void SS_vsAmbGEN(float4 position : POSITION, float3 normal : NORMAL, out float4 oPos: POSITION, uniform float4x4 wvpMat ) { oPos = mul(wvpMat, position); } float4 SS_fpAmbGEN(float4 position : POSITION, uniform float3 ambient, uniform float4 matAmb, uniform float4 matEmissive): COLOR0 { float4 retColor = max(matEmissive, float4(ambient, 1) * matAmb); return retColor; } void SS_vsLightGEN(float4 position : POSITION, float3 normal : NORMAL, out float4 oPos : POSITION, out float3 oNorm : TEXCOORD0, out float3 oSpDir : TEXCOORD1, out float4 oWp : TEXCOORD2, uniform float4x4 wMat, uniform float4x4 wvpMat, uniform float4 spotlightDir) { oWp = mul(wMat, position); oPos = mul(wvpMat, position); oNorm = normal; oSpDir = mul(wMat, spotlightDir).xyz; } float4 SS_fpLightGEN(float4 position : POSITION, float3 norm : TEXCOORD0, float3 spDir : TEXCOORD1, float4 wp : TEXCOORD2, uniform float3 lightDif0, uniform float4 lightPos0, uniform float4 lightAtt0, uniform float3 lightSpec0, uniform float4 matDif, uniform float4 matSpec, uniform float matShininess, uniform float3 camPos, uniform float4 invSMSize, uniform float4 spotlightParams): COLOR0 { float3 ld0 = normalize(lightPos0.xyz - (lightPos0.w * wp.xyz)); // attenuation half lightDist = length(lightPos0.xyz - wp.xyz) / lightAtt0.r; half la = 1; if(lightAtt0.a > 0.0) { half ila = lightDist * lightDist; // quadratic falloff la = 1.0 / (lightAtt0.g + lightAtt0.b * lightDist + lightAtt0.a * ila); } float3 normal = normalize(norm); float3 diffuse = max(dot(ld0, normal), 0); // calculate the spotlight effect float spot = (spotlightParams.x == 1 && spotlightParams.y == 0 && spotlightParams.z == 0 && spotlightParams.w == 1 ? 1 : // if so, then it's not a spot light saturate((dot(ld0, normalize(-spDir)) - spotlightParams.y) / (spotlightParams.x - spotlightParams.y))); float3 camDir = normalize(camPos - wp.xyz); float3 halfVec = normalize(ld0 + camDir); float3 specular = pow(max(dot(normal, halfVec), 0), matShininess); float3 diffuseContrib = diffuse * lightDif0 * matDif.rgb; float3 specularContrib = specular * lightSpec0 * matSpec.rgb; float3 light0C = (diffuseContrib + specularContrib) * la * spot; float alpha = matDif.a; return float4(light0C, alpha); } void SS_vsAmbGEN0(float4 position : POSITION, float3 normal : NORMAL, float2 uv0 : TEXCOORD0, out float4 oPos: POSITION, out float2 oUv0 : TEXCOORD0, uniform float4x4 wvpMat ) { oPos = mul(wvpMat, position); oUv0 = uv0; } float4 SS_fpAmbGENDIFF0(float4 position : POSITION, float2 uv0 : TEXCOORD0, uniform float3 ambient, uniform float4 matAmb, uniform float4 matEmissive, uniform sampler2D diffuseMap : register(s0)): COLOR0 { float4 diffuseTex = tex2D(diffuseMap, uv0); float4 retColor = max(matEmissive, float4(ambient, 1) * matAmb); retColor *= diffuseTex; return retColor; } void SS_vsLightGEN0(float4 position : POSITION, float3 normal : NORMAL, float2 uv0 : TEXCOORD0, out float4 oPos : POSITION, out float3 oNorm : TEXCOORD0, out float3 oSpDir : TEXCOORD1, out float4 oWp : TEXCOORD2, out float2 oUv0 : TEXCOORD3, uniform float4x4 wMat, uniform float4x4 wvpMat, uniform float4 spotlightDir) { oWp = mul(wMat, position); oPos = mul(wvpMat, position); oNorm = normal; oUv0 = uv0; oSpDir = mul(wMat, spotlightDir).xyz; } float4 SS_fpLightGENDIFF0(float4 position : POSITION, float3 norm : TEXCOORD0, float3 spDir : TEXCOORD1, float4 wp : TEXCOORD2, float2 uv0 : TEXCOORD3, uniform float3 lightDif0, uniform float4 lightPos0, uniform float4 lightAtt0, uniform float3 lightSpec0, uniform float4 matDif, uniform float4 matSpec, uniform float matShininess, uniform float3 camPos, uniform float4 invSMSize, uniform float4 spotlightParams, uniform sampler2D diffuseMap : register(s0)): COLOR0 { float3 ld0 = normalize(lightPos0.xyz - (lightPos0.w * wp.xyz)); // attenuation half lightDist = length(lightPos0.xyz - wp.xyz) / lightAtt0.r; half la = 1; if(lightAtt0.a > 0.0) { half ila = lightDist * lightDist; // quadratic falloff la = 1.0 / (lightAtt0.g + lightAtt0.b * lightDist + lightAtt0.a * ila); } float3 normal = normalize(norm); float3 diffuse = max(dot(ld0, normal), 0); // calculate the spotlight effect float spot = (spotlightParams.x == 1 && spotlightParams.y == 0 && spotlightParams.z == 0 && spotlightParams.w == 1 ? 1 : // if so, then it's not a spot light saturate((dot(ld0, normalize(-spDir)) - spotlightParams.y) / (spotlightParams.x - spotlightParams.y))); float3 camDir = normalize(camPos - wp.xyz); float3 halfVec = normalize(ld0 + camDir); float3 specular = pow(max(dot(normal, halfVec), 0), matShininess); float4 diffuseTex = tex2D(diffuseMap, uv0); float3 diffuseContrib = diffuse * lightDif0 * matDif.rgb; diffuseContrib *= diffuseTex.rgb; float3 specularContrib = specular * lightSpec0 * matSpec.rgb; float3 light0C = (diffuseContrib + specularContrib) * la * spot; float alpha = matDif.a; alpha *= diffuseTex.a; return float4(light0C, alpha); } void SS_vsLightGENNORM0(float4 position : POSITION, float3 normal : NORMAL, float3 tangent : TANGENT, float2 uv0 : TEXCOORD0, out float4 oPos : POSITION, out float3 oNorm : TEXCOORD0, out float3 oTang : TEXCOORD1, out float3 oBinormal : TEXCOORD2, out float3 oSpDir : TEXCOORD3, out float4 oWp : TEXCOORD4, out float2 oUv0 : TEXCOORD5, uniform float4x4 wMat, uniform float4x4 wvpMat, uniform float4 spotlightDir) { oWp = mul(wMat, position); oPos = mul(wvpMat, position); oNorm = normal; oUv0 = uv0; oTang = tangent; oBinormal = cross(tangent, normal); oSpDir = mul(wMat, spotlightDir).xyz; } float4 SS_fpLightGENDIFF0NORM0(float4 position : POSITION, float3 norm : TEXCOORD0, float3 tangent : TEXCOORD1, float3 binormal : TEXCOORD2, float3 spDir : TEXCOORD3, float4 wp : TEXCOORD4, float2 uv0 : TEXCOORD5, uniform float3 lightDif0, uniform float4 lightPos0, uniform float4 lightAtt0, uniform float3 lightSpec0, uniform float4 matDif, uniform float4 matSpec, uniform float matShininess, uniform float3 camPos, uniform float4 invSMSize, uniform float4 spotlightParams, uniform float4x4 iTWMat, uniform float normalMul, uniform sampler2D diffuseMap : register(s0), uniform sampler2D normalMap : register(s1)): COLOR0 { float3 ld0 = normalize(lightPos0.xyz - (lightPos0.w * wp.xyz)); // attenuation half lightDist = length(lightPos0.xyz - wp.xyz) / lightAtt0.r; half la = 1; if(lightAtt0.a > 0.0) { half ila = lightDist * lightDist; // quadratic falloff la = 1.0 / (lightAtt0.g + lightAtt0.b * lightDist + lightAtt0.a * ila); } float3 normalTex = tex2D(normalMap, uv0); tangent *= normalMul; binormal *= normalMul; float3x3 tbn = float3x3(tangent, binormal, norm); float3 normal = mul(transpose(tbn), (normalTex.xyz -0.5) * 2); // to object space normal = normalize(mul((float3x3)iTWMat, normal)); float3 diffuse = max(dot(ld0, normal), 0); // calculate the spotlight effect float spot = (spotlightParams.x == 1 && spotlightParams.y == 0 && spotlightParams.z == 0 && spotlightParams.w == 1 ? 1 : // if so, then it's not a spot light saturate((dot(ld0, normalize(-spDir)) - spotlightParams.y) / (spotlightParams.x - spotlightParams.y))); float3 camDir = normalize(camPos - wp.xyz); float3 halfVec = normalize(ld0 + camDir); float3 specular = pow(max(dot(normal, halfVec), 0), matShininess); float4 diffuseTex = tex2D(diffuseMap, uv0); float3 diffuseContrib = diffuse * lightDif0 * matDif.rgb; diffuseContrib *= diffuseTex.rgb; float3 specularContrib = specular * lightSpec0 * matSpec.rgb; float3 light0C = (diffuseContrib + specularContrib) * la * spot; float alpha = matDif.a; alpha *= diffuseTex.a; return float4(light0C, alpha); } float4 SS_fpLightGENDIFF0SPEC0NORM0(float4 position : POSITION, float3 norm : TEXCOORD0, float3 tangent : TEXCOORD1, float3 binormal : TEXCOORD2, float3 spDir : TEXCOORD3, float4 wp : TEXCOORD4, float2 uv0 : TEXCOORD5, uniform float3 lightDif0, uniform float4 lightPos0, uniform float4 lightAtt0, uniform float3 lightSpec0, uniform float4 matDif, uniform float4 matSpec, uniform float matShininess, uniform float3 camPos, uniform float4 invSMSize, uniform float4 spotlightParams, uniform float4x4 iTWMat, uniform float normalMul, uniform sampler2D diffuseMap : register(s0), uniform sampler2D specMap : register(s1), uniform sampler2D normalMap : register(s2)): COLOR0 { float3 ld0 = normalize(lightPos0.xyz - (lightPos0.w * wp.xyz)); // attenuation half lightDist = length(lightPos0.xyz - wp.xyz) / lightAtt0.r; half la = 1; if(lightAtt0.a > 0.0) { half ila = lightDist * lightDist; // quadratic falloff la = 1.0 / (lightAtt0.g + lightAtt0.b * lightDist + lightAtt0.a * ila); } float3 normalTex = tex2D(normalMap, uv0); tangent *= normalMul; binormal *= normalMul; float3x3 tbn = float3x3(tangent, binormal, norm); float3 normal = mul(transpose(tbn), (normalTex.xyz -0.5) * 2); // to object space normal = normalize(mul((float3x3)iTWMat, normal)); float3 diffuse = max(dot(ld0, normal), 0); // calculate the spotlight effect float spot = (spotlightParams.x == 1 && spotlightParams.y == 0 && spotlightParams.z == 0 && spotlightParams.w == 1 ? 1 : // if so, then it's not a spot light saturate((dot(ld0, normalize(-spDir)) - spotlightParams.y) / (spotlightParams.x - spotlightParams.y))); float3 camDir = normalize(camPos - wp.xyz); float3 halfVec = normalize(ld0 + camDir); float3 specular = pow(max(dot(normal, halfVec), 0), matShininess); float4 diffuseTex = tex2D(diffuseMap, uv0); float4 specTex = tex2D(specMap, uv0); float3 diffuseContrib = diffuse * lightDif0 * matDif.rgb; diffuseContrib *= diffuseTex.rgb; float3 specularContrib = specular * lightSpec0 * matSpec.rgb; specularContrib *= specTex.rgb; float3 light0C = (diffuseContrib + specularContrib) * la * spot; float alpha = matDif.a; alpha *= diffuseTex.a; return float4(light0C, alpha); } float4 SS_fpAmbGENDIFF0EMI0(float4 position : POSITION, float2 uv0 : TEXCOORD0, uniform float3 ambient, uniform float4 matAmb, uniform float4 matEmissive, uniform sampler2D diffuseMap : register(s0), uniform sampler2D illMap : register(s1)): COLOR0 { float4 diffuseTex = tex2D(diffuseMap, uv0); float4 illTex = tex2D(illMap, uv0); float4 retColor = max(matEmissive, float4(ambient, 1) * matAmb); retColor *= diffuseTex; retColor = max(retColor, illTex); return retColor; }