mirror of
https://github.com/italicsjenga/slang-shaders.git
synced 2024-11-27 09:51:30 +11:00
528 lines
14 KiB
Plaintext
528 lines
14 KiB
Plaintext
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#version 450
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// White Folly - dr2 - 2017-11-07
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// https://www.shadertoy.com/view/ll2cDG
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// Folly (architectural) with spiral stairways (in a pond filled with Voronoi stones); mouse enabled
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// "White Folly" by dr2 - 2017
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// License: Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License
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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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float PrBoxDf (vec3 p, vec3 b);
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float PrBox2Df (vec2 p, vec2 b);
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float PrCylDf (vec3 p, float r, float h);
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float PrCylAnDf (vec3 p, float r, float w, float h);
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void HexVorInit ();
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vec4 HexVor (vec2 p);
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float SmoothMin (float a, float b, float r);
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float SmoothBump (float lo, float hi, float w, float x);
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vec2 Rot2D (vec2 q, float a);
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vec3 HsvToRgb (vec3 c);
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float Hashfv2 (vec2 p);
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vec2 Hashv2v2 (vec2 p);
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float Noisefv2 (vec2 p);
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float Fbm2 (vec2 p);
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vec3 VaryNf (vec3 p, vec3 n, float f);
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const float pi = 3.14159;
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vec3 sunDir, qHit;
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float dstFar, tCur, tWav;
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int idObj;
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bool inWat;
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const int idStr = 1, idBal = 2, idPlat = 3, idBalc = 4, idPil = 5, idWl = 6, idFlr = 7;
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float ObjDfS (vec3 p, float dMin)
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{
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vec3 q;
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float d, db, s, a;
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q = p;
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q.xz = abs (Rot2D (q.xz, pi)) - 6.5;
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db = PrBox2Df (q.xz, vec2 (4.));
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q.xz += 6.5;
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q.xz = Rot2D (q.xz, 0.75 * pi);
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q.x += 4.;
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a = (length (q.xz) > 0.) ? atan (q.z, - q.x) / (2. * pi) : 0.;
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q.xz = vec2 (24. * a, length (q.xz) - 6.);
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q.xy = Rot2D (q.xy, -0.25 * pi);
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s = mod (q.x, sqrt (0.5));
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d = max (0.3 * max (q.y - min (s, sqrt (0.5) - s), max (-0.1 - q.y, abs (q.z) - 1.5)),
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abs (p.y) - 3.5);
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d = max (d, db);
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if (d < dMin) { dMin = d; idObj = idStr; }
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q.xy -= vec2 (1.5, 1.4);
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q.z = abs (q.z) - 1.43;
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d = PrBoxDf (q, vec3 (4.7, 0.07, 0.07));
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q.x = 0.5 * mod (96. * a + 0.5, 1.) - 0.35;
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q.y += 0.7;
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d = min (d, PrCylDf (q.xzy, 0.05, 0.7));
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d = max (0.3 * d, db);
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if (d < dMin) { dMin = d; idObj = idBal; }
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return dMin;
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}
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/*
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This function is called twice, for the two orientations of the horizontal
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walkway. Could be replaced by a single call, with orientation dependent on
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position along ray path; this is faster (good) but there are visual artifacts for
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certain view directions (bad). Artifacts can be removed by using cells in the
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vertical direction (good), but this is slower (bad).
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*/
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float ObjDfB (vec3 p, float dMin)
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{
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vec3 q;
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float d;
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q = p;
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d = max (PrBoxDf (q, vec3 (10.35, 0.26, 2.85)),
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- max (length (vec2 (mod (q.x + 2., 4.) - 2., q.z)) - 1.5, 0.3 - abs (q.z)));
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if (d < dMin) { dMin = d; idObj = idPlat; qHit = q; }
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q = p; q.y -= 2.05; q.z = abs (q.z) - 2.45;
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d = PrBoxDf (q, vec3 (7.45, 0.08, 0.07));
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q.x = mod (q.x + 0.25, 0.5) - 0.25;
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q.y += 0.95;
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d = min (d, max (PrCylDf (q.xzy, 0.06, 0.9), abs (p.x) - 7.45));
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q = p; q.y -= 1.06; q.x = abs (q.x) - 10.23; q.y -= 0.95;
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d = min (d, PrBoxDf (q, vec3 (0.07, 0.08, 2.5)));
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q.y += 0.95; q.z = mod (q.z + 0.25, 0.5) - 0.25;
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d = min (d, max (PrCylDf (q.xzy, 0.06, 0.9), abs (p.z) - 2.45));
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if (d < dMin) { dMin = d; idObj = idBalc; }
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q = p; q.xz = abs (q.xz) - vec2 (8.8, 2.4); q.x = abs (q.x) - 1.45; q.y -= 1.3;
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d = PrCylDf (q.xzy, 0.2, 1.05);
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if (d < dMin) { dMin = d; idObj = idPil; qHit = q; }
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return dMin;
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}
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float ObjDf (vec3 p)
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{
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vec3 q;
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float dMin, d;
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dMin = dstFar;
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p.y -= 3.;
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if (! inWat) {
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dMin = ObjDfS (p, dMin);
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q = p; q.y -= 3.25;
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dMin = ObjDfB (q, dMin);
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q = p; q.y -= -3.25; q.xz = vec2 (- q.z, q.x);
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dMin = ObjDfB (q, dMin);
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q = p; q.y -= 9.;
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d = max (PrBoxDf (q, vec3 (2.5, 0.15, 2.5)),
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- max (length (q.xz) - 1., max (0.1 - abs (q.x), 0.1 - abs (q.z))));
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if (d < dMin) { dMin = d; idObj = idPlat; qHit = q; }
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}
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q = p; q.xz = abs (q.xz) - 1.8; q.y -= 1.;
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d = PrCylDf (q.xzy, 0.2, 8.);
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if (d < dMin) { dMin = d; idObj = idPil; qHit = q; }
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q = p; q.y -= -5.2;
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d = PrCylAnDf (q.xzy, 20., 0.3, 2.3);
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if (d < dMin) { dMin = d; idObj = idWl; }
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q = p; q.y -= -7.4;
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d = PrCylDf (q.xzy, 20., 0.01);
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if (d < dMin) { dMin = d; idObj = idFlr; }
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return dMin;
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}
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float ObjRay (vec3 ro, vec3 rd)
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{
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float dHit, d, eps;
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eps = 0.001;
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dHit = 0.;
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for (int j = 0; j < 160; j ++) {
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d = ObjDf (ro + dHit * rd);
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dHit += d;
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if (d < eps || dHit > dstFar) break;
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}
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return dHit;
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}
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vec3 ObjNf (vec3 p)
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{
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vec4 v;
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vec3 e = vec3 (0.001, -0.001, 0.);
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v = vec4 (ObjDf (p + e.xxx), ObjDf (p + e.xyy), ObjDf (p + e.yxy), ObjDf (p + e.yyx));
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return normalize (vec3 (v.x - v.y - v.z - v.w) + 2. * v.yzw);
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}
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float ObjSShadow (vec3 ro, vec3 rd)
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{
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float sh, d, h;
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sh = 1.;
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d = 0.05;
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for (int j = 0; j < 40; j ++) {
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h = ObjDf (ro + rd * d);
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sh = min (sh, smoothstep (0., 0.05 * d, h));
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d += h;
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if (sh < 0.05) break;
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}
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return sh;
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}
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vec3 BgCol (vec3 ro, vec3 rd)
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{
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vec3 col;
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if (rd.y >= 0.) col = mix (vec3 (0.1, 0.2, 0.4), vec3 (1.), 0.1 + 0.8 * rd.y);
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else {
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ro -= ((ro.y + 0.5) / rd.y) * rd;
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col = mix (0.7 * mix (vec3 (0.3, 0.4, 0.1), vec3 (0.4, 0.5, 0.2), Fbm2 (ro.xz)) *
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(1. - 0.15 * Noisefv2 (330. * ro.xz)), vec3 (0.18, 0.28, 0.48), pow (1. + rd.y, 5.));
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}
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return col;
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}
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float WaveHt (vec2 p)
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{
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mat2 qRot = mat2 (0.8, -0.6, 0.6, 0.8);
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vec4 t4, v4;
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vec2 t;
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float wFreq, wAmp, ht;
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wFreq = 1.;
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wAmp = 1.;
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ht = 0.;
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for (int j = 0; j < 3; j ++) {
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p *= qRot;
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t = tWav * vec2 (1., -1.);
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t4 = (p.xyxy + t.xxyy) * wFreq;
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t = vec2 (Noisefv2 (t4.xy), Noisefv2 (t4.zw));
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t4 += 2. * t.xxyy - 1.;
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v4 = (1. - abs (sin (t4))) * (abs (sin (t4)) + abs (cos (t4)));
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ht += wAmp * dot (pow (1. - sqrt (v4.xz * v4.yw), vec2 (8.)), vec2 (1.));
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wFreq *= 2.;
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wAmp *= 0.5;
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}
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return ht;
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}
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vec3 WaveNf (vec3 p, float d)
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{
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vec3 vn;
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vec2 e;
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e = vec2 (max (0.01, 0.005 * d * d), 0.);
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p *= 0.5;
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vn.xz = 3. * (WaveHt (p.xz) - vec2 (WaveHt (p.xz + e.xy), WaveHt (p.xz + e.yx)));
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vn.y = e.x;
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return normalize (vn);
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}
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vec3 ShowScene (vec3 ro, vec3 rd)
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{
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vec4 vc;
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vec3 vn, vnw, row, rdw, col;
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float dstObj, dstWat, s, a, sh;
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bool isRefl;
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HexVorInit ();
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inWat = false;
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isRefl = false;
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tWav = 0.3 * tCur;
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dstObj = ObjRay (ro, rd);
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dstWat = - (ro.y + 0.6) / rd.y;
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if (dstWat < min (dstObj, dstFar) && length ((ro + dstWat * rd).xz) < 20.) {
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ro += dstWat * rd;
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row = ro;
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rdw = rd;
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vnw = WaveNf (1.5 * ro, dstWat);;
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rd = refract (rd, vnw, 1./1.333);
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ro += 0.01 * rd;
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inWat = true;
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dstObj = ObjRay (ro, rd);
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inWat = false;
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isRefl = true;
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}
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if (dstObj < dstFar) {
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ro += rd * dstObj;
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if (ro.y < -0.5 && length (ro.xz) > 20.3) col = BgCol (ro, rd);
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else {
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vn = ObjNf (ro);
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if (idObj == idStr) {
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col = vec3 (0.95, 0.95, 1.);
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} else if (idObj == idBal || idObj == idBalc) {
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col = vec3 (0.8, 0.8, 1.);
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} else if (idObj == idPlat) {
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col = vec3 (1.);
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if (vn.y > 0.99) {
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if (ro.y > 7.5) s = mod (3. * length (qHit.xz), 1.);
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else s = mod (3. * qHit.x, 1.);
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col *= 0.8 + 0.2 * SmoothBump (0.1, 0.9, 0.03, s);
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} else if (abs (vn.y) < 0.01) {
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s = mod (8. * ro.y, 1.);
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col *= 0.8 + 0.2 * SmoothBump (0.1, 0.9, 0.03, s);
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}
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vn = VaryNf (100. * ro, vn, 0.2);
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} else if (idObj == idPil) {
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if (abs (vn.y) < 0.01) {
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a = (length (qHit.xz) > 0.) ? atan (qHit.z, - qHit.x) / pi : 0.;
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s = mod (3. * qHit.y + a, 1.);
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vn.y = 0.2 * (1. - SmoothBump (0.2, 0.8, 0.1, s)) * sign (s - 0.5);
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vn.xz *= sqrt (1. - vn.y * vn.y);
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}
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col = vec3 (0.9, 0.9, 0.3);
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} else if (idObj == idWl) {
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a = (length (ro.xz) > 0.) ? atan (ro.z, - ro.x) / pi : 0.;
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col = vec3 (0.6, 0.4, 0.3) * (0.5 +
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0.5 * SmoothBump (0.05, 0.95, 0.02, mod (64. * a, 1.))) *
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(0.5 + 0.5 * SmoothBump (0.03, 0.97, 0.01, mod (ro.y + 0.5, 1.)));
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vn = VaryNf (20. * ro, vn, 1.);
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} else if (idObj == idFlr) {
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vc = HexVor (ro.xz);
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vn.xz = - 0.7 * vc.yz;
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vn = normalize (vn);
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s = mod (10. * vc.w, 1.);
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col = HsvToRgb (vec3 (0.1 + 0.3 * step (2. * s, 1.) + 0.1 * mod (5. * s, 1.),
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0.5 + 0.5 * mod (17. * s, 1.), 0.7 + 0.3 * mod (12. * s, 1.))) *
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(0.6 + 0.4 * smoothstep (0., 0.2, vc.x)) * (1. - 0.2 * Noisefv2 (128. * ro.xz));
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}
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sh = 0.4 + 0.6 * ObjSShadow (ro, sunDir);
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col = col * (0.2 + sh * max (dot (sunDir, vn), 0.) +
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0.1 * max (dot (- sunDir.xz, vn.xz), 0.)) +
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0.1 * sh * pow (max (dot (normalize (sunDir - rd), vn), 0.), 64.);
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}
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} else {
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if (isRefl) sh = ObjSShadow (row, sunDir);
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col = BgCol (ro, rd);
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}
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if (isRefl) {
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col = mix (0.9 * col, vec3 (1., 1., 0.9), sh *
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pow (max (0., dot (sunDir, reflect (rdw, vnw))), 64.));
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}
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return clamp (col, 0., 1.);
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}
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void mainImage (out vec4 fragColor, in vec2 fragCoord)
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{
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mat3 vuMat;
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#ifdef MOUSE
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vec4 mPtr;
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#endif
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vec3 ro, rd;
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vec2 canvas, uv, ori, ca, sa;
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float el, az, zmFac;
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canvas = iResolution.xy;
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uv = 2. * fragCoord.xy / canvas - 1.;
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uv.x *= canvas.x / canvas.y;
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tCur = iGlobalTime;
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#ifdef MOUSE
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mPtr = iMouse;
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mPtr.xy = mPtr.xy / canvas - 0.5;
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#endif
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dstFar = 120.;
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az = 0.;
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el = -0.2 * pi;
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#ifdef MOUSE
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if (mPtr.z > 0.) {
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az += 3. * pi * mPtr.x;
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el += 1. * pi * mPtr.y;
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} else {
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az -= 0.1 * tCur;
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el -= 0.1 * pi * cos (0.03 * pi * tCur);
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}
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#else
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az -= 0.1 * tCur;
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el -= 0.1 * pi * cos (0.03 * pi * tCur);
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#endif
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el = clamp (el, -0.4 * pi, -0.05 * pi);
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ori = vec2 (el, az);
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ca = cos (ori);
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sa = sin (ori);
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vuMat = mat3 (ca.y, 0., - sa.y, 0., 1., 0., sa.y, 0., ca.y) *
|
||
|
mat3 (1., 0., 0., 0., ca.x, - sa.x, 0., sa.x, ca.x);
|
||
|
zmFac = 7. - 2. * cos (az);
|
||
|
rd = vuMat * normalize (vec3 (uv, zmFac));
|
||
|
ro = vuMat * vec3 (0., 1., -70.);
|
||
|
sunDir = vuMat * normalize (vec3 (1., 1., -1.));
|
||
|
fragColor = vec4 (ShowScene (ro, rd), 1.);
|
||
|
}
|
||
|
|
||
|
float PrBoxDf (vec3 p, vec3 b)
|
||
|
{
|
||
|
vec3 d;
|
||
|
d = abs (p) - b;
|
||
|
return min (max (d.x, max (d.y, d.z)), 0.) + length (max (d, 0.));
|
||
|
}
|
||
|
|
||
|
float PrBox2Df (vec2 p, vec2 b)
|
||
|
{
|
||
|
vec2 d;
|
||
|
d = abs (p) - b;
|
||
|
return min (max (d.x, d.y), 0.) + length (max (d, 0.));
|
||
|
}
|
||
|
|
||
|
float PrCylDf (vec3 p, float r, float h)
|
||
|
{
|
||
|
return max (length (p.xy) - r, abs (p.z) - h);
|
||
|
}
|
||
|
|
||
|
float PrCylAnDf (vec3 p, float r, float w, float h)
|
||
|
{
|
||
|
return max (abs (length (p.xy) - r) - w, abs (p.z) - h);
|
||
|
}
|
||
|
|
||
|
vec2 gVec[7], hVec[7];
|
||
|
#define SQRT3 1.7320508
|
||
|
|
||
|
vec2 PixToHex (vec2 p)
|
||
|
{
|
||
|
vec3 c, r, dr;
|
||
|
c.xz = vec2 ((1./SQRT3) * p.x - (1./3.) * p.y, (2./3.) * p.y);
|
||
|
c.y = - c.x - c.z;
|
||
|
r = floor (c + 0.5);
|
||
|
dr = abs (r - c);
|
||
|
r -= step (dr.yzx, dr) * step (dr.zxy, dr) * dot (r, vec3 (1.));
|
||
|
return r.xz;
|
||
|
}
|
||
|
|
||
|
vec2 HexToPix (vec2 h)
|
||
|
{
|
||
|
return vec2 (SQRT3 * (h.x + 0.5 * h.y), (3./2.) * h.y);
|
||
|
}
|
||
|
|
||
|
void HexVorInit ()
|
||
|
{
|
||
|
vec3 e = vec3 (1., 0., -1.);
|
||
|
gVec[0] = e.yy;
|
||
|
gVec[1] = e.xy;
|
||
|
gVec[2] = e.yx;
|
||
|
gVec[3] = e.xz;
|
||
|
gVec[4] = e.zy;
|
||
|
gVec[5] = e.yz;
|
||
|
gVec[6] = e.zx;
|
||
|
for (int k = 0; k < 7; k ++) hVec[k] = HexToPix (gVec[k]);
|
||
|
}
|
||
|
|
||
|
vec4 HexVor (vec2 p)
|
||
|
{
|
||
|
vec4 sd, udm;
|
||
|
vec2 ip, fp, d, u;
|
||
|
float amp, a;
|
||
|
amp = 0.7;
|
||
|
ip = PixToHex (p);
|
||
|
fp = p - HexToPix (ip);
|
||
|
sd = vec4 (4.);
|
||
|
udm = vec4 (4.);
|
||
|
for (int k = 0; k < 7; k ++) {
|
||
|
u = Hashv2v2 (ip + gVec[k]);
|
||
|
a = 2. * pi * (u.y - 0.5);
|
||
|
d = hVec[k] + amp * (0.4 + 0.6 * u.x) * vec2 (cos (a), sin (a)) - fp;
|
||
|
sd.w = dot (d, d);
|
||
|
if (sd.w < sd.x) {
|
||
|
sd = sd.wxyw;
|
||
|
udm = vec4 (d, u);
|
||
|
} else sd = (sd.w < sd.y) ? sd.xwyw : ((sd.w < sd.z) ? sd.xyww : sd);
|
||
|
}
|
||
|
sd.xyz = sqrt (sd.xyz);
|
||
|
return vec4 (SmoothMin (sd.y, sd.z, 0.3) - sd.x, udm.xy, Hashfv2 (udm.zw));
|
||
|
}
|
||
|
|
||
|
float SmoothMin (float a, float b, float r)
|
||
|
{
|
||
|
float h;
|
||
|
h = clamp (0.5 + 0.5 * (b - a) / r, 0., 1.);
|
||
|
return mix (b, a, h) - r * h * (1. - h);
|
||
|
}
|
||
|
|
||
|
float SmoothBump (float lo, float hi, float w, float x)
|
||
|
{
|
||
|
return (1. - smoothstep (hi - w, hi + w, x)) * smoothstep (lo - w, lo + w, x);
|
||
|
}
|
||
|
|
||
|
vec2 Rot2D (vec2 q, float a)
|
||
|
{
|
||
|
return q * cos (a) + q.yx * sin (a) * vec2 (-1., 1.);
|
||
|
}
|
||
|
|
||
|
vec3 HsvToRgb (vec3 c)
|
||
|
{
|
||
|
vec3 p;
|
||
|
p = abs (fract (c.xxx + vec3 (1., 2./3., 1./3.)) * 6. - 3.);
|
||
|
return c.z * mix (vec3 (1.), clamp (p - 1., 0., 1.), c.y);
|
||
|
}
|
||
|
|
||
|
const float cHashM = 43758.54;
|
||
|
|
||
|
float Hashfv2 (vec2 p)
|
||
|
{
|
||
|
return fract (sin (dot (p, vec2 (37., 39.))) * cHashM);
|
||
|
}
|
||
|
|
||
|
vec2 Hashv2v2 (vec2 p)
|
||
|
{
|
||
|
vec2 cHashVA2 = vec2 (37., 39.);
|
||
|
return fract (sin (vec2 (dot (p, cHashVA2), dot (p + vec2 (1., 0.), cHashVA2))) * cHashM);
|
||
|
}
|
||
|
|
||
|
float Noisefv2 (vec2 p)
|
||
|
{
|
||
|
vec2 t, ip, fp;
|
||
|
ip = floor (p);
|
||
|
fp = fract (p);
|
||
|
fp = fp * fp * (3. - 2. * fp);
|
||
|
t = mix (Hashv2v2 (ip), Hashv2v2 (ip + vec2 (0., 1.)), fp.y);
|
||
|
return mix (t.x, t.y, fp.x);
|
||
|
}
|
||
|
|
||
|
float Fbm2 (vec2 p)
|
||
|
{
|
||
|
float f, a;
|
||
|
f = 0.;
|
||
|
a = 1.;
|
||
|
for (int i = 0; i < 5; i ++) {
|
||
|
f += a * Noisefv2 (p);
|
||
|
a *= 0.5;
|
||
|
p *= 2.;
|
||
|
}
|
||
|
return f * (1. / 1.9375);
|
||
|
}
|
||
|
|
||
|
float Fbmn (vec3 p, vec3 n)
|
||
|
{
|
||
|
vec3 s;
|
||
|
float a;
|
||
|
s = vec3 (0.);
|
||
|
a = 1.;
|
||
|
for (int i = 0; i < 5; i ++) {
|
||
|
s += a * vec3 (Noisefv2 (p.yz), Noisefv2 (p.zx), Noisefv2 (p.xy));
|
||
|
a *= 0.5;
|
||
|
p *= 2.;
|
||
|
}
|
||
|
return dot (s, abs (n));
|
||
|
}
|
||
|
|
||
|
vec3 VaryNf (vec3 p, vec3 n, float f)
|
||
|
{
|
||
|
vec3 g;
|
||
|
vec2 e = vec2 (0.1, 0.);
|
||
|
g = vec3 (Fbmn (p + e.xyy, n), Fbmn (p + e.yxy, n), Fbmn (p + e.yyx, n)) - Fbmn (p, n);
|
||
|
return normalize (n + f * (g - n * dot (n, g)));
|
||
|
}
|
||
|
|
||
|
void main(void)
|
||
|
{
|
||
|
//just some shit to wrap shadertoy's stuff
|
||
|
vec2 FragmentCoord = vTexCoord.xy*global.OutputSize.xy;
|
||
|
FragmentCoord.y = -FragmentCoord.y;
|
||
|
mainImage(FragColor,FragmentCoord);
|
||
|
}
|