mirror of
https://github.com/italicsjenga/slang-shaders.git
synced 2024-11-25 08:51:32 +11:00
244 lines
7.1 KiB
Plaintext
244 lines
7.1 KiB
Plaintext
#version 450
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// M.A.M. Stairs - leon - 2017-11-24
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// https://www.shadertoy.com/view/MIIBR7
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// Another raymarching sketch inspired by Marc-Antoine Mathieu.
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// M.A.M. Stairs by Leon Denise aka ponk
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// another raymarching sketch inspired by Marc-Antoine Mathieu.
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// using code from IQ, Mercury, LJ, Duke, Koltes
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// made with Atom Editor GLSL viewer (that's why there is 2 space tabulations)
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// 2017-11-24
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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 STEPS 50.
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#define VOLUME 0.01
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#define PI 3.14159
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#define TAU (2.*PI)
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#define time iGlobalTime
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#define repeat(v,c) (mod(v,c)-c/2.)
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#define sDist(v,r) (length(v)-r)
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mat2 rot (float a) { float c=cos(a),s=sin(a); return mat2(c,-s,s,c); }
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float rng (vec2 seed) { return fract(sin(dot(seed*.1684,vec2(32.649,321.547)))*43415.); }
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float sdBox( vec3 p, vec3 b ) { vec3 d = abs(p) - b; return min(max(d.x,max(d.y,d.z)),0.0) + length(max(d,0.0)); }
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float amod (inout vec2 p, float count) { float an = TAU/count; float a = atan(p.y,p.x)+an/2.; float c = floor(a/an); c = mix(c,abs(c),step(count*.5,abs(c))); a = mod(a,an)-an/2.; p.xy = vec2(cos(a),sin(a))*length(p); return c; }
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float aindex (vec2 p, float count) { float an = TAU/count; float a = atan(p.y,p.x)+an/2.; float c = floor(a/an); return mix(c,abs(c),step(count*.5,abs(c))); }
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float map (vec3);
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vec3 getNormal (vec3 p) { vec2 e = vec2(.001,0); return normalize(vec3(map(p+e.xyy)-map(p-e.xyy),map(p+e.yxy)-map(p-e.yxy),map(p+e.yyx)-map(p-e.yyx))); }
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float hardShadow (vec3 pos, vec3 light) {
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vec3 dir = normalize(light - pos);
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float maxt = length(light - pos);
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float t = .02;
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for (float i = 0.; i <= 1.; i += 1./30.) {
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float dist = map(pos + dir * t);
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if (dist < VOLUME) return 0.;
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t += dist;
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if (t >= maxt) break;
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}
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return 1.;
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}
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float map (vec3 pos) {
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float scene = 1000.;
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float wallThin = .2;
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float wallRadius = 8.;
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float wallOffset = .2;
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float wallCount = 10.;
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float floorThin = .1;
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float stairRadius = 5.;
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float stairHeight = .4;
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float stairCount = 40.;
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float stairDepth = .31;
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float bookCount = 100.;
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float bookRadius = 9.5;
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float bookSpace = 1.75;
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vec3 bookSize = vec3(1.,.2,.2);
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vec3 panelSize = vec3(.03,.2,.7);
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vec2 cell = vec2(1.4,3.);
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float paperRadius = 4.;
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vec3 paperSize = vec3(.3,.01,.4);
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vec3 p;
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// move it
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pos.y += time;
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// twist it
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// pos.xz *= rot(pos.y*.05+time*.1);
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// pos.xz += normalize(pos.xz) * sin(pos.y*.5+time);
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// holes
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float holeWall = sDist(pos.xz, wallRadius);
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float holeStair = sDist(pos.xz, stairRadius);
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// walls
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p = pos;
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amod(p.xz, wallCount);
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p.x -= wallRadius;
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scene = min(scene, max(-p.x, abs(p.z)-wallThin));
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scene = max(scene, -sDist(pos.xz, wallRadius-wallOffset));
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// floors
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p = pos;
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p.y = repeat(p.y, cell.y);
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float disk = max(sDist(p.xz, 1000.), abs(p.y)-floorThin);
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disk = max(disk, -sDist(pos.xz, wallRadius));
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scene = min(scene, disk);
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// stairs
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p = pos;
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float stairIndex = amod(p.xz, stairCount);
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p.y -= stairIndex*stairHeight;
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p.y = repeat(p.y, stairCount*stairHeight);
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float stair = sdBox(p, vec3(100,stairHeight,stairDepth));
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scene = min(scene, max(stair, max(holeWall, -holeStair)));
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p = pos;
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p.xz *= rot(PI/stairCount);
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stairIndex = amod(p.xz, stairCount);
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p.y -= stairIndex*stairHeight;
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p.y = repeat(p.y, stairCount*stairHeight);
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stair = sdBox(p, vec3(100,stairHeight,stairDepth));
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scene = min(scene, max(stair, max(holeWall, -holeStair)));
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p = pos;
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p.y += stairHeight*.5;
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p.y -= stairHeight*stairCount*atan(p.z,p.x)/TAU;
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p.y = repeat(p.y, stairCount*stairHeight);
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scene = min(scene, max(max(sDist(p.xz, wallRadius), abs(p.y)-stairHeight), -holeStair));
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// books
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p = pos;
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p.y -= cell.y*.5;
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vec2 seed = vec2(floor(p.y/cell.y), 0);
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p.y = repeat(p.y, cell.y);
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p.xz *= rot(PI/wallCount);
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seed.y += amod(p.xz, wallCount)/10.;
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seed.y += floor(p.z/(bookSize.z*bookSpace));
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p.z = repeat(p.z, bookSize.z*bookSpace);
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float salt = rng(seed);
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bookSize.x *= .5+.5*salt;
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bookSize.y += salt;
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bookSize.z *= .5+.5*salt;
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p.x -= bookRadius + wallOffset;
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p.x += cos(p.z*2.) - bookSize.x - salt * .25;
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p.x += .01*smoothstep(.99,1.,sin(p.y*(1.+10.*salt)));
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scene = min(scene, max(sdBox(p, vec3(bookSize.x,100.,bookSize.z)), p.y-bookSize.y));
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// panel
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p = pos;
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p.y = repeat(p.y, cell.y);
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p.xz *= rot(PI/wallCount);
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amod(p.xz, wallCount);
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p.x -= wallRadius;
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float panel = sdBox(p, panelSize);
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float pz = p.z;
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p.z = repeat(p.z, .2+.3*salt);
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panel = min(panel, max(sdBox(p, vec3(.1,.1,.04)), abs(pz)-panelSize.z*.8));
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scene = min(scene, panel);
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// papers
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p = pos;
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p.y -= stairHeight;
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p.y += time*2.;
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p.xz *= rot(PI/stairCount);
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float ry = 8.;
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float iy = floor(p.y/ry);
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salt = rng(vec2(iy));
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float a = iy;
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p.xz -= vec2(cos(a),sin(a))*paperRadius;
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p.y = repeat(p.y, ry);
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p.xy *= rot(p.z);
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p.xz *= rot(PI/4.+salt+time);
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scene = min(scene, sdBox(p, paperSize));
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return scene;
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}
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vec3 getCamera (vec3 eye, vec2 uv) {
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vec3 lookAt = vec3(0.);
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#ifdef MOUSE
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float click = clamp(iMouse.w,0.,1.);
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lookAt.x += mix(0.,((iMouse.x/iResolution.x)*2.-1.) * 10., click);
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lookAt.y += mix(0.,iMouse.y/iResolution.y * 10., click);
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#else
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float click = clamp(0.,0.,1.);
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lookAt.x += mix(0.,((0./iResolution.x)*2.-1.) * 10., click);
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lookAt.y += mix(0.,0./iResolution.y * 10., click);
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#endif
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float fov = .65;
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vec3 forward = normalize(lookAt - eye);
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vec3 right = normalize(cross(vec3(0,1,0), forward));
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vec3 up = normalize(cross(forward, right));
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return normalize(fov * forward + uv.x * right + uv.y * up);
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}
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float getLight (vec3 pos, vec3 eye) {
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vec3 light = vec3(-.5,7.,1.);
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vec3 normal = getNormal(pos);
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vec3 view = normalize(eye-pos);
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float shade = dot(normal, view);
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shade *= hardShadow(pos, light);
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return shade;
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}
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vec4 raymarch () {
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vec2 uv = (gl_FragCoord.xy-.5*iResolution.xy)/iResolution.y;
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float dither = rng(uv+fract(time));
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vec3 eye = vec3(0,5,-4.5);
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vec3 ray = getCamera(eye, uv);
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vec3 pos = eye;
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float shade = 0.;
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for (float i = 0.; i <= 1.; i += 1./STEPS) {
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float dist = map(pos);
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if (dist < VOLUME) {
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shade = 1.-i;
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break;
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}
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dist *= .5 + .1 * dither;
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pos += ray * dist;
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}
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vec4 color = vec4(shade);
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color *= getLight(pos, eye);
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color = smoothstep(.0, .5, color);
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color = sqrt(color);
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return color;
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}
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void mainImage( out vec4 fragColor, in vec2 fragCoord )
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{
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fragColor = raymarch();
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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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