shell/common/fixtures/shell_test.dart - mirrors/engine - Git at Google

 // Copyright 2013 The Flutter Authors. 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:convert' show utf8, json;
 import 'dart:isolate';
 import 'dart:typed_data';
 import 'dart:ui';

 void main() {}

 @pragma('vm:external-name', 'NativeReportTimingsCallback')
 external void nativeReportTimingsCallback(List<int> timings);
 @pragma('vm:external-name', 'NativeOnBeginFrame')
 external void nativeOnBeginFrame(int microseconds);
 @pragma('vm:external-name', 'NativeOnPointerDataPacket')
 external void nativeOnPointerDataPacket(List<int> sequences);

 @pragma('vm:entry-point')
 void onErrorA() {
   PlatformDispatcher.instance.onError = (Object error, StackTrace? stack) {
     notifyErrorA(error.toString());
     return true;
   };
   Future<void>.delayed(const Duration(seconds: 2)).then((_) {
     throw Exception('I should be coming from A');
   });
 }

 @pragma('vm:entry-point')
 void onErrorB() {
   PlatformDispatcher.instance.onError = (Object error, StackTrace? stack) {
     notifyErrorB(error.toString());
     return true;
   };
   throw Exception('I should be coming from B');
 }

 @pragma('vm:external-name', 'NotifyErrorA')
 external void notifyErrorA(String message);
 @pragma('vm:external-name', 'NotifyErrorB')
 external void notifyErrorB(String message);

 @pragma('vm:entry-point')
 void drawFrames() {
   // Wait for native to tell us to start going.
   notifyNative();

   PlatformDispatcher.instance.onBeginFrame = (Duration beginTime) {
     final SceneBuilder builder = SceneBuilder();
     final PictureRecorder recorder = PictureRecorder();
     final Canvas canvas = Canvas(recorder);
     canvas.drawPaint(Paint()..color = const Color(0xFFABCDEF));
     final Picture picture = recorder.endRecording();
     builder.addPicture(Offset.zero, picture);

     final Scene scene = builder.build();
     window.render(scene);

     scene.dispose();
     picture.dispose();
   };
   PlatformDispatcher.instance.scheduleFrame();
 }

 @pragma('vm:entry-point')
 void reportTimingsMain() {
   PlatformDispatcher.instance.onReportTimings = (List<FrameTiming> timings) {
     List<int> timestamps = [];
     for (FrameTiming t in timings) {
       for (FramePhase phase in FramePhase.values) {
         timestamps.add(t.timestampInMicroseconds(phase));
       }
     }
     nativeReportTimingsCallback(timestamps);
     PlatformDispatcher.instance.onReportTimings = (List<FrameTiming> timings) {};
   };
 }

 @pragma('vm:entry-point')
 void onBeginFrameMain() {
   PlatformDispatcher.instance.onBeginFrame = (Duration beginTime) {
     nativeOnBeginFrame(beginTime.inMicroseconds);
   };
   PlatformDispatcher.instance.scheduleFrame();
 }

 @pragma('vm:entry-point')
 void onPointerDataPacketMain() {
   PlatformDispatcher.instance.onPointerDataPacket = (PointerDataPacket packet) {
     List<int> sequence = <int>[];
     for (PointerData data in packet.data) {
       sequence.add(PointerChange.values.indexOf(data.change));
     }
     nativeOnPointerDataPacket(sequence);
   };
 }

 @pragma('vm:entry-point')
 void emptyMain() {}

 @pragma('vm:entry-point')
 void reportMetrics() {
   window.onMetricsChanged = () {
     _reportMetrics(
       window.devicePixelRatio,
       window.physicalSize.width,
       window.physicalSize.height,
     );
   };
 }

 @pragma('vm:external-name', 'ReportMetrics')
 external void _reportMetrics(double devicePixelRatio, double width, double height);

 @pragma('vm:entry-point')
 void dummyReportTimingsMain() {
   PlatformDispatcher.instance.onReportTimings = (List<FrameTiming> timings) {};
 }

 @pragma('vm:entry-point')
 void fixturesAreFunctionalMain() {
   sayHiFromFixturesAreFunctionalMain();
 }

 @pragma('vm:external-name', 'SayHiFromFixturesAreFunctionalMain')
 external void sayHiFromFixturesAreFunctionalMain();

 @pragma('vm:entry-point')
 @pragma('vm:external-name', 'NotifyNative')
 external void notifyNative();

 @pragma('vm:entry-point')
 void thousandCallsToNative() {
   for (int i = 0; i < 1000; i++) {
     notifyNative();
   }
 }

 void secondaryIsolateMain(String message) {
   print('Secondary isolate got message: ' + message);
   notifyNative();
 }

 @pragma('vm:entry-point')
 void testCanLaunchSecondaryIsolate() {
   Isolate.spawn(secondaryIsolateMain, 'Hello from root isolate.');
   notifyNative();
 }

 @pragma('vm:entry-point')
 void testSkiaResourceCacheSendsResponse() {
   final PlatformMessageResponseCallback callback = (ByteData? data) {
     if (data == null) {
       throw 'Response must not be null.';
     }
     final String response = utf8.decode(data.buffer.asUint8List());
     final List<bool> jsonResponse = json.decode(response).cast<bool>();
     if (jsonResponse[0] != true) {
       throw 'Response was not true';
     }
     notifyNative();
   };
   const String jsonRequest = '''{
                             "method": "Skia.setResourceCacheMaxBytes",
                             "args": 10000
                           }''';
   PlatformDispatcher.instance.sendPlatformMessage(
     'flutter/skia',
     Uint8List.fromList(utf8.encode(jsonRequest)).buffer.asByteData(),
     callback,
   );
 }

 @pragma('vm:external-name', 'NotifyWidthHeight')
 external void notifyWidthHeight(int width, int height);

 @pragma('vm:entry-point')
 void canCreateImageFromDecompressedData() {
   const int imageWidth = 10;
   const int imageHeight = 10;
   final Uint8List pixels = Uint8List.fromList(List<int>.generate(
     imageWidth * imageHeight * 4,
     (int i) => i % 4 < 2 ? 0x00 : 0xFF,
   ));

   decodeImageFromPixels(
     pixels,
     imageWidth,
     imageHeight,
     PixelFormat.rgba8888,
     (Image image) {
       notifyWidthHeight(image.width, image.height);
     },
   );
 }

 @pragma('vm:entry-point')
 void canAccessIsolateLaunchData() {
   notifyMessage(
     utf8.decode(
       PlatformDispatcher.instance.getPersistentIsolateData()!.buffer.asUint8List(),
     ),
   );
 }

 @pragma('vm:entry-point')
 void performanceModeImpactsNotifyIdle() {
   notifyNativeBool(false);
   PlatformDispatcher.instance.requestDartPerformanceMode(DartPerformanceMode.latency);
   notifyNativeBool(true);
   PlatformDispatcher.instance.requestDartPerformanceMode(DartPerformanceMode.balanced);
 }

 @pragma('vm:entry-point')
 void callNotifyDestroyed() {
   notifyDestroyed();
 }

 @pragma('vm:external-name', 'NotifyMessage')
 external void notifyMessage(String string);

 @pragma('vm:entry-point')
 void canConvertMappings() {
   sendFixtureMapping(getFixtureMapping());
 }

 @pragma('vm:external-name', 'GetFixtureMapping')
 external List<int> getFixtureMapping();
 @pragma('vm:external-name', 'SendFixtureMapping')
 external void sendFixtureMapping(List<int> list);

 @pragma('vm:entry-point')
 void canDecompressImageFromAsset() {
   decodeImageFromList(
     Uint8List.fromList(getFixtureImage()),
     (Image result) {
       notifyWidthHeight(result.width, result.height);
     },
   );
 }

 @pragma('vm:external-name', 'GetFixtureImage')
 external List<int> getFixtureImage();

 @pragma('vm:entry-point')
 void canRegisterImageDecoders() {
   decodeImageFromList(
     // The test ImageGenerator will always behave the same regardless of input.
     Uint8List(1),
     (Image result) {
       notifyWidthHeight(result.width, result.height);
     },
   );
 }

 @pragma('vm:external-name', 'NotifyLocalTime')
 external void notifyLocalTime(String string);

 @pragma('vm:external-name', 'WaitFixture')
 external bool waitFixture();

 // Return local date-time as a string, to an hour resolution.  So, "2020-07-23
 // 14:03:22" will become "2020-07-23 14".
 String localTimeAsString() {
    final now = DateTime.now().toLocal();
    // This is: "$y-$m-$d $h:$min:$sec.$ms$us";
    final timeStr = now.toString();
    // Forward only "$y-$m-$d $h" for timestamp comparison.  Not using DateTime
    // formatting since package:intl is not available.
   return timeStr.split(":")[0];
 }

 @pragma('vm:entry-point')
 void localtimesMatch() {
   notifyLocalTime(localTimeAsString());
 }

 @pragma('vm:entry-point')
 void timezonesChange() {
   do {
     notifyLocalTime(localTimeAsString());
   } while (waitFixture());
 }

 @pragma('vm:external-name', 'NotifyCanAccessResource')
 external void notifyCanAccessResource(bool success);

 @pragma('vm:external-name', 'NotifySetAssetBundlePath')
 external void notifySetAssetBundlePath();

 @pragma('vm:entry-point')
 void canAccessResourceFromAssetDir() async {
   notifySetAssetBundlePath();
   window.sendPlatformMessage(
     'flutter/assets',
     Uint8List.fromList(utf8.encode('kernel_blob.bin')).buffer.asByteData(),
     (ByteData? byteData) {
       notifyCanAccessResource(byteData != null);
     },
   );
 }

 @pragma('vm:external-name', 'NotifyNativeWhenEngineRun')
 external void notifyNativeWhenEngineRun(bool success);

 @pragma('vm:external-name', 'NotifyNativeWhenEngineSpawn')
 external void notifyNativeWhenEngineSpawn(bool success);

 @pragma('vm:entry-point')
 void canReceiveArgumentsWhenEngineRun(List<String> args) {
   notifyNativeWhenEngineRun(args.length == 2 && args[0] == 'foo' && args[1] == 'bar');
 }

 @pragma('vm:entry-point')
 void canReceiveArgumentsWhenEngineSpawn(List<String> args) {
   notifyNativeWhenEngineSpawn(args.length == 2 && args[0] == 'arg1' && args[1] == 'arg2');
 }

 @pragma('vm:entry-point')
 void onBeginFrameWithNotifyNativeMain() {
   PlatformDispatcher.instance.onBeginFrame = (Duration beginTime) {
     nativeOnBeginFrame(beginTime.inMicroseconds);
   };
   notifyNative();
 }

 @pragma('vm:entry-point')
 void frameCallback(_Image, int) {
   // It is used as the frame callback of 'MultiFrameCodec' in the test
   // 'ItDoesNotCrashThatSkiaUnrefQueueDrainAfterIOManagerReset'.
   // The test is a regression test and doesn't care about images, so it is empty.
 }

 Picture CreateRedBox(Size size) {
   Paint paint = Paint()
     ..color = Color.fromARGB(255, 255, 0, 0)
     ..style = PaintingStyle.fill;
   PictureRecorder baseRecorder = PictureRecorder();
   Canvas canvas = Canvas(baseRecorder);
   canvas.drawRect(Rect.fromLTRB(0.0, 0.0, size.width, size.height), paint);
   return baseRecorder.endRecording();
 }

 @pragma('vm:entry-point')
 void scene_with_red_box() {
   PlatformDispatcher.instance.onBeginFrame = (Duration duration) {
     SceneBuilder builder = SceneBuilder();
     builder.pushOffset(0.0, 0.0);
     builder.addPicture(Offset(0.0, 0.0), CreateRedBox(Size(2.0, 2.0)));
     builder.pop();
     PlatformDispatcher.instance.views.first.render(builder.build());
   };
   PlatformDispatcher.instance.scheduleFrame();
 }


 @pragma('vm:entry-point')
 Future<void> toImageSync() async {
   final PictureRecorder recorder = PictureRecorder();
   final Canvas canvas = Canvas(recorder);
   canvas.drawPaint(Paint()..color = const Color(0xFFAAAAAA));
   final Picture picture = recorder.endRecording();

   final Image image = picture.toImageSync(20, 25);
   void expect(Object? a, Object? b) {
     if (a != b) {
       throw 'Expected $a to == $b';
     }
   }
   expect(image.width, 20);
   expect(image.height, 25);

   final ByteData dataBefore = (await image.toByteData())!;
   expect(dataBefore.lengthInBytes, 20 * 25 * 4);
   for (final int byte in dataBefore.buffer.asUint32List()) {
     expect(byte, 0xFFAAAAAA);
   }

   // Cause the rasterizer to get torn down.
   notifyNative();

   final ByteData dataAfter = (await image.toByteData())!;
   expect(dataAfter.lengthInBytes, 20 * 25 * 4);
   for (final int byte in dataAfter.buffer.asUint32List()) {
     expect(byte, 0xFFAAAAAA);
   }

   // Verify that the image can be drawn successfully.
   final PictureRecorder recorder2 = PictureRecorder();
   final Canvas canvas2 = Canvas(recorder2);
   canvas2.drawImage(image, Offset.zero, Paint());
   final Picture picture2 = recorder2.endRecording();

   picture.dispose();
   picture2.dispose();
   notifyNative();
 }

 @pragma('vm:entry-point')
 Future<void> included() async {

 }

 Future<void> excluded() async {

 }

 class IsolateParam {
   const IsolateParam(this.sendPort, this.rawHandle);
   final SendPort sendPort;
   final int rawHandle;
 }

 @pragma('vm:entry-point')
 Future<void> runCallback(IsolateParam param) async {
   try {
     final Future<dynamic> Function() func = PluginUtilities.getCallbackFromHandle(
       CallbackHandle.fromRawHandle(param.rawHandle)
     )! as Future<dynamic> Function();
     await func.call();
     param.sendPort.send(true);
   }
   on NoSuchMethodError {
     param.sendPort.send(false);
   }
 }

 @pragma('vm:entry-point')
 @pragma('vm:external-name', 'NotifyNativeBool')
 external void notifyNativeBool(bool value);
 @pragma('vm:external-name', 'NotifyDestroyed')
 external void notifyDestroyed();

 @pragma('vm:entry-point')
 Future<void> testPluginUtilitiesCallbackHandle() async {
   ReceivePort port = ReceivePort();
   await Isolate.spawn(
     runCallback,
     IsolateParam(
       port.sendPort,
       PluginUtilities.getCallbackHandle(included)!.toRawHandle()
     ),
     onError: port.sendPort
   );
   final dynamic result1 = await port.first;
   if (result1 != true) {
     print('Expected $result1 to == true');
     notifyNativeBool(false);
     return;
   }
   port.close();
   if (const bool.fromEnvironment('dart.vm.product')) {
     port = ReceivePort();
     await Isolate.spawn(
       runCallback,
       IsolateParam(
         port.sendPort,
         PluginUtilities.getCallbackHandle(excluded)!.toRawHandle()
       ),
       onError: port.sendPort
     );
     final dynamic result2 = await port.first;
     if (result2 != false) {
       print('Expected $result2 to == false');
       notifyNativeBool(false);
       return;
     }
     port.close();
   }
   notifyNativeBool(true);
 }
	// Copyright 2013 The Flutter Authors. 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:convert' show utf8, json;
	import 'dart:isolate';
	import 'dart:typed_data';
	import 'dart:ui';

	void main() {}

	@pragma('vm:external-name', 'NativeReportTimingsCallback')
	external void nativeReportTimingsCallback(List<int> timings);
	@pragma('vm:external-name', 'NativeOnBeginFrame')
	external void nativeOnBeginFrame(int microseconds);
	@pragma('vm:external-name', 'NativeOnPointerDataPacket')
	external void nativeOnPointerDataPacket(List<int> sequences);

	@pragma('vm:entry-point')
	void onErrorA() {
	PlatformDispatcher.instance.onError = (Object error, StackTrace? stack) {
	notifyErrorA(error.toString());
	return true;
	};
	Future<void>.delayed(const Duration(seconds: 2)).then((_) {
	throw Exception('I should be coming from A');
	});
	}

	@pragma('vm:entry-point')
	void onErrorB() {
	PlatformDispatcher.instance.onError = (Object error, StackTrace? stack) {
	notifyErrorB(error.toString());
	return true;
	};
	throw Exception('I should be coming from B');
	}

	@pragma('vm:external-name', 'NotifyErrorA')
	external void notifyErrorA(String message);
	@pragma('vm:external-name', 'NotifyErrorB')
	external void notifyErrorB(String message);

	@pragma('vm:entry-point')
	void drawFrames() {
	// Wait for native to tell us to start going.
	notifyNative();

	PlatformDispatcher.instance.onBeginFrame = (Duration beginTime) {
	final SceneBuilder builder = SceneBuilder();
	final PictureRecorder recorder = PictureRecorder();
	final Canvas canvas = Canvas(recorder);
	canvas.drawPaint(Paint()..color = const Color(0xFFABCDEF));
	final Picture picture = recorder.endRecording();
	builder.addPicture(Offset.zero, picture);

	final Scene scene = builder.build();
	window.render(scene);

	scene.dispose();
	picture.dispose();
	};
	PlatformDispatcher.instance.scheduleFrame();
	}

	@pragma('vm:entry-point')
	void reportTimingsMain() {
	PlatformDispatcher.instance.onReportTimings = (List<FrameTiming> timings) {
	List<int> timestamps = [];
	for (FrameTiming t in timings) {
	for (FramePhase phase in FramePhase.values) {
	timestamps.add(t.timestampInMicroseconds(phase));
	}
	}
	nativeReportTimingsCallback(timestamps);
	PlatformDispatcher.instance.onReportTimings = (List<FrameTiming> timings) {};
	};
	}

	@pragma('vm:entry-point')
	void onBeginFrameMain() {
	PlatformDispatcher.instance.onBeginFrame = (Duration beginTime) {
	nativeOnBeginFrame(beginTime.inMicroseconds);
	};
	PlatformDispatcher.instance.scheduleFrame();
	}

	@pragma('vm:entry-point')
	void onPointerDataPacketMain() {
	PlatformDispatcher.instance.onPointerDataPacket = (PointerDataPacket packet) {
	List<int> sequence = <int>[];
	for (PointerData data in packet.data) {
	sequence.add(PointerChange.values.indexOf(data.change));
	}
	nativeOnPointerDataPacket(sequence);
	};
	}

	@pragma('vm:entry-point')
	void emptyMain() {}

	@pragma('vm:entry-point')
	void reportMetrics() {
	window.onMetricsChanged = () {
	_reportMetrics(
	window.devicePixelRatio,
	window.physicalSize.width,
	window.physicalSize.height,
	);
	};
	}

	@pragma('vm:external-name', 'ReportMetrics')
	external void _reportMetrics(double devicePixelRatio, double width, double height);

	@pragma('vm:entry-point')
	void dummyReportTimingsMain() {
	PlatformDispatcher.instance.onReportTimings = (List<FrameTiming> timings) {};
	}

	@pragma('vm:entry-point')
	void fixturesAreFunctionalMain() {
	sayHiFromFixturesAreFunctionalMain();
	}

	@pragma('vm:external-name', 'SayHiFromFixturesAreFunctionalMain')
	external void sayHiFromFixturesAreFunctionalMain();

	@pragma('vm:entry-point')
	@pragma('vm:external-name', 'NotifyNative')
	external void notifyNative();

	@pragma('vm:entry-point')
	void thousandCallsToNative() {
	for (int i = 0; i < 1000; i++) {
	notifyNative();
	}
	}

	void secondaryIsolateMain(String message) {
	print('Secondary isolate got message: ' + message);
	notifyNative();
	}

	@pragma('vm:entry-point')
	void testCanLaunchSecondaryIsolate() {
	Isolate.spawn(secondaryIsolateMain, 'Hello from root isolate.');
	notifyNative();
	}

	@pragma('vm:entry-point')
	void testSkiaResourceCacheSendsResponse() {
	final PlatformMessageResponseCallback callback = (ByteData? data) {
	if (data == null) {
	throw 'Response must not be null.';
	}
	final String response = utf8.decode(data.buffer.asUint8List());
	final List<bool> jsonResponse = json.decode(response).cast<bool>();
	if (jsonResponse[0] != true) {
	throw 'Response was not true';
	}
	notifyNative();
	};
	const String jsonRequest = '''{
	"method": "Skia.setResourceCacheMaxBytes",
	"args": 10000
	}''';
	PlatformDispatcher.instance.sendPlatformMessage(
	'flutter/skia',
	Uint8List.fromList(utf8.encode(jsonRequest)).buffer.asByteData(),
	callback,
	);
	}

	@pragma('vm:external-name', 'NotifyWidthHeight')
	external void notifyWidthHeight(int width, int height);

	@pragma('vm:entry-point')
	void canCreateImageFromDecompressedData() {
	const int imageWidth = 10;
	const int imageHeight = 10;
	final Uint8List pixels = Uint8List.fromList(List<int>.generate(
	imageWidth * imageHeight * 4,
	(int i) => i % 4 < 2 ? 0x00 : 0xFF,
	));

	decodeImageFromPixels(
	pixels,
	imageWidth,
	imageHeight,
	PixelFormat.rgba8888,
	(Image image) {
	notifyWidthHeight(image.width, image.height);
	},
	);
	}

	@pragma('vm:entry-point')
	void canAccessIsolateLaunchData() {
	notifyMessage(
	utf8.decode(
	PlatformDispatcher.instance.getPersistentIsolateData()!.buffer.asUint8List(),
	),
	);
	}

	@pragma('vm:entry-point')
	void performanceModeImpactsNotifyIdle() {
	notifyNativeBool(false);
	PlatformDispatcher.instance.requestDartPerformanceMode(DartPerformanceMode.latency);
	notifyNativeBool(true);
	PlatformDispatcher.instance.requestDartPerformanceMode(DartPerformanceMode.balanced);
	}

	@pragma('vm:entry-point')
	void callNotifyDestroyed() {
	notifyDestroyed();
	}

	@pragma('vm:external-name', 'NotifyMessage')
	external void notifyMessage(String string);

	@pragma('vm:entry-point')
	void canConvertMappings() {
	sendFixtureMapping(getFixtureMapping());
	}

	@pragma('vm:external-name', 'GetFixtureMapping')
	external List<int> getFixtureMapping();
	@pragma('vm:external-name', 'SendFixtureMapping')
	external void sendFixtureMapping(List<int> list);

	@pragma('vm:entry-point')
	void canDecompressImageFromAsset() {
	decodeImageFromList(
	Uint8List.fromList(getFixtureImage()),
	(Image result) {
	notifyWidthHeight(result.width, result.height);
	},
	);
	}

	@pragma('vm:external-name', 'GetFixtureImage')
	external List<int> getFixtureImage();

	@pragma('vm:entry-point')
	void canRegisterImageDecoders() {
	decodeImageFromList(
	// The test ImageGenerator will always behave the same regardless of input.
	Uint8List(1),
	(Image result) {
	notifyWidthHeight(result.width, result.height);
	},
	);
	}

	@pragma('vm:external-name', 'NotifyLocalTime')
	external void notifyLocalTime(String string);

	@pragma('vm:external-name', 'WaitFixture')
	external bool waitFixture();

	// Return local date-time as a string, to an hour resolution. So, "2020-07-23
	// 14:03:22" will become "2020-07-23 14".
	String localTimeAsString() {
	final now = DateTime.now().toLocal();
	// This is: "$y-$m-$d $h:$min:$sec.$ms$us";
	final timeStr = now.toString();
	// Forward only "$y-$m-$d $h" for timestamp comparison. Not using DateTime
	// formatting since package:intl is not available.
	return timeStr.split(":")[0];
	}

	@pragma('vm:entry-point')
	void localtimesMatch() {
	notifyLocalTime(localTimeAsString());
	}

	@pragma('vm:entry-point')
	void timezonesChange() {
	do {
	notifyLocalTime(localTimeAsString());
	} while (waitFixture());
	}

	@pragma('vm:external-name', 'NotifyCanAccessResource')
	external void notifyCanAccessResource(bool success);

	@pragma('vm:external-name', 'NotifySetAssetBundlePath')
	external void notifySetAssetBundlePath();

	@pragma('vm:entry-point')
	void canAccessResourceFromAssetDir() async {
	notifySetAssetBundlePath();
	window.sendPlatformMessage(
	'flutter/assets',
	Uint8List.fromList(utf8.encode('kernel_blob.bin')).buffer.asByteData(),
	(ByteData? byteData) {
	notifyCanAccessResource(byteData != null);
	},
	);
	}

	@pragma('vm:external-name', 'NotifyNativeWhenEngineRun')
	external void notifyNativeWhenEngineRun(bool success);

	@pragma('vm:external-name', 'NotifyNativeWhenEngineSpawn')
	external void notifyNativeWhenEngineSpawn(bool success);

	@pragma('vm:entry-point')
	void canReceiveArgumentsWhenEngineRun(List<String> args) {
	notifyNativeWhenEngineRun(args.length == 2 && args[0] == 'foo' && args[1] == 'bar');
	}

	@pragma('vm:entry-point')
	void canReceiveArgumentsWhenEngineSpawn(List<String> args) {
	notifyNativeWhenEngineSpawn(args.length == 2 && args[0] == 'arg1' && args[1] == 'arg2');
	}

	@pragma('vm:entry-point')
	void onBeginFrameWithNotifyNativeMain() {
	PlatformDispatcher.instance.onBeginFrame = (Duration beginTime) {
	nativeOnBeginFrame(beginTime.inMicroseconds);
	};
	notifyNative();
	}

	@pragma('vm:entry-point')
	void frameCallback(_Image, int) {
	// It is used as the frame callback of 'MultiFrameCodec' in the test
	// 'ItDoesNotCrashThatSkiaUnrefQueueDrainAfterIOManagerReset'.
	// The test is a regression test and doesn't care about images, so it is empty.
	}

	Picture CreateRedBox(Size size) {
	Paint paint = Paint()
	..color = Color.fromARGB(255, 255, 0, 0)
	..style = PaintingStyle.fill;
	PictureRecorder baseRecorder = PictureRecorder();
	Canvas canvas = Canvas(baseRecorder);
	canvas.drawRect(Rect.fromLTRB(0.0, 0.0, size.width, size.height), paint);
	return baseRecorder.endRecording();
	}

	@pragma('vm:entry-point')
	void scene_with_red_box() {
	PlatformDispatcher.instance.onBeginFrame = (Duration duration) {
	SceneBuilder builder = SceneBuilder();
	builder.pushOffset(0.0, 0.0);
	builder.addPicture(Offset(0.0, 0.0), CreateRedBox(Size(2.0, 2.0)));
	builder.pop();
	PlatformDispatcher.instance.views.first.render(builder.build());
	};
	PlatformDispatcher.instance.scheduleFrame();
	}


	@pragma('vm:entry-point')
	Future<void> toImageSync() async {
	final PictureRecorder recorder = PictureRecorder();
	final Canvas canvas = Canvas(recorder);
	canvas.drawPaint(Paint()..color = const Color(0xFFAAAAAA));
	final Picture picture = recorder.endRecording();

	final Image image = picture.toImageSync(20, 25);
	void expect(Object? a, Object? b) {
	if (a != b) {
	throw 'Expected $a to == $b';
	}
	}
	expect(image.width, 20);
	expect(image.height, 25);

	final ByteData dataBefore = (await image.toByteData())!;
	expect(dataBefore.lengthInBytes, 20 * 25 * 4);
	for (final int byte in dataBefore.buffer.asUint32List()) {
	expect(byte, 0xFFAAAAAA);
	}

	// Cause the rasterizer to get torn down.
	notifyNative();

	final ByteData dataAfter = (await image.toByteData())!;
	expect(dataAfter.lengthInBytes, 20 * 25 * 4);
	for (final int byte in dataAfter.buffer.asUint32List()) {
	expect(byte, 0xFFAAAAAA);
	}

	// Verify that the image can be drawn successfully.
	final PictureRecorder recorder2 = PictureRecorder();
	final Canvas canvas2 = Canvas(recorder2);
	canvas2.drawImage(image, Offset.zero, Paint());
	final Picture picture2 = recorder2.endRecording();

	picture.dispose();
	picture2.dispose();
	notifyNative();
	}

	@pragma('vm:entry-point')
	Future<void> included() async {

	}

	Future<void> excluded() async {

	}

	class IsolateParam {
	const IsolateParam(this.sendPort, this.rawHandle);
	final SendPort sendPort;
	final int rawHandle;
	}

	@pragma('vm:entry-point')
	Future<void> runCallback(IsolateParam param) async {
	try {
	final Future<dynamic> Function() func = PluginUtilities.getCallbackFromHandle(
	CallbackHandle.fromRawHandle(param.rawHandle)
	)! as Future<dynamic> Function();
	await func.call();
	param.sendPort.send(true);
	}
	on NoSuchMethodError {
	param.sendPort.send(false);
	}
	}

	@pragma('vm:entry-point')
	@pragma('vm:external-name', 'NotifyNativeBool')
	external void notifyNativeBool(bool value);
	@pragma('vm:external-name', 'NotifyDestroyed')
	external void notifyDestroyed();

	@pragma('vm:entry-point')
	Future<void> testPluginUtilitiesCallbackHandle() async {
	ReceivePort port = ReceivePort();
	await Isolate.spawn(
	runCallback,
	IsolateParam(
	port.sendPort,
	PluginUtilities.getCallbackHandle(included)!.toRawHandle()
	),
	onError: port.sendPort
	);
	final dynamic result1 = await port.first;
	if (result1 != true) {
	print('Expected $result1 to == true');
	notifyNativeBool(false);
	return;
	}
	port.close();
	if (const bool.fromEnvironment('dart.vm.product')) {
	port = ReceivePort();
	await Isolate.spawn(
	runCallback,
	IsolateParam(
	port.sendPort,
	PluginUtilities.getCallbackHandle(excluded)!.toRawHandle()
	),
	onError: port.sendPort
	);
	final dynamic result2 = await port.first;
	if (result2 != false) {
	print('Expected $result2 to == false');
	notifyNativeBool(false);
	return;
	}
	port.close();
	}
	notifyNativeBool(true);
	}