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#ifndef _hlslShader_h_ #define _hlslShader_h_ //- // ========================================================================== // Copyright 1995,2006,2008 Autodesk, Inc. All rights reserved. // // Use of this software is subject to the terms of the Autodesk // license agreement provided at the time of installation or download, // or which otherwise accompanies this software in either electronic // or hard copy form. // ========================================================================== //+ #include <maya/MPxHardwareShader.h> #include <maya/MTypeId.h> #include <maya/MStringArray.h> #include <maya/MVaryingParameter.h> #include <maya/MUniformParameter.h> #include <maya/MUniformParameterList.h> #include <maya/MRenderProfile.h> #include <maya/MHwrCallback.h> #include <d3d9.h> #include <d3dx9.h> /* // // A varying parameter // class hlslVaryingParameter { public: MVaryingParameter fMayaParameter; }; // // A pass // class hlslPass { public: inline hlslPass( 0) : fNumParameters( 0), fParameters( NULL) {} inline ~hlslPass() { if( fParameters) delete fParameters; } inline int numParameters() const { return fNumParameters; } inline void numParameters( int numParms) { if( fParameters) delete fParameters; fNumParameters = numParms; fParameters = numParms ? new hlslVaryingParameter[ numParms] : NULL; } inline hlslVaryingParameter& parameter( int p) const { return fParameters[ p]; } protected: hlslVaryingParameter* fParameters; int fNumParameters; }; */ class hlslShader; // Callback structure to handle device changes // class hlslDeviceManager : public MHwrCallback { public: typedef enum { kInvalid, kReset, kValid } hlslDeviceState; inline hlslDeviceManager( hlslShader& shader) : fShader( shader), fState( kValid) { addCallback( this); } ~hlslDeviceManager() { removeCallback( this); } virtual void deviceNew(); virtual void deviceLost(); virtual void deviceReset(); virtual void deviceDeleted(); inline hlslDeviceState deviceState() { return fState; } void resetShader(); private: // Hide this bad boy to let the compiler know it shouldn't be able to generate an assignment operator void operator=( const hlslDeviceManager&) {}; protected: hlslDeviceState fState; hlslShader& fShader; }; // Our shader node itself! // class hlslShader : public MPxHardwareShader { public: friend class hlslDeviceManager; // PxNode housekeeping: create, copy setup hlslShader(); virtual void postConstructor(); virtual ~hlslShader(); static void* creator(); static MStatus initialize(); static void initializeNodeAttrs(); // Internal attribute housekeeping virtual void copyInternalData( MPxNode* pSrc ); virtual bool getInternalValueInContext( const MPlug&, MDataHandle&, MDGContext&); virtual bool setInternalValueInContext( const MPlug&, const MDataHandle&, MDGContext&); // Override geometry rendering virtual MStatus render( MGeometryList& iterator); // Indicate pass transparency options virtual unsigned int transparencyOptions(); // Query the renderers supported by this shader // virtual const MRenderProfile& profile(); // Override this method to draw a image for swatch rendering. virtual MStatus renderSwatchImage( MImage & image ); public: // Release all our device handles void release(); // The typeid is a unique 32bit indentifier that describes this node. // It is used to save and retrieve nodes of this type from the binary // file format. If it is not unique, it will cause file IO problems. // static MTypeId sId; // Our rendering profile // static MRenderProfile sProfile; // There needs to be a MObject handle declared for each attribute that // the node will have. These handles are needed for getting and setting // the values later. // // Input shader attribute // static MObject sShader; static MObject sTechnique; static MObject sTechniques; static MObject sDescription; static MObject sDiagnostics; protected: // Change the shader or technique we're using MStatus setShader( const MString& shader); MStatus setTechnique( const MString& technique); bool passHasTranparency( D3DXHANDLE passHandle ); // Resource management hlslDeviceManager fDeviceManager; void releaseVertexDeclaration(); // Values of internal attributes MString fShader; MString fTechnique; MStringArray fTechniques; // The current daignostics/description strings MString fDescription; MString fDiagnostics; // D3D resources LPD3DXEFFECT fD3DEffect; D3DXHANDLE fD3DTechnique; D3DXEFFECT_DESC fD3DEffectDesc; D3DXTECHNIQUE_DESC fD3DTechniqueDesc; // The current set of parameters MVaryingParameter fVertexStructure; IDirect3DVertexDeclaration9** fD3DVertexDeclaration; MUniformParameterList fUniformParameters; bool fTechniqueHasBlending; // Utilities for converting D3D -> Maya void setupUniform( D3DXHANDLE d3dParameter, const MString& prefix); bool GetAnnotation( D3DXHANDLE parameter, const char* name, LPCSTR& value); bool GetAnnotation( D3DXHANDLE parameter, const char* name, BOOL& value); MUniformParameter::DataSemantic ConvertSemantic( D3DXHANDLE parameter, D3DXPARAMETER_DESC& description); MUniformParameter::DataType ConvertType( D3DXHANDLE parameter, D3DXPARAMETER_DESC& description); MUniformParameter::DataSemantic ConvertSpace( D3DXHANDLE parameter, D3DXPARAMETER_DESC& description, MUniformParameter::DataSemantic defaultSpace); // Ummm ... don't ask inline hlslShader& me() { return *this; } // Housekeeping int fErrorCount; void reportInternalError( const char* function, size_t errcode ); }; #endif /* _hlslShader_h_ */