packages/flutter/test/widgets/independent_widget_layout_test.dart - external/github.com/flutter/flutter - Git at Google

 // Copyright 2016 The Chromium 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 'package:flutter_test/flutter_test.dart';
 import 'package:flutter/material.dart';
 import 'package:flutter/rendering.dart';

 const Size _kTestViewSize = const Size(800.0, 600.0);

 class OffscreenRenderView extends RenderView {
   OffscreenRenderView() : super(configuration: const ViewConfiguration(size: _kTestViewSize));

   @override
   void compositeFrame() {
     // Don't draw to ui.window
   }
 }

 class OffscreenWidgetTree {
   OffscreenWidgetTree() {
     renderView.attach(pipelineOwner);
     renderView.scheduleInitialFrame();
   }

   final RenderView renderView = new OffscreenRenderView();
   final BuildOwner buildOwner = new BuildOwner();
   final PipelineOwner pipelineOwner = new PipelineOwner();
   RenderObjectToWidgetElement<RenderBox> root;

   void pumpWidget(Widget app) {
     root = new RenderObjectToWidgetAdapter<RenderBox>(
       container: renderView,
       debugShortDescription: '[root]',
       child: app
     ).attachToRenderTree(buildOwner, root);
     pumpFrame();
   }

   void pumpFrame() {
     buildOwner.buildScope(root);
     pipelineOwner.flushLayout();
     pipelineOwner.flushCompositingBits();
     pipelineOwner.flushPaint();
     renderView.compositeFrame();
     pipelineOwner.flushSemantics();
     buildOwner.finalizeTree();
   }

 }

 class Counter {
   int count = 0;
 }

 class Trigger {
   VoidCallback callback;
   void fire() {
     if (callback != null)
       callback();
   }
 }

 class TriggerableWidget extends StatefulWidget {
   const TriggerableWidget({ this.trigger, this.counter });
   final Trigger trigger;
   final Counter counter;
   @override
   TriggerableState createState() => new TriggerableState();
 }

 class TriggerableState extends State<TriggerableWidget> {
   @override
   void initState() {
     super.initState();
     widget.trigger.callback = fire;
   }

   @override
   void didUpdateWidget(TriggerableWidget oldWidget) {
     super.didUpdateWidget(oldWidget);
     widget.trigger.callback = fire;
   }

   int _count = 0;
   void fire() {
     setState(() {
       _count++;
     });
   }

   @override
   Widget build(BuildContext context) {
     widget.counter.count++;
     return new Text('Bang $_count!', textDirection: TextDirection.ltr);
   }
 }

 class TestFocusable extends StatefulWidget {
   const TestFocusable({
     Key key,
     this.focusNode,
     this.autofocus: true,
   }) : super(key: key);

   final bool autofocus;
   final FocusNode focusNode;

   @override
   TestFocusableState createState() => new TestFocusableState();
 }

 class TestFocusableState extends State<TestFocusable> {
   bool _didAutofocus = false;

   @override
   void didChangeDependencies() {
     super.didChangeDependencies();
     if (!_didAutofocus && widget.autofocus) {
       _didAutofocus = true;
       FocusScope.of(context).autofocus(widget.focusNode);
     }
   }

   @override
   Widget build(BuildContext context) {
     return const Text('Test focus node', textDirection: TextDirection.ltr);
   }
 }

 void main() {
   testWidgets('no crosstalk between widget build owners', (WidgetTester tester) async {
     final Trigger trigger1 = new Trigger();
     final Counter counter1 = new Counter();
     final Trigger trigger2 = new Trigger();
     final Counter counter2 = new Counter();
     final OffscreenWidgetTree tree = new OffscreenWidgetTree();
     // Both counts should start at zero
     expect(counter1.count, equals(0));
     expect(counter2.count, equals(0));
     // Lay out the "onscreen" in the default test binding
     await tester.pumpWidget(new TriggerableWidget(trigger: trigger1, counter: counter1));
     // Only the "onscreen" widget should have built
     expect(counter1.count, equals(1));
     expect(counter2.count, equals(0));
     // Lay out the "offscreen" in a separate tree
     tree.pumpWidget(new TriggerableWidget(trigger: trigger2, counter: counter2));
     // Now both widgets should have built
     expect(counter1.count, equals(1));
     expect(counter2.count, equals(1));
     // Mark both as needing layout
     trigger1.fire();
     trigger2.fire();
     // Marking as needing layout shouldn't immediately build anything
     expect(counter1.count, equals(1));
     expect(counter2.count, equals(1));
     // Pump the "onscreen" layout
     await tester.pump();
     // Only the "onscreen" widget should have rebuilt
     expect(counter1.count, equals(2));
     expect(counter2.count, equals(1));
     // Pump the "offscreen" layout
     tree.pumpFrame();
     // Now both widgets should have rebuilt
     expect(counter1.count, equals(2));
     expect(counter2.count, equals(2));
     // Mark both as needing layout, again
     trigger1.fire();
     trigger2.fire();
     // Now pump the "offscreen" layout first
     tree.pumpFrame();
     // Only the "offscreen" widget should have rebuilt
     expect(counter1.count, equals(2));
     expect(counter2.count, equals(3));
     // Pump the "onscreen" layout
     await tester.pump();
     // Now both widgets should have rebuilt
     expect(counter1.count, equals(3));
     expect(counter2.count, equals(3));
   });

   testWidgets('no crosstalk between focus nodes', (WidgetTester tester) async {
     final OffscreenWidgetTree tree = new OffscreenWidgetTree();
     final FocusNode onscreenFocus = new FocusNode();
     final FocusNode offscreenFocus = new FocusNode();
     await tester.pumpWidget(
       new TestFocusable(
         focusNode: onscreenFocus,
       ),
     );
     tree.pumpWidget(
       new TestFocusable(
         focusNode: offscreenFocus,
       ),
     );

     // Autofocus is delayed one frame.
     await tester.pump();
     tree.pumpFrame();

     expect(onscreenFocus.hasFocus, isTrue);
     expect(offscreenFocus.hasFocus, isTrue);
   });

 }
	// Copyright 2016 The Chromium 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 'package:flutter_test/flutter_test.dart';
	import 'package:flutter/material.dart';
	import 'package:flutter/rendering.dart';

	const Size _kTestViewSize = const Size(800.0, 600.0);

	class OffscreenRenderView extends RenderView {
	OffscreenRenderView() : super(configuration: const ViewConfiguration(size: _kTestViewSize));

	@override
	void compositeFrame() {
	// Don't draw to ui.window
	}
	}

	class OffscreenWidgetTree {
	OffscreenWidgetTree() {
	renderView.attach(pipelineOwner);
	renderView.scheduleInitialFrame();
	}

	final RenderView renderView = new OffscreenRenderView();
	final BuildOwner buildOwner = new BuildOwner();
	final PipelineOwner pipelineOwner = new PipelineOwner();
	RenderObjectToWidgetElement<RenderBox> root;

	void pumpWidget(Widget app) {
	root = new RenderObjectToWidgetAdapter<RenderBox>(
	container: renderView,
	debugShortDescription: '[root]',
	child: app
	).attachToRenderTree(buildOwner, root);
	pumpFrame();
	}

	void pumpFrame() {
	buildOwner.buildScope(root);
	pipelineOwner.flushLayout();
	pipelineOwner.flushCompositingBits();
	pipelineOwner.flushPaint();
	renderView.compositeFrame();
	pipelineOwner.flushSemantics();
	buildOwner.finalizeTree();
	}

	}

	class Counter {
	int count = 0;
	}

	class Trigger {
	VoidCallback callback;
	void fire() {
	if (callback != null)
	callback();
	}
	}

	class TriggerableWidget extends StatefulWidget {
	const TriggerableWidget({ this.trigger, this.counter });
	final Trigger trigger;
	final Counter counter;
	@override
	TriggerableState createState() => new TriggerableState();
	}

	class TriggerableState extends State<TriggerableWidget> {
	@override
	void initState() {
	super.initState();
	widget.trigger.callback = fire;
	}

	@override
	void didUpdateWidget(TriggerableWidget oldWidget) {
	super.didUpdateWidget(oldWidget);
	widget.trigger.callback = fire;
	}

	int _count = 0;
	void fire() {
	setState(() {
	_count++;
	});
	}

	@override
	Widget build(BuildContext context) {
	widget.counter.count++;
	return new Text('Bang $_count!', textDirection: TextDirection.ltr);
	}
	}

	class TestFocusable extends StatefulWidget {
	const TestFocusable({
	Key key,
	this.focusNode,
	this.autofocus: true,
	}) : super(key: key);

	final bool autofocus;
	final FocusNode focusNode;

	@override
	TestFocusableState createState() => new TestFocusableState();
	}

	class TestFocusableState extends State<TestFocusable> {
	bool _didAutofocus = false;

	@override
	void didChangeDependencies() {
	super.didChangeDependencies();
	if (!_didAutofocus && widget.autofocus) {
	_didAutofocus = true;
	FocusScope.of(context).autofocus(widget.focusNode);
	}
	}

	@override
	Widget build(BuildContext context) {
	return const Text('Test focus node', textDirection: TextDirection.ltr);
	}
	}

	void main() {
	testWidgets('no crosstalk between widget build owners', (WidgetTester tester) async {
	final Trigger trigger1 = new Trigger();
	final Counter counter1 = new Counter();
	final Trigger trigger2 = new Trigger();
	final Counter counter2 = new Counter();
	final OffscreenWidgetTree tree = new OffscreenWidgetTree();
	// Both counts should start at zero
	expect(counter1.count, equals(0));
	expect(counter2.count, equals(0));
	// Lay out the "onscreen" in the default test binding
	await tester.pumpWidget(new TriggerableWidget(trigger: trigger1, counter: counter1));
	// Only the "onscreen" widget should have built
	expect(counter1.count, equals(1));
	expect(counter2.count, equals(0));
	// Lay out the "offscreen" in a separate tree
	tree.pumpWidget(new TriggerableWidget(trigger: trigger2, counter: counter2));
	// Now both widgets should have built
	expect(counter1.count, equals(1));
	expect(counter2.count, equals(1));
	// Mark both as needing layout
	trigger1.fire();
	trigger2.fire();
	// Marking as needing layout shouldn't immediately build anything
	expect(counter1.count, equals(1));
	expect(counter2.count, equals(1));
	// Pump the "onscreen" layout
	await tester.pump();
	// Only the "onscreen" widget should have rebuilt
	expect(counter1.count, equals(2));
	expect(counter2.count, equals(1));
	// Pump the "offscreen" layout
	tree.pumpFrame();
	// Now both widgets should have rebuilt
	expect(counter1.count, equals(2));
	expect(counter2.count, equals(2));
	// Mark both as needing layout, again
	trigger1.fire();
	trigger2.fire();
	// Now pump the "offscreen" layout first
	tree.pumpFrame();
	// Only the "offscreen" widget should have rebuilt
	expect(counter1.count, equals(2));
	expect(counter2.count, equals(3));
	// Pump the "onscreen" layout
	await tester.pump();
	// Now both widgets should have rebuilt
	expect(counter1.count, equals(3));
	expect(counter2.count, equals(3));
	});

	testWidgets('no crosstalk between focus nodes', (WidgetTester tester) async {
	final OffscreenWidgetTree tree = new OffscreenWidgetTree();
	final FocusNode onscreenFocus = new FocusNode();
	final FocusNode offscreenFocus = new FocusNode();
	await tester.pumpWidget(
	new TestFocusable(
	focusNode: onscreenFocus,
	),
	);
	tree.pumpWidget(
	new TestFocusable(
	focusNode: offscreenFocus,
	),
	);

	// Autofocus is delayed one frame.
	await tester.pump();
	tree.pumpFrame();

	expect(onscreenFocus.hasFocus, isTrue);
	expect(offscreenFocus.hasFocus, isTrue);
	});

	}