Blend 2 Textures by Lightmap Alpha

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(ShaderLab - Blend 2 Textures by Lightmap Alpha.shader)
Line 19: Line 19:
  
 
Properties {
 
Properties {
_MainTex ("Texture 1 (RGB)", 2D) = ""
+
_MainTex ("Texture 1 (RGB)", 2D) = ""
_Texture2 ("Texture 2 (RGB)", 2D) = ""
+
_Tex2 ("Texture 2 (RGB)", 2D) = ""
_LightMap ("Lightmap (A = Blend)", 2D) = ""
+
_Lightmap ("Lightmap (A=Blend)", 2D) = ""
 
}
 
}
  
Category {
+
// iPhone 3GS and later
BindChannels {
+
SubShader {Pass {
Bind "vertex", vertex
+
GLSLPROGRAM
 +
varying mediump vec2 mainTexUV, tex2UV, lightmapUV;
 
 
// 1st UV - tiling textures
+
#ifdef VERTEX
Bind "texcoord", texcoord0
+
uniform mediump vec4 _MainTex_ST, _Tex2_ST;
Bind "texcoord", texcoord2 // 1st SubShader only
+
void main() {
+
gl_Position = gl_ModelViewProjectionMatrix * gl_Vertex;
// 2nd UV - lightmap and blend map
+
mainTexUV = gl_MultiTexCoord0.xy * _MainTex_ST.xy + _MainTex_ST.zw;
Bind "texcoord1", texcoord1
+
tex2UV = gl_MultiTexCoord0.xy * _Tex2_ST.xy + _Tex2_ST.zw;
Bind "texcoord1", texcoord3 // 1st SubShader only
+
lightmapUV = gl_MultiTexCoord1.xy;
 
}
 
}
 +
#endif
 +
 +
#ifdef FRAGMENT
 +
uniform lowp sampler2D _MainTex, _Tex2, _Lightmap;
 +
void main() {
 +
lowp vec4 lightmap_mix = texture2D(_Lightmap, lightmapUV);
 +
gl_FragColor = lightmap_mix *
 +
mix(texture2D(_Tex2, tex2UV), texture2D(_MainTex, mainTexUV), lightmap_mix.a);
 +
}
 +
#endif 
 +
ENDGLSL
 +
}}
  
// iPhone 3GS and later
+
// pre-3GS devices, including the September 2009 8GB iPod touch
SubShader {Pass {
+
SubShader {
// tile Texture 2
+
BindChannels {
SetTexture[_Texture2]
+
Bind "vertex", vertex
 
+
Bind "texcoord", texcoord0 // 1st UV - tiling textures
// put the splat map into the alpha channel
+
Bind "texcoord1", texcoord1 // 2nd UV - lightmap and blend map
SetTexture[_LightMap] {Combine previous, texture}
+
}
+
Pass {
// tile Texture 1 and combine it with Texture 2 based on the splat map
+
SetTexture[_Tex2]
SetTexture[_MainTex] {Combine texture lerp(previous) previous}
+
SetTexture[_Lightmap] {Combine previous * texture}
+
}
// apply the lightmap
+
Pass {
SetTexture[_LightMap] {Combine previous * texture}
+
Blend SrcAlpha OneMinusSrcAlpha
}}
+
SetTexture[_MainTex]
 
+
// Apply the lightmap to Texture 1  
// pre-3GS devices, including the September 2009 8GB iPod touch
+
// and blend in the result, using the alpha map
SubShader {
+
SetTexture[_Lightmap] {Combine previous * texture, texture}
Pass {
+
// tile Texture 2
+
SetTexture[_Texture2]
+
+
// apply the lightmap to Texture 2
+
SetTexture[_LightMap] {Combine previous * texture}
+
}
+
Pass {
+
Blend SrcAlpha OneMinusSrcAlpha
+
+
// tile Texture 1
+
SetTexture[_MainTex]
+
+
// apply the lightmap to Texture 1  
+
// and blend in the result, using the splat map
+
SetTexture[_LightMap] {Combine previous * texture, texture}
+
}
+
 
}
 
}
 
}
 
}
 +
 
   
 
   
 
}</shaderlab>
 
}</shaderlab>

Revision as of 05:44, 26 October 2011

Author: Jessy

Description

A textured quad that uses this shader.

This shader mixes two tiling textures based on an alpha blending map, and uses a lightmap instead of real-time lighting.

Usage

In your modeling app, you create two UV sets - one for Texture 1 and Texture 2, and another for the lightmap and blending map. The idea is that you will tile the textures using UV1, but not in UV2 - standard lightmapping practice. By default, this means that your two main textures will tile at the same "rate", but you can use the Offset and/or Tiling controls in the Material, if you think it will add visual interest.

The blend map is stored in the alpha channel of the lightmap. The two textures mix as if, in Photoshop, you had Texture 1 in a layer above Texture 2, and Texture 1 used the blend map as a layer mask. i.e. white = Texture 1, black = Texture 2. In my usage so far, I've found that it's important to have the lightmap/splatmap be at a high resolution, to preserve the shape of fine splat details, but that it's okay to use PVRTC 2 bpp compression, as the color detail is mainly coming from Texture 1 and Texture 2.


Click here for a zip file that includes this shader.

ShaderLab - Blend 2 Textures by Lightmap Alpha.shader

<shaderlab>Shader "Blend 2 Textures by Lightmap Alpha" {

Properties { _MainTex ("Texture 1 (RGB)", 2D) = "" _Tex2 ("Texture 2 (RGB)", 2D) = "" _Lightmap ("Lightmap (A=Blend)", 2D) = "" }

// iPhone 3GS and later SubShader {Pass { GLSLPROGRAM varying mediump vec2 mainTexUV, tex2UV, lightmapUV;

#ifdef VERTEX uniform mediump vec4 _MainTex_ST, _Tex2_ST; void main() { gl_Position = gl_ModelViewProjectionMatrix * gl_Vertex; mainTexUV = gl_MultiTexCoord0.xy * _MainTex_ST.xy + _MainTex_ST.zw; tex2UV = gl_MultiTexCoord0.xy * _Tex2_ST.xy + _Tex2_ST.zw; lightmapUV = gl_MultiTexCoord1.xy; } #endif

#ifdef FRAGMENT uniform lowp sampler2D _MainTex, _Tex2, _Lightmap; void main() { lowp vec4 lightmap_mix = texture2D(_Lightmap, lightmapUV); gl_FragColor = lightmap_mix * mix(texture2D(_Tex2, tex2UV), texture2D(_MainTex, mainTexUV), lightmap_mix.a); } #endif ENDGLSL }}

// pre-3GS devices, including the September 2009 8GB iPod touch SubShader { BindChannels { Bind "vertex", vertex Bind "texcoord", texcoord0 // 1st UV - tiling textures Bind "texcoord1", texcoord1 // 2nd UV - lightmap and blend map } Pass { SetTexture[_Tex2] SetTexture[_Lightmap] {Combine previous * texture} } Pass { Blend SrcAlpha OneMinusSrcAlpha SetTexture[_MainTex] // Apply the lightmap to Texture 1 // and blend in the result, using the alpha map SetTexture[_Lightmap] {Combine previous * texture, texture} } }


}</shaderlab>

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