                                            value.name;
   }

   private displaySize(totalSize: number, unit: string, step = 1024): string {
     if (unit === '') return totalSize.toLocaleString();
     if (totalSize === 0) return `0 ${unit}`;
     const units = [
       ['', 1],
       ['K', step],
       ['M', Math.pow(step, 2)],
       ['G', Math.pow(step, 3)],
     ];
     let unitsIndex = Math.trunc(Math.log(totalSize) / Math.log(step));
     unitsIndex = unitsIndex > units.length - 1 ? units.length - 1 : unitsIndex;
     const result = totalSize / +units[unitsIndex][1];
     const resultString = totalSize % +units[unitsIndex][1] === 0 ?
         result.toString() :
         result.toFixed(2);
     return `${resultString} ${units[unitsIndex][0]}${unit}`;
   }

   onMouseMove({x, y}: {x: number, y: number}) {
     this.hoveredX = x;
     this.hoveredY = y;
     this.hoveredCallsite = this.findSelectedCallsite(x, y);
     const isCallsiteSelected = this.hoveredCallsite !== undefined;
     if (!isCallsiteSelected) {
       this.onMouseOut();
     }
     return isCallsiteSelected;
   }

   onMouseOut() {
     this.hoveredX = -1;
     this.hoveredY = -1;
     this.hoveredCallsite = undefined;
   }

   onMouseClick({x, y}: {x: number, y: number}): CallsiteInfo|undefined {
     const clickedCallsite = this.findSelectedCallsite(x, y);
     // TODO(b/148596659): Allow to expand [merged] callsites. Currently,
     // this expands to the biggest of the nodes that were merged, which
     // is confusing, so we disallow clicking on them.
     if (clickedCallsite === undefined || clickedCallsite.merged) {
       return undefined;
     }
     return clickedCallsite;
   }

   private findSelectedCallsite(x: number, y: number): CallsiteInfo|undefined {
     const depth =
         Math.trunc((y - this.startingY) / NODE_HEIGHT) - 1;  // at 0 is root
     if (depth >= 0 && this.xStartsPerDepth.has(depth)) {
       const startX = this.searchSmallest(this.xStartsPerDepth.get(depth)!, x);
       const result = this.graphData.get(`${depth};${startX}`);
       if (result !== undefined) {
         const width = result.width;
         return startX + width >= x ? result.callsite : undefined;
       }
     }
     return undefined;
   }

   searchSmallest(haystack: number[], needle: number): number {
     haystack = haystack.sort((n1, n2) => n1 - n2);
     const [left] = searchSegment(haystack, needle);
     return left === -1 ? -1 : haystack[left];
   }

   getHeight(): number {
     return this.flamegraphData.length === 0 ? 0 :
                                               (this.maxDepth + 2) * NODE_HEIGHT;
   }
 }

 export interface LineSplitter {
   lineWidth: number;
   lines: string[];
 }

 export function splitIfTooBig(
     line: string, width: number, lineWidth: number): LineSplitter {
   if (line === '') return {lineWidth, lines: []};
   const lines: string[] = [];
   const charWidth = lineWidth / line.length;
   const maxWidth = width - 32;
   const maxLineLen = Math.trunc(maxWidth / charWidth);
   while (line.length > 0) {
     lines.push(line.slice(0, maxLineLen));
     line = line.slice(maxLineLen);
   }
   lineWidth = Math.min(maxLineLen * charWidth, lineWidth);
   return {lineWidth, lines};
 }
	// Copyright (C) 2018 The Android Open Source Project
	//
	// Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	import {searchSegment} from '../base/binary_search';
	import {cropText} from '../common/canvas_utils';

	import {CallsiteInfo} from '../common/state';

	interface Node {
	width: number;
	x: number;
	nextXForChildren: number;
	size: number;
	}

	interface CallsiteInfoWidth {
	callsite: CallsiteInfo;
	width: number;
	}

	// Height of one 'row' on the flame chart including 1px of whitespace
	// below the box.
	const NODE_HEIGHT = 18;

	export const FLAMEGRAPH_HOVERED_COLOR = 'hsl(224, 45%, 55%)';

	export function findRootSize(data: CallsiteInfo[]) {
	let totalSize = 0;
	let i = 0;
	while (i < data.length && data[i].depth === 0) {
	totalSize += data[i].totalSize;
	i++;
	}
	return totalSize;
	}

	export interface NodeRendering {
	totalSize?: string;
	selfSize?: string;
	}

	export class Flamegraph {
	private nodeRendering: NodeRendering = {};
	private flamegraphData: CallsiteInfo[];
	private highlightSomeNodes = false;
	private maxDepth = -1;
	private totalSize = -1;
	// Initialised on first draw() call
	private labelCharWidth = 0;
	private labelFontStyle = '12px Roboto Mono';
	private rolloverFontStyle = '12px Roboto Condensed';
	// Key for the map is depth followed by x coordinate - `depth;x`
	private graphData: Map<string, CallsiteInfoWidth> = new Map();
	private xStartsPerDepth: Map<number, number[]> = new Map();

	private hoveredX = -1;
	private hoveredY = -1;
	private hoveredCallsite?: CallsiteInfo;
	private clickedCallsite?: CallsiteInfo;

	private startingY = 0;

	constructor(flamegraphData: CallsiteInfo[]) {
	this.flamegraphData = flamegraphData;
	this.findMaxDepth();
	}

	private findMaxDepth() {
	this.maxDepth =
	Math.max(...this.flamegraphData.map((value) => value.depth));
	}

	// Instead of highlighting the interesting nodes, we actually want to
	// de-emphasize the non-highlighted nodes. Returns true if there
	// are any highlighted nodes in the flamegraph.
	private highlightingExists() {
	this.highlightSomeNodes = this.flamegraphData.some((e) => e.highlighted);
	}

	generateColor(name: string, isGreyedOut = false, highlighted: boolean):
	string {
	if (isGreyedOut) {
	return '#d9d9d9';
	}
	if (name === 'unknown' \|\| name === 'root') {
	return '#c0c0c0';
	}
	let x = 0;
	for (let i = 0; i < name.length; i += 1) {
	x += name.charCodeAt(i) % 64;
	}
	x = x % 360;
	let l = '76';
	// Make non-highlighted node lighter.
	if (this.highlightSomeNodes && !highlighted) {
	l = '90';
	}
	return `hsl(${x}deg, 45%, ${l}%)`;
	}

	// Caller will have to call draw method after updating data to have updated
	// graph.
	updateDataIfChanged(
	nodeRendering: NodeRendering, flamegraphData: CallsiteInfo[],
	clickedCallsite?: CallsiteInfo) {
	this.nodeRendering = nodeRendering;
	this.clickedCallsite = clickedCallsite;
	if (this.flamegraphData === flamegraphData) {
	return;
	}
	this.flamegraphData = flamegraphData;
	this.clickedCallsite = clickedCallsite;
	this.findMaxDepth();
	this.highlightingExists();
	// Finding total size of roots.
	this.totalSize = findRootSize(flamegraphData);
	}

	draw(
	ctx: CanvasRenderingContext2D, width: number, height: number, x = 0,
	y = 0, unit = 'B') {
	if (this.flamegraphData === undefined) {
	return;
	}

	ctx.font = this.labelFontStyle;
	ctx.textBaseline = 'middle';
	if (this.labelCharWidth === 0) {
	this.labelCharWidth = ctx.measureText('_').width;
	}

	this.startingY = y;

	// For each node, we use this map to get information about it's parent
	// (total size of it, width and where it starts in graph) so we can
	// calculate it's own position in graph.
	const nodesMap = new Map<number, Node>();
	let currentY = y;
	nodesMap.set(-1, {width, nextXForChildren: x, size: this.totalSize, x});

	// Initialize data needed for click/hover behavior.
	this.graphData = new Map();
	this.xStartsPerDepth = new Map();

	// Draw root node.
	ctx.fillStyle = this.generateColor('root', false, false);
	ctx.fillRect(x, currentY, width, NODE_HEIGHT - 1);
	const text = cropText(
	`root: ${
	this.displaySize(
	this.totalSize, unit, unit === 'B' ? 1024 : 1000)}`,
	this.labelCharWidth,
	width - 2);
	ctx.fillStyle = 'black';
	ctx.fillText(text, x + 5, currentY + (NODE_HEIGHT - 1) / 2);
	currentY += NODE_HEIGHT;

	// Set style for borders.
	ctx.strokeStyle = 'white';
	ctx.lineWidth = 0.5;

	for (let i = 0; i < this.flamegraphData.length; i++) {
	if (currentY > height) {
	break;
	}
	const value = this.flamegraphData[i];
	const parentNode = nodesMap.get(value.parentId);
	if (parentNode === undefined) {
	continue;
	}

	const isClicked = this.clickedCallsite !== undefined;
	const isFullWidth =
	isClicked && value.depth <= this.clickedCallsite!.depth;
	const isGreyedOut =
	isClicked && value.depth < this.clickedCallsite!.depth;

	const parent = value.parentId;
	const parentSize = parent === -1 ? this.totalSize : parentNode.size;
	// Calculate node's width based on its proportion in parent.
	const width =
	(isFullWidth ? 1 : value.totalSize / parentSize) * parentNode.width;

	const currentX = parentNode.nextXForChildren;
	currentY = y + NODE_HEIGHT * (value.depth + 1);

	// Draw node.
	const name = this.getCallsiteName(value);
	ctx.fillStyle = this.generateColor(name, isGreyedOut, value.highlighted);
	ctx.fillRect(currentX, currentY, width, NODE_HEIGHT - 1);

	// Set current node's data in map for children to use.
	nodesMap.set(value.id, {
	width,
	nextXForChildren: currentX,
	size: value.totalSize,
	x: currentX,
	});
	// Update next x coordinate in parent.
	nodesMap.set(value.parentId, {
	width: parentNode.width,
	nextXForChildren: currentX + width,
	size: parentNode.size,
	x: parentNode.x,
	});

	// Draw name.
	const labelPaddingPx = 5;
	const maxLabelWidth = width - labelPaddingPx * 2;
	let text = cropText(name, this.labelCharWidth, maxLabelWidth);
	// If cropped text and the original text are within 20% we keep the
	// original text and just squish it a bit.
	if (text.length * 1.2 > name.length) {
	text = name;
	}
	ctx.fillStyle = 'black';
	ctx.fillText(
	text,
	currentX + labelPaddingPx,
	currentY + (NODE_HEIGHT - 1) / 2,
	maxLabelWidth);

	// Draw border on the right of node.
	ctx.beginPath();
	ctx.moveTo(currentX + width, currentY);
	ctx.lineTo(currentX + width, currentY + NODE_HEIGHT);
	ctx.stroke();

	// Add this node for recognizing in click/hover.
	// Map graphData contains one callsite which is on that depth and X
	// start. Map xStartsPerDepth for each depth contains all X start
	// coordinates that callsites on that level have.
	this.graphData.set(
	`${value.depth};${currentX}`, {callsite: value, width});
	const xStarts = this.xStartsPerDepth.get(value.depth);
	if (xStarts === undefined) {
	this.xStartsPerDepth.set(value.depth, [currentX]);
	} else {
	xStarts.push(currentX);
	}
	}

	// Draw the tooltip.
	if (this.hoveredX > -1 && this.hoveredY > -1 && this.hoveredCallsite) {
	// Must set these before measureText below.
	ctx.font = this.rolloverFontStyle;
	ctx.textBaseline = 'top';

	// Size in px of the border around the text and the edge of the rollover
	// background.
	const paddingPx = 8;
	// Size in px of the x and y offset between the mouse and the top left
	// corner of the rollover box.
	const offsetPx = 4;

	const lines: string[] = [];

	let textWidth = this.addToTooltip(
	this.getCallsiteName(this.hoveredCallsite),
	width - paddingPx,
	ctx,
	lines);
	if (this.hoveredCallsite.location != null) {
	textWidth = Math.max(
	textWidth,
	this.addToTooltip(
	this.hoveredCallsite.location, width, ctx, lines));
	}
	textWidth = Math.max(
	textWidth,
	this.addToTooltip(this.hoveredCallsite.mapping, width, ctx, lines));

	if (this.nodeRendering.totalSize !== undefined) {
	const percentage =
	this.hoveredCallsite.totalSize / this.totalSize * 100;
	const totalSizeText = `${this.nodeRendering.totalSize}: ${
	this.displaySize(
	this.hoveredCallsite.totalSize,
	unit,
	unit === 'B' ? 1024 : 1000)} (${percentage.toFixed(2)}%)`;
	textWidth = Math.max(
	textWidth, this.addToTooltip(totalSizeText, width, ctx, lines));
	}

	if (this.nodeRendering.selfSize !== undefined &&
	this.hoveredCallsite.selfSize > 0) {
	const selfPercentage =
	this.hoveredCallsite.selfSize / this.totalSize * 100;
	const selfSizeText = `${this.nodeRendering.selfSize}: ${
	this.displaySize(
	this.hoveredCallsite.selfSize,
	unit,
	unit === 'B' ? 1024 : 1000)} (${selfPercentage.toFixed(2)}%)`;
	textWidth = Math.max(
	textWidth, this.addToTooltip(selfSizeText, width, ctx, lines));
	}

	// Compute a line height as the bounding box height + 50%:
	const heightSample = ctx.measureText(
	'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ');
	const lineHeight =
	Math.round(heightSample.actualBoundingBoxDescent * 1.5);

	const rectWidth = textWidth + 2 * paddingPx;
	const rectHeight = lineHeight * lines.length + 2 * paddingPx;

	let rectXStart = this.hoveredX + offsetPx;
	let rectYStart = this.hoveredY + offsetPx;

	if (rectXStart + rectWidth > width) {
	rectXStart = width - rectWidth;
	}

	if (rectYStart + rectHeight > height) {
	rectYStart = height - rectHeight;
	}

	ctx.fillStyle = 'rgba(255, 255, 255, 0.9)';
	ctx.fillRect(rectXStart, rectYStart, rectWidth, rectHeight);
	ctx.fillStyle = 'hsl(200, 50%, 40%)';
	ctx.textAlign = 'left';
	for (let i = 0; i < lines.length; i++) {
	const line = lines[i];
	ctx.fillText(
	line,
	rectXStart + paddingPx,
	rectYStart + paddingPx + i * lineHeight);
	}
	}
	}

	private addToTooltip(
	text: string, width: number, ctx: CanvasRenderingContext2D,
	lines: string[]): number {
	const lineSplitter: LineSplitter =
	splitIfTooBig(text, width, ctx.measureText(text).width);
	lines.push(...lineSplitter.lines);
	return lineSplitter.lineWidth;
	}

	private getCallsiteName(value: CallsiteInfo): string {
	return value.name === undefined \|\| value.name === '' ? 'unknown' :
	value.name;
	}

	private displaySize(totalSize: number, unit: string, step = 1024): string {
	if (unit === '') return totalSize.toLocaleString();
	if (totalSize === 0) return `0 ${unit}`;
	const units = [
	['', 1],
	['K', step],
	['M', Math.pow(step, 2)],
	['G', Math.pow(step, 3)],
	];
	let unitsIndex = Math.trunc(Math.log(totalSize) / Math.log(step));
	unitsIndex = unitsIndex > units.length - 1 ? units.length - 1 : unitsIndex;
	const result = totalSize / +units[unitsIndex][1];
	const resultString = totalSize % +units[unitsIndex][1] === 0 ?
	result.toString() :
	result.toFixed(2);
	return `${resultString} ${units[unitsIndex][0]}${unit}`;
	}

	onMouseMove({x, y}: {x: number, y: number}) {
	this.hoveredX = x;
	this.hoveredY = y;
	this.hoveredCallsite = this.findSelectedCallsite(x, y);
	const isCallsiteSelected = this.hoveredCallsite !== undefined;
	if (!isCallsiteSelected) {
	this.onMouseOut();
	}
	return isCallsiteSelected;
	}

	onMouseOut() {
	this.hoveredX = -1;
	this.hoveredY = -1;
	this.hoveredCallsite = undefined;
	}

	onMouseClick({x, y}: {x: number, y: number}): CallsiteInfo\|undefined {
	const clickedCallsite = this.findSelectedCallsite(x, y);
	// TODO(b/148596659): Allow to expand [merged] callsites. Currently,
	// this expands to the biggest of the nodes that were merged, which
	// is confusing, so we disallow clicking on them.
	if (clickedCallsite === undefined \|\| clickedCallsite.merged) {
	return undefined;
	}
	return clickedCallsite;
	}

	private findSelectedCallsite(x: number, y: number): CallsiteInfo\|undefined {
	const depth =
	Math.trunc((y - this.startingY) / NODE_HEIGHT) - 1; // at 0 is root
	if (depth >= 0 && this.xStartsPerDepth.has(depth)) {
	const startX = this.searchSmallest(this.xStartsPerDepth.get(depth)!, x);
	const result = this.graphData.get(`${depth};${startX}`);
	if (result !== undefined) {
	const width = result.width;
	return startX + width >= x ? result.callsite : undefined;
	}
	}
	return undefined;
	}

	searchSmallest(haystack: number[], needle: number): number {
	haystack = haystack.sort((n1, n2) => n1 - n2);
	const [left] = searchSegment(haystack, needle);
	return left === -1 ? -1 : haystack[left];
	}

	getHeight(): number {
	return this.flamegraphData.length === 0 ? 0 :
	(this.maxDepth + 2) * NODE_HEIGHT;
	}
	}

	export interface LineSplitter {
	lineWidth: number;
	lines: string[];
	}

	export function splitIfTooBig(
	line: string, width: number, lineWidth: number): LineSplitter {
	if (line === '') return {lineWidth, lines: []};
	const lines: string[] = [];
	const charWidth = lineWidth / line.length;
	const maxWidth = width - 32;
	const maxLineLen = Math.trunc(maxWidth / charWidth);
	while (line.length > 0) {
	lines.push(line.slice(0, maxLineLen));
	line = line.slice(maxLineLen);
	}
	lineWidth = Math.min(maxLineLen * charWidth, lineWidth);
	return {lineWidth, lines};
	}