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ikeda-numered-grid.frag
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ikeda-numered-grid.frag
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// Author @patriciogv - 2015
// Title: Ikeda Numered Grid
#ifdef GL_ES
precision mediump float;
#endif
// Copyright (c) Patricio Gonzalez Vivo, 2015 - http://patriciogonzalezvivo.com/
// I am the sole copyright owner of this Work.
//
// You cannot host, display, distribute or share this Work in any form,
// including physical and digital. You cannot use this Work in any
// commercial or non-commercial product, website or project. You cannot
// sell this Work and you cannot mint an NFTs of it.
// I share this Work for educational purposes, and you can link to it,
// through an URL, proper attribution and unmodified screenshot, as part
// of your educational material. If these conditions are too restrictive
// please contact me and we'll definitely work it out.
uniform vec2 u_resolution;
uniform float u_time;
float random(in float x){ return fract(sin(x)*43758.5453); }
// float random(in vec2 st){ return fract(sin(dot(st.xy ,vec2(12.9898,78.233))) * 43758.5453); }
float random(vec2 p) { return fract(1e4 * sin(17.0 * p.x + p.y * 0.1) * (0.1 + abs(sin(p.y * 13.0 + p.x)))); }
float bin(vec2 ipos, float n){
float remain = mod(n,33554432.);
for(float i = 0.0; i < 25.0; i++){
if ( floor(i/3.) == ipos.y && mod(i,3.) == ipos.x ) {
return step(1.0,mod(remain,2.));
}
remain = ceil(remain/2.);
}
return 0.0;
}
float char(vec2 st, float n){
st.x = st.x*2.-0.5;
st.y = st.y*1.2-0.1;
vec2 grid = vec2(3.,5.);
vec2 ipos = floor(st*grid);
vec2 fpos = fract(st*grid);
n = floor(mod(n,10.));
float digit = 0.0;
if (n < 1. ) { digit = 31600.; }
else if (n < 2. ) { digit = 9363.0; }
else if (n < 3. ) { digit = 31184.0; }
else if (n < 4. ) { digit = 31208.0; }
else if (n < 5. ) { digit = 23525.0; }
else if (n < 6. ) { digit = 29672.0; }
else if (n < 7. ) { digit = 29680.0; }
else if (n < 8. ) { digit = 31013.0; }
else if (n < 9. ) { digit = 31728.0; }
else if (n < 10. ) { digit = 31717.0; }
float pct = bin(ipos, digit);
vec2 borders = vec2(1.);
// borders *= step(0.01,fpos.x) * step(0.01,fpos.y); // inner
borders *= step(0.0,st)*step(0.0,1.-st); // outer
return step(.5,1.0-pct) * borders.x * borders.y;
}
float grid(vec2 st, float res){
vec2 grid = fract(st*res);
return 1.-(step(res,grid.x) * step(res,grid.y));
}
float box(in vec2 st, in vec2 size){
size = vec2(0.5) - size*0.5;
vec2 uv = smoothstep(size,
size+vec2(0.001),
st);
uv *= smoothstep(size,
size+vec2(0.001),
vec2(1.0)-st);
return uv.x*uv.y;
}
float cross(in vec2 st, vec2 size){
return clamp(box(st, vec2(size.x*0.5,size.y*0.125)) +
box(st, vec2(size.y*0.125,size.x*0.5)),0.,1.);
}
void main(){
vec2 st = gl_FragCoord.st/u_resolution.xy;
st.x *= u_resolution.x/u_resolution.y;
vec3 color = vec3(0.0);
// Grid
vec2 grid_st = st*300.;
color += vec3(0.5,0.,0.)*grid(grid_st,0.01);
color += vec3(0.2,0.,0.)*grid(grid_st,0.02);
color += vec3(0.2)*grid(grid_st,0.1);
// Crosses
vec2 crosses_st = st + .5;
crosses_st *= 3.;
vec2 crosses_st_f = fract(crosses_st);
color *= 1.-cross(crosses_st_f,vec2(.3,.3));
color += vec3(.9)*cross(crosses_st_f,vec2(.2,.2));
// Digits
vec2 digits_st = mod(st*60.,20.);
vec2 digits_st_i = floor(digits_st);
if (digits_st_i.y == 1. &&
digits_st_i.x > 0. && digits_st_i.x < 6. ) {
vec2 digits_st_f = fract(digits_st);
float pct = random(digits_st_i+floor(crosses_st)+floor(u_time*20.));
color += vec3(char(digits_st_f,100.*pct));
} else if (digits_st_i.y == 2. &&
digits_st_i.x > 0. && digits_st_i.x < 8. ) {
vec2 digits_st_f = fract(digits_st);
float pct = random(digits_st_i+floor(crosses_st)+floor(u_time*20.));
color += vec3(char(digits_st_f,100.*pct));
}
gl_FragColor = vec4( color , 1.0);
}