lib/web_ui/test/html/drawing/canvas_arc_golden_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.

 import 'dart:html' as html;
 import 'dart:math' as math;
 import 'package:test/bootstrap/browser.dart';
 import 'package:test/test.dart';
 import 'package:ui/src/engine.dart';
 import 'package:ui/ui.dart';

 import 'package:web_engine_tester/golden_tester.dart';

 void main() {
   internalBootstrapBrowserTest(() => testMain);
 }

 Future<void> testMain() async {
   const Rect region = Rect.fromLTWH(0, 0, 400, 600);

   late BitmapCanvas canvas;

   setUp(() {
     canvas = BitmapCanvas(region, RenderStrategy());
   });

   tearDown(() {
     canvas.rootElement.remove();
   });

   test('draws arcs with largeArc , anticlockwise variations', () async {
     paintArc(canvas, const Offset(0, 0),
         largeArc: false, clockwise: false, distance: 20);
     paintArc(canvas, const Offset(200, 0),
         largeArc: true, clockwise: false, distance: 20);
     paintArc(canvas, const Offset(0, 150),
         largeArc: false, clockwise: true, distance: 20);
     paintArc(canvas, const Offset(200, 150),
         largeArc: true, clockwise: true, distance: 20);
     paintArc(canvas, const Offset(0, 300),
         largeArc: false, clockwise: false, distance: -20);
     paintArc(canvas, const Offset(200, 300),
         largeArc: true, clockwise: false, distance: -20);
     paintArc(canvas, const Offset(0, 400),
         largeArc: false, clockwise: true, distance: -20);
     paintArc(canvas, const Offset(200, 400),
         largeArc: true, clockwise: true, distance: -20);


     html.document.body!.append(canvas.rootElement);
     await matchGoldenFile('canvas_arc_to_point.png', region: region);
   });

   test('Path.addArc that starts new path has correct start point', () async {
     const Rect rect = Rect.fromLTWH(20, 20, 200, 200);
     final Path p = Path()
       ..fillType = PathFillType.evenOdd
       ..addRect(rect)
       ..addArc(Rect.fromCircle(center: rect.center,
           radius: rect.size.shortestSide / 2), 0.25 * math.pi, 1.5 * math.pi);
     canvas.drawPath(p, SurfacePaintData()
       ..color = const Color(0xFFFF9800) // orange
       ..style = PaintingStyle.fill);

     html.document.body!.append(canvas.rootElement);
     await matchGoldenFile('canvas_addarc.png', region: region);
   });

   test('Should render counter clockwise arcs', () async {
     final Path path = Path();
     path.moveTo(149.999999999999997, 50);
     path.lineTo(149.999999999999997, 20);
     path.arcTo(const Rect.fromLTRB(20, 20, 280, 280), 4.71238898038469,
         5.759586531581287 - 4.71238898038469, true);
     path.lineTo(236.60254037844385, 99.99999999999999);
     path.arcTo(const Rect.fromLTRB(50, 50, 250, 250), 5.759586531581287,
         4.71238898038469 - 5.759586531581287, true);
     path.lineTo(149.999999999999997, 20);
     canvas.drawPath(path, SurfacePaintData()
       ..color = const Color(0xFFFF9800) // orange
       ..style = PaintingStyle.fill);

     html.document.body!.append(canvas.rootElement);
     await matchGoldenFile('canvas_addarc_ccw.png', region: region);
   });
 }

 void paintArc(BitmapCanvas canvas, Offset offset,
       {bool largeArc = false, bool clockwise = false, double distance = 0}) {

   final Offset startP =
       Offset(75 - distance + offset.dx, 75 - distance + offset.dy);
   final Offset endP =
       Offset(75.0 + distance + offset.dx, 75.0 + distance + offset.dy);
   canvas.drawRect(
       Rect.fromLTRB(startP.dx, startP.dy, endP.dx, endP.dy),
       SurfacePaintData()
         ..strokeWidth = 1
         ..color = const Color(0xFFFF9800) // orange
         ..style = PaintingStyle.stroke);
   final Path path = Path();
   path.moveTo(startP.dx, startP.dy);
   path.arcToPoint(endP,
       rotation: 45,
       radius: const Radius.elliptical(40, 60),
       largeArc: largeArc,
       clockwise: clockwise);
   canvas.drawPath(
       path,
       SurfacePaintData()
         ..strokeWidth = 2
         ..color = const Color(0x61000000) // black38
         ..style = PaintingStyle.stroke);
 }
	// 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.

	import 'dart:html' as html;
	import 'dart:math' as math;
	import 'package:test/bootstrap/browser.dart';
	import 'package:test/test.dart';
	import 'package:ui/src/engine.dart';
	import 'package:ui/ui.dart';

	import 'package:web_engine_tester/golden_tester.dart';

	void main() {
	internalBootstrapBrowserTest(() => testMain);
	}

	Future<void> testMain() async {
	const Rect region = Rect.fromLTWH(0, 0, 400, 600);

	late BitmapCanvas canvas;

	setUp(() {
	canvas = BitmapCanvas(region, RenderStrategy());
	});

	tearDown(() {
	canvas.rootElement.remove();
	});

	test('draws arcs with largeArc , anticlockwise variations', () async {
	paintArc(canvas, const Offset(0, 0),
	largeArc: false, clockwise: false, distance: 20);
	paintArc(canvas, const Offset(200, 0),
	largeArc: true, clockwise: false, distance: 20);
	paintArc(canvas, const Offset(0, 150),
	largeArc: false, clockwise: true, distance: 20);
	paintArc(canvas, const Offset(200, 150),
	largeArc: true, clockwise: true, distance: 20);
	paintArc(canvas, const Offset(0, 300),
	largeArc: false, clockwise: false, distance: -20);
	paintArc(canvas, const Offset(200, 300),
	largeArc: true, clockwise: false, distance: -20);
	paintArc(canvas, const Offset(0, 400),
	largeArc: false, clockwise: true, distance: -20);
	paintArc(canvas, const Offset(200, 400),
	largeArc: true, clockwise: true, distance: -20);


	html.document.body!.append(canvas.rootElement);
	await matchGoldenFile('canvas_arc_to_point.png', region: region);
	});

	test('Path.addArc that starts new path has correct start point', () async {
	const Rect rect = Rect.fromLTWH(20, 20, 200, 200);
	final Path p = Path()
	..fillType = PathFillType.evenOdd
	..addRect(rect)
	..addArc(Rect.fromCircle(center: rect.center,
	radius: rect.size.shortestSide / 2), 0.25 * math.pi, 1.5 * math.pi);
	canvas.drawPath(p, SurfacePaintData()
	..color = const Color(0xFFFF9800) // orange
	..style = PaintingStyle.fill);

	html.document.body!.append(canvas.rootElement);
	await matchGoldenFile('canvas_addarc.png', region: region);
	});

	test('Should render counter clockwise arcs', () async {
	final Path path = Path();
	path.moveTo(149.999999999999997, 50);
	path.lineTo(149.999999999999997, 20);
	path.arcTo(const Rect.fromLTRB(20, 20, 280, 280), 4.71238898038469,
	5.759586531581287 - 4.71238898038469, true);
	path.lineTo(236.60254037844385, 99.99999999999999);
	path.arcTo(const Rect.fromLTRB(50, 50, 250, 250), 5.759586531581287,
	4.71238898038469 - 5.759586531581287, true);
	path.lineTo(149.999999999999997, 20);
	canvas.drawPath(path, SurfacePaintData()
	..color = const Color(0xFFFF9800) // orange
	..style = PaintingStyle.fill);

	html.document.body!.append(canvas.rootElement);
	await matchGoldenFile('canvas_addarc_ccw.png', region: region);
	});
	}

	void paintArc(BitmapCanvas canvas, Offset offset,
	{bool largeArc = false, bool clockwise = false, double distance = 0}) {

	final Offset startP =
	Offset(75 - distance + offset.dx, 75 - distance + offset.dy);
	final Offset endP =
	Offset(75.0 + distance + offset.dx, 75.0 + distance + offset.dy);
	canvas.drawRect(
	Rect.fromLTRB(startP.dx, startP.dy, endP.dx, endP.dy),
	SurfacePaintData()
	..strokeWidth = 1
	..color = const Color(0xFFFF9800) // orange
	..style = PaintingStyle.stroke);
	final Path path = Path();
	path.moveTo(startP.dx, startP.dy);
	path.arcToPoint(endP,
	rotation: 45,
	radius: const Radius.elliptical(40, 60),
	largeArc: largeArc,
	clockwise: clockwise);
	canvas.drawPath(
	path,
	SurfacePaintData()
	..strokeWidth = 2
	..color = const Color(0x61000000) // black38
	..style = PaintingStyle.stroke);
	}