DashNix/recidia/shaders/space.frag

#version 450

layout(location = 0) in vec4 fragColor;
layout(location = 0) out vec4 outColor;

layout(push_constant) uniform PushConstants {
    float time;
    float power;
} constants;

#define iterations 12
#define formuparam2 0.79
 
#define volsteps 7
#define stepsize 0.290
 
#define zoom 0.75
#define tile   0.850
#define speed2  0.2
 
#define brightness 0.0015
#define darkmatter 0.010
#define distfading 0.560
#define saturation 0.90


#define transverseSpeed zoom
#define cloud 0.25 
 
float field(in vec3 p) {    
    float strength = 7. + .03 * log(1.e-6 + fract(sin(constants.time) * 373.11));
    float accum = 0.;
    float prev = 0.;
    float tw = 0.;  

    for (int i = 0; i < 10; ++i) {
        float mag = dot(p, p);
        p = abs(p) / mag + vec3(-.5, -.8 + 0.1*sin(-constants.time*0.1 + 2.0), -1.1+0.3*cos(constants.time*0.3));
        float w = exp(-float(i) / 7.);
        accum += w * exp(-strength * pow(abs(mag - prev), 2.3));
        tw += w;
        prev = mag;
    }
    return max(0., 5. * accum / tw - .7);
}



void main() {   
        vec2 uv2 = 2. * gl_FragCoord.xy / vec2(512) - 1.;
    vec2 uvs = uv2 * vec2(512)  / 512.;
    
    float time2 = constants.time;               
        float speed = -speed2;
        speed = .005 * cos(time2*0.02 + 3.1415926/4.0);          
    //speed = 0.0;  
        float formuparam = formuparam2;
    
    //get coords and direction  
    vec2 uv = uvs;  
               
    //mouse rotation
    float a_xz = 0.9;
    float a_yz = -.6;
    float a_xy = 0.9 + constants.time*0.08; 
    
    mat2 rot_xz = mat2(cos(a_xz),sin(a_xz),-sin(a_xz),cos(a_xz));   
    mat2 rot_yz = mat2(cos(a_yz),sin(a_yz),-sin(a_yz),cos(a_yz));       
    mat2 rot_xy = mat2(cos(a_xy),sin(a_xy),-sin(a_xy),cos(a_xy));
    

    float v2 =1.0;  
    vec3 dir=vec3(uv*zoom,1.); 
    vec3 from=vec3(0.0, 0.0,0.0);                                     
               
    vec3 forward = vec3(0.,0.,1.);   
    from.x += transverseSpeed*(1.0)*cos(0.01*constants.time) + 0.001*constants.time;
    from.y += transverseSpeed*(1.0)*sin(0.01*constants.time) +0.001*constants.time;
    from.z += 0.003*constants.time; 
    
    dir.xy*=rot_xy;
    forward.xy *= rot_xy;
    dir.xz*=rot_xz;
    forward.xz *= rot_xz;   
    dir.yz*= rot_yz;
    forward.yz *= rot_yz;
    
    from.xy*=-rot_xy;
    from.xz*=rot_xz;
    from.yz*= rot_yz;
     
    
    //zoom
    float zooom = (time2-3311.)*speed;
    from += forward* zooom;
    float sampleShift = mod( zooom, stepsize );
     
    float zoffset = -sampleShift;
    sampleShift /= stepsize; // make from 0 to 1
    
    //volumetric rendering
    float s=0.24;
    float s3 = s + stepsize/2.0;
    vec3 v=vec3(0.);
    float t3 = 0.0; 
    
    vec3 backCol2 = vec3(0.);
    for (int r=0; r<volsteps; r++) {
        vec3 p2=from+(s+zoffset)*dir;// + vec3(0.,0.,zoffset);
        vec3 p3=from+(s3+zoffset)*dir;// + vec3(0.,0.,zoffset);
        
        p2 = abs(vec3(tile)-mod(p2,vec3(tile*2.))); // tiling fold
        p3 = abs(vec3(tile)-mod(p3,vec3(tile*2.))); // tiling fold      
        #ifdef cloud
        t3 = field(p3);
        #endif
        
        float pa,a=pa=0.;
        for (int i=0; i<iterations; i++) {
            p2=abs(p2)/dot(p2,p2)-formuparam; // the magic formula
            //p=abs(p)/max(dot(p,p),0.005)-formuparam; // another interesting way to reduce noise
            float D = abs(length(p2)-pa); // absolute sum of average change
            a += i > 7 ? min( 12., D) : D;
            pa=length(p2);
        }
        
        
        float dm=max(0.,darkmatter-a*a*.001); //dark matter
        a*=a*a; // add contrast
        //if (r>3) fade*=1.-dm; // dark matter, don't render near
        // brightens stuff up a bit
        float s1 = s+zoffset;
        // need closed form expression for this, now that we shift samples
        float fade = pow(distfading,max(0.,float(r)-sampleShift));      
        //t3 += fade;       
        v+=fade;
            //backCol2 -= fade;

        // fade out samples as they approach the camera
        if( r == 0 )
            fade *= (1. - (sampleShift));
        // fade in samples as they approach from the distance
        if( r == volsteps-1 )
            fade *= sampleShift;
        v+=vec3(s1,s1*s1,s1*s1*s1*s1)*a*brightness*fade; // coloring based on distance
        
        backCol2 += mix(.4, 1., v2) * vec3(1.8 * t3 * t3 * t3, 1.4 * t3 * t3, t3) * fade;

        
        s+=stepsize;
        s3 += stepsize;     
    }//фор
               
    v=mix(vec3(length(v)),v,saturation); //color adjust 

    vec4 forCol2 = vec4(v*.01,1.);  
    #ifdef cloud
    backCol2 *= cloud;
    #endif  
    backCol2.b *= 1.8;
    backCol2.r *= 0.05; 
    
    backCol2.b = 0.5*mix(backCol2.g, backCol2.b, 0.8);
    backCol2.g = 0.0;
    backCol2.bg = mix(backCol2.gb, backCol2.bg, 0.5*(cos(constants.time*0.01) + 1.0));  

    // Mix in input
    backCol2 *= vec3(fragColor[0], fragColor[1], fragColor[2]);

    outColor = forCol2 + vec4(backCol2, fragColor.a);
}