light_world.lua/lib/shaders/normal.glsl
2014-12-19 10:14:24 -05:00

34 lines
1.4 KiB
GLSL

extern Image NormalMap; //normal map
extern vec3 LightPos; //light position, normalized, div x/res
extern vec4 LightColor; //light RGBA -- alpha is intensity
extern vec4 AmbientColor;//ambient RGBA -- alpha is intensity
extern vec3 Falloff; //attenuation coefficients
vec4 effect(vec4 vColor, Image u_texture, vec2 vTexCoord, vec2 screen_coords) {
//RGBA of our diffuse color
vec4 DiffuseColor = Texel(u_texture, vTexCoord);
//RGB of our normal map
vec4 normal = Texel(NormalMap, vTexCoord);
if(normal.a == 0.0) {
return vec4(0.0);
}
//The delta position of light
vec3 LightDir = vec3((LightPos.xy - screen_coords.xy)/love_ScreenSize.xy, LightPos.z);
//Correct for aspect ratio
LightDir.x *= love_ScreenSize.x / love_ScreenSize.y;
//Determine distance (used for attenuation) BEFORE we normalize our LightDir
float D = length(LightDir);
//normalize our vectors
vec3 N = normalize(normal.rgb * 2.0 - 1.0);
vec3 L = normalize(LightDir);
//Pre-multiply light color with intensity
//Then perform "N dot L" to determine our diffuse term
vec3 Diffuse = (LightColor.rgb * LightColor.a) * max(dot(N, L), 0.0);
//pre-multiply ambient color with intensity
vec3 Ambient = AmbientColor.rgb * AmbientColor.a;
float Attenuation = 1.0 / ( Falloff.x + (Falloff.y*D) + (Falloff.z*D*D) );
vec3 Intensity = Ambient + Diffuse * Attenuation;
return vec4(DiffuseColor.rgb * Intensity, DiffuseColor.a);
}