/******************************************************************************* * DTBase.h * *----------* * Description: * This is the header file for the CDXBaseNTo1 implementation. It is * used as a base class to implement discrete transform objects that support * DXSurfaces. *------------------------------------------------------------------------------- * Created By: Ed Connell Date: 07/27/97 * Copyright (C) 1997 Microsoft Corporation * All Rights Reserved * *------------------------------------------------------------------------------- * Revisions: * *******************************************************************************/ #ifndef DTBase_h #pragma option push -b -a8 -pc -A- /*P_O_Push*/ #define DTBase_h //--- Additional includes #ifndef DXHelper_h #include #endif #ifndef DXTmpl_h #include #endif #ifndef dxatlpb_h #include #endif #ifndef _ASSERT #include #endif #ifndef DXTDbg_h #include #endif //=== Constants ==================================================== #define DXBOF_INPUTS_MESHBUILDER 0x00000001 #define DXBOF_OUTPUT_MESHBUILDER 0x00000002 #define DXBOF_SAME_SIZE_INPUTS 0x00000004 #define DXBOF_CENTER_INPUTS 0x00000008 #define DXB_MAX_IMAGE_BANDS 4 // Maximum of 4 image bands //=== Class, Enum, Struct and Union Declarations =================== class CDXBaseNTo1; //=== Enumerated Set Definitions =================================== //=== Function Type Definitions ==================================== //=== Class, Struct and Union Definitions ========================== /*** CDXDataPtr * */ class CDXDataPtr { friend CDXBaseNTo1; public: IUnknown *m_pUnkOriginalObject; IUnknown *m_pNativeInterface; IDXBaseObject *m_pBaseObj; DWORD m_dwLastDirtyGenId; DXSAMPLEFORMATENUM m_SampleFormat; CDXDataPtr() : m_pUnkOriginalObject(NULL), m_pNativeInterface(NULL), m_pBaseObj(NULL), m_dwLastUpdGenId(0), m_dwLastDirtyGenId(0), m_SampleFormat(DXPF_NONSTANDARD) {}; ~CDXDataPtr() { Release(); } void Release() { if (m_pNativeInterface) { m_pNativeInterface->Release(); m_pNativeInterface = NULL; } if (m_pBaseObj) { m_pBaseObj->Release(); m_pBaseObj = NULL; } if (m_pUnkOriginalObject) { m_pUnkOriginalObject->Release(); m_pUnkOriginalObject = NULL; } } HRESULT Assign(BOOL bMeshBuilder, IUnknown * pObject, IDXSurfaceFactory *pSurfFact); bool IsDirty(void); DWORD GenerationId(void); ULONG ObjectSize(void); private: // This should only be called by base class DWORD m_dwLastUpdGenId; bool UpdateGenerationId(void); }; /*--- CDXTWorkInfoNTo1 * This structure is used to hold the arguments needed by the * image processing function defined by the derived class */ class CDXTWorkInfoNTo1 { public: CDXTWorkInfoNTo1() { pvThis = NULL; pUserInstData = NULL; hr = S_OK; } void * pvThis; // The owning class object (must be cast to the right type) CDXDBnds DoBnds; // The portion of the output space to render CDXDBnds OutputBnds; // The portion of the output SURFACE to render void* pUserInstData; // User field for instance data HRESULT hr; // Error return code from work procedure }; /*** CDXBaseNTo1 * This is a base class used for implementing 1 in 1 out discrete transforms. */ class ATL_NO_VTABLE CDXBaseNTo1 : public CComObjectRootEx, #if(_ATL_VER < 0x0300) public IObjectSafetyImpl, #else public IObjectSafetyImpl, #endif public IDXTransform, public IDXSurfacePick, public IObjectWithSite { /*=== ATL Setup ===*/ public: BEGIN_COM_MAP(CDXBaseNTo1) COM_INTERFACE_ENTRY(IDXTransform) COM_INTERFACE_ENTRY(IDXBaseObject) COM_INTERFACE_ENTRY(IObjectWithSite) #if(_ATL_VER < 0x0300) COM_INTERFACE_ENTRY_IMPL(IObjectSafety) #else COM_INTERFACE_ENTRY(IObjectSafety) #endif COM_INTERFACE_ENTRY_FUNC(IID_IDXSurfacePick, 0, QI2DPick) END_COM_MAP() // // Only return the 2D pick inteface for surface to surface transforms // static HRESULT WINAPI QI2DPick(void* pv, REFIID riid, LPVOID* ppv, ULONG_PTR dw) { CDXBaseNTo1 * pThis = (CDXBaseNTo1 *)pv; if (pThis->m_dwOptionFlags & (DXBOF_INPUTS_MESHBUILDER | DXBOF_OUTPUT_MESHBUILDER)) { return S_FALSE; // Continue processing COM map } *ppv = (IDXSurfacePick *)pThis; ((IDXSurfacePick *)pThis)->AddRef(); return S_OK; } CComPtr m_cpOleClientSite; /*=== Member Data ===*/ protected: CComPtr m_cpUnkSite; CComPtr m_cpTransFact; CComPtr m_cpSurfFact; CComPtr m_cpTaskMgr; CComPtr m_cpDirectDraw; CComPtr m_cpDirect3DRM; DWORD m_dwMiscFlags; HANDLE m_aEvent[DXB_MAX_IMAGE_BANDS]; ULONG m_ulNumProcessors; DWORD m_dwGenerationId; DWORD m_dwCleanGenId; BOOL m_bPickDoneByBase; float m_Duration; float m_StepResolution; float m_fQuality; // Set DXTMF_QUALITY_SUPPORTED in m_dwMiscFlags if you use this property. ULONG m_ulNumInputs; DWORD m_dwBltFlags; // Ser prior to OnSetup and any Execute for classes with surface outputs BOOL m_bInMultiThreadWorkProc; // Base class sets to TRUE when scheduling tasks on multiple threads // // Derived classes should set these values in their constructor or in FinalConstruct() // DWORD m_dwOptionFlags; ULONG m_ulLockTimeOut; // The amount of time used for blocking ULONG m_ulMaxInputs; ULONG m_ulNumInRequired; ULONG m_ulMaxImageBands; // Only used for surface->Surface transforms float m_Progress; private: CDXDataPtr* m_aInputs; CDXDataPtr m_Output; /*=== Methods =======*/ public: //--- Constructors CDXBaseNTo1(); ~CDXBaseNTo1(); //--- Support virtuals for derived classes virtual HRESULT OnInitInstData( CDXTWorkInfoNTo1& /*WorkInfo*/, ULONG& /*ulNumBandsToDo*/) { return S_OK; } virtual HRESULT OnFreeInstData( CDXTWorkInfoNTo1& /*WorkInfo*/ ) { return S_OK; } virtual HRESULT OnSetup( DWORD /* dwFlags */) { return S_OK; } // Override to be notified of a new non-null setup virtual void OnReleaseObjects() {} // Override to be notified of NULL setup virtual HRESULT OnExecute(const GUID* /* pRequestID */, const DXBNDS * /*pClipBnds */, const DXVEC * /*pPlacement */ ) { return E_FAIL; } virtual void OnUpdateGenerationId(void); virtual ULONG OnGetObjectSize(void); virtual HRESULT WorkProc(const CDXTWorkInfoNTo1 & WorkInfo, BOOL* pbContinueProcessing) { return E_FAIL; } // Override to do work virtual HRESULT DetermineBnds(CDXCBnds & Bnds) { return S_OK; } // Override for mesh output transforms virtual HRESULT DetermineBnds(CDXDBnds & Bnds) { return S_OK; } // Override for surface output transforms // // Only override this function if you need to do a customized point pick implementation. Otherwise simply // override GetPointPickOrder() and return appropriate information. // virtual HRESULT OnSurfacePick(const CDXDBnds & OutPoint, ULONG & ulInputIndex, CDXDVec & InVec) { return E_NOTIMPL; } virtual void OnGetSurfacePickOrder(const CDXDBnds & OutPoint, ULONG & ulInToTest, ULONG aInIndex[], BYTE aWeight[]) { m_bPickDoneByBase = true; ulInToTest = 1; aInIndex[0] = 0; aWeight[0] = 255; } //--- Private helpers private: static DXTASKPROC _TaskProc; void _ReleaseReferences(); void _ReleaseServices(); void _UpdateBltFlags(void); HRESULT _MakeInputsSameSize(void); HRESULT _ImageMapIn2Out(CDXDBnds & bnds, ULONG ulNumBnds, const CDXDBnds * pInBounds); HRESULT _MeshMapIn2Out(CDXCBnds & bnds, ULONG ulNumInBnds, CDXCBnds * pInBounds); // //--- Public helpers // public: float GetEffectProgress(void) { return m_Progress; } ULONG GetNumInputs(void) { return m_ulNumInputs; } // // Use these inline functions to access input and output objects // BOOL HaveInput(ULONG i = 0) { return (m_ulNumInputs > i && m_aInputs[i].m_pNativeInterface); } IDirect3DRMMeshBuilder3 * OutputMeshBuilder() { _ASSERT(m_dwOptionFlags & DXBOF_OUTPUT_MESHBUILDER); return (IDirect3DRMMeshBuilder3 *)m_Output.m_pNativeInterface; } IDXSurface * OutputSurface() { _ASSERT((m_dwOptionFlags & DXBOF_OUTPUT_MESHBUILDER) == 0); return (IDXSurface *)m_Output.m_pNativeInterface; } IDirect3DRMMeshBuilder3 * InputMeshBuilder(ULONG i = 0) { _ASSERT(i < m_ulNumInputs); _ASSERT(m_dwOptionFlags & DXBOF_INPUTS_MESHBUILDER); return (IDirect3DRMMeshBuilder3 *)m_aInputs[i].m_pNativeInterface; } IDXSurface * InputSurface(ULONG i = 0) { _ASSERT(i < m_ulNumInputs); _ASSERT((m_dwOptionFlags & DXBOF_INPUTS_MESHBUILDER) == 0); return (IDXSurface *)m_aInputs[i].m_pNativeInterface; } DXSAMPLEFORMATENUM OutputSampleFormat(void) { _ASSERT((m_dwOptionFlags & DXBOF_OUTPUT_MESHBUILDER) == 0); return m_Output.m_SampleFormat; } DXSAMPLEFORMATENUM InputSampleFormat(ULONG i = 0) { _ASSERT(i < m_ulNumInputs); _ASSERT((m_dwOptionFlags & DXBOF_INPUTS_MESHBUILDER) == 0); return m_aInputs[i].m_SampleFormat; } BOOL HaveOutput(void) { return m_Output.m_pNativeInterface != NULL; } bool IsInputDirty(ULONG i = 0) { _ASSERT(i < m_ulNumInputs); return m_aInputs[i].IsDirty(); } bool IsOutputDirty() { _ASSERT(HaveOutput()); return m_Output.IsDirty(); } //--- Public helpers. Should be called with critical seciton claimed. inline BOOL DoOver(void) const { return m_dwBltFlags & DXBOF_DO_OVER; } inline BOOL DoDither(void) const { return m_dwBltFlags & DXBOF_DITHER; } BOOL NeedSrcPMBuff(ULONG i = 0) { return ((m_dwBltFlags & DXBOF_DITHER) || InputSampleFormat(i) != DXPF_PMARGB32); } BOOL NeedDestPMBuff(void) { return OutputSampleFormat() != DXPF_PMARGB32; } void SetDirty() { m_dwGenerationId++; } void ClearDirty() { OnUpdateGenerationId(); m_dwCleanGenId = m_dwGenerationId; } BOOL IsTransformDirty() { OnUpdateGenerationId(); return m_dwCleanGenId != m_dwGenerationId; } public: //=== IObjectWithSite ======================================= STDMETHOD( SetSite )( IUnknown *pUnkSite ); STDMETHOD( GetSite )( REFIID riid, void ** ppvSite ); //=== IDXBaseObject ========================================= STDMETHOD( GetGenerationId ) (ULONG * pGenId); STDMETHOD( IncrementGenerationId) (BOOL bRefresh); STDMETHOD( GetObjectSize ) (ULONG * pcbSize); //=== IDXTransform =============================================== STDMETHOD( Setup )( IUnknown * const * punkInputs, ULONG ulNumIn, IUnknown * const * punkOutputs, ULONG ulNumOut, DWORD dwFlags ); STDMETHOD( Execute )( const GUID* pRequestID, const DXBNDS *pOutBounds, const DXVEC *pPlacement ); STDMETHOD( MapBoundsIn2Out )( const DXBNDS *pInBounds, ULONG ulNumInBnds, ULONG ulOutIndex, DXBNDS *pOutBounds ); STDMETHOD( MapBoundsOut2In )( ULONG ulOutIndex, const DXBNDS *pOutBounds, ULONG ulInIndex, DXBNDS *pInBounds ); STDMETHOD( SetMiscFlags ) ( DWORD dwOptionFlags ); STDMETHOD( GetMiscFlags ) ( DWORD * pdwMiscFlags ); STDMETHOD( GetInOutInfo )( BOOL bOutput, ULONG ulIndex, DWORD *pdwFlags, GUID * pIDs, ULONG * pcIDs, IUnknown **ppUnkCurObj); STDMETHOD( SetQuality )( float fQuality ); STDMETHOD( GetQuality )( float *pfQuality ); STDMETHOD (PointPick) (const DXVEC *pPoint, ULONG * pulInputSurfaceIndex, DXVEC *pInputPoint); // // Effect interface // // NOTE: Derived classes MUST implement get_Capabilities. Use macros below. // STDMETHODIMP get_Capabilities(long *pVal) { _ASSERT(true); return E_NOTIMPL; } // // All other methods are implemented in the base. // STDMETHODIMP get_Progress(float *pVal); STDMETHODIMP put_Progress(float newVal); STDMETHODIMP get_StepResolution(float *pVal); STDMETHODIMP get_Duration(float *pVal); STDMETHODIMP put_Duration(float newVal); // // Helper functions derived classes can use // // // Static function for registering in one or more component categories // static HRESULT RegisterTransform(REFCLSID rcid, int ResourceId, ULONG cCatImpl, const CATID * pCatImpl, ULONG cCatReq, const CATID * pCatReq, BOOL bRegister); }; //=== Inline Function Definitions ================================== //=== Macro Definitions ============================================ #define DECLARE_REGISTER_DX_TRANSFORM(id, catid)\ static HRESULT WINAPI UpdateRegistry(BOOL bRegister) \ { \ return CDXBaseNTo1::RegisterTransform(GetObjectCLSID(), (id), 1, &(catid), 0, NULL, bRegister); \ } #define DECLARE_REGISTER_DX_TRANS_CATS(id, countimpl, pcatidsimpl, countreq, pcatidsreq)\ static HRESULT WINAPI UpdateRegistry(BOOL bRegister) \ { \ return CDXBaseNTo1::RegisterTransform(GetObjectCLSID(), (id), (count), (pcatids), (countreq), (pcatidsreq), bRegister); \ } #define DECLARE_REGISTER_DX_IMAGE_TRANS(id) \ DECLARE_REGISTER_DX_TRANSFORM(id, CATID_DXImageTransform) #define DECLARE_REGISTER_DX_3D_TRANS(id) \ DECLARE_REGISTER_DX_TRANSFORM(id, CATID_DX3DTransform) #define DECLARE_REGISTER_DX_IMAGE_AUTHOR_TRANS(id) \ static HRESULT WINAPI UpdateRegistry(BOOL bRegister) \ { \ GUID a_Cats[2]; \ a_Cats[0] = CATID_DXImageTransform; \ a_Cats[1] = CATID_DXAuthoringTransform; \ return CDXBaseNTo1::RegisterTransform(GetObjectCLSID(), (id), 2, a_Cats, 0, NULL, bRegister); \ } #define DECLARE_REGISTER_DX_3D_AUTHOR_TRANS(id) \ static HRESULT WINAPI UpdateRegistry(BOOL bRegister) \ { \ GUID a_Cats[2]; \ a_Cats[0] = CATID_DX3DTransform; \ a_Cats[1] = CATID_DXAuthoringTransform; \ return CDXBaseNTo1::RegisterTransform(GetObjectCLSID(), (id), 2, a_Cats, 0, NULL, bRegister); \ } // // Effect interface // #define DECLARE_GET_CAPABILITIES(Caps)\ STDMETHODIMP get_Capabilities(long *pVal) { if (DXIsBadWritePtr(pVal, sizeof(*pVal))) return E_POINTER; *pVal = Caps; return S_OK; } #define DECLARE_GET_PROGRESS()\ STDMETHODIMP get_Progress(float *pVal) { return CDXBaseNTo1::get_Progress(pVal); } #define DECLARE_PUT_PROGRESS()\ STDMETHODIMP put_Progress(float newVal) { return CDXBaseNTo1::put_Progress(newVal); } #define DECLARE_GET_STEPRESOLUTION()\ STDMETHODIMP get_StepResolution(float *pVal) { return CDXBaseNTo1::get_StepResolution(pVal); } #define DECLARE_GET_DURATION()\ STDMETHODIMP get_Duration(float *pVal) { return CDXBaseNTo1::get_Duration(pVal); } #define DECLARE_PUT_DURATION()\ STDMETHODIMP put_Duration(float newVal) { return CDXBaseNTo1::put_Duration(newVal); } #define DECLARE_IDXEFFECT_METHODS(Caps)\ DECLARE_GET_CAPABILITIES(Caps)\ DECLARE_GET_PROGRESS()\ DECLARE_PUT_PROGRESS()\ DECLARE_GET_STEPRESOLUTION()\ DECLARE_GET_DURATION()\ DECLARE_PUT_DURATION() //=== Global Data Declarations ===================================== //=== Function Prototypes ========================================== #pragma option pop /*P_O_Pop*/ #endif /* This must be the last line in the file */