mirror of
https://github.com/italicsjenga/slang-shaders.git
synced 2024-11-25 00:51:29 +11:00
291 lines
7.9 KiB
Plaintext
291 lines
7.9 KiB
Plaintext
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#version 450
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// Wet Stone - TDM - 2014-10-20
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// https://www.shadertoy.com/view/ldSSzV
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// stone generation
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/*
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"Wet stone" by Alexander Alekseev aka TDM - 2014
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License Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License.
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Contact: tdmaav@gmail.com
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*/
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layout(std140, set = 0, binding = 0) uniform UBO
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{
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mat4 MVP;
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vec4 OutputSize;
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vec4 OriginalSize;
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vec4 SourceSize;
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uint FrameCount;
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} global;
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#pragma stage vertex
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layout(location = 0) in vec4 Position;
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layout(location = 1) in vec2 TexCoord;
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layout(location = 0) out vec2 vTexCoord;
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const vec2 madd = vec2(0.5, 0.5);
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void main()
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{
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gl_Position = global.MVP * Position;
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vTexCoord = gl_Position.xy;
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}
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#pragma stage fragment
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layout(location = 0) in vec2 vTexCoord;
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layout(location = 0) out vec4 FragColor;
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float iGlobalTime = float(global.FrameCount)*0.025;
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vec2 iResolution = global.OutputSize.xy;
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#define SMOOTH
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const int NUM_STEPS = 32;
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const int AO_SAMPLES = 3;
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const vec2 AO_PARAM = vec2(1.2, 3.8);
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const vec2 CORNER_PARAM = vec2(0.25, 40.0);
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const float INV_AO_SAMPLES = 1.0 / float(AO_SAMPLES);
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const float TRESHOLD = 0.1;
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const float EPSILON = 1e-3;
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const float LIGHT_INTENSITY = 0.25;
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const vec3 RED = vec3(1.0,0.7,0.7) * LIGHT_INTENSITY;
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const vec3 ORANGE = vec3(1.0,0.67,0.43) * LIGHT_INTENSITY;
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const vec3 BLUE = vec3(0.54,0.77,1.0) * LIGHT_INTENSITY;
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const vec3 WHITE = vec3(1.2,1.07,0.98) * LIGHT_INTENSITY;
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const float DISPLACEMENT = 0.1;
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// math
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mat3 fromEuler(vec3 ang) {
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vec2 a1 = vec2(sin(ang.x),cos(ang.x));
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vec2 a2 = vec2(sin(ang.y),cos(ang.y));
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vec2 a3 = vec2(sin(ang.z),cos(ang.z));
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mat3 m;
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m[0] = vec3(a1.y*a3.y+a1.x*a2.x*a3.x,a1.y*a2.x*a3.x+a3.y*a1.x,-a2.y*a3.x);
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m[1] = vec3(-a2.y*a1.x,a1.y*a2.y,a2.x);
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m[2] = vec3(a3.y*a1.x*a2.x+a1.y*a3.x,a1.x*a3.x-a1.y*a3.y*a2.x,a2.y*a3.y);
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return m;
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}
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float hash11(float p) {
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return fract(sin(p * 727.1)*435.545);
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}
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float hash12(vec2 p) {
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float h = dot(p,vec2(127.1,311.7));
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return fract(sin(h)*437.545);
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}
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vec3 hash31(float p) {
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vec3 h = vec3(127.231,491.7,718.423) * p;
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return fract(sin(h)*435.543);
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}
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// 3d noise
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float noise_3(in vec3 p) {
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vec3 i = floor(p);
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vec3 f = fract(p);
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vec3 u = f*f*(3.0-2.0*f);
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vec2 ii = i.xy + i.z * vec2(5.0);
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float a = hash12( ii + vec2(0.0,0.0) );
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float b = hash12( ii + vec2(1.0,0.0) );
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float c = hash12( ii + vec2(0.0,1.0) );
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float d = hash12( ii + vec2(1.0,1.0) );
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float v1 = mix(mix(a,b,u.x), mix(c,d,u.x), u.y);
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ii += vec2(5.0);
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a = hash12( ii + vec2(0.0,0.0) );
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b = hash12( ii + vec2(1.0,0.0) );
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c = hash12( ii + vec2(0.0,1.0) );
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d = hash12( ii + vec2(1.0,1.0) );
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float v2 = mix(mix(a,b,u.x), mix(c,d,u.x), u.y);
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return max(mix(v1,v2,u.z),0.0);
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}
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// fBm
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float fbm3(vec3 p, float a, float f) {
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return noise_3(p);
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}
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float fbm3_high(vec3 p, float a, float f) {
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float ret = 0.0;
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float amp = 1.0;
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float frq = 1.0;
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for(int i = 0; i < 4; i++) {
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float n = pow(noise_3(p * frq),2.0);
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ret += n * amp;
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frq *= f;
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amp *= a * (pow(n,0.2));
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}
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return ret;
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}
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// lighting
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float diffuse(vec3 n,vec3 l,float p) { return pow(max(dot(n,l),0.0),p); }
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float specular(vec3 n,vec3 l,vec3 e,float s) {
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float nrm = (s + 8.0) / (3.1415 * 8.0);
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return pow(max(dot(reflect(e,n),l),0.0),s) * nrm;
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}
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// distance functions
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float plane(vec3 gp, vec4 p) {
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return dot(p.xyz,gp+p.xyz*p.w);
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}
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float sphere(vec3 p,float r) {
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return length(p)-r;
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}
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float capsule(vec3 p,float r,float h) {
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p.y -= clamp(p.y,-h,h);
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return length(p)-r;
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}
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float cylinder(vec3 p,float r,float h) {
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return max(abs(p.y/h),capsule(p,r,h));
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}
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float box(vec3 p,vec3 s) {
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p = abs(p)-s;
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return max(max(p.x,p.y),p.z);
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}
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float rbox(vec3 p,vec3 s) {
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p = abs(p)-s;
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return length(p-min(p,0.0));
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}
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float quad(vec3 p,vec2 s) {
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p = abs(p) - vec3(s.x,0.0,s.y);
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return max(max(p.x,p.y),p.z);
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}
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// boolean operations
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float boolUnion(float a,float b) { return min(a,b); }
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float boolIntersect(float a,float b) { return max(a,b); }
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float boolSub(float a,float b) { return max(a,-b); }
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// smooth operations. thanks to iq
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float boolSmoothIntersect(float a, float b, float k ) {
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float h = clamp(0.5+0.5*(b-a)/k, 0.0, 1.0);
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return mix(a,b,h) + k*h*(1.0-h);
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}
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float boolSmoothSub(float a, float b, float k ) {
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return boolSmoothIntersect(a,-b,k);
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}
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// world
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float rock(vec3 p) {
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float d = sphere(p,1.0);
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for(int i = 0; i < 9; i++) {
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float ii = float(i);
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float r = 2.5 + hash11(ii);
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vec3 v = normalize(hash31(ii) * 2.0 - 1.0);
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#ifdef SMOOTH
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d = boolSmoothSub(d,sphere(p+v*r,r * 0.8), 0.03);
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#else
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d = boolSub(d,sphere(p+v*r,r * 0.8));
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#endif
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}
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return d;
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}
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float map(vec3 p) {
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float d = rock(p) + fbm3(p*4.0,0.4,2.96) * DISPLACEMENT;
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d = boolUnion(d,plane(p,vec4(0.0,1.0,0.0,1.0)));
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return d;
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}
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float map_detailed(vec3 p) {
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float d = rock(p) + fbm3_high(p*4.0,0.4,2.96) * DISPLACEMENT;
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d = boolUnion(d,plane(p,vec4(0.0,1.0,0.0,1.0)));
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return d;
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}
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// tracing
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vec3 getNormal(vec3 p, float dens) {
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vec3 n;
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n.x = map_detailed(vec3(p.x+EPSILON,p.y,p.z));
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n.y = map_detailed(vec3(p.x,p.y+EPSILON,p.z));
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n.z = map_detailed(vec3(p.x,p.y,p.z+EPSILON));
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return normalize(n-map_detailed(p));
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}
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vec2 getOcclusion(vec3 p, vec3 n) {
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vec2 r = vec2(0.0);
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for(int i = 0; i < AO_SAMPLES; i++) {
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float f = float(i)*INV_AO_SAMPLES;
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float hao = 0.01+f*AO_PARAM.x;
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float hc = 0.01+f*CORNER_PARAM.x;
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float dao = map(p + n * hao) - TRESHOLD;
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float dc = map(p - n * hc) - TRESHOLD;
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r.x += clamp(hao-dao,0.0,1.0) * (1.0-f);
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r.y += clamp(hc+dc,0.0,1.0) * (1.0-f);
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}
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r.x = pow(clamp(1.0-r.x*INV_AO_SAMPLES*AO_PARAM.y,0.0,1.0),0.5);
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r.y = clamp(r.y*INV_AO_SAMPLES*CORNER_PARAM.y,0.0,1.0);
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return r;
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}
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vec2 spheretracing(vec3 ori, vec3 dir, out vec3 p) {
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vec2 td = vec2(0.0);
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for(int i = 0; i < NUM_STEPS; i++) {
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p = ori + dir * td.x;
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td.y = map(p);
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if(td.y < TRESHOLD) break;
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td.x += (td.y-TRESHOLD) * 0.9;
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}
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return td;
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}
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// stone
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vec3 getStoneColor(vec3 p, float c, vec3 l, vec3 n, vec3 e) {
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c = min(c + pow(noise_3(vec3(p.x*20.0,0.0,p.z*20.0)),70.0) * 8.0, 1.0);
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float ic = pow(1.0-c,0.5);
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vec3 base = vec3(0.42,0.3,0.2) * 0.6;
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vec3 sand = vec3(0.51,0.41,0.32);
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vec3 color = mix(base,sand,c);
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float f = pow(1.0 - max(dot(n,-e),0.0), 1.5) * 0.75 * ic;
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color = mix(color,vec3(1.0),f);
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color += vec3(diffuse(n,l,0.5) * WHITE);
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color += vec3(specular(n,l,e,8.0) * WHITE * 1.5 * ic);
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n = normalize(n - normalize(p) * 0.4);
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color += vec3(specular(n,l,e,80.0) * WHITE * 1.5 * ic);
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return color;
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}
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// main
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void mainImage( out vec4 fragColor, in vec2 fragCoord ) {
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vec2 iuv = fragCoord.xy / iResolution.xy * 2.0 - 1.0;
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vec2 uv = iuv;
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uv.x *= iResolution.x / iResolution.y;
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float time = iGlobalTime * 0.3;
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// ray
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vec3 ang = vec3(0.0,0.2,time);
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#ifdef MOUSE
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if(iMouse.z > 0.0) ang = vec3(0.0,clamp(2.0-iMouse.y*0.01,0.0,3.1415),iMouse.x*0.01);
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#endif
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mat3 rot = fromEuler(ang);
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vec3 ori = vec3(0.0,0.0,2.8);
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vec3 dir = normalize(vec3(uv.xy,-2.0));
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ori = ori * rot;
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dir = dir * rot;
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// tracing
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vec3 p;
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vec2 td = spheretracing(ori,dir,p);
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vec3 n = getNormal(p,td.y);
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vec2 occ = getOcclusion(p,n);
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vec3 light = normalize(vec3(0.0,1.0,0.0));
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// color
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vec3 color = vec3(1.0);
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if(td.x < 3.5 && p.y > -0.89) color = getStoneColor(p,occ.y,light,n,dir);
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color *= occ.x;
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// post
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float vgn = smoothstep(1.2,0.7,abs(iuv.y)) * smoothstep(1.1,0.8,abs(iuv.x));
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color *= 1.0 - (1.0 - vgn) * 0.15;
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fragColor = vec4(color,1.0);
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}
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void main(void)
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{
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//just some shit to wrap shadertoy's stuff
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vec2 FragmentCoord = vTexCoord.xy*global.OutputSize.xy;
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FragmentCoord.y = -FragmentCoord.y;
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mainImage(FragColor,FragmentCoord);
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}
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