resources/sksl/realistic/RippleShader.rts - skia.git - Git at Google

 // Source: Android Open Source Project
 // https://cs.android.com/android/_/android/platform/frameworks/base/+/main:graphics/java/android/graphics/drawable/RippleShader.java

 uniform vec2 in_origin;
 uniform vec2 in_touch;
 uniform float in_progress;
 uniform float in_maxRadius;
 uniform vec2 in_resolutionScale;
 uniform vec2 in_noiseScale;
 uniform float in_hasMask;
 uniform float in_noisePhase;
 uniform float in_turbulencePhase;
 uniform vec2 in_tCircle1;
 uniform vec2 in_tCircle2;
 uniform vec2 in_tCircle3;
 uniform vec2 in_tRotation1;
 uniform vec2 in_tRotation2;
 uniform vec2 in_tRotation3;
 layout(color) uniform vec4 in_color;
 layout(color) uniform vec4 in_sparkleColor;
 uniform shader in_shader;

 float triangleNoise(vec2 n) {
   n  = fract(n * vec2(5.3987, 5.4421));
   n += dot(n.yx, n.xy + vec2(21.5351, 14.3137));
   float xy = n.x * n.y;
   return fract(xy * 95.4307) + fract(xy * 75.04961) - 1.0;
 }
 const float PI = 3.1415926535897932384626;
 float threshold(float v, float l, float h) {
     return step(l, v) * (1.0 - step(h, v));
 }
 float sparkles(vec2 uv, float t) {
   float n = triangleNoise(uv);
   float s = 0.0;
   for (float i = 0; i < 4; i += 1) {
     float l = i * 0.1;
     float h = l + 0.05;
     float o = sin(PI * (t + 0.35 * i));
     s += threshold(n + o, l, h);
   }
   return saturate(s) * in_sparkleColor.a;
 }
 float softCircle(vec2 uv, vec2 xy, float radius, float blur) {
   float blurHalf = blur * 0.5;
   float d = distance(uv, xy);
   return 1. - smoothstep(1. - blurHalf, 1. + blurHalf, d / radius);
 }
 float softRing(vec2 uv, vec2 xy, float radius, float progress, float blur) {
   float thickness = 0.05 * radius;
   float currentRadius = radius * progress;
   float circle_outer = softCircle(uv, xy, currentRadius + thickness, blur);
   float circle_inner = softCircle(uv, xy, max(currentRadius - thickness, 0.),
     blur);
   return saturate(circle_outer - circle_inner);
 }
 float subProgress(float start, float end, float progress) {
     float sub = clamp(progress, start, end);
     return (sub - start) / (end - start);
 }
 mat2 rotate2d(vec2 rad){
   return mat2(rad.x, -rad.y, rad.y, rad.x);
 }
 float circle_grid(vec2 resolution, vec2 coord, float time, vec2 center,
     vec2 rotation, float cell_diameter) {
   coord = rotate2d(rotation) * (center - coord) + center;
   coord = mod(coord, cell_diameter) / resolution;
   float normal_radius = cell_diameter / resolution.y * 0.5;
   float radius = 0.65 * normal_radius;
   return softCircle(coord, vec2(normal_radius), radius, radius * 50.0);
 }
 float turbulence(vec2 uv, float t) {
   const vec2 scale = vec2(0.8);
   uv = uv * scale;
   float g1 = circle_grid(scale, uv, t, in_tCircle1, in_tRotation1, 0.17);
   float g2 = circle_grid(scale, uv, t, in_tCircle2, in_tRotation2, 0.2);
   float g3 = circle_grid(scale, uv, t, in_tCircle3, in_tRotation3, 0.275);
   float v = (g1 * g1 + g2 - g3) * 0.5;
   return saturate(0.45 + 0.8 * v);
 }

 vec4 main(vec2 p) {
     float fadeIn = subProgress(0., 0.13, in_progress);
     float scaleIn = subProgress(0., 1.0, in_progress);
     float fadeOutNoise = subProgress(0.4, 0.5, in_progress);
     float fadeOutRipple = subProgress(0.4, 1., in_progress);
     vec2 center = mix(in_touch, in_origin, saturate(in_progress * 2.0));
     float ring = softRing(p, center, in_maxRadius, scaleIn, 1.);
     float alpha = min(fadeIn, 1. - fadeOutNoise);
     vec2 uv = p * in_resolutionScale;
     vec2 densityUv = uv - mod(uv, in_noiseScale);
     float turbulence = turbulence(uv, in_turbulencePhase);
     float sparkleAlpha = sparkles(densityUv, in_noisePhase) * ring * alpha * turbulence;
     float fade = min(fadeIn, 1. - fadeOutRipple);
     float waveAlpha = softCircle(p, center, in_maxRadius * scaleIn, 1.) * fade * in_color.a;
     vec4 waveColor = vec4(in_color.rgb * waveAlpha, waveAlpha);
     vec4 sparkleColor = vec4(in_sparkleColor.rgb * in_sparkleColor.a, in_sparkleColor.a);
     float mask = in_hasMask == 1. ? in_shader.eval(p).a > 0. ? 1. : 0. : 1.;
     return mix(waveColor, sparkleColor, sparkleAlpha) * mask;
 }
	// Source: Android Open Source Project
	// https://cs.android.com/android/_/android/platform/frameworks/base/+/main:graphics/java/android/graphics/drawable/RippleShader.java

	uniform vec2 in_origin;
	uniform vec2 in_touch;
	uniform float in_progress;
	uniform float in_maxRadius;
	uniform vec2 in_resolutionScale;
	uniform vec2 in_noiseScale;
	uniform float in_hasMask;
	uniform float in_noisePhase;
	uniform float in_turbulencePhase;
	uniform vec2 in_tCircle1;
	uniform vec2 in_tCircle2;
	uniform vec2 in_tCircle3;
	uniform vec2 in_tRotation1;
	uniform vec2 in_tRotation2;
	uniform vec2 in_tRotation3;
	layout(color) uniform vec4 in_color;
	layout(color) uniform vec4 in_sparkleColor;
	uniform shader in_shader;

	float triangleNoise(vec2 n) {
	n = fract(n * vec2(5.3987, 5.4421));
	n += dot(n.yx, n.xy + vec2(21.5351, 14.3137));
	float xy = n.x * n.y;
	return fract(xy * 95.4307) + fract(xy * 75.04961) - 1.0;
	}
	const float PI = 3.1415926535897932384626;
	float threshold(float v, float l, float h) {
	return step(l, v) * (1.0 - step(h, v));
	}
	float sparkles(vec2 uv, float t) {
	float n = triangleNoise(uv);
	float s = 0.0;
	for (float i = 0; i < 4; i += 1) {
	float l = i * 0.1;
	float h = l + 0.05;
	float o = sin(PI * (t + 0.35 * i));
	s += threshold(n + o, l, h);
	}
	return saturate(s) * in_sparkleColor.a;
	}
	float softCircle(vec2 uv, vec2 xy, float radius, float blur) {
	float blurHalf = blur * 0.5;
	float d = distance(uv, xy);
	return 1. - smoothstep(1. - blurHalf, 1. + blurHalf, d / radius);
	}
	float softRing(vec2 uv, vec2 xy, float radius, float progress, float blur) {
	float thickness = 0.05 * radius;
	float currentRadius = radius * progress;
	float circle_outer = softCircle(uv, xy, currentRadius + thickness, blur);
	float circle_inner = softCircle(uv, xy, max(currentRadius - thickness, 0.),
	blur);
	return saturate(circle_outer - circle_inner);
	}
	float subProgress(float start, float end, float progress) {
	float sub = clamp(progress, start, end);
	return (sub - start) / (end - start);
	}
	mat2 rotate2d(vec2 rad){
	return mat2(rad.x, -rad.y, rad.y, rad.x);
	}
	float circle_grid(vec2 resolution, vec2 coord, float time, vec2 center,
	vec2 rotation, float cell_diameter) {
	coord = rotate2d(rotation) * (center - coord) + center;
	coord = mod(coord, cell_diameter) / resolution;
	float normal_radius = cell_diameter / resolution.y * 0.5;
	float radius = 0.65 * normal_radius;
	return softCircle(coord, vec2(normal_radius), radius, radius * 50.0);
	}
	float turbulence(vec2 uv, float t) {
	const vec2 scale = vec2(0.8);
	uv = uv * scale;
	float g1 = circle_grid(scale, uv, t, in_tCircle1, in_tRotation1, 0.17);
	float g2 = circle_grid(scale, uv, t, in_tCircle2, in_tRotation2, 0.2);
	float g3 = circle_grid(scale, uv, t, in_tCircle3, in_tRotation3, 0.275);
	float v = (g1 * g1 + g2 - g3) * 0.5;
	return saturate(0.45 + 0.8 * v);
	}

	vec4 main(vec2 p) {
	float fadeIn = subProgress(0., 0.13, in_progress);
	float scaleIn = subProgress(0., 1.0, in_progress);
	float fadeOutNoise = subProgress(0.4, 0.5, in_progress);
	float fadeOutRipple = subProgress(0.4, 1., in_progress);
	vec2 center = mix(in_touch, in_origin, saturate(in_progress * 2.0));
	float ring = softRing(p, center, in_maxRadius, scaleIn, 1.);
	float alpha = min(fadeIn, 1. - fadeOutNoise);
	vec2 uv = p * in_resolutionScale;
	vec2 densityUv = uv - mod(uv, in_noiseScale);
	float turbulence = turbulence(uv, in_turbulencePhase);
	float sparkleAlpha = sparkles(densityUv, in_noisePhase) * ring * alpha * turbulence;
	float fade = min(fadeIn, 1. - fadeOutRipple);
	float waveAlpha = softCircle(p, center, in_maxRadius * scaleIn, 1.) * fade * in_color.a;
	vec4 waveColor = vec4(in_color.rgb * waveAlpha, waveAlpha);
	vec4 sparkleColor = vec4(in_sparkleColor.rgb * in_sparkleColor.a, in_sparkleColor.a);
	float mask = in_hasMask == 1. ? in_shader.eval(p).a > 0. ? 1. : 0. : 1.;
	return mix(waveColor, sparkleColor, sparkleAlpha) * mask;
	}