Posted By: rayp
Specular Shader A6 for static lights ? - 09/29/09 23:05
Hi!
I love the look of the normal/spec shader from wiki-page. But it only reacts to dynamic lights. Is there any spec-shader which works with static lights ?
Only reacts to dynamic lights:
thanx
I love the look of the normal/spec shader from wiki-page. But it only reacts to dynamic lights. Is there any spec-shader which works with static lights ?
Only reacts to dynamic lights:
Code:
//-------------------------------------------------------------- // Diffuse and specular shader // ------------------------------------------------------------- float4x4 matWorldViewProj; float4x4 matWorld; float4 vecLightPos[8]; //light position float4 vecLightColor[8]; //light position float4 vecViewPos; float4 vecFog; texture entSkin1; //this is the color map texture entSkin2; //this is the normal map sampler ColorMapSampler = sampler_state { Texture = <entSkin1>; MinFilter = Linear; MagFilter = Linear; MipFilter = Linear; AddressU = wrap; AddressV = wrap; }; sampler BumpMapSampler = sampler_state { Texture = <entSkin2>; MinFilter = Linear; MagFilter = Linear; MipFilter = Linear; AddressU = wrap; AddressV = wrap; }; // ------------------------------------------------------------- // 2.0 // ------------------------------------------------------------- struct VS_OUTPUT0 { float4 Pos : POSITION; float2 Tex : TEXCOORD0; float3 View : TEXCOORD1; float3 Light1 : TEXCOORD2; float Att1 : TEXCOORD3; float3 Light2 : TEXCOORD4; float Att2 : TEXCOORD5; float Fog : FOG; }; VS_OUTPUT0 VS_PASS0(float4 Pos : POSITION, float2 texcoord0 : TEXCOORD0, float3 Normal : NORMAL, float3 Tangent : TEXCOORD2 ) { VS_OUTPUT0 Out = (VS_OUTPUT0)0; Out.Pos = mul(Pos, matWorldViewProj); // transform Position // compute the 3x3 tranform matrix // to transform from world space to tangent space float3x3 worldToTangentSpace; worldToTangentSpace[0] = mul(Tangent, matWorld); worldToTangentSpace[1] = mul(cross(Tangent, Normal), matWorld); worldToTangentSpace[2] = mul(Normal, matWorld); Out.Tex = texcoord0.xy; float3 PosWorld = mul(Pos, matWorld); float3 Viewer = PosWorld - vecViewPos; Out.View = mul(worldToTangentSpace, - Viewer); // V //light 1 float3 Light1 = PosWorld - vecLightPos[0] ; Out.Light1.xyz = mul(worldToTangentSpace, -Light1); // L Out.Att1 = distance(PosWorld,vecLightPos[0])/vecLightPos[0].w; // Point light //light 2 float3 Light2 = PosWorld - vecLightPos[1] ; Out.Light2.xyz = mul(worldToTangentSpace, -Light2); // L Out.Att2 = distance(PosWorld,vecLightPos[1])/vecLightPos[1].w; // Point light float ofog = 1 - (distance(PosWorld, vecViewPos) - vecFog.x) * (vecFog.z); Out.Fog = ofog; return Out; } struct PS_INPUT0 { float2 Tex : TEXCOORD0; float3 View : TEXCOORD1; float3 Light1 : TEXCOORD2; float Att1 : TEXCOORD3; float3 Light2 : TEXCOORD4; float Att2 : TEXCOORD5; }; float4 PS_PASS0( PS_INPUT0 psInStruct ):COLOR { float4 color = tex2D(ColorMapSampler, psInStruct.Tex); // fetch color map float3 bumpNormal = 2 * (tex2D(BumpMapSampler, psInStruct.Tex) - 0.5); // fetch bump map float4 gloss = tex2D( BumpMapSampler, psInStruct.Tex ); float3 ViewDir = normalize(psInStruct.View); //light1 float3 LightDir1 = normalize(psInStruct.Light1); float4 diff1 = saturate(dot(bumpNormal, LightDir1)); // diffuse component float shadow1 = saturate(4 * diff1); float3 Reflect1 = normalize(2 * diff1 * bumpNormal - LightDir1); // R float4 spec1 = pow(saturate(dot(Reflect1, ViewDir)), 15); float4 Attenuation1 = saturate(dot(psInStruct.Att1, psInStruct.Att1)); //light2 float3 LightDir2 = normalize(psInStruct.Light2); float4 diff2 = saturate(dot(bumpNormal, LightDir2)); // diffuse component float shadow2 = saturate(4 * diff2); float3 Reflect2 = normalize(2 * diff2 * bumpNormal - LightDir2); // R float4 spec2 = pow(saturate(dot(Reflect2, ViewDir)), 15); float4 Attenuation2 = saturate(dot(psInStruct.Att2, psInStruct.Att2)); return ( (0.3 * color) + //ambient ((shadow1 * (color * diff1 + (spec1*gloss.w)) * (1 -Attenuation1))*vecLightColor[0])+ ((shadow2 * (color * diff2 + (spec2*gloss.w)) * (1 -Attenuation2))*vecLightColor[1]) ); } struct VS_OUTPUT1 { float4 Pos : POSITION; float2 Tex : TEXCOORD0; float3 View : TEXCOORD1; float3 Light3 : TEXCOORD2; float Att3 : TEXCOORD3; float3 Light4 : TEXCOORD4; float Att4 : TEXCOORD5; float Fog : FOG; }; VS_OUTPUT1 VS_PASS1(float4 Pos : POSITION, float2 texcoord0 : TEXCOORD0, float3 Normal : NORMAL, float3 Tangent : TEXCOORD2 ) { VS_OUTPUT1 Out = (VS_OUTPUT1)0; Out.Pos = mul(Pos, matWorldViewProj); // transform Position // compute the 3x3 tranform matrix // to transform from world space to tangent space float3x3 worldToTangentSpace; worldToTangentSpace[0] = mul(Tangent, matWorld); worldToTangentSpace[1] = mul(cross(Tangent, Normal), matWorld); worldToTangentSpace[2] = mul(Normal, matWorld); Out.Tex = texcoord0.xy; float3 PosWorld = mul(Pos, matWorld); float3 Viewer = PosWorld - vecViewPos; Out.View = mul(worldToTangentSpace, -Viewer); // V //light 3 float3 Light3 = PosWorld - vecLightPos[2] ; Out.Light3.xyz = mul(worldToTangentSpace, -Light3); // L Out.Att3 = distance(PosWorld,vecLightPos[2])/vecLightPos[2].w; // Point light //light 4 float3 Light4 = PosWorld - vecLightPos[3] ; Out.Light4.xyz = mul(worldToTangentSpace, -Light4); // L Out.Att4 = distance(PosWorld,vecLightPos[3])/vecLightPos[3].w; // Point light float ofog = 1 - (distance(PosWorld, vecViewPos) - vecFog.x) * (vecFog.z); Out.Fog = ofog; return Out; } struct PS_INPUT1 { float2 Tex : TEXCOORD0; float3 View : TEXCOORD1; float3 Light3 : TEXCOORD2; float Att3 : TEXCOORD3; float3 Light4 : TEXCOORD4; float Att4 : TEXCOORD5; }; float4 PS_PASS1( PS_INPUT1 psInStruct ):COLOR { float4 color = tex2D(ColorMapSampler, psInStruct.Tex); // fetch color map float3 bumpNormal = 2 * (tex2D(BumpMapSampler, psInStruct.Tex) - 0.5); // fetch bump map float4 gloss = tex2D( BumpMapSampler, psInStruct.Tex ); float3 ViewDir = normalize(psInStruct.View); //light3 float3 LightDir3 = normalize(psInStruct.Light3); float4 diff3 = saturate(dot(bumpNormal, LightDir3)); // diffuse component float shadow3 = saturate(4 * diff3); float3 Reflect3 = normalize(2 * diff3 * bumpNormal - LightDir3); // R float4 spec3 = pow(saturate(dot(Reflect3, ViewDir)), 15); float4 Attenuation3 = saturate(dot(psInStruct.Att3, psInStruct.Att3)); //light4 float3 LightDir4 = normalize(psInStruct.Light4); float4 diff4 = saturate(dot(bumpNormal, LightDir4)); // diffuse component float shadow4 = saturate(4 * diff4); float3 Reflect4 = normalize(2 * diff4 * bumpNormal - LightDir4); // R float4 spec4 = pow(saturate(dot(Reflect4, ViewDir)), 15); float4 Attenuation4 = saturate(dot(psInStruct.Att4, psInStruct.Att4)); return ( ((shadow3 * (color * diff3 + (spec3*gloss.w)) * (1 -Attenuation3))*vecLightColor[2])+ ((shadow4 * (color * diff4 + (spec4*gloss.w)) * (1 -Attenuation4))*vecLightColor[3]) ); } struct VS_OUTPUT2 { float4 Pos : POSITION; float2 Tex : TEXCOORD0; float3 View : TEXCOORD1; float3 Light5 : TEXCOORD2; float Att5 : TEXCOORD3; float3 Light6 : TEXCOORD4; float Att6 : TEXCOORD5; float Fog : FOG; }; VS_OUTPUT2 VS_PASS2(float4 Pos : POSITION, float2 texcoord0 : TEXCOORD0, float3 Normal : NORMAL, float3 Tangent : TEXCOORD2 ) { VS_OUTPUT2 Out = (VS_OUTPUT2)0; Out.Pos = mul(Pos, matWorldViewProj); // transform Position // compute the 3x3 tranform matrix // to transform from world space to tangent space float3x3 worldToTangentSpace; worldToTangentSpace[0] = mul(Tangent, matWorld); worldToTangentSpace[1] = mul(cross(Tangent, Normal), matWorld); worldToTangentSpace[2] = mul(Normal, matWorld); Out.Tex = texcoord0.xy; float3 PosWorld = mul(Pos, matWorld); float3 Viewer = PosWorld - vecViewPos; Out.View = mul(worldToTangentSpace, -Viewer); // V //light 5 float3 Light5 = PosWorld - vecLightPos[4] ; Out.Light5.xyz = mul(worldToTangentSpace, -Light5); // L Out.Att5 = distance(PosWorld,vecLightPos[4])/vecLightPos[4].w; // Point light //light 6 float3 Light6 = PosWorld - vecLightPos[5] ; Out.Light6.xyz = mul(worldToTangentSpace, -Light6); // L Out.Att6 = distance(PosWorld,vecLightPos[5])/vecLightPos[5].w; // Point light float ofog = 1 - (distance(PosWorld, vecViewPos) - vecFog.x) * (vecFog.z); Out.Fog = ofog; return Out; } struct PS_INPUT2 { float2 Tex : TEXCOORD0; float3 View : TEXCOORD1; float3 Light5 : TEXCOORD2; float Att5 : TEXCOORD3; float3 Light6 : TEXCOORD4; float Att6 : TEXCOORD5; }; float4 PS_PASS2( PS_INPUT2 psInStruct ):COLOR { float4 color = tex2D(ColorMapSampler, psInStruct.Tex); // fetch color map float3 bumpNormal = 2 * (tex2D(BumpMapSampler, psInStruct.Tex) - 0.5); // fetch bump map float4 gloss = tex2D( BumpMapSampler, psInStruct.Tex ); float3 ViewDir = normalize(psInStruct.View); //light5 float3 LightDir5 = normalize(psInStruct.Light5); float4 diff5 = saturate(dot(bumpNormal, LightDir5)); // diffuse component float shadow5 = saturate(4 * diff5); float3 Reflect5 = normalize(2 * diff5 * bumpNormal - LightDir5); // R float4 spec5 = pow(saturate(dot(Reflect5, ViewDir)), 15); float4 Attenuation5 = saturate(dot(psInStruct.Att5, psInStruct.Att5)); //light2 float3 LightDir6 = normalize(psInStruct.Light6); float4 diff6 = saturate(dot(bumpNormal, LightDir6)); // diffuse component float shadow6 = saturate(4 * diff6); float3 Reflect6 = normalize(2 * diff6 * bumpNormal - LightDir6); // R float4 spec6 = pow(saturate(dot(Reflect6, ViewDir)), 15); float4 Attenuation6 = saturate(dot(psInStruct.Att6, psInStruct.Att6)); return ( ((shadow5 * (color * diff5 + (spec5*gloss.w)) * (1 -Attenuation5))*vecLightColor[4])+ ((shadow6 * (color * diff6 + (spec6*gloss.w)) * (1 -Attenuation6))*vecLightColor[5]) ); } // ------------------------------------------------------------- // 1.1 // ------------------------------------------------------------- float3x3 matTangent; float4x4 matWorldView; float4 vecSunDir; float4 DoTransform(float4 Pos) { return mul(Pos,matWorldViewProj); } float DoFog(float4 Pos) { float3 P = mul(Pos,matWorldView); // convert vector to view space to get it's depth (.z) return saturate((vecFog.y-P.z) * vecFog.z); // apply the linear fog formula } float4 DoPos(float4 Pos) { return (mul(Pos,matWorld)); } float3 DoPos(float3 Pos) { return (mul(Pos,matWorld)); } void CreateTangents(float3 inNormal,float3 inTangent) { matTangent[0] = DoPos(inTangent); matTangent[1] = DoPos(cross(inTangent,inNormal)); // binormal matTangent[2] = DoPos(inNormal); } float3 DoTangent(float3 inVector) { return normalize(mul(matTangent,inVector)); } struct out_bump { float4 Pos: POSITION; float Fog: FOG; float4 Color: COLOR; float2 Tex: TEXCOORD0; float2 Bump: TEXCOORD1; float3 Normal: TEXCOORD2; float3 Light: TEXCOORD3; }; out_bump vs_bump( in float4 inPos: POSITION, in float3 inNormal: NORMAL, in float2 inTex: TEXCOORD0, in float3 inTangent: TEXCOORD2) { out_bump Out; Out.Pos = DoTransform(inPos); Out.Tex = inTex; Out.Bump = inTex; // different coordinates required for ps_1_1 Out.Color = float4(1.0,1.0,1.0,1.0); Out.Fog = DoFog(inPos); CreateTangents(inNormal,inTangent); float3 N = matTangent[2]; // transform the output values into the 0..1 range Out.Light = DoTangent(-vecSunDir) * 0.5 + 0.5; Out.Normal = DoTangent(N) * 0.5 + 0.5; return Out; } float4 ps_bump(out_bump In): COLOR { float4 base = tex2D(ColorMapSampler,In.Tex); float3 bumpNormal = tex2D(BumpMapSampler,In.Bump); float diffuse = saturate(dot(In.Light*2 - 1,bumpNormal*2 - 1)); diffuse *= saturate(4 * dot(In.Light*2 - 1,In.Normal*2 - 1)); return base * diffuse; } // ------------------------------------------------------------- // techniques// // ------------------------------------------------------------- // 2.0 technique SpecularNormalMapping_20 { pass P0 { alphablendenable=false; srcblend=zero; // compile shaders VertexShader = compile vs_2_0 VS_PASS0(); PixelShader = compile ps_2_0 PS_PASS0(); } pass P1 { //blend second pass additively with first alphablendenable=true; srcblend=one; destblend=one; // compile shaders VertexShader = compile vs_2_0 VS_PASS1(); PixelShader = compile ps_2_0 PS_PASS1(); } pass P2 { //blend second pass additively with first and second alphablendenable=true; srcblend=one; destblend=one; // compile shaders VertexShader = compile vs_2_0 VS_PASS2(); PixelShader = compile ps_2_0 PS_PASS2(); } } // 1.1 technique SpecularNormalMapping_11 { pass P0 { VertexShader = compile vs_1_1 vs_bump(); PixelShader = compile ps_1_1 ps_bump(); } } // Fallback; If nothing works technique fallback { pass one { } }
thanx