// Copyright 2017 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. import '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 = const 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, const Alignment(0.0, 0.0)); expect(alignment % 5.0, const Alignment(0.5, 0.25)); }); test('Alignment.lerp()', () { final Alignment a = Alignment.topLeft; final 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', () { final AlignmentDirectional topStart = AlignmentDirectional.topStart; final AlignmentDirectional topEnd = AlignmentDirectional.topEnd; final Alignment center = Alignment.center; final Alignment topLeft = Alignment.topLeft; final 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 (double n in numbers) { expect((topStart * n).add(topStart), topStart * (n + 1.0)); expect((topEnd * n).add(topEnd), topEnd * (n + 1.0)); for (double m in numbers) expect((topStart * n).add(topStart * m), topStart * (n + m)); } expect(topStart + topStart + topStart, topStart * 3.0); // without using "add" for (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(const AlignmentDirectional(0.0, 0.0).resolve(TextDirection.ltr), const Alignment(0.0, 0.0)); expect(const AlignmentDirectional(0.0, 0.0).resolve(TextDirection.rtl), const Alignment(0.0, 0.0)); expect(const AlignmentDirectional(1.0, 1.0).resolve(TextDirection.ltr), const Alignment(1.0, 1.0)); expect(const AlignmentDirectional(1.0, 1.0).resolve(TextDirection.rtl), const Alignment(-1.0, 1.0)); final double $1 = 1.0; // we want these instances to be separate instances so that we're not just checking with a single object expect(new AlignmentDirectional($1, 2.0), new AlignmentDirectional($1, 2.0)); expect(const AlignmentDirectional(1.0, 2.0), isNot(const AlignmentDirectional(2.0, 1.0))); expect(const AlignmentDirectional(-1.0, 0.0).resolve(TextDirection.ltr), const AlignmentDirectional(1.0, 0.0).resolve(TextDirection.rtl)); expect(const AlignmentDirectional(-1.0, 0.0).resolve(TextDirection.ltr), isNot(const AlignmentDirectional(1.0, 0.0).resolve(TextDirection.ltr))); expect(const AlignmentDirectional(1.0, 0.0).resolve(TextDirection.ltr), isNot(const AlignmentDirectional(1.0, 0.0).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 (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 (TextDirection direction in TextDirection.values) { final Alignment defaultValue = AlignmentDirectional.center.resolve(direction); for (AlignmentGeometry a in offsets) { final Alignment resolvedA = a?.resolve(direction) ?? defaultValue; for (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 (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', () { final AlignmentGeometry directional = const AlignmentDirectional(1.0, 2.0); final AlignmentGeometry normal = const 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, const AlignmentDirectional(1.0, 0.0)); expect(const AlignmentDirectional(1.0, 2.0) ~/ 2.0, const AlignmentDirectional(0.0, 1.0)); for (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), const AlignmentDirectional(1.0, 0.0).resolve(direction)); expect(Alignment.center.add(const AlignmentDirectional(1.0, 2.0) ~/ 2.0).resolve(direction), const AlignmentDirectional(0.0, 1.0).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, const Alignment(1.0, 0.0)); expect(const Alignment(1.0, 2.0) ~/ 2.0, const Alignment(0.0, 1.0)); }); 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(const Alignment(0.0, 0.0).toString(), 'Alignment.center'); expect(const Alignment(-1.0, 1.0).add(const AlignmentDirectional(1.0, 0.0)).toString(), 'Alignment.bottomLeft + AlignmentDirectional.centerEnd'); expect(const Alignment(0.0001, 0.0001).toString(), 'Alignment(0.0, 0.0)'); expect(const Alignment(0.0, 0.0).toString(), 'Alignment.center'); expect(const AlignmentDirectional(0.0, 0.0).toString(), 'AlignmentDirectional.center'); expect(const Alignment(1.0, 1.0).add(const AlignmentDirectional(1.0, 1.0)).toString(), 'Alignment(1.0, 2.0) + AlignmentDirectional.centerEnd'); }); }