OpenSpace/modules/space/shaders/shadow_fs.glsl

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 * OpenSpace                                                                             *
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 * Copyright (c) 2014-2018                                                               *
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#include "PowerScaling/powerScaling_fs.hglsl"
#include "fragment.glsl"

in vec2 vs_st;
in vec4 vs_normal;
in vec4 vs_position;
in vec4 vs_posWorld;
in vec4 vs_gPosition;
in vec3 vs_gNormal;

const uint numberOfShadows = 1;

struct ShadowRenderingStruct {
    float xu, xp;
    float rs, rc;
    vec3 sourceCasterVec;
    vec3 casterPositionVec;
    bool isShadowing;
};

uniform ShadowRenderingStruct shadowDataArray[numberOfShadows];

uniform vec4 objpos;

uniform vec3 sun_pos;

uniform bool _performShading = true;
uniform float transparency;

uniform sampler2D texture1;

vec4 butterworthFunc(const float d, const float r, const float n) {
    return vec4(vec3(sqrt(r / (r + pow(d, 2 * n)))), 1.0);
}

vec4 calcShadow(ShadowRenderingStruct shadowInfoArray[numberOfShadows], vec3 position) {
    if (shadowInfoArray[0].isShadowing) {
        vec3 pc = shadowInfoArray[0].casterPositionVec - position;
        // we can pass this normalized to the shader
        vec3 sc_norm = normalize(shadowInfoArray[0].sourceCasterVec);
        vec3 pc_proj = dot(pc, sc_norm) * sc_norm;
        vec3 d = pc - pc_proj;

        float length_d = length(d);
        float length_pc_proj = length(pc_proj);

        float r_p_pi = shadowInfoArray[0].rc * (length_pc_proj + shadowInfoArray[0].xp) / shadowInfoArray[0].xp;

        //float r_u_pi = shadowInfoArray[0].rc * (length_pc_proj + shadowInfoArray[0].xu) / shadowInfoArray[0].xu;
        float r_u_pi = shadowInfoArray[0].rc * (shadowInfoArray[0].xu - length_pc_proj) / shadowInfoArray[0].xu;

        if (length_d < r_u_pi) { // umbra
            //return vec4(0.0, 0.0, 0.0, 1.0);
            //return vec4(1.0, 0.0, 0.0, 1.0);
            return butterworthFunc(length_d, r_u_pi, 4.0);
        }
        else if (length_d < r_p_pi) {// penumbra
            //return vec4(0.5, 0.5, 0.5, 1.0);
            //return vec4(0.0, 1.0, 0.0, 1.0);
            return vec4(vec3(length_d/r_p_pi), 1.0);
        }
    }

    return vec4(1.0);
}

Fragment getFragment() {
    vec4 position = vs_position;
    float depth = pscDepth(position);
    vec4 diffuse = texture(texture1, vs_st);

    Fragment frag;
    if (_performShading) {
        // directional lighting
        vec3 n = normalize(vs_normal.xyz);
        vec3 l_pos = vec3(sun_pos); // sun
        vec3 l_dir = normalize(l_pos - objpos.xyz);
        float intensity = min(max(5.0 * dot(n, l_dir), 0.0), 1.0);
        float darkSide  = min(max(5.0 * dot(n, -l_dir), 0.0), 1.0);
        
        vec4 ambient = vec4(0.0, 0.0, 0.0, transparency);
        vec4 daytex = max(intensity * diffuse, ambient);
        
        diffuse = daytex * calcShadow(shadowDataArray, vs_posWorld.xyz);
    }
    
    frag.color = vec4(diffuse.rgb, transparency);
    frag.depth = depth;
    
    frag.gPosition  = vs_gPosition;
    frag.gNormal    = vec4(vs_gNormal, 1.0);
    
    return frag;
}