// Compatibility #ifdefs needed for parameters #ifdef GL_ES #define COMPAT_PRECISION mediump #else #define COMPAT_PRECISION #endif // Parameter lines go here: #pragma parameter RETRO_PIXEL_SIZE "Retro Pixel Size" 0.84 0.0 1.0 0.01 #ifdef PARAMETER_UNIFORM // All parameter floats need to have COMPAT_PRECISION in front of them uniform COMPAT_PRECISION float RETRO_PIXEL_SIZE; #else #define RETRO_PIXEL_SIZE 0.84 #endif #if defined(VERTEX) #if __VERSION__ >= 130 #define COMPAT_VARYING out #define COMPAT_ATTRIBUTE in #define COMPAT_TEXTURE texture #else #define COMPAT_VARYING varying #define COMPAT_ATTRIBUTE attribute #define COMPAT_TEXTURE texture2D #endif #ifdef GL_ES #define COMPAT_PRECISION mediump #else #define COMPAT_PRECISION #endif COMPAT_ATTRIBUTE vec4 VertexCoord; COMPAT_ATTRIBUTE vec4 COLOR; COMPAT_ATTRIBUTE vec4 TexCoord; COMPAT_VARYING vec4 COL0; COMPAT_VARYING vec4 TEX0; // out variables go here as COMPAT_VARYING whatever vec4 _oPosition1; uniform mat4 MVPMatrix; uniform COMPAT_PRECISION int FrameDirection; uniform COMPAT_PRECISION int FrameCount; uniform COMPAT_PRECISION vec2 OutputSize; uniform COMPAT_PRECISION vec2 TextureSize; uniform COMPAT_PRECISION vec2 InputSize; // compatibility #defines #define vTexCoord TEX0.xy #define SourceSize vec4(TextureSize, 1.0 / TextureSize) //either TextureSize or InputSize #define OutSize vec4(OutputSize, 1.0 / OutputSize) void main() { gl_Position = MVPMatrix * VertexCoord; TEX0.xy = VertexCoord.xy; // Paste vertex contents here: } #elif defined(FRAGMENT) #if __VERSION__ >= 130 #define COMPAT_VARYING in #define COMPAT_TEXTURE texture out vec4 FragColor; #else #define COMPAT_VARYING varying #define FragColor gl_FragColor #define COMPAT_TEXTURE texture2D #endif #ifdef GL_ES #ifdef GL_FRAGMENT_PRECISION_HIGH precision highp float; #else precision mediump float; #endif #define COMPAT_PRECISION mediump #else #define COMPAT_PRECISION #endif uniform COMPAT_PRECISION int FrameDirection; uniform COMPAT_PRECISION int FrameCount; uniform COMPAT_PRECISION vec2 OutputSize; uniform COMPAT_PRECISION vec2 TextureSize; uniform COMPAT_PRECISION vec2 InputSize; uniform sampler2D Texture; COMPAT_VARYING vec4 TEX0; // in variables go here as COMPAT_VARYING whatever // compatibility #defines #define Source Texture #define vTexCoord TEX0.xy #define SourceSize vec4(TextureSize, 1.0 / TextureSize) //either TextureSize or InputSize #define OutSize vec4(OutputSize, 1.0 / OutputSize) // delete all 'params.' or 'registers.' or whatever in the fragment float iGlobalTime = float(FrameCount)*0.025; vec2 iResolution = OutputSize.xy; #define PI 3.14159 mat3 xrot(float t) { return mat3(1.0, 0.0, 0.0, 0.0, cos(t), -sin(t), 0.0, sin(t), cos(t)); } mat3 yrot(float t) { return mat3(cos(t), 0.0, -sin(t), 0.0, 1.0, 0.0, sin(t), 0.0, cos(t)); } mat3 zrot(float t) { return mat3(cos(t), -sin(t), 0.0, sin(t), cos(t), 0.0, 0.0, 0.0, 1.0); } 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)); } float map(vec3 pos) { float speed = 1.0; vec3 grid = floor(pos); vec3 gmod = mod(grid, 2.0); vec3 rmod = mod(grid, 4.0) - 2.0; float tm = fract(iGlobalTime * speed); rmod *= (cos(tm*PI)-1.0); float g = floor(mod(iGlobalTime*speed,3.0)); if (g==0.0){ if (gmod.y*gmod.x==1.0) { pos.z += rmod.x*rmod.y*0.5; } } else if (g==1.0){ if (gmod.y*gmod.z==1.0) { pos.x += rmod.y; } } else if (g==2.0){ if (gmod.z==0.0) { pos.y += rmod.z*rmod.x*0.5; } } grid = floor(pos); pos = pos - grid; pos = pos * 2.0 - 1.0; float len = 0.9; float d = sdBox(pos,vec3(len)); bool skip = false; if (mod(grid.x,2.0)==0.0 && mod(grid.y,2.0)==0.0) { skip = true; } if (mod(grid.x,2.0)==0.0 && mod(grid.z,2.0)==0.0) { skip = true; } if (mod(grid.y,2.0)==0.0 && mod(grid.z,2.0)==1.0) { skip = true; } if (skip) { d = 100.0; vec3 off = vec3(2.0,0.0,0.0); for (int i = 0; i < 3; ++i) { float a = sdBox(pos + off,vec3(len)); float b = sdBox(pos - off,vec3(len)); d = min(d,min(a,b)); off = off.zxy; } d *= 0.5; } else { d *= 0.8; } return d; } vec3 surfaceNormal(vec3 pos) { vec3 delta = vec3(0.01, 0.0, 0.0); vec3 normal; normal.x = map(pos + delta.xyz) - map(pos - delta.xyz); normal.y = map(pos + delta.yxz) - map(pos - delta.yxz); normal.z = map(pos + delta.zyx) - map(pos - delta.zyx); return normalize(normal); } float aoc(vec3 origin, vec3 ray) { float delta = 0.05; const int samples = 8; float r = 0.0; for (int i = 1; i <= samples; ++i) { float t = delta * float(i); vec3 pos = origin + ray * t; float dist = map(pos); float len = abs(t - dist); r += len * pow(2.0, -float(i)); } return r; } void mainImage( out vec4 fragColor, in vec2 fragCoord ) { vec2 uv = fragCoord.xy / iResolution.xy; uv = uv * 2.0 - 1.0; uv.x *= iResolution.x / iResolution.y; vec3 eye = normalize(vec3(uv, 1.0 - dot(uv,uv) * 0.33)); vec3 origin = vec3(0.0); eye = eye * yrot(iGlobalTime) * xrot(iGlobalTime); float speed = 0.5; float j = iGlobalTime * speed; float f = fract(j); float g = 1.0 - f; f = f*f * g + (1.0-g*g) * f; f = f * 2.0 - 1.0; float a = floor(j) + f * floor(mod(j,2.0)); float b = floor(j) + f * floor(mod(j+1.0,2.0)); origin.x += 0.5 + a; origin.y += 0.5; origin.z += 0.5 + b; float t = 0.0; float d = 0.0; for (int i = 0; i < 32; ++i){ vec3 pos = origin + eye * t; d = map(pos); t += d; } vec3 worldPos = origin + eye * t; vec3 norm = surfaceNormal(worldPos); float prod = max(0.0, dot(norm, -eye)); float amb = 0.0;//aoc(worldPos, -eye); vec3 ref = reflect(eye, norm); vec3 spec = vec3(0.0);//texture(iChannel0, ref).xyz; prod = pow(1.0 - prod, 2.0); vec3 col = vec3(0.1, 0.3, 0.5); spec *= col; col = mix(col, spec, prod); float shade = pow(max(1.0 - amb, 0.0), 4.0); float fog = 1.0 / (1.0 + t * t * 0.2) * shade; vec3 final = col; final = mix(final, vec3(1.0), fog); fog = 1.0 / (1.0 + t * t * 0.1); fragColor = vec4(final*fog,0.0); } void main(void) { //just some shit to wrap shadertoy's stuff vec2 FragCoord = vTexCoord.xy*OutputSize.xy; mainImage(FragColor,FragCoord); } #endif