bullet3/examples/OpenGLWindow/Shaders/useShadowMapInstancingPS.glsl
2020-09-07 16:52:14 -07:00

78 lines
1.7 KiB
GLSL
Executable File

#version 330 core
//precision highp float;
in Fragment
{
vec4 color;
} fragment;
in Vert
{
vec2 texcoord;
} vert;
uniform sampler2D Diffuse;
uniform sampler2DShadow shadowMap;
uniform mat4 ViewMatrixInverse;
in vec3 lightPos,cameraPosition, normal,ambient;
in vec4 ShadowCoord;
in vec4 vertexPos;
in float materialShininess;
in float shadowmapIntensity;
in vec3 lightSpecularIntensity;
in vec3 materialSpecularColor;
out vec4 color;
void main(void)
{
vec4 texel = fragment.color*texture(Diffuse,vert.texcoord);
vec3 ct,cf;
float intensity,at,af;
if (fragment.color.w==0)
discard;
vec3 lightDir = normalize(lightPos);
vec3 normalDir = normalize(normal);
intensity = 0.5+0.5*clamp( dot( normalDir,lightDir ), -1,1 );
af = 1.0;
ct = texel.rgb;
at = texel.a;
//float bias = 0.005f;
vec3 specularReflection;
if (dot(normalDir, lightDir) < 0.0)
{
specularReflection = vec3(0.0, 0.0, 0.0);
}
else // light source on the right side
{
vec3 surfaceToLight = normalize(lightPos - vertexPos.xyz);
vec3 surfaceToCamera = normalize(cameraPosition - vertexPos.xyz);
float specularCoefficient = 0.0;
specularCoefficient = pow(max(0.0, dot(surfaceToCamera, reflect(-surfaceToLight, normalDir))), materialShininess);
specularReflection = specularCoefficient * materialSpecularColor * lightSpecularIntensity;
}
float visibility = texture(shadowMap, vec3(ShadowCoord.xy,(ShadowCoord.z)/ShadowCoord.w));
if (intensity<0.5)
visibility = 0;
intensity = (1.0-shadowmapIntensity)*intensity + shadowmapIntensity*intensity*visibility;
cf = intensity*(vec3(1.0,1.0,1.0)-ambient)+ambient+specularReflection*visibility;
color = vec4(ct * cf, fragment.color.w);
}