packages/flutter/test/material/input_chip_test.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 'package:flutter/material.dart';
 import 'package:flutter_test/flutter_test.dart';

 import '../foundation/leak_tracking.dart';

 /// Adds the basic requirements for a Chip.
 Widget wrapForChip({
   required Widget child,
   TextDirection textDirection = TextDirection.ltr,
   double textScaleFactor = 1.0,
   Brightness brightness = Brightness.light,
   bool? useMaterial3,
 }) {
   return MaterialApp(
     theme: ThemeData(brightness: brightness, useMaterial3: useMaterial3),
     home: Directionality(
       textDirection: textDirection,
       child: MediaQuery(
         data: MediaQueryData(textScaleFactor: textScaleFactor),
         child: Material(child: child),
       ),
     ),
   );
 }

 Widget selectedInputChip({
   Color? checkmarkColor,
   bool enabled = false,
 }) {
   return InputChip(
     label: const Text('InputChip'),
     selected: true,
     isEnabled: enabled,
     showCheckmark: true,
     checkmarkColor: checkmarkColor,
   );
 }


 Future<void> pumpCheckmarkChip(
   WidgetTester tester, {
   required Widget chip,
   Color? themeColor,
   Brightness brightness = Brightness.light,
   bool useMaterial3 = false,
 }) async {
   await tester.pumpWidget(
     wrapForChip(
       useMaterial3: useMaterial3,
       brightness: brightness,
       child: Builder(
         builder: (BuildContext context) {
           final ChipThemeData chipTheme = ChipTheme.of(context);
           return ChipTheme(
             data: themeColor == null ? chipTheme : chipTheme.copyWith(
               checkmarkColor: themeColor,
             ),
             child: chip,
           );
         },
       ),
     ),
   );
 }

 void expectCheckmarkColor(Finder finder, Color color) {
   expect(
     finder,
     paints
       // Physical model layer path
       ..path()
       // The first layer that is painted is the selection overlay. We do not care
       // how it is painted but it has to be added it to this pattern so that the
       // check mark can be checked next.
       ..rrect()
       // The second layer that is painted is the check mark.
       ..path(color: color),
   );
 }

 RenderBox getMaterialBox(WidgetTester tester) {
   return tester.firstRenderObject<RenderBox>(
     find.descendant(
       of: find.byType(InputChip),
       matching: find.byType(CustomPaint),
     ),
   );
 }

 void checkChipMaterialClipBehavior(WidgetTester tester, Clip clipBehavior) {
   final Iterable<Material> materials = tester.widgetList<Material>(find.byType(Material));
   // There should be two Material widgets, first Material is from the "_wrapForChip" and
   // last Material is from the "RawChip".
   expect(materials.length, 2);
   // The last Material from `RawChip` should have the clip behavior.
   expect(materials.last.clipBehavior, clipBehavior);
 }

 void main() {
   testWidgetsWithLeakTracking('InputChip.color resolves material states', (WidgetTester tester) async {
     const Color disabledSelectedColor = Color(0xffffff00);
     const Color disabledColor = Color(0xff00ff00);
     const Color backgroundColor = Color(0xff0000ff);
     const Color selectedColor = Color(0xffff0000);
     Widget buildApp({ required bool enabled, required bool selected }) {
       return wrapForChip(
         useMaterial3: true,
         child: InputChip(
           onSelected: enabled ? (bool value) { } : null,
           selected: selected,
           color: MaterialStateProperty.resolveWith((Set<MaterialState> states) {
             if (states.contains(MaterialState.disabled) && states.contains(MaterialState.selected)) {
               return disabledSelectedColor;
             }
             if (states.contains(MaterialState.disabled)) {
               return disabledColor;
             }
             if (states.contains(MaterialState.selected)) {
               return selectedColor;
             }
             return backgroundColor;
           }),
           label: const Text('InputChip'),
         ),
       );
     }

     // Test enabled chip.
     await tester.pumpWidget(buildApp(enabled: true, selected: false));

     // Enabled chip should have the provided backgroundColor.
     expect(getMaterialBox(tester), paints..rrect(color: backgroundColor));

     // Test disabled chip.
     await tester.pumpWidget(buildApp(enabled: false, selected: false));
     await tester.pumpAndSettle();

     // Disabled chip should have the provided disabledColor.
     expect(getMaterialBox(tester), paints..rrect(color: disabledColor));

     // Test enabled & selected chip.
     await tester.pumpWidget(buildApp(enabled: true, selected: true));
     await tester.pumpAndSettle();

     // Enabled & selected chip should have the provided selectedColor.
     expect(getMaterialBox(tester), paints..rrect(color: selectedColor));

       // Test disabled & selected chip.
     await tester.pumpWidget(buildApp(enabled: false, selected: true));
     await tester.pumpAndSettle();

     // Disabled & selected chip should have the provided disabledSelectedColor.
     expect(getMaterialBox(tester), paints..rrect(color: disabledSelectedColor));
   });

   testWidgetsWithLeakTracking('InputChip uses provided state color properties', (WidgetTester tester) async {
     const Color disabledColor = Color(0xff00ff00);
     const Color backgroundColor = Color(0xff0000ff);
     const Color selectedColor = Color(0xffff0000);
     Widget buildApp({ required bool enabled, required bool selected }) {
       return wrapForChip(
         useMaterial3: true,
         child: InputChip(
           onSelected: enabled ? (bool value) { } : null,
           selected: selected,
           disabledColor: disabledColor,
           backgroundColor: backgroundColor,
           selectedColor: selectedColor,
           label: const Text('InputChip'),
         ),
       );
     }

     // Test enabled chip.
     await tester.pumpWidget(buildApp(enabled: true, selected: false));

     // Enabled chip should have the provided backgroundColor.
     expect(getMaterialBox(tester), paints..rrect(color: backgroundColor));

     // Test disabled chip.
     await tester.pumpWidget(buildApp(enabled: false, selected: false));
     await tester.pumpAndSettle();

     // Disabled chip should have the provided disabledColor.
     expect(getMaterialBox(tester), paints..rrect(color: disabledColor));

     // Test enabled & selected chip.
     await tester.pumpWidget(buildApp(enabled: true, selected: true));
     await tester.pumpAndSettle();

     // Enabled & selected chip should have the provided selectedColor.
     expect(getMaterialBox(tester), paints..rrect(color: selectedColor));
   });

   testWidgetsWithLeakTracking('InputChip can be tapped', (WidgetTester tester) async {
     await tester.pumpWidget(
       const MaterialApp(
         home: Material(
           child: InputChip(
             label: Text('input chip'),
           ),
         ),
       ),
     );

     await tester.tap(find.byType(InputChip));
     expect(tester.takeException(), null);
   });

   testWidgetsWithLeakTracking('loses focus when disabled', (WidgetTester tester) async {
     final FocusNode focusNode = FocusNode(debugLabel: 'InputChip');
     await tester.pumpWidget(
       wrapForChip(
         child: InputChip(
           focusNode: focusNode,
           autofocus: true,
           shape: const RoundedRectangleBorder(),
           avatar: const CircleAvatar(child: Text('A')),
           label: const Text('Chip A'),
           onPressed: () { },
         ),
       ),
     );
     await tester.pump();
     expect(focusNode.hasPrimaryFocus, isTrue);

     await tester.pumpWidget(
       wrapForChip(
         child: InputChip(
           focusNode: focusNode,
           autofocus: true,
           shape: const RoundedRectangleBorder(),
           avatar: const CircleAvatar(child: Text('A')),
           label: const Text('Chip A'),
         ),
       ),
     );
     await tester.pump();
     expect(focusNode.hasPrimaryFocus, isFalse);
   });

   testWidgetsWithLeakTracking('cannot be traversed to when disabled', (WidgetTester tester) async {
     final FocusNode focusNode1 = FocusNode(debugLabel: 'InputChip 1');
     final FocusNode focusNode2 = FocusNode(debugLabel: 'InputChip 2');
     await tester.pumpWidget(
       wrapForChip(
         child: FocusScope(
           child: Column(
             children: <Widget>[
               InputChip(
                 focusNode: focusNode1,
                 autofocus: true,
                 label: const Text('Chip A'),
                 onPressed: () { },
               ),
               InputChip(
                 focusNode: focusNode2,
                 autofocus: true,
                 label: const Text('Chip B'),
               ),
             ],
           ),
         ),
       ),
     );
     await tester.pump();
     expect(focusNode1.hasPrimaryFocus, isTrue);
     expect(focusNode2.hasPrimaryFocus, isFalse);

     expect(focusNode1.nextFocus(), isFalse);

     await tester.pump();
     expect(focusNode1.hasPrimaryFocus, isTrue);
     expect(focusNode2.hasPrimaryFocus, isFalse);
   });

   testWidgetsWithLeakTracking('Input chip check mark color is determined by platform brightness when light', (WidgetTester tester) async {
     await pumpCheckmarkChip(
       tester,
       chip: selectedInputChip(),
     );

     expectCheckmarkColor(
       find.byType(InputChip),
       Colors.black.withAlpha(0xde),
     );
   });

   testWidgetsWithLeakTracking('Input chip check mark color is determined by platform brightness when dark', (WidgetTester tester) async {
     await pumpCheckmarkChip(
       tester,
       chip: selectedInputChip(),
       brightness: Brightness.dark,
     );

     expectCheckmarkColor(
       find.byType(InputChip),
       Colors.white.withAlpha(0xde),
     );
   });

   testWidgetsWithLeakTracking('Input chip check mark color can be set by the chip theme', (WidgetTester tester) async {
     await pumpCheckmarkChip(
       tester,
       chip: selectedInputChip(),
       themeColor: const Color(0xff00ff00),
     );

     expectCheckmarkColor(
       find.byType(InputChip),
       const Color(0xff00ff00),
     );
   });

   testWidgetsWithLeakTracking('Input chip check mark color can be set by the chip constructor', (WidgetTester tester) async {
     await pumpCheckmarkChip(
       tester,
       chip: selectedInputChip(checkmarkColor: const Color(0xff00ff00)),
     );

     expectCheckmarkColor(
       find.byType(InputChip),
       const Color(0xff00ff00),
     );
   });

   testWidgetsWithLeakTracking('Input chip check mark color is set by chip constructor even when a theme color is specified', (WidgetTester tester) async {
     await pumpCheckmarkChip(
       tester,
       chip: selectedInputChip(checkmarkColor: const Color(0xffff0000)),
       themeColor: const Color(0xff00ff00),
     );

     expectCheckmarkColor(
       find.byType(InputChip),
       const Color(0xffff0000),
     );
   });

   testWidgetsWithLeakTracking('InputChip clipBehavior properly passes through to the Material', (WidgetTester tester) async {
     const Text label = Text('label');
     await tester.pumpWidget(wrapForChip(child: const InputChip(label: label)));
     checkChipMaterialClipBehavior(tester, Clip.none);

     await tester.pumpWidget(wrapForChip(child: const InputChip(label: label, clipBehavior: Clip.antiAlias)));
     checkChipMaterialClipBehavior(tester, Clip.antiAlias);
   });

   testWidgetsWithLeakTracking('Input chip has correct selected color when enabled - M3 defaults', (WidgetTester tester) async {
     final ChipThemeData material3ChipDefaults = ThemeData(useMaterial3: true).chipTheme;
     await pumpCheckmarkChip(
       tester,
       chip: selectedInputChip(enabled: true),
       useMaterial3: true,
     );

     final RenderBox materialBox = getMaterialBox(tester);
     expect(materialBox, paints..rrect(color: material3ChipDefaults.backgroundColor));
   });

   testWidgetsWithLeakTracking('Input chip has correct selected color when disabled - M3 defaults', (WidgetTester tester) async {
     final ChipThemeData material3ChipDefaults = ThemeData(useMaterial3: true).chipTheme;
     await pumpCheckmarkChip(
       tester,
       chip: selectedInputChip(),
       useMaterial3: true,
     );

     final RenderBox materialBox = getMaterialBox(tester);
     expect(materialBox, paints..path(color: material3ChipDefaults.disabledColor));
   });
 }
	// 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 'package:flutter/material.dart';
	import 'package:flutter_test/flutter_test.dart';

	import '../foundation/leak_tracking.dart';

	/// Adds the basic requirements for a Chip.
	Widget wrapForChip({
	required Widget child,
	TextDirection textDirection = TextDirection.ltr,
	double textScaleFactor = 1.0,
	Brightness brightness = Brightness.light,
	bool? useMaterial3,
	}) {
	return MaterialApp(
	theme: ThemeData(brightness: brightness, useMaterial3: useMaterial3),
	home: Directionality(
	textDirection: textDirection,
	child: MediaQuery(
	data: MediaQueryData(textScaleFactor: textScaleFactor),
	child: Material(child: child),
	),
	),
	);
	}

	Widget selectedInputChip({
	Color? checkmarkColor,
	bool enabled = false,
	}) {
	return InputChip(
	label: const Text('InputChip'),
	selected: true,
	isEnabled: enabled,
	showCheckmark: true,
	checkmarkColor: checkmarkColor,
	);
	}


	Future<void> pumpCheckmarkChip(
	WidgetTester tester, {
	required Widget chip,
	Color? themeColor,
	Brightness brightness = Brightness.light,
	bool useMaterial3 = false,
	}) async {
	await tester.pumpWidget(
	wrapForChip(
	useMaterial3: useMaterial3,
	brightness: brightness,
	child: Builder(
	builder: (BuildContext context) {
	final ChipThemeData chipTheme = ChipTheme.of(context);
	return ChipTheme(
	data: themeColor == null ? chipTheme : chipTheme.copyWith(
	checkmarkColor: themeColor,
	),
	child: chip,
	);
	},
	),
	),
	);
	}

	void expectCheckmarkColor(Finder finder, Color color) {
	expect(
	finder,
	paints
	// Physical model layer path
	..path()
	// The first layer that is painted is the selection overlay. We do not care
	// how it is painted but it has to be added it to this pattern so that the
	// check mark can be checked next.
	..rrect()
	// The second layer that is painted is the check mark.
	..path(color: color),
	);
	}

	RenderBox getMaterialBox(WidgetTester tester) {
	return tester.firstRenderObject<RenderBox>(
	find.descendant(
	of: find.byType(InputChip),
	matching: find.byType(CustomPaint),
	),
	);
	}

	void checkChipMaterialClipBehavior(WidgetTester tester, Clip clipBehavior) {
	final Iterable<Material> materials = tester.widgetList<Material>(find.byType(Material));
	// There should be two Material widgets, first Material is from the "_wrapForChip" and
	// last Material is from the "RawChip".
	expect(materials.length, 2);
	// The last Material from `RawChip` should have the clip behavior.
	expect(materials.last.clipBehavior, clipBehavior);
	}

	void main() {
	testWidgetsWithLeakTracking('InputChip.color resolves material states', (WidgetTester tester) async {
	const Color disabledSelectedColor = Color(0xffffff00);
	const Color disabledColor = Color(0xff00ff00);
	const Color backgroundColor = Color(0xff0000ff);
	const Color selectedColor = Color(0xffff0000);
	Widget buildApp({ required bool enabled, required bool selected }) {
	return wrapForChip(
	useMaterial3: true,
	child: InputChip(
	onSelected: enabled ? (bool value) { } : null,
	selected: selected,
	color: MaterialStateProperty.resolveWith((Set<MaterialState> states) {
	if (states.contains(MaterialState.disabled) && states.contains(MaterialState.selected)) {
	return disabledSelectedColor;
	}
	if (states.contains(MaterialState.disabled)) {
	return disabledColor;
	}
	if (states.contains(MaterialState.selected)) {
	return selectedColor;
	}
	return backgroundColor;
	}),
	label: const Text('InputChip'),
	),
	);
	}

	// Test enabled chip.
	await tester.pumpWidget(buildApp(enabled: true, selected: false));

	// Enabled chip should have the provided backgroundColor.
	expect(getMaterialBox(tester), paints..rrect(color: backgroundColor));

	// Test disabled chip.
	await tester.pumpWidget(buildApp(enabled: false, selected: false));
	await tester.pumpAndSettle();

	// Disabled chip should have the provided disabledColor.
	expect(getMaterialBox(tester), paints..rrect(color: disabledColor));

	// Test enabled & selected chip.
	await tester.pumpWidget(buildApp(enabled: true, selected: true));
	await tester.pumpAndSettle();

	// Enabled & selected chip should have the provided selectedColor.
	expect(getMaterialBox(tester), paints..rrect(color: selectedColor));

	// Test disabled & selected chip.
	await tester.pumpWidget(buildApp(enabled: false, selected: true));
	await tester.pumpAndSettle();

	// Disabled & selected chip should have the provided disabledSelectedColor.
	expect(getMaterialBox(tester), paints..rrect(color: disabledSelectedColor));
	});

	testWidgetsWithLeakTracking('InputChip uses provided state color properties', (WidgetTester tester) async {
	const Color disabledColor = Color(0xff00ff00);
	const Color backgroundColor = Color(0xff0000ff);
	const Color selectedColor = Color(0xffff0000);
	Widget buildApp({ required bool enabled, required bool selected }) {
	return wrapForChip(
	useMaterial3: true,
	child: InputChip(
	onSelected: enabled ? (bool value) { } : null,
	selected: selected,
	disabledColor: disabledColor,
	backgroundColor: backgroundColor,
	selectedColor: selectedColor,
	label: const Text('InputChip'),
	),
	);
	}

	// Test enabled chip.
	await tester.pumpWidget(buildApp(enabled: true, selected: false));

	// Enabled chip should have the provided backgroundColor.
	expect(getMaterialBox(tester), paints..rrect(color: backgroundColor));

	// Test disabled chip.
	await tester.pumpWidget(buildApp(enabled: false, selected: false));
	await tester.pumpAndSettle();

	// Disabled chip should have the provided disabledColor.
	expect(getMaterialBox(tester), paints..rrect(color: disabledColor));

	// Test enabled & selected chip.
	await tester.pumpWidget(buildApp(enabled: true, selected: true));
	await tester.pumpAndSettle();

	// Enabled & selected chip should have the provided selectedColor.
	expect(getMaterialBox(tester), paints..rrect(color: selectedColor));
	});

	testWidgetsWithLeakTracking('InputChip can be tapped', (WidgetTester tester) async {
	await tester.pumpWidget(
	const MaterialApp(
	home: Material(
	child: InputChip(
	label: Text('input chip'),
	),
	),
	),
	);

	await tester.tap(find.byType(InputChip));
	expect(tester.takeException(), null);
	});

	testWidgetsWithLeakTracking('loses focus when disabled', (WidgetTester tester) async {
	final FocusNode focusNode = FocusNode(debugLabel: 'InputChip');
	await tester.pumpWidget(
	wrapForChip(
	child: InputChip(
	focusNode: focusNode,
	autofocus: true,
	shape: const RoundedRectangleBorder(),
	avatar: const CircleAvatar(child: Text('A')),
	label: const Text('Chip A'),
	onPressed: () { },
	),
	),
	);
	await tester.pump();
	expect(focusNode.hasPrimaryFocus, isTrue);

	await tester.pumpWidget(
	wrapForChip(
	child: InputChip(
	focusNode: focusNode,
	autofocus: true,
	shape: const RoundedRectangleBorder(),
	avatar: const CircleAvatar(child: Text('A')),
	label: const Text('Chip A'),
	),
	),
	);
	await tester.pump();
	expect(focusNode.hasPrimaryFocus, isFalse);
	});

	testWidgetsWithLeakTracking('cannot be traversed to when disabled', (WidgetTester tester) async {
	final FocusNode focusNode1 = FocusNode(debugLabel: 'InputChip 1');
	final FocusNode focusNode2 = FocusNode(debugLabel: 'InputChip 2');
	await tester.pumpWidget(
	wrapForChip(
	child: FocusScope(
	child: Column(
	children: <Widget>[
	InputChip(
	focusNode: focusNode1,
	autofocus: true,
	label: const Text('Chip A'),
	onPressed: () { },
	),
	InputChip(
	focusNode: focusNode2,
	autofocus: true,
	label: const Text('Chip B'),
	),
	],
	),
	),
	),
	);
	await tester.pump();
	expect(focusNode1.hasPrimaryFocus, isTrue);
	expect(focusNode2.hasPrimaryFocus, isFalse);

	expect(focusNode1.nextFocus(), isFalse);

	await tester.pump();
	expect(focusNode1.hasPrimaryFocus, isTrue);
	expect(focusNode2.hasPrimaryFocus, isFalse);
	});

	testWidgetsWithLeakTracking('Input chip check mark color is determined by platform brightness when light', (WidgetTester tester) async {
	await pumpCheckmarkChip(
	tester,
	chip: selectedInputChip(),
	);

	expectCheckmarkColor(
	find.byType(InputChip),
	Colors.black.withAlpha(0xde),
	);
	});

	testWidgetsWithLeakTracking('Input chip check mark color is determined by platform brightness when dark', (WidgetTester tester) async {
	await pumpCheckmarkChip(
	tester,
	chip: selectedInputChip(),
	brightness: Brightness.dark,
	);

	expectCheckmarkColor(
	find.byType(InputChip),
	Colors.white.withAlpha(0xde),
	);
	});

	testWidgetsWithLeakTracking('Input chip check mark color can be set by the chip theme', (WidgetTester tester) async {
	await pumpCheckmarkChip(
	tester,
	chip: selectedInputChip(),
	themeColor: const Color(0xff00ff00),
	);

	expectCheckmarkColor(
	find.byType(InputChip),
	const Color(0xff00ff00),
	);
	});

	testWidgetsWithLeakTracking('Input chip check mark color can be set by the chip constructor', (WidgetTester tester) async {
	await pumpCheckmarkChip(
	tester,
	chip: selectedInputChip(checkmarkColor: const Color(0xff00ff00)),
	);

	expectCheckmarkColor(
	find.byType(InputChip),
	const Color(0xff00ff00),
	);
	});

	testWidgetsWithLeakTracking('Input chip check mark color is set by chip constructor even when a theme color is specified', (WidgetTester tester) async {
	await pumpCheckmarkChip(
	tester,
	chip: selectedInputChip(checkmarkColor: const Color(0xffff0000)),
	themeColor: const Color(0xff00ff00),
	);

	expectCheckmarkColor(
	find.byType(InputChip),
	const Color(0xffff0000),
	);
	});

	testWidgetsWithLeakTracking('InputChip clipBehavior properly passes through to the Material', (WidgetTester tester) async {
	const Text label = Text('label');
	await tester.pumpWidget(wrapForChip(child: const InputChip(label: label)));
	checkChipMaterialClipBehavior(tester, Clip.none);

	await tester.pumpWidget(wrapForChip(child: const InputChip(label: label, clipBehavior: Clip.antiAlias)));
	checkChipMaterialClipBehavior(tester, Clip.antiAlias);
	});

	testWidgetsWithLeakTracking('Input chip has correct selected color when enabled - M3 defaults', (WidgetTester tester) async {
	final ChipThemeData material3ChipDefaults = ThemeData(useMaterial3: true).chipTheme;
	await pumpCheckmarkChip(
	tester,
	chip: selectedInputChip(enabled: true),
	useMaterial3: true,
	);

	final RenderBox materialBox = getMaterialBox(tester);
	expect(materialBox, paints..rrect(color: material3ChipDefaults.backgroundColor));
	});

	testWidgetsWithLeakTracking('Input chip has correct selected color when disabled - M3 defaults', (WidgetTester tester) async {
	final ChipThemeData material3ChipDefaults = ThemeData(useMaterial3: true).chipTheme;
	await pumpCheckmarkChip(
	tester,
	chip: selectedInputChip(),
	useMaterial3: true,
	);

	final RenderBox materialBox = getMaterialBox(tester);
	expect(materialBox, paints..path(color: material3ChipDefaults.disabledColor));
	});
	}