examples/game/test_performance.dart - external/github.com/flutter/engine - Git at Google

 import 'dart:sky' as sky;
 import 'dart:math' as math;

 import 'package:sky/mojo/asset_bundle.dart';
 import 'package:sky/rendering/object.dart';
 import 'package:sky/theme/colors.dart' as colors;
 import 'package:sky/widgets.dart';

 import 'lib/sprites.dart';

 AssetBundle _initBundle() {
   if (rootBundle != null)
     return rootBundle;
   return new NetworkAssetBundle(Uri.base);
 }

 final AssetBundle _bundle = _initBundle();

 ImageMap _images;
 SpriteSheet _spriteSheet;
 TestApp _app;

 main() async {
   _images = new ImageMap(_bundle);

   await _images.load([
     'assets/sprites.png'
   ]);

   String json = await _bundle.loadString('assets/sprites.json');
   _spriteSheet = new SpriteSheet(_images['assets/sprites.png'], json);

   _app = new TestApp();
   runApp(_app);
 }

 class TestApp extends App {

   Widget build() {
     ThemeData theme = new ThemeData(
       brightness: ThemeBrightness.light,
       primarySwatch: colors.Purple
     );

     return new Theme(
       data: theme,
       child: new Title(
         title: 'Test Sprite Performance',
         child: new SpriteWidget(new TestPerformance())
       )
     );
   }
 }

 class TestPerformance extends NodeWithSize {
   final int numFramesPerTest = 100;
   final int numTests = 5;

   TestPerformance() : super(new Size(1024.0, 1024.0)) {
   }

   int test = 0;
   int frame = 0;
   int testStartTime;

   void update(double dt) {
     if (frame % numFramesPerTest == 0) {
       if (test > 0 && test <= numTests) {
         // End last test
         int currentTime = new DateTime.now().millisecondsSinceEpoch;
         int totalTestTime = currentTime - testStartTime;
         double millisPerFrame =
           totalTestTime.toDouble() / numFramesPerTest.toDouble();
         print("  - RESULT fps: ${(1.0 / (millisPerFrame / 1000)).toStringAsFixed(1)} millis/frame: ${millisPerFrame.round()}");

         // Clear test
         removeAllChildren();
       }

       if (test < numTests) {
         // Start new test
         PerformanceTest perfTest = createTest(test);
         addChild(perfTest);

         print("TEST ${test + 1}/$numTests STARTING: ${perfTest.name}");

         testStartTime = new DateTime.now().millisecondsSinceEpoch;
       }
       test++;
     }
     frame++;
   }

   PerformanceTest createTest(int n) {
     if (test == 0) {
       // Test atlas performance
       return new TestPerformanceAtlas();
     } else if (test == 1) {
       // Test atlas performance
       return new TestPerformanceAtlas2();
     } else if (test == 2) {
       // Test sprite performance
       return new TestPerformanceSprites();
     } else if (test == 3) {
       // Test sprite performance
       return new TestPerformanceSprites2();
     } else if (test == 4) {
       // Test particle performance
       return new TestPerformanceParticles();
     }
     return null;
   }
 }

 abstract class PerformanceTest extends Node {
   String get name;
 }

 class TestPerformanceParticles extends PerformanceTest {
   String get name => "64 particle systems";

   final grid = 8;
   TestPerformanceParticles() {
     for (int x = 0; x < grid; x++) {
       for (int y = 0; y < grid; y++) {
         ParticleSystem particles = new ParticleSystem(
             _spriteSheet["explosion_particle.png"],
             rotateToMovement: true,
             startRotation:90.0,
             startRotationVar: 0.0,
             endRotation: 90.0,
             startSize: 0.3,
             startSizeVar: 0.1,
             endSize: 0.3,
             endSizeVar: 0.1,
             emissionRate:100.0,
             greenVar: 127,
             redVar: 127
         );
         particles.position = new Point(x * 1024.0 / (grid - 1), y * 1024.0 / (grid - 1));
         addChild(particles);
       }
     }
   }
 }

 class TestPerformanceSprites extends PerformanceTest {
   String get name => "1001 sprites (24% offscreen)";

   final int grid = 100;

   TestPerformanceSprites() {
     for (int x = 0; x < grid; x++) {
       for (int y = 0; y < grid; y++) {
         Sprite sprt = new Sprite(_spriteSheet["asteroid_big_1.png"]);
         sprt.scale = 1.0;
         sprt.position = new Point(x * 1024.0 / (grid - 1), y * 1024.0 / (grid - 1));
         addChild(sprt);

         //sprt.actions.run(new ActionRepeatForever(new ActionTween((a) => sprt.rotation = a, 0.0, 360.0, 1.0)));
       }
     }

     Sprite sprt = new Sprite(_spriteSheet["asteroid_big_1.png"]);
     sprt.position = new Point(512.0, 512.0);
     addChild(sprt);
   }

   void update(double dt) {
     for (Sprite sprt in children) {
       sprt.rotation += 1;
     }
   }
 }

 class TestPerformanceSprites2 extends PerformanceTest {
   String get name => "1001 sprites (24% offscreen never added)";

   final int grid = 100;

   TestPerformanceSprites2() {
     for (int x = 12; x < grid - 12; x++) {
       for (int y = 0; y < grid; y++) {
         Sprite sprt = new Sprite(_spriteSheet["asteroid_big_1.png"]);
         sprt.scale = 1.0;
         sprt.position = new Point(x * 1024.0 / (grid - 1), y * 1024.0 / (grid - 1));
         addChild(sprt);

         //sprt.actions.run(new ActionRepeatForever(new ActionTween((a) => sprt.rotation = a, 0.0, 360.0, 1.0)));
       }
     }

     Sprite sprt = new Sprite(_spriteSheet["asteroid_big_1.png"]);
     sprt.position = new Point(512.0, 512.0);
     addChild(sprt);
   }

   void update(double dt) {
     for (Sprite sprt in children) {
       sprt.rotation += 1;
     }
   }
 }

 class TestPerformanceAtlas extends PerformanceTest {
   String get name => "1001 rects drawAtlas (24% offscreen)";

   final int grid = 100;

   double rotation = 0.0;
   List<Rect> rects = [];
   Paint cachedPaint = new Paint()
     ..setFilterQuality(sky.FilterQuality.low)
     ..isAntiAlias = false;

   TestPerformanceAtlas() {
     for (int x = 0; x < grid; x++) {
       for (int y = 0; y < grid; y++) {
         rects.add(_spriteSheet["asteroid_big_1.png"].frame);
       }
     }
     rects.add(_spriteSheet["asteroid_big_1.png"].frame);
   }

   void paint(PaintingCanvas canvas) {
     // Setup transforms
     List<sky.RSTransform> transforms = [];

     for (int x = 0; x < grid; x++) {
       for (int y = 0; y < grid; y++) {
         double xPos = x * 1024.0 / (grid - 1);
         double yPos = y * 1024.0 / (grid - 1);

         transforms.add(createTransform(xPos, yPos, rects[0].size.width / 2.0, rects[0].size.height / 2.0, rotation, 1.0));
       }
     }

     transforms.add(createTransform(512.0, 512.0, rects[0].size.width / 2.0, rects[0].size.height / 2.0, rotation, 1.0));

     // Draw atlas
     Rect cullRect = spriteBox.visibleArea;
     canvas.drawAtlas(_spriteSheet.image, transforms, rects, null, null, cullRect, cachedPaint);
   }

   void update(double dt) {
     rotation += 1.0;
   }

   sky.RSTransform createTransform(double x, double y, double ax, double ay, double rot, double scale) {
     double scos = math.cos(convertDegrees2Radians(rot)) * scale;
     double ssin = math.sin(convertDegrees2Radians(rot)) * scale;
     double tx = x + -scos * ax + ssin * ay;
     double ty = y + -ssin * ax - scos * ay;
     return new sky.RSTransform(scos, ssin, tx, ty);
   }
 }

 class TestPerformanceAtlas2 extends PerformanceTest {
   String get name => "1001 rects drawAtlas (24% offscreen never added)";

   final int grid = 100;

   double rotation = 0.0;
   List<Rect> rects = [];
   Paint cachedPaint = new Paint()
     ..setFilterQuality(sky.FilterQuality.low)
     ..isAntiAlias = false;

   TestPerformanceAtlas2() {
     for (int x = 12; x < grid - 12; x++) {
       for (int y = 0; y < grid; y++) {
         rects.add(_spriteSheet["asteroid_big_1.png"].frame);
       }
     }
     rects.add(_spriteSheet["asteroid_big_1.png"].frame);
   }

   void paint(PaintingCanvas canvas) {
     // Setup transforms
     List<sky.RSTransform> transforms = [];

     for (int x = 12; x < grid - 12; x++) {
       for (int y = 0; y < grid; y++) {
         double xPos = x * 1024.0 / (grid - 1);
         double yPos = y * 1024.0 / (grid - 1);

         transforms.add(createTransform(xPos, yPos, rects[0].size.width / 2.0, rects[0].size.height / 2.0, rotation, 1.0));
       }
     }

     transforms.add(createTransform(512.0, 512.0, rects[0].size.width / 2.0, rects[0].size.height / 2.0, rotation, 1.0));

     // Draw atlas
     Rect cullRect = spriteBox.visibleArea;
     canvas.drawAtlas(_spriteSheet.image, transforms, rects, null, null, cullRect, cachedPaint);
   }

   void update(double dt) {
     rotation += 1.0;
   }

   sky.RSTransform createTransform(double x, double y, double ax, double ay, double rot, double scale) {
     double scos = math.cos(convertDegrees2Radians(rot)) * scale;
     double ssin = math.sin(convertDegrees2Radians(rot)) * scale;
     double tx = x + -scos * ax + ssin * ay;
     double ty = y + -ssin * ax - scos * ay;
     return new sky.RSTransform(scos, ssin, tx, ty);
   }
 }
	import 'dart:sky' as sky;
	import 'dart:math' as math;

	import 'package:sky/mojo/asset_bundle.dart';
	import 'package:sky/rendering/object.dart';
	import 'package:sky/theme/colors.dart' as colors;
	import 'package:sky/widgets.dart';

	import 'lib/sprites.dart';

	AssetBundle _initBundle() {
	if (rootBundle != null)
	return rootBundle;
	return new NetworkAssetBundle(Uri.base);
	}

	final AssetBundle _bundle = _initBundle();

	ImageMap _images;
	SpriteSheet _spriteSheet;
	TestApp _app;

	main() async {
	_images = new ImageMap(_bundle);

	await _images.load([
	'assets/sprites.png'
	]);

	String json = await _bundle.loadString('assets/sprites.json');
	_spriteSheet = new SpriteSheet(_images['assets/sprites.png'], json);

	_app = new TestApp();
	runApp(_app);
	}

	class TestApp extends App {

	Widget build() {
	ThemeData theme = new ThemeData(
	brightness: ThemeBrightness.light,
	primarySwatch: colors.Purple
	);

	return new Theme(
	data: theme,
	child: new Title(
	title: 'Test Sprite Performance',
	child: new SpriteWidget(new TestPerformance())
	)
	);
	}
	}

	class TestPerformance extends NodeWithSize {
	final int numFramesPerTest = 100;
	final int numTests = 5;

	TestPerformance() : super(new Size(1024.0, 1024.0)) {
	}

	int test = 0;
	int frame = 0;
	int testStartTime;

	void update(double dt) {
	if (frame % numFramesPerTest == 0) {
	if (test > 0 && test <= numTests) {
	// End last test
	int currentTime = new DateTime.now().millisecondsSinceEpoch;
	int totalTestTime = currentTime - testStartTime;
	double millisPerFrame =
	totalTestTime.toDouble() / numFramesPerTest.toDouble();
	print(" - RESULT fps: ${(1.0 / (millisPerFrame / 1000)).toStringAsFixed(1)} millis/frame: ${millisPerFrame.round()}");

	// Clear test
	removeAllChildren();
	}

	if (test < numTests) {
	// Start new test
	PerformanceTest perfTest = createTest(test);
	addChild(perfTest);

	print("TEST ${test + 1}/$numTests STARTING: ${perfTest.name}");

	testStartTime = new DateTime.now().millisecondsSinceEpoch;
	}
	test++;
	}
	frame++;
	}

	PerformanceTest createTest(int n) {
	if (test == 0) {
	// Test atlas performance
	return new TestPerformanceAtlas();
	} else if (test == 1) {
	// Test atlas performance
	return new TestPerformanceAtlas2();
	} else if (test == 2) {
	// Test sprite performance
	return new TestPerformanceSprites();
	} else if (test == 3) {
	// Test sprite performance
	return new TestPerformanceSprites2();
	} else if (test == 4) {
	// Test particle performance
	return new TestPerformanceParticles();
	}
	return null;
	}
	}

	abstract class PerformanceTest extends Node {
	String get name;
	}

	class TestPerformanceParticles extends PerformanceTest {
	String get name => "64 particle systems";

	final grid = 8;
	TestPerformanceParticles() {
	for (int x = 0; x < grid; x++) {
	for (int y = 0; y < grid; y++) {
	ParticleSystem particles = new ParticleSystem(
	_spriteSheet["explosion_particle.png"],
	rotateToMovement: true,
	startRotation:90.0,
	startRotationVar: 0.0,
	endRotation: 90.0,
	startSize: 0.3,
	startSizeVar: 0.1,
	endSize: 0.3,
	endSizeVar: 0.1,
	emissionRate:100.0,
	greenVar: 127,
	redVar: 127
	);
	particles.position = new Point(x * 1024.0 / (grid - 1), y * 1024.0 / (grid - 1));
	addChild(particles);
	}
	}
	}
	}

	class TestPerformanceSprites extends PerformanceTest {
	String get name => "1001 sprites (24% offscreen)";

	final int grid = 100;

	TestPerformanceSprites() {
	for (int x = 0; x < grid; x++) {
	for (int y = 0; y < grid; y++) {
	Sprite sprt = new Sprite(_spriteSheet["asteroid_big_1.png"]);
	sprt.scale = 1.0;
	sprt.position = new Point(x * 1024.0 / (grid - 1), y * 1024.0 / (grid - 1));
	addChild(sprt);

	//sprt.actions.run(new ActionRepeatForever(new ActionTween((a) => sprt.rotation = a, 0.0, 360.0, 1.0)));
	}
	}

	Sprite sprt = new Sprite(_spriteSheet["asteroid_big_1.png"]);
	sprt.position = new Point(512.0, 512.0);
	addChild(sprt);
	}

	void update(double dt) {
	for (Sprite sprt in children) {
	sprt.rotation += 1;
	}
	}
	}

	class TestPerformanceSprites2 extends PerformanceTest {
	String get name => "1001 sprites (24% offscreen never added)";

	final int grid = 100;

	TestPerformanceSprites2() {
	for (int x = 12; x < grid - 12; x++) {
	for (int y = 0; y < grid; y++) {
	Sprite sprt = new Sprite(_spriteSheet["asteroid_big_1.png"]);
	sprt.scale = 1.0;
	sprt.position = new Point(x * 1024.0 / (grid - 1), y * 1024.0 / (grid - 1));
	addChild(sprt);

	//sprt.actions.run(new ActionRepeatForever(new ActionTween((a) => sprt.rotation = a, 0.0, 360.0, 1.0)));
	}
	}

	Sprite sprt = new Sprite(_spriteSheet["asteroid_big_1.png"]);
	sprt.position = new Point(512.0, 512.0);
	addChild(sprt);
	}

	void update(double dt) {
	for (Sprite sprt in children) {
	sprt.rotation += 1;
	}
	}
	}

	class TestPerformanceAtlas extends PerformanceTest {
	String get name => "1001 rects drawAtlas (24% offscreen)";

	final int grid = 100;

	double rotation = 0.0;
	List<Rect> rects = [];
	Paint cachedPaint = new Paint()
	..setFilterQuality(sky.FilterQuality.low)
	..isAntiAlias = false;

	TestPerformanceAtlas() {
	for (int x = 0; x < grid; x++) {
	for (int y = 0; y < grid; y++) {
	rects.add(_spriteSheet["asteroid_big_1.png"].frame);
	}
	}
	rects.add(_spriteSheet["asteroid_big_1.png"].frame);
	}

	void paint(PaintingCanvas canvas) {
	// Setup transforms
	List<sky.RSTransform> transforms = [];

	for (int x = 0; x < grid; x++) {
	for (int y = 0; y < grid; y++) {
	double xPos = x * 1024.0 / (grid - 1);
	double yPos = y * 1024.0 / (grid - 1);

	transforms.add(createTransform(xPos, yPos, rects[0].size.width / 2.0, rects[0].size.height / 2.0, rotation, 1.0));
	}
	}

	transforms.add(createTransform(512.0, 512.0, rects[0].size.width / 2.0, rects[0].size.height / 2.0, rotation, 1.0));

	// Draw atlas
	Rect cullRect = spriteBox.visibleArea;
	canvas.drawAtlas(_spriteSheet.image, transforms, rects, null, null, cullRect, cachedPaint);
	}

	void update(double dt) {
	rotation += 1.0;
	}

	sky.RSTransform createTransform(double x, double y, double ax, double ay, double rot, double scale) {
	double scos = math.cos(convertDegrees2Radians(rot)) * scale;
	double ssin = math.sin(convertDegrees2Radians(rot)) * scale;
	double tx = x + -scos * ax + ssin * ay;
	double ty = y + -ssin * ax - scos * ay;
	return new sky.RSTransform(scos, ssin, tx, ty);
	}
	}

	class TestPerformanceAtlas2 extends PerformanceTest {
	String get name => "1001 rects drawAtlas (24% offscreen never added)";

	final int grid = 100;

	double rotation = 0.0;
	List<Rect> rects = [];
	Paint cachedPaint = new Paint()
	..setFilterQuality(sky.FilterQuality.low)
	..isAntiAlias = false;

	TestPerformanceAtlas2() {
	for (int x = 12; x < grid - 12; x++) {
	for (int y = 0; y < grid; y++) {
	rects.add(_spriteSheet["asteroid_big_1.png"].frame);
	}
	}
	rects.add(_spriteSheet["asteroid_big_1.png"].frame);
	}

	void paint(PaintingCanvas canvas) {
	// Setup transforms
	List<sky.RSTransform> transforms = [];

	for (int x = 12; x < grid - 12; x++) {
	for (int y = 0; y < grid; y++) {
	double xPos = x * 1024.0 / (grid - 1);
	double yPos = y * 1024.0 / (grid - 1);

	transforms.add(createTransform(xPos, yPos, rects[0].size.width / 2.0, rects[0].size.height / 2.0, rotation, 1.0));
	}
	}

	transforms.add(createTransform(512.0, 512.0, rects[0].size.width / 2.0, rects[0].size.height / 2.0, rotation, 1.0));

	// Draw atlas
	Rect cullRect = spriteBox.visibleArea;
	canvas.drawAtlas(_spriteSheet.image, transforms, rects, null, null, cullRect, cachedPaint);
	}

	void update(double dt) {
	rotation += 1.0;
	}

	sky.RSTransform createTransform(double x, double y, double ax, double ay, double rot, double scale) {
	double scos = math.cos(convertDegrees2Radians(rot)) * scale;
	double ssin = math.sin(convertDegrees2Radians(rot)) * scale;
	double tx = x + -scos * ax + ssin * ay;
	double ty = y + -ssin * ax - scos * ay;
	return new sky.RSTransform(scos, ssin, tx, ty);
	}
	}