packages/flutter_test/lib/src/animation_sheet.dart - mirrors/flutter - Git at Google

 // 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.

 import 'dart:math' as math;
 import 'dart:ui' as ui;

 import 'package:flutter/rendering.dart';
 import 'package:flutter/scheduler.dart';
 import 'package:flutter/widgets.dart';

 /// Records the frames of an animating widget, and later displays the frames as a
 /// grid in an animation sheet.
 ///
 /// This class does not support Web, because the animation sheet utilizes taking
 /// screenshots, which is unsupported on the Web. Tests that use this class must
 /// be noted with `skip: isBrowser`.
 /// (https://github.com/flutter/flutter/issues/56001)
 ///
 /// Using this class includes the following steps:
 ///
 ///  * Create an instance of this class.
 ///  * Pump frames that render the target widget wrapped in [record]. Every frame
 ///    that has `recording` being true will be recorded.
 ///  * Adjust the size of the test viewport to the [sheetSize] (see the
 ///    documentation of [sheetSize] for more information).
 ///  * Pump a frame that renders [display], which shows all recorded frames in an
 ///    animation sheet, and can be matched against the golden test.
 ///
 /// {@tool snippet}
 /// The following example shows how to record an animation sheet of an [InkWell]
 /// being pressed then released.
 ///
 /// ```dart
 /// testWidgets('Inkwell animation sheet', (WidgetTester tester) async {
 ///   // Create instance
 ///   final AnimationSheetBuilder animationSheet = AnimationSheetBuilder(frameSize: const Size(48, 24));
 ///
 ///   final Widget target = Material(
 ///     child: Directionality(
 ///       textDirection: TextDirection.ltr,
 ///       child: InkWell(
 ///         splashColor: Colors.blue,
 ///         onTap: () {},
 ///       ),
 ///     ),
 ///   );
 ///
 ///   // Optional: setup before recording (`recording` is false)
 ///   await tester.pumpWidget(animationSheet.record(
 ///     target,
 ///     recording: false,
 ///   ));
 ///
 ///   final TestGesture gesture = await tester.startGesture(tester.getCenter(find.byType(InkWell)));
 ///
 ///   // Start recording (`recording` is true)
 ///   await tester.pumpFrames(animationSheet.record(
 ///     target,
 ///     recording: true,
 ///   ), const Duration(seconds: 1));
 ///
 ///   await gesture.up();
 ///
 ///   await tester.pumpFrames(animationSheet.record(
 ///     target,
 ///     recording: true,
 ///   ), const Duration(seconds: 1));
 ///
 ///   // Adjust view port size
 ///   tester.binding.setSurfaceSize(animationSheet.sheetSize());
 ///
 ///   // Display
 ///   final Widget display = await animationSheet.display();
 ///   await tester.pumpWidget(display);
 ///
 ///   // Compare against golden file
 ///   await expectLater(
 ///     find.byWidget(display),
 ///     matchesGoldenFile('inkwell.press.animation.png'),
 ///   );
 /// }, skip: isBrowser); // Animation sheet does not support browser https://github.com/flutter/flutter/issues/56001
 /// ```
 /// {@end-tool}
 ///
 /// See also:
 ///
 ///  * [GoldenFileComparator], which introduces Golden File Testing.
 class AnimationSheetBuilder {
   /// Starts a session of building an animation sheet.
   ///
   /// The [frameSize] is a tight constraint for the child to be recorded, and must not
   /// be null.
   AnimationSheetBuilder({required this.frameSize}) : assert(frameSize != null);

   /// The size of the child to be recorded.
   ///
   /// This size is applied as a tight layout constraint for the child, and is
   /// fixed throughout the building session.
   final Size frameSize;

   final List<Future<ui.Image>> _recordedFrames = <Future<ui.Image>>[];
   Future<List<ui.Image>> get _frames async {
     final List<ui.Image> frames = await Future.wait<ui.Image>(_recordedFrames, eagerError: true);
     assert(() {
       for (final ui.Image frame in frames) {
         assert(frame.width == frameSize.width && frame.height == frameSize.height,
           'Unexpected size mismatch: frame has (${frame.width}, ${frame.height}) '
           'while `frameSize` is $frameSize.'
         );
       }
       return true;
     }());
     return frames;
   }

   /// Returns a widget that renders a widget in a box that can be recorded.
   ///
   /// The returned widget wraps `child` in a box with a fixed size specified by
   /// [frameSize]. The `key` is also applied to the returned widget.
   ///
   /// The `recording` defaults to true, which means the painted result of each
   /// frame will be stored and later available for [display]. If `recording` is
   /// false, then frames are not recorded. This is useful during the setup phase
   /// that shouldn't be recorded; if the target widget isn't wrapped in [record]
   /// during the setup phase, the states will be lost when it starts recording.
   ///
   /// The `child` must not be null.
   ///
   /// See also:
   ///
   ///  * [WidgetTester.pumpFrames], which renders a widget in a series of frames
   ///    with a fixed time interval.
   Widget record(Widget child, {
     Key? key,
     bool recording = true,
   }) {
     assert(child != null);
     return _AnimationSheetRecorder(
       key: key,
       child: child,
       size: frameSize,
       handleRecorded: recording ? _recordedFrames.add : null,
     );
   }

   /// Constructs a widget that renders the recorded frames in an animation sheet.
   ///
   /// The resulting widget takes as much space as its parent allows, which is
   /// usually the screen size. It is then filled with all recorded frames, each
   /// having a size specified by [frameSize], chronologically from top-left to
   /// bottom-right in a row-major order.
   ///
   /// This widget does not check whether its size fits all recorded frames.
   /// Having too many frames can cause overflow errors, while having too few can
   /// waste the size of golden files. Therefore you should usually adjust the
   /// viewport size to [sheetSize] before calling this method.
   ///
   /// The `key` is applied to the root widget.
   ///
   /// This method can only be called if at least one frame has been recorded.
   Future<Widget> display({Key? key}) async {
     assert(_recordedFrames.isNotEmpty);
     final List<ui.Image> frames = await _frames;
     return _CellSheet(
       key: key,
       cellSize: frameSize,
       children: frames.map((ui.Image image) => RawImage(
         image: image,
         width: frameSize.width,
         height: frameSize.height,
       )).toList(),
     );
   }

   /// Returns the smallest size that can contain all recorded frames.
   ///
   /// This is used to adjust the viewport during unit tests, i.e. the size of
   /// virtual screen. Having too many frames recorded than the default viewport
   /// size can contain will lead to overflow errors, while having too few frames
   /// means the golden file might be larger than necessary.
   ///
   /// The [sheetSize] returns the smallest possible size by placing the
   /// recorded frames, each of which has a size specified by [frameSize], in a
   /// row-major grid with a maximum width specified by `maxWidth`, and returns
   /// the size of that grid.
   ///
   /// Setting the viewport size during a widget test usually involves
   /// [TestWidgetsFlutterBinding.setSurfaceSize] and [WidgetTester.binding].
   ///
   /// The `maxWidth` defaults to the width of the default viewport, 800.0.
   ///
   /// This method can only be called if at least one frame has been recorded.
   Size sheetSize({double maxWidth = _kDefaultTestViewportWidth}) {
     assert(_recordedFrames.isNotEmpty);
     final int cellsPerRow = (maxWidth / frameSize.width).floor();
     final int rowNum = (_recordedFrames.length / cellsPerRow).ceil();
     final double width = math.min(cellsPerRow, _recordedFrames.length) * frameSize.width;
     return Size(width, frameSize.height * rowNum);
   }

   // The width of _kDefaultTestViewportSize in [TestViewConfiguration].
   static const double _kDefaultTestViewportWidth = 800.0;
 }

 typedef _RecordedHandler = void Function(Future<ui.Image> image);

 class _AnimationSheetRecorder extends StatefulWidget {
   const _AnimationSheetRecorder({
     this.handleRecorded,
     required this.child,
     required this.size,
     Key? key,
   }) : super(key: key);

   final _RecordedHandler? handleRecorded;
   final Widget child;
   final Size size;

   @override
   State<StatefulWidget> createState() => _AnimationSheetRecorderState();
 }

 class _AnimationSheetRecorderState extends State<_AnimationSheetRecorder> {
   GlobalKey boundaryKey = GlobalKey();

   void _record(Duration duration) {
     assert(widget.handleRecorded != null);
     final RenderRepaintBoundary boundary = boundaryKey.currentContext!.findRenderObject()! as RenderRepaintBoundary;
     widget.handleRecorded!(boundary.toImage());
   }

   @override
   Widget build(BuildContext context) {
     return Align(
       alignment: Alignment.topLeft,
       child: SizedBox.fromSize(
         size: widget.size,
         child: RepaintBoundary(
           key: boundaryKey,
           child: _PostFrameCallbacker(
             callback: widget.handleRecorded == null ? null : _record,
             child: widget.child,
           ),
         ),
       ),
     );
   }
 }

 // Invokes `callback` and [markNeedsPaint] during the post-frame callback phase
 // of every frame.
 //
 // If `callback` is non-null, `_PostFrameCallbacker` adds a post-frame callback
 // every time it paints, during which it calls the provided `callback` then
 // invokes [markNeedsPaint].
 //
 // If `callback` is null, `_PostFrameCallbacker` is equivalent to a proxy box.
 class _PostFrameCallbacker extends SingleChildRenderObjectWidget {
   const _PostFrameCallbacker({
     Key? key,
     Widget? child,
     this.callback,
   }) : super(key: key, child: child);

   final FrameCallback? callback;

   @override
   _RenderPostFrameCallbacker createRenderObject(BuildContext context) => _RenderPostFrameCallbacker(
     callback: callback,
   );

   @override
   void updateRenderObject(BuildContext context, _RenderPostFrameCallbacker renderObject) {
     renderObject.callback = callback;
   }
 }

 class _RenderPostFrameCallbacker extends RenderProxyBox {
   _RenderPostFrameCallbacker({
     FrameCallback? callback,
   }) : _callback = callback;

   FrameCallback? get callback => _callback;
   FrameCallback? _callback;
   set callback(FrameCallback? value) {
     _callback = value;
     if (value != null) {
       markNeedsPaint();
     }
   }

   @override
   void paint(PaintingContext context, Offset offset) {
     if (callback != null) {
       SchedulerBinding.instance!.addPostFrameCallback((Duration duration) {
         callback!(duration);
         markNeedsPaint();
       });
     }
     super.paint(context, offset);
   }

   @override
   void debugFillProperties(DiagnosticPropertiesBuilder properties) {
     super.debugFillProperties(properties);
     properties.add(FlagProperty('callback', value: callback != null, ifTrue: 'has a callback'));
   }
 }

 // Layout children in a grid of fixed-sized cells.
 //
 // The sheet fills up as much space as the parent allows. The cells are
 // positioned from top left to bottom right in a row-major order.
 class _CellSheet extends StatelessWidget {
   _CellSheet({
     Key? key,
     required this.cellSize,
     required this.children,
   }) : assert(cellSize != null),
        assert(children != null && children.isNotEmpty),
        super(key: key);

   final Size cellSize;
   final List<Widget> children;

   @override
   Widget build(BuildContext _context) {
     return LayoutBuilder(builder: (BuildContext context, BoxConstraints constraints) {
       final double rowWidth = constraints.biggest.width;
       final int cellsPerRow = (rowWidth / cellSize.width).floor();
       final List<Widget> rows = <Widget>[];
       for (int rowStart = 0; rowStart < children.length; rowStart += cellsPerRow) {
         final Iterable<Widget> rowTargets = children.sublist(rowStart, math.min(rowStart + cellsPerRow, children.length));
         rows.add(Row(
           textDirection: TextDirection.ltr,
           children: rowTargets.map((Widget target) => SizedBox.fromSize(
             size: cellSize,
             child: target,
           )).toList(),
         ));
       }
       return Column(
         textDirection: TextDirection.ltr,
         crossAxisAlignment: CrossAxisAlignment.start,
         children: rows,
       );
     });
   }
 }
	// 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.

	import 'dart:math' as math;
	import 'dart:ui' as ui;

	import 'package:flutter/rendering.dart';
	import 'package:flutter/scheduler.dart';
	import 'package:flutter/widgets.dart';

	/// Records the frames of an animating widget, and later displays the frames as a
	/// grid in an animation sheet.
	///
	/// This class does not support Web, because the animation sheet utilizes taking
	/// screenshots, which is unsupported on the Web. Tests that use this class must
	/// be noted with `skip: isBrowser`.
	/// (https://github.com/flutter/flutter/issues/56001)
	///
	/// Using this class includes the following steps:
	///
	/// * Create an instance of this class.
	/// * Pump frames that render the target widget wrapped in [record]. Every frame
	/// that has `recording` being true will be recorded.
	/// * Adjust the size of the test viewport to the [sheetSize] (see the
	/// documentation of [sheetSize] for more information).
	/// * Pump a frame that renders [display], which shows all recorded frames in an
	/// animation sheet, and can be matched against the golden test.
	///
	/// {@tool snippet}
	/// The following example shows how to record an animation sheet of an [InkWell]
	/// being pressed then released.
	///
	/// ```dart
	/// testWidgets('Inkwell animation sheet', (WidgetTester tester) async {
	/// // Create instance
	/// final AnimationSheetBuilder animationSheet = AnimationSheetBuilder(frameSize: const Size(48, 24));
	///
	/// final Widget target = Material(
	/// child: Directionality(
	/// textDirection: TextDirection.ltr,
	/// child: InkWell(
	/// splashColor: Colors.blue,
	/// onTap: () {},
	/// ),
	/// ),
	/// );
	///
	/// // Optional: setup before recording (`recording` is false)
	/// await tester.pumpWidget(animationSheet.record(
	/// target,
	/// recording: false,
	/// ));
	///
	/// final TestGesture gesture = await tester.startGesture(tester.getCenter(find.byType(InkWell)));
	///
	/// // Start recording (`recording` is true)
	/// await tester.pumpFrames(animationSheet.record(
	/// target,
	/// recording: true,
	/// ), const Duration(seconds: 1));
	///
	/// await gesture.up();
	///
	/// await tester.pumpFrames(animationSheet.record(
	/// target,
	/// recording: true,
	/// ), const Duration(seconds: 1));
	///
	/// // Adjust view port size
	/// tester.binding.setSurfaceSize(animationSheet.sheetSize());
	///
	/// // Display
	/// final Widget display = await animationSheet.display();
	/// await tester.pumpWidget(display);
	///
	/// // Compare against golden file
	/// await expectLater(
	/// find.byWidget(display),
	/// matchesGoldenFile('inkwell.press.animation.png'),
	/// );
	/// }, skip: isBrowser); // Animation sheet does not support browser https://github.com/flutter/flutter/issues/56001
	/// ```
	/// {@end-tool}
	///
	/// See also:
	///
	/// * [GoldenFileComparator], which introduces Golden File Testing.
	class AnimationSheetBuilder {
	/// Starts a session of building an animation sheet.
	///
	/// The [frameSize] is a tight constraint for the child to be recorded, and must not
	/// be null.
	AnimationSheetBuilder({required this.frameSize}) : assert(frameSize != null);

	/// The size of the child to be recorded.
	///
	/// This size is applied as a tight layout constraint for the child, and is
	/// fixed throughout the building session.
	final Size frameSize;

	final List<Future<ui.Image>> _recordedFrames = <Future<ui.Image>>[];
	Future<List<ui.Image>> get _frames async {
	final List<ui.Image> frames = await Future.wait<ui.Image>(_recordedFrames, eagerError: true);
	assert(() {
	for (final ui.Image frame in frames) {
	assert(frame.width == frameSize.width && frame.height == frameSize.height,
	'Unexpected size mismatch: frame has (${frame.width}, ${frame.height}) '
	'while `frameSize` is $frameSize.'
	);
	}
	return true;
	}());
	return frames;
	}

	/// Returns a widget that renders a widget in a box that can be recorded.
	///
	/// The returned widget wraps `child` in a box with a fixed size specified by
	/// [frameSize]. The `key` is also applied to the returned widget.
	///
	/// The `recording` defaults to true, which means the painted result of each
	/// frame will be stored and later available for [display]. If `recording` is
	/// false, then frames are not recorded. This is useful during the setup phase
	/// that shouldn't be recorded; if the target widget isn't wrapped in [record]
	/// during the setup phase, the states will be lost when it starts recording.
	///
	/// The `child` must not be null.
	///
	/// See also:
	///
	/// * [WidgetTester.pumpFrames], which renders a widget in a series of frames
	/// with a fixed time interval.
	Widget record(Widget child, {
	Key? key,
	bool recording = true,
	}) {
	assert(child != null);
	return _AnimationSheetRecorder(
	key: key,
	child: child,
	size: frameSize,
	handleRecorded: recording ? _recordedFrames.add : null,
	);
	}

	/// Constructs a widget that renders the recorded frames in an animation sheet.
	///
	/// The resulting widget takes as much space as its parent allows, which is
	/// usually the screen size. It is then filled with all recorded frames, each
	/// having a size specified by [frameSize], chronologically from top-left to
	/// bottom-right in a row-major order.
	///
	/// This widget does not check whether its size fits all recorded frames.
	/// Having too many frames can cause overflow errors, while having too few can
	/// waste the size of golden files. Therefore you should usually adjust the
	/// viewport size to [sheetSize] before calling this method.
	///
	/// The `key` is applied to the root widget.
	///
	/// This method can only be called if at least one frame has been recorded.
	Future<Widget> display({Key? key}) async {
	assert(_recordedFrames.isNotEmpty);
	final List<ui.Image> frames = await _frames;
	return _CellSheet(
	key: key,
	cellSize: frameSize,
	children: frames.map((ui.Image image) => RawImage(
	image: image,
	width: frameSize.width,
	height: frameSize.height,
	)).toList(),
	);
	}

	/// Returns the smallest size that can contain all recorded frames.
	///
	/// This is used to adjust the viewport during unit tests, i.e. the size of
	/// virtual screen. Having too many frames recorded than the default viewport
	/// size can contain will lead to overflow errors, while having too few frames
	/// means the golden file might be larger than necessary.
	///
	/// The [sheetSize] returns the smallest possible size by placing the
	/// recorded frames, each of which has a size specified by [frameSize], in a
	/// row-major grid with a maximum width specified by `maxWidth`, and returns
	/// the size of that grid.
	///
	/// Setting the viewport size during a widget test usually involves
	/// [TestWidgetsFlutterBinding.setSurfaceSize] and [WidgetTester.binding].
	///
	/// The `maxWidth` defaults to the width of the default viewport, 800.0.
	///
	/// This method can only be called if at least one frame has been recorded.
	Size sheetSize({double maxWidth = _kDefaultTestViewportWidth}) {
	assert(_recordedFrames.isNotEmpty);
	final int cellsPerRow = (maxWidth / frameSize.width).floor();
	final int rowNum = (_recordedFrames.length / cellsPerRow).ceil();
	final double width = math.min(cellsPerRow, _recordedFrames.length) * frameSize.width;
	return Size(width, frameSize.height * rowNum);
	}

	// The width of _kDefaultTestViewportSize in [TestViewConfiguration].
	static const double _kDefaultTestViewportWidth = 800.0;
	}

	typedef _RecordedHandler = void Function(Future<ui.Image> image);

	class _AnimationSheetRecorder extends StatefulWidget {
	const _AnimationSheetRecorder({
	this.handleRecorded,
	required this.child,
	required this.size,
	Key? key,
	}) : super(key: key);

	final _RecordedHandler? handleRecorded;
	final Widget child;
	final Size size;

	@override
	State<StatefulWidget> createState() => _AnimationSheetRecorderState();
	}

	class _AnimationSheetRecorderState extends State<_AnimationSheetRecorder> {
	GlobalKey boundaryKey = GlobalKey();

	void _record(Duration duration) {
	assert(widget.handleRecorded != null);
	final RenderRepaintBoundary boundary = boundaryKey.currentContext!.findRenderObject()! as RenderRepaintBoundary;
	widget.handleRecorded!(boundary.toImage());
	}

	@override
	Widget build(BuildContext context) {
	return Align(
	alignment: Alignment.topLeft,
	child: SizedBox.fromSize(
	size: widget.size,
	child: RepaintBoundary(
	key: boundaryKey,
	child: _PostFrameCallbacker(
	callback: widget.handleRecorded == null ? null : _record,
	child: widget.child,
	),
	),
	),
	);
	}
	}

	// Invokes `callback` and [markNeedsPaint] during the post-frame callback phase
	// of every frame.
	//
	// If `callback` is non-null, `_PostFrameCallbacker` adds a post-frame callback
	// every time it paints, during which it calls the provided `callback` then
	// invokes [markNeedsPaint].
	//
	// If `callback` is null, `_PostFrameCallbacker` is equivalent to a proxy box.
	class _PostFrameCallbacker extends SingleChildRenderObjectWidget {
	const _PostFrameCallbacker({
	Key? key,
	Widget? child,
	this.callback,
	}) : super(key: key, child: child);

	final FrameCallback? callback;

	@override
	_RenderPostFrameCallbacker createRenderObject(BuildContext context) => _RenderPostFrameCallbacker(
	callback: callback,
	);

	@override
	void updateRenderObject(BuildContext context, _RenderPostFrameCallbacker renderObject) {
	renderObject.callback = callback;
	}
	}

	class _RenderPostFrameCallbacker extends RenderProxyBox {
	_RenderPostFrameCallbacker({
	FrameCallback? callback,
	}) : _callback = callback;

	FrameCallback? get callback => _callback;
	FrameCallback? _callback;
	set callback(FrameCallback? value) {
	_callback = value;
	if (value != null) {
	markNeedsPaint();
	}
	}

	@override
	void paint(PaintingContext context, Offset offset) {
	if (callback != null) {
	SchedulerBinding.instance!.addPostFrameCallback((Duration duration) {
	callback!(duration);
	markNeedsPaint();
	});
	}
	super.paint(context, offset);
	}

	@override
	void debugFillProperties(DiagnosticPropertiesBuilder properties) {
	super.debugFillProperties(properties);
	properties.add(FlagProperty('callback', value: callback != null, ifTrue: 'has a callback'));
	}
	}

	// Layout children in a grid of fixed-sized cells.
	//
	// The sheet fills up as much space as the parent allows. The cells are
	// positioned from top left to bottom right in a row-major order.
	class _CellSheet extends StatelessWidget {
	_CellSheet({
	Key? key,
	required this.cellSize,
	required this.children,
	}) : assert(cellSize != null),
	assert(children != null && children.isNotEmpty),
	super(key: key);

	final Size cellSize;
	final List<Widget> children;

	@override
	Widget build(BuildContext _context) {
	return LayoutBuilder(builder: (BuildContext context, BoxConstraints constraints) {
	final double rowWidth = constraints.biggest.width;
	final int cellsPerRow = (rowWidth / cellSize.width).floor();
	final List<Widget> rows = <Widget>[];
	for (int rowStart = 0; rowStart < children.length; rowStart += cellsPerRow) {
	final Iterable<Widget> rowTargets = children.sublist(rowStart, math.min(rowStart + cellsPerRow, children.length));
	rows.add(Row(
	textDirection: TextDirection.ltr,
	children: rowTargets.map((Widget target) => SizedBox.fromSize(
	size: cellSize,
	child: target,
	)).toList(),
	));
	}
	return Column(
	textDirection: TextDirection.ltr,
	crossAxisAlignment: CrossAxisAlignment.start,
	children: rows,
	);
	});
	}
	}