Hi, I try to transform the standardDSEN shaders (of the customShaders Example) so that it can blend two textures or more on a mesh, but I didn't succeed completely.

could you help me to improve these scripts :

```
uniform bool AlphaTest;
uniform vec4 FogColor;
uniform float FogEnd;
uniform float FogScale;
uniform vec3 MaterialEmit;
uniform float MaterialShininess;
uniform float MaterialOpacity;
uniform vec4 LightPosition[4];
uniform vec3 LightDiffuseProduct[4];
uniform vec3 LightSpecularProduct[4];
uniform vec3 LightSpotDirection[4];
uniform float LightConstantAttenuation[4];
uniform float LightQuadraticAttenuation[4];
uniform float LightSpotCosCutoff[4];
uniform float LightSpotExponent[4];
uniform bool LightActive[4];
uniform sampler2D LightShadowMap[3];
uniform bool LightShadow[3];
uniform float LightShadowBias[3];
uniform float LightShadowBlur[3];
uniform sampler2D Texture[8];
uniform sampler2D RandTexture;
varying vec4 texCoord[8];
varying vec4 shadowCoord[3];
varying vec4 position, normal, tangent;
vec4 texture0 = texture2D(Texture[0], texCoord[0].xy);
vec4 texture1 = texture2D(Texture[1], texCoord[0].zw);
vec4 texture3 = texture2D(Texture[3], texCoord[1].zw);
vec3 diffuse = MaterialEmit*texture3.xyz;
vec3 specular = vec3(0.0, 0.0, 0.0);
vec3 nor = normalize(normal.xyz);
vec3 bi = normalize(-cross(normal.xyz, tangent.xyz));
vec3 tan = normalize(tangent.xyz);
vec3 bump = normalize(texture2D(Texture[2], texCoord[1].xy).xyz * 2.0 - 1.0);
vec3 N = normalize(tan*bump.x + bi*bump.y + nor*bump.z);
vec3 E = normalize(-position.xyz);
float lookup(vec4 shadCoord, sampler2D shadMap, vec2 offSet)
{
float distanceFromLight = texture2D(shadMap, shadCoord.xy + offSet).z;
return step(shadCoord.z, distanceFromLight);
}
float computeShadow(bool shad, vec4 shadCoord, sampler2D shadMap, float shadBias, float shadBlur)
{
float shadow = 1.0;
if(shad)
{
vec4 shadowCoordinateWdivide = shadCoord;
shadowCoordinateWdivide.z -= shadBias;
shadowCoordinateWdivide /= shadowCoordinateWdivide.w;
float blur = (shadBlur*0.01);
vec4 rand = texture2D(RandTexture, (shadowCoordinateWdivide.xy)*(500.0/(shadBlur+1.0)))*2.0 - 1.0;
vec2 d = rand.xy;
d = normalize(d)*blur;
vec2 dp = vec2(d.y, -d.x);
shadow = lookup(shadowCoordinateWdivide, shadMap, rand.zw*blur);
shadow += lookup(shadowCoordinateWdivide, shadMap, d);
shadow += lookup(shadowCoordinateWdivide, shadMap, -d);
shadow += lookup(shadowCoordinateWdivide, shadMap, dp);
shadow += lookup(shadowCoordinateWdivide, shadMap, -dp);
shadow *= 0.2;
}
return shadow;
}
void computeLight(vec3 lightPosition, float constantAttenuation, float quadraticAttenuation, vec3 lightDiffuse, vec3 lightSpecular, vec3 spotDir, float spotCos, float spotExp, bool shad, vec4 shadCoord, sampler2D shadMap, float shadBias, float shadBlur)
{
vec3 lightDir = lightPosition - position.xyz;
vec3 L = normalize(lightDir);
float lambertTerm = max(dot(N, L), 0.0);
if(lambertTerm > 0.0)
{
if(spotCos > 0.0)
{
float spot = dot(spotDir, -L);
if(spot > spotCos)
{
float shadow = computeShadow(shad, shadCoord, shadMap, shadBias, shadBlur);
spot = clamp(pow(spot, spotExp), 0.0, 1.0);
float lightDirLength2 = dot(lightDir, lightDir);
float attenuation = (spot / (constantAttenuation + (lightDirLength2 * quadraticAttenuation)))*shadow;
diffuse = diffuse + (lightDiffuse * lambertTerm * attenuation);
vec3 S = normalize(E + L);
float spec = pow(max(dot(S, N), 0.0), MaterialShininess) * attenuation;
specular = specular + (lightSpecular * spec);
}
}
else
{
float lightDirLength2 = dot(lightDir, lightDir);
float attenuation = (1.0 / (constantAttenuation + (lightDirLength2 * quadraticAttenuation)));
diffuse = diffuse + (lightDiffuse * lambertTerm * attenuation);
vec3 S = normalize(E + L);
float spec = pow(max(dot(S, N), 0.0), MaterialShininess) * attenuation;
specular = specular + (lightSpecular * spec);
}
}
}
void computeLightNoShadow(vec3 lightPosition, float constantAttenuation, float quadraticAttenuation, vec3 lightDiffuse, vec3 lightSpecular, vec3 spotDir, float spotCos, float spotExp)
{
vec3 lightDir = lightPosition - position.xyz;
vec3 L = normalize(lightDir);
float lambertTerm = max(dot(N, L), 0.0);
if(lambertTerm > 0.0)
{
if(spotCos > 0.0)
{
float spot = dot(spotDir, -L);
if(spot > spotCos)
{
spot = clamp(pow(spot, spotExp), 0.0, 1.0);
float lightDirLength2 = dot(lightDir, lightDir);
float attenuation = (spot / (constantAttenuation + (lightDirLength2 * quadraticAttenuation)));
diffuse = diffuse + (lightDiffuse * lambertTerm * attenuation);
vec3 S = normalize(E + L);
float spec = pow(max(dot(S, N), 0.0), MaterialShininess) * attenuation;
specular = specular + (lightSpecular * spec);
}
}
else
{
float lightDirLength2 = dot(lightDir, lightDir);
float attenuation = (1.0 / (constantAttenuation + (lightDirLength2 * quadraticAttenuation)));
diffuse = diffuse + (lightDiffuse * lambertTerm * attenuation);
vec3 S = normalize(E + L);
float spec = pow(max(dot(S, N), 0.0), MaterialShininess) * attenuation;
specular = specular + (lightSpecular * spec);
}
}
}
void main(void)
{
vec4 texture6 = texture2D(Texture[5], texCoord[5]); // blend texture
vec4 texture7 = texture2D(Texture[6], texCoord[6]); // second texture
float interp = texture6.x; // use the red component
float invInterp = 1.0 - interp;
if(LightActive[0])
{
computeLight(
LightPosition[0].xyz,
LightConstantAttenuation[0],
LightQuadraticAttenuation[0],
LightDiffuseProduct[0],
LightSpecularProduct[0],
LightSpotDirection[0],
LightSpotCosCutoff[0],
LightSpotExponent[0],
LightShadow[0],
shadowCoord[0],
LightShadowMap[0],
LightShadowBias[0],
LightShadowBlur[0]
);
if(LightActive[1])
{
computeLight(
LightPosition[1].xyz,
LightConstantAttenuation[1],
LightQuadraticAttenuation[1],
LightDiffuseProduct[1],
LightSpecularProduct[1],
LightSpotDirection[1],
LightSpotCosCutoff[1],
LightSpotExponent[1],
LightShadow[1],
shadowCoord[1],
LightShadowMap[1],
LightShadowBias[1],
LightShadowBlur[1]
);
if(LightActive[2])
{
computeLight(
LightPosition[2].xyz,
LightConstantAttenuation[2],
LightQuadraticAttenuation[2],
LightDiffuseProduct[2],
LightSpecularProduct[2],
LightSpotDirection[2],
LightSpotCosCutoff[2],
LightSpotExponent[2],
LightShadow[2],
shadowCoord[2],
LightShadowMap[2],
LightShadowBias[2],
LightShadowBlur[2]
);
if(LightActive[3])
{
computeLightNoShadow(
LightPosition[3].xyz,
LightConstantAttenuation[2],
LightQuadraticAttenuation[3],
LightDiffuseProduct[3],
LightSpecularProduct[3],
LightSpotDirection[3],
LightSpotCosCutoff[3],
LightSpotExponent[3]
);
}
}
}
}
vec4 finalColor = vec4(diffuse*(texture0.xyz*invInterp + texture7.xyz*interp) + specular*texture1.xyz, MaterialOpacity*texture0.w);
float fogFactor = clamp((FogEnd + position.z) * FogScale, 0.0, 1.0);
gl_FragColor = mix(FogColor, finalColor, fogFactor);
}
```

I didn't touch the standartDSEN.vert file, maybe I should have done it ...