219 lines
4.8 KiB
Forth
219 lines
4.8 KiB
Forth
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/*by mu6k, Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License.
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I have no idea how I ended up here, but it demosceneish enough to publish.
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You can use the mouse to rotate the camera around the 'object'.
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If you can't see the shadows, increase occlusion_quality.
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If it doesn't compile anymore decrease object_count and render_steps.
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15/06/2013:
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- published
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16/06/2013:
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- modified for better performance and compatibility
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muuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuusk!*/
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#define occlusion_enabled
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#define occlusion_quality 4
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//#define occlusion_preview
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#define noise_use_smoothstep
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#define light_color vec3(0.1,0.4,0.6)
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#define light_direction normalize(vec3(.2,1.0,-0.2))
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#define light_speed_modifier 1.0
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#define object_color vec3(0.9,0.1,0.1)
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#define object_count 9
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#define object_speed_modifier 1.0
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#define render_steps 33
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float hash(float x)
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{
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return fract(sin(x*.0127863)*17143.321);
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}
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float hash(vec2 x)
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{
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return fract(cos(dot(x.xy,vec2(2.31,53.21))*124.123)*412.0);
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}
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vec3 cc(vec3 color, float factor,float factor2) //a wierd color modifier
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{
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float w = color.x+color.y+color.z;
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return mix(color,vec3(w)*factor,w*factor2);
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}
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float hashmix(float x0, float x1, float interp)
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{
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x0 = hash(x0);
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x1 = hash(x1);
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#ifdef noise_use_smoothstep
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interp = smoothstep(0.0,1.0,interp);
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#endif
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return mix(x0,x1,interp);
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}
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float noise(float p) // 1D noise
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{
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float pm = mod(p,1.0);
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float pd = p-pm;
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return hashmix(pd,pd+1.0,pm);
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}
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vec3 rotate_y(vec3 v, float angle)
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{
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float ca = cos(angle); float sa = sin(angle);
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return v*mat3(
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+ca, +.0, -sa,
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+.0,+1.0, +.0,
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+sa, +.0, +ca);
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}
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vec3 rotate_x(vec3 v, float angle)
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{
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float ca = cos(angle); float sa = sin(angle);
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return v*mat3(
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+1.0, +.0, +.0,
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+.0, +ca, -sa,
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+.0, +sa, +ca);
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}
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float max3(float a, float b, float c)//returns the maximum of 3 values
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{
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return max(a,max(b,c));
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}
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vec3 bpos[object_count];//position for each metaball
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float dist(vec3 p)//distance function
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{
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float d=1024.0;
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float nd;
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for (int i=0 ;i<object_count; i++)
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{
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vec3 np = p+bpos[i];
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float shape0 = max3(abs(np.x),abs(np.y),abs(np.z))-1.0;
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float shape1 = length(np)-1.0;
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nd = shape0+(shape1-shape0)*2.0;
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d = mix(d,nd,smoothstep(-1.0,+1.0,d-nd));
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}
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return d;
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}
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vec3 normal(vec3 p,float e) //returns the normal, uses the distance function
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{
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float d=dist(p);
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return normalize(vec3(dist(p+vec3(e,0,0))-d,dist(p+vec3(0,e,0))-d,dist(p+vec3(0,0,e))-d));
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}
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vec3 light = light_direction; //global variable that holds light direction
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vec3 background(vec3 d)//render background
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{
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float t=iGlobalTime*0.5*light_speed_modifier;
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float qq = dot(d,light)*.5+.5;
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float bgl = qq;
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float q = (bgl+noise(bgl*6.0+t)*.85+noise(bgl*12.0+t)*.85);
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q+= pow(qq,32.0)*2.0;
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vec3 sky = vec3(0.1,0.4,0.6)*q;
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return sky;
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}
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float occlusion(vec3 p, vec3 d)//returns how much a point is visible from a given direction
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{
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float occ = 1.0;
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p=p+d;
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for (int i=0; i<occlusion_quality; i++)
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{
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float dd = dist(p);
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p+=d*dd;
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occ = min(occ,dd);
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}
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return max(.0,occ);
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}
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vec3 object_material(vec3 p, vec3 d)
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{
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vec3 color = normalize(object_color*light_color);
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vec3 n = normal(p,0.1);
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vec3 r = reflect(d,n);
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float reflectance = dot(d,r)*.5+.5;reflectance=pow(reflectance,2.0);
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float diffuse = dot(light,n)*.5+.5; diffuse = max(.0,diffuse);
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#ifdef occlusion_enabled
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float oa = occlusion(p,n)*.4+.6;
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float od = occlusion(p,light)*.95+.05;
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float os = occlusion(p,r)*.95+.05;
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#else
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float oa=1.0;
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float ob=1.0;
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float oc=1.0;
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#endif
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#ifndef occlusion_preview
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color =
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color*oa*.2 + //ambient
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color*diffuse*od*.7 + //diffuse
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background(r)*os*reflectance*.7; //reflection
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#else
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color=vec3((oa+od+os)*.3);
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#endif
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return color;
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}
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#define offset1 4.7
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#define offset2 4.6
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void mainImage( out vec4 fragColor, in vec2 fragCoord )
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{
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vec2 uv = fragCoord.xy / iResolution.xy - 0.5;
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uv.x *= iResolution.x/iResolution.y; //fix aspect ratio
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vec3 mouse = vec3(iMouse.xy/iResolution.xy - 0.5,iMouse.z-.5);
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float t = iGlobalTime*.5*object_speed_modifier + 2.0;
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for (int i=0 ;i<object_count; i++) //position for each metaball
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{
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bpos[i] = 1.3*vec3(
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sin(t*0.967+float(i)*42.0),
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sin(t*.423+float(i)*152.0),
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sin(t*.76321+float(i)));
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}
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//setup the camera
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vec3 p = vec3(.0,0.0,-4.0);
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p = rotate_x(p,mouse.y*9.0+offset1);
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p = rotate_y(p,mouse.x*9.0+offset2);
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vec3 d = vec3(uv,1.0);
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d.z -= length(d)*.5; //lens distort
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d = normalize(d);
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d = rotate_x(d,mouse.y*9.0+offset1);
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d = rotate_y(d,mouse.x*9.0+offset2);
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//and action!
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float dd;
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vec3 color;
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for (int i=0; i<render_steps; i++) //raymarch
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{
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dd = dist(p);
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p+=d*dd*.7;
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if (dd<.04 || dd>4.0) break;
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}
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if (dd<0.5) //close enough
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color = object_material(p,d);
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else
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color = background(d);
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//post procesing
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color *=.85;
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color = mix(color,color*color,0.3);
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color -= hash(color.xy+uv.xy)*.015;
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color -= length(uv)*.1;
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color =cc(color,.5,.6);
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fragColor = vec4(color,1.0);
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}
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