tests/lib_2/isolate/function_send_test.dart - sdk.git - Git at Google

 // Copyright (c) 2014, 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.

 // @dart = 2.9

 // VMOptions=--no-enable-fast-object-copy
 // VMOptions=--enable-fast-object-copy

 import "dart:isolate";
 import "dart:io";
 import "dart:async";

 import "package:expect/expect.dart";
 import "package:async_helper/async_helper.dart";

 void toplevel(port, message) {
   port.send("toplevel:$message");
 }

 Function createFuncToplevel() => (p, m) {
       p.send(m);
     };

 class C {
   Function initializer;
   Function body;
   C()
       : initializer = ((p, m) {
           throw "initializer";
         }) {
     body = (p, m) {
       throw "body";
     };
   }
   static void staticFunc(port, message) {
     port.send("static:$message");
   }

   static Function createFuncStatic() => (p, m) {
         throw "static expr";
       };
   void instanceMethod(p, m) {
     throw "instanceMethod";
   }

   Function createFuncMember() => (p, m) {
         throw "instance expr";
       };
   void call(n, p) {
     throw "C";
   }
 }

 class Callable {
   void call(p, m) {
     p.send(["callable", m]);
   }
 }

 void main() {
   asyncStart();

   // Sendables are top-level functions and static functions only.
   testSendable("toplevel", toplevel);
   testSendable("static", C.staticFunc);

   // The result of `toplevel.call` and `staticFunc.call` may or may not be
   // identical to `toplevel` and `staticFunc` respectively. If they are not
   // equal, they may or may not be considered toplevel/static functions anyway,
   // and therefore sendable. The VM and dart2js currently disagree on whether
   // `toplevel` and `toplevel.call` are identical, both allow them to be sent.
   // These two tests should be considered canaries for accidental behavior
   // change rather than requirements.
   testSendable("toplevel", toplevel.call);
   testSendable("static", C.staticFunc.call);

   asyncEnd();
   return;
 }

 // Create a receive port that expects exactly one message.
 // Pass the message to `callback` and return the sendPort.
 SendPort singleMessagePort(callback) {
   var p;
   p = new RawReceivePort((v) {
     p.close();
     callback(v);
   });
   return p.sendPort;
 }

 // A singleMessagePort that expects the message to be a specific value.
 SendPort expectMessagePort(message) {
   asyncStart();
   return singleMessagePort((v) {
     Expect.equals(message, v);
     asyncEnd();
   });
 }

 void testSendable(name, func) {
   // Function as spawn message.
   Isolate.spawn(callFunc, [func, expectMessagePort("$name:spawn"), "spawn"]);

   // Send function to same isolate.
   var reply = expectMessagePort("$name:direct");
   singleMessagePort(callFunc).send([func, reply, "direct"]);

   // Send function to other isolate, call it there.
   reply = expectMessagePort("$name:other isolate");
   callPort().then((p) {
     p.send([func, reply, "other isolate"]);
   });

   // Round-trip function trough other isolate.
   echoPort((roundtripFunc) {
     Expect.identical(func, roundtripFunc, "$name:send through isolate");
   }).then((port) {
     port.send(func);
   });
 }

 // Creates a new isolate and a pair of ports that expect a single message
 // to be sent to the other isolate and back to the callback function.
 Future<SendPort> echoPort(callback(value)) {
   final completer = new Completer<SendPort>();
   SendPort replyPort = singleMessagePort(callback);
   RawReceivePort initPort;
   initPort = new RawReceivePort((p) {
     completer.complete(p);
     initPort.close();
   });
   return Isolate.spawn(_echo, [replyPort, initPort.sendPort])
       .then((isolate) => completer.future);
 }

 void _echo(msg) {
   var replyPort = msg[0];
   RawReceivePort requestPort;
   requestPort = new RawReceivePort((msg) {
     replyPort.send(msg);
     requestPort.close(); // Single echo only.
   });
   msg[1].send(requestPort.sendPort);
 }

 // Creates other isolate that waits for a single message, `msg`, on the returned
 // port, and executes it as `msg[0](msg[1],msg[2])` in the other isolate.
 Future<SendPort> callPort() {
   final completer = new Completer<SendPort>();
   SendPort initPort = singleMessagePort(completer.complete);
   return Isolate.spawn(_call, initPort).then((_) => completer.future);
 }

 void _call(initPort) {
   initPort.send(singleMessagePort(callFunc));
 }

 void nop(_) {}

 void callFunc(message) {
   message[0](message[1], message[2]);
 }
	// Copyright (c) 2014, 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.

	// @dart = 2.9

	// VMOptions=--no-enable-fast-object-copy
	// VMOptions=--enable-fast-object-copy

	import "dart:isolate";
	import "dart:io";
	import "dart:async";

	import "package:expect/expect.dart";
	import "package:async_helper/async_helper.dart";

	void toplevel(port, message) {
	port.send("toplevel:$message");
	}

	Function createFuncToplevel() => (p, m) {
	p.send(m);
	};

	class C {
	Function initializer;
	Function body;
	C()
	: initializer = ((p, m) {
	throw "initializer";
	}) {
	body = (p, m) {
	throw "body";
	};
	}
	static void staticFunc(port, message) {
	port.send("static:$message");
	}

	static Function createFuncStatic() => (p, m) {
	throw "static expr";
	};
	void instanceMethod(p, m) {
	throw "instanceMethod";
	}

	Function createFuncMember() => (p, m) {
	throw "instance expr";
	};
	void call(n, p) {
	throw "C";
	}
	}

	class Callable {
	void call(p, m) {
	p.send(["callable", m]);
	}
	}

	void main() {
	asyncStart();

	// Sendables are top-level functions and static functions only.
	testSendable("toplevel", toplevel);
	testSendable("static", C.staticFunc);

	// The result of `toplevel.call` and `staticFunc.call` may or may not be
	// identical to `toplevel` and `staticFunc` respectively. If they are not
	// equal, they may or may not be considered toplevel/static functions anyway,
	// and therefore sendable. The VM and dart2js currently disagree on whether
	// `toplevel` and `toplevel.call` are identical, both allow them to be sent.
	// These two tests should be considered canaries for accidental behavior
	// change rather than requirements.
	testSendable("toplevel", toplevel.call);
	testSendable("static", C.staticFunc.call);

	asyncEnd();
	return;
	}

	// Create a receive port that expects exactly one message.
	// Pass the message to `callback` and return the sendPort.
	SendPort singleMessagePort(callback) {
	var p;
	p = new RawReceivePort((v) {
	p.close();
	callback(v);
	});
	return p.sendPort;
	}

	// A singleMessagePort that expects the message to be a specific value.
	SendPort expectMessagePort(message) {
	asyncStart();
	return singleMessagePort((v) {
	Expect.equals(message, v);
	asyncEnd();
	});
	}

	void testSendable(name, func) {
	// Function as spawn message.
	Isolate.spawn(callFunc, [func, expectMessagePort("$name:spawn"), "spawn"]);

	// Send function to same isolate.
	var reply = expectMessagePort("$name:direct");
	singleMessagePort(callFunc).send([func, reply, "direct"]);

	// Send function to other isolate, call it there.
	reply = expectMessagePort("$name:other isolate");
	callPort().then((p) {
	p.send([func, reply, "other isolate"]);
	});

	// Round-trip function trough other isolate.
	echoPort((roundtripFunc) {
	Expect.identical(func, roundtripFunc, "$name:send through isolate");
	}).then((port) {
	port.send(func);
	});
	}

	// Creates a new isolate and a pair of ports that expect a single message
	// to be sent to the other isolate and back to the callback function.
	Future<SendPort> echoPort(callback(value)) {
	final completer = new Completer<SendPort>();
	SendPort replyPort = singleMessagePort(callback);
	RawReceivePort initPort;
	initPort = new RawReceivePort((p) {
	completer.complete(p);
	initPort.close();
	});
	return Isolate.spawn(_echo, [replyPort, initPort.sendPort])
	.then((isolate) => completer.future);
	}

	void _echo(msg) {
	var replyPort = msg[0];
	RawReceivePort requestPort;
	requestPort = new RawReceivePort((msg) {
	replyPort.send(msg);
	requestPort.close(); // Single echo only.
	});
	msg[1].send(requestPort.sendPort);
	}

	// Creates other isolate that waits for a single message, `msg`, on the returned
	// port, and executes it as `msg[0](msg[1],msg[2])` in the other isolate.
	Future<SendPort> callPort() {
	final completer = new Completer<SendPort>();
	SendPort initPort = singleMessagePort(completer.complete);
	return Isolate.spawn(_call, initPort).then((_) => completer.future);
	}

	void _call(initPort) {
	initPort.send(singleMessagePort(callFunc));
	}

	void nop(_) {}

	void callFunc(message) {
	message[0](message[1], message[2]);
	}