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// Copyright 2014 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.
// This file is run as part of a reduced test set in CI on Mac and Windows
// machines.
@Tags(<String>['reduced-test-set'])
library;
import 'dart:async';
import 'dart:io';
import 'dart:math' as math;
import 'dart:ui' as ui;
import 'package:flutter/foundation.dart';
import 'package:flutter/rendering.dart';
import 'package:flutter/scheduler.dart';
import 'package:flutter/widgets.dart';
import 'package:flutter_test/flutter_test.dart';
import '../image_data.dart';
import 'semantics_tester.dart';
void main() {
late int originalCacheSize;
late ui.Image image10x10;
setUp(() async {
originalCacheSize = imageCache.maximumSize;
imageCache.clear();
imageCache.clearLiveImages();
image10x10 = await createTestImage(width: 10, height: 10);
});
tearDown(() {
imageCache.maximumSize = originalCacheSize;
});
testWidgets('Verify Image does not use disposed handles', (WidgetTester tester) async {
final ui.Image image100x100 = (await tester.runAsync(() async => createTestImage(width: 100, height: 100)))!;
final _TestImageProvider imageProvider1 = _TestImageProvider();
final _TestImageProvider imageProvider2 = _TestImageProvider();
final ValueNotifier<_TestImageProvider> imageListenable = ValueNotifier<_TestImageProvider>(imageProvider1);
final ValueNotifier<int> innerListenable = ValueNotifier<int>(0);
bool imageLoaded = false;
await tester.pumpWidget(ValueListenableBuilder<_TestImageProvider>(
valueListenable: imageListenable,
builder: (BuildContext context, _TestImageProvider image, Widget? child) => Image(
image: image,
frameBuilder: (BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
if (frame == 0) {
imageLoaded = true;
}
return LayoutBuilder(
builder: (BuildContext context, BoxConstraints constraints) => ValueListenableBuilder<int>(
valueListenable: innerListenable,
builder: (BuildContext context, int value, Widget? valueListenableChild) => KeyedSubtree(
key: UniqueKey(),
child: child,
),
),
);
},
),
));
imageLoaded = false;
imageProvider1.complete(image10x10);
await tester.idle();
await tester.pump();
expect(imageLoaded, true);
imageLoaded = false;
imageListenable.value = imageProvider2;
innerListenable.value += 1;
imageProvider2.complete(image100x100);
await tester.idle();
await tester.pump();
expect(imageLoaded, true);
});
testWidgets('Verify Image resets its RenderImage when changing providers', (WidgetTester tester) async {
final GlobalKey key = GlobalKey();
final _TestImageProvider imageProvider1 = _TestImageProvider();
await tester.pumpWidget(
Container(
key: key,
child: Image(
image: imageProvider1,
excludeFromSemantics: true,
),
),
null,
EnginePhase.layout,
);
RenderImage renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNull);
imageProvider1.complete(image10x10);
await tester.idle(); // resolve the future from the image provider
await tester.pump(null, EnginePhase.layout);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNotNull);
final _TestImageProvider imageProvider2 = _TestImageProvider();
await tester.pumpWidget(
Container(
key: key,
child: Image(
image: imageProvider2,
excludeFromSemantics: true,
),
),
null,
EnginePhase.layout,
);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNull);
});
testWidgets("Verify Image doesn't reset its RenderImage when changing providers if it has gaplessPlayback set", (WidgetTester tester) async {
final GlobalKey key = GlobalKey();
final _TestImageProvider imageProvider1 = _TestImageProvider();
await tester.pumpWidget(
Container(
key: key,
child: Image(
gaplessPlayback: true,
image: imageProvider1,
excludeFromSemantics: true,
),
),
null,
EnginePhase.layout,
);
RenderImage renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNull);
imageProvider1.complete(image10x10);
await tester.idle(); // resolve the future from the image provider
await tester.pump(null, EnginePhase.layout);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNotNull);
final _TestImageProvider imageProvider2 = _TestImageProvider();
await tester.pumpWidget(
Container(
key: key,
child: Image(
gaplessPlayback: true,
image: imageProvider2,
excludeFromSemantics: true,
),
),
null,
EnginePhase.layout,
);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNotNull);
});
testWidgets('Verify Image resets its RenderImage when changing providers if it has a key', (WidgetTester tester) async {
final GlobalKey key = GlobalKey();
final _TestImageProvider imageProvider1 = _TestImageProvider();
await tester.pumpWidget(
Image(
key: key,
image: imageProvider1,
excludeFromSemantics: true,
),
null,
EnginePhase.layout,
);
RenderImage renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNull);
imageProvider1.complete(image10x10);
await tester.idle(); // resolve the future from the image provider
await tester.pump(null, EnginePhase.layout);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNotNull);
final _TestImageProvider imageProvider2 = _TestImageProvider();
await tester.pumpWidget(
Image(
key: key,
image: imageProvider2,
excludeFromSemantics: true,
),
null,
EnginePhase.layout,
);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNull);
});
testWidgets("Verify Image doesn't reset its RenderImage when changing providers if it has gaplessPlayback set", (WidgetTester tester) async {
final GlobalKey key = GlobalKey();
final _TestImageProvider imageProvider1 = _TestImageProvider();
await tester.pumpWidget(
Image(
key: key,
gaplessPlayback: true,
image: imageProvider1,
excludeFromSemantics: true,
),
null,
EnginePhase.layout,
);
RenderImage renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNull);
imageProvider1.complete(image10x10);
await tester.idle(); // resolve the future from the image provider
await tester.pump(null, EnginePhase.layout);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNotNull);
final _TestImageProvider imageProvider2 = _TestImageProvider();
await tester.pumpWidget(
Image(
key: key,
gaplessPlayback: true,
excludeFromSemantics: true,
image: imageProvider2,
),
null,
EnginePhase.layout,
);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNotNull);
});
testWidgets('Verify ImageProvider configuration inheritance', (WidgetTester tester) async {
final GlobalKey mediaQueryKey1 = GlobalKey(debugLabel: 'mediaQueryKey1');
final GlobalKey mediaQueryKey2 = GlobalKey(debugLabel: 'mediaQueryKey2');
final GlobalKey imageKey = GlobalKey(debugLabel: 'image');
final _ConfigurationKeyedTestImageProvider imageProvider = _ConfigurationKeyedTestImageProvider();
final Set<Object> seenKeys = <Object>{};
final _DebouncingImageProvider debouncingProvider = _DebouncingImageProvider(imageProvider, seenKeys);
// Of the two nested MediaQuery objects, the innermost one,
// mediaQuery2, should define the configuration of the imageProvider.
await tester.pumpWidget(
MediaQuery(
key: mediaQueryKey1,
data: const MediaQueryData(
devicePixelRatio: 10.0,
),
child: MediaQuery(
key: mediaQueryKey2,
data: const MediaQueryData(
devicePixelRatio: 5.0,
),
child: Image(
excludeFromSemantics: true,
key: imageKey,
image: debouncingProvider,
),
),
),
);
expect(imageProvider._lastResolvedConfiguration.devicePixelRatio, 5.0);
// This is the same widget hierarchy as before except that the
// two MediaQuery objects have exchanged places. The imageProvider
// should be resolved again, with the new innermost MediaQuery.
await tester.pumpWidget(
MediaQuery(
key: mediaQueryKey2,
data: const MediaQueryData(
devicePixelRatio: 5.0,
),
child: MediaQuery(
key: mediaQueryKey1,
data: const MediaQueryData(
devicePixelRatio: 10.0,
),
child: Image(
excludeFromSemantics: true,
key: imageKey,
image: debouncingProvider,
),
),
),
);
expect(imageProvider._lastResolvedConfiguration.devicePixelRatio, 10.0);
});
testWidgets('Verify ImageProvider configuration inheritance again', (WidgetTester tester) async {
final GlobalKey mediaQueryKey1 = GlobalKey(debugLabel: 'mediaQueryKey1');
final GlobalKey mediaQueryKey2 = GlobalKey(debugLabel: 'mediaQueryKey2');
final GlobalKey imageKey = GlobalKey(debugLabel: 'image');
final _ConfigurationKeyedTestImageProvider imageProvider = _ConfigurationKeyedTestImageProvider();
final Set<Object> seenKeys = <Object>{};
final _DebouncingImageProvider debouncingProvider = _DebouncingImageProvider(imageProvider, seenKeys);
// This is just a variation on the previous test. In this version the location
// of the Image changes and the MediaQuery widgets do not.
await tester.pumpWidget(
Row(
textDirection: TextDirection.ltr,
children: <Widget> [
MediaQuery(
key: mediaQueryKey2,
data: const MediaQueryData(
devicePixelRatio: 5.0,
),
child: Image(
excludeFromSemantics: true,
key: imageKey,
image: debouncingProvider,
),
),
MediaQuery(
key: mediaQueryKey1,
data: const MediaQueryData(
devicePixelRatio: 10.0,
),
child: Container(width: 100.0),
),
],
),
);
expect(imageProvider._lastResolvedConfiguration.devicePixelRatio, 5.0);
await tester.pumpWidget(
Row(
textDirection: TextDirection.ltr,
children: <Widget> [
MediaQuery(
key: mediaQueryKey2,
data: const MediaQueryData(
devicePixelRatio: 5.0,
),
child: Container(width: 100.0),
),
MediaQuery(
key: mediaQueryKey1,
data: const MediaQueryData(
devicePixelRatio: 10.0,
),
child: Image(
excludeFromSemantics: true,
key: imageKey,
image: debouncingProvider,
),
),
],
),
);
expect(imageProvider._lastResolvedConfiguration.devicePixelRatio, 10.0);
});
testWidgets('Verify ImageProvider does not inherit configuration when it does not key to it', (WidgetTester tester) async {
final GlobalKey mediaQueryKey1 = GlobalKey(debugLabel: 'mediaQueryKey1');
final GlobalKey mediaQueryKey2 = GlobalKey(debugLabel: 'mediaQueryKey2');
final GlobalKey imageKey = GlobalKey(debugLabel: 'image');
final _TestImageProvider imageProvider = _TestImageProvider();
final Set<Object> seenKeys = <Object>{};
final _DebouncingImageProvider debouncingProvider = _DebouncingImageProvider(imageProvider, seenKeys);
// Of the two nested MediaQuery objects, the innermost one,
// mediaQuery2, should define the configuration of the imageProvider.
await tester.pumpWidget(
MediaQuery(
key: mediaQueryKey1,
data: const MediaQueryData(
devicePixelRatio: 10.0,
),
child: MediaQuery(
key: mediaQueryKey2,
data: const MediaQueryData(
devicePixelRatio: 5.0,
),
child: Image(
excludeFromSemantics: true,
key: imageKey,
image: debouncingProvider,
),
),
),
);
expect(imageProvider._lastResolvedConfiguration.devicePixelRatio, 5.0);
// This is the same widget hierarchy as before except that the
// two MediaQuery objects have exchanged places. The imageProvider
// should not be resolved again, because it does not key to configuration.
await tester.pumpWidget(
MediaQuery(
key: mediaQueryKey2,
data: const MediaQueryData(
devicePixelRatio: 5.0,
),
child: MediaQuery(
key: mediaQueryKey1,
data: const MediaQueryData(
devicePixelRatio: 10.0,
),
child: Image(
excludeFromSemantics: true,
key: imageKey,
image: debouncingProvider,
),
),
),
);
expect(imageProvider._lastResolvedConfiguration.devicePixelRatio, 5.0);
});
testWidgets('Verify ImageProvider does not inherit configuration when it does not key to it again', (WidgetTester tester) async {
final GlobalKey mediaQueryKey1 = GlobalKey(debugLabel: 'mediaQueryKey1');
final GlobalKey mediaQueryKey2 = GlobalKey(debugLabel: 'mediaQueryKey2');
final GlobalKey imageKey = GlobalKey(debugLabel: 'image');
final _TestImageProvider imageProvider = _TestImageProvider();
final Set<Object> seenKeys = <Object>{};
final _DebouncingImageProvider debouncingProvider = _DebouncingImageProvider(imageProvider, seenKeys);
// This is just a variation on the previous test. In this version the location
// of the Image changes and the MediaQuery widgets do not.
await tester.pumpWidget(
Row(
textDirection: TextDirection.ltr,
children: <Widget> [
MediaQuery(
key: mediaQueryKey2,
data: const MediaQueryData(
devicePixelRatio: 5.0,
),
child: Image(
excludeFromSemantics: true,
key: imageKey,
image: debouncingProvider,
),
),
MediaQuery(
key: mediaQueryKey1,
data: const MediaQueryData(
devicePixelRatio: 10.0,
),
child: Container(width: 100.0),
),
],
),
);
expect(imageProvider._lastResolvedConfiguration.devicePixelRatio, 5.0);
await tester.pumpWidget(
Row(
textDirection: TextDirection.ltr,
children: <Widget> [
MediaQuery(
key: mediaQueryKey2,
data: const MediaQueryData(
devicePixelRatio: 5.0,
),
child: Container(width: 100.0),
),
MediaQuery(
key: mediaQueryKey1,
data: const MediaQueryData(
devicePixelRatio: 10.0,
),
child: Image(
excludeFromSemantics: true,
key: imageKey,
image: debouncingProvider,
),
),
],
),
);
expect(imageProvider._lastResolvedConfiguration.devicePixelRatio, 5.0);
});
testWidgets('Verify Image stops listening to ImageStream', (WidgetTester tester) async {
final ui.Image image100x100 = (await tester.runAsync(() async => createTestImage(width: 100, height: 100)))!;
// Web does not override the toString, whereas VM does
final String imageString = image100x100.toString();
final _TestImageProvider imageProvider = _TestImageProvider();
await tester.pumpWidget(Image(image: imageProvider, excludeFromSemantics: true));
final State<Image> image = tester.state/*State<Image>*/(find.byType(Image));
expect(image.toString(), equalsIgnoringHashCodes('_ImageState#00000(stream: ImageStream#00000(OneFrameImageStreamCompleter#00000, unresolved, 2 listeners), pixels: null, loadingProgress: null, frameNumber: null, wasSynchronouslyLoaded: false)'));
imageProvider.complete(image100x100);
await tester.pump();
expect(image.toString(), equalsIgnoringHashCodes('_ImageState#00000(stream: ImageStream#00000(OneFrameImageStreamCompleter#00000, $imageString @ 1.0x, 1 listener), pixels: $imageString @ 1.0x, loadingProgress: null, frameNumber: 0, wasSynchronouslyLoaded: false)'));
await tester.pumpWidget(Container());
expect(image.toString(), equalsIgnoringHashCodes('_ImageState#00000(lifecycle state: defunct, not mounted, stream: ImageStream#00000(OneFrameImageStreamCompleter#00000, $imageString @ 1.0x, 0 listeners), pixels: null, loadingProgress: null, frameNumber: 0, wasSynchronouslyLoaded: false)'));
});
testWidgets('Stream completer errors can be listened to by attaching before resolving', (WidgetTester tester) async {
dynamic capturedException;
StackTrace? capturedStackTrace;
ImageInfo? capturedImage;
void errorListener(dynamic exception, StackTrace? stackTrace) {
capturedException = exception;
capturedStackTrace = stackTrace;
}
void listener(ImageInfo info, bool synchronous) {
capturedImage = info;
}
final Exception testException = Exception('cannot resolve host');
final StackTrace testStack = StackTrace.current;
final _TestImageProvider imageProvider = _TestImageProvider();
imageProvider._streamCompleter.addListener(ImageStreamListener(listener, onError: errorListener));
late ImageConfiguration configuration;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
configuration = createLocalImageConfiguration(context);
return Container();
},
),
);
imageProvider.resolve(configuration);
imageProvider.fail(testException, testStack);
expect(tester.binding.microtaskCount, 1);
await tester.idle(); // Let the failed completer's future hit the stream completer.
expect(tester.binding.microtaskCount, 0);
expect(capturedImage, isNull); // The image stream listeners should never be called.
// The image stream error handler should have the original exception.
expect(capturedException, testException);
expect(capturedStackTrace, testStack);
// If there is an error listener, there should be no FlutterError reported.
expect(tester.takeException(), isNull);
});
testWidgets('Stream completer errors can be listened to by attaching after resolving', (WidgetTester tester) async {
dynamic capturedException;
StackTrace? capturedStackTrace;
dynamic reportedException;
StackTrace? reportedStackTrace;
ImageInfo? capturedImage;
void errorListener(dynamic exception, StackTrace? stackTrace) {
capturedException = exception;
capturedStackTrace = stackTrace;
}
void listener(ImageInfo info, bool synchronous) {
capturedImage = info;
}
FlutterError.onError = (FlutterErrorDetails flutterError) {
reportedException = flutterError.exception;
reportedStackTrace = flutterError.stack;
};
final Exception testException = Exception('cannot resolve host');
final StackTrace testStack = StackTrace.current;
final _TestImageProvider imageProvider = _TestImageProvider();
late ImageConfiguration configuration;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
configuration = createLocalImageConfiguration(context);
return Container();
},
),
);
final ImageStream streamUnderTest = imageProvider.resolve(configuration);
imageProvider.fail(testException, testStack);
expect(tester.binding.microtaskCount, 1);
await tester.idle(); // Let the failed completer's future hit the stream completer.
expect(tester.binding.microtaskCount, 0);
// Since there's no listeners attached yet, report error up via
// FlutterError.
expect(reportedException, testException);
expect(reportedStackTrace, testStack);
streamUnderTest.addListener(ImageStreamListener(listener, onError: errorListener));
expect(capturedImage, isNull); // The image stream listeners should never be called.
// The image stream error handler should have the original exception.
expect(capturedException, testException);
expect(capturedStackTrace, testStack);
});
testWidgets('Duplicate listener registration does not affect error listeners', (WidgetTester tester) async {
dynamic capturedException;
StackTrace? capturedStackTrace;
ImageInfo? capturedImage;
void errorListener(dynamic exception, StackTrace? stackTrace) {
capturedException = exception;
capturedStackTrace = stackTrace;
}
void listener(ImageInfo info, bool synchronous) {
capturedImage = info;
}
final Exception testException = Exception('cannot resolve host');
final StackTrace testStack = StackTrace.current;
final _TestImageProvider imageProvider = _TestImageProvider();
imageProvider._streamCompleter.addListener(ImageStreamListener(listener, onError: errorListener));
// Add the exact same listener a second time without the errorListener.
imageProvider._streamCompleter.addListener(ImageStreamListener(listener));
late ImageConfiguration configuration;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
configuration = createLocalImageConfiguration(context);
return Container();
},
),
);
imageProvider.resolve(configuration);
imageProvider.fail(testException, testStack);
expect(tester.binding.microtaskCount, 1);
await tester.idle(); // Let the failed completer's future hit the stream completer.
expect(tester.binding.microtaskCount, 0);
expect(capturedImage, isNull); // The image stream listeners should never be called.
// The image stream error handler should have the original exception.
expect(capturedException, testException);
expect(capturedStackTrace, testStack);
// If there is an error listener, there should be no FlutterError reported.
expect(tester.takeException(), isNull);
});
testWidgets('Duplicate error listeners are all called', (WidgetTester tester) async {
dynamic capturedException;
StackTrace? capturedStackTrace;
ImageInfo? capturedImage;
int errorListenerCalled = 0;
void errorListener(dynamic exception, StackTrace? stackTrace) {
capturedException = exception;
capturedStackTrace = stackTrace;
errorListenerCalled++;
}
void listener(ImageInfo info, bool synchronous) {
capturedImage = info;
}
final Exception testException = Exception('cannot resolve host');
final StackTrace testStack = StackTrace.current;
final _TestImageProvider imageProvider = _TestImageProvider();
imageProvider._streamCompleter.addListener(ImageStreamListener(listener, onError: errorListener));
// Add the exact same errorListener a second time.
imageProvider._streamCompleter.addListener(ImageStreamListener(listener, onError: errorListener));
late ImageConfiguration configuration;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
configuration = createLocalImageConfiguration(context);
return Container();
},
),
);
imageProvider.resolve(configuration);
imageProvider.fail(testException, testStack);
expect(tester.binding.microtaskCount, 1);
await tester.idle(); // Let the failed completer's future hit the stream completer.
expect(tester.binding.microtaskCount, 0);
expect(capturedImage, isNull); // The image stream listeners should never be called.
// The image stream error handler should have the original exception.
expect(capturedException, testException);
expect(capturedStackTrace, testStack);
expect(errorListenerCalled, 2);
// If there is an error listener, there should be no FlutterError reported.
expect(tester.takeException(), isNull);
});
testWidgets('Listeners are only removed if callback tuple matches', (WidgetTester tester) async {
bool errorListenerCalled = false;
dynamic reportedException;
StackTrace? reportedStackTrace;
ImageInfo? capturedImage;
void errorListener(dynamic exception, StackTrace? stackTrace) {
errorListenerCalled = true;
reportedException = exception;
reportedStackTrace = stackTrace;
}
void listener(ImageInfo info, bool synchronous) {
capturedImage = info;
}
final Exception testException = Exception('cannot resolve host');
final StackTrace testStack = StackTrace.current;
final _TestImageProvider imageProvider = _TestImageProvider();
imageProvider._streamCompleter.addListener(ImageStreamListener(listener, onError: errorListener));
// Now remove the listener the error listener is attached to.
// Don't explicitly remove the error listener.
imageProvider._streamCompleter.removeListener(ImageStreamListener(listener));
late ImageConfiguration configuration;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
configuration = createLocalImageConfiguration(context);
return Container();
},
),
);
imageProvider.resolve(configuration);
imageProvider.fail(testException, testStack);
expect(tester.binding.microtaskCount, 1);
await tester.idle(); // Let the failed completer's future hit the stream completer.
expect(tester.binding.microtaskCount, 0);
expect(errorListenerCalled, true);
expect(reportedException, testException);
expect(reportedStackTrace, testStack);
expect(capturedImage, isNull); // The image stream listeners should never be called.
});
testWidgets('Removing listener removes one listener and error listener', (WidgetTester tester) async {
int errorListenerCalled = 0;
ImageInfo? capturedImage;
void errorListener(dynamic exception, StackTrace? stackTrace) {
errorListenerCalled++;
}
void listener(ImageInfo info, bool synchronous) {
capturedImage = info;
}
final Exception testException = Exception('cannot resolve host');
final StackTrace testStack = StackTrace.current;
final _TestImageProvider imageProvider = _TestImageProvider();
imageProvider._streamCompleter.addListener(ImageStreamListener(listener, onError: errorListener));
// Duplicates the same set of listener and errorListener.
imageProvider._streamCompleter.addListener(ImageStreamListener(listener, onError: errorListener));
// Now remove one entry of the specified listener and associated error listener.
// Don't explicitly remove the error listener.
imageProvider._streamCompleter.removeListener(ImageStreamListener(listener, onError: errorListener));
late ImageConfiguration configuration;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
configuration = createLocalImageConfiguration(context);
return Container();
},
),
);
imageProvider.resolve(configuration);
imageProvider.fail(testException, testStack);
expect(tester.binding.microtaskCount, 1);
await tester.idle(); // Let the failed completer's future hit the stream completer.
expect(tester.binding.microtaskCount, 0);
expect(errorListenerCalled, 1);
expect(capturedImage, isNull); // The image stream listeners should never be called.
});
testWidgets('Image.memory control test', (WidgetTester tester) async {
await tester.pumpWidget(Image.memory(Uint8List.fromList(kTransparentImage), excludeFromSemantics: true));
});
testWidgets('Image color and colorBlend parameters', (WidgetTester tester) async {
await tester.pumpWidget(
Image(
excludeFromSemantics: true,
image: _TestImageProvider(),
color: const Color(0xFF00FF00),
colorBlendMode: BlendMode.clear,
),
);
final RenderImage renderer = tester.renderObject<RenderImage>(find.byType(Image));
expect(renderer.color, const Color(0xFF00FF00));
expect(renderer.colorBlendMode, BlendMode.clear);
});
testWidgets('Image opacity parameter', (WidgetTester tester) async {
const Animation<double> opacity = AlwaysStoppedAnimation<double>(0.5);
await tester.pumpWidget(
Image(
excludeFromSemantics: true,
image: _TestImageProvider(),
opacity: opacity,
),
);
final RenderImage renderer = tester.renderObject<RenderImage>(find.byType(Image));
expect(renderer.opacity, opacity);
});
testWidgets('Precache', (WidgetTester tester) async {
final _TestImageProvider provider = _TestImageProvider();
late Future<void> precache;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
precache = precacheImage(provider, context);
return Container();
},
),
);
provider.complete(image10x10);
await precache;
expect(provider._lastResolvedConfiguration, isNotNull);
// Check that a second resolve of the same image is synchronous.
final ImageStream stream = provider.resolve(provider._lastResolvedConfiguration);
late bool isSync;
stream.addListener(ImageStreamListener((ImageInfo image, bool sync) { isSync = sync; }));
expect(isSync, isTrue);
});
testWidgets('Precache removes original listener immediately after future completes, does not crash on successive calls #25143', (WidgetTester tester) async {
final _TestImageStreamCompleter imageStreamCompleter = _TestImageStreamCompleter();
final _TestImageProvider provider = _TestImageProvider(streamCompleter: imageStreamCompleter);
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
precacheImage(provider, context);
return Container();
},
),
);
// Two listeners - one is the listener added by precacheImage, the other by the ImageCache.
final List<ImageStreamListener> listeners = imageStreamCompleter.listeners.toList();
expect(listeners.length, 2);
// Make sure the first listener can be called re-entrantly
final ImageInfo imageInfo = ImageInfo(image: image10x10);
listeners[1].onImage(imageInfo.clone(), false);
listeners[1].onImage(imageInfo.clone(), false);
// Make sure the second listener can be called re-entrantly.
listeners[0].onImage(imageInfo.clone(), false);
listeners[0].onImage(imageInfo.clone(), false);
});
testWidgets('Precache completes with onError on error', (WidgetTester tester) async {
dynamic capturedException;
StackTrace? capturedStackTrace;
void errorListener(dynamic exception, StackTrace? stackTrace) {
capturedException = exception;
capturedStackTrace = stackTrace;
}
final Exception testException = Exception('cannot resolve host');
final StackTrace testStack = StackTrace.current;
final _TestImageProvider imageProvider = _TestImageProvider();
late Future<void> precache;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
precache = precacheImage(imageProvider, context, onError: errorListener);
return Container();
},
),
);
imageProvider.fail(testException, testStack);
await precache;
// The image stream error handler should have the original exception.
expect(capturedException, testException);
expect(capturedStackTrace, testStack);
// If there is an error listener, there should be no FlutterError reported.
expect(tester.takeException(), isNull);
});
testWidgets('TickerMode controls stream registration', (WidgetTester tester) async {
final _TestImageStreamCompleter imageStreamCompleter = _TestImageStreamCompleter();
final Image image = Image(
excludeFromSemantics: true,
image: _TestImageProvider(streamCompleter: imageStreamCompleter),
);
await tester.pumpWidget(
TickerMode(
enabled: true,
child: image,
),
);
expect(imageStreamCompleter.listeners.length, 2);
await tester.pumpWidget(
TickerMode(
enabled: false,
child: image,
),
);
expect(imageStreamCompleter.listeners.length, 1);
});
testWidgets('Verify Image shows correct RenderImage when changing to an already completed provider', (WidgetTester tester) async {
final GlobalKey key = GlobalKey();
final _TestImageProvider imageProvider1 = _TestImageProvider();
final _TestImageProvider imageProvider2 = _TestImageProvider();
final ui.Image image100x100 = (await tester.runAsync(() async => createTestImage(width: 100, height: 100)))!;
await tester.pumpWidget(
Container(
key: key,
child: Image(
excludeFromSemantics: true,
image: imageProvider1,
),
),
null,
EnginePhase.layout,
);
RenderImage renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNull);
imageProvider1.complete(image10x10);
imageProvider2.complete(image100x100);
await tester.idle(); // resolve the future from the image provider
await tester.pump(null, EnginePhase.layout);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNotNull);
final ui.Image oldImage = renderImage.image!;
await tester.pumpWidget(
Container(
key: key,
child: Image(
excludeFromSemantics: true,
image: imageProvider2,
),
),
null,
EnginePhase.layout,
);
renderImage = key.currentContext!.findRenderObject()! as RenderImage;
expect(renderImage.image, isNotNull);
expect(renderImage.image, isNot(equals(oldImage)));
});
testWidgets('Image State can be reconfigured to use another image', (WidgetTester tester) async {
final Image image1 = Image(image: _TestImageProvider()..complete(image10x10.clone()), width: 10.0, excludeFromSemantics: true);
final Image image2 = Image(image: _TestImageProvider()..complete(image10x10.clone()), width: 20.0, excludeFromSemantics: true);
final Column column = Column(children: <Widget>[image1, image2]);
await tester.pumpWidget(column, null, EnginePhase.layout);
final Column columnSwapped = Column(children: <Widget>[image2, image1]);
await tester.pumpWidget(columnSwapped, null, EnginePhase.layout);
final List<RenderImage> renderObjects = tester.renderObjectList<RenderImage>(find.byType(Image)).toList();
expect(renderObjects, hasLength(2));
expect(renderObjects[0].image, isNotNull);
expect(renderObjects[0].width, 20.0);
expect(renderObjects[1].image, isNotNull);
expect(renderObjects[1].width, 10.0);
});
testWidgets('Image contributes semantics', (WidgetTester tester) async {
final SemanticsTester semantics = SemanticsTester(tester);
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: Row(
children: <Widget>[
Image(
image: _TestImageProvider(),
width: 100.0,
height: 100.0,
semanticLabel: 'test',
),
],
),
),
);
expect(semantics, hasSemantics(TestSemantics.root(
children: <TestSemantics>[
TestSemantics.rootChild(
id: 1,
label: 'test',
rect: const Rect.fromLTWH(0.0, 0.0, 100.0, 100.0),
textDirection: TextDirection.ltr,
flags: <SemanticsFlag>[SemanticsFlag.isImage],
),
],
), ignoreTransform: true));
semantics.dispose();
});
testWidgets('Image can exclude semantics', (WidgetTester tester) async {
final SemanticsTester semantics = SemanticsTester(tester);
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: Image(
image: _TestImageProvider(),
width: 100.0,
height: 100.0,
excludeFromSemantics: true,
),
),
);
expect(semantics, hasSemantics(TestSemantics.root(
children: <TestSemantics>[],
)));
semantics.dispose();
});
testWidgets('Image invokes frameBuilder with correct frameNumber argument', (WidgetTester tester) async {
final ui.Codec codec = (await tester.runAsync(() {
return ui.instantiateImageCodec(Uint8List.fromList(kAnimatedGif));
}))!;
Future<ui.Image> nextFrame() async {
final ui.FrameInfo frameInfo = (await tester.runAsync(codec.getNextFrame))!;
return frameInfo.image;
}
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
int? lastFrame;
await tester.pumpWidget(
Image(
image: imageProvider,
frameBuilder: (BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
lastFrame = frame;
return Center(child: child);
},
),
);
expect(lastFrame, isNull);
expect(find.byType(Center), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
streamCompleter.setData(imageInfo: ImageInfo(image: await nextFrame()));
await tester.pump();
expect(lastFrame, 0);
expect(find.byType(Center), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
streamCompleter.setData(imageInfo: ImageInfo(image: await nextFrame()));
await tester.pump();
expect(lastFrame, 1);
expect(find.byType(Center), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
});
testWidgets('Image invokes frameBuilder with correct wasSynchronouslyLoaded=false', (WidgetTester tester) async {
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
int? lastFrame;
late bool lastFrameWasSync;
await tester.pumpWidget(
Image(
image: imageProvider,
frameBuilder: (BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
lastFrame = frame;
lastFrameWasSync = wasSynchronouslyLoaded;
return child;
},
),
);
expect(lastFrame, isNull);
expect(lastFrameWasSync, isFalse);
expect(find.byType(RawImage), findsOneWidget);
streamCompleter.setData(imageInfo: ImageInfo(image: image10x10));
await tester.pump();
expect(lastFrame, 0);
expect(lastFrameWasSync, isFalse);
});
testWidgets('Image invokes frameBuilder with correct wasSynchronouslyLoaded=true', (WidgetTester tester) async {
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter(ImageInfo(image: image10x10.clone()));
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
int? lastFrame;
late bool lastFrameWasSync;
await tester.pumpWidget(
Image(
image: imageProvider,
frameBuilder: (BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
lastFrame = frame;
lastFrameWasSync = wasSynchronouslyLoaded;
return child;
},
),
);
expect(lastFrame, 0);
expect(lastFrameWasSync, isTrue);
expect(find.byType(RawImage), findsOneWidget);
streamCompleter.setData(imageInfo: ImageInfo(image: image10x10.clone()));
await tester.pump();
expect(lastFrame, 1);
expect(lastFrameWasSync, isTrue);
});
testWidgets('Image state handles frameBuilder update', (WidgetTester tester) async {
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
await tester.pumpWidget(
Image(
image: imageProvider,
frameBuilder: (BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
return Center(child: child);
},
),
);
expect(find.byType(Center), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
final State<Image> state = tester.state(find.byType(Image));
await tester.pumpWidget(
Image(
image: imageProvider,
frameBuilder: (BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
return Padding(padding: const EdgeInsets.all(1), child: child);
},
),
);
expect(find.byType(Center), findsNothing);
expect(find.byType(Padding), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
expect(tester.state(find.byType(Image)), same(state));
});
testWidgets('Image state handles enabling and disabling of tickers', (WidgetTester tester) async {
final ui.Codec codec = (await tester.runAsync(() {
return ui.instantiateImageCodec(Uint8List.fromList(kAnimatedGif));
}))!;
Future<ui.Image> nextFrame() async {
final ui.FrameInfo frameInfo = (await tester.runAsync(codec.getNextFrame))!;
return frameInfo.image;
}
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
int? lastFrame;
int buildCount = 0;
Widget buildFrame(BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
lastFrame = frame;
buildCount++;
return child;
}
await tester.pumpWidget(
TickerMode(
enabled: true,
child: Image(
image: imageProvider,
frameBuilder: buildFrame,
),
),
);
final State<Image> state = tester.state(find.byType(Image));
expect(lastFrame, isNull);
expect(buildCount, 1);
streamCompleter.setData(imageInfo: ImageInfo(image: await nextFrame()));
await tester.pump();
expect(lastFrame, 0);
expect(buildCount, 2);
await tester.pumpWidget(
TickerMode(
enabled: false,
child: Image(
image: imageProvider,
frameBuilder: buildFrame,
),
),
);
expect(tester.state(find.byType(Image)), same(state));
expect(lastFrame, 0);
expect(buildCount, 3);
streamCompleter.setData(imageInfo: ImageInfo(image: await nextFrame()));
streamCompleter.setData(imageInfo: ImageInfo(image: await nextFrame()));
await tester.pump();
expect(lastFrame, 0);
expect(buildCount, 3);
await tester.pumpWidget(
TickerMode(
enabled: true,
child: Image(
image: imageProvider,
frameBuilder: buildFrame,
),
),
);
expect(tester.state(find.byType(Image)), same(state));
expect(lastFrame, 1); // missed a frame because we weren't animating at the time
expect(buildCount, 4);
});
testWidgets('Image invokes loadingBuilder on chunk event notification', (WidgetTester tester) async {
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
final List<ImageChunkEvent?> chunkEvents = <ImageChunkEvent?>[];
await tester.pumpWidget(
Image(
image: imageProvider,
loadingBuilder: (BuildContext context, Widget child, ImageChunkEvent? loadingProgress) {
chunkEvents.add(loadingProgress);
if (loadingProgress == null) {
return child;
}
return Directionality(
textDirection: TextDirection.ltr,
child: Text('loading ${loadingProgress.cumulativeBytesLoaded} / ${loadingProgress.expectedTotalBytes}'),
);
},
),
);
expect(chunkEvents.length, 1);
expect(chunkEvents.first, isNull);
expect(tester.binding.hasScheduledFrame, isFalse);
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
expect(tester.binding.hasScheduledFrame, isTrue);
await tester.pump();
expect(chunkEvents.length, 2);
expect(find.text('loading 10 / 100'), findsOneWidget);
expect(find.byType(RawImage), findsNothing);
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 30, expectedTotalBytes: 100));
expect(tester.binding.hasScheduledFrame, isTrue);
await tester.pump();
expect(chunkEvents.length, 3);
expect(find.text('loading 30 / 100'), findsOneWidget);
expect(find.byType(RawImage), findsNothing);
streamCompleter.setData(imageInfo: ImageInfo(image: image10x10));
await tester.pump();
expect(chunkEvents.length, 4);
expect(find.byType(Text), findsNothing);
expect(find.byType(RawImage), findsOneWidget);
});
testWidgets("Image doesn't rebuild on chunk events if loadingBuilder is null", (WidgetTester tester) async {
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
await tester.pumpWidget(
Image(
image: imageProvider,
excludeFromSemantics: true,
),
);
expect(tester.binding.hasScheduledFrame, isFalse);
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
expect(tester.binding.hasScheduledFrame, isFalse);
streamCompleter.setData(imageInfo: ImageInfo(image: image10x10));
expect(tester.binding.hasScheduledFrame, isTrue);
await tester.pump();
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
expect(tester.binding.hasScheduledFrame, isFalse);
expect(find.byType(RawImage), findsOneWidget);
});
testWidgets('Image chains the results of frameBuilder and loadingBuilder', (WidgetTester tester) async {
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
await tester.pumpWidget(
Image(
image: imageProvider,
excludeFromSemantics: true,
frameBuilder: (BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
return Padding(padding: const EdgeInsets.all(1), child: child);
},
loadingBuilder: (BuildContext context, Widget child, ImageChunkEvent? loadingProgress) {
return Center(child: child);
},
),
);
expect(find.byType(Center), findsOneWidget);
expect(find.byType(Padding), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
expect(tester.widget<Padding>(find.byType(Padding)).child, isA<RawImage>());
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
await tester.pump();
expect(find.byType(Center), findsOneWidget);
expect(find.byType(Padding), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
expect(tester.widget<Center>(find.byType(Center)).child, isA<Padding>());
expect(tester.widget<Padding>(find.byType(Padding)).child, isA<RawImage>());
});
testWidgets('Image state handles loadingBuilder update from null to non-null', (WidgetTester tester) async {
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
await tester.pumpWidget(
Image(image: imageProvider),
);
expect(find.byType(RawImage), findsOneWidget);
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
expect(tester.binding.hasScheduledFrame, isFalse);
final State<Image> state = tester.state(find.byType(Image));
await tester.pumpWidget(
Image(
image: imageProvider,
loadingBuilder: (BuildContext context, Widget child, ImageChunkEvent? loadingProgress) {
return Center(child: child);
},
),
);
expect(find.byType(Center), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
expect(tester.state(find.byType(Image)), same(state));
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
expect(tester.binding.hasScheduledFrame, isTrue);
await tester.pump();
expect(find.byType(Center), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
});
testWidgets('Image state handles loadingBuilder update from non-null to null', (WidgetTester tester) async {
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
await tester.pumpWidget(
Image(
image: imageProvider,
loadingBuilder: (BuildContext context, Widget child, ImageChunkEvent? loadingProgress) {
return Center(child: child);
},
),
);
expect(find.byType(Center), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
expect(tester.binding.hasScheduledFrame, isTrue);
await tester.pump();
expect(find.byType(Center), findsOneWidget);
expect(find.byType(RawImage), findsOneWidget);
final State<Image> state = tester.state(find.byType(Image));
await tester.pumpWidget(
Image(image: imageProvider),
);
expect(find.byType(Center), findsNothing);
expect(find.byType(RawImage), findsOneWidget);
expect(tester.state(find.byType(Image)), same(state));
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
expect(tester.binding.hasScheduledFrame, isFalse);
});
testWidgets('Verify Image resets its ImageListeners', (WidgetTester tester) async {
final GlobalKey key = GlobalKey();
final _TestImageStreamCompleter imageStreamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider1 = _TestImageProvider(streamCompleter: imageStreamCompleter);
await tester.pumpWidget(
Container(
key: key,
child: Image(
image: imageProvider1,
),
),
);
// listener from resolveStreamForKey is always added.
expect(imageStreamCompleter.listeners.length, 2);
final _TestImageProvider imageProvider2 = _TestImageProvider();
await tester.pumpWidget(
Container(
key: key,
child: Image(
image: imageProvider2,
excludeFromSemantics: true,
),
),
null,
EnginePhase.layout,
);
// only listener from resolveStreamForKey is left.
expect(imageStreamCompleter.listeners.length, 1);
});
testWidgets('Verify Image resets its ErrorListeners', (WidgetTester tester) async {
final GlobalKey key = GlobalKey();
final _TestImageStreamCompleter imageStreamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider1 = _TestImageProvider(streamCompleter: imageStreamCompleter);
await tester.pumpWidget(
Container(
key: key,
child: Image(
image: imageProvider1,
errorBuilder: (_,__,___) => Container(),
),
),
);
// listener from resolveStreamForKey is always added.
expect(imageStreamCompleter.listeners.length, 2);
final _TestImageProvider imageProvider2 = _TestImageProvider();
await tester.pumpWidget(
Container(
key: key,
child: Image(
image: imageProvider2,
excludeFromSemantics: true,
),
),
null,
EnginePhase.layout,
);
// only listener from resolveStreamForKey is left.
expect(imageStreamCompleter.listeners.length, 1);
});
testWidgets('Image defers loading while fast scrolling', (WidgetTester tester) async {
const int gridCells = 1000;
final List<_TestImageProvider> imageProviders = <_TestImageProvider>[];
final ScrollController controller = ScrollController();
await tester.pumpWidget(Directionality(
textDirection: TextDirection.ltr,
child: GridView.builder(
controller: controller,
gridDelegate: const SliverGridDelegateWithFixedCrossAxisCount(crossAxisCount: 3),
itemCount: gridCells,
itemBuilder: (_, int index) {
final _TestImageProvider provider = _TestImageProvider();
imageProviders.add(provider);
return SizedBox(
height: 250,
width: 250,
child: Image(
image: provider,
semanticLabel: index.toString(),
),
);
},
),
));
bool loadCalled(_TestImageProvider provider) => provider.loadCalled;
bool loadNotCalled(_TestImageProvider provider) => !provider.loadCalled;
expect(find.bySemanticsLabel('5'), findsOneWidget);
expect(imageProviders.length, 12);
expect(imageProviders.every(loadCalled), true);
imageProviders.clear();
// Simulate a very fast fling.
controller.animateTo(
30000,
duration: const Duration(seconds: 2),
curve: Curves.linear,
);
await tester.pumpAndSettle();
// The last 15 images on screen have loaded because the scrolling settled there.
// The rest have not loaded.
expect(imageProviders.length, 309);
expect(imageProviders.skip(309 - 15).every(loadCalled), true);
expect(imageProviders.take(309 - 15).every(loadNotCalled), true);
});
testWidgets('Same image provider in multiple parts of the tree, no cache room left', (WidgetTester tester) async {
imageCache.maximumSize = 0;
final _TestImageProvider provider1 = _TestImageProvider();
final _TestImageProvider provider2 = _TestImageProvider();
expect(provider1.loadCallCount, 0);
expect(provider2.loadCallCount, 0);
expect(imageCache.liveImageCount, 0);
await tester.pumpWidget(Column(
children: <Widget>[
Image(image: provider1),
Image(image: provider2),
Image(image: provider1),
Image(image: provider1),
Image(image: provider2),
],
));
expect(imageCache.liveImageCount, 2);
expect(imageCache.statusForKey(provider1).live, true);
expect(imageCache.statusForKey(provider1).pending, false);
expect(imageCache.statusForKey(provider1).keepAlive, false);
expect(imageCache.statusForKey(provider2).live, true);
expect(imageCache.statusForKey(provider2).pending, false);
expect(imageCache.statusForKey(provider2).keepAlive, false);
expect(provider1.loadCallCount, 1);
expect(provider2.loadCallCount, 1);
provider1.complete(image10x10.clone());
await tester.idle();
provider2.complete(image10x10.clone());
await tester.idle();
expect(imageCache.liveImageCount, 2);
expect(imageCache.currentSize, 0);
await tester.pumpWidget(Image(image: provider2));
await tester.idle();
expect(imageCache.statusForKey(provider1).untracked, true);
expect(imageCache.statusForKey(provider2).live, true);
expect(imageCache.statusForKey(provider2).pending, false);
expect(imageCache.statusForKey(provider2).keepAlive, false);
expect(imageCache.liveImageCount, 1);
await tester.pumpWidget(const SizedBox());
await tester.idle();
expect(provider1.loadCallCount, 1);
expect(provider2.loadCallCount, 1);
expect(imageCache.liveImageCount, 0);
});
testWidgets('precacheImage does not hold weak ref for more than a frame', (WidgetTester tester) async {
imageCache.maximumSize = 0;
final _TestImageProvider provider = _TestImageProvider();
late Future<void> precache;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
precache = precacheImage(provider, context);
return Container();
},
),
);
provider.complete(image10x10);
await precache;
// Should have ended up with only a weak ref, not in cache because cache size is 0
expect(imageCache.liveImageCount, 1);
expect(imageCache.containsKey(provider), false);
final ImageCacheStatus providerLocation = (await provider.obtainCacheStatus(configuration: ImageConfiguration.empty))!;
expect(providerLocation, isNotNull);
expect(providerLocation.live, true);
expect(providerLocation.keepAlive, false);
expect(providerLocation.pending, false);
// Check that a second resolve of the same image is synchronous.
expect(provider._lastResolvedConfiguration, isNotNull);
final ImageStream stream = provider.resolve(provider._lastResolvedConfiguration);
late bool isSync;
final ImageStreamListener listener = ImageStreamListener((ImageInfo image, bool syncCall) { isSync = syncCall; });
// Still have live ref because frame has not pumped yet.
await tester.pump();
expect(imageCache.liveImageCount, 1);
SchedulerBinding.instance.scheduleFrame();
await tester.pump();
// Live ref should be gone - we didn't listen to the stream.
expect(imageCache.liveImageCount, 0);
expect(imageCache.currentSize, 0);
stream.addListener(listener);
expect(isSync, true); // because the stream still has the image.
expect(imageCache.liveImageCount, 0);
expect(imageCache.currentSize, 0);
expect(provider.loadCallCount, 1);
});
testWidgets('precacheImage allows time to take over weak reference', (WidgetTester tester) async {
final _TestImageProvider provider = _TestImageProvider();
late Future<void> precache;
await tester.pumpWidget(
Builder(
builder: (BuildContext context) {
precache = precacheImage(provider, context);
return Container();
},
),
);
provider.complete(image10x10);
await precache;
// Should have ended up in the cache and have a weak reference.
expect(imageCache.liveImageCount, 1);
expect(imageCache.currentSize, 1);
expect(imageCache.containsKey(provider), true);
// Check that a second resolve of the same image is synchronous.
expect(provider._lastResolvedConfiguration, isNotNull);
final ImageStream stream = provider.resolve(provider._lastResolvedConfiguration);
late bool isSync;
final ImageStreamListener listener = ImageStreamListener((ImageInfo image, bool syncCall) { isSync = syncCall; });
// Should have ended up in the cache and still have a weak reference.
expect(imageCache.liveImageCount, 1);
expect(imageCache.currentSize, 1);
expect(imageCache.containsKey(provider), true);
stream.addListener(listener);
expect(isSync, true);
expect(imageCache.liveImageCount, 1);
expect(imageCache.currentSize, 1);
expect(imageCache.containsKey(provider), true);
SchedulerBinding.instance.scheduleFrame();
await tester.pump();
expect(imageCache.liveImageCount, 1);
expect(imageCache.currentSize, 1);
expect(imageCache.containsKey(provider), true);
stream.removeListener(listener);
expect(imageCache.liveImageCount, 0);
expect(imageCache.currentSize, 1);
expect(imageCache.containsKey(provider), true);
expect(provider.loadCallCount, 1);
});
testWidgets('evict an image during precache', (WidgetTester tester) async {
// This test checks that the live image tracking does not hold on to a
// pending image that will never complete because it has been evicted from
// the cache.
// The scenario may arise in a test harness that is trying to load real
// images using `tester.runAsync()`, and wants to make sure that widgets
// under test have not also tried to resolve the image in a FakeAsync zone.
// The image loaded in the FakeAsync zone will never complete, and the
// runAsync call wants to make sure it gets a load attempt from the correct
// zone.
final Uint8List bytes = Uint8List.fromList(kTransparentImage);
final MemoryImage provider = MemoryImage(bytes);
await tester.runAsync(() async {
final List<Future<void>> futures = <Future<void>>[];
await tester.pumpWidget(Builder(builder: (BuildContext context) {
futures.add(precacheImage(provider, context));
imageCache.evict(provider);
futures.add(precacheImage(provider, context));
return const SizedBox.expand();
}));
await Future.wait<void>(futures);
expect(imageCache.statusForKey(provider).keepAlive, true);
expect(imageCache.statusForKey(provider).live, true);
// Schedule a frame to get precacheImage to stop listening.
SchedulerBinding.instance.scheduleFrame();
await tester.pump();
expect(imageCache.statusForKey(provider).keepAlive, true);
expect(imageCache.statusForKey(provider).live, false);
});
});
testWidgets('errorBuilder - fails on key', (WidgetTester tester) async {
final UniqueKey errorKey = UniqueKey();
late Object caughtException;
await tester.pumpWidget(
Image(
image: _FailingImageProvider(failOnObtainKey: true, throws: 'threw', image: image10x10),
errorBuilder: (BuildContext context, Object error, StackTrace? stackTrace) {
caughtException = error;
return SizedBox.expand(key: errorKey);
},
),
);
await tester.pump();
expect(find.byKey(errorKey), findsOneWidget);
expect(caughtException.toString(), 'threw');
expect(tester.takeException(), isNull);
});
testWidgets('errorBuilder - fails on load', (WidgetTester tester) async {
final UniqueKey errorKey = UniqueKey();
late Object caughtException;
await tester.pumpWidget(
Image(
image: _FailingImageProvider(failOnLoad: true, throws: 'threw', image: image10x10),
errorBuilder: (BuildContext context, Object error, StackTrace? stackTrace) {
caughtException = error;
return SizedBox.expand(key: errorKey);
},
),
);
await tester.pump();
expect(find.byKey(errorKey), findsOneWidget);
expect(caughtException.toString(), 'threw');
expect(tester.takeException(), isNull);
});
testWidgets('no errorBuilder - failure reported to FlutterError', (WidgetTester tester) async {
await tester.pumpWidget(
Image(
image: _FailingImageProvider(failOnLoad: true, throws: 'threw', image: image10x10),
),
);
await tester.pump();
expect(tester.takeException(), 'threw');
});
Future<void> testRotatedImage(WidgetTester tester, bool isAntiAlias) async {
final Key key = UniqueKey();
await tester.pumpWidget(RepaintBoundary(
key: key,
child: Transform.rotate(
angle: math.pi / 180,
child: Image.memory(Uint8List.fromList(kBlueRectPng), isAntiAlias: isAntiAlias),
),
));
// precacheImage is needed, or the image in the golden file will be empty.
if (!kIsWeb) {
final Finder allImages = find.byType(Image);
for (final Element e in allImages.evaluate()) {
await tester.runAsync(() async {
final Image image = e.widget as Image;
await precacheImage(image.image, e);
});
}
await tester.pumpAndSettle();
}
await expectLater(
find.byKey(key),
matchesGoldenFile('rotated_image_${isAntiAlias ? 'aa' : 'noaa'}.png'),
);
}
testWidgets(
'Rotated images',
(WidgetTester tester) async {
await testRotatedImage(tester, true);
await testRotatedImage(tester, false);
},
skip: kIsWeb, // https://github.com/flutter/flutter/issues/87933.
);
testWidgets(
'Image opacity',
(WidgetTester tester) async {
final Key key = UniqueKey();
await tester.pumpWidget(RepaintBoundary(
key: key,
child: Row(
mainAxisAlignment: MainAxisAlignment.spaceAround,
textDirection: TextDirection.ltr,
children: <Widget>[
Image.memory(
Uint8List.fromList(kBlueRectPng),
opacity: const AlwaysStoppedAnimation<double>(0.25),
),
Image.memory(
Uint8List.fromList(kBlueRectPng),
opacity: const AlwaysStoppedAnimation<double>(0.5),
),
Image.memory(
Uint8List.fromList(kBlueRectPng),
opacity: const AlwaysStoppedAnimation<double>(0.75),
),
Image.memory(
Uint8List.fromList(kBlueRectPng),
opacity: const AlwaysStoppedAnimation<double>(1.0),
),
],
),
));
// precacheImage is needed, or the image in the golden file will be empty.
if (!kIsWeb) {
final Finder allImages = find.byType(Image);
for (final Element e in allImages.evaluate()) {
await tester.runAsync(() async {
final Image image = e.widget as Image;
await precacheImage(image.image, e);
});
}
await tester.pumpAndSettle();
}
await expectLater(
find.byKey(key),
matchesGoldenFile('transparent_image.png'),
);
},
skip: kIsWeb, // https://github.com/flutter/flutter/issues/87933.
);
testWidgets('Reports image size when painted', (WidgetTester tester) async {
late ImageSizeInfo imageSizeInfo;
int count = 0;
debugOnPaintImage = (ImageSizeInfo info) {
count += 1;
imageSizeInfo = info;
};
final ui.Image image = (await tester.runAsync(() => createTestImage(width: 100, height: 100)))!;
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter(
ImageInfo(
image: image,
debugLabel: 'test.png',
),
);
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
await tester.pumpWidget(
Center(
child: SizedBox(
height: 50,
width: 50,
child: Image(image: imageProvider),
),
),
);
expect(count, 1);
expect(
imageSizeInfo,
const ImageSizeInfo(
source: 'test.png',
imageSize: Size(100, 100),
displaySize: Size(150, 150),
),
);
debugOnPaintImage = null;
});
testWidgets('Disposes image handle when disposed', (WidgetTester tester) async {
final ui.Image image = (await tester.runAsync(() => createTestImage(cache: false)))!;
expect(image.debugGetOpenHandleStackTraces()!.length, 1);
final ImageProvider provider = _TestImageProvider(
streamCompleter: OneFrameImageStreamCompleter(
Future<ImageInfo>.value(
ImageInfo(
image: image,
debugLabel: '_TestImage',
),
),
),
);
// creating the provider should not have changed anything, and the provider
// now owns the handle.
expect(image.debugGetOpenHandleStackTraces()!.length, 1);
await tester.pumpWidget(Image(image: provider));
// Image widget + 1, render object + 1
expect(image.debugGetOpenHandleStackTraces()!.length, 3);
await tester.pumpWidget(const SizedBox());
// Image widget and render object go away
expect(image.debugGetOpenHandleStackTraces()!.length, 1);
await provider.evict();
tester.binding.scheduleFrame();
await tester.pump();
// Image cache listener go away and Image stream listeners go away.
// Image is now at zero.
expect(image.debugGetOpenHandleStackTraces()!.length, 0);
}, skip: kIsWeb); // https://github.com/flutter/flutter/issues/87442
testWidgets('Keeps stream alive when ticker mode is disabled', (WidgetTester tester) async {
imageCache.maximumSize = 0;
final ui.Image image = (await tester.runAsync(() => createTestImage(cache: false)))!;
final _TestImageProvider provider = _TestImageProvider();
provider.complete(image);
await tester.pumpWidget(
TickerMode(
enabled: true,
child: Image(image: provider),
),
);
expect(find.byType(Image), findsOneWidget);
await tester.pumpWidget(TickerMode(
enabled: false,
child: Image(image: provider),
),
);
expect(find.byType(Image), findsOneWidget);
await tester.pumpWidget(TickerMode(
enabled: true,
child: Image(image: provider),
),
);
expect(find.byType(Image), findsOneWidget);
});
testWidgets('Load a good image after a bad image was loaded should not call errorBuilder', (WidgetTester tester) async {
final UniqueKey errorKey = UniqueKey();
final ui.Image image = (await tester.runAsync(() => createTestImage()))!;
final _TestImageStreamCompleter streamCompleter = _TestImageStreamCompleter();
final _TestImageProvider imageProvider = _TestImageProvider(streamCompleter: streamCompleter);
await tester.pumpWidget(
Center(
child: SizedBox(
height: 50,
width: 50,
child: Image(
image: imageProvider,
excludeFromSemantics: true,
errorBuilder: (BuildContext context, Object error, StackTrace? stackTrace) {
return Container(key: errorKey);
},
frameBuilder: (BuildContext context, Widget child, int? frame, bool wasSynchronouslyLoaded) {
return Padding(padding: const EdgeInsets.all(1), child: child);
},
),
),
),
);
// No error widget before loading a invalid image.
expect(find.byKey(errorKey), findsNothing);
// Loading good image succeed
streamCompleter.setData(chunkEvent: const ImageChunkEvent(cumulativeBytesLoaded: 10, expectedTotalBytes: 100));
await tester.pump();
expect(find.byType(Padding), findsOneWidget);
// Loading bad image shows the error widget.
streamCompleter.setError(exception: 'thrown');
await tester.pump();
expect(find.byKey(errorKey), findsOneWidget);
// Loading good image shows the image widget instead of the error widget.
streamCompleter.setData(imageInfo: ImageInfo(image: image));
await tester.pump();
expect(find.byType(Padding), findsOneWidget);
expect(tester.widget<Padding>(find.byType(Padding)).child, isA<RawImage>());
expect(find.byKey(errorKey), findsNothing);
});
testWidgets('Failed image loads in debug mode', (WidgetTester tester) async {
final Key key = UniqueKey();
await tester.pumpWidget(Center(
child: RepaintBoundary(
key: key,
child: Container(
width: 150.0,
height: 50.0,
decoration: BoxDecoration(
border: Border.all(
width: 2.0,
color: const Color(0xFF00FF99),
),
),
child: Image.asset('missing-asset'),
),
),
));
await expectLater(
find.byKey(key),
matchesGoldenFile('image_test.missing.1.png'),
);
expect(
tester.takeException().toString(),
equals('Unable to load asset with key "missing-asset".\n'
'The key was not found in the asset manifest.\n'
'Make sure the key is correct and the appropriate file or folder is specified in pubspec.yaml.'),
);
await tester.pump();
await expectLater(
find.byKey(key),
matchesGoldenFile('image_test.missing.2.png'),
);
}, skip: kIsWeb); // https://github.com/flutter/flutter/issues/74935 (broken assets not being reported on web)
testWidgets('Image.file throws a non-implemented error on web', (WidgetTester tester) async {
const String expectedError =
'Image.file is not supported on Flutter Web. '
'Consider using either Image.asset or Image.network instead.';
final Uri uri = Uri.parse('/home/flutter/dash.png');
final File file = File.fromUri(uri);
expect(
() => Image.file(file),
kIsWeb
// Web does not support file access, expect AssertionError
? throwsA(predicate((AssertionError e) => e.message == expectedError))
// AOT supports file access, expect constructor to succeed
: isNot(throwsA(anything)),
);
});
}
@immutable
class _ConfigurationAwareKey {
const _ConfigurationAwareKey(this.provider, this.configuration);
final ImageProvider provider;
final ImageConfiguration configuration;
@override
bool operator ==(Object other) {
if (other.runtimeType != runtimeType) {
return false;
}
return other is _ConfigurationAwareKey
&& other.provider == provider
&& other.configuration == configuration;
}
@override
int get hashCode => Object.hash(provider, configuration);
}
class _ConfigurationKeyedTestImageProvider extends _TestImageProvider {
@override
Future<_ConfigurationAwareKey> obtainKey(ImageConfiguration configuration) {
return SynchronousFuture<_ConfigurationAwareKey>(_ConfigurationAwareKey(this, configuration));
}
}
class _TestImageProvider extends ImageProvider<Object> {
_TestImageProvider({ImageStreamCompleter? streamCompleter}) {
_streamCompleter = streamCompleter
?? OneFrameImageStreamCompleter(_completer.future);
}
final Completer<ImageInfo> _completer = Completer<ImageInfo>();
late ImageStreamCompleter _streamCompleter;
late ImageConfiguration _lastResolvedConfiguration;
bool get loadCalled => _loadCallCount > 0;
int get loadCallCount => _loadCallCount;
int _loadCallCount = 0;
@override
Future<Object> obtainKey(ImageConfiguration configuration) {
return SynchronousFuture<_TestImageProvider>(this);
}
@override
void resolveStreamForKey(ImageConfiguration configuration, ImageStream stream, Object key, ImageErrorListener handleError) {
_lastResolvedConfiguration = configuration;
super.resolveStreamForKey(configuration, stream, key, handleError);
}
@override
ImageStreamCompleter load(Object key, DecoderCallback decode) {
_loadCallCount += 1;
return _streamCompleter;
}
void complete(ui.Image image) {
_completer.complete(ImageInfo(image: image));
}
void fail(Object exception, StackTrace? stackTrace) {
_completer.completeError(exception, stackTrace);
}
@override
String toString() => '${describeIdentity(this)}()';
}
class _TestImageStreamCompleter extends ImageStreamCompleter {
_TestImageStreamCompleter([this._currentImage]);
ImageInfo? _currentImage;
final Set<ImageStreamListener> listeners = <ImageStreamListener>{};
@override
void addListener(ImageStreamListener listener) {
listeners.add(listener);
if (_currentImage != null) {
listener.onImage(_currentImage!.clone(), true);
}
}
@override
void removeListener(ImageStreamListener listener) {
listeners.remove(listener);
}
void setData({
ImageInfo? imageInfo,
ImageChunkEvent? chunkEvent,
}) {
if (imageInfo != null) {
_currentImage?.dispose();
_currentImage = imageInfo;
}
final List<ImageStreamListener> localListeners = listeners.toList();
for (final ImageStreamListener listener in localListeners) {
if (imageInfo != null) {
listener.onImage(imageInfo.clone(), false);
}
if (chunkEvent != null && listener.onChunk != null) {
listener.onChunk!(chunkEvent);
}
}
}
void setError({
required Object exception,
StackTrace? stackTrace,
}) {
final List<ImageStreamListener> localListeners = listeners.toList();
for (final ImageStreamListener listener in localListeners) {
listener.onError?.call(exception, stackTrace);
}
}
}
class _DebouncingImageProvider extends ImageProvider<Object> {
_DebouncingImageProvider(this.imageProvider, this.seenKeys);
/// A set of keys that will only get resolved the _first_ time they are seen.
///
/// If an ImageProvider produces the same key for two different image
/// configurations, it should only actually resolve once using this provider.
/// However, if it does care about image configuration, it should make the
/// property or properties it cares about part of the key material it
/// produces.
final Set<Object> seenKeys;
final ImageProvider<Object> imageProvider;
@override
void resolveStreamForKey(ImageConfiguration configuration, ImageStream stream, Object key, ImageErrorListener handleError) {
if (seenKeys.add(key)) {
imageProvider.resolveStreamForKey(configuration, stream, key, handleError);
}
}
@override
Future<Object> obtainKey(ImageConfiguration configuration) => imageProvider.obtainKey(configuration);
@override
ImageStreamCompleter loadImage(Object key, ImageDecoderCallback decode) => imageProvider.loadImage(key, decode);
}
class _FailingImageProvider extends ImageProvider<int> {
const _FailingImageProvider({
this.failOnObtainKey = false,
this.failOnLoad = false,
required this.throws,
required this.image,
}) : assert(failOnLoad == true || failOnObtainKey == true);
final bool failOnObtainKey;
final bool failOnLoad;
final Object throws;
final ui.Image image;
@override
Future<int> obtainKey(ImageConfiguration configuration) {
if (failOnObtainKey) {
throw throws;
}
return SynchronousFuture<int>(hashCode);
}
@override
ImageStreamCompleter load(int key, DecoderCallback decode) {
if (failOnLoad) {
throw throws;
}
return OneFrameImageStreamCompleter(
Future<ImageInfo>.value(
ImageInfo(
image: image,
scale: 0,
),
),
);
}
}