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denoland-deno/website/app.ts

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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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// How much to multiply time values in order to process log graphs properly.
const TimeScaleFactor = 10000;
export interface BenchmarkExecTimeResult {
min?: number;
max?: number;
mean?: number;
stddev?: number;
system?: number;
user?: number;
}
export interface BenchmarkExecTimeResultSet {
[variant: string]: BenchmarkExecTimeResult;
}
export interface BenchmarkVariantsResultSet {
[variant: string]: number;
}
export interface BenchmarkRun {
created_at: string;
sha1: string;
benchmark: BenchmarkExecTimeResultSet;
binary_size?: BenchmarkVariantsResultSet | number;
max_memory?: BenchmarkVariantsResultSet | number;
bundle_size?: BenchmarkVariantsResultSet;
max_latency?: BenchmarkVariantsResultSet;
req_per_sec?: BenchmarkVariantsResultSet;
req_per_sec_proxy?: BenchmarkVariantsResultSet;
syscall_count?: BenchmarkVariantsResultSet;
thread_count?: BenchmarkVariantsResultSet;
throughput?: BenchmarkVariantsResultSet;
}
export type BenchmarkName = Exclude<keyof BenchmarkRun, "created_at" | "sha1">;
type Column = [string, ...Array<number | null>];
interface C3DataNode {
id: string;
index: number;
name: string;
value: number;
x: number;
}
type C3OnClickCallback = (C3DataNode, unknown) => void;
type C3OnRenderedCallback = () => void;
type C3TickFormatter = (number) => number | string;
export async function getJson(path: string): Promise<unknown> {
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return (await fetch(path)).json();
}
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function getBenchmarkVarieties(
data: BenchmarkRun[],
benchmarkName: BenchmarkName
): string[] {
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// Look at last sha hash.
const last = data[data.length - 1];
return Object.keys(last[benchmarkName]);
}
export function createColumns(
data: BenchmarkRun[],
benchmarkName: BenchmarkName
): Column[] {
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const varieties = getBenchmarkVarieties(data, benchmarkName);
return varieties.map(variety => [
variety,
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...data.map(d => {
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if (d[benchmarkName] != null) {
if (d[benchmarkName][variety] != null) {
const v = d[benchmarkName][variety];
if (benchmarkName == "benchmark") {
const meanValue = v ? v.mean : 0;
return meanValue || null;
} else {
return v;
}
}
}
return null;
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})
]);
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}
export function createNormalizedColumns(
data: BenchmarkRun[],
benchmarkName: BenchmarkName,
baselineBenchmark: BenchmarkName,
baselineVariety: string
): Column[] {
const varieties = getBenchmarkVarieties(data, benchmarkName);
return varieties.map(variety => [
variety,
...data.map(d => {
if (d[baselineBenchmark] != null) {
if (d[baselineBenchmark][baselineVariety] != null) {
const baseline = d[baselineBenchmark][baselineVariety];
if (d[benchmarkName] != null) {
if (d[benchmarkName][variety] != null && baseline != 0) {
const v = d[benchmarkName][variety];
if (benchmarkName == "benchmark") {
const meanValue = v ? v.mean : 0;
return meanValue || null;
} else {
return v / baseline;
}
}
}
}
}
return null;
})
]);
}
export function createExecTimeColumns(data: BenchmarkRun[]): Column[] {
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return createColumns(data, "benchmark");
}
export function createThroughputColumns(data: BenchmarkRun[]): Column[] {
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return createColumns(data, "throughput");
}
export function createProxyColumns(data: BenchmarkRun[]): Column[] {
return createColumns(data, "req_per_sec_proxy");
}
export function createNormalizedProxyColumns(data: BenchmarkRun[]): Column[] {
return createNormalizedColumns(
data,
"req_per_sec_proxy",
"req_per_sec",
"hyper"
);
}
export function createReqPerSecColumns(data: BenchmarkRun[]): Column[] {
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return createColumns(data, "req_per_sec");
}
export function createNormalizedReqPerSecColumns(
data: BenchmarkRun[]
): Column[] {
return createNormalizedColumns(data, "req_per_sec", "req_per_sec", "hyper");
}
export function createMaxLatencyColumns(data: BenchmarkRun[]): Column[] {
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return createColumns(data, "max_latency");
}
export function createMaxMemoryColumns(data: BenchmarkRun[]): Column[] {
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return createColumns(data, "max_memory");
}
export function createBinarySizeColumns(data: BenchmarkRun[]): Column[] {
const propName = "binary_size";
const binarySizeNames = Object.keys(data[data.length - 1][propName]);
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return binarySizeNames.map(name => [
name,
...data.map(d => {
const binarySizeData = d["binary_size"];
switch (typeof binarySizeData) {
case "number": // legacy implementation
return name === "deno" ? binarySizeData : 0;
default:
if (!binarySizeData) {
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return null;
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}
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return binarySizeData[name] || null;
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}
})
]);
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}
export function createThreadCountColumns(data: BenchmarkRun[]): Column[] {
const propName = "thread_count";
const threadCountNames = Object.keys(data[data.length - 1][propName]);
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return threadCountNames.map(name => [
name,
...data.map(d => {
const threadCountData = d[propName];
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if (!threadCountData) {
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return null;
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}
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return threadCountData[name] || null;
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})
]);
}
export function createSyscallCountColumns(data: BenchmarkRun[]): Column[] {
const propName = "syscall_count";
const syscallCountNames = Object.keys(data[data.length - 1][propName]);
return syscallCountNames.map(name => [
name,
...data.map(d => {
const syscallCountData = d[propName];
if (!syscallCountData) {
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return null;
}
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return syscallCountData[name] || null;
})
]);
}
export function createBundleSizeColumns(data: BenchmarkRun[]): Column[] {
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return createColumns(data, "bundle_size");
}
export function createSha1List(data: BenchmarkRun[]): string[] {
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return data.map(d => d.sha1);
}
export function formatKB(bytes: number): string {
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return (bytes / 1024).toFixed(2);
}
export function formatMB(bytes: number): string {
return (bytes / (1024 * 1024)).toFixed(2);
}
export function formatReqSec(reqPerSec: number): string {
return (reqPerSec / 1000).toFixed(3);
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}
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export function formatPercentage(decimal: number): string {
return (decimal * 100).toFixed(2);
}
/**
* @param {string} id The id of dom element
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* @param {string[]} categories categories for x-axis values
* @param {any[][]} columns The columns data
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* @param {function} onclick action on clicking nodes of chart
* @param {string} yLabel label of y axis
* @param {function} yTickFormat formatter of y axis ticks
* @param {boolean} zoomEnabled enables the zoom feature
*/
function generate(
id: string,
categories: string[],
columns: Column[],
onclick: C3OnClickCallback,
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yLabel = "",
yTickFormat?: C3TickFormatter,
zoomEnabled = true,
onrendered?: C3OnRenderedCallback
): void {
const yAxis = {
padding: { bottom: 0 },
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min: 0,
label: yLabel,
tick: null
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};
if (yTickFormat) {
yAxis.tick = {
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format: yTickFormat
};
if (yTickFormat == logScale) {
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delete yAxis.min;
for (const col of columns) {
for (let i = 1; i < col.length; i++) {
if (col[i] == null || col[i] === 0) {
continue;
}
col[i] = Math.log10((col[i] as number) * TimeScaleFactor);
}
}
}
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}
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// @ts-ignore
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c3.generate({
bindto: id,
onrendered,
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data: {
columns,
onclick
},
axis: {
x: {
type: "category",
show: false,
categories
},
y: yAxis
},
zoom: {
enabled: zoomEnabled
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}
});
}
function logScale(t: number): string {
return (Math.pow(10, t) / TimeScaleFactor).toFixed(4);
}
/**
* @param dataUrl The url of benchmark data json.
*/
export function drawCharts(dataUrl: string): Promise<void> {
// TODO Using window["location"]["hostname"] instead of
// window.location.hostname because when deno runs app_test.js it gets a type
// error here, not knowing about window.location. Ideally Deno would skip
// type check entirely on JS files.
if (window["location"]["hostname"] != "deno.github.io") {
dataUrl = "https://denoland.github.io/deno/" + dataUrl;
}
return drawChartsFromBenchmarkData(dataUrl);
}
const proxyFields: BenchmarkName[] = ["req_per_sec"];
function extractProxyFields(data: BenchmarkRun[]): void {
for (const row of data) {
for (const field of proxyFields) {
const d = row[field];
if (!d) continue;
const name = field + "_proxy";
const newField = {};
row[name] = newField;
for (const k of Object.getOwnPropertyNames(d)) {
if (k.includes("_proxy")) {
const v = d[k];
delete d[k];
newField[k] = v;
}
}
}
}
}
/**
* Draws the charts from the benchmark data stored in gh-pages branch.
*/
export async function drawChartsFromBenchmarkData(
dataUrl: string
): Promise<void> {
const data = (await getJson(dataUrl)) as BenchmarkRun[];
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// hack to extract proxy fields from req/s fields
extractProxyFields(data);
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const execTimeColumns = createExecTimeColumns(data);
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const throughputColumns = createThroughputColumns(data);
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const reqPerSecColumns = createReqPerSecColumns(data);
const normalizedReqPerSecColumns = createNormalizedReqPerSecColumns(data);
const proxyColumns = createProxyColumns(data);
const normalizedProxyColumns = createNormalizedProxyColumns(data);
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const maxLatencyColumns = createMaxLatencyColumns(data);
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const maxMemoryColumns = createMaxMemoryColumns(data);
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const binarySizeColumns = createBinarySizeColumns(data);
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const threadCountColumns = createThreadCountColumns(data);
const syscallCountColumns = createSyscallCountColumns(data);
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const bundleSizeColumns = createBundleSizeColumns(data);
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const sha1List = createSha1List(data);
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const sha1ShortList = sha1List.map(sha1 => sha1.substring(0, 6));
function viewCommitOnClick(d: C3DataNode, _: unknown): void {
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// @ts-ignore
window.open(`https://github.com/denoland/deno/commit/${sha1List[d.index]}`);
}
function gen(
id: string,
columns: Column[],
yLabel = "",
yTickFormat?: C3TickFormatter,
onrendered?: C3OnRenderedCallback
): void {
generate(
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id,
sha1ShortList,
columns,
viewCommitOnClick,
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yLabel,
yTickFormat,
true,
onrendered
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);
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}
gen("#exec-time-chart", execTimeColumns, "seconds", logScale);
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gen("#throughput-chart", throughputColumns, "seconds", logScale);
gen("#req-per-sec-chart", reqPerSecColumns, "1000 req/sec", formatReqSec);
gen(
"#normalized-req-per-sec-chart",
normalizedReqPerSecColumns,
"% of hyper througput",
formatPercentage,
hideOnRender("normalized-req-per-sec-chart")
);
gen("#proxy-req-per-sec-chart", proxyColumns, "req/sec");
gen(
"#normalized-proxy-req-per-sec-chart",
normalizedProxyColumns,
"% of hyper througput",
formatPercentage,
hideOnRender("normalized-proxy-req-per-sec-chart")
);
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gen("#max-latency-chart", maxLatencyColumns, "milliseconds", logScale);
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gen("#max-memory-chart", maxMemoryColumns, "megabytes", formatMB);
gen("#binary-size-chart", binarySizeColumns, "megabytes", formatMB);
gen("#thread-count-chart", threadCountColumns, "threads");
gen("#syscall-count-chart", syscallCountColumns, "syscalls");
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gen("#bundle-size-chart", bundleSizeColumns, "kilobytes", formatKB);
}
function hideOnRender(elementID: string): C3OnRenderedCallback {
return (): void => {
const chart = window["document"].getElementById(elementID);
if (!chart.getAttribute("data-inital-hide-done")) {
chart.setAttribute("data-inital-hide-done", "true");
chart.classList.add("hidden");
}
};
}
function registerNormalizedSwitcher(
checkboxID: string,
chartID: string,
normalizedChartID: string
): void {
const checkbox = window["document"].getElementById(checkboxID);
const regularChart = window["document"].getElementById(chartID);
const normalizedChart = window["document"].getElementById(normalizedChartID);
checkbox.addEventListener("change", _ => {
// If checked is true the normalized variant should be shown
// @ts-ignore
if (checkbox.checked) {
regularChart.classList.add("hidden");
normalizedChart.classList.remove("hidden");
} else {
normalizedChart.classList.add("hidden");
regularChart.classList.remove("hidden");
}
});
}
export function main(): void {
window["chartWidth"] = 800;
const overlay = window["document"].getElementById("spinner-overlay");
function showSpinner(): void {
overlay.style.display = "block";
}
function hideSpinner(): void {
overlay.style.display = "none";
}
function updateCharts(): void {
const u = window.location.hash.match("all") ? "./data.json" : "recent.json";
showSpinner();
drawCharts(u)
.then(hideSpinner)
.catch(hideSpinner);
}
updateCharts();
registerNormalizedSwitcher(
"req-per-sec-chart-show-normalized",
"req-per-sec-chart",
"normalized-req-per-sec-chart"
);
registerNormalizedSwitcher(
"proxy-req-per-sec-chart-show-normalized",
"proxy-req-per-sec-chart",
"normalized-proxy-req-per-sec-chart"
);
window["onhashchange"] = updateCharts;
}