| // Copyright 2014 The Flutter Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| import 'dart:math' as math; |
| |
| import 'package:flutter/painting.dart'; |
| import 'package:flutter_test/flutter_test.dart'; |
| |
| void approxExpect(Alignment a, Alignment b) { |
| expect(a.x, moreOrLessEquals(b.x)); |
| expect(a.y, moreOrLessEquals(b.y)); |
| } |
| |
| void main() { |
| test('Alignment control test', () { |
| const Alignment alignment = Alignment(0.5, 0.25); |
| |
| expect(alignment, hasOneLineDescription); |
| expect(alignment.hashCode, equals(const Alignment(0.5, 0.25).hashCode)); |
| |
| expect(alignment / 2.0, const Alignment(0.25, 0.125)); |
| expect(alignment ~/ 2.0, Alignment.center); |
| expect(alignment % 5.0, const Alignment(0.5, 0.25)); |
| }); |
| |
| test('Alignment.lerp()', () { |
| const Alignment a = Alignment.topLeft; |
| const Alignment b = Alignment.topCenter; |
| expect(Alignment.lerp(a, b, 0.25), equals(const Alignment(-0.75, -1.0))); |
| |
| expect(Alignment.lerp(null, null, 0.25), isNull); |
| expect(Alignment.lerp(null, b, 0.25), equals(const Alignment(0.0, -0.25))); |
| expect(Alignment.lerp(a, null, 0.25), equals(const Alignment(-0.75, -0.75))); |
| }); |
| |
| test('AlignmentGeometry invariants', () { |
| const AlignmentDirectional topStart = AlignmentDirectional.topStart; |
| const AlignmentDirectional topEnd = AlignmentDirectional.topEnd; |
| const Alignment center = Alignment.center; |
| const Alignment topLeft = Alignment.topLeft; |
| const Alignment topRight = Alignment.topRight; |
| final List<double> numbers = <double>[0.0, 1.0, -1.0, 2.0, 0.25, 0.5, 100.0, -999.75]; |
| |
| expect((topEnd * 0.0).add(topRight * 0.0), center); |
| expect(topEnd.add(topRight) * 0.0, (topEnd * 0.0).add(topRight * 0.0)); |
| expect(topStart.add(topLeft), topLeft.add(topStart)); |
| expect(topStart.add(topLeft).resolve(TextDirection.ltr), (topStart.resolve(TextDirection.ltr)) + topLeft); |
| expect(topStart.add(topLeft).resolve(TextDirection.rtl), (topStart.resolve(TextDirection.rtl)) + topLeft); |
| expect(topStart.add(topLeft).resolve(TextDirection.ltr), topStart.resolve(TextDirection.ltr).add(topLeft)); |
| expect(topStart.add(topLeft).resolve(TextDirection.rtl), topStart.resolve(TextDirection.rtl).add(topLeft)); |
| expect(topStart.resolve(TextDirection.ltr), topLeft); |
| expect(topStart.resolve(TextDirection.rtl), topRight); |
| expect(topEnd * 0.0, center); |
| expect(topLeft * 0.0, center); |
| expect(topStart * 1.0, topStart); |
| expect(topEnd * 1.0, topEnd); |
| expect(topLeft * 1.0, topLeft); |
| expect(topRight * 1.0, topRight); |
| for (final double n in numbers) { |
| expect((topStart * n).add(topStart), topStart * (n + 1.0)); |
| expect((topEnd * n).add(topEnd), topEnd * (n + 1.0)); |
| for (final double m in numbers) |
| expect((topStart * n).add(topStart * m), topStart * (n + m)); |
| } |
| expect(topStart + topStart + topStart, topStart * 3.0); // without using "add" |
| for (final TextDirection x in TextDirection.values) { |
| expect((topEnd * 0.0).add(topRight * 0.0).resolve(x), center.add(center).resolve(x)); |
| expect((topEnd * 0.0).add(topLeft).resolve(x), center.add(topLeft).resolve(x)); |
| expect((topEnd * 0.0).resolve(x).add(topLeft.resolve(x)), center.resolve(x).add(topLeft.resolve(x))); |
| expect((topEnd * 0.0).resolve(x).add(topLeft), center.resolve(x).add(topLeft)); |
| expect((topEnd * 0.0).resolve(x), center.resolve(x)); |
| } |
| expect(topStart, isNot(topLeft)); |
| expect(topEnd, isNot(topLeft)); |
| expect(topStart, isNot(topRight)); |
| expect(topEnd, isNot(topRight)); |
| expect(topStart.add(topLeft), isNot(topLeft)); |
| expect(topStart.add(topLeft), isNot(topStart)); |
| }); |
| |
| test('AlignmentGeometry.resolve()', () { |
| expect(const AlignmentDirectional(0.25, 0.3).resolve(TextDirection.ltr), const Alignment(0.25, 0.3)); |
| expect(const AlignmentDirectional(0.25, 0.3).resolve(TextDirection.rtl), const Alignment(-0.25, 0.3)); |
| expect(const AlignmentDirectional(-0.25, 0.3).resolve(TextDirection.ltr), const Alignment(-0.25, 0.3)); |
| expect(const AlignmentDirectional(-0.25, 0.3).resolve(TextDirection.rtl), const Alignment(0.25, 0.3)); |
| expect(const AlignmentDirectional(1.25, 0.3).resolve(TextDirection.ltr), const Alignment(1.25, 0.3)); |
| expect(const AlignmentDirectional(1.25, 0.3).resolve(TextDirection.rtl), const Alignment(-1.25, 0.3)); |
| expect(const AlignmentDirectional(0.5, -0.3).resolve(TextDirection.ltr), const Alignment(0.5, -0.3)); |
| expect(const AlignmentDirectional(0.5, -0.3).resolve(TextDirection.rtl), const Alignment(-0.5, -0.3)); |
| expect(AlignmentDirectional.center.resolve(TextDirection.ltr), Alignment.center); |
| expect(AlignmentDirectional.center.resolve(TextDirection.rtl), Alignment.center); |
| expect(AlignmentDirectional.bottomEnd.resolve(TextDirection.ltr), Alignment.bottomRight); |
| expect(AlignmentDirectional.bottomEnd.resolve(TextDirection.rtl), Alignment.bottomLeft); |
| expect(AlignmentDirectional(nonconst(1.0), 2.0), AlignmentDirectional(nonconst(1.0), 2.0)); |
| expect(const AlignmentDirectional(1.0, 2.0), isNot(const AlignmentDirectional(2.0, 1.0))); |
| expect( |
| AlignmentDirectional.centerStart.resolve(TextDirection.ltr), |
| AlignmentDirectional.centerEnd.resolve(TextDirection.rtl), |
| ); |
| expect( |
| AlignmentDirectional.centerStart.resolve(TextDirection.ltr), |
| isNot(AlignmentDirectional.centerEnd.resolve(TextDirection.ltr)), |
| ); |
| expect( |
| AlignmentDirectional.centerEnd.resolve(TextDirection.ltr), |
| isNot(AlignmentDirectional.centerEnd.resolve(TextDirection.rtl)), |
| ); |
| }); |
| |
| test('AlignmentGeometry.lerp ad hoc tests', () { |
| final AlignmentGeometry mixed1 = const Alignment(10.0, 20.0).add(const AlignmentDirectional(30.0, 50.0)); |
| final AlignmentGeometry mixed2 = const Alignment(70.0, 110.0).add(const AlignmentDirectional(130.0, 170.0)); |
| final AlignmentGeometry mixed3 = const Alignment(25.0, 42.5).add(const AlignmentDirectional(55.0, 80.0)); |
| |
| for (final TextDirection direction in TextDirection.values) { |
| expect(AlignmentGeometry.lerp(mixed1, mixed2, 0.0)!.resolve(direction), mixed1.resolve(direction)); |
| expect(AlignmentGeometry.lerp(mixed1, mixed2, 1.0)!.resolve(direction), mixed2.resolve(direction)); |
| expect(AlignmentGeometry.lerp(mixed1, mixed2, 0.25)!.resolve(direction), mixed3.resolve(direction)); |
| } |
| }); |
| |
| test('lerp commutes with resolve', () { |
| final List<AlignmentGeometry?> offsets = <AlignmentGeometry?>[ |
| Alignment.topLeft, |
| Alignment.topCenter, |
| Alignment.topRight, |
| AlignmentDirectional.topStart, |
| AlignmentDirectional.topCenter, |
| AlignmentDirectional.topEnd, |
| Alignment.centerLeft, |
| Alignment.center, |
| Alignment.centerRight, |
| AlignmentDirectional.centerStart, |
| AlignmentDirectional.center, |
| AlignmentDirectional.centerEnd, |
| Alignment.bottomLeft, |
| Alignment.bottomCenter, |
| Alignment.bottomRight, |
| AlignmentDirectional.bottomStart, |
| AlignmentDirectional.bottomCenter, |
| AlignmentDirectional.bottomEnd, |
| const Alignment(-1.0, 0.65), |
| const AlignmentDirectional(-1.0, 0.45), |
| const AlignmentDirectional(0.125, 0.625), |
| const Alignment(0.25, 0.875), |
| const Alignment(0.0625, 0.5625).add(const AlignmentDirectional(0.1875, 0.6875)), |
| const AlignmentDirectional(2.0, 3.0), |
| const Alignment(2.0, 3.0), |
| const Alignment(2.0, 3.0).add(const AlignmentDirectional(5.0, 3.0)), |
| const Alignment(10.0, 20.0).add(const AlignmentDirectional(30.0, 50.0)), |
| const Alignment(70.0, 110.0).add(const AlignmentDirectional(130.0, 170.0)), |
| const Alignment(25.0, 42.5).add(const AlignmentDirectional(55.0, 80.0)), |
| null, |
| ]; |
| |
| final List<double> times = <double>[ 0.25, 0.5, 0.75 ]; |
| |
| for (final TextDirection direction in TextDirection.values) { |
| final Alignment defaultValue = AlignmentDirectional.center.resolve(direction); |
| for (final AlignmentGeometry? a in offsets) { |
| final Alignment resolvedA = a?.resolve(direction) ?? defaultValue; |
| for (final AlignmentGeometry? b in offsets) { |
| final Alignment resolvedB = b?.resolve(direction) ?? defaultValue; |
| approxExpect(Alignment.lerp(resolvedA, resolvedB, 0.0)!, resolvedA); |
| approxExpect(Alignment.lerp(resolvedA, resolvedB, 1.0)!, resolvedB); |
| approxExpect((AlignmentGeometry.lerp(a, b, 0.0) ?? defaultValue).resolve(direction), resolvedA); |
| approxExpect((AlignmentGeometry.lerp(a, b, 1.0) ?? defaultValue).resolve(direction), resolvedB); |
| for (final double t in times) { |
| assert(t > 0.0); |
| assert(t < 1.0); |
| final Alignment value = (AlignmentGeometry.lerp(a, b, t) ?? defaultValue).resolve(direction); |
| approxExpect(value, Alignment.lerp(resolvedA, resolvedB, t)!); |
| final double minDX = math.min(resolvedA.x, resolvedB.x); |
| final double maxDX = math.max(resolvedA.x, resolvedB.x); |
| final double minDY = math.min(resolvedA.y, resolvedB.y); |
| final double maxDY = math.max(resolvedA.y, resolvedB.y); |
| expect(value.x, inInclusiveRange(minDX, maxDX)); |
| expect(value.y, inInclusiveRange(minDY, maxDY)); |
| } |
| } |
| } |
| } |
| }); |
| |
| test('AlignmentGeometry add/subtract', () { |
| const AlignmentGeometry directional = AlignmentDirectional(1.0, 2.0); |
| const AlignmentGeometry normal = Alignment(3.0, 5.0); |
| expect(directional.add(normal).resolve(TextDirection.ltr), const Alignment(4.0, 7.0)); |
| expect(directional.add(normal).resolve(TextDirection.rtl), const Alignment(2.0, 7.0)); |
| expect(normal.add(normal), normal * 2.0); |
| expect(directional.add(directional), directional * 2.0); |
| }); |
| |
| test('AlignmentGeometry operators', () { |
| expect(const AlignmentDirectional(1.0, 2.0) * 2.0, const AlignmentDirectional(2.0, 4.0)); |
| expect(const AlignmentDirectional(1.0, 2.0) / 2.0, const AlignmentDirectional(0.5, 1.0)); |
| expect(const AlignmentDirectional(1.0, 2.0) % 2.0, AlignmentDirectional.centerEnd); |
| expect(const AlignmentDirectional(1.0, 2.0) ~/ 2.0, AlignmentDirectional.bottomCenter); |
| for (final TextDirection direction in TextDirection.values) { |
| expect(Alignment.center.add(const AlignmentDirectional(1.0, 2.0) * 2.0).resolve(direction), const AlignmentDirectional(2.0, 4.0).resolve(direction)); |
| expect(Alignment.center.add(const AlignmentDirectional(1.0, 2.0) / 2.0).resolve(direction), const AlignmentDirectional(0.5, 1.0).resolve(direction)); |
| expect(Alignment.center.add(const AlignmentDirectional(1.0, 2.0) % 2.0).resolve(direction), AlignmentDirectional.centerEnd.resolve(direction)); |
| expect(Alignment.center.add(const AlignmentDirectional(1.0, 2.0) ~/ 2.0).resolve(direction), AlignmentDirectional.bottomCenter.resolve(direction)); |
| } |
| expect(const Alignment(1.0, 2.0) * 2.0, const Alignment(2.0, 4.0)); |
| expect(const Alignment(1.0, 2.0) / 2.0, const Alignment(0.5, 1.0)); |
| expect(const Alignment(1.0, 2.0) % 2.0, Alignment.centerRight); |
| expect(const Alignment(1.0, 2.0) ~/ 2.0, Alignment.bottomCenter); |
| }); |
| |
| test('AlignmentGeometry operators', () { |
| expect(const Alignment(1.0, 2.0) + const Alignment(3.0, 5.0), const Alignment(4.0, 7.0)); |
| expect(const Alignment(1.0, 2.0) - const Alignment(3.0, 5.0), const Alignment(-2.0, -3.0)); |
| expect(const AlignmentDirectional(1.0, 2.0) + const AlignmentDirectional(3.0, 5.0), const AlignmentDirectional(4.0, 7.0)); |
| expect(const AlignmentDirectional(1.0, 2.0) - const AlignmentDirectional(3.0, 5.0), const AlignmentDirectional(-2.0, -3.0)); |
| }); |
| |
| test('AlignmentGeometry toString', () { |
| expect(const Alignment(1.0001, 2.0001).toString(), 'Alignment(1.0, 2.0)'); |
| expect(Alignment.center.toString(), 'Alignment.center'); |
| expect(Alignment.bottomLeft.add(AlignmentDirectional.centerEnd).toString(), 'Alignment.bottomLeft + AlignmentDirectional.centerEnd'); |
| expect(const Alignment(0.0001, 0.0001).toString(), 'Alignment(0.0, 0.0)'); |
| expect(Alignment.center.toString(), 'Alignment.center'); |
| expect(AlignmentDirectional.center.toString(), 'AlignmentDirectional.center'); |
| expect(Alignment.bottomRight.add(AlignmentDirectional.bottomEnd).toString(), 'Alignment(1.0, 2.0) + AlignmentDirectional.centerEnd'); |
| }); |
| } |