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-rw-r--r--servers/rendering/renderer_rd/shaders/giprobe.glsl11
-rw-r--r--servers/rendering/renderer_rd/shaders/scene_forward.glsl15
-rw-r--r--servers/rendering/renderer_rd/shaders/sdfgi_direct_light.glsl14
-rw-r--r--servers/rendering/renderer_rd/shaders/volumetric_fog.glsl21
4 files changed, 48 insertions, 13 deletions
diff --git a/servers/rendering/renderer_rd/shaders/giprobe.glsl b/servers/rendering/renderer_rd/shaders/giprobe.glsl
index ea4237a45e..4f4753d147 100644
--- a/servers/rendering/renderer_rd/shaders/giprobe.glsl
+++ b/servers/rendering/renderer_rd/shaders/giprobe.glsl
@@ -208,6 +208,15 @@ float raymarch(float distance, float distance_adv, vec3 from, vec3 direction) {
return occlusion; //max(0.0,distance);
}
+float get_omni_attenuation(float distance, float inv_range, float decay) {
+ float nd = distance * inv_range;
+ nd *= nd;
+ nd *= nd; // nd^4
+ nd = max(1.0 - nd, 0.0);
+ nd *= nd; // nd^2
+ return nd * pow(max(distance, 0.0001), -decay);
+}
+
bool compute_light_vector(uint light, vec3 pos, out float attenuation, out vec3 light_pos) {
if (lights.data[light].type == LIGHT_TYPE_DIRECTIONAL) {
light_pos = pos - lights.data[light].direction * length(vec3(params.limits));
@@ -220,7 +229,7 @@ bool compute_light_vector(uint light, vec3 pos, out float attenuation, out vec3
return false;
}
- attenuation = pow(clamp(1.0 - distance / lights.data[light].radius, 0.0001, 1.0), lights.data[light].attenuation);
+ attenuation = get_omni_attenuation(distance, 1.0 / lights.data[light].radius, lights.data[light].attenuation);
if (lights.data[light].type == LIGHT_TYPE_SPOT) {
vec3 rel = normalize(pos - light_pos);
diff --git a/servers/rendering/renderer_rd/shaders/scene_forward.glsl b/servers/rendering/renderer_rd/shaders/scene_forward.glsl
index 5d041babf1..0518976322 100644
--- a/servers/rendering/renderer_rd/shaders/scene_forward.glsl
+++ b/servers/rendering/renderer_rd/shaders/scene_forward.glsl
@@ -891,6 +891,15 @@ float sample_directional_soft_shadow(texture2D shadow, vec3 pssm_coord, vec2 tex
#endif //USE_NO_SHADOWS
+float get_omni_attenuation(float distance, float inv_range, float decay) {
+ float nd = distance * inv_range;
+ nd *= nd;
+ nd *= nd; // nd^4
+ nd = max(1.0 - nd, 0.0);
+ nd *= nd; // nd^2
+ return nd * pow(max(distance, 0.0001), -decay);
+}
+
void light_process_omni(uint idx, vec3 vertex, vec3 eye_vec, vec3 normal, vec3 vertex_ddx, vec3 vertex_ddy, vec3 albedo, float roughness, float metallic, float specular, float p_blob_intensity,
#ifdef LIGHT_BACKLIGHT_USED
vec3 backlight,
@@ -916,9 +925,8 @@ void light_process_omni(uint idx, vec3 vertex, vec3 eye_vec, vec3 normal, vec3 v
inout vec3 diffuse_light, inout vec3 specular_light) {
vec3 light_rel_vec = lights.data[idx].position - vertex;
float light_length = length(light_rel_vec);
- float normalized_distance = light_length * lights.data[idx].inv_radius;
vec2 attenuation_energy = unpackHalf2x16(lights.data[idx].attenuation_energy);
- float omni_attenuation = pow(max(1.0 - normalized_distance, 0.0), attenuation_energy.x);
+ float omni_attenuation = get_omni_attenuation(light_length, lights.data[idx].inv_radius, attenuation_energy.x);
float light_attenuation = omni_attenuation;
vec3 shadow_attenuation = vec3(1.0);
vec4 color_specular = unpackUnorm4x8(lights.data[idx].color_specular);
@@ -1205,9 +1213,8 @@ void light_process_spot(uint idx, vec3 vertex, vec3 eye_vec, vec3 normal, vec3 v
inout vec3 specular_light) {
vec3 light_rel_vec = lights.data[idx].position - vertex;
float light_length = length(light_rel_vec);
- float normalized_distance = light_length * lights.data[idx].inv_radius;
vec2 attenuation_energy = unpackHalf2x16(lights.data[idx].attenuation_energy);
- float spot_attenuation = pow(max(1.0 - normalized_distance, 0.001), attenuation_energy.x);
+ float spot_attenuation = get_omni_attenuation(light_length, lights.data[idx].inv_radius, attenuation_energy.x);
vec3 spot_dir = lights.data[idx].direction;
vec2 spot_att_angle = unpackHalf2x16(lights.data[idx].cone_attenuation_angle);
float scos = max(dot(-normalize(light_rel_vec), spot_dir), spot_att_angle.y);
diff --git a/servers/rendering/renderer_rd/shaders/sdfgi_direct_light.glsl b/servers/rendering/renderer_rd/shaders/sdfgi_direct_light.glsl
index 61e4bf5e18..30dbf5871f 100644
--- a/servers/rendering/renderer_rd/shaders/sdfgi_direct_light.glsl
+++ b/servers/rendering/renderer_rd/shaders/sdfgi_direct_light.glsl
@@ -112,6 +112,15 @@ vec2 octahedron_encode(vec3 n) {
return n.xy;
}
+float get_omni_attenuation(float distance, float inv_range, float decay) {
+ float nd = distance * inv_range;
+ nd *= nd;
+ nd *= nd; // nd^4
+ nd = max(1.0 - nd, 0.0);
+ nd *= nd; // nd^2
+ return nd * pow(max(distance, 0.0001), -decay);
+}
+
void main() {
uint voxel_index = uint(gl_GlobalInvocationID.x);
@@ -184,14 +193,15 @@ void main() {
direction = normalize(rel_vec);
light_distance = length(rel_vec);
rel_vec.y /= params.y_mult;
- attenuation = pow(clamp(1.0 - length(rel_vec) / lights.data[i].radius, 0.0, 1.0), lights.data[i].attenuation);
+ attenuation = get_omni_attenuation(light_distance, 1.0 / lights.data[i].radius, lights.data[i].attenuation);
+
} break;
case LIGHT_TYPE_SPOT: {
vec3 rel_vec = lights.data[i].position - position;
direction = normalize(rel_vec);
light_distance = length(rel_vec);
rel_vec.y /= params.y_mult;
- attenuation = pow(clamp(1.0 - length(rel_vec) / lights.data[i].radius, 0.0, 1.0), lights.data[i].attenuation);
+ attenuation = get_omni_attenuation(light_distance, 1.0 / lights.data[i].radius, lights.data[i].attenuation);
float angle = acos(dot(normalize(rel_vec), -lights.data[i].direction));
if (angle > lights.data[i].spot_angle) {
diff --git a/servers/rendering/renderer_rd/shaders/volumetric_fog.glsl b/servers/rendering/renderer_rd/shaders/volumetric_fog.glsl
index 13b162f0c9..498a6ddb5b 100644
--- a/servers/rendering/renderer_rd/shaders/volumetric_fog.glsl
+++ b/servers/rendering/renderer_rd/shaders/volumetric_fog.glsl
@@ -169,6 +169,15 @@ vec3 hash3f(uvec3 x) {
return vec3(x & 0xFFFFF) / vec3(float(0xFFFFF));
}
+float get_omni_attenuation(float distance, float inv_range, float decay) {
+ float nd = distance * inv_range;
+ nd *= nd;
+ nd *= nd; // nd^4
+ nd = max(1.0 - nd, 0.0);
+ nd *= nd; // nd^2
+ return nd * pow(max(distance, 0.0001), -decay);
+}
+
void main() {
vec3 fog_cell_size = 1.0 / vec3(params.fog_volume_size);
@@ -270,14 +279,14 @@ void main() {
uint light_index = cluster_data.indices[omni_light_pointer + i];
vec3 light_pos = lights.data[i].position;
- float d = distance(lights.data[i].position, view_pos) * lights.data[i].inv_radius;
+ float d = distance(lights.data[i].position, view_pos);
vec3 shadow_attenuation = vec3(1.0);
- if (d < 1.0) {
+ if (d * lights.data[i].inv_radius < 1.0) {
vec2 attenuation_energy = unpackHalf2x16(lights.data[i].attenuation_energy);
vec4 color_specular = unpackUnorm4x8(lights.data[i].color_specular);
- float attenuation = pow(max(1.0 - d, 0.0), attenuation_energy.x);
+ float attenuation = get_omni_attenuation(d, lights.data[i].inv_radius, attenuation_energy.x);
vec3 light = attenuation_energy.y * color_specular.rgb / M_PI;
@@ -326,14 +335,14 @@ void main() {
vec3 light_pos = lights.data[i].position;
vec3 light_rel_vec = lights.data[i].position - view_pos;
- float d = length(light_rel_vec) * lights.data[i].inv_radius;
+ float d = length(light_rel_vec);
vec3 shadow_attenuation = vec3(1.0);
- if (d < 1.0) {
+ if (d * lights.data[i].inv_radius < 1.0) {
vec2 attenuation_energy = unpackHalf2x16(lights.data[i].attenuation_energy);
vec4 color_specular = unpackUnorm4x8(lights.data[i].color_specular);
- float attenuation = pow(max(1.0 - d, 0.0), attenuation_energy.x);
+ float attenuation = get_omni_attenuation(d, lights.data[i].inv_radius, attenuation_energy.x);
vec3 spot_dir = lights.data[i].direction;
vec2 spot_att_angle = unpackHalf2x16(lights.data[i].cone_attenuation_angle);