source: GTP/trunk/App/Demos/Illum/Ogre/Media/Towers/bump.hlsl @ 2441

Revision 2441, 4.1 KB checked in by szirmay, 18 years ago (diff)
Line 
1uniform float textureRepeat = 6;
2uniform sampler2D ColorMapSampler : register(s0);
3uniform sampler2D DetailMapSampler   : register(s1);
4uniform sampler2D BumpMapSampler  : register(s2);
5uniform float4x4 WorldViewProj;
6uniform float4x4 World;
7uniform float4x4 WorldI;
8uniform float4 wLightPos;
9uniform float3 wCamPos;
10
11
12float3x3 TransfModelToTangent( in  float3 Tangent, in float3 Binormal, in float3 Normal ) {
13        float T2 = dot(Tangent, Tangent);
14        float B2 = dot(Binormal, Binormal);
15        float N2 = dot(Normal, Normal);
16        float BT = dot(Binormal, Tangent);
17        float det = B2 * T2 - BT * BT;
18
19        return float3x3( (B2 * Tangent - BT * Binormal)/det,
20                         (T2 * Binormal - BT * Tangent)/det,
21                         Normal/N2 );
22/*                                                     
23        // simplified solution
24        return float3x3(Tangent/T2, Binormal/B2, Normal/N2);
25*/
26}
27
28float4 Illumination(float3 Light, float3 Normal, float3 View, float2 TexCoord, float2 TexCoord2)
29{
30        // Blinn lighting
31        float3 Half = normalize(Light + View);
32        float Diffuse = dot(Normal, Light);
33        float Specular = dot(Normal, Half);
34        float4 Lighting = lit(Diffuse, Specular, 16);
35        float4 Color= tex2D(ColorMapSampler, TexCoord) * tex2D(DetailMapSampler, TexCoord2);
36
37        return (Lighting.y + 0.1) * Color;
38}
39
40struct VS_INPUT {
41    float4 Position  : POSITION;     // point in modeling space
42    float2 TexCoord  : TEXCOORD0;    // texture coordinates
43    float2 TexCoord2 : TEXCOORD1;    // texture coordinates
44    float3 Tangent   : TEXCOORD2;        // model space tangent vector
45    float3 Normal    : NORMAL;           // model space triangle normal vector
46};
47
48struct VS_OUTPUT {
49    float4 hPosition : POSITION;     // point in normalized device space before homogeneous division
50    float2 TexCoord  : TEXCOORD0;    // texture coordinates
51    float2 TexCoord2  : TEXCOORD6;    // texture coordinates
52    float3 mView     : TEXCOORD1;    // model space view vector
53    float3 mLight    : TEXCOORD2;    // model space light vector
54    float3 wTangent   : TEXCOORD3;       // model space tangent vector
55    float3 wBinormal  : TEXCOORD4;       // model space binormal vector
56    float3 wNormal    : TEXCOORD5;       // model space triangle normal vector
57};
58
59
60
61
62//------------------------------------------------------------------------------------
63//
64// Base vertex shader: vertex shader for all methods: calculates tangent-space
65//              tLight, tView, hPosition vectors
66//
67//------------------------------------------------------------------------------------
68VS_OUTPUT BaseVS(VS_INPUT IN)
69{
70        VS_OUTPUT OUT;
71
72        float3 wPos = mul(World, IN.Position);
73                // world-space view vector       
74                OUT.mView = wCamPos - wPos;
75                // world-space light vector
76                OUT.mLight = wLightPos.xyz - wPos * wLightPos.w;
77
78                OUT.wTangent = normalize(mul(float4(IN.Tangent, 1),WorldI));
79                OUT.wNormal = normalize(mul(float4(IN.Normal, 1),WorldI));             
80                OUT.wBinormal = cross(OUT.wTangent, OUT.wNormal);               
81               
82        // vertex position before homogenious division
83        OUT.hPosition = mul(WorldViewProj, IN.Position);
84                // tex coordinates passed to pixel shader
85        OUT.TexCoord = textureRepeat * IN.TexCoord;
86        OUT.TexCoord2 = IN.TexCoord2;
87
88                return OUT;
89}
90
91float4 BumpPS(VS_OUTPUT IN) : COLOR
92{
93        //return tex2D(BumpMapSampler,IN.TexCoord).a;
94        IN.wTangent = normalize(IN.wTangent);
95        IN.wBinormal = normalize(IN.wBinormal);
96        IN.wNormal = normalize(IN.wNormal);
97        // needs normalization because of linear interpolation   
98    float3 mLight = normalize( IN.mLight );
99    float3 mView = normalize( IN.mView );
100 
101    // get model space normal vector
102        float3x3 ModelToTangent = TransfModelToTangent(IN.wTangent, IN.wBinormal, IN.wNormal );
103    // get model space normal vector
104    float3 tNormal = tex2D(BumpMapSampler, IN.TexCoord).rgb;
105        // Normal vector should be transformed with the inverse transpose of TangentToModel
106        // which is the transpose of ModelToTangent
107    float3 mNormal = normalize( mul( tNormal, ModelToTangent ) );
108        // illumination calculation
109    return Illumination(mLight, mNormal, mView, IN.TexCoord, IN.TexCoord2);
110   
111   
112}
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