modules/canvaskit/tests/rtshader.spec.js - skia - Git at Google

 describe('Runtime shader effects', () => {
     let container;

     beforeEach(async () => {
         await LoadCanvasKit;
         container = document.createElement('div');
         container.innerHTML = `
             <canvas width=600 height=600 id=test></canvas>
             <canvas width=600 height=600 id=report></canvas>`;
         document.body.appendChild(container);
     });

     afterEach(() => {
         document.body.removeChild(container);
     });

     // On the SW backend, atan is not supported - a shader is returned, but
     // it will draw blank.
     const spiralSkSL = `
 uniform float rad_scale;
 uniform float2 in_center;
 uniform float4 in_colors0;
 uniform float4 in_colors1;

 void main(float2 p, inout half4 color) {
     float2 pp = p - in_center;
     float radius = sqrt(dot(pp, pp));
     radius = sqrt(radius);
     float angle = atan(pp.y / pp.x);
     float t = (angle + 3.1415926/2) / (3.1415926);
     t += radius * rad_scale;
     t = fract(t);
     color = half4(mix(in_colors0, in_colors1, t));
 }`;

     // TODO(kjlubick) rewrite testRTShader and callers to use gm.
     const testRTShader = (name, done, localMatrix) => {
         const surface = CanvasKit.MakeCanvasSurface('test');
         expect(surface).toBeTruthy('Could not make surface');
         if (!surface) {
             return;
         }
         const spiral = CanvasKit.SkRuntimeEffect.Make(spiralSkSL);
         expect(spiral).toBeTruthy('could not compile program');
         const canvas = surface.getCanvas();
         const paint = new CanvasKit.SkPaint();
         canvas.clear(CanvasKit.BLACK); // black should not be visible
         const shader = spiral.makeShader([
             0.3,
             CANVAS_WIDTH/2, CANVAS_HEIGHT/2,
             1, 0, 0, 1, // solid red
             0, 1, 0, 1], // solid green
             true, /*=opaque*/
             localMatrix);
         paint.setShader(shader);
         canvas.drawRect(CanvasKit.LTRBRect(0, 0, CANVAS_WIDTH, CANVAS_HEIGHT), paint);

         paint.delete();
         shader.delete();
         spiral.delete();

         reportSurface(surface, name, done);
     };

     it('can compile custom shader code', (done) => {
         testRTShader('rtshader_spiral', done);
     });

     it('can apply a matrix to the shader', (done) => {
         testRTShader('rtshader_spiral_translated', done, CanvasKit.SkMatrix.translated(-200, 100));
     });

     const loadBrick = fetch(
         '/assets/brickwork-texture.jpg')
         .then((response) => response.arrayBuffer());
     const loadMandrill = fetch(
         '/assets/mandrill_512.png')
         .then((response) => response.arrayBuffer());

     const thresholdSkSL = `
 in shader before_map;
 in shader after_map;
 in shader threshold_map;

 uniform float cutoff;
 uniform float slope;

 float smooth_cutoff(float x) {
     x = x * slope + (0.5 - slope * cutoff);
     return clamp(x, 0, 1);
 }

 void main(float2 xy, inout half4 color) {
     half4 before = sample(before_map, xy);
     half4 after = sample(after_map, xy);

     float m = smooth_cutoff(sample(threshold_map, xy).r);
     color = mix(before, after, half(m));
 }`;

     // TODO(kjlubick) rewrite testChildrenShader and callers to use gm.
     const testChildrenShader = (name, done, localMatrix) => {
         Promise.all([loadBrick, loadMandrill]).then((values) => {
             catchException(done, () => {
                 const [brickData, mandrillData] = values;
                 const brickImg = CanvasKit.MakeImageFromEncoded(brickData);
                 expect(brickImg).toBeTruthy('brick image could not be loaded');
                 const mandrillImg = CanvasKit.MakeImageFromEncoded(mandrillData);
                 expect(mandrillImg).toBeTruthy('mandrill image could not be loaded');

                 const thresholdEffect = CanvasKit.SkRuntimeEffect.Make(thresholdSkSL);
                 expect(thresholdEffect).toBeTruthy('threshold did not compile');
                 const spiralEffect = CanvasKit.SkRuntimeEffect.Make(spiralSkSL);
                 expect(spiralEffect).toBeTruthy('spiral did not compile');

                 const brickShader = brickImg.makeShader(
                     CanvasKit.TileMode.Decal, CanvasKit.TileMode.Decal,
                     CanvasKit.SkMatrix.scaled(CANVAS_WIDTH/brickImg.width(),
                                               CANVAS_HEIGHT/brickImg.height()));
                 const mandrillShader = mandrillImg.makeShader(
                     CanvasKit.TileMode.Decal, CanvasKit.TileMode.Decal,
                     CanvasKit.SkMatrix.scaled(CANVAS_WIDTH/mandrillImg.width(),
                                               CANVAS_HEIGHT/mandrillImg.height()));
                 const spiralShader = spiralEffect.makeShader([
                     0.8,
                     CANVAS_WIDTH/2, CANVAS_HEIGHT/2,
                     1, 1, 1, 1,
                     0, 0, 0, 1], true);

                 const blendShader = thresholdEffect.makeShaderWithChildren(
                     [0.5, 5],
                     true, [brickShader, mandrillShader, spiralShader], localMatrix);

                 const surface = CanvasKit.MakeCanvasSurface('test');
                 expect(surface).toBeTruthy('Could not make surface');
                 const canvas = surface.getCanvas();
                 const paint = new CanvasKit.SkPaint();
                 canvas.clear(CanvasKit.WHITE);

                 paint.setShader(blendShader);
                 canvas.drawRect(CanvasKit.LTRBRect(0, 0, CANVAS_WIDTH, CANVAS_HEIGHT), paint);

                 brickImg.delete();
                 mandrillImg.delete();
                 thresholdEffect.delete();
                 spiralEffect.delete();
                 brickShader.delete();
                 mandrillShader.delete();
                 spiralShader.delete();
                 blendShader.delete();
                 paint.delete();

                 reportSurface(surface, name, done);
             })();
         });
     }

     it('take other shaders as fragment processors', (done) => {
         testChildrenShader('rtshader_children', done);
     });

     it('apply a local matrix to the children-based shader', (done) => {
         testChildrenShader('rtshader_children_rotated', done, CanvasKit.SkMatrix.rotated(Math.PI/12));
     });
 });
	describe('Runtime shader effects', () => {
	let container;

	beforeEach(async () => {
	await LoadCanvasKit;
	container = document.createElement('div');
	container.innerHTML = `
	<canvas width=600 height=600 id=test></canvas>
	<canvas width=600 height=600 id=report></canvas>`;
	document.body.appendChild(container);
	});

	afterEach(() => {
	document.body.removeChild(container);
	});

	// On the SW backend, atan is not supported - a shader is returned, but
	// it will draw blank.
	const spiralSkSL = `
	uniform float rad_scale;
	uniform float2 in_center;
	uniform float4 in_colors0;
	uniform float4 in_colors1;

	void main(float2 p, inout half4 color) {
	float2 pp = p - in_center;
	float radius = sqrt(dot(pp, pp));
	radius = sqrt(radius);
	float angle = atan(pp.y / pp.x);
	float t = (angle + 3.1415926/2) / (3.1415926);
	t += radius * rad_scale;
	t = fract(t);
	color = half4(mix(in_colors0, in_colors1, t));
	}`;

	// TODO(kjlubick) rewrite testRTShader and callers to use gm.
	const testRTShader = (name, done, localMatrix) => {
	const surface = CanvasKit.MakeCanvasSurface('test');
	expect(surface).toBeTruthy('Could not make surface');
	if (!surface) {
	return;
	}
	const spiral = CanvasKit.SkRuntimeEffect.Make(spiralSkSL);
	expect(spiral).toBeTruthy('could not compile program');
	const canvas = surface.getCanvas();
	const paint = new CanvasKit.SkPaint();
	canvas.clear(CanvasKit.BLACK); // black should not be visible
	const shader = spiral.makeShader([
	0.3,
	CANVAS_WIDTH/2, CANVAS_HEIGHT/2,
	1, 0, 0, 1, // solid red
	0, 1, 0, 1], // solid green
	true, /=opaque/
	localMatrix);
	paint.setShader(shader);
	canvas.drawRect(CanvasKit.LTRBRect(0, 0, CANVAS_WIDTH, CANVAS_HEIGHT), paint);

	paint.delete();
	shader.delete();
	spiral.delete();

	reportSurface(surface, name, done);
	};

	it('can compile custom shader code', (done) => {
	testRTShader('rtshader_spiral', done);
	});

	it('can apply a matrix to the shader', (done) => {
	testRTShader('rtshader_spiral_translated', done, CanvasKit.SkMatrix.translated(-200, 100));
	});

	const loadBrick = fetch(
	'/assets/brickwork-texture.jpg')
	.then((response) => response.arrayBuffer());
	const loadMandrill = fetch(
	'/assets/mandrill_512.png')
	.then((response) => response.arrayBuffer());

	const thresholdSkSL = `
	in shader before_map;
	in shader after_map;
	in shader threshold_map;

	uniform float cutoff;
	uniform float slope;

	float smooth_cutoff(float x) {
	x = x * slope + (0.5 - slope * cutoff);
	return clamp(x, 0, 1);
	}

	void main(float2 xy, inout half4 color) {
	half4 before = sample(before_map, xy);
	half4 after = sample(after_map, xy);

	float m = smooth_cutoff(sample(threshold_map, xy).r);
	color = mix(before, after, half(m));
	}`;

	// TODO(kjlubick) rewrite testChildrenShader and callers to use gm.
	const testChildrenShader = (name, done, localMatrix) => {
	Promise.all([loadBrick, loadMandrill]).then((values) => {
	catchException(done, () => {
	const [brickData, mandrillData] = values;
	const brickImg = CanvasKit.MakeImageFromEncoded(brickData);
	expect(brickImg).toBeTruthy('brick image could not be loaded');
	const mandrillImg = CanvasKit.MakeImageFromEncoded(mandrillData);
	expect(mandrillImg).toBeTruthy('mandrill image could not be loaded');

	const thresholdEffect = CanvasKit.SkRuntimeEffect.Make(thresholdSkSL);
	expect(thresholdEffect).toBeTruthy('threshold did not compile');
	const spiralEffect = CanvasKit.SkRuntimeEffect.Make(spiralSkSL);
	expect(spiralEffect).toBeTruthy('spiral did not compile');

	const brickShader = brickImg.makeShader(
	CanvasKit.TileMode.Decal, CanvasKit.TileMode.Decal,
	CanvasKit.SkMatrix.scaled(CANVAS_WIDTH/brickImg.width(),
	CANVAS_HEIGHT/brickImg.height()));
	const mandrillShader = mandrillImg.makeShader(
	CanvasKit.TileMode.Decal, CanvasKit.TileMode.Decal,
	CanvasKit.SkMatrix.scaled(CANVAS_WIDTH/mandrillImg.width(),
	CANVAS_HEIGHT/mandrillImg.height()));
	const spiralShader = spiralEffect.makeShader([
	0.8,
	CANVAS_WIDTH/2, CANVAS_HEIGHT/2,
	1, 1, 1, 1,
	0, 0, 0, 1], true);

	const blendShader = thresholdEffect.makeShaderWithChildren(
	[0.5, 5],
	true, [brickShader, mandrillShader, spiralShader], localMatrix);

	const surface = CanvasKit.MakeCanvasSurface('test');
	expect(surface).toBeTruthy('Could not make surface');
	const canvas = surface.getCanvas();
	const paint = new CanvasKit.SkPaint();
	canvas.clear(CanvasKit.WHITE);

	paint.setShader(blendShader);
	canvas.drawRect(CanvasKit.LTRBRect(0, 0, CANVAS_WIDTH, CANVAS_HEIGHT), paint);

	brickImg.delete();
	mandrillImg.delete();
	thresholdEffect.delete();
	spiralEffect.delete();
	brickShader.delete();
	mandrillShader.delete();
	spiralShader.delete();
	blendShader.delete();
	paint.delete();

	reportSurface(surface, name, done);
	})();
	});
	}

	it('take other shaders as fragment processors', (done) => {
	testChildrenShader('rtshader_children', done);
	});

	it('apply a local matrix to the children-based shader', (done) => {
	testChildrenShader('rtshader_children_rotated', done, CanvasKit.SkMatrix.rotated(Math.PI/12));
	});
	});