• normalMap Shader


    float4 AmbientColor : Ambient
    <
        string UIName = "Ambient Color";
    > = {0.25f, 0.25f, 0.25f, 1.0f};


    float4 DiffuseColor : Diffuse
    <
        string UIName = "Diffuse Color";
    > = {1.0f, 1.0f, 1.0f, 1.0f};


    texture diffuseMap : DiffuseMap
    <
        string name = "default_color.dds";
     string UIName = "Diffuse Texture";
        string TextureType = "2D";
    >;


    texture normalMap : NormalMap
    <
        string name = "default_bump_normal.dds";
     string UIName = "Normal Map";
        string TextureType = "2D";
    >;


    /************** light info **************/

    float4 light1Pos : POSITION
    <
     string UIName = "Light Position";
     string Object = "PointLight";
     string Space = "World";
     int refID = 0;
    > = {100.0f, 100.0f, 100.0f, 0.0f};


    float4 light1Color : LIGHTCOLOR
    <
     int LightRef = 0;
    > = { 1.0f, 1.0f, 1.0f, 0.0f };

    /****************************************************/
    /********** SAMPLERS ********************************/
    /****************************************************/

    sampler2D diffuseMapSampler = sampler_state
    {
     Texture = <diffuseMap>;
     MinFilter = Linear;
     MagFilter = Linear;
     MipFilter = Anisotropic;
     ADDRESSU = WRAP;
        ADDRESSV = WRAP;
    };

    sampler2D normalMapSampler = sampler_state
    {
     Texture = <normalMap>;
     MinFilter = Linear;
     MagFilter = Linear;
     MipFilter = Anisotropic;
     ADDRESSU = WRAP;
        ADDRESSV = WRAP;
    };


    /***********************************************/
    /*** automatically-tracked "tweakables" ********/
    /***********************************************/

    float4x4 WorldViewProjection  : WorldViewProjection  < string UIWidget = "None"; >;
    float4x4 WorldInverseTranspose  : WorldInverseTranspose < string UIWidget = "None"; >;
    float4x4 ViewInverse    : ViewInverse    < string UIWidget = "None"; >;
    float4x4 World      : World     < string UIWidget = "None"; >;


    /****************************************************/
    /********** CG SHADER FUNCTIONS *********************/
    /****************************************************/

    // input from application
     struct a2v {
     float4 position  : POSITION;
     float2 texCoord  : TEXCOORD0;
     float3 normal  : NORMAL;
     float3 binormal  : BINORMAL;
     float3 tangent  : TANGENT;
    };


    // output to fragment program
    struct v2f {
            float4 position      : POSITION;
      float2 texCoord      : TEXCOORD0;
      float3 lightVec     : TEXCOORD1;
      float3 worldNormal  : TEXCOORD2;
      float3 worldBinormal : TEXCOORD3;
      float3 worldTangent  : TEXCOORD4;
    };

    /**************************************/
    /***** VERTEX SHADER ******************/
    /**************************************/

    v2f v(a2v In, uniform float4 lightPosition)
    {
     v2f Out;                //create the output struct
        Out.worldNormal = mul(In.normal, WorldInverseTranspose).xyz;  //put the normal in world space pass it to the pixel shader
        Out.worldBinormal = mul(In.binormal, WorldInverseTranspose).xyz; //put the binormal in world space pass it to the pixel shader
        Out.worldTangent = mul(In.tangent, WorldInverseTranspose).xyz;  //put the tangent in world space pass it to the pixel shader
        float3 worldSpacePos = mul(In.position, World);      //put the vertex in world space
        Out.lightVec = lightPosition - worldSpacePos;      //create the world space light vector and pass it to the pixel shader
     Out.texCoord.xy = In.texCoord;          //pass the UV coordinates to the pixel shader
        Out.position = mul(In.position, WorldViewProjection);    //put the vertex position in clip space and pass it to the pixel shader
        return Out;
    }


    /**************************************/
    /***** FRAGMENT PROGRAM ***************/
    /**************************************/

    float4 f(v2f In,uniform float4 lightColor) : COLOR
    {
      //fetch the diffuse and normal maps
      float4 ColorTexture = tex2D(diffuseMapSampler, In.texCoord.xy);    //the tex2d function takes the texture sampler and the texture coordinates and returns the texel color at that point
      float3 normal = tex2D(normalMapSampler, In.texCoord).xyz * 2.0 - 1.0;   //the normal must be expanded from 0-1 to -1 to 1

      //create tangent space vectors
      float3 Nn = In.worldNormal;
      float3 Bn = In.worldBinormal;
      float3 Tn = In.worldTangent;
     
     
      //offset world space normal with normal map values
      float3 N = (normal.z * Nn) + (normal.x * Bn) + (normal.y * -Tn);    //we use the values of the normal map to tweek surface normal, tangent, and binormal
      N = normalize(N);                //normalizing the result gives us the new surface normal
     
      //create lighting vectors - view vector and light vector
      float3 L = normalize(In.lightVec.xyz);          //the light vector must be normalized here so all vectors will be normalized
     
      //lighting
     
      //ambient light
      float4 Ambient = AmbientColor * ColorTexture;        //To create the ambient term, we multiply the ambient color and the diffuse texture
     
       
      //diffuse light
      float4 diffuselight = saturate(dot(N,L)) * lightColor;         //To get the diffuse light value we calculate the dot product between the light vector and the normal        
      float4 Diffuse = DiffuseColor * ColorTexture * diffuselight;        //To get the final diffuse color we multiply the diffuse color by the diffuse texture

      return Diffuse + Ambient;
    }

    /****************************************************/
    /********** TECHNIQUES ******************************/
    /****************************************************/

    technique regular
    {
        pass one
        {  
     VertexShader = compile vs_1_1 v(light1Pos);         //here we call the vertex shader function and tell it we want to use VS 1.1 as the profile     
     ZEnable = true;                //this enables sorting based on the Z buffer
     ZWriteEnable = true;              //this writes the depth value to the Z buffer so other objects will sort correctly this this one
     CullMode = CW;                //this enables backface culling.  CW stands for clockwise.  You can change it to CCW, or none if you want.
     AlphaBlendEnable = false;             //This disables transparency.  If you make it true, the alpha value of the final pixel shader color will determine how transparent the surface is.
     PixelShader = compile ps_2_0 f(light1Color);        //here we call the pixel shader function and tell it we want to use the PS 2.0 profile
        }
    }

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  • 原文地址:https://www.cnblogs.com/softimagewht/p/2099363.html
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