benchmarks/IsolateBaseOverhead/dart2/IsolateBaseOverhead.dart - sdk.git - Git at Google

 // Copyright (c) 2022, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 import 'dart:async';
 import 'dart:io';
 import 'dart:isolate';

 const int count = 10000;

 // The benchmark will spawn a long chain of isolates, keeping all of them
 // alive until the last one which measures Rss at that point (i.e. when all
 // isolates are alive), thereby getting a good estimate of memory-overhead per
 // isolate.
 void main() async {
   final onDone = ReceivePort();
   final lastIsolatePort = ReceivePort();
   final startRss = ProcessInfo.currentRss;
   final startUs = DateTime.now().microsecondsSinceEpoch;
   await Isolate.spawn(worker, WorkerInfo(count, lastIsolatePort.sendPort),
       onExit: onDone.sendPort);
   final result = await lastIsolatePort.first as List;
   final lastIsolateRss = result[0] as int;
   final lastIsolateUs = result[1] as int;
   await onDone.first;
   final doneUs = DateTime.now().microsecondsSinceEpoch;

   final averageMemoryUsageInKB = (lastIsolateRss - startRss) / count / 1024;
   final averageStartLatencyInUs = (lastIsolateUs - startUs) / count;
   final averageFinishLatencyInUs = (doneUs - startUs) / count;

   print('IsolateBaseOverhead.Rss(MemoryUse): $averageMemoryUsageInKB');
   print(
       'IsolateBaseOverhead.StartLatency(Latency): $averageStartLatencyInUs us.');
   print(
       'IsolateBaseOverhead.FinishLatency(Latency): $averageFinishLatencyInUs us.');
 }

 class WorkerInfo {
   final int id;
   final SendPort result;

   WorkerInfo(this.id, this.result);
 }

 Future worker(WorkerInfo workerInfo) async {
   if (workerInfo.id == 1) {
     workerInfo.result
         .send([ProcessInfo.currentRss, DateTime.now().microsecondsSinceEpoch]);
     return;
   }
   final onExit = ReceivePort();
   await Isolate.spawn(worker, WorkerInfo(workerInfo.id - 1, workerInfo.result),
       onExit: onExit.sendPort);
   await onExit.first;
 }
	// Copyright (c) 2022, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	import 'dart:async';
	import 'dart:io';
	import 'dart:isolate';

	const int count = 10000;

	// The benchmark will spawn a long chain of isolates, keeping all of them
	// alive until the last one which measures Rss at that point (i.e. when all
	// isolates are alive), thereby getting a good estimate of memory-overhead per
	// isolate.
	void main() async {
	final onDone = ReceivePort();
	final lastIsolatePort = ReceivePort();
	final startRss = ProcessInfo.currentRss;
	final startUs = DateTime.now().microsecondsSinceEpoch;
	await Isolate.spawn(worker, WorkerInfo(count, lastIsolatePort.sendPort),
	onExit: onDone.sendPort);
	final result = await lastIsolatePort.first as List;
	final lastIsolateRss = result[0] as int;
	final lastIsolateUs = result[1] as int;
	await onDone.first;
	final doneUs = DateTime.now().microsecondsSinceEpoch;

	final averageMemoryUsageInKB = (lastIsolateRss - startRss) / count / 1024;
	final averageStartLatencyInUs = (lastIsolateUs - startUs) / count;
	final averageFinishLatencyInUs = (doneUs - startUs) / count;

	print('IsolateBaseOverhead.Rss(MemoryUse): $averageMemoryUsageInKB');
	print(
	'IsolateBaseOverhead.StartLatency(Latency): $averageStartLatencyInUs us.');
	print(
	'IsolateBaseOverhead.FinishLatency(Latency): $averageFinishLatencyInUs us.');
	}

	class WorkerInfo {
	final int id;
	final SendPort result;

	WorkerInfo(this.id, this.result);
	}

	Future worker(WorkerInfo workerInfo) async {
	if (workerInfo.id == 1) {
	workerInfo.result
	.send([ProcessInfo.currentRss, DateTime.now().microsecondsSinceEpoch]);
	return;
	}
	final onExit = ReceivePort();
	await Isolate.spawn(worker, WorkerInfo(workerInfo.id - 1, workerInfo.result),
	onExit: onExit.sendPort);
	await onExit.first;
	}