testing/dart/canvas_test.dart - external/github.com/flutter/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.

 // @dart = 2.6
 import 'dart:io';
 import 'dart:typed_data';
 import 'dart:ui';
 import 'package:image/image.dart' as dart_image;

 import 'package:path/path.dart' as path;
 import 'package:test/test.dart';

 typedef CanvasCallback = void Function(Canvas canvas);

 void testCanvas(CanvasCallback callback) {
   try {
     callback(Canvas(PictureRecorder(), const Rect.fromLTRB(0.0, 0.0, 0.0, 0.0)));
   } catch (error) { } // ignore: empty_catches
 }

 void testNoCrashes() {
   test('canvas APIs should not crash', () async {
     final Paint paint = Paint();
     const Rect rect = Rect.fromLTRB(double.nan, double.nan, double.nan, double.nan);
     final RRect rrect = RRect.fromRectAndCorners(rect);
     const Offset offset = Offset(double.nan, double.nan);
     final Path path = Path();
     const Color color = Color(0);
     final Paragraph paragraph = ParagraphBuilder(ParagraphStyle()).build();

     final PictureRecorder recorder = PictureRecorder();
     final Canvas recorderCanvas = Canvas(recorder);
     recorderCanvas.scale(1.0, 1.0);
     final Picture picture = recorder.endRecording();
     final Image image = await picture.toImage(1, 1);

     try { Canvas(null, null); } catch (error) { } // ignore: empty_catches
     try { Canvas(null, rect); } catch (error) { } // ignore: empty_catches
     try { Canvas(PictureRecorder(), null); } catch (error) { } // ignore: empty_catches
     try { Canvas(PictureRecorder(), rect); } catch (error) { } // ignore: empty_catches

     try {
       PictureRecorder()
         ..endRecording()
         ..endRecording()
         ..endRecording();
     } catch (error) { } // ignore: empty_catches

     testCanvas((Canvas canvas) => canvas.clipPath(path));
     testCanvas((Canvas canvas) => canvas.clipRect(rect));
     testCanvas((Canvas canvas) => canvas.clipRRect(rrect));
     testCanvas((Canvas canvas) => canvas.drawArc(rect, 0.0, 0.0, false, paint));
     testCanvas((Canvas canvas) => canvas.drawAtlas(image, <RSTransform>[], <Rect>[], <Color>[], BlendMode.src, rect, paint));
     testCanvas((Canvas canvas) => canvas.drawCircle(offset, double.nan, paint));
     testCanvas((Canvas canvas) => canvas.drawColor(color, BlendMode.src));
     testCanvas((Canvas canvas) => canvas.drawDRRect(rrect, rrect, paint));
     testCanvas((Canvas canvas) => canvas.drawImage(image, offset, paint));
     testCanvas((Canvas canvas) => canvas.drawImageNine(image, rect, rect, paint));
     testCanvas((Canvas canvas) => canvas.drawImageRect(image, rect, rect, paint));
     testCanvas((Canvas canvas) => canvas.drawLine(offset, offset, paint));
     testCanvas((Canvas canvas) => canvas.drawOval(rect, paint));
     testCanvas((Canvas canvas) => canvas.drawPaint(paint));
     testCanvas((Canvas canvas) => canvas.drawParagraph(paragraph, offset));
     testCanvas((Canvas canvas) => canvas.drawPath(path, paint));
     testCanvas((Canvas canvas) => canvas.drawPicture(picture));
     testCanvas((Canvas canvas) => canvas.drawPoints(PointMode.points, <Offset>[], paint));
     testCanvas((Canvas canvas) => canvas.drawRawAtlas(image, Float32List(0), Float32List(0), Int32List(0), BlendMode.src, rect, paint));
     testCanvas((Canvas canvas) => canvas.drawRawPoints(PointMode.points, Float32List(0), paint));
     testCanvas((Canvas canvas) => canvas.drawRect(rect, paint));
     testCanvas((Canvas canvas) => canvas.drawRRect(rrect, paint));
     testCanvas((Canvas canvas) => canvas.drawShadow(path, color, double.nan, null));
     testCanvas((Canvas canvas) => canvas.drawShadow(path, color, double.nan, false));
     testCanvas((Canvas canvas) => canvas.drawShadow(path, color, double.nan, true));
     testCanvas((Canvas canvas) => canvas.drawVertices(Vertices(VertexMode.triangles, <Offset>[]), null, paint));
     testCanvas((Canvas canvas) => canvas.getSaveCount());
     testCanvas((Canvas canvas) => canvas.restore());
     testCanvas((Canvas canvas) => canvas.rotate(double.nan));
     testCanvas((Canvas canvas) => canvas.save());
     testCanvas((Canvas canvas) => canvas.saveLayer(rect, paint));
     testCanvas((Canvas canvas) => canvas.saveLayer(null, null));
     testCanvas((Canvas canvas) => canvas.scale(double.nan, double.nan));
     testCanvas((Canvas canvas) => canvas.skew(double.nan, double.nan));
     testCanvas((Canvas canvas) => canvas.transform(null));
     testCanvas((Canvas canvas) => canvas.translate(double.nan, double.nan));
   });
 }

 /// @returns true When the images are resonably similar.
 /// @todo Make the search actually fuzzy to a certain degree.
 Future<bool> fuzzyCompareImages(Image golden, Image img) async {
   if (golden.width != img.width || golden.height != img.height) {
     return false;
   }
   int getPixel(ByteData data, int x, int y) => data.getUint32((x + y * golden.width) * 4);
   final ByteData goldenData = await golden.toByteData();
   final ByteData imgData = await img.toByteData();
   for (int y = 0; y < golden.height; y++) {
     for (int x = 0; x < golden.width; x++) {
       if (getPixel(goldenData, x, y) != getPixel(imgData, x, y)) {
         return false;
       }
     }
   }
   return true;
 }

 /// @returns true When the images are resonably similar.
 Future<bool> fuzzyGoldenImageCompare(
     Image image, String goldenImageName) async {
   final String imagesPath = path.join('flutter', 'testing', 'resources');
   final File file = File(path.join(imagesPath, goldenImageName));

   bool areEqual = false;

   if (file.existsSync()) {
     final Uint8List goldenData = await file.readAsBytes();

     final Codec codec = await instantiateImageCodec(goldenData);
     final FrameInfo frame = await codec.getNextFrame();
     expect(frame.image.height, equals(image.width));
     expect(frame.image.width, equals(image.height));

     areEqual = await fuzzyCompareImages(frame.image, image);
   }

   if (!areEqual) {
     final ByteData pngData = await image.toByteData();
     final ByteBuffer buffer = pngData.buffer;
     final dart_image.Image png = dart_image.Image.fromBytes(
         image.width, image.height, buffer.asUint8List());
     final String outPath = path.join(imagesPath, 'found_' + goldenImageName);
     File(outPath)..writeAsBytesSync(dart_image.encodePng(png));
     print('wrote: ' + outPath);
   }
   return areEqual;
 }

 void main() {
   testNoCrashes();

   test('Simple .toImage', () async {
     final PictureRecorder recorder = PictureRecorder();
     final Canvas canvas = Canvas(recorder);
     final Path circlePath = Path()
       ..addOval(
           Rect.fromCircle(center: const Offset(40.0, 40.0), radius: 20.0));
     final Paint paint = Paint()
       ..isAntiAlias = false
       ..style = PaintingStyle.fill;
     canvas.drawPath(circlePath, paint);
     final Picture picture = recorder.endRecording();
     final Image image = await picture.toImage(100, 100);
     expect(image.width, equals(100));
     expect(image.height, equals(100));

     final bool areEqual =
         await fuzzyGoldenImageCompare(image, 'canvas_test_toImage.png');
     expect(areEqual, true);
   });

   Gradient makeGradient() {
     return Gradient.linear(
       Offset.zero,
       const Offset(100, 100),
       const <Color>[Color(0xFF4C4D52), Color(0xFF202124)],
     );
   }

   test('Simple gradient', () async {
     Paint.enableDithering = false;
     final PictureRecorder recorder = PictureRecorder();
     final Canvas canvas = Canvas(recorder);
     final Paint paint = Paint()..shader = makeGradient();
     canvas.drawPaint(paint);
     final Picture picture = recorder.endRecording();
     final Image image = await picture.toImage(100, 100);
     expect(image.width, equals(100));
     expect(image.height, equals(100));

     final bool areEqual =
         await fuzzyGoldenImageCompare(image, 'canvas_test_gradient.png');
     expect(areEqual, true);
   });

   test('Simple dithered gradient', () async {
     Paint.enableDithering = true;
     final PictureRecorder recorder = PictureRecorder();
     final Canvas canvas = Canvas(recorder);
     final Paint paint = Paint()..shader = makeGradient();
     canvas.drawPaint(paint);
     final Picture picture = recorder.endRecording();
     final Image image = await picture.toImage(100, 100);
     expect(image.width, equals(100));
     expect(image.height, equals(100));

     final bool areEqual =
         await fuzzyGoldenImageCompare(image, 'canvas_test_dithered_gradient.png');
     expect(areEqual, true);
   });
 }
	// 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.

	// @dart = 2.6
	import 'dart:io';
	import 'dart:typed_data';
	import 'dart:ui';
	import 'package:image/image.dart' as dart_image;

	import 'package:path/path.dart' as path;
	import 'package:test/test.dart';

	typedef CanvasCallback = void Function(Canvas canvas);

	void testCanvas(CanvasCallback callback) {
	try {
	callback(Canvas(PictureRecorder(), const Rect.fromLTRB(0.0, 0.0, 0.0, 0.0)));
	} catch (error) { } // ignore: empty_catches
	}

	void testNoCrashes() {
	test('canvas APIs should not crash', () async {
	final Paint paint = Paint();
	const Rect rect = Rect.fromLTRB(double.nan, double.nan, double.nan, double.nan);
	final RRect rrect = RRect.fromRectAndCorners(rect);
	const Offset offset = Offset(double.nan, double.nan);
	final Path path = Path();
	const Color color = Color(0);
	final Paragraph paragraph = ParagraphBuilder(ParagraphStyle()).build();

	final PictureRecorder recorder = PictureRecorder();
	final Canvas recorderCanvas = Canvas(recorder);
	recorderCanvas.scale(1.0, 1.0);
	final Picture picture = recorder.endRecording();
	final Image image = await picture.toImage(1, 1);

	try { Canvas(null, null); } catch (error) { } // ignore: empty_catches
	try { Canvas(null, rect); } catch (error) { } // ignore: empty_catches
	try { Canvas(PictureRecorder(), null); } catch (error) { } // ignore: empty_catches
	try { Canvas(PictureRecorder(), rect); } catch (error) { } // ignore: empty_catches

	try {
	PictureRecorder()
	..endRecording()
	..endRecording()
	..endRecording();
	} catch (error) { } // ignore: empty_catches

	testCanvas((Canvas canvas) => canvas.clipPath(path));
	testCanvas((Canvas canvas) => canvas.clipRect(rect));
	testCanvas((Canvas canvas) => canvas.clipRRect(rrect));
	testCanvas((Canvas canvas) => canvas.drawArc(rect, 0.0, 0.0, false, paint));
	testCanvas((Canvas canvas) => canvas.drawAtlas(image, <RSTransform>[], <Rect>[], <Color>[], BlendMode.src, rect, paint));
	testCanvas((Canvas canvas) => canvas.drawCircle(offset, double.nan, paint));
	testCanvas((Canvas canvas) => canvas.drawColor(color, BlendMode.src));
	testCanvas((Canvas canvas) => canvas.drawDRRect(rrect, rrect, paint));
	testCanvas((Canvas canvas) => canvas.drawImage(image, offset, paint));
	testCanvas((Canvas canvas) => canvas.drawImageNine(image, rect, rect, paint));
	testCanvas((Canvas canvas) => canvas.drawImageRect(image, rect, rect, paint));
	testCanvas((Canvas canvas) => canvas.drawLine(offset, offset, paint));
	testCanvas((Canvas canvas) => canvas.drawOval(rect, paint));
	testCanvas((Canvas canvas) => canvas.drawPaint(paint));
	testCanvas((Canvas canvas) => canvas.drawParagraph(paragraph, offset));
	testCanvas((Canvas canvas) => canvas.drawPath(path, paint));
	testCanvas((Canvas canvas) => canvas.drawPicture(picture));
	testCanvas((Canvas canvas) => canvas.drawPoints(PointMode.points, <Offset>[], paint));
	testCanvas((Canvas canvas) => canvas.drawRawAtlas(image, Float32List(0), Float32List(0), Int32List(0), BlendMode.src, rect, paint));
	testCanvas((Canvas canvas) => canvas.drawRawPoints(PointMode.points, Float32List(0), paint));
	testCanvas((Canvas canvas) => canvas.drawRect(rect, paint));
	testCanvas((Canvas canvas) => canvas.drawRRect(rrect, paint));
	testCanvas((Canvas canvas) => canvas.drawShadow(path, color, double.nan, null));
	testCanvas((Canvas canvas) => canvas.drawShadow(path, color, double.nan, false));
	testCanvas((Canvas canvas) => canvas.drawShadow(path, color, double.nan, true));
	testCanvas((Canvas canvas) => canvas.drawVertices(Vertices(VertexMode.triangles, <Offset>[]), null, paint));
	testCanvas((Canvas canvas) => canvas.getSaveCount());
	testCanvas((Canvas canvas) => canvas.restore());
	testCanvas((Canvas canvas) => canvas.rotate(double.nan));
	testCanvas((Canvas canvas) => canvas.save());
	testCanvas((Canvas canvas) => canvas.saveLayer(rect, paint));
	testCanvas((Canvas canvas) => canvas.saveLayer(null, null));
	testCanvas((Canvas canvas) => canvas.scale(double.nan, double.nan));
	testCanvas((Canvas canvas) => canvas.skew(double.nan, double.nan));
	testCanvas((Canvas canvas) => canvas.transform(null));
	testCanvas((Canvas canvas) => canvas.translate(double.nan, double.nan));
	});
	}

	/// @returns true When the images are resonably similar.
	/// @todo Make the search actually fuzzy to a certain degree.
	Future<bool> fuzzyCompareImages(Image golden, Image img) async {
	if (golden.width != img.width \|\| golden.height != img.height) {
	return false;
	}
	int getPixel(ByteData data, int x, int y) => data.getUint32((x + y * golden.width) * 4);
	final ByteData goldenData = await golden.toByteData();
	final ByteData imgData = await img.toByteData();
	for (int y = 0; y < golden.height; y++) {
	for (int x = 0; x < golden.width; x++) {
	if (getPixel(goldenData, x, y) != getPixel(imgData, x, y)) {
	return false;
	}
	}
	}
	return true;
	}

	/// @returns true When the images are resonably similar.
	Future<bool> fuzzyGoldenImageCompare(
	Image image, String goldenImageName) async {
	final String imagesPath = path.join('flutter', 'testing', 'resources');
	final File file = File(path.join(imagesPath, goldenImageName));

	bool areEqual = false;

	if (file.existsSync()) {
	final Uint8List goldenData = await file.readAsBytes();

	final Codec codec = await instantiateImageCodec(goldenData);
	final FrameInfo frame = await codec.getNextFrame();
	expect(frame.image.height, equals(image.width));
	expect(frame.image.width, equals(image.height));

	areEqual = await fuzzyCompareImages(frame.image, image);
	}

	if (!areEqual) {
	final ByteData pngData = await image.toByteData();
	final ByteBuffer buffer = pngData.buffer;
	final dart_image.Image png = dart_image.Image.fromBytes(
	image.width, image.height, buffer.asUint8List());
	final String outPath = path.join(imagesPath, 'found_' + goldenImageName);
	File(outPath)..writeAsBytesSync(dart_image.encodePng(png));
	print('wrote: ' + outPath);
	}
	return areEqual;
	}

	void main() {
	testNoCrashes();

	test('Simple .toImage', () async {
	final PictureRecorder recorder = PictureRecorder();
	final Canvas canvas = Canvas(recorder);
	final Path circlePath = Path()
	..addOval(
	Rect.fromCircle(center: const Offset(40.0, 40.0), radius: 20.0));
	final Paint paint = Paint()
	..isAntiAlias = false
	..style = PaintingStyle.fill;
	canvas.drawPath(circlePath, paint);
	final Picture picture = recorder.endRecording();
	final Image image = await picture.toImage(100, 100);
	expect(image.width, equals(100));
	expect(image.height, equals(100));

	final bool areEqual =
	await fuzzyGoldenImageCompare(image, 'canvas_test_toImage.png');
	expect(areEqual, true);
	});

	Gradient makeGradient() {
	return Gradient.linear(
	Offset.zero,
	const Offset(100, 100),
	const <Color>[Color(0xFF4C4D52), Color(0xFF202124)],
	);
	}

	test('Simple gradient', () async {
	Paint.enableDithering = false;
	final PictureRecorder recorder = PictureRecorder();
	final Canvas canvas = Canvas(recorder);
	final Paint paint = Paint()..shader = makeGradient();
	canvas.drawPaint(paint);
	final Picture picture = recorder.endRecording();
	final Image image = await picture.toImage(100, 100);
	expect(image.width, equals(100));
	expect(image.height, equals(100));

	final bool areEqual =
	await fuzzyGoldenImageCompare(image, 'canvas_test_gradient.png');
	expect(areEqual, true);
	});

	test('Simple dithered gradient', () async {
	Paint.enableDithering = true;
	final PictureRecorder recorder = PictureRecorder();
	final Canvas canvas = Canvas(recorder);
	final Paint paint = Paint()..shader = makeGradient();
	canvas.drawPaint(paint);
	final Picture picture = recorder.endRecording();
	final Image image = await picture.toImage(100, 100);
	expect(image.width, equals(100));
	expect(image.height, equals(100));

	final bool areEqual =
	await fuzzyGoldenImageCompare(image, 'canvas_test_dithered_gradient.png');
	expect(areEqual, true);
	});
	}