stk-code_catmod/data/shaders/gi.frag

90 lines
2.6 KiB
GLSL

// From http://graphics.cs.aueb.gr/graphics/research_illumination.html
// "Real-Time Diffuse Global Illumination Using Radiance Hints"
// paper and shader code
uniform sampler2D ntex;
uniform sampler2D dtex;
uniform sampler3D SHR;
uniform sampler3D SHG;
uniform sampler3D SHB;
uniform vec3 extents;
uniform mat4 RHMatrix;
uniform mat4 InvRHMatrix;
vec4 SHBasis (const in vec3 dir)
{
float L00 = 0.282095;
float L1_1 = 0.488603 * dir.y;
float L10 = 0.488603 * dir.z;
float L11 = 0.488603 * dir.x;
return vec4 (L11, L1_1, L10, L00);
}
vec3 SH2RGB (in vec4 sh_r, in vec4 sh_g, in vec4 sh_b, in vec3 dir)
{
vec4 Y = vec4(1.023326*dir.x, 1.023326*dir.y, 1.023326*dir.z, 0.886226);
return vec3 (dot(Y,sh_r), dot(Y,sh_g), dot(Y,sh_b));
}
out vec4 Diffuse;
#stk_include "utils/decodeNormal.frag"
#stk_include "utils/getPosFromUVDepth.frag"
vec3 resolution = vec3(32, 16, 32);
void main()
{
vec2 uv = gl_FragCoord.xy / screen;
vec3 GI = vec3(0.);
float depth = texture2D(dtex, uv).x;
// Discard background fragments
if (depth==1.0) discard;
vec4 pos_screen_space = getPosFromUVDepth(vec3(uv, depth), InverseProjectionMatrix);
vec4 tmp = (InvRHMatrix * InverseViewMatrix * pos_screen_space);
vec3 pos = tmp.xyz / tmp.w;
vec3 normal_screen_space = normalize(DecodeNormal(2. * texture(ntex, uv).xy - 1.));
vec3 normal = (transpose(ViewMatrix) * vec4(normal_screen_space, 0.)).xyz;
// Convert to grid coordinates
vec3 uvw = .5 + 0.5 * pos / extents;
if (uvw.x < 0. || uvw.x > 1. || uvw.y < 0. || uvw.y > 1. || uvw.z < 0. || uvw.z > 1.) discard;
// Sample the RH volume at 4 locations, one directly above the shaded point,
// three on a ring 80degs away from the normal direction.
vec3 rnd = vec3(0,0,0);
// Generate the sample locations
vec3 v_rand = vec3(0.5);
vec3 tangent = normalize(cross(normal, v_rand));
vec3 bitangent = cross(normal, tangent);
vec3 D[4];
D[0] = vec3(1.0,0.0,0.0);
int i;
for (i=1; i<4; i++)
{
D[i] = vec3(0.1, 0.8*cos((rnd.x*1.5+i)*6.2832/3.0), 0.8*sin((rnd.x*1.5+i)*6.2832/3.0));
D[i] = normalize(D[i]);
}
for (i=0; i<4; i++)
{
vec3 SampleDir = normal * D[i].x + tangent * D[i].y + bitangent *D[i].z;
vec3 SampleOffset = (0.5 * normal + SampleDir) / resolution;
vec3 uvw_new = uvw + SampleOffset;
vec4 IncidentSHR = texture(SHR, uvw_new);
vec4 IncidentSHG = texture(SHG, uvw_new);
vec4 IncidentSHB = texture(SHB, uvw_new);
GI += SH2RGB(IncidentSHR, IncidentSHG, IncidentSHB, -normal);
}
GI /= 4;
Diffuse = max(16. * vec4(GI, 1.), vec4(0.));
}