public CableShader(Device device) { byte[] vsbytes = File.ReadAllBytes("Shaders\\CableVS.cso"); byte[] psbytes = File.ReadAllBytes("Shaders\\CablePS.cso"); vs = new VertexShader(device, vsbytes); ps = new PixelShader(device, psbytes); VSSceneVars = new GpuVarsBuffer <CableShaderVSSceneVars>(device); VSEntityVars = new GpuVarsBuffer <CableShaderVSEntityVars>(device); VSModelVars = new GpuVarsBuffer <CableShaderVSModelVars>(device); VSGeomVars = new GpuVarsBuffer <CableShaderVSGeomVars>(device); PSSceneVars = new GpuVarsBuffer <CableShaderPSSceneVars>(device); PSGeomVars = new GpuVarsBuffer <CableShaderPSGeomVars>(device); //supported layout - requires Position, Normal, Colour, Texcoord layouts.Add(VertexType.Default, new InputLayout(device, vsbytes, VertexTypeDefault.GetLayout())); texsampler = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Wrap, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipLinear, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); }
public BasicShader(Device device) { byte[] vspnctbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCT.cso"); byte[] vspncttbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCTT.cso"); byte[] vspncctbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCCT.cso"); byte[] vspnccttbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCCTT.cso"); byte[] vspncctttbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCCTTT.cso"); byte[] vspnctxbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCTX.cso"); byte[] vspncctxbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCCTX.cso"); byte[] vspncttxbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCTTX.cso"); byte[] vspnccttxbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCCTTX.cso"); byte[] vspnctttxbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCTTTX.cso"); byte[] vspncctttxbytes = File.ReadAllBytes("Shaders\\BasicVS_PNCCTTTX.cso"); byte[] vsboxbytes = File.ReadAllBytes("Shaders\\BasicVS_Box.cso"); byte[] vsspherebytes = File.ReadAllBytes("Shaders\\BasicVS_Sphere.cso"); byte[] vscapsulebytes = File.ReadAllBytes("Shaders\\BasicVS_Capsule.cso"); byte[] vscylinderbytes = File.ReadAllBytes("Shaders\\BasicVS_Cylinder.cso"); byte[] psbytes = File.ReadAllBytes("Shaders\\BasicPS.cso"); basicvspnct = new VertexShader(device, vspnctbytes); basicvspnctt = new VertexShader(device, vspncttbytes); basicvspncct = new VertexShader(device, vspncctbytes); basicvspncctt = new VertexShader(device, vspnccttbytes); basicvspnccttt = new VertexShader(device, vspncctttbytes); basicvspnctx = new VertexShader(device, vspnctxbytes); basicvspncctx = new VertexShader(device, vspncctxbytes); basicvspncttx = new VertexShader(device, vspncttxbytes); basicvspnccttx = new VertexShader(device, vspnccttxbytes); basicvspnctttx = new VertexShader(device, vspnctttxbytes); basicvspncctttx = new VertexShader(device, vspncctttxbytes); basicvsbox = new VertexShader(device, vsboxbytes); basicvssphere = new VertexShader(device, vsspherebytes); basicvscapsule = new VertexShader(device, vscapsulebytes); basicvscylinder = new VertexShader(device, vscylinderbytes); basicps = new PixelShader(device, psbytes); VSSceneVars = new GpuVarsBuffer <BasicShaderVSSceneVars>(device); VSEntityVars = new GpuVarsBuffer <BasicShaderVSEntityVars>(device); VSModelVars = new GpuVarsBuffer <BasicShaderVSModelVars>(device); VSGeomVars = new GpuVarsBuffer <BasicShaderVSGeomVars>(device); PSSceneVars = new GpuVarsBuffer <BasicShaderPSSceneVars>(device); PSGeomVars = new GpuVarsBuffer <BasicShaderPSGeomVars>(device); InstGlobalVars = new GpuVarsBuffer <BasicShaderInstGlobals>(device); InstLocalVars = new GpuVarsBuffer <BasicShaderInstLocals>(device); InitInstGlobalVars(); //supported layouts - requires Position, Normal, Colour, Texcoord layouts.Add(VertexType.Default, new InputLayout(device, vspnctbytes, VertexTypeDefault.GetLayout())); layouts.Add(VertexType.PNCH2, new InputLayout(device, vspnctbytes, VertexTypePNCH2.GetLayout())); layouts.Add(VertexType.PBBNCT, new InputLayout(device, vspnctbytes, VertexTypePBBNCT.GetLayout())); layouts.Add(VertexType.PNCTT, new InputLayout(device, vspncttbytes, VertexTypePNCTT.GetLayout())); layouts.Add(VertexType.PNCTTT, new InputLayout(device, vspncttbytes, VertexTypePNCTTT.GetLayout())); layouts.Add(VertexType.PBBNCTT, new InputLayout(device, vspncttbytes, VertexTypePBBNCTT.GetLayout())); layouts.Add(VertexType.PBBNCTTT, new InputLayout(device, vspncttbytes, VertexTypePBBNCTTT.GetLayout())); layouts.Add(VertexType.PNCCT, new InputLayout(device, vspncctbytes, VertexTypePNCCT.GetLayout())); layouts.Add(VertexType.PBBNCCT, new InputLayout(device, vspncctbytes, VertexTypePBBNCCT.GetLayout())); layouts.Add(VertexType.PNCCTT, new InputLayout(device, vspnccttbytes, VertexTypePNCCTT.GetLayout())); layouts.Add(VertexType.PNCCTTTT, new InputLayout(device, vspncctttbytes, VertexTypePNCCTTTT.GetLayout())); //normalmap layouts - requires Position, Normal, Colour, Texcoord, Tangent (X) layouts.Add(VertexType.DefaultEx, new InputLayout(device, vspnctxbytes, VertexTypeDefaultEx.GetLayout())); layouts.Add(VertexType.PCCH2H4, new InputLayout(device, vspnctxbytes, VertexTypePCCH2H4.GetLayout())); layouts.Add(VertexType.PBBNCTX, new InputLayout(device, vspnctxbytes, VertexTypePBBNCTX.GetLayout())); layouts.Add(VertexType.PNCCTX, new InputLayout(device, vspncctxbytes, VertexTypePNCCTX.GetLayout())); layouts.Add(VertexType.PBBNCCTX, new InputLayout(device, vspncctxbytes, VertexTypePBBNCCTX.GetLayout())); layouts.Add(VertexType.PNCTTX, new InputLayout(device, vspncttxbytes, VertexTypePNCTTX.GetLayout())); layouts.Add(VertexType.PBBNCTTX, new InputLayout(device, vspncttxbytes, VertexTypePBBNCTTX.GetLayout())); layouts.Add(VertexType.PBBNCTTTX, new InputLayout(device, vspncttxbytes, VertexTypePBBNCTTTX.GetLayout())); layouts.Add(VertexType.PNCCTTX, new InputLayout(device, vspnccttxbytes, VertexTypePNCCTTX.GetLayout())); layouts.Add(VertexType.PNCCTTX_2, new InputLayout(device, vspnccttxbytes, VertexTypePNCCTTX_2.GetLayout())); layouts.Add(VertexType.PNCTTTX, new InputLayout(device, vspnctttxbytes, VertexTypePNCTTTX.GetLayout())); layouts.Add(VertexType.PNCTTTX_2, new InputLayout(device, vspnctttxbytes, VertexTypePNCTTTX_2.GetLayout())); layouts.Add(VertexType.PNCTTTX_3, new InputLayout(device, vspnctttxbytes, VertexTypePNCTTTX_3.GetLayout())); layouts.Add(VertexType.PNCTTTTX, new InputLayout(device, vspnctttxbytes, VertexTypePNCTTTTX.GetLayout())); layouts.Add(VertexType.PNCCTTTX, new InputLayout(device, vspncctttxbytes, VertexTypePNCCTTTX.GetLayout())); layouts.Add(VertexType.PBBNCCTTX, new InputLayout(device, vspnccttxbytes, VertexTypePBBNCCTTX.GetLayout())); texsampler = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Wrap, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipLinear, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); texsampleranis = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Wrap, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.Anisotropic, MaximumAnisotropy = 8, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); texsamplertnt = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Clamp, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.White, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipPoint, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); texsamplertntyft = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Wrap, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.White, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipPoint, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); cube = new UnitCube(device, vsboxbytes, false, false, true); sphere = new UnitSphere(device, vsspherebytes, 4); capsule = new UnitCapsule(device, vscapsulebytes, 4); cylinder = new UnitCylinder(device, vscylinderbytes, 8); }
public ShadowShader(Device device) { byte[] vsbytes = File.ReadAllBytes("Shaders\\ShadowVS.cso"); byte[] vssbytes = File.ReadAllBytes("Shaders\\ShadowVS_Skin.cso"); byte[] psbytes = File.ReadAllBytes("Shaders\\ShadowPS.cso"); shadowvs = new VertexShader(device, vsbytes); shadowvs_skin = new VertexShader(device, vssbytes); shadowps = new PixelShader(device, psbytes); VSSceneVars = new GpuVarsBuffer <ShadowShaderVSSceneVars>(device); VSEntityVars = new GpuVarsBuffer <ShadowShaderVSEntityVars>(device); VSModelVars = new GpuVarsBuffer <ShadowShaderVSModelVars>(device); GeomVars = new GpuVarsBuffer <ShadowShaderGeomVars>(device); BoneMatrices = new GpuABuffer <Matrix3_s>(device, 255); //supported layouts - requires Position, Normal, Colour, Texcoord layouts.Add(VertexType.Default, new InputLayout(device, vsbytes, VertexTypeDefault.GetLayout())); layouts.Add(VertexType.DefaultEx, new InputLayout(device, vsbytes, VertexTypeDefaultEx.GetLayout())); layouts.Add(VertexType.PNCCT, new InputLayout(device, vsbytes, VertexTypePNCCT.GetLayout())); layouts.Add(VertexType.PNCCTTTT, new InputLayout(device, vsbytes, VertexTypePNCCTTTT.GetLayout())); layouts.Add(VertexType.PNCTTTX, new InputLayout(device, vsbytes, VertexTypePNCTTTX.GetLayout())); layouts.Add(VertexType.PNCTTTX_2, new InputLayout(device, vsbytes, VertexTypePNCTTTX_2.GetLayout())); layouts.Add(VertexType.PNCTTTX_3, new InputLayout(device, vsbytes, VertexTypePNCTTTX_3.GetLayout())); layouts.Add(VertexType.PNCTTTTX, new InputLayout(device, vsbytes, VertexTypePNCTTTTX.GetLayout())); layouts.Add(VertexType.PNCTTX, new InputLayout(device, vsbytes, VertexTypePNCTTX.GetLayout())); layouts.Add(VertexType.PNCCTTX, new InputLayout(device, vsbytes, VertexTypePNCCTTX.GetLayout())); layouts.Add(VertexType.PNCCTTX_2, new InputLayout(device, vsbytes, VertexTypePNCCTTX_2.GetLayout())); layouts.Add(VertexType.PNCCTTTX, new InputLayout(device, vsbytes, VertexTypePNCCTTTX.GetLayout())); layouts.Add(VertexType.PNCCTT, new InputLayout(device, vsbytes, VertexTypePNCCTT.GetLayout())); layouts.Add(VertexType.PNCCTX, new InputLayout(device, vsbytes, VertexTypePNCCTX.GetLayout())); layouts.Add(VertexType.PNCH2, new InputLayout(device, vsbytes, VertexTypePNCH2.GetLayout())); layouts.Add(VertexType.PCCH2H4, new InputLayout(device, vsbytes, VertexTypePCCH2H4.GetLayout())); layouts.Add(VertexType.PNCTT, new InputLayout(device, vsbytes, VertexTypePNCTT.GetLayout())); layouts.Add(VertexType.PNCTTT, new InputLayout(device, vsbytes, VertexTypePNCTTT.GetLayout())); layouts.Add(VertexType.PBBNCT, new InputLayout(device, vssbytes, VertexTypePBBNCT.GetLayout())); layouts.Add(VertexType.PBBNCTX, new InputLayout(device, vssbytes, VertexTypePBBNCTX.GetLayout())); layouts.Add(VertexType.PBBNCTT, new InputLayout(device, vssbytes, VertexTypePBBNCTT.GetLayout())); layouts.Add(VertexType.PBBNCTTT, new InputLayout(device, vssbytes, VertexTypePBBNCTTT.GetLayout())); layouts.Add(VertexType.PBBNCCT, new InputLayout(device, vssbytes, VertexTypePBBNCCT.GetLayout())); layouts.Add(VertexType.PBBNCCTT, new InputLayout(device, vssbytes, VertexTypePBBNCCTT.GetLayout()));//TODO layouts.Add(VertexType.PBBNCCTX, new InputLayout(device, vssbytes, VertexTypePBBNCCTX.GetLayout())); layouts.Add(VertexType.PBBNCTTX, new InputLayout(device, vssbytes, VertexTypePBBNCTTX.GetLayout())); layouts.Add(VertexType.PBBNCTTTX, new InputLayout(device, vssbytes, VertexTypePBBNCTTTX.GetLayout())); //TODO layouts.Add(VertexType.PBBNCCTTX, new InputLayout(device, vssbytes, VertexTypePBBNCCTTX.GetLayout())); //TODO //PBBCCT todo //PBBNC todo texsampler = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Wrap, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipLinear, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); texsamplerc = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Clamp, AddressV = TextureAddressMode.Clamp, AddressW = TextureAddressMode.Clamp, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipPoint, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); defaultBoneMatrices = new Matrix3_s[255]; for (int i = 0; i < 255; i++) { defaultBoneMatrices[i].Row1 = Vector4.UnitX; defaultBoneMatrices[i].Row2 = Vector4.UnitY; defaultBoneMatrices[i].Row3 = Vector4.UnitZ; } }
public ShadowShader(Device device) { byte[] vsbytes = File.ReadAllBytes("Shaders\\ShadowVS.cso"); byte[] psbytes = File.ReadAllBytes("Shaders\\ShadowPS.cso"); shadowvs = new VertexShader(device, vsbytes); shadowps = new PixelShader(device, psbytes); VSSceneVars = new GpuVarsBuffer <ShadowShaderVSSceneVars>(device); VSEntityVars = new GpuVarsBuffer <ShadowShaderVSEntityVars>(device); VSModelVars = new GpuVarsBuffer <ShadowShaderVSModelVars>(device); GeomVars = new GpuVarsBuffer <ShadowShaderGeomVars>(device); //supported layouts - requires Position, Normal, Colour, Texcoord layouts.Add(VertexType.Default, new InputLayout(device, vsbytes, VertexTypeDefault.GetLayout())); layouts.Add(VertexType.DefaultEx, new InputLayout(device, vsbytes, VertexTypeDefaultEx.GetLayout())); layouts.Add(VertexType.PNCCT, new InputLayout(device, vsbytes, VertexTypePNCCT.GetLayout())); layouts.Add(VertexType.PNCCTTTT, new InputLayout(device, vsbytes, VertexTypePNCCTTTT.GetLayout())); layouts.Add(VertexType.PCCNCCTTX, new InputLayout(device, vsbytes, VertexTypePCCNCCTTX.GetLayout())); layouts.Add(VertexType.PCCNCCT, new InputLayout(device, vsbytes, VertexTypePCCNCCT.GetLayout())); layouts.Add(VertexType.PNCTTTX, new InputLayout(device, vsbytes, VertexTypePNCTTTX.GetLayout())); layouts.Add(VertexType.PNCTTTX_2, new InputLayout(device, vsbytes, VertexTypePNCTTTX_2.GetLayout())); layouts.Add(VertexType.PNCTTTX_3, new InputLayout(device, vsbytes, VertexTypePNCTTTX_3.GetLayout())); layouts.Add(VertexType.PNCTTTTX, new InputLayout(device, vsbytes, VertexTypePNCTTTTX.GetLayout())); layouts.Add(VertexType.PNCTTX, new InputLayout(device, vsbytes, VertexTypePNCTTX.GetLayout())); layouts.Add(VertexType.PNCCTTX, new InputLayout(device, vsbytes, VertexTypePNCCTTX.GetLayout())); layouts.Add(VertexType.PNCCTTX_2, new InputLayout(device, vsbytes, VertexTypePNCCTTX_2.GetLayout())); layouts.Add(VertexType.PNCCTTTX, new InputLayout(device, vsbytes, VertexTypePNCCTTTX.GetLayout())); layouts.Add(VertexType.PCCNCCTX, new InputLayout(device, vsbytes, VertexTypePCCNCCTX.GetLayout())); layouts.Add(VertexType.PCCNCTX, new InputLayout(device, vsbytes, VertexTypePCCNCTX.GetLayout())); layouts.Add(VertexType.PCCNCT, new InputLayout(device, vsbytes, VertexTypePCCNCT.GetLayout())); layouts.Add(VertexType.PNCCTT, new InputLayout(device, vsbytes, VertexTypePNCCTT.GetLayout())); layouts.Add(VertexType.PNCCTX, new InputLayout(device, vsbytes, VertexTypePNCCTX.GetLayout())); layouts.Add(VertexType.PNCH2, new InputLayout(device, vsbytes, VertexTypePNCH2.GetLayout())); layouts.Add(VertexType.PCCH2H4, new InputLayout(device, vsbytes, VertexTypePCCH2H4.GetLayout())); layouts.Add(VertexType.PCCNCTT, new InputLayout(device, vsbytes, VertexTypePCCNCTT.GetLayout())); layouts.Add(VertexType.PCCNCTTX, new InputLayout(device, vsbytes, VertexTypePCCNCTTX.GetLayout())); layouts.Add(VertexType.PCCNCTTT, new InputLayout(device, vsbytes, VertexTypePCCNCTTT.GetLayout())); layouts.Add(VertexType.PNCTT, new InputLayout(device, vsbytes, VertexTypePNCTT.GetLayout())); layouts.Add(VertexType.PNCTTT, new InputLayout(device, vsbytes, VertexTypePNCTTT.GetLayout())); layouts.Add(VertexType.PCCNCTTTX, new InputLayout(device, vsbytes, VertexTypePCCNCTTTX.GetLayout())); texsampler = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Wrap, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipLinear, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); texsamplerc = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Clamp, AddressV = TextureAddressMode.Clamp, AddressW = TextureAddressMode.Clamp, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipPoint, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); }
//check dt1_21_reflproxy and dt1_05_reflproxy public WaterShader(Device device) { byte[] vsptbytes = File.ReadAllBytes("Shaders\\WaterVS_PT.cso"); byte[] vspctbytes = File.ReadAllBytes("Shaders\\WaterVS_PCT.cso"); byte[] vspnctbytes = File.ReadAllBytes("Shaders\\WaterVS_PNCT.cso"); byte[] vspnctxbytes = File.ReadAllBytes("Shaders\\WaterVS_PNCTX.cso"); byte[] psbytes = File.ReadAllBytes("Shaders\\WaterPS.cso"); vspt = new VertexShader(device, vsptbytes); vspct = new VertexShader(device, vspctbytes); vspnct = new VertexShader(device, vspnctbytes); vspnctx = new VertexShader(device, vspnctxbytes); ps = new PixelShader(device, psbytes); VSSceneVars = new GpuVarsBuffer <WaterShaderVSSceneVars>(device); VSEntityVars = new GpuVarsBuffer <WaterShaderVSEntityVars>(device); VSGeomVars = new GpuVarsBuffer <WaterShaderVSGeomVars>(device); PSSceneVars = new GpuVarsBuffer <WaterShaderPSSceneVars>(device); PSGeomVars = new GpuVarsBuffer <WaterShaderPSGeomVars>(device); layouts.Add(VertexType.PT, new InputLayout(device, vsptbytes, VertexTypePT.GetLayout())); layouts.Add(VertexType.PCT, new InputLayout(device, vspctbytes, VertexTypePCT.GetLayout())); layouts.Add(VertexType.Default, new InputLayout(device, vspnctbytes, VertexTypeDefault.GetLayout())); layouts.Add(VertexType.DefaultEx, new InputLayout(device, vspnctxbytes, VertexTypeDefaultEx.GetLayout())); texsampler = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Wrap, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipLinear, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); texsampleranis = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Wrap, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.Black, ComparisonFunction = Comparison.Always, Filter = Filter.Anisotropic, MaximumAnisotropy = 8, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); texsamplerflow = new SamplerState(device, new SamplerStateDescription() { AddressU = TextureAddressMode.Clamp, AddressV = TextureAddressMode.Wrap, AddressW = TextureAddressMode.Wrap, BorderColor = Color.White, ComparisonFunction = Comparison.Always, Filter = Filter.MinMagMipPoint, MaximumAnisotropy = 1, MaximumLod = float.MaxValue, MinimumLod = 0, MipLodBias = 0, }); }