313 lines
7.5 KiB
Forth
313 lines
7.5 KiB
Forth
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//bio.jpg, hill.jpg, check.jpg
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//Raymarch settings
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#define MIN_DIST 0.001
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#define MAX_DIST 32.0
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#define MAX_STEPS 96
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#define STEP_MULT 0.9
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#define NORMAL_OFFS 0.01
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#define FOCAL_LENGTH 0.8
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//Scene settings
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//#define SHOW_RAY_COST
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//Colors
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#define SKY_COLOR_1 vec3(0.60,0.00,0.00)
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#define SKY_COLOR_2 vec3(1.00,0.50,0.00)
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#define SUN_COLOR_1 vec3(1.00, 0.00, 0.00)
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#define SUN_COLOR_2 vec3(1.00, 1.00, 0.00)
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#define GRID_COLOR_1 vec3(0.00, 0.05, 0.20)
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#define GRID_COLOR_2 vec3(1.00, 0.20, 0.60)
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#define WATER_COLOR vec3(0.50, 1.00, 2.90)
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//Parameters
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#define GRID_SIZE 0.20
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#define GRID_LINE_SIZE 1.25
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#define WATER_LEVEL 0.20
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#define WATER_FOG_SIZE 0.05
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#define SUN_DIRECTION vec3( 0.10,-1.00,-0.03)
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#define CLOUD_SCROLL vec2(0.002, 0.001)
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#define CLOUD_BLUR 2.0
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#define CLOUD_SCALE vec2(0.04, 0.10)
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#define MOUNTAIN_SCALE 6.0
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#define MOUNTAIN_SHIFT 5.3
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//Color modes
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//vec3(#,#,#) Number of bits per channel
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//24 bit color
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#define RGB888 vec3(8,8,8)
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//16 bit color
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#define RGB565 vec3(5,6,5)
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#define RGB664 vec3(6,6,4)
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//8 bit color
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#define RGB332 vec3(3,3,2)
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#define RGB242 vec3(2,4,2)
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#define RGB222 vec3(2,2,2) //+2 unused
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//#define DITHER_ENABLE
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#define COLOR_MODE RGB242
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//Object IDs
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#define SKYDOME 0.
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#define FLOOR 1.
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#define RIVER 2.
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float pi = atan(1.0) * 4.0;
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float tau = atan(1.0) * 8.0;
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vec3 dither(vec3 color, vec3 bits, vec2 pixel)
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{
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vec3 cmax = exp2(bits)-1.0;
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vec3 dithfactor = mod(color, 1.0 / cmax) * cmax;
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float dithlevel = texture(iChannel2,pixel / iChannelResolution[2].xy).r;
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vec3 cl = floor(color * cmax)/cmax;
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vec3 ch = ceil(color * cmax)/cmax;
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return mix(cl, ch, step(dithlevel, dithfactor));
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}
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struct MarchResult
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{
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vec3 position;
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vec3 normal;
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float dist;
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float steps;
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float id;
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};
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//Returns a rotation matrix for the given angles around the X,Y,Z axes.
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mat3 Rotate(vec3 angles)
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{
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vec3 c = cos(angles);
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vec3 s = sin(angles);
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mat3 rotX = mat3( 1.0, 0.0, 0.0, 0.0,c.x,s.x, 0.0,-s.x, c.x);
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mat3 rotY = mat3( c.y, 0.0,-s.y, 0.0,1.0,0.0, s.y, 0.0, c.y);
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mat3 rotZ = mat3( c.z, s.z, 0.0,-s.z,c.z,0.0, 0.0, 0.0, 1.0);
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return rotX * rotY * rotZ;
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}
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//==== Distance field operators/functions by iq. ====
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vec2 opU(vec2 d1, vec2 d2)
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{
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return (d1.x < d2.x) ? d1 : d2;
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}
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vec2 opS(vec2 d1, vec2 d2)
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{
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return (-d1.x > d2.x) ? d1*vec2(-1,1) : d2;
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}
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vec2 sdSphere(vec3 p, float s, float id)
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{
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return vec2(length(p) - s, id);
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}
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vec2 sdPlane(vec3 p, vec4 n, float id)
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{
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// n must be normalized
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return vec2(dot(p,n.xyz) + n.w, id);
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}
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vec2 sdColumn(vec3 p, float r, float id)
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{
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return vec2(((abs(p.x)+abs(p.y))-r)/sqrt(2.0), id);
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}
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vec2 dfRiver(vec3 p, float id)
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{
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float offs = sin(p.y)*0.15 + sin(p.y * 0.2);
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return sdColumn(p.xzy + vec3(offs,0,0), 0.4, id);
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}
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//Distance to the scene
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vec2 Scene(vec3 p)
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{
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vec2 d = vec2(MAX_DIST, SKYDOME);
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d = opU(sdPlane(p, vec4(0, 0,-1, 0), FLOOR), d);
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d = opS(dfRiver(p, RIVER), d);
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return d;
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}
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//Surface normal at the current position
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vec3 Normal(vec3 p)
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{
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vec3 off = vec3(NORMAL_OFFS, 0, 0);
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return normalize
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(
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vec3
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(
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Scene(p + off.xyz).x - Scene(p - off.xyz).x,
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Scene(p + off.zxy).x - Scene(p - off.zxy).x,
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Scene(p + off.yzx).x - Scene(p - off.yzx).x
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)
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);
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}
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//Raymarch the scene with the given ray
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MarchResult MarchRay(vec3 orig,vec3 dir)
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{
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float steps = 0.0;
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float dist = 0.0;
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float id = 0.0;
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for(int i = 0;i < MAX_STEPS;i++)
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{
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vec2 object = Scene(orig + dir * dist);
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//Add the sky dome and have it follow the camera.
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object = opU(object, -sdSphere(dir * dist, MAX_DIST, SKYDOME));
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dist += object.x * STEP_MULT;
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id = object.y;
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steps++;
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if(abs(object.x) < MIN_DIST * dist)
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{
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break;
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}
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}
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MarchResult result;
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result.position = orig + dir * dist;
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result.normal = Normal(result.position);
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result.dist = dist;
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result.steps = steps;
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result.id = id;
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return result;
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}
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//Scene texturing/shading
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vec3 Shade(MarchResult hit, vec3 direction, vec3 camera)
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{
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vec3 color = vec3(0.0);
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if(hit.id == FLOOR)
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{
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vec2 uv = abs(mod(hit.position.xy + GRID_SIZE/2.0, GRID_SIZE) - GRID_SIZE/2.0);
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uv /= fwidth(hit.position.xy);
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float riverEdge = dfRiver(hit.position, 0.0).x / fwidth(hit.position.xy).x;
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float gln = min(min(uv.x, uv.y), riverEdge) / GRID_SIZE;
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color = mix(GRID_COLOR_1, GRID_COLOR_2, 1.0 - smoothstep(0.0, GRID_LINE_SIZE / GRID_SIZE, gln));
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}
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if(hit.id == RIVER)
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{
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vec2 uv = vec2(hit.position.z, abs(mod(hit.position.y + GRID_SIZE/2.0, GRID_SIZE) - GRID_SIZE/2.0));
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uv /= fwidth(hit.position.xy);
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float gln = min(uv.x, uv.y) / GRID_SIZE;
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color = mix(GRID_COLOR_1, GRID_COLOR_2, 1.0 - smoothstep(0.0, GRID_LINE_SIZE / GRID_SIZE, gln));
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}
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//Distance fog
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color *= 1.0 - smoothstep(0.0, MAX_DIST*0.9, hit.dist);
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//Water
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float waterMix = smoothstep(WATER_LEVEL - WATER_FOG_SIZE, WATER_LEVEL + WATER_FOG_SIZE, hit.position.z);
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color = mix(color, WATER_COLOR, waterMix);
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if(hit.id == SKYDOME)
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{
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//Sky gradient
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//Causes weird position-colored artefacts around the horizon (AMD R9 270)
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//color = mix(SKY_COLOR_1, SKY_COLOR_2, -hit.position.z/16.0);
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color += mix(SKY_COLOR_1, SKY_COLOR_2, -hit.position.z/16.0);
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//Sun
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vec3 sunDir = normalize(SUN_DIRECTION);
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float sun = smoothstep(0.950, 0.952, dot(direction, sunDir));
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vec3 sunCol = mix(SUN_COLOR_1, SUN_COLOR_2, -hit.position.z/16.0);
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color = mix(color, sunCol, sun);
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//Clouds
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vec2 cloudUV = CLOUD_SCALE * direction.xy / dot(direction, vec3(0, 0,-1));
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cloudUV += CLOUD_SCROLL * iGlobalTime;
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color *= smoothstep(0.5, 0.3, texture(iChannel1, cloudUV, CLOUD_BLUR).r) * 0.5 + 0.5;
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//Mountains
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float a = atan(hit.position.y, hit.position.x)/tau + 0.5;
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a -= 3.28;
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float mountains = MOUNTAIN_SCALE * texture(iChannel0, vec2(a, 0.1),-99.0).r - hit.position.z - MOUNTAIN_SHIFT;
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color = mix(color, vec3(0.0), 1.0 - smoothstep(0.6, 0.7, mountains));
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}
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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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vec2 res = iResolution.xy / iResolution.y;
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vec2 uv = fragCoord.xy / iResolution.y;
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//Camera stuff
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vec3 angles = vec3(0);
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//Auto mode
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if(iMouse.xy == vec2(0,0))
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{
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angles.y = tau * (1.8 / 8.0);
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angles.x = tau * (3.9 / 8.0) + sin(iGlobalTime * 0.1) * 0.3;
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}
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else
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{
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angles = vec3((iMouse.xy / iResolution.xy) * pi, 0);
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angles.xy *= vec2(2.0, 1.0);
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}
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angles.y = clamp(angles.y, 0.0, 15.5 * tau / 64.0);
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mat3 rotate = Rotate(angles.yzx);
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vec3 orig = vec3(0, 0,-2) * rotate;
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vec3 dir = normalize(vec3(uv - res / 2.0, FOCAL_LENGTH)) * rotate;
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//Ray marching
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MarchResult hit = MarchRay(orig, dir);
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//Shading
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vec3 color = Shade(hit, dir, orig);
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#ifdef SHOW_RAY_COST
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color = mix(vec3(0,1,0), vec3(1,0,0), hit.steps / float(MAX_STEPS));
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#endif
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#ifdef DITHER_ENABLE
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color = dither(color, COLOR_MODE, fragCoord);
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#endif
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fragColor = vec4(color, 1.0);
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}
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