ui/src/tracks/gpu_freq/frontend.ts - platform/external/perfetto - Git at Google

 // Copyright (C) 2019 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 {search} from '../../base/binary_search';
 import {assertTrue} from '../../base/logging';
 import {TrackState} from '../../common/state';
 import {checkerboardExcept} from '../../frontend/checkerboard';
 import {hueForCpu} from '../../frontend/colorizer';
 import {globals} from '../../frontend/globals';
 import {Track} from '../../frontend/track';
 import {trackRegistry} from '../../frontend/track_registry';

 import {
   Config,
   GPU_FREQ_TRACK_KIND,
   Data,
 } from './common';

 // 0.5 Makes the horizontal lines sharp.
 const MARGIN_TOP = 4.5;
 const RECT_HEIGHT = 30;

 class GpuFreqTrack extends Track<Config, Data> {
   static readonly kind = GPU_FREQ_TRACK_KIND;
   static create(trackState: TrackState): GpuFreqTrack {
     return new GpuFreqTrack(trackState);
   }

   private mouseXpos = 0;
   private hoveredValue: number|undefined = undefined;
   private hoveredTs: number|undefined = undefined;
   private hoveredTsEnd: number|undefined = undefined;

   constructor(trackState: TrackState) {
     super(trackState);
   }

   renderCanvas(ctx: CanvasRenderingContext2D): void {
     // TODO: fonts and colors should come from the CSS and not hardcoded here.
     const {timeScale, visibleWindowTime} = globals.frontendLocalState;
     const data = this.data();

     if (data === undefined) return;  // Can't possibly draw anything.

     assertTrue(data.tsStarts.length === data.freqKHz.length);

     const startPx = Math.floor(timeScale.timeToPx(visibleWindowTime.start));
     const endPx = Math.floor(timeScale.timeToPx(visibleWindowTime.end));
     const zeroY = MARGIN_TOP + RECT_HEIGHT;

     let lastX = startPx;
     let lastY = zeroY;

     // Quantize the Y axis to quarters of powers of tens (7.5K, 10K, 12.5K).
     let yMax = data.maximumValue;
     const kUnits = ['', 'K', 'M', 'G', 'T', 'E'];
     const exp = Math.ceil(Math.log10(Math.max(yMax, 1)));
     const pow10 = Math.pow(10, exp);
     yMax = Math.ceil(yMax / (pow10 / 4)) * (pow10 / 4);
     const unitGroup = Math.floor(exp / 3);
     const num = yMax / Math.pow(10, unitGroup * 3);
     // The values we have for gpufreq are in kHz so +1 to unitGroup.
     const yLabel = `${num} ${kUnits[unitGroup + 1]}Hz`;

     // Draw the GPU frequency graph.
     const hue = hueForCpu(this.config.gpu);
     let saturation = 70;
     if (globals.frontendLocalState.hoveredUtid !== -1) {
       saturation = 0;
     }
     ctx.fillStyle = `hsl(${hue}, ${saturation}%, 70%)`;
     ctx.strokeStyle = `hsl(${hue}, ${saturation}%, 55%)`;
     ctx.beginPath();
     ctx.moveTo(lastX, lastY);

     for (let i = 0; i < data.freqKHz.length; i++) {
       const value = data.freqKHz[i];
       const startTime = data.tsStarts[i];
       const nextY = zeroY - Math.round((value / yMax) * RECT_HEIGHT);
       if (nextY === lastY) continue;

       lastX = Math.floor(timeScale.timeToPx(startTime));
       ctx.lineTo(lastX, lastY);
       ctx.lineTo(lastX, nextY);
       lastY = nextY;
     }
     // Find the end time for the last frequency event and then draw
     // down to zero to show that we do not have data after that point.
     const endTime = data.tsEnds[data.freqKHz.length - 1];
     const finalX = Math.floor(timeScale.timeToPx(endTime));
     ctx.lineTo(finalX, lastY);
     ctx.lineTo(finalX, zeroY);
     ctx.lineTo(endPx, zeroY);
     ctx.closePath();
     ctx.fill();
     ctx.stroke();

     ctx.font = '10px Google Sans';

     if (this.hoveredValue !== undefined && this.hoveredTs !== undefined) {
       let text = `Freq: ${this.hoveredValue.toLocaleString()}kHz`;
       if (data.isQuantized) {
         text = `Weighted avg freq: ${this.hoveredValue.toLocaleString()}kHz`;
       }

       const width = ctx.measureText(text).width;
       ctx.fillStyle = `hsl(${hue}, 45%, 75%)`;
       ctx.strokeStyle = `hsl(${hue}, 45%, 45%)`;

       const xStart = Math.floor(timeScale.timeToPx(this.hoveredTs));
       const xEnd = this.hoveredTsEnd === undefined ?
           endPx :
           Math.floor(timeScale.timeToPx(this.hoveredTsEnd));
       const y = zeroY - Math.round((this.hoveredValue / yMax) * RECT_HEIGHT);

       // Highlight line.
       ctx.beginPath();
       ctx.moveTo(xStart, y);
       ctx.lineTo(xEnd, y);
       ctx.lineWidth = 3;
       ctx.stroke();
       ctx.lineWidth = 1;

       // Draw change marker.
       ctx.beginPath();
       ctx.arc(xStart, y, 3 /*r*/, 0 /*start angle*/, 2 * Math.PI /*end angle*/);
       ctx.fill();
       ctx.stroke();

       // Draw the tooltip.
       ctx.fillStyle = 'rgba(255, 255, 255, 0.8)';
       ctx.fillRect(this.mouseXpos + 5, MARGIN_TOP, width + 16, RECT_HEIGHT);
       ctx.fillStyle = 'hsl(200, 50%, 40%)';
       const centerY = MARGIN_TOP + RECT_HEIGHT / 2;
       ctx.fillText(text, this.mouseXpos + 10, centerY - 3);
     }

     // Write the Y scale on the top left corner.
     ctx.fillStyle = 'rgba(255, 255, 255, 0.6)';
     ctx.fillRect(0, 0, 40, 16);
     ctx.fillStyle = '#666';
     ctx.textAlign = 'left';
     ctx.fillText(`${yLabel}`, 5, 14);

     // If the cached trace slices don't fully cover the visible time range,
     // show a gray rectangle with a "Loading..." label.
     checkerboardExcept(
         ctx,
         this.getHeight(),
         timeScale.timeToPx(visibleWindowTime.start),
         timeScale.timeToPx(visibleWindowTime.end),
         timeScale.timeToPx(data.start),
         timeScale.timeToPx(data.end));
   }

   onMouseMove({x}: {x: number, y: number}) {
     const data = this.data();
     if (data === undefined) return;
     this.mouseXpos = x;
     const {timeScale} = globals.frontendLocalState;
     const time = timeScale.pxToTime(x);

     const index = search(data.tsStarts, time);
     this.hoveredTs = index === -1 ? undefined : data.tsStarts[index];
     this.hoveredTsEnd = index === -1 ? undefined : data.tsEnds[index];
     this.hoveredValue = index === -1 ? undefined : data.freqKHz[index];
   }

   onMouseOut() {
     this.hoveredValue = undefined;
     this.hoveredTs = undefined;
     this.hoveredTsEnd = undefined;
   }
 }

 trackRegistry.register(GpuFreqTrack);
	// Copyright (C) 2019 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 {search} from '../../base/binary_search';
	import {assertTrue} from '../../base/logging';
	import {TrackState} from '../../common/state';
	import {checkerboardExcept} from '../../frontend/checkerboard';
	import {hueForCpu} from '../../frontend/colorizer';
	import {globals} from '../../frontend/globals';
	import {Track} from '../../frontend/track';
	import {trackRegistry} from '../../frontend/track_registry';

	import {
	Config,
	GPU_FREQ_TRACK_KIND,
	Data,
	} from './common';

	// 0.5 Makes the horizontal lines sharp.
	const MARGIN_TOP = 4.5;
	const RECT_HEIGHT = 30;

	class GpuFreqTrack extends Track<Config, Data> {
	static readonly kind = GPU_FREQ_TRACK_KIND;
	static create(trackState: TrackState): GpuFreqTrack {
	return new GpuFreqTrack(trackState);
	}

	private mouseXpos = 0;
	private hoveredValue: number\|undefined = undefined;
	private hoveredTs: number\|undefined = undefined;
	private hoveredTsEnd: number\|undefined = undefined;

	constructor(trackState: TrackState) {
	super(trackState);
	}

	renderCanvas(ctx: CanvasRenderingContext2D): void {
	// TODO: fonts and colors should come from the CSS and not hardcoded here.
	const {timeScale, visibleWindowTime} = globals.frontendLocalState;
	const data = this.data();

	if (data === undefined) return; // Can't possibly draw anything.

	assertTrue(data.tsStarts.length === data.freqKHz.length);

	const startPx = Math.floor(timeScale.timeToPx(visibleWindowTime.start));
	const endPx = Math.floor(timeScale.timeToPx(visibleWindowTime.end));
	const zeroY = MARGIN_TOP + RECT_HEIGHT;

	let lastX = startPx;
	let lastY = zeroY;

	// Quantize the Y axis to quarters of powers of tens (7.5K, 10K, 12.5K).
	let yMax = data.maximumValue;
	const kUnits = ['', 'K', 'M', 'G', 'T', 'E'];
	const exp = Math.ceil(Math.log10(Math.max(yMax, 1)));
	const pow10 = Math.pow(10, exp);
	yMax = Math.ceil(yMax / (pow10 / 4)) * (pow10 / 4);
	const unitGroup = Math.floor(exp / 3);
	const num = yMax / Math.pow(10, unitGroup * 3);
	// The values we have for gpufreq are in kHz so +1 to unitGroup.
	const yLabel = `${num} ${kUnits[unitGroup + 1]}Hz`;

	// Draw the GPU frequency graph.
	const hue = hueForCpu(this.config.gpu);
	let saturation = 70;
	if (globals.frontendLocalState.hoveredUtid !== -1) {
	saturation = 0;
	}
	ctx.fillStyle = `hsl(${hue}, ${saturation}%, 70%)`;
	ctx.strokeStyle = `hsl(${hue}, ${saturation}%, 55%)`;
	ctx.beginPath();
	ctx.moveTo(lastX, lastY);

	for (let i = 0; i < data.freqKHz.length; i++) {
	const value = data.freqKHz[i];
	const startTime = data.tsStarts[i];
	const nextY = zeroY - Math.round((value / yMax) * RECT_HEIGHT);
	if (nextY === lastY) continue;

	lastX = Math.floor(timeScale.timeToPx(startTime));
	ctx.lineTo(lastX, lastY);
	ctx.lineTo(lastX, nextY);
	lastY = nextY;
	}
	// Find the end time for the last frequency event and then draw
	// down to zero to show that we do not have data after that point.
	const endTime = data.tsEnds[data.freqKHz.length - 1];
	const finalX = Math.floor(timeScale.timeToPx(endTime));
	ctx.lineTo(finalX, lastY);
	ctx.lineTo(finalX, zeroY);
	ctx.lineTo(endPx, zeroY);
	ctx.closePath();
	ctx.fill();
	ctx.stroke();

	ctx.font = '10px Google Sans';

	if (this.hoveredValue !== undefined && this.hoveredTs !== undefined) {
	let text = `Freq: ${this.hoveredValue.toLocaleString()}kHz`;
	if (data.isQuantized) {
	text = `Weighted avg freq: ${this.hoveredValue.toLocaleString()}kHz`;
	}

	const width = ctx.measureText(text).width;
	ctx.fillStyle = `hsl(${hue}, 45%, 75%)`;
	ctx.strokeStyle = `hsl(${hue}, 45%, 45%)`;

	const xStart = Math.floor(timeScale.timeToPx(this.hoveredTs));
	const xEnd = this.hoveredTsEnd === undefined ?
	endPx :
	Math.floor(timeScale.timeToPx(this.hoveredTsEnd));
	const y = zeroY - Math.round((this.hoveredValue / yMax) * RECT_HEIGHT);

	// Highlight line.
	ctx.beginPath();
	ctx.moveTo(xStart, y);
	ctx.lineTo(xEnd, y);
	ctx.lineWidth = 3;
	ctx.stroke();
	ctx.lineWidth = 1;

	// Draw change marker.
	ctx.beginPath();
	ctx.arc(xStart, y, 3 /r/, 0 /start angle/, 2 * Math.PI /end angle/);
	ctx.fill();
	ctx.stroke();

	// Draw the tooltip.
	ctx.fillStyle = 'rgba(255, 255, 255, 0.8)';
	ctx.fillRect(this.mouseXpos + 5, MARGIN_TOP, width + 16, RECT_HEIGHT);
	ctx.fillStyle = 'hsl(200, 50%, 40%)';
	const centerY = MARGIN_TOP + RECT_HEIGHT / 2;
	ctx.fillText(text, this.mouseXpos + 10, centerY - 3);
	}

	// Write the Y scale on the top left corner.
	ctx.fillStyle = 'rgba(255, 255, 255, 0.6)';
	ctx.fillRect(0, 0, 40, 16);
	ctx.fillStyle = '#666';
	ctx.textAlign = 'left';
	ctx.fillText(`${yLabel}`, 5, 14);

	// If the cached trace slices don't fully cover the visible time range,
	// show a gray rectangle with a "Loading..." label.
	checkerboardExcept(
	ctx,
	this.getHeight(),
	timeScale.timeToPx(visibleWindowTime.start),
	timeScale.timeToPx(visibleWindowTime.end),
	timeScale.timeToPx(data.start),
	timeScale.timeToPx(data.end));
	}

	onMouseMove({x}: {x: number, y: number}) {
	const data = this.data();
	if (data === undefined) return;
	this.mouseXpos = x;
	const {timeScale} = globals.frontendLocalState;
	const time = timeScale.pxToTime(x);

	const index = search(data.tsStarts, time);
	this.hoveredTs = index === -1 ? undefined : data.tsStarts[index];
	this.hoveredTsEnd = index === -1 ? undefined : data.tsEnds[index];
	this.hoveredValue = index === -1 ? undefined : data.freqKHz[index];
	}

	onMouseOut() {
	this.hoveredValue = undefined;
	this.hoveredTs = undefined;
	this.hoveredTsEnd = undefined;
	}
	}

	trackRegistry.register(GpuFreqTrack);