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nodejs/benchmark/common.js
Vse Mozhet Byt b9457717ca benchmark: remove needless RegExp capturing
Use non-capturing grouping or remove capturing completely when:

* capturing is useless per se, e.g. in test() check;
* captured groups are not used afterwards at all;
* some of the later captured groups are not used afterwards.

PR-URL: https://github.com/nodejs/node/pull/13718
Reviewed-By: Anna Henningsen <anna@addaleax.net>
Reviewed-By: James M Snell <jasnell@gmail.com>
Reviewed-By: Colin Ihrig <cjihrig@gmail.com>
Reviewed-By: Refael Ackermann <refack@gmail.com>
Reviewed-By: Luigi Pinca <luigipinca@gmail.com>
2017-06-19 18:06:17 +03:00

245 lines
7.2 KiB
JavaScript

'use strict';
const child_process = require('child_process');
const http_benchmarkers = require('./_http-benchmarkers.js');
exports.createBenchmark = function(fn, configs, options) {
return new Benchmark(fn, configs, options);
};
function Benchmark(fn, configs, options) {
// Use the file name as the name of the benchmark
this.name = require.main.filename.slice(__dirname.length + 1);
// Parse job-specific configuration from the command line arguments
const parsed_args = this._parseArgs(process.argv.slice(2), configs);
this.options = parsed_args.cli;
this.extra_options = parsed_args.extra;
// The configuration list as a queue of jobs
this.queue = this._queue(this.options);
// The configuration of the current job, head of the queue
this.config = this.queue[0];
// Execution arguments i.e. flags used to run the jobs
this.flags = [];
if (options && options.flags) {
this.flags = this.flags.concat(options.flags);
}
// Holds process.hrtime value
this._time = [0, 0];
// Used to make sure a benchmark only start a timer once
this._started = false;
// this._run will use fork() to create a new process for each configuration
// combination.
if (process.env.hasOwnProperty('NODE_RUN_BENCHMARK_FN')) {
process.nextTick(() => fn(this.config));
} else {
process.nextTick(() => this._run());
}
}
Benchmark.prototype._parseArgs = function(argv, configs) {
const cliOptions = {};
const extraOptions = {};
const validArgRE = /^(.+?)=([\s\S]*)$/;
// Parse configuration arguments
for (const arg of argv) {
const match = arg.match(validArgRE);
if (!match) {
console.error(`bad argument: ${arg}`);
process.exit(1);
}
const config = match[1];
if (configs[config]) {
// Infer the type from the config object and parse accordingly
const isNumber = typeof configs[config][0] === 'number';
const value = isNumber ? +match[2] : match[2];
if (!cliOptions[config])
cliOptions[config] = [];
cliOptions[config].push(value);
} else {
extraOptions[config] = match[2];
}
}
return { cli: Object.assign({}, configs, cliOptions), extra: extraOptions };
};
Benchmark.prototype._queue = function(options) {
const queue = [];
const keys = Object.keys(options);
// Perform a depth-first walk though all options to generate a
// configuration list that contains all combinations.
function recursive(keyIndex, prevConfig) {
const key = keys[keyIndex];
const values = options[key];
const type = typeof values[0];
for (const value of values) {
if (typeof value !== 'number' && typeof value !== 'string') {
throw new TypeError(`configuration "${key}" had type ${typeof value}`);
}
if (typeof value !== type) {
// This is a requirement for being able to consistently and predictably
// parse CLI provided configuration values.
throw new TypeError(`configuration "${key}" has mixed types`);
}
const currConfig = Object.assign({ [key]: value }, prevConfig);
if (keyIndex + 1 < keys.length) {
recursive(keyIndex + 1, currConfig);
} else {
queue.push(currConfig);
}
}
}
if (keys.length > 0) {
recursive(0, {});
} else {
queue.push({});
}
return queue;
};
// Benchmark an http server.
exports.default_http_benchmarker =
http_benchmarkers.default_http_benchmarker;
exports.PORT = http_benchmarkers.PORT;
Benchmark.prototype.http = function(options, cb) {
const self = this;
const http_options = Object.assign({ }, options);
http_options.benchmarker = http_options.benchmarker ||
self.config.benchmarker ||
self.extra_options.benchmarker ||
exports.default_http_benchmarker;
http_benchmarkers.run(http_options, function(error, code, used_benchmarker,
result, elapsed) {
if (cb) {
cb(code);
}
if (error) {
console.error(error);
process.exit(code || 1);
}
self.config.benchmarker = used_benchmarker;
self.report(result, elapsed);
});
};
Benchmark.prototype._run = function() {
const self = this;
// If forked, report to the parent.
if (process.send) {
process.send({
type: 'config',
name: this.name,
queueLength: this.queue.length
});
}
(function recursive(queueIndex) {
const config = self.queue[queueIndex];
// set NODE_RUN_BENCHMARK_FN to indicate that the child shouldn't construct
// a configuration queue, but just execute the benchmark function.
const childEnv = Object.assign({}, process.env);
childEnv.NODE_RUN_BENCHMARK_FN = '';
// Create configuration arguments
const childArgs = [];
for (const key of Object.keys(config)) {
childArgs.push(`${key}=${config[key]}`);
}
for (const key of Object.keys(self.extra_options)) {
childArgs.push(`${key}=${self.extra_options[key]}`);
}
const child = child_process.fork(require.main.filename, childArgs, {
env: childEnv,
execArgv: self.flags.concat(process.execArgv)
});
child.on('message', sendResult);
child.on('close', function(code) {
if (code) {
process.exit(code);
return;
}
if (queueIndex + 1 < self.queue.length) {
recursive(queueIndex + 1);
}
});
})(0);
};
Benchmark.prototype.start = function() {
if (this._started) {
throw new Error('Called start more than once in a single benchmark');
}
this._started = true;
this._time = process.hrtime();
};
Benchmark.prototype.end = function(operations) {
// get elapsed time now and do error checking later for accuracy.
const elapsed = process.hrtime(this._time);
if (!this._started) {
throw new Error('called end without start');
}
if (typeof operations !== 'number') {
throw new Error('called end() without specifying operation count');
}
if (!process.env.NODEJS_BENCHMARK_ZERO_ALLOWED && operations <= 0) {
throw new Error('called end() with operation count <= 0');
}
if (elapsed[0] === 0 && elapsed[1] === 0) {
if (!process.env.NODEJS_BENCHMARK_ZERO_ALLOWED)
throw new Error('insufficient clock precision for short benchmark');
// avoid dividing by zero
elapsed[1] = 1;
}
const time = elapsed[0] + elapsed[1] / 1e9;
const rate = operations / time;
this.report(rate, elapsed);
};
function formatResult(data) {
// Construct configuration string, " A=a, B=b, ..."
let conf = '';
for (const key of Object.keys(data.conf)) {
conf += ` ${key}=${JSON.stringify(data.conf[key])}`;
}
var rate = data.rate.toString().split('.');
rate[0] = rate[0].replace(/(\d)(?=(?:\d\d\d)+(?!\d))/g, '$1,');
rate = (rate[1] ? rate.join('.') : rate[0]);
return `${data.name}${conf}: ${rate}`;
}
function sendResult(data) {
if (process.send) {
// If forked, report by process send
process.send(data);
} else {
// Otherwise report by stdout
console.log(formatResult(data));
}
}
exports.sendResult = sendResult;
Benchmark.prototype.report = function(rate, elapsed) {
sendResult({
name: this.name,
conf: this.config,
rate: rate,
time: elapsed[0] + elapsed[1] / 1e9,
type: 'report'
});
};