samples/ffi/async/sample_async_callback.dart - sdk.git - Git at Google

 // Copyright (c) 2020, 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.
 //
 // Sample showing how to do async callbacks by telling the Dart isolate to
 // yields its execution thread to C so it can perform the callbacks on the
 // main Dart thread.
 //
 // TODO(dartbug.com/37022): Update this when we get real async callbacks.

 import 'dart:ffi';
 import 'dart:isolate';

 import 'package:expect/expect.dart';

 import '../dylib_utils.dart';

 int globalResult = 0;
 int numCallbacks1 = 0;
 int numCallbacks2 = 0;

 main() async {
   print("Dart = Dart mutator thread executing Dart.");
   print("C Da = Dart mutator thread executing C.");
   print("C T1 = Some C thread executing C.");
   print("C T2 = Some C thread executing C.");
   print("C    = C T1 or C T2.");
   print("Dart: Setup.");
   Expect.isTrue(NativeApi.majorVersion == 1);
   Expect.isTrue(NativeApi.minorVersion >= 0);
   final initializeApi = dl.lookupFunction<IntPtr Function(Pointer<Void>),
       int Function(Pointer<Void>)>("InitDartApiDL");
   Expect.isTrue(initializeApi(NativeApi.initializeApiDLData) == 0);

   final interactiveCppRequests = ReceivePort()..listen(requestExecuteCallback);
   final int nativePort = interactiveCppRequests.sendPort.nativePort;
   registerCallback1(nativePort, callback1FP);
   registerCallback2(nativePort, callback2FP);
   print("Dart: Tell C to start worker threads.");
   startWorkSimulator();

   // We need to yield control in order to be able to receive messages.
   while (numCallbacks2 < 3) {
     print("Dart: Yielding (able to receive messages on port).");
     await asyncSleep(500);
   }
   print("Dart: Received expected number of callbacks.");

   Expect.equals(2, numCallbacks1);
   Expect.equals(3, numCallbacks2);
   Expect.equals(14, globalResult);

   print("Dart: Tell C to stop worker threads.");
   stopWorkSimulator();
   interactiveCppRequests.close();
   print("Dart: Done.");
 }

 int callback1(int a) {
   print("Dart:     callback1($a).");
   numCallbacks1++;
   return a + 3;
 }

 void callback2(int a) {
   print("Dart:     callback2($a).");
   globalResult += a;
   numCallbacks2++;
 }

 void requestExecuteCallback(dynamic message) {
   final int work_address = message;
   final work = Pointer<Work>.fromAddress(work_address);
   print("Dart:   Calling into C to execute callback ($work).");
   executeCallback(work);
   print("Dart:   Done with callback.");
 }

 final callback1FP = Pointer.fromFunction<IntPtr Function(IntPtr)>(callback1, 0);

 final callback2FP = Pointer.fromFunction<Void Function(IntPtr)>(callback2);

 final dl = dlopenPlatformSpecific("ffi_test_functions");

 final registerCallback1 = dl.lookupFunction<
         Void Function(Int64 sendPort,
             Pointer<NativeFunction<IntPtr Function(IntPtr)>> functionPointer),
         void Function(int sendPort,
             Pointer<NativeFunction<IntPtr Function(IntPtr)>> functionPointer)>(
     'RegisterMyCallbackBlocking');

 final registerCallback2 = dl.lookupFunction<
         Void Function(Int64 sendPort,
             Pointer<NativeFunction<Void Function(IntPtr)>> functionPointer),
         void Function(int sendPort,
             Pointer<NativeFunction<Void Function(IntPtr)>> functionPointer)>(
     'RegisterMyCallbackNonBlocking');

 final startWorkSimulator =
     dl.lookupFunction<Void Function(), void Function()>('StartWorkSimulator');

 final stopWorkSimulator =
     dl.lookupFunction<Void Function(), void Function()>('StopWorkSimulator');

 final executeCallback = dl.lookupFunction<Void Function(Pointer<Work>),
     void Function(Pointer<Work>)>('ExecuteCallback');

 class Work extends Struct {}

 Future asyncSleep(int ms) {
   return new Future.delayed(Duration(milliseconds: ms));
 }
	// Copyright (c) 2020, 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.
	//
	// Sample showing how to do async callbacks by telling the Dart isolate to
	// yields its execution thread to C so it can perform the callbacks on the
	// main Dart thread.
	//
	// TODO(dartbug.com/37022): Update this when we get real async callbacks.

	import 'dart:ffi';
	import 'dart:isolate';

	import 'package:expect/expect.dart';

	import '../dylib_utils.dart';

	int globalResult = 0;
	int numCallbacks1 = 0;
	int numCallbacks2 = 0;

	main() async {
	print("Dart = Dart mutator thread executing Dart.");
	print("C Da = Dart mutator thread executing C.");
	print("C T1 = Some C thread executing C.");
	print("C T2 = Some C thread executing C.");
	print("C = C T1 or C T2.");
	print("Dart: Setup.");
	Expect.isTrue(NativeApi.majorVersion == 1);
	Expect.isTrue(NativeApi.minorVersion >= 0);
	final initializeApi = dl.lookupFunction<IntPtr Function(Pointer<Void>),
	int Function(Pointer<Void>)>("InitDartApiDL");
	Expect.isTrue(initializeApi(NativeApi.initializeApiDLData) == 0);

	final interactiveCppRequests = ReceivePort()..listen(requestExecuteCallback);
	final int nativePort = interactiveCppRequests.sendPort.nativePort;
	registerCallback1(nativePort, callback1FP);
	registerCallback2(nativePort, callback2FP);
	print("Dart: Tell C to start worker threads.");
	startWorkSimulator();

	// We need to yield control in order to be able to receive messages.
	while (numCallbacks2 < 3) {
	print("Dart: Yielding (able to receive messages on port).");
	await asyncSleep(500);
	}
	print("Dart: Received expected number of callbacks.");

	Expect.equals(2, numCallbacks1);
	Expect.equals(3, numCallbacks2);
	Expect.equals(14, globalResult);

	print("Dart: Tell C to stop worker threads.");
	stopWorkSimulator();
	interactiveCppRequests.close();
	print("Dart: Done.");
	}

	int callback1(int a) {
	print("Dart: callback1($a).");
	numCallbacks1++;
	return a + 3;
	}

	void callback2(int a) {
	print("Dart: callback2($a).");
	globalResult += a;
	numCallbacks2++;
	}

	void requestExecuteCallback(dynamic message) {
	final int work_address = message;
	final work = Pointer<Work>.fromAddress(work_address);
	print("Dart: Calling into C to execute callback ($work).");
	executeCallback(work);
	print("Dart: Done with callback.");
	}

	final callback1FP = Pointer.fromFunction<IntPtr Function(IntPtr)>(callback1, 0);

	final callback2FP = Pointer.fromFunction<Void Function(IntPtr)>(callback2);

	final dl = dlopenPlatformSpecific("ffi_test_functions");

	final registerCallback1 = dl.lookupFunction<
	Void Function(Int64 sendPort,
	Pointer<NativeFunction<IntPtr Function(IntPtr)>> functionPointer),
	void Function(int sendPort,
	Pointer<NativeFunction<IntPtr Function(IntPtr)>> functionPointer)>(
	'RegisterMyCallbackBlocking');

	final registerCallback2 = dl.lookupFunction<
	Void Function(Int64 sendPort,
	Pointer<NativeFunction<Void Function(IntPtr)>> functionPointer),
	void Function(int sendPort,
	Pointer<NativeFunction<Void Function(IntPtr)>> functionPointer)>(
	'RegisterMyCallbackNonBlocking');

	final startWorkSimulator =
	dl.lookupFunction<Void Function(), void Function()>('StartWorkSimulator');

	final stopWorkSimulator =
	dl.lookupFunction<Void Function(), void Function()>('StopWorkSimulator');

	final executeCallback = dl.lookupFunction<Void Function(Pointer<Work>),
	void Function(Pointer<Work>)>('ExecuteCallback');

	class Work extends Struct {}

	Future asyncSleep(int ms) {
	return new Future.delayed(Duration(milliseconds: ms));
	}