2020-12-07 02:52:14 +00:00
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#include "Macros.fxh" //from FNA
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// Effect applies normalmapped lighting to a 2D sprite.
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DECLARE_TEXTURE(Texture, 0);
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DECLARE_TEXTURE(Normal, 1);
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2020-12-10 21:53:55 +00:00
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float3 AmbientColor;
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2020-12-07 02:52:14 +00:00
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2020-12-10 21:53:55 +00:00
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float3 PointLightPositions[8];
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float3 PointLightColors[8];
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2020-12-07 02:52:14 +00:00
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2020-12-10 21:53:55 +00:00
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float3 DirectionalLightDirection;
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float3 DirectionalLightColor;
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2020-12-07 02:52:14 +00:00
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2020-12-10 21:53:55 +00:00
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float4 UVOffsetAndDimensions;
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2020-12-07 02:52:14 +00:00
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2020-12-10 21:53:55 +00:00
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float4x4 WorldInverseTranspose;
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float4x4 World;
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float4x4 WorldViewProjection;
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2020-12-07 02:52:14 +00:00
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struct VertexShaderInput
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{
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float4 Position : POSITION;
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float3 Normal : NORMAL;
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float2 TexCoord : TEXCOORD0;
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};
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struct PixelShaderInput
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{
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float4 Position : SV_Position;
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float2 TexCoord : TEXCOORD0;
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float3 NormalWS : TEXCOORD1;
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float3 PositionWS : TEXCOORD2;
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};
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PixelShaderInput main_vs(VertexShaderInput input)
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{
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PixelShaderInput output;
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output.Position = mul(input.Position, WorldViewProjection);
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2020-12-10 06:28:51 +00:00
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output.NormalWS = normalize(mul(input.Normal, (float3x3)WorldInverseTranspose));
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2020-12-07 02:52:14 +00:00
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output.PositionWS = mul(input.Position, World).xyz;
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2020-12-10 21:53:55 +00:00
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float2 texCoord;
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2020-12-12 02:22:54 +00:00
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texCoord.x = (input.TexCoord.x * UVOffsetAndDimensions.z) + UVOffsetAndDimensions.x;
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texCoord.y = (input.TexCoord.y * UVOffsetAndDimensions.w) + UVOffsetAndDimensions.y;
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2020-12-10 21:53:55 +00:00
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output.TexCoord = texCoord;
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2020-12-07 02:52:14 +00:00
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return output;
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}
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// Easy trick to get tangent-normals to world-space to keep PBR code simplified.
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float3 GetNormalFromMap(float3 worldPos, float2 texCoords, float3 normal)
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{
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float3 tangentNormal = SAMPLE_TEXTURE(Normal, texCoords).xyz * 2.0 - 1.0;
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float3 Q1 = ddx(worldPos);
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float3 Q2 = ddy(worldPos);
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float2 st1 = ddx(texCoords);
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float2 st2 = ddy(texCoords);
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float3 N = normalize(normal);
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float3 T = normalize(Q1*st2.y - Q2*st1.y);
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float3 B = -normalize(cross(N, T));
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float3x3 TBN = float3x3(T, B, N);
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return normalize(mul(tangentNormal, TBN));
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}
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float4 LightColor(float3 worldPosition, float3 worldNormal)
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{
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float3 lightColor = float3(0.0, 0.0, 0.0);
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// point lights
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for (int i = 0; i < 8; i++)
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{
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float3 lightVec = PointLightPositions[i] - worldPosition;
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float distance = length(lightVec);
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float3 lightDir = normalize(lightVec);
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float diffuse = max(dot(worldNormal, lightDir), 0.0);
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float3 attenuation = 1.0 / (distance * distance);
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lightColor += diffuse * attenuation * PointLightColors[i];
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}
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// directional light
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float directionalDiffuse = max(dot(worldNormal, DirectionalLightDirection), 0.0);
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lightColor += directionalDiffuse * DirectionalLightColor;
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// ambient light
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lightColor += AmbientColor;
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return float4(lightColor, 1.0);
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}
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float4 WithoutNormalMap(PixelShaderInput input) : COLOR0
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{
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float4 tex = SAMPLE_TEXTURE(Texture, input.TexCoord);
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2020-12-12 09:23:08 +00:00
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if (tex.a == 0.0) { discard; }
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2020-12-07 02:52:14 +00:00
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float3 normalWS = normalize(input.NormalWS);
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return tex * LightColor(input.PositionWS, normalWS);
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}
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float4 WithNormalMap(PixelShaderInput input) : COLOR0
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{
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float4 tex = SAMPLE_TEXTURE(Texture, input.TexCoord);
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2020-12-12 09:23:08 +00:00
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if (tex.a == 0.0) { discard; }
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2020-12-07 02:52:14 +00:00
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float3 normalWS = GetNormalFromMap(input.PositionWS, input.TexCoord, input.NormalWS);
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return tex * LightColor(input.PositionWS, normalWS);
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}
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PixelShader PSArray[2] =
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{
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compile ps_3_0 WithoutNormalMap(),
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compile ps_3_0 WithNormalMap()
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};
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int PSIndices[2] =
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{
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0, 1
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};
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int ShaderIndex = 0;
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Technique DiffuseLitSprite
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{
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pass
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{
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VertexShader = compile vs_3_0 main_vs();
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PixelShader = (PSArray[PSIndices[ShaderIndex]]);
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}
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}
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