blob: ff0b8c9729748e999f2dbef2264bad5e83cd28b5 [file] [log] [blame]
// 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:ui';
import 'package:flutter/foundation.dart';
import 'package:flutter/material.dart';
import 'package:flutter/services.dart';
import 'package:flutter_test/flutter_test.dart';
import 'semantics_tester.dart';
void main() {
group(WidgetOrderTraversalPolicy, () {
testWidgets('Find the initial focus if there is none yet.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final GlobalKey key3 = GlobalKey(debugLabel: '3');
final GlobalKey key4 = GlobalKey(debugLabel: '4');
final GlobalKey key5 = GlobalKey(debugLabel: '5');
await tester.pumpWidget(FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
key: key1,
child: Column(
children: <Widget>[
Focus(
key: key2,
child: SizedBox(key: key3, width: 100, height: 100),
),
Focus(
key: key4,
child: SizedBox(key: key5, width: 100, height: 100),
),
],
),
),
));
final Element firstChild = tester.element(find.byKey(key3));
final Element secondChild = tester.element(find.byKey(key5));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode secondFocusNode = Focus.of(secondChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
secondFocusNode.nextFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
});
testWidgets('Find the initial focus if there is none yet and traversing backwards.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final GlobalKey key3 = GlobalKey(debugLabel: '3');
final GlobalKey key4 = GlobalKey(debugLabel: '4');
final GlobalKey key5 = GlobalKey(debugLabel: '5');
await tester.pumpWidget(FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
key: key1,
child: Column(
children: <Widget>[
Focus(
key: key2,
child: SizedBox(key: key3, width: 100, height: 100),
),
Focus(
key: key4,
child: SizedBox(key: key5, width: 100, height: 100),
),
],
),
),
));
final Element firstChild = tester.element(find.byKey(key3));
final Element secondChild = tester.element(find.byKey(key5));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode secondFocusNode = Focus.of(secondChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isFalse);
secondFocusNode.previousFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
});
testWidgets('Move focus to next node.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final GlobalKey key3 = GlobalKey(debugLabel: '3');
final GlobalKey key4 = GlobalKey(debugLabel: '4');
final GlobalKey key5 = GlobalKey(debugLabel: '5');
final GlobalKey key6 = GlobalKey(debugLabel: '6');
bool? focus1;
bool? focus2;
bool? focus3;
bool? focus5;
await tester.pumpWidget(
FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
debugLabel: 'key1',
key: key1,
onFocusChange: (bool focus) => focus1 = focus,
child: Column(
children: <Widget>[
FocusScope(
debugLabel: 'key2',
key: key2,
onFocusChange: (bool focus) => focus2 = focus,
child: Column(
children: <Widget>[
Focus(
debugLabel: 'key3',
key: key3,
onFocusChange: (bool focus) => focus3 = focus,
child: Container(key: key4),
),
Focus(
debugLabel: 'key5',
key: key5,
onFocusChange: (bool focus) => focus5 = focus,
child: Container(key: key6),
),
],
),
),
],
),
),
),
);
final Element firstChild = tester.element(find.byKey(key4));
final Element secondChild = tester.element(find.byKey(key6));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode secondFocusNode = Focus.of(secondChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
firstFocusNode.requestFocus();
await tester.pump();
expect(focus1, isTrue);
expect(focus2, isTrue);
expect(focus3, isTrue);
expect(focus5, isNull);
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
focus1 = null;
focus2 = null;
focus3 = null;
focus5 = null;
Focus.of(firstChild).nextFocus();
await tester.pump();
expect(focus1, isNull);
expect(focus2, isNull);
expect(focus3, isFalse);
expect(focus5, isTrue);
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
focus1 = null;
focus2 = null;
focus3 = null;
focus5 = null;
Focus.of(firstChild).nextFocus();
await tester.pump();
expect(focus1, isNull);
expect(focus2, isNull);
expect(focus3, isTrue);
expect(focus5, isFalse);
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
focus1 = null;
focus2 = null;
focus3 = null;
focus5 = null;
// Tests that can still move back to original node.
Focus.of(firstChild).previousFocus();
await tester.pump();
expect(focus1, isNull);
expect(focus2, isNull);
expect(focus3, isFalse);
expect(focus5, isTrue);
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
});
testWidgets('Move focus to previous node.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final GlobalKey key3 = GlobalKey(debugLabel: '3');
final GlobalKey key4 = GlobalKey(debugLabel: '4');
final GlobalKey key5 = GlobalKey(debugLabel: '5');
final GlobalKey key6 = GlobalKey(debugLabel: '6');
await tester.pumpWidget(
FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
key: key1,
child: Column(
children: <Widget>[
FocusScope(
key: key2,
child: Column(
children: <Widget>[
Focus(
key: key3,
child: Container(key: key4),
),
Focus(
key: key5,
child: Container(key: key6),
),
],
),
),
],
),
),
),
);
final Element firstChild = tester.element(find.byKey(key4));
final Element secondChild = tester.element(find.byKey(key6));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode secondFocusNode = Focus.of(secondChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
secondFocusNode.requestFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
Focus.of(firstChild).previousFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
Focus.of(firstChild).previousFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
// Tests that can still move back to original node.
Focus.of(firstChild).nextFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
});
testWidgets('Move focus to next/previous node while skipping nodes in policy', (WidgetTester tester) async {
final List<FocusNode> nodes =
List<FocusNode>.generate(7, (int index) => FocusNode(debugLabel: 'Node $index'));
await tester.pumpWidget(
FocusTraversalGroup(
policy: SkipAllButFirstAndLastPolicy(),
child: Column(
children: List<Widget>.generate(
nodes.length,
(int index) => Focus(
focusNode: nodes[index],
child: const SizedBox(),
),
),
),
),
);
nodes[2].requestFocus();
await tester.pump();
expect(nodes[2].hasPrimaryFocus, isTrue);
primaryFocus!.nextFocus();
await tester.pump();
expect(nodes[6].hasPrimaryFocus, isTrue);
primaryFocus!.previousFocus();
await tester.pump();
expect(nodes[0].hasPrimaryFocus, isTrue);
});
testWidgets('Find the initial focus when a route is pushed or popped.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final FocusNode testNode1 = FocusNode(debugLabel: 'First Focus Node');
final FocusNode testNode2 = FocusNode(debugLabel: 'Second Focus Node');
await tester.pumpWidget(
MaterialApp(
home: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: Center(
child: Builder(builder: (BuildContext context) {
return ElevatedButton(
key: key1,
focusNode: testNode1,
autofocus: true,
onPressed: () {
Navigator.of(context).push<void>(
MaterialPageRoute<void>(
builder: (BuildContext context) {
return Center(
child: ElevatedButton(
key: key2,
focusNode: testNode2,
autofocus: true,
onPressed: () {
Navigator.of(context).pop();
},
child: const Text('Go Back'),
),
);
},
),
);
},
child: const Text('Go Forward'),
);
}),
),
),
),
);
final Element firstChild = tester.element(find.text('Go Forward'));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
await tester.pump();
expect(firstFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
await tester.tap(find.text('Go Forward'));
await tester.pumpAndSettle();
final Element secondChild = tester.element(find.text('Go Back'));
final FocusNode secondFocusNode = Focus.of(secondChild);
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
await tester.tap(find.text('Go Back'));
await tester.pumpAndSettle();
expect(firstFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
});
testWidgets('Custom requestFocusCallback gets called on the next/previous focus.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final FocusNode testNode1 = FocusNode(debugLabel: 'Focus Node');
bool calledCallback = false;
await tester.pumpWidget(
FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(
requestFocusCallback: (FocusNode node, {double? alignment,
ScrollPositionAlignmentPolicy? alignmentPolicy,
Curve? curve,
Duration? duration}) {
calledCallback = true;
},
),
child: FocusScope(
debugLabel: 'key1',
child: Focus(
key: key1,
focusNode: testNode1,
child: Container(),
),
),
),
);
final Element element = tester.element(find.byKey(key1));
final FocusNode scope = FocusScope.of(element);
scope.nextFocus();
await tester.pump();
expect(calledCallback, isTrue);
calledCallback = false;
scope.previousFocus();
await tester.pump();
expect(calledCallback, isTrue);
});
});
group(ReadingOrderTraversalPolicy, () {
testWidgets('Find the initial focus if there is none yet.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final GlobalKey key3 = GlobalKey(debugLabel: '3');
final GlobalKey key4 = GlobalKey(debugLabel: '4');
final GlobalKey key5 = GlobalKey(debugLabel: '5');
await tester.pumpWidget(FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(),
child: FocusScope(
key: key1,
child: Column(
children: <Widget>[
Focus(
key: key2,
child: SizedBox(key: key3, width: 100, height: 100),
),
Focus(
key: key4,
child: SizedBox(key: key5, width: 100, height: 100),
),
],
),
),
));
final Element firstChild = tester.element(find.byKey(key3));
final Element secondChild = tester.element(find.byKey(key5));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode secondFocusNode = Focus.of(secondChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
secondFocusNode.nextFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
});
testWidgets('Move reading focus to next node.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final GlobalKey key3 = GlobalKey(debugLabel: '3');
final GlobalKey key4 = GlobalKey(debugLabel: '4');
final GlobalKey key5 = GlobalKey(debugLabel: '5');
final GlobalKey key6 = GlobalKey(debugLabel: '6');
bool? focus1;
bool? focus2;
bool? focus3;
bool? focus5;
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(),
child: FocusScope(
debugLabel: 'key1',
key: key1,
onFocusChange: (bool focus) => focus1 = focus,
child: Column(
children: <Widget>[
FocusScope(
debugLabel: 'key2',
key: key2,
onFocusChange: (bool focus) => focus2 = focus,
child: Row(
children: <Widget>[
Focus(
debugLabel: 'key3',
key: key3,
onFocusChange: (bool focus) => focus3 = focus,
child: Container(key: key4),
),
Focus(
debugLabel: 'key5',
key: key5,
onFocusChange: (bool focus) => focus5 = focus,
child: Container(key: key6),
),
],
),
),
],
),
),
),
),
);
void clear() {
focus1 = null;
focus2 = null;
focus3 = null;
focus5 = null;
}
final Element firstChild = tester.element(find.byKey(key4));
final Element secondChild = tester.element(find.byKey(key6));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode secondFocusNode = Focus.of(secondChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
firstFocusNode.requestFocus();
await tester.pump();
expect(focus1, isTrue);
expect(focus2, isTrue);
expect(focus3, isTrue);
expect(focus5, isNull);
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
clear();
Focus.of(firstChild).nextFocus();
await tester.pump();
expect(focus1, isNull);
expect(focus2, isNull);
expect(focus3, isFalse);
expect(focus5, isTrue);
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
clear();
Focus.of(firstChild).nextFocus();
await tester.pump();
expect(focus1, isNull);
expect(focus2, isNull);
expect(focus3, isTrue);
expect(focus5, isFalse);
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
clear();
// Tests that can still move back to original node.
Focus.of(firstChild).previousFocus();
await tester.pump();
expect(focus1, isNull);
expect(focus2, isNull);
expect(focus3, isFalse);
expect(focus5, isTrue);
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
});
testWidgets('Move reading focus to previous node.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final GlobalKey key3 = GlobalKey(debugLabel: '3');
final GlobalKey key4 = GlobalKey(debugLabel: '4');
final GlobalKey key5 = GlobalKey(debugLabel: '5');
final GlobalKey key6 = GlobalKey(debugLabel: '6');
await tester.pumpWidget(
FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(),
child: FocusScope(
key: key1,
child: Column(
children: <Widget>[
FocusScope(
key: key2,
child: Column(
children: <Widget>[
Focus(
key: key3,
child: Container(key: key4),
),
Focus(
key: key5,
child: Container(key: key6),
),
],
),
),
],
),
),
),
);
final Element firstChild = tester.element(find.byKey(key4));
final Element secondChild = tester.element(find.byKey(key6));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode secondFocusNode = Focus.of(secondChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
secondFocusNode.requestFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
Focus.of(firstChild).previousFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
Focus.of(firstChild).previousFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
// Tests that can still move back to original node.
Focus.of(firstChild).nextFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isTrue);
expect(secondFocusNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
});
testWidgets('Focus order is correct in the presence of different directionalities.', (WidgetTester tester) async {
const int nodeCount = 10;
final FocusScopeNode scopeNode = FocusScopeNode();
final List<FocusNode> nodes = List<FocusNode>.generate(nodeCount, (int index) => FocusNode(debugLabel: 'Node $index'));
Widget buildTest(TextDirection topDirection) {
return Directionality(
textDirection: topDirection,
child: FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(),
child: FocusScope(
node: scopeNode,
child: Column(
children: <Widget>[
Directionality(
textDirection: TextDirection.ltr,
child: Row(children: <Widget>[
Focus(
focusNode: nodes[0],
child: const SizedBox(width: 10, height: 10),
),
Focus(
focusNode: nodes[1],
child: const SizedBox(width: 10, height: 10),
),
Focus(
focusNode: nodes[2],
child: const SizedBox(width: 10, height: 10),
),
]),
),
Directionality(
textDirection: TextDirection.ltr,
child: Row(children: <Widget>[
Directionality(
textDirection: TextDirection.rtl,
child: Focus(
focusNode: nodes[3],
child: const SizedBox(width: 10, height: 10),
),
),
Directionality(
textDirection: TextDirection.rtl,
child: Focus(
focusNode: nodes[4],
child: const SizedBox(width: 10, height: 10),
),
),
Directionality(
textDirection: TextDirection.ltr,
child: Focus(
focusNode: nodes[5],
child: const SizedBox(width: 10, height: 10),
),
),
]),
),
Row(children: <Widget>[
Directionality(
textDirection: TextDirection.ltr,
child: Focus(
focusNode: nodes[6],
child: const SizedBox(width: 10, height: 10),
),
),
Directionality(
textDirection: TextDirection.rtl,
child: Focus(
focusNode: nodes[7],
child: const SizedBox(width: 10, height: 10),
),
),
Directionality(
textDirection: TextDirection.rtl,
child: Focus(
focusNode: nodes[8],
child: const SizedBox(width: 10, height: 10),
),
),
Directionality(
textDirection: TextDirection.ltr,
child: Focus(
focusNode: nodes[9],
child: const SizedBox(width: 10, height: 10),
),
),
]),
],
),
),
),
);
}
await tester.pumpWidget(buildTest(TextDirection.rtl));
// The last four *are* correct: the Row is sensitive to the directionality
// too, so it swaps the positions of 7 and 8.
final List<int> order = <int>[];
for (int i = 0; i < nodeCount; ++i) {
nodes.first.nextFocus();
await tester.pump();
order.add(nodes.indexOf(primaryFocus!));
}
expect(order, orderedEquals(<int>[0, 1, 2, 4, 3, 5, 6, 7, 8, 9]));
await tester.pumpWidget(buildTest(TextDirection.ltr));
order.clear();
for (int i = 0; i < nodeCount; ++i) {
nodes.first.nextFocus();
await tester.pump();
order.add(nodes.indexOf(primaryFocus!));
}
expect(order, orderedEquals(<int>[0, 1, 2, 4, 3, 5, 6, 8, 7, 9]));
});
testWidgets('Focus order is reading order regardless of widget order, even when overlapping.', (WidgetTester tester) async {
const int nodeCount = 10;
final List<FocusNode> nodes = List<FocusNode>.generate(nodeCount, (int index) => FocusNode(debugLabel: 'Node $index'));
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.rtl,
child: FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(),
child: Stack(
alignment: Alignment.topLeft,
children: List<Widget>.generate(nodeCount, (int index) {
// Boxes that all have the same upper left origin corner.
return Focus(
focusNode: nodes[index],
child: SizedBox(width: 10.0 * (index + 1), height: 10.0 * (index + 1)),
);
}),
),
),
),
);
final List<int> order = <int>[];
for (int i = 0; i < nodeCount; ++i) {
nodes.first.nextFocus();
await tester.pump();
order.add(nodes.indexOf(primaryFocus!));
}
expect(order, orderedEquals(<int>[9, 8, 7, 6, 5, 4, 3, 2, 1, 0]));
// Concentric boxes.
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.rtl,
child: FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(),
child: Stack(
alignment: Alignment.center,
children: List<Widget>.generate(nodeCount, (int index) {
return Focus(
focusNode: nodes[index],
child: SizedBox(width: 10.0 * (index + 1), height: 10.0 * (index + 1)),
);
}),
),
),
),
);
order.clear();
for (int i = 0; i < nodeCount; ++i) {
nodes.first.nextFocus();
await tester.pump();
order.add(nodes.indexOf(primaryFocus!));
}
expect(order, orderedEquals(<int>[9, 8, 7, 6, 5, 4, 3, 2, 1, 0]));
// Stacked (vertically) and centered (horizontally, on each other)
// widgets, not overlapping.
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.rtl,
child: FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(),
child: Stack(
alignment: Alignment.center,
children: List<Widget>.generate(nodeCount, (int index) {
return Positioned(
top: 5.0 * index * (index + 1),
left: 5.0 * (9 - index),
child: Focus(
focusNode: nodes[index],
child: Container(
decoration: BoxDecoration(border: Border.all()),
width: 10.0 * (index + 1),
height: 10.0 * (index + 1),
),
),
);
}),
),
),
),
);
order.clear();
for (int i = 0; i < nodeCount; ++i) {
nodes.first.nextFocus();
await tester.pump();
order.add(nodes.indexOf(primaryFocus!));
}
expect(order, orderedEquals(<int>[1, 2, 3, 4, 5, 6, 7, 8, 9, 0]));
});
testWidgets('Custom requestFocusCallback gets called on the next/previous focus.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final FocusNode testNode1 = FocusNode(debugLabel: 'Focus Node');
bool calledCallback = false;
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(
requestFocusCallback: (FocusNode node, {double? alignment,
ScrollPositionAlignmentPolicy? alignmentPolicy,
Curve? curve,
Duration? duration}) {
calledCallback = true;
},
),
child: FocusScope(
debugLabel: 'key1',
child: Focus(
key: key1,
focusNode: testNode1,
child: Container(),
),
),
),
),
);
final Element element = tester.element(find.byKey(key1));
final FocusNode scope = FocusScope.of(element);
scope.nextFocus();
await tester.pump();
expect(calledCallback, isTrue);
calledCallback = false;
scope.previousFocus();
await tester.pump();
expect(calledCallback, isTrue);
});
});
group(OrderedTraversalPolicy, () {
testWidgets('Find the initial focus if there is none yet.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
await tester.pumpWidget(FocusTraversalGroup(
policy: OrderedTraversalPolicy(secondary: ReadingOrderTraversalPolicy()),
child: FocusScope(
child: Column(
children: <Widget>[
FocusTraversalOrder(
order: const NumericFocusOrder(2),
child: Focus(
child: SizedBox(key: key1, width: 100, height: 100),
),
),
FocusTraversalOrder(
order: const NumericFocusOrder(1),
child: Focus(
child: SizedBox(key: key2, width: 100, height: 100),
),
),
],
),
),
));
final Element firstChild = tester.element(find.byKey(key1));
final Element secondChild = tester.element(find.byKey(key2));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode secondFocusNode = Focus.of(secondChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
secondFocusNode.nextFocus();
await tester.pump();
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
});
testWidgets('Fall back to the secondary sort if no FocusTraversalOrder exists.', (WidgetTester tester) async {
const int nodeCount = 10;
final List<FocusNode> nodes = List<FocusNode>.generate(nodeCount, (int index) => FocusNode(debugLabel: 'Node $index'));
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.rtl,
child: FocusTraversalGroup(
policy: OrderedTraversalPolicy(secondary: WidgetOrderTraversalPolicy()),
child: FocusScope(
child: Row(
children: List<Widget>.generate(
nodeCount,
(int index) => Focus(
focusNode: nodes[index],
child: const SizedBox(width: 10, height: 10),
),
),
),
),
),
),
);
// Because it should be using widget order, this shouldn't be affected by
// the directionality.
for (int i = 0; i < nodeCount; ++i) {
nodes.first.nextFocus();
await tester.pump();
expect(nodes[i].hasPrimaryFocus, isTrue, reason: "node $i doesn't have focus, but should");
}
// Now check backwards.
for (int i = nodeCount - 1; i > 0; --i) {
nodes.first.previousFocus();
await tester.pump();
expect(nodes[i - 1].hasPrimaryFocus, isTrue, reason: "node ${i - 1} doesn't have focus, but should");
}
});
testWidgets('Move focus to next/previous node using numerical order.', (WidgetTester tester) async {
const int nodeCount = 10;
final List<FocusNode> nodes = List<FocusNode>.generate(nodeCount, (int index) => FocusNode(debugLabel: 'Node $index'));
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: OrderedTraversalPolicy(secondary: WidgetOrderTraversalPolicy()),
child: FocusScope(
child: Row(
children: List<Widget>.generate(
nodeCount,
(int index) => FocusTraversalOrder(
order: NumericFocusOrder(nodeCount - index.toDouble()),
child: Focus(
focusNode: nodes[index],
child: const SizedBox(width: 10, height: 10),
),
),
),
),
),
),
),
);
// The orders are assigned to be backwards from normal, so should go backwards.
for (int i = nodeCount - 1; i >= 0; --i) {
nodes.first.nextFocus();
await tester.pump();
expect(nodes[i].hasPrimaryFocus, isTrue, reason: "node $i doesn't have focus, but should");
}
// Now check backwards.
for (int i = 1; i < nodeCount; ++i) {
nodes.first.previousFocus();
await tester.pump();
expect(nodes[i].hasPrimaryFocus, isTrue, reason: "node $i doesn't have focus, but should");
}
});
testWidgets('Move focus to next/previous node using lexical order.', (WidgetTester tester) async {
const int nodeCount = 10;
/// Generate ['J' ... 'A'];
final List<String> keys = List<String>.generate(nodeCount, (int index) => String.fromCharCode('A'.codeUnits[0] + nodeCount - index - 1));
final List<FocusNode> nodes = List<FocusNode>.generate(nodeCount, (int index) => FocusNode(debugLabel: 'Node ${keys[index]}'));
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: OrderedTraversalPolicy(secondary: WidgetOrderTraversalPolicy()),
child: FocusScope(
child: Row(
children: List<Widget>.generate(
nodeCount,
(int index) => FocusTraversalOrder(
order: LexicalFocusOrder(keys[index]),
child: Focus(
focusNode: nodes[index],
child: const SizedBox(width: 10, height: 10),
),
),
),
),
),
),
),
);
// The orders are assigned to be backwards from normal, so should go backwards.
for (int i = nodeCount - 1; i >= 0; --i) {
nodes.first.nextFocus();
await tester.pump();
expect(nodes[i].hasPrimaryFocus, isTrue, reason: "node $i doesn't have focus, but should");
}
// Now check backwards.
for (int i = 1; i < nodeCount; ++i) {
nodes.first.previousFocus();
await tester.pump();
expect(nodes[i].hasPrimaryFocus, isTrue, reason: "node $i doesn't have focus, but should");
}
});
testWidgets('Focus order is correct in the presence of FocusTraversalPolicyGroups.', (WidgetTester tester) async {
const int nodeCount = 10;
final FocusScopeNode scopeNode = FocusScopeNode();
final List<FocusNode> nodes = List<FocusNode>.generate(nodeCount, (int index) => FocusNode(debugLabel: 'Node $index'));
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
node: scopeNode,
child: FocusTraversalGroup(
policy: OrderedTraversalPolicy(secondary: WidgetOrderTraversalPolicy()),
child: Row(
children: <Widget>[
FocusTraversalOrder(
order: const NumericFocusOrder(0),
child: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: Row(children: <Widget>[
FocusTraversalOrder(
order: const NumericFocusOrder(9),
child: Focus(
focusNode: nodes[9],
child: const SizedBox(width: 10, height: 10),
),
),
FocusTraversalOrder(
order: const NumericFocusOrder(8),
child: Focus(
focusNode: nodes[8],
child: const SizedBox(width: 10, height: 10),
),
),
FocusTraversalOrder(
order: const NumericFocusOrder(7),
child: Focus(
focusNode: nodes[7],
child: const SizedBox(width: 10, height: 10),
),
),
]),
),
),
FocusTraversalOrder(
order: const NumericFocusOrder(1),
child: FocusTraversalGroup(
policy: OrderedTraversalPolicy(secondary: WidgetOrderTraversalPolicy()),
child: Row(children: <Widget>[
FocusTraversalOrder(
order: const NumericFocusOrder(4),
child: Focus(
focusNode: nodes[4],
child: const SizedBox(width: 10, height: 10),
),
),
FocusTraversalOrder(
order: const NumericFocusOrder(5),
child: Focus(
focusNode: nodes[5],
child: const SizedBox(width: 10, height: 10),
),
),
FocusTraversalOrder(
order: const NumericFocusOrder(6),
child: Focus(
focusNode: nodes[6],
child: const SizedBox(width: 10, height: 10),
),
),
]),
),
),
FocusTraversalOrder(
order: const NumericFocusOrder(2),
child: FocusTraversalGroup(
policy: OrderedTraversalPolicy(secondary: WidgetOrderTraversalPolicy()),
child: Row(children: <Widget>[
FocusTraversalOrder(
order: const LexicalFocusOrder('D'),
child: Focus(
focusNode: nodes[3],
child: const SizedBox(width: 10, height: 10),
),
),
FocusTraversalOrder(
order: const LexicalFocusOrder('C'),
child: Focus(
focusNode: nodes[2],
child: const SizedBox(width: 10, height: 10),
),
),
FocusTraversalOrder(
order: const LexicalFocusOrder('B'),
child: Focus(
focusNode: nodes[1],
child: const SizedBox(width: 10, height: 10),
),
),
FocusTraversalOrder(
order: const LexicalFocusOrder('A'),
child: Focus(
focusNode: nodes[0],
child: const SizedBox(width: 10, height: 10),
),
),
]),
),
),
],
),
),
),
),
),
);
final List<int> expectedOrder = <int>[9, 8, 7, 4, 5, 6, 0, 1, 2, 3];
final List<int> order = <int>[];
for (int i = 0; i < nodeCount; ++i) {
nodes.first.nextFocus();
await tester.pump();
order.add(nodes.indexOf(primaryFocus!));
}
expect(order, orderedEquals(expectedOrder));
});
testWidgets('Find the initial focus when a route is pushed or popped.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final FocusNode testNode1 = FocusNode(debugLabel: 'First Focus Node');
final FocusNode testNode2 = FocusNode(debugLabel: 'Second Focus Node');
await tester.pumpWidget(
MaterialApp(
home: FocusTraversalGroup(
policy: OrderedTraversalPolicy(secondary: WidgetOrderTraversalPolicy()),
child: Center(
child: Builder(builder: (BuildContext context) {
return FocusTraversalOrder(
order: const NumericFocusOrder(0),
child: ElevatedButton(
key: key1,
focusNode: testNode1,
autofocus: true,
onPressed: () {
Navigator.of(context).push<void>(
MaterialPageRoute<void>(
builder: (BuildContext context) {
return Center(
child: FocusTraversalOrder(
order: const NumericFocusOrder(0),
child: ElevatedButton(
key: key2,
focusNode: testNode2,
autofocus: true,
onPressed: () {
Navigator.of(context).pop();
},
child: const Text('Go Back'),
),
),
);
},
),
);
},
child: const Text('Go Forward'),
),
);
}),
),
),
),
);
final Element firstChild = tester.element(find.text('Go Forward'));
final FocusNode firstFocusNode = Focus.of(firstChild);
final FocusNode scope = Focus.of(firstChild).enclosingScope!;
await tester.pump();
expect(firstFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
await tester.tap(find.text('Go Forward'));
await tester.pumpAndSettle();
final Element secondChild = tester.element(find.text('Go Back'));
final FocusNode secondFocusNode = Focus.of(secondChild);
expect(firstFocusNode.hasFocus, isFalse);
expect(secondFocusNode.hasFocus, isTrue);
await tester.tap(find.text('Go Back'));
await tester.pumpAndSettle();
expect(firstFocusNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
});
testWidgets('Custom requestFocusCallback gets called on the next/previous focus.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final FocusNode testNode1 = FocusNode(debugLabel: 'Focus Node');
bool calledCallback = false;
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: OrderedTraversalPolicy(
requestFocusCallback: (FocusNode node, {double? alignment,
ScrollPositionAlignmentPolicy? alignmentPolicy,
Curve? curve,
Duration? duration}) {
calledCallback = true;
},
),
child: FocusScope(
debugLabel: 'key1',
child: Focus(
key: key1,
focusNode: testNode1,
child: Container(),
),
),
),
),
);
final Element element = tester.element(find.byKey(key1));
final FocusNode scope = FocusScope.of(element);
scope.nextFocus();
await tester.pump();
expect(calledCallback, isTrue);
calledCallback = false;
scope.previousFocus();
await tester.pump();
expect(calledCallback, isTrue);
});
});
group(DirectionalFocusTraversalPolicyMixin, () {
testWidgets('Move focus in all directions.', (WidgetTester tester) async {
final GlobalKey upperLeftKey = GlobalKey(debugLabel: 'upperLeftKey');
final GlobalKey upperRightKey = GlobalKey(debugLabel: 'upperRightKey');
final GlobalKey lowerLeftKey = GlobalKey(debugLabel: 'lowerLeftKey');
final GlobalKey lowerRightKey = GlobalKey(debugLabel: 'lowerRightKey');
bool? focusUpperLeft;
bool? focusUpperRight;
bool? focusLowerLeft;
bool? focusLowerRight;
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
debugLabel: 'Scope',
child: Column(
children: <Widget>[
Row(
children: <Widget>[
Focus(
debugLabel: 'upperLeft',
onFocusChange: (bool focus) => focusUpperLeft = focus,
child: SizedBox(width: 100, height: 100, key: upperLeftKey),
),
Focus(
debugLabel: 'upperRight',
onFocusChange: (bool focus) => focusUpperRight = focus,
child: SizedBox(width: 100, height: 100, key: upperRightKey),
),
],
),
Row(
children: <Widget>[
Focus(
debugLabel: 'lowerLeft',
onFocusChange: (bool focus) => focusLowerLeft = focus,
child: SizedBox(width: 100, height: 100, key: lowerLeftKey),
),
Focus(
debugLabel: 'lowerRight',
onFocusChange: (bool focus) => focusLowerRight = focus,
child: SizedBox(width: 100, height: 100, key: lowerRightKey),
),
],
),
],
),
),
),
),
);
void clear() {
focusUpperLeft = null;
focusUpperRight = null;
focusLowerLeft = null;
focusLowerRight = null;
}
final FocusNode upperLeftNode = Focus.of(tester.element(find.byKey(upperLeftKey)));
final FocusNode upperRightNode = Focus.of(tester.element(find.byKey(upperRightKey)));
final FocusNode lowerLeftNode = Focus.of(tester.element(find.byKey(lowerLeftKey)));
final FocusNode lowerRightNode = Focus.of(tester.element(find.byKey(lowerRightKey)));
final FocusNode scope = upperLeftNode.enclosingScope!;
upperLeftNode.requestFocus();
await tester.pump();
expect(focusUpperLeft, isTrue);
expect(focusUpperRight, isNull);
expect(focusLowerLeft, isNull);
expect(focusLowerRight, isNull);
expect(upperLeftNode.hasFocus, isTrue);
expect(upperRightNode.hasFocus, isFalse);
expect(lowerLeftNode.hasFocus, isFalse);
expect(lowerRightNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
clear();
expect(scope.focusInDirection(TraversalDirection.right), isTrue);
await tester.pump();
expect(focusUpperLeft, isFalse);
expect(focusUpperRight, isTrue);
expect(focusLowerLeft, isNull);
expect(focusLowerRight, isNull);
expect(upperLeftNode.hasFocus, isFalse);
expect(upperRightNode.hasFocus, isTrue);
expect(lowerLeftNode.hasFocus, isFalse);
expect(lowerRightNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focusUpperLeft, isNull);
expect(focusUpperRight, isFalse);
expect(focusLowerLeft, isNull);
expect(focusLowerRight, isTrue);
expect(upperLeftNode.hasFocus, isFalse);
expect(upperRightNode.hasFocus, isFalse);
expect(lowerLeftNode.hasFocus, isFalse);
expect(lowerRightNode.hasFocus, isTrue);
expect(scope.hasFocus, isTrue);
clear();
expect(scope.focusInDirection(TraversalDirection.left), isTrue);
await tester.pump();
expect(focusUpperLeft, isNull);
expect(focusUpperRight, isNull);
expect(focusLowerLeft, isTrue);
expect(focusLowerRight, isFalse);
expect(upperLeftNode.hasFocus, isFalse);
expect(upperRightNode.hasFocus, isFalse);
expect(lowerLeftNode.hasFocus, isTrue);
expect(lowerRightNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
clear();
expect(scope.focusInDirection(TraversalDirection.up), isTrue);
await tester.pump();
expect(focusUpperLeft, isTrue);
expect(focusUpperRight, isNull);
expect(focusLowerLeft, isFalse);
expect(focusLowerRight, isNull);
expect(upperLeftNode.hasFocus, isTrue);
expect(upperRightNode.hasFocus, isFalse);
expect(lowerLeftNode.hasFocus, isFalse);
expect(lowerRightNode.hasFocus, isFalse);
expect(scope.hasFocus, isTrue);
});
testWidgets('Directional focus avoids hysteresis.', (WidgetTester tester) async {
List<bool?> focus = List<bool?>.generate(6, (int _) => null);
final List<FocusNode> nodes = List<FocusNode>.generate(6, (int index) => FocusNode(debugLabel: 'Node $index'));
Focus makeFocus(int index) {
return Focus(
debugLabel: '[$index]',
focusNode: nodes[index],
onFocusChange: (bool isFocused) => focus[index] = isFocused,
child: const SizedBox(width: 100, height: 100),
);
}
/// Layout is:
/// [0]
/// [1] [2]
/// [3] [4] [5]
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
debugLabel: 'Scope',
child: Column(
children: <Widget>[
Row(
mainAxisAlignment: MainAxisAlignment.center,
children: <Widget>[
makeFocus(0),
],
),
Row(
mainAxisAlignment: MainAxisAlignment.center,
children: <Widget>[
makeFocus(1),
makeFocus(2),
],
),
Row(
mainAxisAlignment: MainAxisAlignment.center,
children: <Widget>[
makeFocus(3),
makeFocus(4),
makeFocus(5),
],
),
],
),
),
),
),
);
void clear() {
focus = List<bool?>.generate(focus.length, (int _) => null);
}
final FocusNode scope = nodes[0].enclosingScope!;
nodes[4].requestFocus();
// Test to make sure that the same path is followed backwards and forwards.
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null, true, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.up), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, true, null, false, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.up), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[true, null, false, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[false, null, true, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, false, null, true, null]));
clear();
// Make sure that moving in a different axis clears the history.
expect(scope.focusInDirection(TraversalDirection.left), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, true, false, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.up), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, true, null, false, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.up), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[true, false, null, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[false, true, null, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, false, null, true, null, null]));
clear();
});
testWidgets('Directional prefers the closest node even on irregular grids', (WidgetTester tester) async {
const int cols = 3;
const int rows = 3;
List<bool?> focus = List<bool?>.generate(rows * cols, (int _) => null);
final List<FocusNode> nodes = List<FocusNode>.generate(rows * cols, (int index) => FocusNode(debugLabel: 'Node $index'));
Widget makeFocus(int row, int col) {
final int index = row * rows + col;
return Focus(
focusNode: nodes[index],
onFocusChange: (bool isFocused) => focus[index] = isFocused,
child: Container(
// Make some of the items a different size to test the code that
// checks for the closest node.
width: index == 3 ? 150 : 100,
height: index == 1 ? 150 : 100,
color: Colors.primaries[index],
child: Text('[$row, $col]'),
),
);
}
/// Layout is:
/// [0, 1]
/// [0, 0] [ ] [0, 2]
/// [ 1, 0 ] [1, 1] [1, 2]
/// [2, 0] [2, 1] [2, 2]
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
debugLabel: 'Scope',
child: Column(
children: <Widget>[
Row(
mainAxisAlignment: MainAxisAlignment.center,
crossAxisAlignment: CrossAxisAlignment.end,
children: <Widget>[
makeFocus(0, 0),
makeFocus(0, 1),
makeFocus(0, 2),
],
),
Row(
mainAxisAlignment: MainAxisAlignment.center,
children: <Widget>[
makeFocus(1, 0),
makeFocus(1, 1),
makeFocus(1, 2),
],
),
Row(
mainAxisAlignment: MainAxisAlignment.center,
children: <Widget>[
makeFocus(2, 0),
makeFocus(2, 1),
makeFocus(2, 2),
],
),
],
),
),
),
),
);
void clear() {
focus = List<bool?>.generate(focus.length, (int _) => null);
}
final FocusNode scope = nodes[0].enclosingScope!;
// Go down the center column and make sure that the focus stays in that
// column, even though the second row is irregular.
nodes[1].requestFocus();
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, true, null, null, null, null, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, false, null, null, true, null, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null, false, null, null, true, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isFalse);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null, null, null, null, null, null]));
clear();
// Go back up the right column and make sure that the focus stays in that
// column, even though the second row is irregular.
expect(scope.focusInDirection(TraversalDirection.right), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null, null, null, null, false, true]));
clear();
expect(scope.focusInDirection(TraversalDirection.up), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null, null, true, null, null, false]));
clear();
expect(scope.focusInDirection(TraversalDirection.up), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, true, null, null, false, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.up), isFalse);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null, null, null, null, null, null]));
clear();
// Go left on the top row and make sure that the focus stays in that
// row, even though the second column is irregular.
expect(scope.focusInDirection(TraversalDirection.left), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, true, false, null, null, null, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.left), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[true, false, null, null, null, null, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.left), isFalse);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null, null, null, null, null, null]));
clear();
});
testWidgets('Closest vertical is picked when only out of band items are considered', (WidgetTester tester) async {
const int rows = 4;
List<bool?> focus = List<bool?>.generate(rows, (int _) => null);
final List<FocusNode> nodes = List<FocusNode>.generate(rows, (int index) => FocusNode(debugLabel: 'Node $index'));
Widget makeFocus(int row) {
return Padding(
padding: EdgeInsetsDirectional.only(end: row != 0 ? 110.0 : 0),
child: Focus(
focusNode: nodes[row],
onFocusChange: (bool isFocused) => focus[row] = isFocused,
child: Container(
width: row == 1 ? 150 : 100,
height: 100,
color: Colors.primaries[row],
child: Text('[$row]'),
),
),
);
}
/// Layout is:
/// [0]
/// [ 1]
/// [ 2]
/// [ 3]
///
/// The important feature is that nothing is in the vertical band defined
/// by widget [0]. We want it to traverse to 1, 2, 3 in order, even though
/// the center of [2] is horizontally closer to the vertical axis of [0]'s
/// center than [1]'s.
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
debugLabel: 'Scope',
child: Column(
crossAxisAlignment: CrossAxisAlignment.end,
children: <Widget>[
makeFocus(0),
makeFocus(1),
makeFocus(2),
makeFocus(3),
],
),
),
),
),
);
void clear() {
focus = List<bool?>.generate(focus.length, (int _) => null);
}
final FocusNode scope = nodes[0].enclosingScope!;
// Go down the column and make sure that the focus goes to the next
// closest one.
nodes[0].requestFocus();
await tester.pump();
expect(focus, orderedEquals(<bool?>[true, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[false, true, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, false, true, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, false, true]));
clear();
expect(scope.focusInDirection(TraversalDirection.down), isFalse);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null]));
clear();
});
testWidgets('Closest horizontal is picked when only out of band items are considered', (WidgetTester tester) async {
const int cols = 4;
List<bool?> focus = List<bool?>.generate(cols, (int _) => null);
final List<FocusNode> nodes = List<FocusNode>.generate(cols, (int index) => FocusNode(debugLabel: 'Node $index'));
Widget makeFocus(int col) {
return Padding(
padding: EdgeInsetsDirectional.only(top: col != 0 ? 110.0 : 0),
child: Focus(
focusNode: nodes[col],
onFocusChange: (bool isFocused) => focus[col] = isFocused,
child: Container(
width: 100,
height: col == 1 ? 150 : 100,
color: Colors.primaries[col],
child: Text('[$col]'),
),
),
);
}
/// Layout is:
/// [0]
/// [ ][2][3]
/// [1]
/// ([ ] is part of [1], [1] is just taller than [2] and [3]).
///
/// The important feature is that nothing is in the horizontal band
/// defined by widget [0]. We want it to traverse to 1, 2, 3 in order,
/// even though the center of [2] is vertically closer to the horizontal
/// axis of [0]'s center than [1]'s.
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
debugLabel: 'Scope',
child: Row(
crossAxisAlignment: CrossAxisAlignment.start,
children: <Widget>[
makeFocus(0),
makeFocus(1),
makeFocus(2),
makeFocus(3),
],
),
),
),
),
);
void clear() {
focus = List<bool?>.generate(focus.length, (int _) => null);
}
final FocusNode scope = nodes[0].enclosingScope!;
// Go down the row and make sure that the focus goes to the next
// closest one.
nodes[0].requestFocus();
await tester.pump();
expect(focus, orderedEquals(<bool?>[true, null, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.right), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[false, true, null, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.right), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, false, true, null]));
clear();
expect(scope.focusInDirection(TraversalDirection.right), isTrue);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, false, true]));
clear();
expect(scope.focusInDirection(TraversalDirection.right), isFalse);
await tester.pump();
expect(focus, orderedEquals(<bool?>[null, null, null, null]));
clear();
});
testWidgets('Can find first focus in all directions.', (WidgetTester tester) async {
final GlobalKey upperLeftKey = GlobalKey(debugLabel: 'upperLeftKey');
final GlobalKey upperRightKey = GlobalKey(debugLabel: 'upperRightKey');
final GlobalKey lowerLeftKey = GlobalKey(debugLabel: 'lowerLeftKey');
await tester.pumpWidget(
Directionality(
textDirection: TextDirection.ltr,
child: FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: FocusScope(
debugLabel: 'scope',
child: Column(
children: <Widget>[
Row(
children: <Widget>[
Focus(
debugLabel: 'upperLeft',
child: SizedBox(width: 100, height: 100, key: upperLeftKey),
),
Focus(
debugLabel: 'upperRight',
child: SizedBox(width: 100, height: 100, key: upperRightKey),
),
],
),
Row(
children: <Widget>[
Focus(
debugLabel: 'lowerLeft',
child: SizedBox(width: 100, height: 100, key: lowerLeftKey),
),
const Focus(
debugLabel: 'lowerRight',
child: SizedBox(width: 100, height: 100),
),
],
),
],
),
),
),
),
);
final FocusNode upperLeftNode = Focus.of(tester.element(find.byKey(upperLeftKey)));
final FocusNode upperRightNode = Focus.of(tester.element(find.byKey(upperRightKey)));
final FocusNode lowerLeftNode = Focus.of(tester.element(find.byKey(lowerLeftKey)));
final FocusNode scope = upperLeftNode.enclosingScope!;
await tester.pump();
final FocusTraversalPolicy policy = FocusTraversalGroup.of(upperLeftKey.currentContext!);
expect(policy.findFirstFocusInDirection(scope, TraversalDirection.up), equals(lowerLeftNode));
expect(policy.findFirstFocusInDirection(scope, TraversalDirection.down), equals(upperLeftNode));
expect(policy.findFirstFocusInDirection(scope, TraversalDirection.left), equals(upperRightNode));
expect(policy.findFirstFocusInDirection(scope, TraversalDirection.right), equals(upperLeftNode));
});
testWidgets('Can find focus when policy data dirty', (WidgetTester tester) async {
final FocusNode focusTop = FocusNode(debugLabel: 'top');
final FocusNode focusCenter = FocusNode(debugLabel: 'center');
final FocusNode focusBottom = FocusNode(debugLabel: 'bottom');
final FocusTraversalPolicy policy = ReadingOrderTraversalPolicy();
await tester.pumpWidget(FocusTraversalGroup(
policy: policy,
child: FocusScope(
debugLabel: 'Scope',
child: Column(
children: <Widget>[
Focus(focusNode: focusTop, child: const SizedBox(width: 100, height: 100)),
Focus(focusNode: focusCenter, child: const SizedBox(width: 100, height: 100)),
Focus(focusNode: focusBottom, child: const SizedBox(width: 100, height: 100)),
],
),
),
));
focusTop.requestFocus();
final FocusNode scope = focusTop.enclosingScope!;
scope.focusInDirection(TraversalDirection.down);
scope.focusInDirection(TraversalDirection.down);
await tester.pump();
expect(focusBottom.hasFocus, isTrue);
// Remove center focus node.
await tester.pumpWidget(FocusTraversalGroup(
policy: policy,
child: FocusScope(
debugLabel: 'Scope',
child: Column(
children: <Widget>[
Focus(focusNode: focusTop, child: const SizedBox(width: 100, height: 100)),
Focus(focusNode: focusBottom, child: const SizedBox(width: 100, height: 100)),
],
),
),
));
expect(focusBottom.hasFocus, isTrue);
scope.focusInDirection(TraversalDirection.up);
await tester.pump();
expect(focusCenter.hasFocus, isFalse);
expect(focusTop.hasFocus, isTrue);
});
testWidgets('Focus traversal actions are invoked when shortcuts are used.', (WidgetTester tester) async {
final GlobalKey upperLeftKey = GlobalKey(debugLabel: 'upperLeftKey');
final GlobalKey upperRightKey = GlobalKey(debugLabel: 'upperRightKey');
final GlobalKey lowerLeftKey = GlobalKey(debugLabel: 'lowerLeftKey');
final GlobalKey lowerRightKey = GlobalKey(debugLabel: 'lowerRightKey');
await tester.pumpWidget(
WidgetsApp(
color: const Color(0xFFFFFFFF),
onGenerateRoute: (RouteSettings settings) {
return TestRoute(
child: Directionality(
textDirection: TextDirection.ltr,
child: FocusScope(
debugLabel: 'scope',
child: Column(
children: <Widget>[
Row(
children: <Widget>[
Focus(
autofocus: true,
debugLabel: 'upperLeft',
child: SizedBox(width: 100, height: 100, key: upperLeftKey),
),
Focus(
debugLabel: 'upperRight',
child: SizedBox(width: 100, height: 100, key: upperRightKey),
),
],
),
Row(
children: <Widget>[
Focus(
debugLabel: 'lowerLeft',
child: SizedBox(width: 100, height: 100, key: lowerLeftKey),
),
Focus(
debugLabel: 'lowerRight',
child: SizedBox(width: 100, height: 100, key: lowerRightKey),
),
],
),
],
),
),
),
);
},
),
);
expect(Focus.of(upperLeftKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
expect(Focus.of(upperRightKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
expect(Focus.of(lowerLeftKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
expect(Focus.of(lowerRightKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
expect(Focus.of(upperLeftKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyDownEvent(LogicalKeyboardKey.shift);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
await tester.sendKeyUpEvent(LogicalKeyboardKey.shift);
expect(Focus.of(lowerRightKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyDownEvent(LogicalKeyboardKey.shift);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
await tester.sendKeyUpEvent(LogicalKeyboardKey.shift);
expect(Focus.of(lowerLeftKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyDownEvent(LogicalKeyboardKey.shift);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
await tester.sendKeyUpEvent(LogicalKeyboardKey.shift);
expect(Focus.of(upperRightKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyDownEvent(LogicalKeyboardKey.shift);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
await tester.sendKeyUpEvent(LogicalKeyboardKey.shift);
expect(Focus.of(upperLeftKey.currentContext!).hasPrimaryFocus, isTrue);
// Traverse in a direction
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
expect(Focus.of(upperRightKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowDown);
expect(Focus.of(lowerRightKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowLeft);
expect(Focus.of(lowerLeftKey.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowUp);
expect(Focus.of(upperLeftKey.currentContext!).hasPrimaryFocus, isTrue);
}, skip: isBrowser, variant: KeySimulatorTransitModeVariant.all()); // https://github.com/flutter/flutter/issues/35347
testWidgets('Focus traversal actions works when current focus skip traversal', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: 'key1');
final GlobalKey key2 = GlobalKey(debugLabel: 'key2');
final GlobalKey key3 = GlobalKey(debugLabel: 'key3');
await tester.pumpWidget(
WidgetsApp(
color: const Color(0xFFFFFFFF),
onGenerateRoute: (RouteSettings settings) {
return TestRoute(
child: Directionality(
textDirection: TextDirection.ltr,
child: FocusScope(
debugLabel: 'scope',
child: Column(
children: <Widget>[
Row(
children: <Widget>[
Focus(
autofocus: true,
skipTraversal: true,
debugLabel: '1',
child: SizedBox(width: 100, height: 100, key: key1),
),
Focus(
debugLabel: '2',
child: SizedBox(width: 100, height: 100, key: key2),
),
Focus(
debugLabel: '3',
child: SizedBox(width: 100, height: 100, key: key3),
),
],
),
],
),
),
),
);
},
),
);
expect(Focus.of(key1.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
expect(Focus.of(key2.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
expect(Focus.of(key3.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
// Skips key 1 because it skips traversal.
expect(Focus.of(key2.currentContext!).hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
expect(Focus.of(key3.currentContext!).hasPrimaryFocus, isTrue);
}, skip: isBrowser, variant: KeySimulatorTransitModeVariant.all()); // https://github.com/flutter/flutter/issues/35347
testWidgets('Focus traversal inside a vertical scrollable scrolls to stay visible.', (WidgetTester tester) async {
final List<int> items = List<int>.generate(11, (int index) => index).toList();
final List<FocusNode> nodes = List<FocusNode>.generate(11, (int index) => FocusNode(debugLabel: 'Item ${index + 1}')).toList();
final FocusNode topNode = FocusNode(debugLabel: 'Header');
final FocusNode bottomNode = FocusNode(debugLabel: 'Footer');
final ScrollController controller = ScrollController();
await tester.pumpWidget(
MaterialApp(
home: Column(
children: <Widget>[
Focus(focusNode: topNode, child: Container(height: 100)),
Expanded(
child: ListView(
controller: controller,
children: items.map<Widget>((int item) {
return Focus(
focusNode: nodes[item],
child: Container(height: 100),
);
}).toList(),
),
),
Focus(focusNode: bottomNode, child: Container(height: 100)),
],
),
),
);
// Start at the top
expect(controller.offset, equals(0.0));
await tester.sendKeyEvent(LogicalKeyboardKey.arrowDown);
await tester.pump();
expect(topNode.hasPrimaryFocus, isTrue);
expect(controller.offset, equals(0.0));
// Enter the list.
await tester.sendKeyEvent(LogicalKeyboardKey.arrowDown);
await tester.pump();
expect(nodes[0].hasPrimaryFocus, isTrue);
expect(controller.offset, equals(0.0));
// Go down until we hit the bottom of the visible area.
for (int i = 1; i <= 4; ++i) {
await tester.sendKeyEvent(LogicalKeyboardKey.arrowDown);
await tester.pump();
expect(controller.offset, equals(0.0), reason: 'Focusing item $i caused a scroll');
}
// Now keep going down, and the scrollable should scroll automatically.
for (int i = 5; i <= 10; ++i) {
await tester.sendKeyEvent(LogicalKeyboardKey.arrowDown);
await tester.pump();
final double expectedOffset = 100.0 * (i - 5) + 200.0;
expect(controller.offset, equals(expectedOffset), reason: "Focusing item $i didn't cause a scroll to $expectedOffset");
}
// Now go one more, and see that the footer gets focused.
await tester.sendKeyEvent(LogicalKeyboardKey.arrowDown);
await tester.pump();
expect(bottomNode.hasPrimaryFocus, isTrue);
expect(controller.offset, equals(100.0 * (10 - 5) + 200.0));
await tester.sendKeyEvent(LogicalKeyboardKey.arrowUp);
await tester.pump();
expect(nodes[10].hasPrimaryFocus, isTrue);
expect(controller.offset, equals(100.0 * (10 - 5) + 200.0));
// Now reverse directions and go back to the top.
// These should not cause a scroll.
final double lowestOffset = controller.offset;
for (int i = 10; i >= 8; --i) {
await tester.sendKeyEvent(LogicalKeyboardKey.arrowUp);
await tester.pump();
expect(controller.offset, equals(lowestOffset), reason: 'Focusing item $i caused a scroll');
}
// These should all cause a scroll.
for (int i = 7; i >= 1; --i) {
await tester.sendKeyEvent(LogicalKeyboardKey.arrowUp);
await tester.pump();
final double expectedOffset = 100.0 * (i - 1);
expect(controller.offset, equals(expectedOffset), reason: "Focusing item $i didn't cause a scroll");
}
// Back at the top.
expect(nodes[0].hasPrimaryFocus, isTrue);
expect(controller.offset, equals(0.0));
// Now we jump to the header.
await tester.sendKeyEvent(LogicalKeyboardKey.arrowUp);
await tester.pump();
expect(topNode.hasPrimaryFocus, isTrue);
expect(controller.offset, equals(0.0));
}, skip: isBrowser, variant: KeySimulatorTransitModeVariant.all()); // https://github.com/flutter/flutter/issues/35347
testWidgets('Focus traversal inside a horizontal scrollable scrolls to stay visible.', (WidgetTester tester) async {
final List<int> items = List<int>.generate(11, (int index) => index).toList();
final List<FocusNode> nodes = List<FocusNode>.generate(11, (int index) => FocusNode(debugLabel: 'Item ${index + 1}')).toList();
final FocusNode leftNode = FocusNode(debugLabel: 'Left Side');
final FocusNode rightNode = FocusNode(debugLabel: 'Right Side');
final ScrollController controller = ScrollController();
await tester.pumpWidget(
MaterialApp(
home: Row(
children: <Widget>[
Focus(focusNode: leftNode, child: Container(width: 100)),
Expanded(
child: ListView(
scrollDirection: Axis.horizontal,
controller: controller,
children: items.map<Widget>((int item) {
return Focus(
focusNode: nodes[item],
child: Container(width: 100),
);
}).toList(),
),
),
Focus(focusNode: rightNode, child: Container(width: 100)),
],
),
),
);
// Start at the right
expect(controller.offset, equals(0.0));
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
await tester.pump();
expect(leftNode.hasPrimaryFocus, isTrue);
expect(controller.offset, equals(0.0));
// Enter the list.
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
await tester.pump();
expect(nodes[0].hasPrimaryFocus, isTrue);
expect(controller.offset, equals(0.0));
// Go right until we hit the right of the visible area.
for (int i = 1; i <= 6; ++i) {
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
await tester.pump();
expect(controller.offset, equals(0.0), reason: 'Focusing item $i caused a scroll');
}
// Now keep going right, and the scrollable should scroll automatically.
for (int i = 7; i <= 10; ++i) {
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
await tester.pump();
final double expectedOffset = 100.0 * (i - 5);
expect(controller.offset, equals(expectedOffset), reason: "Focusing item $i didn't cause a scroll to $expectedOffset");
}
// Now go one more, and see that the right edge gets focused.
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
await tester.pump();
expect(rightNode.hasPrimaryFocus, isTrue);
expect(controller.offset, equals(100.0 * 5));
await tester.sendKeyEvent(LogicalKeyboardKey.arrowLeft);
await tester.pump();
expect(nodes[10].hasPrimaryFocus, isTrue);
expect(controller.offset, equals(100.0 * 5));
// Now reverse directions and go back to the left.
// These should not cause a scroll.
final double lowestOffset = controller.offset;
for (int i = 10; i >= 7; --i) {
await tester.sendKeyEvent(LogicalKeyboardKey.arrowLeft);
await tester.pump();
expect(controller.offset, equals(lowestOffset), reason: 'Focusing item $i caused a scroll');
}
// These should all cause a scroll.
for (int i = 6; i >= 1; --i) {
await tester.sendKeyEvent(LogicalKeyboardKey.arrowLeft);
await tester.pump();
final double expectedOffset = 100.0 * (i - 1);
expect(controller.offset, equals(expectedOffset), reason: "Focusing item $i didn't cause a scroll");
}
// Back at the left side of the scrollable.
expect(nodes[0].hasPrimaryFocus, isTrue);
expect(controller.offset, equals(0.0));
// Now we jump to the left edge of the app.
await tester.sendKeyEvent(LogicalKeyboardKey.arrowLeft);
await tester.pump();
expect(leftNode.hasPrimaryFocus, isTrue);
expect(controller.offset, equals(0.0));
}, skip: isBrowser, variant: KeySimulatorTransitModeVariant.all()); // https://github.com/flutter/flutter/issues/35347
testWidgets('Arrow focus traversal actions can be re-enabled for text fields.', (WidgetTester tester) async {
final GlobalKey upperLeftKey = GlobalKey(debugLabel: 'upperLeftKey');
final GlobalKey upperRightKey = GlobalKey(debugLabel: 'upperRightKey');
final GlobalKey lowerLeftKey = GlobalKey(debugLabel: 'lowerLeftKey');
final GlobalKey lowerRightKey = GlobalKey(debugLabel: 'lowerRightKey');
final TextEditingController controller1 = TextEditingController();
final TextEditingController controller2 = TextEditingController();
final TextEditingController controller3 = TextEditingController();
final TextEditingController controller4 = TextEditingController();
final FocusNode focusNodeUpperLeft = FocusNode(debugLabel: 'upperLeft');
final FocusNode focusNodeUpperRight = FocusNode(debugLabel: 'upperRight');
final FocusNode focusNodeLowerLeft = FocusNode(debugLabel: 'lowerLeft');
final FocusNode focusNodeLowerRight = FocusNode(debugLabel: 'lowerRight');
Widget generateTestWidgets(bool ignoreTextFields) {
final Map<ShortcutActivator, Intent> shortcuts = <ShortcutActivator, Intent>{
const SingleActivator(LogicalKeyboardKey.arrowLeft): DirectionalFocusIntent(TraversalDirection.left, ignoreTextFields: ignoreTextFields),
const SingleActivator(LogicalKeyboardKey.arrowRight): DirectionalFocusIntent(TraversalDirection.right, ignoreTextFields: ignoreTextFields),
const SingleActivator(LogicalKeyboardKey.arrowDown): DirectionalFocusIntent(TraversalDirection.down, ignoreTextFields: ignoreTextFields),
const SingleActivator(LogicalKeyboardKey.arrowUp): DirectionalFocusIntent(TraversalDirection.up, ignoreTextFields: ignoreTextFields),
};
return MaterialApp(
home: Shortcuts(
shortcuts: shortcuts,
child: FocusScope(
debugLabel: 'scope',
child: Column(
children: <Widget>[
Row(
children: <Widget>[
SizedBox(
width: 100,
height: 100,
child: EditableText(
autofocus: true,
key: upperLeftKey,
controller: controller1,
focusNode: focusNodeUpperLeft,
cursorColor: const Color(0xffffffff),
backgroundCursorColor: const Color(0xff808080),
style: const TextStyle(),
),
),
SizedBox(
width: 100,
height: 100,
child: EditableText(
key: upperRightKey,
controller: controller2,
focusNode: focusNodeUpperRight,
cursorColor: const Color(0xffffffff),
backgroundCursorColor: const Color(0xff808080),
style: const TextStyle(),
),
),
],
),
Row(
children: <Widget>[
SizedBox(
width: 100,
height: 100,
child: EditableText(
key: lowerLeftKey,
controller: controller3,
focusNode: focusNodeLowerLeft,
cursorColor: const Color(0xffffffff),
backgroundCursorColor: const Color(0xff808080),
style: const TextStyle(),
),
),
SizedBox(
width: 100,
height: 100,
child: EditableText(
key: lowerRightKey,
controller: controller4,
focusNode: focusNodeLowerRight,
cursorColor: const Color(0xffffffff),
backgroundCursorColor: const Color(0xff808080),
style: const TextStyle(),
),
),
],
),
],
),
),
),
);
}
await tester.pumpWidget(generateTestWidgets(false));
expect(focusNodeUpperLeft.hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
expect(focusNodeUpperRight.hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowDown);
expect(focusNodeLowerRight.hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowLeft);
expect(focusNodeLowerLeft.hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowUp);
expect(focusNodeUpperLeft.hasPrimaryFocus, isTrue);
await tester.pumpWidget(generateTestWidgets(true));
expect(focusNodeUpperLeft.hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
expect(focusNodeUpperRight.hasPrimaryFocus, isFalse);
expect(focusNodeUpperLeft.hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowDown);
expect(focusNodeLowerRight.hasPrimaryFocus, isFalse);
expect(focusNodeUpperLeft.hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowLeft);
expect(focusNodeLowerLeft.hasPrimaryFocus, isFalse);
expect(focusNodeUpperLeft.hasPrimaryFocus, isTrue);
await tester.sendKeyEvent(LogicalKeyboardKey.arrowUp);
expect(focusNodeUpperLeft.hasPrimaryFocus, isTrue);
}, variant: KeySimulatorTransitModeVariant.all());
testWidgets('Focus traversal does not break when no focusable is available on a MaterialApp', (WidgetTester tester) async {
final List<Object> events = <Object>[];
await tester.pumpWidget(MaterialApp(home: Container()));
RawKeyboard.instance.addListener((RawKeyEvent event) {
events.add(event);
});
await tester.idle();
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
await tester.idle();
expect(events.length, 2);
}, variant: KeySimulatorTransitModeVariant.all());
testWidgets('Focus traversal does not throw when no focusable is available in a group', (WidgetTester tester) async {
await tester.pumpWidget(const MaterialApp(home: Scaffold(body: ListTile(title: Text('title')))));
final FocusNode? initialFocus = primaryFocus;
await tester.sendKeyEvent(LogicalKeyboardKey.tab);
await tester.pump();
expect(primaryFocus, equals(initialFocus));
});
testWidgets('Focus traversal does not break when no focusable is available on a WidgetsApp', (WidgetTester tester) async {
final List<RawKeyEvent> events = <RawKeyEvent>[];
await tester.pumpWidget(
WidgetsApp(
color: Colors.white,
onGenerateRoute: (RouteSettings settings) => PageRouteBuilder<void>(
settings: settings,
pageBuilder: (BuildContext context, Animation<double> animation1, Animation<double> animation2) {
return const Placeholder();
},
),
),
);
RawKeyboard.instance.addListener((RawKeyEvent event) {
events.add(event);
});
await tester.idle();
await tester.sendKeyEvent(LogicalKeyboardKey.arrowRight);
await tester.idle();
expect(events.length, 2);
}, variant: KeySimulatorTransitModeVariant.all());
testWidgets('Custom requestFocusCallback gets called on focusInDirection up/down/left/right.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final FocusNode testNode1 = FocusNode(debugLabel: 'Focus Node');
bool calledCallback = false;
await tester.pumpWidget(
FocusTraversalGroup(
policy: ReadingOrderTraversalPolicy(
requestFocusCallback: (FocusNode node, {double? alignment,
ScrollPositionAlignmentPolicy? alignmentPolicy,
Curve? curve,
Duration? duration}) {
calledCallback = true;
},
),
child: FocusScope(
debugLabel: 'key1',
child: Focus(
key: key1,
focusNode: testNode1,
child: Container(),
),
),
),
);
final Element element = tester.element(find.byKey(key1));
final FocusNode scope = FocusScope.of(element);
scope.focusInDirection(TraversalDirection.up);
await tester.pump();
expect(calledCallback, isTrue);
calledCallback = false;
scope.focusInDirection(TraversalDirection.down);
await tester.pump();
expect(calledCallback, isTrue);
calledCallback = false;
scope.focusInDirection(TraversalDirection.left);
await tester.pump();
expect(calledCallback, isTrue);
scope.focusInDirection(TraversalDirection.right);
await tester.pump();
expect(calledCallback, isTrue);
});
});
group(FocusTraversalGroup, () {
testWidgets("Focus traversal group doesn't introduce a Semantics node", (WidgetTester tester) async {
final SemanticsTester semantics = SemanticsTester(tester);
await tester.pumpWidget(FocusTraversalGroup(child: Container()));
final TestSemantics expectedSemantics = TestSemantics.root();
expect(semantics, hasSemantics(expectedSemantics));
semantics.dispose();
});
testWidgets("Descendants of FocusTraversalGroup aren't focusable if descendantsAreFocusable is false.", (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final FocusNode focusNode = FocusNode();
bool? gotFocus;
await tester.pumpWidget(
FocusTraversalGroup(
descendantsAreFocusable: false,
child: Focus(
onFocusChange: (bool focused) => gotFocus = focused,
child: Focus(
key: key1,
focusNode: focusNode,
child: Container(key: key2),
),
),
),
);
final Element childWidget = tester.element(find.byKey(key1));
final FocusNode unfocusableNode = Focus.of(childWidget);
final Element containerWidget = tester.element(find.byKey(key2));
final FocusNode containerNode = Focus.of(containerWidget);
unfocusableNode.requestFocus();
await tester.pump();
expect(gotFocus, isNull);
expect(containerNode.hasFocus, isFalse);
expect(unfocusableNode.hasFocus, isFalse);
containerNode.requestFocus();
await tester.pump();
expect(gotFocus, isNull);
expect(containerNode.hasFocus, isFalse);
expect(unfocusableNode.hasFocus, isFalse);
});
testWidgets('Group applies correct policy if focus tree is different from widget tree.', (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final GlobalKey key3 = GlobalKey(debugLabel: '3');
final GlobalKey key4 = GlobalKey(debugLabel: '4');
final FocusNode focusNode = FocusNode(debugLabel: 'child');
final FocusNode parentFocusNode = FocusNode(debugLabel: 'parent');
await tester.pumpWidget(
Column(
children: <Widget>[
FocusTraversalGroup(
policy: WidgetOrderTraversalPolicy(),
child: Focus(
child: Focus.withExternalFocusNode(
key: key1,
// This makes focusNode be a child of parentFocusNode instead
// of the surrounding Focus.
parentNode: parentFocusNode,
focusNode: focusNode,
child: Container(key: key2),
),
),
),
FocusTraversalGroup(
policy: SkipAllButFirstAndLastPolicy(),
child: FocusScope(
child: Focus.withExternalFocusNode(
key: key3,
focusNode: parentFocusNode,
child: Container(key: key4),
),
),
),
],
),
);
expect(focusNode.parent, equals(parentFocusNode));
expect(FocusTraversalGroup.maybeOf(key2.currentContext!), const TypeMatcher<SkipAllButFirstAndLastPolicy>());
expect(FocusTraversalGroup.of(key2.currentContext!), const TypeMatcher<SkipAllButFirstAndLastPolicy>());
});
testWidgets("Descendants of FocusTraversalGroup aren't traversable if descendantsAreTraversable is false.", (WidgetTester tester) async {
final FocusNode node1 = FocusNode();
final FocusNode node2 = FocusNode();
await tester.pumpWidget(
FocusTraversalGroup(
descendantsAreTraversable: false,
child: Column(
children: <Widget>[
Focus(
focusNode: node1,
child: Container(),
),
Focus(
focusNode: node2,
child: Container(),
),
],
),
),
);
node1.requestFocus();
await tester.pump();
expect(node1.hasPrimaryFocus, isTrue);
expect(node2.hasPrimaryFocus, isFalse);
expect(primaryFocus!.nextFocus(), isFalse);
await tester.pump();
expect(node1.hasPrimaryFocus, isTrue);
expect(node2.hasPrimaryFocus, isFalse);
});
testWidgets("FocusTraversalGroup with skipTraversal for all descendants set to true doesn't cause an exception.", (WidgetTester tester) async {
final FocusNode node1 = FocusNode();
final FocusNode node2 = FocusNode();
await tester.pumpWidget(
FocusTraversalGroup(
child: Column(
children: <Widget>[
Focus(
skipTraversal: true,
focusNode: node1,
child: Container(),
),
Focus(
skipTraversal: true,
focusNode: node2,
child: Container(),
),
],
),
),
);
node1.requestFocus();
await tester.pump();
expect(node1.hasPrimaryFocus, isTrue);
expect(node2.hasPrimaryFocus, isFalse);
expect(primaryFocus!.nextFocus(), isFalse);
await tester.pump();
expect(node1.hasPrimaryFocus, isTrue);
expect(node2.hasPrimaryFocus, isFalse);
});
testWidgets("Nested FocusTraversalGroup with unfocusable children doesn't assert.", (WidgetTester tester) async {
final GlobalKey key1 = GlobalKey(debugLabel: '1');
final GlobalKey key2 = GlobalKey(debugLabel: '2');
final FocusNode focusNode = FocusNode();
bool? gotFocus;
await tester.pumpWidget(
FocusTraversalGroup(
child: Column(
children: <Widget>[
Focus(
autofocus: true,
child: Container(),
),
FocusTraversalGroup(
descendantsAreFocusable: false,
child: Focus(
onFocusChange: (bool focused) => gotFocus = focused,
child: Focus(
key: key1,
focusNode: focusNode,
child: Container(key: key2),
),
),
),
],
),
),
);
final Element childWidget = tester.element(find.byKey(key1));
final FocusNode unfocusableNode = Focus.of(childWidget);
final Element containerWidget = tester.element(find.byKey(key2));
final FocusNode containerNode = Focus.of(containerWidget);
await tester.pump();
primaryFocus!.nextFocus();
expect(gotFocus, isNull);
expect(containerNode.hasFocus, isFalse);
expect(unfocusableNode.hasFocus, isFalse);
containerNode.requestFocus();
await tester.pump();
expect(gotFocus, isNull);
expect(containerNode.hasFocus, isFalse);
expect(unfocusableNode.hasFocus, isFalse);
});
testWidgets("Empty FocusTraversalGroup doesn't cause an exception.", (WidgetTester tester) async {
final GlobalKey key = GlobalKey(debugLabel: 'Test Key');
final FocusNode focusNode = FocusNode(debugLabel: 'Test Node');
await tester.pumpWidget(
FocusTraversalGroup(
child: Directionality(
textDirection: TextDirection.rtl,
child: Column(
children: <Widget>[
FocusTraversalGroup(
child: Container(key: key),
),
Focus(
focusNode: focusNode,
autofocus: true,
child: Container(),
),
],
),
),
),
);
await tester.pump();
primaryFocus!.nextFocus();
await tester.pump();
expect(primaryFocus, equals(focusNode));
});
});
group(RawKeyboardListener, () {
testWidgets('Raw keyboard listener introduces a Semantics node by default', (WidgetTester tester) async {
final SemanticsTester semantics = SemanticsTester(tester);
final FocusNode focusNode = FocusNode();
await tester.pumpWidget(
RawKeyboardListener(
focusNode: focusNode,
child: Container(),
),
);
final TestSemantics expectedSemantics = TestSemantics.root(
children: <TestSemantics>[
TestSemantics.rootChild(
flags: <SemanticsFlag>[
SemanticsFlag.isFocusable,
],
),
],