modules/pathkit/tests/path2d.spec.js - skia - Git at Google

 describe('PathKit\'s Path2D API', function() {
     it('can do everything in the Path2D API w/o crashing', function(done) {
         LoadPathKit.then(catchException(done, () => {
             // This is taken from example.html
             let path = PathKit.NewPath();

             path.moveTo(20, 5);
             path.lineTo(30, 20);
             path.lineTo(40, 10);
             path.lineTo(50, 20);
             path.lineTo(60, 0);
             path.lineTo(20, 5);

             path.moveTo(20, 80);
             path.bezierCurveTo(90, 10, 160, 150, 190, 10);

             path.moveTo(36, 148);
             path.quadraticCurveTo(66, 188, 120, 136);
             path.lineTo(36, 148);

             path.rect(5, 170, 20, 20);

             path.moveTo(150, 180);
             path.arcTo(150, 100, 50, 200, 20);
             path.lineTo(160, 160);

             path.moveTo(20, 120);
             path.arc(20, 120, 18, 0, 1.75 * Math.PI);
             path.lineTo(20, 120);

             let secondPath = PathKit.NewPath();
             secondPath.ellipse(130, 25, 30, 10, -1*Math.PI/8, Math.PI/6, 1.5*Math.PI, false);

             path.addPath(secondPath);

             let m = document.createElementNS('http://www.w3.org/2000/svg', 'svg').createSVGMatrix();
             m.a = 1; m.b = 0;
             m.c = 0; m.d = 1;
             m.e = 0; m.f = 20.5;

             path.addPath(secondPath, m);

             let canvas = document.createElement('canvas');
             let canvasCtx = canvas.getContext('2d');
             // Set canvas size and make it a bit bigger to zoom in on the lines
             standardizedCanvasSize(canvasCtx);
             canvasCtx.scale(3.0, 3.0);
             canvasCtx.fillStyle = 'blue';
             canvasCtx.stroke(path.toPath2D());

             let svgPath = document.createElementNS('http://www.w3.org/2000/svg', 'path');
             svgPath.setAttribute('stroke', 'black');
             svgPath.setAttribute('fill', 'rgba(255,255,255,0.0)');
             svgPath.setAttribute('transform', 'scale(3.0, 3.0)');
             svgPath.setAttribute('d', path.toSVGString());

             let newSVG = document.createElementNS('http://www.w3.org/2000/svg', 'svg');
             newSVG.appendChild(svgPath);
             newSVG.setAttribute('xmlns', 'http://www.w3.org/2000/svg');
             newSVG.setAttribute('width', 600);
             newSVG.setAttribute('height', 600);

             path.delete();
             secondPath.delete();

             reportCanvas(canvas, 'path2D_api_example').then(() => {
                 reportSVG(newSVG, 'path2D_api_example').then(() => {
                     done();
                 }).catch(reportError(done));
             }).catch(reportError(done));
         }));
     });

     it('can chain by returning the same object', function(done) {
         LoadPathKit.then(catchException(done, () => {
             let path = PathKit.NewPath();

             let p1 = path.moveTo(20, 5)
                 .lineTo(30, 20)
                 .quadTo(66, 188, 120, 136)
                 .close();

             // these should be the same object
             expect(path === p1).toBe(true);
             p1.delete();
             try {
                 // This should throw an exception because
                 // the underlying path was already deleted.
                 path.delete();
                 expect('should not have gotten here').toBe(false);
             } catch (e) {
                 // all is well
             }
             done();
         }));
     });

     it('does not leak path objects when chaining', function(done) {
         LoadPathKit.then(catchException(done, () => {
             // By default, we have 16 MB of memory assigned to our PathKit
             // library. This can be configured by -S TOTAL_MEMORY=NN
             // and defaults to 16MB (we likely don't need to touch this).
             // If there's a leak in here, we should OOM pretty quick.
             // Testing showed around 50k is enough to see one if we leak a path,
             // so run 250k times just to be safe.
             for(let i = 0; i < 250000; i++) {
                 let path = PathKit.NewPath()
                                   .moveTo(20, 5)
                                   .lineTo(30, 20)
                                   .quadTo(66, 188, 120, 136)
                                   .close();
                 path.delete();
             }
             done();
         }));
     });

     function drawTriangle() {
         let path = PathKit.NewPath();
         path.moveTo(0, 0);
         path.lineTo(10, 0);
         path.lineTo(10, 10);
         path.close();
         return path;
     }

     it('has multiple overloads of addPath', function(done) {
         LoadPathKit.then(catchException(done, () => {
             let basePath = PathKit.NewPath();
             let otherPath = drawTriangle();
             // These add path call can be chained.
             // add it unchanged
             basePath.addPath(otherPath)
             // providing the 6 params of an SVG matrix to make it appear 20.5 px down
                     .addPath(otherPath, 1, 0, 0, 1, 0, 20.5)
             // provide the full 9 matrix params to make it appear 30 px to the right
             // and be 3 times as big.
                     .addPath(otherPath, 3, 0, 30,
                                         0, 3, 0,
                                         0, 0, 1);

             reportPath(basePath, 'add_path_3x', done);
             basePath.delete();
             otherPath.delete();
         }));
     });

     it('approximates arcs (conics) with quads', function(done) {
         LoadPathKit.then(catchException(done, () => {
             let path = PathKit.NewPath();
             path.moveTo(50, 120);
             path.arc(50, 120, 45, 0, 1.75 * Math.PI);
             path.lineTo(50, 120);

             let canvas = document.createElement('canvas');
             let canvasCtx = canvas.getContext('2d');
             standardizedCanvasSize(canvasCtx);
             // The and.callThrough is important to make it actually
             // draw the quadratics
             spyOn(canvasCtx, 'quadraticCurveTo').and.callThrough();

             canvasCtx.beginPath();
             path.toCanvas(canvasCtx);
             canvasCtx.stroke();
             // No need to check the whole path, as that's more what the
             // gold correctness tests are for (can account for changes we make
             // to the approximation algorithms).
             expect(canvasCtx.quadraticCurveTo).toHaveBeenCalled();
             path.delete();
             reportCanvas(canvas, 'conics_quads_approx').then(() => {
                 done();
             }).catch(reportError(done));
         }));
     });

 });
	describe('PathKit\'s Path2D API', function() {
	it('can do everything in the Path2D API w/o crashing', function(done) {
	LoadPathKit.then(catchException(done, () => {
	// This is taken from example.html
	let path = PathKit.NewPath();

	path.moveTo(20, 5);
	path.lineTo(30, 20);
	path.lineTo(40, 10);
	path.lineTo(50, 20);
	path.lineTo(60, 0);
	path.lineTo(20, 5);

	path.moveTo(20, 80);
	path.bezierCurveTo(90, 10, 160, 150, 190, 10);

	path.moveTo(36, 148);
	path.quadraticCurveTo(66, 188, 120, 136);
	path.lineTo(36, 148);

	path.rect(5, 170, 20, 20);

	path.moveTo(150, 180);
	path.arcTo(150, 100, 50, 200, 20);
	path.lineTo(160, 160);

	path.moveTo(20, 120);
	path.arc(20, 120, 18, 0, 1.75 * Math.PI);
	path.lineTo(20, 120);

	let secondPath = PathKit.NewPath();
	secondPath.ellipse(130, 25, 30, 10, -1Math.PI/8, Math.PI/6, 1.5Math.PI, false);

	path.addPath(secondPath);

	let m = document.createElementNS('http://www.w3.org/2000/svg', 'svg').createSVGMatrix();
	m.a = 1; m.b = 0;
	m.c = 0; m.d = 1;
	m.e = 0; m.f = 20.5;

	path.addPath(secondPath, m);

	let canvas = document.createElement('canvas');
	let canvasCtx = canvas.getContext('2d');
	// Set canvas size and make it a bit bigger to zoom in on the lines
	standardizedCanvasSize(canvasCtx);
	canvasCtx.scale(3.0, 3.0);
	canvasCtx.fillStyle = 'blue';
	canvasCtx.stroke(path.toPath2D());

	let svgPath = document.createElementNS('http://www.w3.org/2000/svg', 'path');
	svgPath.setAttribute('stroke', 'black');
	svgPath.setAttribute('fill', 'rgba(255,255,255,0.0)');
	svgPath.setAttribute('transform', 'scale(3.0, 3.0)');
	svgPath.setAttribute('d', path.toSVGString());

	let newSVG = document.createElementNS('http://www.w3.org/2000/svg', 'svg');
	newSVG.appendChild(svgPath);
	newSVG.setAttribute('xmlns', 'http://www.w3.org/2000/svg');
	newSVG.setAttribute('width', 600);
	newSVG.setAttribute('height', 600);

	path.delete();
	secondPath.delete();

	reportCanvas(canvas, 'path2D_api_example').then(() => {
	reportSVG(newSVG, 'path2D_api_example').then(() => {
	done();
	}).catch(reportError(done));
	}).catch(reportError(done));
	}));
	});

	it('can chain by returning the same object', function(done) {
	LoadPathKit.then(catchException(done, () => {
	let path = PathKit.NewPath();

	let p1 = path.moveTo(20, 5)
	.lineTo(30, 20)
	.quadTo(66, 188, 120, 136)
	.close();

	// these should be the same object
	expect(path === p1).toBe(true);
	p1.delete();
	try {
	// This should throw an exception because
	// the underlying path was already deleted.
	path.delete();
	expect('should not have gotten here').toBe(false);
	} catch (e) {
	// all is well
	}
	done();
	}));
	});

	it('does not leak path objects when chaining', function(done) {
	LoadPathKit.then(catchException(done, () => {
	// By default, we have 16 MB of memory assigned to our PathKit
	// library. This can be configured by -S TOTAL_MEMORY=NN
	// and defaults to 16MB (we likely don't need to touch this).
	// If there's a leak in here, we should OOM pretty quick.
	// Testing showed around 50k is enough to see one if we leak a path,
	// so run 250k times just to be safe.
	for(let i = 0; i < 250000; i++) {
	let path = PathKit.NewPath()
	.moveTo(20, 5)
	.lineTo(30, 20)
	.quadTo(66, 188, 120, 136)
	.close();
	path.delete();
	}
	done();
	}));
	});

	function drawTriangle() {
	let path = PathKit.NewPath();
	path.moveTo(0, 0);
	path.lineTo(10, 0);
	path.lineTo(10, 10);
	path.close();
	return path;
	}

	it('has multiple overloads of addPath', function(done) {
	LoadPathKit.then(catchException(done, () => {
	let basePath = PathKit.NewPath();
	let otherPath = drawTriangle();
	// These add path call can be chained.
	// add it unchanged
	basePath.addPath(otherPath)
	// providing the 6 params of an SVG matrix to make it appear 20.5 px down
	.addPath(otherPath, 1, 0, 0, 1, 0, 20.5)
	// provide the full 9 matrix params to make it appear 30 px to the right
	// and be 3 times as big.
	.addPath(otherPath, 3, 0, 30,
	0, 3, 0,
	0, 0, 1);

	reportPath(basePath, 'add_path_3x', done);
	basePath.delete();
	otherPath.delete();
	}));
	});

	it('approximates arcs (conics) with quads', function(done) {
	LoadPathKit.then(catchException(done, () => {
	let path = PathKit.NewPath();
	path.moveTo(50, 120);
	path.arc(50, 120, 45, 0, 1.75 * Math.PI);
	path.lineTo(50, 120);

	let canvas = document.createElement('canvas');
	let canvasCtx = canvas.getContext('2d');
	standardizedCanvasSize(canvasCtx);
	// The and.callThrough is important to make it actually
	// draw the quadratics
	spyOn(canvasCtx, 'quadraticCurveTo').and.callThrough();

	canvasCtx.beginPath();
	path.toCanvas(canvasCtx);
	canvasCtx.stroke();
	// No need to check the whole path, as that's more what the
	// gold correctness tests are for (can account for changes we make
	// to the approximation algorithms).
	expect(canvasCtx.quadraticCurveTo).toHaveBeenCalled();
	path.delete();
	reportCanvas(canvas, 'conics_quads_approx').then(() => {
	done();
	}).catch(reportError(done));
	}));
	});

	});