lygia
/v1.1.6
/lighting
/volumetricLightScattering
)ScreenSpace Reflections
Dependencies:
lygia
/v1.1.6
/math
/const
.glsl
lygia
/v1.1.6
/math
/inverse
.glsl
lygia
/v1.1.6
/space
/screen2viewPosition
.glsl
lygia
/v1.1.6
/space
/depth2viewZ
.glsl
lygia
/v1.1.6
/sample
.glsl
Use:
<float> ssao(<SAMPLER_TYPE> texPosition, <SAMPLER_TYPE> texNormal, vec2 <st> [, <float> radius, float <bias>])
#ifndef VOLUMETRICLIGHTSCATTERING_FACTOR
#define VOLUMETRICLIGHTSCATTERING_FACTOR 0.25
#endif
#ifndef VOLUMETRICLIGHTSCATTERING_STEPS
#define VOLUMETRICLIGHTSCATTERING_STEPS 50
#endif
#ifndef VOLUMETRICLIGHTSCATTERING_TYPE
#define VOLUMETRICLIGHTSCATTERING_TYPE float
#endif
#ifndef CAMERA_POSITION
#define CAMERA_POSITION u_camera
#endif
#ifndef CAMERA_NEAR_CLIP
#define CAMERA_NEAR_CLIP u_cameraNearClip
#endif
#ifndef CAMERA_FAR_CLIP
#define CAMERA_FAR_CLIP u_cameraFarClip
#endif
#ifndef CAMERA_PROJECTION_MATRIX
#define CAMERA_PROJECTION_MATRIX u_projectionMatrix
#endif
#ifndef INVERSE_CAMERA_PROJECTION_MATRIX
// #define INVERSE_CAMERA_PROJECTION_MATRIX u_inverseProjectionMatrix
#define INVERSE_CAMERA_PROJECTION_MATRIX inverse(CAMERA_PROJECTION_MATRIX)
#endif
#ifndef CAMERA_VIEW_MATRIX
#define CAMERA_VIEW_MATRIX u_viewMatrix
#endif
#ifndef INVERSE_CAMERA_VIEW_MATRIX
// #define INVERSE_CAMERA_VIEW_MATRIX u_inverseViewMatrix
#define INVERSE_CAMERA_VIEW_MATRIX inverse(CAMERA_VIEW_MATRIX)
#endif
#ifndef LIGHT_MATRIX
#define LIGHT_MATRIX u_lightMatrix
#endif
#ifndef LIGHT_POSITION
#define LIGHT_POSITION (LIGHT_MATRIX * vec4(0.0,0.0,-1.0,1.0)).xyz
#endif
// https://www.alexandre-pestana.com/volumetric-lights/
// https://www.gamedev.net/blogs/entry/2266308-effect-volumetric-light-scattering/
#ifndef VOLUMETRICLIGHTSCATTERING_SAMPLE_FNC
#define VOLUMETRICLIGHTSCATTERING_SAMPLE_FNC(TEX, UV) min(SAMPLER_FNC(TEX, UV).r, 0.997)
#endif
#ifndef FNC_VOLUMETRICLIGHTSCATTERING
#define FNC_VOLUMETRICLIGHTSCATTERING
VOLUMETRICLIGHTSCATTERING_TYPE volumetricLightScattering(SAMPLER_TYPE lightShadowMap, const in mat4 lightMatrix, const in vec3 lightPos, const in vec3 rayOrigin, const in vec3 rayEnd) {
vec3 rayVector = rayEnd - rayOrigin;
float rayLength = length(rayVector);
vec3 rayDirection = rayVector / rayLength;
float stepLength = 1.0 / float(VOLUMETRICLIGHTSCATTERING_STEPS);
float rayStepLength = rayLength * stepLength;
vec3 rayStep = rayDirection * rayStepLength;
float lightDotView = dot(rayDirection, normalize(lightPos));
float scattering_g = VOLUMETRICLIGHTSCATTERING_FACTOR * VOLUMETRICLIGHTSCATTERING_FACTOR;
float scattering = 1.0 - scattering_g;
scattering /= (4.0 * PI * pow(1.0 + scattering_g - (2.0 * VOLUMETRICLIGHTSCATTERING_FACTOR) * lightDotView, 1.5));
VOLUMETRICLIGHTSCATTERING_TYPE L = VOLUMETRICLIGHTSCATTERING_TYPE(0.0);
vec4 rayCurrPos = vec4(rayOrigin, 1.0);
for (int i = 0; i < VOLUMETRICLIGHTSCATTERING_STEPS; i ++) {
vec4 worldInShadowCameraSpace = lightMatrix * rayCurrPos;
worldInShadowCameraSpace /= worldInShadowCameraSpace.w;
float shadowMapValue = VOLUMETRICLIGHTSCATTERING_SAMPLE_FNC(lightShadowMap, worldInShadowCameraSpace.xy );
L += step(worldInShadowCameraSpace.z, shadowMapValue) *
#ifdef VOLUMETRICLIGHTSCATTERING_MASK_FNC
VOLUMETRICLIGHTSCATTERING_MASK_FNC(worldInShadowCameraSpace) *
#endif
scattering;
rayCurrPos.xyz += rayStep;
}
return L * stepLength;
}
VOLUMETRICLIGHTSCATTERING_TYPE volumetricLightScattering(SAMPLER_TYPE texDepth, vec2 st) {
float depth = VOLUMETRICLIGHTSCATTERING_SAMPLE_FNC(texDepth, st);
float viewZ = depth2viewZ(depth, CAMERA_NEAR_CLIP, CAMERA_FAR_CLIP);
#ifdef VOLUMETRICLIGHTSCATTERING_NOISE_FNC
viewZ += VOLUMETRICLIGHTSCATTERING_NOISE_FNC;
#endif
vec4 worldPos = INVERSE_CAMERA_VIEW_MATRIX * screen2viewPosition(st, depth, viewZ);
#ifdef LIGHT_SHADOWMAP
return volumetricLightScattering(LIGHT_SHADOWMAP, LIGHT_MATRIX, LIGHT_POSITION, CAMERA_POSITION, worldPos.xyz);
#else
return VOLUMETRICLIGHTSCATTERING_TYPE(0.0);
#endif
}
#endif
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