uniform sampler2D normal_map;
uniform samplerCube environment_map;
+uniform samplerCube irradiance_map;
layout(constant_id=auto) const bool use_normal_map = false;
mat4 vertex_tf = get_vertex_transform();
mat3 normal_tf = get_normal_transform();
- vec4 world_vertex = vertex_tf*get_vertex_position();
+ out vec4 world_vertex = vertex_tf*get_vertex_position();
vec4 eye_vertex = eye_world_matrix*world_vertex;
gl_Position = clip_eye_matrix*eye_vertex;
vec3 eye_pos = (inverse(eye_world_matrix)*vec4(0.0, 0.0, 0.0, 1.0)).xyz;
out vec3 world_look_dir = normalize(world_vertex.xyz-eye_pos);
- out vec3 world_light_dir = light_sources[0].position.xyz-world_vertex.xyz*light_sources[0].position.w;
-
- out vec3 world_halfway_dir = normalize(world_light_dir-world_look_dir);
-
out float fog_coord = eye_vertex.z;
if(use_clipping)
for(int i=0; i<max_clip_planes; ++i)
gl_ClipDistance[i] = dot(world_vertex, clip_planes[i].equation);
}
-
- shadow_transform(world_vertex);
}
virtual void custom_transform()
return normalize(world_normal);
}
-virtual vec3 get_environment_sample(vec3 direction)
+virtual vec3 get_light_direction(int index)
{
- return texture(environment_map, env_world_matrix*direction).rgb;
+ vec4 light_pos = light_sources[index].position;
+ return normalize(light_pos.xyz-world_vertex.xyz*light_pos.w);
+}
+
+virtual vec3 get_environment_sample(vec3 direction, float roughness)
+{
+ float lod = (2-roughness)*roughness*(textureQueryLevels(environment_map)-1);
+ return textureLod(environment_map, env_world_matrix*direction, lod).rgb;
}
virtual vec3 get_reflection(vec3 normal, vec3 look)
{
vec3 reflect_dir = reflect(look, normal);
- return get_environment_sample(reflect_dir);
+ return get_environment_sample(reflect_dir, 0.0);
+}
+
+virtual vec3 get_irradiance_sample(vec3 normal)
+{
+ return texture(irradiance_map, env_world_matrix*normal).rgb;
}
vec3 apply_fog(vec3 color)
projects / libs / gl.git / blobdiff