////////////////////////////////////////////////////////////////////////////// // // Copyright (c) Microsoft Corporation. All rights reserved. // // File: D3D10Shader.h // Content: D3D10 Shader Types and APIs // ////////////////////////////////////////////////////////////////////////////// #ifndef __D3D10SHADER_H__ #define __D3D10SHADER_H__ #include "d3d10.h" //--------------------------------------------------------------------------- // D3D10_TX_VERSION: // -------------- // Version token used to create a procedural texture filler in effects // Used by D3D10Fill[]TX functions //--------------------------------------------------------------------------- #define D3D10_TX_VERSION(_Major,_Minor) (('T' << 24) | ('X' << 16) | ((_Major) << 8) | (_Minor)) //---------------------------------------------------------------------------- // D3D10SHADER flags: // ----------------- // D3D10_SHADER_DEBUG // Insert debug file/line/type/symbol information. // // D3D10_SHADER_SKIP_VALIDATION // Do not validate the generated code against known capabilities and // constraints. This option is only recommended when compiling shaders // you KNOW will work. (ie. have compiled before without this option.) // Shaders are always validated by D3D before they are set to the device. // // D3D10_SHADER_SKIP_OPTIMIZATION // Instructs the compiler to skip optimization steps during code generation. // Unless you are trying to isolate a problem in your code using this option // is not recommended. // // D3D10_SHADER_PACK_MATRIX_ROW_MAJOR // Unless explicitly specified, matrices will be packed in row-major order // on input and output from the shader. // // D3D10_SHADER_PACK_MATRIX_COLUMN_MAJOR // Unless explicitly specified, matrices will be packed in column-major // order on input and output from the shader. This is generally more // efficient, since it allows vector-matrix multiplication to be performed // using a series of dot-products. // // D3D10_SHADER_PARTIAL_PRECISION // Force all computations in resulting shader to occur at partial precision. // This may result in faster evaluation of shaders on some hardware. // // D3D10_SHADER_FORCE_VS_SOFTWARE_NO_OPT // Force compiler to compile against the next highest available software // target for vertex shaders. This flag also turns optimizations off, // and debugging on. // // D3D10_SHADER_FORCE_PS_SOFTWARE_NO_OPT // Force compiler to compile against the next highest available software // target for pixel shaders. This flag also turns optimizations off, // and debugging on. // // D3D10_SHADER_NO_PRESHADER // Disables Preshaders. Using this flag will cause the compiler to not // pull out static expression for evaluation on the host cpu // // D3D10_SHADER_AVOID_FLOW_CONTROL // Hint compiler to avoid flow-control constructs where possible. // // D3D10_SHADER_PREFER_FLOW_CONTROL // Hint compiler to prefer flow-control constructs where possible. // // D3D10_SHADER_ENABLE_STRICTNESS // By default, the HLSL/Effect compilers are not strict on deprecated syntax. // Specifying this flag enables the strict mode. Deprecated syntax may be // removed in a future release, and enabling syntax is a good way to make sure // your shaders comply to the latest spec. // // D3D10_SHADER_ENABLE_BACKWARDS_COMPATIBILITY // This enables older shaders to compile to 4_0 targets. // //---------------------------------------------------------------------------- #define D3D10_SHADER_DEBUG (1 << 0) #define D3D10_SHADER_SKIP_VALIDATION (1 << 1) #define D3D10_SHADER_SKIP_OPTIMIZATION (1 << 2) #define D3D10_SHADER_PACK_MATRIX_ROW_MAJOR (1 << 3) #define D3D10_SHADER_PACK_MATRIX_COLUMN_MAJOR (1 << 4) #define D3D10_SHADER_PARTIAL_PRECISION (1 << 5) #define D3D10_SHADER_FORCE_VS_SOFTWARE_NO_OPT (1 << 6) #define D3D10_SHADER_FORCE_PS_SOFTWARE_NO_OPT (1 << 7) #define D3D10_SHADER_NO_PRESHADER (1 << 8) #define D3D10_SHADER_AVOID_FLOW_CONTROL (1 << 9) #define D3D10_SHADER_PREFER_FLOW_CONTROL (1 << 10) #define D3D10_SHADER_ENABLE_STRICTNESS (1 << 11) #define D3D10_SHADER_ENABLE_BACKWARDS_COMPATIBILITY (1 << 12) #define D3D10_SHADER_IEEE_STRICTNESS (1 << 13) // optimization level flags #define D3D10_SHADER_OPTIMIZATION_LEVEL0 (1 << 14) #define D3D10_SHADER_OPTIMIZATION_LEVEL1 0 #define D3D10_SHADER_OPTIMIZATION_LEVEL2 ((1 << 14) | (1 << 15)) #define D3D10_SHADER_OPTIMIZATION_LEVEL3 (1 << 15) //---------------------------------------------------------------------------- // D3D10_SHADER_MACRO: // ---------- // Preprocessor macro definition. The application pass in a NULL-terminated // array of this structure to various D3D10 APIs. This enables the application // to #define tokens at runtime, before the file is parsed. //---------------------------------------------------------------------------- typedef struct _D3D10_SHADER_MACRO { LPCSTR Name; LPCSTR Definition; } D3D10_SHADER_MACRO, *LPD3D10_SHADER_MACRO; //---------------------------------------------------------------------------- // D3D10_SHADER_VARIABLE_CLASS: //---------------------------------------------------------------------------- typedef enum _D3D10_SHADER_VARIABLE_CLASS { D3D10_SVC_SCALAR, D3D10_SVC_VECTOR, D3D10_SVC_MATRIX_ROWS, D3D10_SVC_MATRIX_COLUMNS, D3D10_SVC_OBJECT, D3D10_SVC_STRUCT, D3D11_SVC_INTERFACE_CLASS, D3D11_SVC_INTERFACE_POINTER, // force 32-bit size enum D3D10_SVC_FORCE_DWORD = 0x7fffffff } D3D10_SHADER_VARIABLE_CLASS, *LPD3D10_SHADER_VARIABLE_CLASS; typedef enum _D3D10_SHADER_VARIABLE_FLAGS { D3D10_SVF_USERPACKED = 1, D3D10_SVF_USED = 2, D3D11_SVF_INTERFACE_POINTER = 4, // force 32-bit size enum D3D10_SVF_FORCE_DWORD = 0x7fffffff } D3D10_SHADER_VARIABLE_FLAGS, *LPD3D10_SHADER_VARIABLE_FLAGS; //---------------------------------------------------------------------------- // D3D10_SHADER_VARIABLE_TYPE: //---------------------------------------------------------------------------- typedef enum _D3D10_SHADER_VARIABLE_TYPE { D3D10_SVT_VOID = 0, D3D10_SVT_BOOL = 1, D3D10_SVT_INT = 2, D3D10_SVT_FLOAT = 3, D3D10_SVT_STRING = 4, D3D10_SVT_TEXTURE = 5, D3D10_SVT_TEXTURE1D = 6, D3D10_SVT_TEXTURE2D = 7, D3D10_SVT_TEXTURE3D = 8, D3D10_SVT_TEXTURECUBE = 9, D3D10_SVT_SAMPLER = 10, D3D10_SVT_PIXELSHADER = 15, D3D10_SVT_VERTEXSHADER = 16, D3D10_SVT_UINT = 19, D3D10_SVT_UINT8 = 20, D3D10_SVT_GEOMETRYSHADER = 21, D3D10_SVT_RASTERIZER = 22, D3D10_SVT_DEPTHSTENCIL = 23, D3D10_SVT_BLEND = 24, D3D10_SVT_BUFFER = 25, D3D10_SVT_CBUFFER = 26, D3D10_SVT_TBUFFER = 27, D3D10_SVT_TEXTURE1DARRAY = 28, D3D10_SVT_TEXTURE2DARRAY = 29, D3D10_SVT_RENDERTARGETVIEW = 30, D3D10_SVT_DEPTHSTENCILVIEW = 31, D3D10_SVT_TEXTURE2DMS = 32, D3D10_SVT_TEXTURE2DMSARRAY = 33, D3D10_SVT_TEXTURECUBEARRAY = 34, D3D11_SVT_HULLSHADER = 35, D3D11_SVT_DOMAINSHADER = 36, D3D11_SVT_INTERFACE_POINTER = 37, D3D11_SVT_COMPUTESHADER = 38, D3D11_SVT_DOUBLE = 39, // force 32-bit size enum D3D10_SVT_FORCE_DWORD = 0x7fffffff } D3D10_SHADER_VARIABLE_TYPE, *LPD3D10_SHADER_VARIABLE_TYPE; typedef enum _D3D10_SHADER_INPUT_FLAGS { D3D10_SIF_USERPACKED = 1, D3D10_SIF_COMPARISON_SAMPLER = 2, // is this a comparison sampler? D3D10_SIF_TEXTURE_COMPONENT_0 = 4, // this 2-bit value encodes c - 1, where c D3D10_SIF_TEXTURE_COMPONENT_1 = 8, // is the number of components in the texture D3D10_SIF_TEXTURE_COMPONENTS = 12, // force 32-bit size enum D3D10_SIF_FORCE_DWORD = 0x7fffffff } D3D10_SHADER_INPUT_FLAGS, *LPD3D10_SHADER_INPUT_FLAGS; //---------------------------------------------------------------------------- // D3D10_SHADER_INPUT_TYPE //---------------------------------------------------------------------------- typedef enum _D3D10_SHADER_INPUT_TYPE { D3D10_SIT_CBUFFER, D3D10_SIT_TBUFFER, D3D10_SIT_TEXTURE, D3D10_SIT_SAMPLER, D3D11_SIT_UAV_RWTYPED, D3D11_SIT_STRUCTURED, D3D11_SIT_UAV_RWSTRUCTURED, D3D11_SIT_BYTEADDRESS, D3D11_SIT_UAV_RWBYTEADDRESS, D3D11_SIT_UAV_APPEND_BYTEADDRESS, D3D11_SIT_UAV_CONSUME_BYTEADDRESS, D3D11_SIT_UAV_APPEND_STRUCTURED, D3D11_SIT_UAV_CONSUME_STRUCTURED, } D3D10_SHADER_INPUT_TYPE, *LPD3D10_SHADER_INPUT_TYPE; typedef enum _D3D10_SHADER_CBUFFER_FLAGS { D3D10_CBF_USERPACKED = 1, // force 32-bit size enum D3D10_CBF_FORCE_DWORD = 0x7fffffff } D3D10_SHADER_CBUFFER_FLAGS, *LPD3D10_SHADER_CBUFFER_FLAGS; typedef enum _D3D10_CBUFFER_TYPE { D3D10_CT_CBUFFER, D3D10_CT_TBUFFER, } D3D10_CBUFFER_TYPE, *LPD3D10_CBUFFER_TYPE; typedef enum D3D10_NAME { D3D10_NAME_UNDEFINED = 0, // Names meaningful to both HLSL and hardware D3D10_NAME_POSITION = 1, D3D10_NAME_CLIP_DISTANCE = 2, D3D10_NAME_CULL_DISTANCE = 3, D3D10_NAME_RENDER_TARGET_ARRAY_INDEX = 4, D3D10_NAME_VIEWPORT_ARRAY_INDEX = 5, D3D10_NAME_VERTEX_ID = 6, D3D10_NAME_PRIMITIVE_ID = 7, D3D10_NAME_INSTANCE_ID = 8, D3D10_NAME_IS_FRONT_FACE = 9, D3D10_NAME_SAMPLE_INDEX = 10, D3D11_NAME_FINAL_QUAD_EDGE_TESSFACTOR = 11, D3D11_NAME_FINAL_QUAD_INSIDE_TESSFACTOR = 12, D3D11_NAME_FINAL_TRI_EDGE_TESSFACTOR = 13, D3D11_NAME_FINAL_TRI_INSIDE_TESSFACTOR = 14, D3D11_NAME_FINAL_LINE_DETAIL_TESSFACTOR = 15, D3D11_NAME_FINAL_LINE_DENSITY_TESSFACTOR = 16, // Names meaningful to HLSL only D3D10_NAME_TARGET = 64, D3D10_NAME_DEPTH = 65, D3D10_NAME_COVERAGE = 66, D3D11_NAME_DEPTH_GREATER_EQUAL = 67, D3D11_NAME_DEPTH_LESS_EQUAL = 68, } D3D10_NAME; typedef enum D3D10_RESOURCE_RETURN_TYPE { D3D10_RETURN_TYPE_UNORM = 1, D3D10_RETURN_TYPE_SNORM = 2, D3D10_RETURN_TYPE_SINT = 3, D3D10_RETURN_TYPE_UINT = 4, D3D10_RETURN_TYPE_FLOAT = 5, D3D10_RETURN_TYPE_MIXED = 6, } D3D10_RESOURCE_RETURN_TYPE; typedef enum D3D10_REGISTER_COMPONENT_TYPE { D3D10_REGISTER_COMPONENT_UNKNOWN = 0, D3D10_REGISTER_COMPONENT_UINT32 = 1, D3D10_REGISTER_COMPONENT_SINT32 = 2, D3D10_REGISTER_COMPONENT_FLOAT32 = 3 } D3D10_REGISTER_COMPONENT_TYPE; //---------------------------------------------------------------------------- // D3D10_INCLUDE_TYPE: //---------------------------------------------------------------------------- typedef enum _D3D10_INCLUDE_TYPE { D3D10_INCLUDE_LOCAL, D3D10_INCLUDE_SYSTEM, // force 32-bit size enum D3D10_INCLUDE_FORCE_DWORD = 0x7fffffff } D3D10_INCLUDE_TYPE, *LPD3D10_INCLUDE_TYPE; //---------------------------------------------------------------------------- // ID3D10Include: // ------------- // This interface is intended to be implemented by the application, and can // be used by various D3D10 APIs. This enables application-specific handling // of #include directives in source files. // // Open() // Opens an include file. If successful, it should fill in ppData and // pBytes. The data pointer returned must remain valid until Close is // subsequently called. The name of the file is encoded in UTF-8 format. // Close() // Closes an include file. If Open was successful, Close is guaranteed // to be called before the API using this interface returns. //---------------------------------------------------------------------------- typedef interface ID3D10Include ID3D10Include; typedef interface ID3D10Include *LPD3D10INCLUDE; #undef INTERFACE #define INTERFACE ID3D10Include DECLARE_INTERFACE(ID3D10Include) { STDMETHOD(Open)(THIS_ D3D10_INCLUDE_TYPE IncludeType, LPCSTR pFileName, LPCVOID pParentData, LPCVOID *ppData, UINT *pBytes) PURE; STDMETHOD(Close)(THIS_ LPCVOID pData) PURE; }; //---------------------------------------------------------------------------- // ID3D10ShaderReflection: //---------------------------------------------------------------------------- // // Structure definitions // typedef struct _D3D10_SHADER_DESC { UINT Version; // Shader version LPCSTR Creator; // Creator string UINT Flags; // Shader compilation/parse flags UINT ConstantBuffers; // Number of constant buffers UINT BoundResources; // Number of bound resources UINT InputParameters; // Number of parameters in the input signature UINT OutputParameters; // Number of parameters in the output signature UINT InstructionCount; // Number of emitted instructions UINT TempRegisterCount; // Number of temporary registers used UINT TempArrayCount; // Number of temporary arrays used UINT DefCount; // Number of constant defines UINT DclCount; // Number of declarations (input + output) UINT TextureNormalInstructions; // Number of non-categorized texture instructions UINT TextureLoadInstructions; // Number of texture load instructions UINT TextureCompInstructions; // Number of texture comparison instructions UINT TextureBiasInstructions; // Number of texture bias instructions UINT TextureGradientInstructions; // Number of texture gradient instructions UINT FloatInstructionCount; // Number of floating point arithmetic instructions used UINT IntInstructionCount; // Number of signed integer arithmetic instructions used UINT UintInstructionCount; // Number of unsigned integer arithmetic instructions used UINT StaticFlowControlCount; // Number of static flow control instructions used UINT DynamicFlowControlCount; // Number of dynamic flow control instructions used UINT MacroInstructionCount; // Number of macro instructions used UINT ArrayInstructionCount; // Number of array instructions used UINT CutInstructionCount; // Number of cut instructions used UINT EmitInstructionCount; // Number of emit instructions used D3D10_PRIMITIVE_TOPOLOGY GSOutputTopology; // Geometry shader output topology UINT GSMaxOutputVertexCount; // Geometry shader maximum output vertex count } D3D10_SHADER_DESC; typedef struct _D3D10_SHADER_BUFFER_DESC { LPCSTR Name; // Name of the constant buffer D3D10_CBUFFER_TYPE Type; // Indicates that this is a CBuffer or TBuffer UINT Variables; // Number of member variables UINT Size; // Size of CB (in bytes) UINT uFlags; // Buffer description flags } D3D10_SHADER_BUFFER_DESC; typedef struct _D3D10_SHADER_VARIABLE_DESC { LPCSTR Name; // Name of the variable UINT StartOffset; // Offset in constant buffer's backing store UINT Size; // Size of variable (in bytes) UINT uFlags; // Variable flags LPVOID DefaultValue; // Raw pointer to default value } D3D10_SHADER_VARIABLE_DESC; typedef struct _D3D10_SHADER_TYPE_DESC { D3D10_SHADER_VARIABLE_CLASS Class; // Variable class (e.g. object, matrix, etc.) D3D10_SHADER_VARIABLE_TYPE Type; // Variable type (e.g. float, sampler, etc.) UINT Rows; // Number of rows (for matrices, 1 for other numeric, 0 if not applicable) UINT Columns; // Number of columns (for vectors & matrices, 1 for other numeric, 0 if not applicable) UINT Elements; // Number of elements (0 if not an array) UINT Members; // Number of members (0 if not a structure) UINT Offset; // Offset from the start of structure (0 if not a structure member) } D3D10_SHADER_TYPE_DESC; typedef struct _D3D10_SHADER_INPUT_BIND_DESC { LPCSTR Name; // Name of the resource D3D10_SHADER_INPUT_TYPE Type; // Type of resource (e.g. texture, cbuffer, etc.) UINT BindPoint; // Starting bind point UINT BindCount; // Number of contiguous bind points (for arrays) UINT uFlags; // Input binding flags D3D10_RESOURCE_RETURN_TYPE ReturnType; // Return type (if texture) D3D10_SRV_DIMENSION Dimension; // Dimension (if texture) UINT NumSamples; // Number of samples (0 if not MS texture) } D3D10_SHADER_INPUT_BIND_DESC; typedef struct _D3D10_SIGNATURE_PARAMETER_DESC { LPCSTR SemanticName; // Name of the semantic UINT SemanticIndex; // Index of the semantic UINT Register; // Number of member variables D3D10_NAME SystemValueType;// A predefined system value, or D3D10_NAME_UNDEFINED if not applicable D3D10_REGISTER_COMPONENT_TYPE ComponentType;// Scalar type (e.g. uint, float, etc.) BYTE Mask; // Mask to indicate which components of the register // are used (combination of D3D10_COMPONENT_MASK values) BYTE ReadWriteMask; // Mask to indicate whether a given component is // never written (if this is an output signature) or // always read (if this is an input signature). // (combination of D3D10_COMPONENT_MASK values) } D3D10_SIGNATURE_PARAMETER_DESC; // // Interface definitions // typedef interface ID3D10ShaderReflectionType ID3D10ShaderReflectionType; typedef interface ID3D10ShaderReflectionType *LPD3D10SHADERREFLECTIONTYPE; // {C530AD7D-9B16-4395-A979-BA2ECFF83ADD} DEFINE_GUID(IID_ID3D10ShaderReflectionType, 0xc530ad7d, 0x9b16, 0x4395, 0xa9, 0x79, 0xba, 0x2e, 0xcf, 0xf8, 0x3a, 0xdd); #undef INTERFACE #define INTERFACE ID3D10ShaderReflectionType DECLARE_INTERFACE(ID3D10ShaderReflectionType) { STDMETHOD(GetDesc)(THIS_ D3D10_SHADER_TYPE_DESC *pDesc) PURE; STDMETHOD_(ID3D10ShaderReflectionType*, GetMemberTypeByIndex)(THIS_ UINT Index) PURE; STDMETHOD_(ID3D10ShaderReflectionType*, GetMemberTypeByName)(THIS_ LPCSTR Name) PURE; STDMETHOD_(LPCSTR, GetMemberTypeName)(THIS_ UINT Index) PURE; }; typedef interface ID3D10ShaderReflectionVariable ID3D10ShaderReflectionVariable; typedef interface ID3D10ShaderReflectionVariable *LPD3D10SHADERREFLECTIONVARIABLE; // {1BF63C95-2650-405d-99C1-3636BD1DA0A1} DEFINE_GUID(IID_ID3D10ShaderReflectionVariable, 0x1bf63c95, 0x2650, 0x405d, 0x99, 0xc1, 0x36, 0x36, 0xbd, 0x1d, 0xa0, 0xa1); #undef INTERFACE #define INTERFACE ID3D10ShaderReflectionVariable DECLARE_INTERFACE(ID3D10ShaderReflectionVariable) { STDMETHOD(GetDesc)(THIS_ D3D10_SHADER_VARIABLE_DESC *pDesc) PURE; STDMETHOD_(ID3D10ShaderReflectionType*, GetType)(THIS) PURE; }; typedef interface ID3D10ShaderReflectionConstantBuffer ID3D10ShaderReflectionConstantBuffer; typedef interface ID3D10ShaderReflectionConstantBuffer *LPD3D10SHADERREFLECTIONCONSTANTBUFFER; // {66C66A94-DDDD-4b62-A66A-F0DA33C2B4D0} DEFINE_GUID(IID_ID3D10ShaderReflectionConstantBuffer, 0x66c66a94, 0xdddd, 0x4b62, 0xa6, 0x6a, 0xf0, 0xda, 0x33, 0xc2, 0xb4, 0xd0); #undef INTERFACE #define INTERFACE ID3D10ShaderReflectionConstantBuffer DECLARE_INTERFACE(ID3D10ShaderReflectionConstantBuffer) { STDMETHOD(GetDesc)(THIS_ D3D10_SHADER_BUFFER_DESC *pDesc) PURE; STDMETHOD_(ID3D10ShaderReflectionVariable*, GetVariableByIndex)(THIS_ UINT Index) PURE; STDMETHOD_(ID3D10ShaderReflectionVariable*, GetVariableByName)(THIS_ LPCSTR Name) PURE; }; typedef interface ID3D10ShaderReflection ID3D10ShaderReflection; typedef interface ID3D10ShaderReflection *LPD3D10SHADERREFLECTION; // {D40E20B6-F8F7-42ad-AB20-4BAF8F15DFAA} DEFINE_GUID(IID_ID3D10ShaderReflection, 0xd40e20b6, 0xf8f7, 0x42ad, 0xab, 0x20, 0x4b, 0xaf, 0x8f, 0x15, 0xdf, 0xaa); #undef INTERFACE #define INTERFACE ID3D10ShaderReflection DECLARE_INTERFACE_(ID3D10ShaderReflection, IUnknown) { STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE; STDMETHOD_(ULONG, AddRef)(THIS) PURE; STDMETHOD_(ULONG, Release)(THIS) PURE; STDMETHOD(GetDesc)(THIS_ D3D10_SHADER_DESC *pDesc) PURE; STDMETHOD_(ID3D10ShaderReflectionConstantBuffer*, GetConstantBufferByIndex)(THIS_ UINT Index) PURE; STDMETHOD_(ID3D10ShaderReflectionConstantBuffer*, GetConstantBufferByName)(THIS_ LPCSTR Name) PURE; STDMETHOD(GetResourceBindingDesc)(THIS_ UINT ResourceIndex, D3D10_SHADER_INPUT_BIND_DESC *pDesc) PURE; STDMETHOD(GetInputParameterDesc)(THIS_ UINT ParameterIndex, D3D10_SIGNATURE_PARAMETER_DESC *pDesc) PURE; STDMETHOD(GetOutputParameterDesc)(THIS_ UINT ParameterIndex, D3D10_SIGNATURE_PARAMETER_DESC *pDesc) PURE; }; ////////////////////////////////////////////////////////////////////////////// // APIs ////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// #ifdef __cplusplus extern "C" { #endif //__cplusplus //---------------------------------------------------------------------------- // D3D10CompileShader: // ------------------ // Compiles a shader. // // Parameters: // pSrcFile // Source file name. // hSrcModule // Module handle. if NULL, current module will be used. // pSrcResource // Resource name in module. // pSrcData // Pointer to source code. // SrcDataLen // Size of source code, in bytes. // pDefines // Optional NULL-terminated array of preprocessor macro definitions. // pInclude // Optional interface pointer to use for handling #include directives. // If this parameter is NULL, #includes will be honored when compiling // from file, and will error when compiling from resource or memory. // pFunctionName // Name of the entrypoint function where execution should begin. // pProfile // Instruction set to be used when generating code. The D3D10 entry // point currently supports only "vs_4_0", "ps_4_0", and "gs_4_0". // Flags // See D3D10_SHADER_xxx flags. // ppShader // Returns a buffer containing the created shader. This buffer contains // the compiled shader code, as well as any embedded debug and symbol // table info. (See D3D10GetShaderConstantTable) // ppErrorMsgs // Returns a buffer containing a listing of errors and warnings that were // encountered during the compile. If you are running in a debugger, // these are the same messages you will see in your debug output. //---------------------------------------------------------------------------- HRESULT WINAPI D3D10CompileShader(LPCSTR pSrcData, SIZE_T SrcDataLen, LPCSTR pFileName, CONST D3D10_SHADER_MACRO* pDefines, LPD3D10INCLUDE pInclude, LPCSTR pFunctionName, LPCSTR pProfile, UINT Flags, ID3D10Blob** ppShader, ID3D10Blob** ppErrorMsgs); //---------------------------------------------------------------------------- // D3D10DisassembleShader: // ---------------------- // Takes a binary shader, and returns a buffer containing text assembly. // // Parameters: // pShader // Pointer to the shader byte code. // BytecodeLength // Size of the shader byte code in bytes. // EnableColorCode // Emit HTML tags for color coding the output? // pComments // Pointer to a comment string to include at the top of the shader. // ppDisassembly // Returns a buffer containing the disassembled shader. //---------------------------------------------------------------------------- HRESULT WINAPI D3D10DisassembleShader(CONST void *pShader, SIZE_T BytecodeLength, BOOL EnableColorCode, LPCSTR pComments, ID3D10Blob** ppDisassembly); //---------------------------------------------------------------------------- // D3D10GetPixelShaderProfile/D3D10GetVertexShaderProfile/D3D10GetGeometryShaderProfile: // ----------------------------------------------------- // Returns the name of the HLSL profile best suited to a given device. // // Parameters: // pDevice // Pointer to the device in question //---------------------------------------------------------------------------- LPCSTR WINAPI D3D10GetPixelShaderProfile(ID3D10Device *pDevice); LPCSTR WINAPI D3D10GetVertexShaderProfile(ID3D10Device *pDevice); LPCSTR WINAPI D3D10GetGeometryShaderProfile(ID3D10Device *pDevice); //---------------------------------------------------------------------------- // D3D10ReflectShader: // ------------------ // Creates a shader reflection object that can be used to retrieve information // about a compiled shader // // Parameters: // pShaderBytecode // Pointer to a compiled shader (same pointer that is passed into // ID3D10Device::CreateShader) // BytecodeLength // Length of the shader bytecode buffer // ppReflector // [out] Returns a ID3D10ShaderReflection object that can be used to // retrieve shader resource and constant buffer information // //---------------------------------------------------------------------------- HRESULT WINAPI D3D10ReflectShader(CONST void *pShaderBytecode, SIZE_T BytecodeLength, ID3D10ShaderReflection **ppReflector); //---------------------------------------------------------------------------- // D3D10PreprocessShader // --------------------- // Creates a shader reflection object that can be used to retrieve information // about a compiled shader // // Parameters: // pSrcData // Pointer to source code // SrcDataLen // Size of source code, in bytes // pFileName // Source file name (used for error output) // pDefines // Optional NULL-terminated array of preprocessor macro definitions. // pInclude // Optional interface pointer to use for handling #include directives. // If this parameter is NULL, #includes will be honored when assembling // from file, and will error when assembling from resource or memory. // ppShaderText // Returns a buffer containing a single large string that represents // the resulting formatted token stream // ppErrorMsgs // Returns a buffer containing a listing of errors and warnings that were // encountered during assembly. If you are running in a debugger, // these are the same messages you will see in your debug output. //---------------------------------------------------------------------------- HRESULT WINAPI D3D10PreprocessShader(LPCSTR pSrcData, SIZE_T SrcDataSize, LPCSTR pFileName, CONST D3D10_SHADER_MACRO* pDefines, LPD3D10INCLUDE pInclude, ID3D10Blob** ppShaderText, ID3D10Blob** ppErrorMsgs); ////////////////////////////////////////////////////////////////////////// // // Shader blob manipulation routines // --------------------------------- // // void *pShaderBytecode - a buffer containing the result of an HLSL // compilation. Typically this opaque buffer contains several // discrete sections including the shader executable code, the input // signature, and the output signature. This can typically be retrieved // by calling ID3D10Blob::GetBufferPointer() on the returned blob // from HLSL's compile APIs. // // UINT BytecodeLength - the length of pShaderBytecode. This can // typically be retrieved by calling ID3D10Blob::GetBufferSize() // on the returned blob from HLSL's compile APIs. // // ID3D10Blob **ppSignatureBlob(s) - a newly created buffer that // contains only the signature portions of the original bytecode. // This is a copy; the original bytecode is not modified. You may // specify NULL for this parameter to have the bytecode validated // for the presence of the corresponding signatures without actually // copying them and creating a new blob. // // Returns E_INVALIDARG if any required parameters are NULL // Returns E_FAIL is the bytecode is corrupt or missing signatures // Returns S_OK on success // ////////////////////////////////////////////////////////////////////////// HRESULT WINAPI D3D10GetInputSignatureBlob(CONST void *pShaderBytecode, SIZE_T BytecodeLength, ID3D10Blob **ppSignatureBlob); HRESULT WINAPI D3D10GetOutputSignatureBlob(CONST void *pShaderBytecode, SIZE_T BytecodeLength, ID3D10Blob **ppSignatureBlob); HRESULT WINAPI D3D10GetInputAndOutputSignatureBlob(CONST void *pShaderBytecode, SIZE_T BytecodeLength, ID3D10Blob **ppSignatureBlob); //---------------------------------------------------------------------------- // D3D10GetShaderDebugInfo: // ----------------------- // Gets shader debug info. Debug info is generated by D3D10CompileShader and is // embedded in the body of the shader. // // Parameters: // pShaderBytecode // Pointer to the function bytecode // BytecodeLength // Length of the shader bytecode buffer // ppDebugInfo // Buffer used to return debug info. For information about the layout // of this buffer, see definition of D3D10_SHADER_DEBUG_INFO above. //---------------------------------------------------------------------------- HRESULT WINAPI D3D10GetShaderDebugInfo(CONST void *pShaderBytecode, SIZE_T BytecodeLength, ID3D10Blob** ppDebugInfo); #ifdef __cplusplus } #endif //__cplusplus #endif //__D3D10SHADER_H__