third_party/v8/tools/heap-stats/global-timeline.js - cobalt - Git at Google

 // Copyright 2018 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 'use strict';

 import {
   VIEW_BY_INSTANCE_TYPE,
   VIEW_BY_INSTANCE_CATEGORY,
   VIEW_BY_FIELD_TYPE
 } from './details-selection.js';

 defineCustomElement('global-timeline', (templateText) =>
  class GlobalTimeline extends HTMLElement {
   constructor() {
     super();
     const shadowRoot = this.attachShadow({mode: 'open'});
     shadowRoot.innerHTML = templateText;
   }

   $(id) {
     return this.shadowRoot.querySelector(id);
   }

   set data(value) {
     this._data = value;
     this.stateChanged();
   }

   get data() {
     return this._data;
   }

   set selection(value) {
     this._selection = value;
     this.stateChanged();
   }

   get selection() {
     return this._selection;
   }

   isValid() {
     return this.data && this.selection;
   }

   hide() {
     this.$('#container').style.display = 'none';
   }

   show() {
     this.$('#container').style.display = 'block';
   }

   stateChanged() {
     if (this.isValid()) {
       this.drawChart();
     } else {
       this.hide();
     }
   }

   getFieldData() {
     const labels = [
       {type: 'number', label: 'Time'},
       {type: 'number', label: 'Ptr compression benefit'},
       {type: 'string', role: 'tooltip'},
       {type: 'number', label: 'Embedder fields'},
       {type: 'number', label: 'Tagged fields (excl. in-object Smis)'},
       {type: 'number', label: 'In-object Smi-only fields'},
       {type: 'number', label: 'Other raw fields'},
       {type: 'number', label: 'Unboxed doubles'},
       {type: 'number', label: 'Boxed doubles'},
       {type: 'number', label: 'String data'}
     ];
     const chart_data = [labels];
     const isolate_data = this.data[this.selection.isolate];
     let sum_total = 0;
     let sum_ptr_compr_benefit_perc = 0;
     let count = 0;
     Object.keys(isolate_data.gcs).forEach(gc_key => {
       const gc_data = isolate_data.gcs[gc_key];
       const data_set = gc_data[this.selection.data_set].field_data;
       const data = [];
       data.push(gc_data.time * kMillis2Seconds);
       const total = data_set.tagged_fields +
                     data_set.inobject_smi_fields +
                     data_set.embedder_fields +
                     data_set.other_raw_fields +
                     data_set.unboxed_double_fields +
                     data_set.boxed_double_fields +
                     data_set.string_data;
       const ptr_compr_benefit =
           (data_set.inobject_smi_fields + data_set.tagged_fields) / 2;
       const ptr_compr_benefit_perc = ptr_compr_benefit / total * 100;
       sum_total += total;
       sum_ptr_compr_benefit_perc += ptr_compr_benefit_perc;
       count++;
       const tooltip = "Ptr compression benefit: " +
                       (ptr_compr_benefit / KB).toFixed(2) + "KB " +
                       " (" + ptr_compr_benefit_perc.toFixed(2) + "%)";
       data.push(ptr_compr_benefit / KB);
       data.push(tooltip);
       data.push(data_set.embedder_fields / KB);
       data.push(data_set.tagged_fields / KB);
       data.push(data_set.inobject_smi_fields / KB);
       data.push(data_set.other_raw_fields / KB);
       data.push(data_set.unboxed_double_fields / KB);
       data.push(data_set.boxed_double_fields / KB);
       data.push(data_set.string_data / KB);
       chart_data.push(data);
     });
     const avg_ptr_compr_benefit_perc =
         count ? sum_ptr_compr_benefit_perc / count : 0;
     console.log("==================================================");
     console.log("= Average ptr compression benefit is " +
                 avg_ptr_compr_benefit_perc.toFixed(2) + "%");
     console.log("= Average V8 heap size " +
                 (sum_total / count / KB).toFixed(2) + " KB");
     console.log("==================================================");
     return chart_data;
   }

   getCategoryData() {
     const categories = Object.keys(this.selection.categories)
                            .map(k => this.selection.category_names.get(k));
     const labels = ['Time', ...categories];
     const chart_data = [labels];
     const isolate_data = this.data[this.selection.isolate];
     Object.keys(isolate_data.gcs).forEach(gc_key => {
       const gc_data = isolate_data.gcs[gc_key];
       const data_set = gc_data[this.selection.data_set].instance_type_data;
       const data = [];
       data.push(gc_data.time * kMillis2Seconds);
       Object.values(this.selection.categories).forEach(instance_types => {
         data.push(
             instance_types
                 .map(instance_type => {
                   return data_set[instance_type].overall;
                 })
                 .reduce((accu, current) => accu + current, 0) /
             KB);
       });
       chart_data.push(data);
     });
     return chart_data;
   }

   getInstanceTypeData() {
     const instance_types =
         Object.values(this.selection.categories)
             .reduce((accu, current) => accu.concat(current), []);
     const labels = ['Time', ...instance_types];
     const chart_data = [labels];
     const isolate_data = this.data[this.selection.isolate];
     Object.keys(isolate_data.gcs).forEach(gc_key => {
       const gc_data = isolate_data.gcs[gc_key];
       const data_set = gc_data[this.selection.data_set].instance_type_data;
       const data = [];
       data.push(gc_data.time * kMillis2Seconds);
       instance_types.forEach(instance_type => {
         data.push(data_set[instance_type].overall / KB);
       });
       chart_data.push(data);
     });
     return chart_data;
   }

   getChartData() {
     switch (this.selection.data_view) {
       case VIEW_BY_FIELD_TYPE:
         return this.getFieldData();
       case VIEW_BY_INSTANCE_CATEGORY:
         return this.getCategoryData();
       case VIEW_BY_INSTANCE_TYPE:
       default:
         return this.getInstanceTypeData();
     }
   }

   getChartOptions() {
     const options = {
       isStacked: true,
       hAxis: {
         format: '###.##s',
         title: 'Time [s]',
       },
       vAxis: {
         format: '#,###KB',
         title: 'Memory consumption [KBytes]'
       },
       chartArea: {left:100, width: '85%', height: '70%'},
       legend: {position: 'top', maxLines: '1'},
       pointsVisible: true,
       pointSize: 5,
       explorer: {},
     };
     switch (this.selection.data_view) {
       case VIEW_BY_FIELD_TYPE:
         // Overlay pointer compression benefit on top of the graph
         return Object.assign(options, {
           series: {0: {type: 'line', lineDashStyle: [13, 13]}},
         });
       case VIEW_BY_INSTANCE_CATEGORY:
       case VIEW_BY_INSTANCE_TYPE:
       default:
         return options;
     }
   }

   drawChart() {
     setTimeout(() => this._drawChart(), 10);
   }

   _drawChart() {
     console.assert(this.data, 'invalid data');
     console.assert(this.selection, 'invalid selection');

     const chart_data = this.getChartData();

     const data = google.visualization.arrayToDataTable(chart_data);
     const options = this.getChartOptions();
     const chart = new google.visualization.AreaChart(this.$('#chart'));
     this.show();
     chart.draw(data, google.charts.Line.convertOptions(options));
   }
 });
	// Copyright 2018 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	'use strict';

	import {
	VIEW_BY_INSTANCE_TYPE,
	VIEW_BY_INSTANCE_CATEGORY,
	VIEW_BY_FIELD_TYPE
	} from './details-selection.js';

	defineCustomElement('global-timeline', (templateText) =>
	class GlobalTimeline extends HTMLElement {
	constructor() {
	super();
	const shadowRoot = this.attachShadow({mode: 'open'});
	shadowRoot.innerHTML = templateText;
	}

	$(id) {
	return this.shadowRoot.querySelector(id);
	}

	set data(value) {
	this._data = value;
	this.stateChanged();
	}

	get data() {
	return this._data;
	}

	set selection(value) {
	this._selection = value;
	this.stateChanged();
	}

	get selection() {
	return this._selection;
	}

	isValid() {
	return this.data && this.selection;
	}

	hide() {
	this.$('#container').style.display = 'none';
	}

	show() {
	this.$('#container').style.display = 'block';
	}

	stateChanged() {
	if (this.isValid()) {
	this.drawChart();
	} else {
	this.hide();
	}
	}

	getFieldData() {
	const labels = [
	{type: 'number', label: 'Time'},
	{type: 'number', label: 'Ptr compression benefit'},
	{type: 'string', role: 'tooltip'},
	{type: 'number', label: 'Embedder fields'},
	{type: 'number', label: 'Tagged fields (excl. in-object Smis)'},
	{type: 'number', label: 'In-object Smi-only fields'},
	{type: 'number', label: 'Other raw fields'},
	{type: 'number', label: 'Unboxed doubles'},
	{type: 'number', label: 'Boxed doubles'},
	{type: 'number', label: 'String data'}
	];
	const chart_data = [labels];
	const isolate_data = this.data[this.selection.isolate];
	let sum_total = 0;
	let sum_ptr_compr_benefit_perc = 0;
	let count = 0;
	Object.keys(isolate_data.gcs).forEach(gc_key => {
	const gc_data = isolate_data.gcs[gc_key];
	const data_set = gc_data[this.selection.data_set].field_data;
	const data = [];
	data.push(gc_data.time * kMillis2Seconds);
	const total = data_set.tagged_fields +
	data_set.inobject_smi_fields +
	data_set.embedder_fields +
	data_set.other_raw_fields +
	data_set.unboxed_double_fields +
	data_set.boxed_double_fields +
	data_set.string_data;
	const ptr_compr_benefit =
	(data_set.inobject_smi_fields + data_set.tagged_fields) / 2;
	const ptr_compr_benefit_perc = ptr_compr_benefit / total * 100;
	sum_total += total;
	sum_ptr_compr_benefit_perc += ptr_compr_benefit_perc;
	count++;
	const tooltip = "Ptr compression benefit: " +
	(ptr_compr_benefit / KB).toFixed(2) + "KB " +
	" (" + ptr_compr_benefit_perc.toFixed(2) + "%)";
	data.push(ptr_compr_benefit / KB);
	data.push(tooltip);
	data.push(data_set.embedder_fields / KB);
	data.push(data_set.tagged_fields / KB);
	data.push(data_set.inobject_smi_fields / KB);
	data.push(data_set.other_raw_fields / KB);
	data.push(data_set.unboxed_double_fields / KB);
	data.push(data_set.boxed_double_fields / KB);
	data.push(data_set.string_data / KB);
	chart_data.push(data);
	});
	const avg_ptr_compr_benefit_perc =
	count ? sum_ptr_compr_benefit_perc / count : 0;
	console.log("==================================================");
	console.log("= Average ptr compression benefit is " +
	avg_ptr_compr_benefit_perc.toFixed(2) + "%");
	console.log("= Average V8 heap size " +
	(sum_total / count / KB).toFixed(2) + " KB");
	console.log("==================================================");
	return chart_data;
	}

	getCategoryData() {
	const categories = Object.keys(this.selection.categories)
	.map(k => this.selection.category_names.get(k));
	const labels = ['Time', ...categories];
	const chart_data = [labels];
	const isolate_data = this.data[this.selection.isolate];
	Object.keys(isolate_data.gcs).forEach(gc_key => {
	const gc_data = isolate_data.gcs[gc_key];
	const data_set = gc_data[this.selection.data_set].instance_type_data;
	const data = [];
	data.push(gc_data.time * kMillis2Seconds);
	Object.values(this.selection.categories).forEach(instance_types => {
	data.push(
	instance_types
	.map(instance_type => {
	return data_set[instance_type].overall;
	})
	.reduce((accu, current) => accu + current, 0) /
	KB);
	});
	chart_data.push(data);
	});
	return chart_data;
	}

	getInstanceTypeData() {
	const instance_types =
	Object.values(this.selection.categories)
	.reduce((accu, current) => accu.concat(current), []);
	const labels = ['Time', ...instance_types];
	const chart_data = [labels];
	const isolate_data = this.data[this.selection.isolate];
	Object.keys(isolate_data.gcs).forEach(gc_key => {
	const gc_data = isolate_data.gcs[gc_key];
	const data_set = gc_data[this.selection.data_set].instance_type_data;
	const data = [];
	data.push(gc_data.time * kMillis2Seconds);
	instance_types.forEach(instance_type => {
	data.push(data_set[instance_type].overall / KB);
	});
	chart_data.push(data);
	});
	return chart_data;
	}

	getChartData() {
	switch (this.selection.data_view) {
	case VIEW_BY_FIELD_TYPE:
	return this.getFieldData();
	case VIEW_BY_INSTANCE_CATEGORY:
	return this.getCategoryData();
	case VIEW_BY_INSTANCE_TYPE:
	default:
	return this.getInstanceTypeData();
	}
	}

	getChartOptions() {
	const options = {
	isStacked: true,
	hAxis: {
	format: '###.##s',
	title: 'Time [s]',
	},
	vAxis: {
	format: '#,###KB',
	title: 'Memory consumption [KBytes]'
	},
	chartArea: {left:100, width: '85%', height: '70%'},
	legend: {position: 'top', maxLines: '1'},
	pointsVisible: true,
	pointSize: 5,
	explorer: {},
	};
	switch (this.selection.data_view) {
	case VIEW_BY_FIELD_TYPE:
	// Overlay pointer compression benefit on top of the graph
	return Object.assign(options, {
	series: {0: {type: 'line', lineDashStyle: [13, 13]}},
	});
	case VIEW_BY_INSTANCE_CATEGORY:
	case VIEW_BY_INSTANCE_TYPE:
	default:
	return options;
	}
	}

	drawChart() {
	setTimeout(() => this._drawChart(), 10);
	}

	_drawChart() {
	console.assert(this.data, 'invalid data');
	console.assert(this.selection, 'invalid selection');

	const chart_data = this.getChartData();

	const data = google.visualization.arrayToDataTable(chart_data);
	const options = this.getChartOptions();
	const chart = new google.visualization.AreaChart(this.$('#chart'));
	this.show();
	chart.draw(data, google.charts.Line.convertOptions(options));
	}
	});