testing/dart/geometry_test.dart - mirrors/engine - Git at Google

 // Copyright 2013 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.

 // This is testing some of the named constants.
 // ignore_for_file: use_named_constants

 import 'dart:math' as math show sqrt;
 import 'dart:math' show pi;
 import 'dart:ui';

 import 'package:litetest/litetest.dart';

 void main() {
   test('OffsetBase.>=', () {
     expect(const Offset(0, 0) >= const Offset(0, -1), true);
     expect(const Offset(0, 0) >= const Offset(-1, 0), true);
     expect(const Offset(0, 0) >= const Offset(-1, -1), true);
     expect(const Offset(0, 0) >= const Offset(0, 0), true);
     expect(const Offset(0, 0) >= const Offset(0, double.nan), false);
     expect(const Offset(0, 0) >= const Offset(double.nan, 0), false);
     expect(const Offset(0, 0) >= const Offset(10, -10), false);
   });

   test('OffsetBase.<=', () {
     expect(const Offset(0, 0) <= const Offset(0, 1), true);
     expect(const Offset(0, 0) <= const Offset(1, 0), true);
     expect(const Offset(0, 0) <= const Offset(0, 0), true);
     expect(const Offset(0, 0) <= const Offset(0, double.nan), false);
     expect(const Offset(0, 0) <= const Offset(double.nan, 0), false);
     expect(const Offset(0, 0) <= const Offset(10, -10), false);
   });

   test('OffsetBase.>', () {
     expect(const Offset(0, 0) > const Offset(-1, -1), true);
     expect(const Offset(0, 0) > const Offset(0, -1), false);
     expect(const Offset(0, 0) > const Offset(-1, 0), false);
     expect(const Offset(0, 0) > const Offset(double.nan, -1), false);
   });

   test('OffsetBase.<', () {
     expect(const Offset(0, 0) < const Offset(1, 1), true);
     expect(const Offset(0, 0) < const Offset(0, 1), false);
     expect(const Offset(0, 0) < const Offset(1, 0), false);
     expect(const Offset(0, 0) < const Offset(double.nan, 1), false);
   });

   test('OffsetBase.==', () {
     expect(const Offset(0, 0), equals(const Offset(0, 0)));
     expect(const Offset(0, 0), notEquals(const Offset(1, 0)));
     expect(const Offset(0, 0), notEquals(const Offset(0, 1)));
   });

   test('Offset.direction', () {
     expect(const Offset(0.0, 0.0).direction, 0.0);
     expect(const Offset(0.0, 1.0).direction, pi / 2.0);
     expect(const Offset(0.0, -1.0).direction, -pi / 2.0);
     expect(const Offset(1.0, 0.0).direction, 0.0);
     expect(const Offset(1.0, 1.0).direction, pi / 4.0);
     expect(const Offset(1.0, -1.0).direction, -pi / 4.0);
     expect(const Offset(-1.0, 0.0).direction, pi);
     expect(const Offset(-1.0, 1.0).direction, pi * 3.0 / 4.0);
     expect(const Offset(-1.0, -1.0).direction, -pi * 3.0 / 4.0);
   });

   test('Offset.fromDirection', () {
     expect(Offset.fromDirection(0.0, 0.0), const Offset(0.0, 0.0));
     expect(Offset.fromDirection(pi / 2.0).dx, closeTo(0.0, 1e-12)); // aah, floating point math. i love you so.
     expect(Offset.fromDirection(pi / 2.0).dy, 1.0);
     expect(Offset.fromDirection(-pi / 2.0).dx, closeTo(0.0, 1e-12));
     expect(Offset.fromDirection(-pi / 2.0).dy, -1.0);
     expect(Offset.fromDirection(0.0), const Offset(1.0, 0.0));
     expect(Offset.fromDirection(pi / 4.0).dx, closeTo(1.0 / math.sqrt(2.0), 1e-12));
     expect(Offset.fromDirection(pi / 4.0).dy, closeTo(1.0 / math.sqrt(2.0), 1e-12));
     expect(Offset.fromDirection(-pi / 4.0).dx, closeTo(1.0 / math.sqrt(2.0), 1e-12));
     expect(Offset.fromDirection(-pi / 4.0).dy, closeTo(-1.0 / math.sqrt(2.0), 1e-12));
     expect(Offset.fromDirection(pi).dx, -1.0);
     expect(Offset.fromDirection(pi).dy, closeTo(0.0, 1e-12));
     expect(Offset.fromDirection(pi * 3.0 / 4.0).dx, closeTo(-1.0 / math.sqrt(2.0), 1e-12));
     expect(Offset.fromDirection(pi * 3.0 / 4.0).dy, closeTo(1.0 / math.sqrt(2.0), 1e-12));
     expect(Offset.fromDirection(-pi * 3.0 / 4.0).dx, closeTo(-1.0 / math.sqrt(2.0), 1e-12));
     expect(Offset.fromDirection(-pi * 3.0 / 4.0).dy, closeTo(-1.0 / math.sqrt(2.0), 1e-12));
     expect(Offset.fromDirection(0.0, 2.0), const Offset(2.0, 0.0));
     expect(Offset.fromDirection(pi / 6, 2.0).dx, closeTo(math.sqrt(3.0), 1e-12));
     expect(Offset.fromDirection(pi / 6, 2.0).dy, closeTo(1.0, 1e-12));
   });

   test('Size created from doubles', () {
     const Size size = Size(5.0, 7.0);
     expect(size.width, equals(5.0));
     expect(size.height, equals(7.0));
     expect(size.shortestSide, equals(5.0));
     expect(size.longestSide, equals(7.0));
   });

   test('Size.aspectRatio', () {
     expect(const Size(0.0, 0.0).aspectRatio, 0.0);
     expect(const Size(-0.0, 0.0).aspectRatio, 0.0);
     expect(const Size(0.0, -0.0).aspectRatio, 0.0);
     expect(const Size(-0.0, -0.0).aspectRatio, 0.0);
     expect(const Size(0.0, 1.0).aspectRatio, 0.0);
     expect(const Size(0.0, -1.0).aspectRatio, -0.0);
     expect(const Size(1.0, 0.0).aspectRatio, double.infinity);
     expect(const Size(1.0, 1.0).aspectRatio, 1.0);
     expect(const Size(1.0, -1.0).aspectRatio, -1.0);
     expect(const Size(-1.0, 0.0).aspectRatio, -double.infinity);
     expect(const Size(-1.0, 1.0).aspectRatio, -1.0);
     expect(const Size(-1.0, -1.0).aspectRatio, 1.0);
     expect(const Size(3.0, 4.0).aspectRatio, 3.0 / 4.0);
   });

   test('Rect.toString test', () {
     const Rect r = Rect.fromLTRB(1.0, 3.0, 5.0, 7.0);
     expect(r.toString(), 'Rect.fromLTRB(1.0, 3.0, 5.0, 7.0)');
   });

   test('Rect accessors', () {
     const Rect r = Rect.fromLTRB(1.0, 3.0, 5.0, 7.0);
     expect(r.left, equals(1.0));
     expect(r.top, equals(3.0));
     expect(r.right, equals(5.0));
     expect(r.bottom, equals(7.0));
   });

   test('Rect.fromCenter', () {
     Rect rect = Rect.fromCenter(center: const Offset(1.0, 3.0), width: 5.0, height: 7.0);
     expect(rect.left, -1.5);
     expect(rect.top, -0.5);
     expect(rect.right, 3.5);
     expect(rect.bottom, 6.5);

     rect = Rect.fromCenter(center: const Offset(0.0, 0.0), width: 0.0, height: 0.0);
     expect(rect.left, 0.0);
     expect(rect.top, 0.0);
     expect(rect.right, 0.0);
     expect(rect.bottom, 0.0);

     rect = Rect.fromCenter(center: const Offset(double.nan, 0.0), width: 0.0, height: 0.0);
     expect(rect.left, isNaN);
     expect(rect.top, 0.0);
     expect(rect.right, isNaN);
     expect(rect.bottom, 0.0);

     rect = Rect.fromCenter(center: const Offset(0.0, double.nan), width: 0.0, height: 0.0);
     expect(rect.left, 0.0);
     expect(rect.top, isNaN);
     expect(rect.right, 0.0);
     expect(rect.bottom, isNaN);
   });

   test('Rect created by width and height', () {
     const Rect r = Rect.fromLTWH(1.0, 3.0, 5.0, 7.0);
     expect(r.left, equals(1.0));
     expect(r.top, equals(3.0));
     expect(r.right, equals(6.0));
     expect(r.bottom, equals(10.0));
     expect(r.shortestSide, equals(5.0));
     expect(r.longestSide, equals(7.0));
   });

   test('Rect intersection', () {
     const Rect r1 = Rect.fromLTRB(0.0, 0.0, 100.0, 100.0);
     const Rect r2 = Rect.fromLTRB(50.0, 50.0, 200.0, 200.0);
     final Rect r3 = r1.intersect(r2);
     expect(r3.left, equals(50.0));
     expect(r3.top, equals(50.0));
     expect(r3.right, equals(100.0));
     expect(r3.bottom, equals(100.0));
     final Rect r4 = r2.intersect(r1);
     expect(r4, equals(r3));
   });

   test('Rect expandToInclude overlapping rects', () {
     const Rect r1 = Rect.fromLTRB(0.0, 0.0, 100.0, 100.0);
     const Rect r2 = Rect.fromLTRB(50.0, 50.0, 200.0, 200.0);
     final Rect r3 = r1.expandToInclude(r2);
     expect(r3.left, equals(0.0));
     expect(r3.top, equals(0.0));
     expect(r3.right, equals(200.0));
     expect(r3.bottom, equals(200.0));

     final Rect r4 = r2.expandToInclude(r1);
     expect(r4, equals(r3));
   });

   test('Rect expandToInclude crossing rects', () {
     const Rect r1 = Rect.fromLTRB(50.0, 0.0, 50.0, 200.0);
     const Rect r2 = Rect.fromLTRB(0.0, 50.0, 200.0, 50.0);
     final Rect r3 = r1.expandToInclude(r2);
     expect(r3.left, equals(0.0));
     expect(r3.top, equals(0.0));
     expect(r3.right, equals(200.0));
     expect(r3.bottom, equals(200.0));

     final Rect r4 = r2.expandToInclude(r1);
     expect(r4, equals(r3));
   });

   test('RRect.fromRectXY', () {
     const Rect baseRect = Rect.fromLTWH(1.0, 3.0, 5.0, 7.0);
     final RRect r = RRect.fromRectXY(baseRect, 1.0, 1.0);
     expect(r.left, equals(1.0));
     expect(r.top, equals(3.0));
     expect(r.right, equals(6.0));
     expect(r.bottom, equals(10.0));
     expect(r.shortestSide, equals(5.0));
     expect(r.longestSide, equals(7.0));
   });

   test('RRect.contains()', () {
     final RRect rrect = RRect.fromRectAndCorners(
       const Rect.fromLTRB(1.0, 1.0, 2.0, 2.0),
       topLeft: const Radius.circular(0.5),
       topRight: const Radius.circular(0.25),
       bottomRight: const Radius.elliptical(0.25, 0.75),
     );

     expect(rrect.contains(const Offset(1.0, 1.0)), isFalse);
     expect(rrect.contains(const Offset(1.1, 1.1)), isFalse);
     expect(rrect.contains(const Offset(1.15, 1.15)), isTrue);
     expect(rrect.contains(const Offset(2.0, 1.0)), isFalse);
     expect(rrect.contains(const Offset(1.93, 1.07)), isFalse);
     expect(rrect.contains(const Offset(1.97, 1.7)), isFalse);
     expect(rrect.contains(const Offset(1.7, 1.97)), isTrue);
     expect(rrect.contains(const Offset(1.0, 1.99)), isTrue);
   });

   test('RRect.contains() large radii', () {
     final RRect rrect = RRect.fromRectAndCorners(
       const Rect.fromLTRB(1.0, 1.0, 2.0, 2.0),
       topLeft: const Radius.circular(5000.0),
       topRight: const Radius.circular(2500.0),
       bottomRight: const Radius.elliptical(2500.0, 7500.0),
     );

     expect(rrect.contains(const Offset(1.0, 1.0)), isFalse);
     expect(rrect.contains(const Offset(1.1, 1.1)), isFalse);
     expect(rrect.contains(const Offset(1.15, 1.15)), isTrue);
     expect(rrect.contains(const Offset(2.0, 1.0)), isFalse);
     expect(rrect.contains(const Offset(1.93, 1.07)), isFalse);
     expect(rrect.contains(const Offset(1.97, 1.7)), isFalse);
     expect(rrect.contains(const Offset(1.7, 1.97)), isTrue);
     expect(rrect.contains(const Offset(1.0, 1.99)), isTrue);
   });

   test('RRect.scaleRadii() properly constrained radii should remain unchanged', () {
     final RRect rrect = RRect.fromRectAndCorners(
       const Rect.fromLTRB(1.0, 1.0, 2.0, 2.0),
       topLeft: const Radius.circular(0.5),
       topRight: const Radius.circular(0.25),
       bottomRight: const Radius.elliptical(0.25, 0.75),
     ).scaleRadii();

     // check sides
     expect(rrect.left, 1.0);
     expect(rrect.top, 1.0);
     expect(rrect.right, 2.0);
     expect(rrect.bottom, 2.0);

     // check corner radii
     expect(rrect.tlRadiusX, 0.5);
     expect(rrect.tlRadiusY, 0.5);
     expect(rrect.trRadiusX, 0.25);
     expect(rrect.trRadiusY, 0.25);
     expect(rrect.blRadiusX, 0.0);
     expect(rrect.blRadiusY, 0.0);
     expect(rrect.brRadiusX, 0.25);
     expect(rrect.brRadiusY, 0.75);
   });

   test('RRect.scaleRadii() sum of radii that exceed side length should properly scale', () {
     final RRect rrect = RRect.fromRectAndCorners(
       const Rect.fromLTRB(1.0, 1.0, 2.0, 2.0),
       topLeft: const Radius.circular(5000.0),
       topRight: const Radius.circular(2500.0),
       bottomRight: const Radius.elliptical(2500.0, 7500.0),
     ).scaleRadii();

     // check sides
     expect(rrect.left, 1.0);
     expect(rrect.top, 1.0);
     expect(rrect.right, 2.0);
     expect(rrect.bottom, 2.0);

     // check corner radii
     expect(rrect.tlRadiusX, 0.5);
     expect(rrect.tlRadiusY, 0.5);
     expect(rrect.trRadiusX, 0.25);
     expect(rrect.trRadiusY, 0.25);
     expect(rrect.blRadiusX, 0.0);
     expect(rrect.blRadiusY, 0.0);
     expect(rrect.brRadiusX, 0.25);
     expect(rrect.brRadiusY, 0.75);
   });

   test('Radius.clamp() operates as expected', () {
     final RRect rrectMin = RRect.fromLTRBR(1, 3, 5, 7,
       const Radius.circular(-100).clamp(minimum: Radius.zero));

     expect(rrectMin.left, 1);
     expect(rrectMin.top, 3);
     expect(rrectMin.right, 5);
     expect(rrectMin.bottom, 7);
     expect(rrectMin.trRadius, equals(const Radius.circular(0)));
     expect(rrectMin.blRadius, equals(const Radius.circular(0)));

     final RRect rrectMax = RRect.fromLTRBR(1, 3, 5, 7,
       const Radius.circular(100).clamp(maximum: const Radius.circular(10)));

     expect(rrectMax.left, 1);
     expect(rrectMax.top, 3);
     expect(rrectMax.right, 5);
     expect(rrectMax.bottom, 7);
     expect(rrectMax.trRadius, equals(const Radius.circular(10)));
     expect(rrectMax.blRadius, equals(const Radius.circular(10)));

     final RRect rrectMix = RRect.fromLTRBR(1, 3, 5, 7,
       const Radius.elliptical(-100, 100).clamp(minimum: Radius.zero, maximum: const Radius.circular(10)));

     expect(rrectMix.left, 1);
     expect(rrectMix.top, 3);
     expect(rrectMix.right, 5);
     expect(rrectMix.bottom, 7);
     expect(rrectMix.trRadius, equals(const Radius.elliptical(0, 10)));
     expect(rrectMix.blRadius, equals(const Radius.elliptical(0, 10)));

     final RRect rrectMix1 = RRect.fromLTRBR(1, 3, 5, 7,
       const Radius.elliptical(100, -100).clamp(minimum: Radius.zero, maximum: const Radius.circular(10)));

     expect(rrectMix1.left, 1);
     expect(rrectMix1.top, 3);
     expect(rrectMix1.right, 5);
     expect(rrectMix1.bottom, 7);
     expect(rrectMix1.trRadius, equals(const Radius.elliptical(10, 0)));
     expect(rrectMix1.blRadius, equals(const Radius.elliptical(10, 0)));
   });

   test('Radius.clampValues() operates as expected', () {
     final RRect rrectMin = RRect.fromLTRBR(1, 3, 5, 7,
       const Radius.circular(-100).clampValues(minimumX: 0, minimumY: 0));

     expect(rrectMin.left, 1);
     expect(rrectMin.top, 3);
     expect(rrectMin.right, 5);
     expect(rrectMin.bottom, 7);
     expect(rrectMin.trRadius, equals(const Radius.circular(0)));
     expect(rrectMin.blRadius, equals(const Radius.circular(0)));

     final RRect rrectMax = RRect.fromLTRBR(1, 3, 5, 7,
       const Radius.circular(100).clampValues(maximumX: 10, maximumY: 20));

     expect(rrectMax.left, 1);
     expect(rrectMax.top, 3);
     expect(rrectMax.right, 5);
     expect(rrectMax.bottom, 7);
     expect(rrectMax.trRadius, equals(const Radius.elliptical(10, 20)));
     expect(rrectMax.blRadius, equals(const Radius.elliptical(10, 20)));

     final RRect rrectMix = RRect.fromLTRBR(1, 3, 5, 7,
       const Radius.elliptical(-100, 100).clampValues(minimumX: 5, minimumY: 6, maximumX: 10, maximumY: 20));

     expect(rrectMix.left, 1);
     expect(rrectMix.top, 3);
     expect(rrectMix.right, 5);
     expect(rrectMix.bottom, 7);
     expect(rrectMix.trRadius, equals(const Radius.elliptical(5, 20)));
     expect(rrectMix.blRadius, equals(const Radius.elliptical(5, 20)));

     final RRect rrectMix2 = RRect.fromLTRBR(1, 3, 5, 7,
       const Radius.elliptical(100, -100).clampValues(minimumX: 5, minimumY: 6, maximumX: 10, maximumY: 20));

     expect(rrectMix2.left, 1);
     expect(rrectMix2.top, 3);
     expect(rrectMix2.right, 5);
     expect(rrectMix2.bottom, 7);
     expect(rrectMix2.trRadius, equals(const Radius.elliptical(10, 6)));
     expect(rrectMix2.blRadius, equals(const Radius.elliptical(10, 6)));
   });

   test('RRect asserts when corner radii are negative', () {
     bool assertsEnabled = false;
     assert(() {
       assertsEnabled = true;
       return true;
     }());
     if (!assertsEnabled) {
       return;
     }

     expect(() {
       RRect.fromRectAndCorners(
         const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
         topLeft: const Radius.circular(-1),
       );
     }, throwsA(isInstanceOf<AssertionError>()));

     expect(() {
       RRect.fromRectAndCorners(
         const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
         topRight: const Radius.circular(-2),
       );
     }, throwsA(isInstanceOf<AssertionError>()));

     expect(() {
       RRect.fromRectAndCorners(
         const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
         bottomLeft: const Radius.circular(-3),
       );
     }, throwsA(isInstanceOf<AssertionError>()));

     expect(() {
       RRect.fromRectAndCorners(
         const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
         bottomRight: const Radius.circular(-4),
       );
     }, throwsA(isInstanceOf<AssertionError>()));
   });

   test('RRect.inflate clamps when deflating past zero', () {
     RRect rrect = RRect.fromRectAndCorners(
       const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
       topLeft: const Radius.circular(1),
       topRight: const Radius.circular(2),
       bottomLeft: const Radius.circular(3),
       bottomRight: const Radius.circular(4),
     ).inflate(-1);

     expect(rrect.tlRadiusX, 0);
     expect(rrect.tlRadiusY, 0);
     expect(rrect.trRadiusX, 1);
     expect(rrect.trRadiusY, 1);
     expect(rrect.blRadiusX, 2);
     expect(rrect.blRadiusY, 2);
     expect(rrect.brRadiusX, 3);
     expect(rrect.brRadiusY, 3);

     rrect = rrect.inflate(-1);
     expect(rrect.tlRadiusX, 0);
     expect(rrect.tlRadiusY, 0);
     expect(rrect.trRadiusX, 0);
     expect(rrect.trRadiusY, 0);
     expect(rrect.blRadiusX, 1);
     expect(rrect.blRadiusY, 1);
     expect(rrect.brRadiusX, 2);
     expect(rrect.brRadiusY, 2);

     rrect = rrect.inflate(-1);
     expect(rrect.tlRadiusX, 0);
     expect(rrect.tlRadiusY, 0);
     expect(rrect.trRadiusX, 0);
     expect(rrect.trRadiusY, 0);
     expect(rrect.blRadiusX, 0);
     expect(rrect.blRadiusY, 0);
     expect(rrect.brRadiusX, 1);
     expect(rrect.brRadiusY, 1);

     rrect = rrect.inflate(-1);
     expect(rrect.tlRadiusX, 0);
     expect(rrect.tlRadiusY, 0);
     expect(rrect.trRadiusX, 0);
     expect(rrect.trRadiusY, 0);
     expect(rrect.blRadiusX, 0);
     expect(rrect.blRadiusY, 0);
     expect(rrect.brRadiusX, 0);
     expect(rrect.brRadiusY, 0);
   });

   test('RRect.deflate clamps when deflating past zero', () {
     RRect rrect = RRect.fromRectAndCorners(
       const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
       topLeft: const Radius.circular(1),
       topRight: const Radius.circular(2),
       bottomLeft: const Radius.circular(3),
       bottomRight: const Radius.circular(4),
     ).deflate(1);

     expect(rrect.tlRadiusX, 0);
     expect(rrect.tlRadiusY, 0);
     expect(rrect.trRadiusX, 1);
     expect(rrect.trRadiusY, 1);
     expect(rrect.blRadiusX, 2);
     expect(rrect.blRadiusY, 2);
     expect(rrect.brRadiusX, 3);
     expect(rrect.brRadiusY, 3);

     rrect = rrect.deflate(1);
     expect(rrect.tlRadiusX, 0);
     expect(rrect.tlRadiusY, 0);
     expect(rrect.trRadiusX, 0);
     expect(rrect.trRadiusY, 0);
     expect(rrect.blRadiusX, 1);
     expect(rrect.blRadiusY, 1);
     expect(rrect.brRadiusX, 2);
     expect(rrect.brRadiusY, 2);

     rrect = rrect.deflate(1);
     expect(rrect.tlRadiusX, 0);
     expect(rrect.tlRadiusY, 0);
     expect(rrect.trRadiusX, 0);
     expect(rrect.trRadiusY, 0);
     expect(rrect.blRadiusX, 0);
     expect(rrect.blRadiusY, 0);
     expect(rrect.brRadiusX, 1);
     expect(rrect.brRadiusY, 1);

     rrect = rrect.deflate(1);
     expect(rrect.tlRadiusX, 0);
     expect(rrect.tlRadiusY, 0);
     expect(rrect.trRadiusX, 0);
     expect(rrect.trRadiusY, 0);
     expect(rrect.blRadiusX, 0);
     expect(rrect.blRadiusY, 0);
     expect(rrect.brRadiusX, 0);
     expect(rrect.brRadiusY, 0);
   });
 }
	// Copyright 2013 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.

	// This is testing some of the named constants.
	// ignore_for_file: use_named_constants

	import 'dart:math' as math show sqrt;
	import 'dart:math' show pi;
	import 'dart:ui';

	import 'package:litetest/litetest.dart';

	void main() {
	test('OffsetBase.>=', () {
	expect(const Offset(0, 0) >= const Offset(0, -1), true);
	expect(const Offset(0, 0) >= const Offset(-1, 0), true);
	expect(const Offset(0, 0) >= const Offset(-1, -1), true);
	expect(const Offset(0, 0) >= const Offset(0, 0), true);
	expect(const Offset(0, 0) >= const Offset(0, double.nan), false);
	expect(const Offset(0, 0) >= const Offset(double.nan, 0), false);
	expect(const Offset(0, 0) >= const Offset(10, -10), false);
	});

	test('OffsetBase.<=', () {
	expect(const Offset(0, 0) <= const Offset(0, 1), true);
	expect(const Offset(0, 0) <= const Offset(1, 0), true);
	expect(const Offset(0, 0) <= const Offset(0, 0), true);
	expect(const Offset(0, 0) <= const Offset(0, double.nan), false);
	expect(const Offset(0, 0) <= const Offset(double.nan, 0), false);
	expect(const Offset(0, 0) <= const Offset(10, -10), false);
	});

	test('OffsetBase.>', () {
	expect(const Offset(0, 0) > const Offset(-1, -1), true);
	expect(const Offset(0, 0) > const Offset(0, -1), false);
	expect(const Offset(0, 0) > const Offset(-1, 0), false);
	expect(const Offset(0, 0) > const Offset(double.nan, -1), false);
	});

	test('OffsetBase.<', () {
	expect(const Offset(0, 0) < const Offset(1, 1), true);
	expect(const Offset(0, 0) < const Offset(0, 1), false);
	expect(const Offset(0, 0) < const Offset(1, 0), false);
	expect(const Offset(0, 0) < const Offset(double.nan, 1), false);
	});

	test('OffsetBase.==', () {
	expect(const Offset(0, 0), equals(const Offset(0, 0)));
	expect(const Offset(0, 0), notEquals(const Offset(1, 0)));
	expect(const Offset(0, 0), notEquals(const Offset(0, 1)));
	});

	test('Offset.direction', () {
	expect(const Offset(0.0, 0.0).direction, 0.0);
	expect(const Offset(0.0, 1.0).direction, pi / 2.0);
	expect(const Offset(0.0, -1.0).direction, -pi / 2.0);
	expect(const Offset(1.0, 0.0).direction, 0.0);
	expect(const Offset(1.0, 1.0).direction, pi / 4.0);
	expect(const Offset(1.0, -1.0).direction, -pi / 4.0);
	expect(const Offset(-1.0, 0.0).direction, pi);
	expect(const Offset(-1.0, 1.0).direction, pi * 3.0 / 4.0);
	expect(const Offset(-1.0, -1.0).direction, -pi * 3.0 / 4.0);
	});

	test('Offset.fromDirection', () {
	expect(Offset.fromDirection(0.0, 0.0), const Offset(0.0, 0.0));
	expect(Offset.fromDirection(pi / 2.0).dx, closeTo(0.0, 1e-12)); // aah, floating point math. i love you so.
	expect(Offset.fromDirection(pi / 2.0).dy, 1.0);
	expect(Offset.fromDirection(-pi / 2.0).dx, closeTo(0.0, 1e-12));
	expect(Offset.fromDirection(-pi / 2.0).dy, -1.0);
	expect(Offset.fromDirection(0.0), const Offset(1.0, 0.0));
	expect(Offset.fromDirection(pi / 4.0).dx, closeTo(1.0 / math.sqrt(2.0), 1e-12));
	expect(Offset.fromDirection(pi / 4.0).dy, closeTo(1.0 / math.sqrt(2.0), 1e-12));
	expect(Offset.fromDirection(-pi / 4.0).dx, closeTo(1.0 / math.sqrt(2.0), 1e-12));
	expect(Offset.fromDirection(-pi / 4.0).dy, closeTo(-1.0 / math.sqrt(2.0), 1e-12));
	expect(Offset.fromDirection(pi).dx, -1.0);
	expect(Offset.fromDirection(pi).dy, closeTo(0.0, 1e-12));
	expect(Offset.fromDirection(pi * 3.0 / 4.0).dx, closeTo(-1.0 / math.sqrt(2.0), 1e-12));
	expect(Offset.fromDirection(pi * 3.0 / 4.0).dy, closeTo(1.0 / math.sqrt(2.0), 1e-12));
	expect(Offset.fromDirection(-pi * 3.0 / 4.0).dx, closeTo(-1.0 / math.sqrt(2.0), 1e-12));
	expect(Offset.fromDirection(-pi * 3.0 / 4.0).dy, closeTo(-1.0 / math.sqrt(2.0), 1e-12));
	expect(Offset.fromDirection(0.0, 2.0), const Offset(2.0, 0.0));
	expect(Offset.fromDirection(pi / 6, 2.0).dx, closeTo(math.sqrt(3.0), 1e-12));
	expect(Offset.fromDirection(pi / 6, 2.0).dy, closeTo(1.0, 1e-12));
	});

	test('Size created from doubles', () {
	const Size size = Size(5.0, 7.0);
	expect(size.width, equals(5.0));
	expect(size.height, equals(7.0));
	expect(size.shortestSide, equals(5.0));
	expect(size.longestSide, equals(7.0));
	});

	test('Size.aspectRatio', () {
	expect(const Size(0.0, 0.0).aspectRatio, 0.0);
	expect(const Size(-0.0, 0.0).aspectRatio, 0.0);
	expect(const Size(0.0, -0.0).aspectRatio, 0.0);
	expect(const Size(-0.0, -0.0).aspectRatio, 0.0);
	expect(const Size(0.0, 1.0).aspectRatio, 0.0);
	expect(const Size(0.0, -1.0).aspectRatio, -0.0);
	expect(const Size(1.0, 0.0).aspectRatio, double.infinity);
	expect(const Size(1.0, 1.0).aspectRatio, 1.0);
	expect(const Size(1.0, -1.0).aspectRatio, -1.0);
	expect(const Size(-1.0, 0.0).aspectRatio, -double.infinity);
	expect(const Size(-1.0, 1.0).aspectRatio, -1.0);
	expect(const Size(-1.0, -1.0).aspectRatio, 1.0);
	expect(const Size(3.0, 4.0).aspectRatio, 3.0 / 4.0);
	});

	test('Rect.toString test', () {
	const Rect r = Rect.fromLTRB(1.0, 3.0, 5.0, 7.0);
	expect(r.toString(), 'Rect.fromLTRB(1.0, 3.0, 5.0, 7.0)');
	});

	test('Rect accessors', () {
	const Rect r = Rect.fromLTRB(1.0, 3.0, 5.0, 7.0);
	expect(r.left, equals(1.0));
	expect(r.top, equals(3.0));
	expect(r.right, equals(5.0));
	expect(r.bottom, equals(7.0));
	});

	test('Rect.fromCenter', () {
	Rect rect = Rect.fromCenter(center: const Offset(1.0, 3.0), width: 5.0, height: 7.0);
	expect(rect.left, -1.5);
	expect(rect.top, -0.5);
	expect(rect.right, 3.5);
	expect(rect.bottom, 6.5);

	rect = Rect.fromCenter(center: const Offset(0.0, 0.0), width: 0.0, height: 0.0);
	expect(rect.left, 0.0);
	expect(rect.top, 0.0);
	expect(rect.right, 0.0);
	expect(rect.bottom, 0.0);

	rect = Rect.fromCenter(center: const Offset(double.nan, 0.0), width: 0.0, height: 0.0);
	expect(rect.left, isNaN);
	expect(rect.top, 0.0);
	expect(rect.right, isNaN);
	expect(rect.bottom, 0.0);

	rect = Rect.fromCenter(center: const Offset(0.0, double.nan), width: 0.0, height: 0.0);
	expect(rect.left, 0.0);
	expect(rect.top, isNaN);
	expect(rect.right, 0.0);
	expect(rect.bottom, isNaN);
	});

	test('Rect created by width and height', () {
	const Rect r = Rect.fromLTWH(1.0, 3.0, 5.0, 7.0);
	expect(r.left, equals(1.0));
	expect(r.top, equals(3.0));
	expect(r.right, equals(6.0));
	expect(r.bottom, equals(10.0));
	expect(r.shortestSide, equals(5.0));
	expect(r.longestSide, equals(7.0));
	});

	test('Rect intersection', () {
	const Rect r1 = Rect.fromLTRB(0.0, 0.0, 100.0, 100.0);
	const Rect r2 = Rect.fromLTRB(50.0, 50.0, 200.0, 200.0);
	final Rect r3 = r1.intersect(r2);
	expect(r3.left, equals(50.0));
	expect(r3.top, equals(50.0));
	expect(r3.right, equals(100.0));
	expect(r3.bottom, equals(100.0));
	final Rect r4 = r2.intersect(r1);
	expect(r4, equals(r3));
	});

	test('Rect expandToInclude overlapping rects', () {
	const Rect r1 = Rect.fromLTRB(0.0, 0.0, 100.0, 100.0);
	const Rect r2 = Rect.fromLTRB(50.0, 50.0, 200.0, 200.0);
	final Rect r3 = r1.expandToInclude(r2);
	expect(r3.left, equals(0.0));
	expect(r3.top, equals(0.0));
	expect(r3.right, equals(200.0));
	expect(r3.bottom, equals(200.0));

	final Rect r4 = r2.expandToInclude(r1);
	expect(r4, equals(r3));
	});

	test('Rect expandToInclude crossing rects', () {
	const Rect r1 = Rect.fromLTRB(50.0, 0.0, 50.0, 200.0);
	const Rect r2 = Rect.fromLTRB(0.0, 50.0, 200.0, 50.0);
	final Rect r3 = r1.expandToInclude(r2);
	expect(r3.left, equals(0.0));
	expect(r3.top, equals(0.0));
	expect(r3.right, equals(200.0));
	expect(r3.bottom, equals(200.0));

	final Rect r4 = r2.expandToInclude(r1);
	expect(r4, equals(r3));
	});

	test('RRect.fromRectXY', () {
	const Rect baseRect = Rect.fromLTWH(1.0, 3.0, 5.0, 7.0);
	final RRect r = RRect.fromRectXY(baseRect, 1.0, 1.0);
	expect(r.left, equals(1.0));
	expect(r.top, equals(3.0));
	expect(r.right, equals(6.0));
	expect(r.bottom, equals(10.0));
	expect(r.shortestSide, equals(5.0));
	expect(r.longestSide, equals(7.0));
	});

	test('RRect.contains()', () {
	final RRect rrect = RRect.fromRectAndCorners(
	const Rect.fromLTRB(1.0, 1.0, 2.0, 2.0),
	topLeft: const Radius.circular(0.5),
	topRight: const Radius.circular(0.25),
	bottomRight: const Radius.elliptical(0.25, 0.75),
	);

	expect(rrect.contains(const Offset(1.0, 1.0)), isFalse);
	expect(rrect.contains(const Offset(1.1, 1.1)), isFalse);
	expect(rrect.contains(const Offset(1.15, 1.15)), isTrue);
	expect(rrect.contains(const Offset(2.0, 1.0)), isFalse);
	expect(rrect.contains(const Offset(1.93, 1.07)), isFalse);
	expect(rrect.contains(const Offset(1.97, 1.7)), isFalse);
	expect(rrect.contains(const Offset(1.7, 1.97)), isTrue);
	expect(rrect.contains(const Offset(1.0, 1.99)), isTrue);
	});

	test('RRect.contains() large radii', () {
	final RRect rrect = RRect.fromRectAndCorners(
	const Rect.fromLTRB(1.0, 1.0, 2.0, 2.0),
	topLeft: const Radius.circular(5000.0),
	topRight: const Radius.circular(2500.0),
	bottomRight: const Radius.elliptical(2500.0, 7500.0),
	);

	expect(rrect.contains(const Offset(1.0, 1.0)), isFalse);
	expect(rrect.contains(const Offset(1.1, 1.1)), isFalse);
	expect(rrect.contains(const Offset(1.15, 1.15)), isTrue);
	expect(rrect.contains(const Offset(2.0, 1.0)), isFalse);
	expect(rrect.contains(const Offset(1.93, 1.07)), isFalse);
	expect(rrect.contains(const Offset(1.97, 1.7)), isFalse);
	expect(rrect.contains(const Offset(1.7, 1.97)), isTrue);
	expect(rrect.contains(const Offset(1.0, 1.99)), isTrue);
	});

	test('RRect.scaleRadii() properly constrained radii should remain unchanged', () {
	final RRect rrect = RRect.fromRectAndCorners(
	const Rect.fromLTRB(1.0, 1.0, 2.0, 2.0),
	topLeft: const Radius.circular(0.5),
	topRight: const Radius.circular(0.25),
	bottomRight: const Radius.elliptical(0.25, 0.75),
	).scaleRadii();

	// check sides
	expect(rrect.left, 1.0);
	expect(rrect.top, 1.0);
	expect(rrect.right, 2.0);
	expect(rrect.bottom, 2.0);

	// check corner radii
	expect(rrect.tlRadiusX, 0.5);
	expect(rrect.tlRadiusY, 0.5);
	expect(rrect.trRadiusX, 0.25);
	expect(rrect.trRadiusY, 0.25);
	expect(rrect.blRadiusX, 0.0);
	expect(rrect.blRadiusY, 0.0);
	expect(rrect.brRadiusX, 0.25);
	expect(rrect.brRadiusY, 0.75);
	});

	test('RRect.scaleRadii() sum of radii that exceed side length should properly scale', () {
	final RRect rrect = RRect.fromRectAndCorners(
	const Rect.fromLTRB(1.0, 1.0, 2.0, 2.0),
	topLeft: const Radius.circular(5000.0),
	topRight: const Radius.circular(2500.0),
	bottomRight: const Radius.elliptical(2500.0, 7500.0),
	).scaleRadii();

	// check sides
	expect(rrect.left, 1.0);
	expect(rrect.top, 1.0);
	expect(rrect.right, 2.0);
	expect(rrect.bottom, 2.0);

	// check corner radii
	expect(rrect.tlRadiusX, 0.5);
	expect(rrect.tlRadiusY, 0.5);
	expect(rrect.trRadiusX, 0.25);
	expect(rrect.trRadiusY, 0.25);
	expect(rrect.blRadiusX, 0.0);
	expect(rrect.blRadiusY, 0.0);
	expect(rrect.brRadiusX, 0.25);
	expect(rrect.brRadiusY, 0.75);
	});

	test('Radius.clamp() operates as expected', () {
	final RRect rrectMin = RRect.fromLTRBR(1, 3, 5, 7,
	const Radius.circular(-100).clamp(minimum: Radius.zero));

	expect(rrectMin.left, 1);
	expect(rrectMin.top, 3);
	expect(rrectMin.right, 5);
	expect(rrectMin.bottom, 7);
	expect(rrectMin.trRadius, equals(const Radius.circular(0)));
	expect(rrectMin.blRadius, equals(const Radius.circular(0)));

	final RRect rrectMax = RRect.fromLTRBR(1, 3, 5, 7,
	const Radius.circular(100).clamp(maximum: const Radius.circular(10)));

	expect(rrectMax.left, 1);
	expect(rrectMax.top, 3);
	expect(rrectMax.right, 5);
	expect(rrectMax.bottom, 7);
	expect(rrectMax.trRadius, equals(const Radius.circular(10)));
	expect(rrectMax.blRadius, equals(const Radius.circular(10)));

	final RRect rrectMix = RRect.fromLTRBR(1, 3, 5, 7,
	const Radius.elliptical(-100, 100).clamp(minimum: Radius.zero, maximum: const Radius.circular(10)));

	expect(rrectMix.left, 1);
	expect(rrectMix.top, 3);
	expect(rrectMix.right, 5);
	expect(rrectMix.bottom, 7);
	expect(rrectMix.trRadius, equals(const Radius.elliptical(0, 10)));
	expect(rrectMix.blRadius, equals(const Radius.elliptical(0, 10)));

	final RRect rrectMix1 = RRect.fromLTRBR(1, 3, 5, 7,
	const Radius.elliptical(100, -100).clamp(minimum: Radius.zero, maximum: const Radius.circular(10)));

	expect(rrectMix1.left, 1);
	expect(rrectMix1.top, 3);
	expect(rrectMix1.right, 5);
	expect(rrectMix1.bottom, 7);
	expect(rrectMix1.trRadius, equals(const Radius.elliptical(10, 0)));
	expect(rrectMix1.blRadius, equals(const Radius.elliptical(10, 0)));
	});

	test('Radius.clampValues() operates as expected', () {
	final RRect rrectMin = RRect.fromLTRBR(1, 3, 5, 7,
	const Radius.circular(-100).clampValues(minimumX: 0, minimumY: 0));

	expect(rrectMin.left, 1);
	expect(rrectMin.top, 3);
	expect(rrectMin.right, 5);
	expect(rrectMin.bottom, 7);
	expect(rrectMin.trRadius, equals(const Radius.circular(0)));
	expect(rrectMin.blRadius, equals(const Radius.circular(0)));

	final RRect rrectMax = RRect.fromLTRBR(1, 3, 5, 7,
	const Radius.circular(100).clampValues(maximumX: 10, maximumY: 20));

	expect(rrectMax.left, 1);
	expect(rrectMax.top, 3);
	expect(rrectMax.right, 5);
	expect(rrectMax.bottom, 7);
	expect(rrectMax.trRadius, equals(const Radius.elliptical(10, 20)));
	expect(rrectMax.blRadius, equals(const Radius.elliptical(10, 20)));

	final RRect rrectMix = RRect.fromLTRBR(1, 3, 5, 7,
	const Radius.elliptical(-100, 100).clampValues(minimumX: 5, minimumY: 6, maximumX: 10, maximumY: 20));

	expect(rrectMix.left, 1);
	expect(rrectMix.top, 3);
	expect(rrectMix.right, 5);
	expect(rrectMix.bottom, 7);
	expect(rrectMix.trRadius, equals(const Radius.elliptical(5, 20)));
	expect(rrectMix.blRadius, equals(const Radius.elliptical(5, 20)));

	final RRect rrectMix2 = RRect.fromLTRBR(1, 3, 5, 7,
	const Radius.elliptical(100, -100).clampValues(minimumX: 5, minimumY: 6, maximumX: 10, maximumY: 20));

	expect(rrectMix2.left, 1);
	expect(rrectMix2.top, 3);
	expect(rrectMix2.right, 5);
	expect(rrectMix2.bottom, 7);
	expect(rrectMix2.trRadius, equals(const Radius.elliptical(10, 6)));
	expect(rrectMix2.blRadius, equals(const Radius.elliptical(10, 6)));
	});

	test('RRect asserts when corner radii are negative', () {
	bool assertsEnabled = false;
	assert(() {
	assertsEnabled = true;
	return true;
	}());
	if (!assertsEnabled) {
	return;
	}

	expect(() {
	RRect.fromRectAndCorners(
	const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
	topLeft: const Radius.circular(-1),
	);
	}, throwsA(isInstanceOf<AssertionError>()));

	expect(() {
	RRect.fromRectAndCorners(
	const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
	topRight: const Radius.circular(-2),
	);
	}, throwsA(isInstanceOf<AssertionError>()));

	expect(() {
	RRect.fromRectAndCorners(
	const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
	bottomLeft: const Radius.circular(-3),
	);
	}, throwsA(isInstanceOf<AssertionError>()));

	expect(() {
	RRect.fromRectAndCorners(
	const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
	bottomRight: const Radius.circular(-4),
	);
	}, throwsA(isInstanceOf<AssertionError>()));
	});

	test('RRect.inflate clamps when deflating past zero', () {
	RRect rrect = RRect.fromRectAndCorners(
	const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
	topLeft: const Radius.circular(1),
	topRight: const Radius.circular(2),
	bottomLeft: const Radius.circular(3),
	bottomRight: const Radius.circular(4),
	).inflate(-1);

	expect(rrect.tlRadiusX, 0);
	expect(rrect.tlRadiusY, 0);
	expect(rrect.trRadiusX, 1);
	expect(rrect.trRadiusY, 1);
	expect(rrect.blRadiusX, 2);
	expect(rrect.blRadiusY, 2);
	expect(rrect.brRadiusX, 3);
	expect(rrect.brRadiusY, 3);

	rrect = rrect.inflate(-1);
	expect(rrect.tlRadiusX, 0);
	expect(rrect.tlRadiusY, 0);
	expect(rrect.trRadiusX, 0);
	expect(rrect.trRadiusY, 0);
	expect(rrect.blRadiusX, 1);
	expect(rrect.blRadiusY, 1);
	expect(rrect.brRadiusX, 2);
	expect(rrect.brRadiusY, 2);

	rrect = rrect.inflate(-1);
	expect(rrect.tlRadiusX, 0);
	expect(rrect.tlRadiusY, 0);
	expect(rrect.trRadiusX, 0);
	expect(rrect.trRadiusY, 0);
	expect(rrect.blRadiusX, 0);
	expect(rrect.blRadiusY, 0);
	expect(rrect.brRadiusX, 1);
	expect(rrect.brRadiusY, 1);

	rrect = rrect.inflate(-1);
	expect(rrect.tlRadiusX, 0);
	expect(rrect.tlRadiusY, 0);
	expect(rrect.trRadiusX, 0);
	expect(rrect.trRadiusY, 0);
	expect(rrect.blRadiusX, 0);
	expect(rrect.blRadiusY, 0);
	expect(rrect.brRadiusX, 0);
	expect(rrect.brRadiusY, 0);
	});

	test('RRect.deflate clamps when deflating past zero', () {
	RRect rrect = RRect.fromRectAndCorners(
	const Rect.fromLTRB(10.0, 20.0, 30.0, 40.0),
	topLeft: const Radius.circular(1),
	topRight: const Radius.circular(2),
	bottomLeft: const Radius.circular(3),
	bottomRight: const Radius.circular(4),
	).deflate(1);

	expect(rrect.tlRadiusX, 0);
	expect(rrect.tlRadiusY, 0);
	expect(rrect.trRadiusX, 1);
	expect(rrect.trRadiusY, 1);
	expect(rrect.blRadiusX, 2);
	expect(rrect.blRadiusY, 2);
	expect(rrect.brRadiusX, 3);
	expect(rrect.brRadiusY, 3);

	rrect = rrect.deflate(1);
	expect(rrect.tlRadiusX, 0);
	expect(rrect.tlRadiusY, 0);
	expect(rrect.trRadiusX, 0);
	expect(rrect.trRadiusY, 0);
	expect(rrect.blRadiusX, 1);
	expect(rrect.blRadiusY, 1);
	expect(rrect.brRadiusX, 2);
	expect(rrect.brRadiusY, 2);

	rrect = rrect.deflate(1);
	expect(rrect.tlRadiusX, 0);
	expect(rrect.tlRadiusY, 0);
	expect(rrect.trRadiusX, 0);
	expect(rrect.trRadiusY, 0);
	expect(rrect.blRadiusX, 0);
	expect(rrect.blRadiusY, 0);
	expect(rrect.brRadiusX, 1);
	expect(rrect.brRadiusY, 1);

	rrect = rrect.deflate(1);
	expect(rrect.tlRadiusX, 0);
	expect(rrect.tlRadiusY, 0);
	expect(rrect.trRadiusX, 0);
	expect(rrect.trRadiusY, 0);
	expect(rrect.blRadiusX, 0);
	expect(rrect.blRadiusY, 0);
	expect(rrect.brRadiusX, 0);
	expect(rrect.brRadiusY, 0);
	});
	}