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

 // Tests for util-related things
 describe('PathKit\'s CubicMap Behavior', function() {
     it('computes YFromX correctly', function(done) {
         LoadPathKit.then(catchException(done, () => {
             // Spot check a few points
             const testcases = [
                 // input x, expected y
                 [0.025391,  0.117627],
                 [0.333984,  0.276221],
                 [0.662109,  0.366052],
                 [0.939453,  0.643296],
             ];
             for (tc of testcases) {
                 expect(PathKit.cubicYFromX(0, 0.5, 1.0, 0, tc[0])).toBeCloseTo(tc[1], 5);
             }
             done();
         }));
     });
     it('computes a point from T correctly', function(done) {
         LoadPathKit.then(catchException(done, () => {
             // Spot check a few points
             const testcases = [
                 // input t, expected x, expected y
                 [0.25, [0.128125, 0.240625]],
                 [0.5,  [0.35, 0.35]],
                 [0.75, [0.646875, 0.534375]],
                 [1.0, [1.0, 1.0]],
             ];
             for (tc of testcases) {
                 let ans = PathKit.cubicPtFromT(0.1, 0.5, 0.5, 0.1, tc[0]);
                 expect(ans).toBeTruthy();
                 expect(ans.length).toBe(2);
                 expect(ans[0]).toBeCloseTo(tc[1][0]);
                 expect(ans[1]).toBeCloseTo(tc[1][1]);
             }
             done();
         }));
     });

     it('does not leak, with or without cache', function(done) {
         LoadPathKit.then(catchException(done, () => {
             // Run it a lot to make sure we don't leak.
             for (let i = 0; i < 300000; i++) {
                 PathKit.cubicYFromX(0.1, 0.5, 0.5, 0.1, 0.1);
                 PathKit.cubicPtFromT(0.1, 0.5, 0.5, 0.1, 0.1);
             }
             done();
         }));
     });

 });
	// Tests for util-related things
	describe('PathKit\'s CubicMap Behavior', function() {
	it('computes YFromX correctly', function(done) {
	LoadPathKit.then(catchException(done, () => {
	// Spot check a few points
	const testcases = [
	// input x, expected y
	[0.025391, 0.117627],
	[0.333984, 0.276221],
	[0.662109, 0.366052],
	[0.939453, 0.643296],
	];
	for (tc of testcases) {
	expect(PathKit.cubicYFromX(0, 0.5, 1.0, 0, tc[0])).toBeCloseTo(tc[1], 5);
	}
	done();
	}));
	});
	it('computes a point from T correctly', function(done) {
	LoadPathKit.then(catchException(done, () => {
	// Spot check a few points
	const testcases = [
	// input t, expected x, expected y
	[0.25, [0.128125, 0.240625]],
	[0.5, [0.35, 0.35]],
	[0.75, [0.646875, 0.534375]],
	[1.0, [1.0, 1.0]],
	];
	for (tc of testcases) {
	let ans = PathKit.cubicPtFromT(0.1, 0.5, 0.5, 0.1, tc[0]);
	expect(ans).toBeTruthy();
	expect(ans.length).toBe(2);
	expect(ans[0]).toBeCloseTo(tc[1][0]);
	expect(ans[1]).toBeCloseTo(tc[1][1]);
	}
	done();
	}));
	});

	it('does not leak, with or without cache', function(done) {
	LoadPathKit.then(catchException(done, () => {
	// Run it a lot to make sure we don't leak.
	for (let i = 0; i < 300000; i++) {
	PathKit.cubicYFromX(0.1, 0.5, 0.5, 0.1, 0.1);
	PathKit.cubicPtFromT(0.1, 0.5, 0.5, 0.1, 0.1);
	}
	done();
	}));
	});

	});