Windows2003-3790/inetcore/published/inc/dxsurfb.h

/*******************************************************************************
* DXSurfB.h *
*----------*
*   Description:
*       This is the header file for the CDXBaseSurface implementation. It is
*   used as a base class to implement read-only procedural DXSurfaces.
*-------------------------------------------------------------------------------
*  Created By: RAL                                  Date: 02/12/1998
*  Copyright (C) 1998 Microsoft Corporation
*  All Rights Reserved
*
*-------------------------------------------------------------------------------
*  Revisions:
*
*******************************************************************************/

#ifndef __DXSurfB_H__
#define __DXSurfB_H__

#include "dtbase.h"

class CDXBaseSurface;
class CDXBaseARGBPtr;

class ATL_NO_VTABLE CDXBaseSurface :
    public CDXBaseNTo1, 
    public IDXSurface,
    public IDXSurfaceInit
{
    /*=== ATL Setup ===*/
    public:
        BEGIN_COM_MAP(CDXBaseSurface)
        COM_INTERFACE_ENTRY(IDXSurface)
        COM_INTERFACE_ENTRY(IDXSurfaceInit)
        COM_INTERFACE_ENTRY_CHAIN(CDXBaseNTo1)
        END_COM_MAP()

    DECLARE_GET_CONTROLLING_UNKNOWN()

    /*=== Member Data ===*/
    public:
        ULONG           m_Height;
        ULONG           m_Width;
        DWORD           m_dwStatusFlags;
        HANDLE          m_hSemaphore;
        ULONG           m_ulLocks;
        ULONG           m_ulThreadsWaiting;
        CDXBaseARGBPtr  *m_pFreePtr;
        DWORD_PTR       m_dwAppData;
        CComAutoCriticalSection m_MPWorkProcCrit;   // See comments in LockSurface for details

        CDXBaseSurface();
        HRESULT FinalConstruct();
        void FinalRelease();

        //
        //  IDXBaseObject
        //
        STDMETHODIMP GetGenerationId(ULONG *pGenId);
        STDMETHODIMP IncrementGenerationId(BOOL bRefresh);
        STDMETHODIMP GetObjectSize(ULONG *pulze);

        //
        //  Overridden methods of DXTransform
        //
        STDMETHODIMP MapBoundsIn2Out(const DXBNDS *pInBounds, ULONG ulNumInBnds,
                                     ULONG /*ulOutIndex*/, DXBNDS *pOutBounds );

        //
        //  IDXSurfaceInit
        //
        STDMETHODIMP InitSurface(IUnknown *pDirectDraw,
                                 const DDSURFACEDESC * pDDSurfaceDesc,
                                 const GUID * pFormatId,
                                 const DXBNDS *pBounds,
                                 DWORD dwFlags);
        //
        //  IDXSurface methods
        //
        STDMETHODIMP GetPixelFormat(GUID *pFormat, DXSAMPLEFORMATENUM *pSampleEnum);
        STDMETHODIMP GetBounds(DXBNDS *pBounds);
        STDMETHODIMP GetStatusFlags(DWORD * pdwStatusFlags);
        STDMETHODIMP SetStatusFlags(DWORD dwStatusFlags);
        STDMETHODIMP GetDirectDrawSurface(REFIID riid, void **ppSurface);
        STDMETHODIMP LockSurface(const DXBNDS *pBounds, ULONG ulTimeOut, DWORD dwFlags,
                                 REFIID riid, void **ppPointer, DWORD * pGenerationId);
        STDMETHODIMP SetAppData(DWORD_PTR dwAppData)
        {
            m_dwAppData = dwAppData;
            return S_OK;
        }
        STDMETHODIMP GetAppData(DWORD_PTR *pdwAppData)
        {
            if (DXIsBadWritePtr(pdwAppData, sizeof(*pdwAppData)))
            {
                return E_POINTER;
            }
            *pdwAppData = m_dwAppData;
            return S_OK;
        }


        //
        //  These methods aren't supported by procedural surfaces...
        //
        STDMETHODIMP GetColorKey(DXSAMPLE *pColorKey)
        {
            return E_NOTIMPL;
        }

        STDMETHODIMP SetColorKey(DXSAMPLE pColorKey)
        {
            return E_NOTIMPL;
        }

        STDMETHODIMP LockSurfaceDC(const DXBNDS *pBounds, ULONG ulTimeOut, DWORD dwFlags, IDXDCLock **ppDXLock)
        {
            return E_NOTIMPL;
        }

        //
        //  Surfaces should override this.
        //
        virtual ULONG OnGetObjectSize(void) { return sizeof(*this); }

        //
        //  This work procedure can be overridden by the derived class to improve performance
        //  or execution of the transform by directly producing data in large blocks if desired.
        //
        virtual HRESULT WorkProc(const CDXTWorkInfoNTo1 & WI, BOOL* pbContinueProcessing)
        {
            return DXBitBlt(OutputSurface(), WI.OutputBnds, this, WI.DoBnds, m_dwBltFlags, m_ulLockTimeOut);
        }

        //
        //  Pick interface needs to test procedural surface.
        //
        virtual HRESULT OnSurfacePick(const CDXDBnds & OutPoint, ULONG & ulInputIndex, CDXDVec & InVec);

        //
        //  Helper functions
        //

        //  _EnterCritWith0PtrLocks()
        //
        //  This function is similar to calling Lock() except that it will wait until there
        //  are no pointers to the surface before returning.  This should be used whenever you
        //  are going to change the state of a surface, for example the size or some other
        //  property that the read pointers rely on.
        //
        //  WARNING:  You must be sure that one of the following is true:
        //      1) The objects critical section has NOT been taken prior to calling this function
        //   or 2) There are no pointers to the surface taken prior to calling this function.
        //
        //  Case 2 is useful in nested function calls.  If the outer function has already used this
        //  function to enter the critical section, then it is OK to use it on the inner nested
        //  function.  If the object's lock is taken, but there are outstanding pointers, YOU WILL DEADLOCK!
        //
        inline void _EnterCritWith0PtrLocks(void)
        {
            while (TRUE)
            {
                Lock();
                if (m_ulLocks == 0) break;
                m_ulThreadsWaiting++;
                Unlock();
                WaitForSingleObject(m_hSemaphore, INFINITE);
            }
        }
        //
        //  Virtual functions derived class MUST override
        //
        virtual const GUID & SurfaceCLSID() = 0;
        virtual HRESULT CreateARGBPointer(CDXBaseSurface * pSurface, CDXBaseARGBPtr ** ppPtr) = 0;
        virtual void DeleteARGBPointer(CDXBaseARGBPtr *pPtr) = 0;
    
        //
        //  Class may override this virtual function to return a more accurate enum
        //  for example, no transparency or translucency.
        //
        virtual DXSAMPLEFORMATENUM SampleFormatEnum()
        {
            return (DXSAMPLEFORMATENUM)(DXPF_NONSTANDARD | DXPF_TRANSPARENCY | DXPF_TRANSLUCENCY);
        }

        //
        //  Class may override this virtual function to perform necessary computations
        //  when the size of the surface changes.  The base class will only call this
        //  function from InitSurface.  You may choose to call it from other interfaces
        //  you implement, for example IDXTScaleOutput.
        //
        //  This function will be called with the critical section taken and 0 outstanding
        //  surface pointers (_EnterCritWith0PtrLocks).
        //  
        virtual HRESULT OnSetSize(ULONG Width, ULONG Height)
        {
            if (m_Width != Width || m_Height != Height)
            {
                m_Width = Width;
                m_Height = Height;
                m_dwGenerationId++;
            }
            return S_OK;
        }

        //
        //  Internal functions for base class
        //
        void _InternalUnlock(CDXBaseARGBPtr *pPtrToUnlock);

        //
        //  Static member function for registering surface
        //
        static HRESULT RegisterSurface(REFCLSID rcid, int ResourceId, ULONG cCatImpl, const CATID * pCatImpl,
                                       ULONG cCatReq, const CATID * pCatReq, BOOL bRegister);
};

struct DXPtrFillInfo
{
    DXBASESAMPLE *  pSamples;
    ULONG           cSamples;
    ULONG           x;
    ULONG           y;
    BOOL            bPremult;
};


class CDXBaseARGBPtr : public IDXARGBReadPtr
{
public:
    CDXBaseARGBPtr    * m_pNext;
    CDXBaseSurface    * m_pSurface;
    ULONG               m_ulRefCount;
    DXPtrFillInfo       m_FillInfo;
    RECT                m_LockedRect;
    DXRUNINFO           m_RunInfo;
    
    CDXBaseARGBPtr(CDXBaseSurface *pSurface) :
        m_pSurface(pSurface),
        m_pNext(NULL),
        m_ulRefCount(0) {}

    //
    //  IUnknown
    //
    STDMETHODIMP QueryInterface(REFIID riid, void ** ppv);
    ULONG STDMETHODCALLTYPE AddRef();
    ULONG STDMETHODCALLTYPE Release();
    //
    //  IDXARGBReadPtr
    //
    HRESULT STDMETHODCALLTYPE GetSurface(REFIID riid, void **ppSurface);
    DXSAMPLEFORMATENUM STDMETHODCALLTYPE GetNativeType(DXNATIVETYPEINFO *pInfo);
    void STDMETHODCALLTYPE Move(long cSamples);
    void STDMETHODCALLTYPE MoveToRow(ULONG y);
    void STDMETHODCALLTYPE MoveToXY(ULONG x, ULONG y);
    ULONG STDMETHODCALLTYPE MoveAndGetRunInfo(ULONG Row, const DXRUNINFO ** ppInfo);
    DXSAMPLE *STDMETHODCALLTYPE Unpack(DXSAMPLE *pSamples, ULONG cSamples, BOOL bMove);
    DXPMSAMPLE *STDMETHODCALLTYPE UnpackPremult(DXPMSAMPLE *pSamples, ULONG cSamples, BOOL bMove);
    void STDMETHODCALLTYPE UnpackRect(const DXPACKEDRECTDESC *pDesc);

    //
    //  Virtual function derived class MUST override
    //
    virtual void FillSamples(const DXPtrFillInfo & FillInfo) = 0;

    //
    //  Virtual functions derived class MAY want to override (but you will need to call the base class too)
    //
    virtual HRESULT InitFromLock(const RECT & rect, ULONG ulTimeOut, DWORD dwLockFlags, REFIID riid, void ** ppv);
};

//=== Macro Definitions ============================================

#define DECLARE_REGISTER_DX_SURFACE(id)\
    static HRESULT WINAPI UpdateRegistry(BOOL bRegister) \
        { \
            CATID cat[2]; \
            cat[0] = CATID_DXSurface; \
            cat[1] = CATID_DXImageTransform; \
            return RegisterSurface(GetObjectCLSID(), (id), 2, cat, 0, NULL, bRegister); \
        } 

#define DECLARE_REGISTER_DX_AUTHORING_SURFACE(id)\
    static HRESULT WINAPI UpdateRegistry(BOOL bRegister) \
        { \
            CATID cat[3]; \
            cat[0] = CATID_DXSurface; \
            cat[1] = CATID_DXImageTransform; \
            cat[2] = CATID_DXAuthoringTransform; \
            return RegisterSurface(GetObjectCLSID(), (id), 3, cat, 0, NULL, bRegister); \
        } 

#endif
First commit 2001-01-01 00:00:00 +01:00			`/*******************************************************************************`
			`* DXSurfB.h *`
			`----------`
			`* Description:`
			`* This is the header file for the CDXBaseSurface implementation. It is`
			`* used as a base class to implement read-only procedural DXSurfaces.`
			`*-------------------------------------------------------------------------------`
			`* Created By: RAL Date: 02/12/1998`
			`* Copyright (C) 1998 Microsoft Corporation`
			`* All Rights Reserved`
			`*`
			`*-------------------------------------------------------------------------------`
			`* Revisions:`
			`*`
			`*******************************************************************************/`

			`#ifndef __DXSurfB_H__`
			`#define __DXSurfB_H__`

			`#include "dtbase.h"`

			`class CDXBaseSurface;`
			`class CDXBaseARGBPtr;`

			`class ATL_NO_VTABLE CDXBaseSurface :`
			`public CDXBaseNTo1,`
			`public IDXSurface,`
			`public IDXSurfaceInit`
			`{`
			`/=== ATL Setup ===/`
			`public:`
			`BEGIN_COM_MAP(CDXBaseSurface)`
			`COM_INTERFACE_ENTRY(IDXSurface)`
			`COM_INTERFACE_ENTRY(IDXSurfaceInit)`
			`COM_INTERFACE_ENTRY_CHAIN(CDXBaseNTo1)`
			`END_COM_MAP()`

			`DECLARE_GET_CONTROLLING_UNKNOWN()`

			`/=== Member Data ===/`
			`public:`
			`ULONG m_Height;`
			`ULONG m_Width;`
			`DWORD m_dwStatusFlags;`
			`HANDLE m_hSemaphore;`
			`ULONG m_ulLocks;`
			`ULONG m_ulThreadsWaiting;`
			`CDXBaseARGBPtr *m_pFreePtr;`
			`DWORD_PTR m_dwAppData;`
			`CComAutoCriticalSection m_MPWorkProcCrit; // See comments in LockSurface for details`

			`CDXBaseSurface();`
			`HRESULT FinalConstruct();`
			`void FinalRelease();`

			`//`
			`// IDXBaseObject`
			`//`
			`STDMETHODIMP GetGenerationId(ULONG *pGenId);`
			`STDMETHODIMP IncrementGenerationId(BOOL bRefresh);`
			`STDMETHODIMP GetObjectSize(ULONG *pulze);`

			`//`
			`// Overridden methods of DXTransform`
			`//`
			`STDMETHODIMP MapBoundsIn2Out(const DXBNDS *pInBounds, ULONG ulNumInBnds,`
			`ULONG /ulOutIndex/, DXBNDS *pOutBounds );`

			`//`
			`// IDXSurfaceInit`
			`//`
			`STDMETHODIMP InitSurface(IUnknown *pDirectDraw,`
			`const DDSURFACEDESC * pDDSurfaceDesc,`
			`const GUID * pFormatId,`
			`const DXBNDS *pBounds,`
			`DWORD dwFlags);`
			`//`
			`// IDXSurface methods`
			`//`
			`STDMETHODIMP GetPixelFormat(GUID pFormat, DXSAMPLEFORMATENUM pSampleEnum);`
			`STDMETHODIMP GetBounds(DXBNDS *pBounds);`
			`STDMETHODIMP GetStatusFlags(DWORD * pdwStatusFlags);`
			`STDMETHODIMP SetStatusFlags(DWORD dwStatusFlags);`
			`STDMETHODIMP GetDirectDrawSurface(REFIID riid, void **ppSurface);`
			`STDMETHODIMP LockSurface(const DXBNDS *pBounds, ULONG ulTimeOut, DWORD dwFlags,`
			`REFIID riid, void *ppPointer, DWORD pGenerationId);`
			`STDMETHODIMP SetAppData(DWORD_PTR dwAppData)`
			`{`
			`m_dwAppData = dwAppData;`
			`return S_OK;`
			`}`
			`STDMETHODIMP GetAppData(DWORD_PTR *pdwAppData)`
			`{`
			`if (DXIsBadWritePtr(pdwAppData, sizeof(*pdwAppData)))`
			`{`
			`return E_POINTER;`
			`}`
			`*pdwAppData = m_dwAppData;`
			`return S_OK;`
			`}`


			`//`
			`// These methods aren't supported by procedural surfaces...`
			`//`
			`STDMETHODIMP GetColorKey(DXSAMPLE *pColorKey)`
			`{`
			`return E_NOTIMPL;`
			`}`

			`STDMETHODIMP SetColorKey(DXSAMPLE pColorKey)`
			`{`
			`return E_NOTIMPL;`
			`}`

			`STDMETHODIMP LockSurfaceDC(const DXBNDS pBounds, ULONG ulTimeOut, DWORD dwFlags, IDXDCLock *ppDXLock)`
			`{`
			`return E_NOTIMPL;`
			`}`

			`//`
			`// Surfaces should override this.`
			`//`
			`virtual ULONG OnGetObjectSize(void) { return sizeof(*this); }`

			`//`
			`// This work procedure can be overridden by the derived class to improve performance`
			`// or execution of the transform by directly producing data in large blocks if desired.`
			`//`
			`virtual HRESULT WorkProc(const CDXTWorkInfoNTo1 & WI, BOOL* pbContinueProcessing)`
			`{`
			`return DXBitBlt(OutputSurface(), WI.OutputBnds, this, WI.DoBnds, m_dwBltFlags, m_ulLockTimeOut);`
			`}`

			`//`
			`// Pick interface needs to test procedural surface.`
			`//`
			`virtual HRESULT OnSurfacePick(const CDXDBnds & OutPoint, ULONG & ulInputIndex, CDXDVec & InVec);`

			`//`
			`// Helper functions`
			`//`

			`// _EnterCritWith0PtrLocks()`
			`//`
			`// This function is similar to calling Lock() except that it will wait until there`
			`// are no pointers to the surface before returning. This should be used whenever you`
			`// are going to change the state of a surface, for example the size or some other`
			`// property that the read pointers rely on.`
			`//`
			`// WARNING: You must be sure that one of the following is true:`
			`// 1) The objects critical section has NOT been taken prior to calling this function`
			`// or 2) There are no pointers to the surface taken prior to calling this function.`
			`//`
			`// Case 2 is useful in nested function calls. If the outer function has already used this`
			`// function to enter the critical section, then it is OK to use it on the inner nested`
			`// function. If the object's lock is taken, but there are outstanding pointers, YOU WILL DEADLOCK!`
			`//`
			`inline void _EnterCritWith0PtrLocks(void)`
			`{`
			`while (TRUE)`
			`{`
			`Lock();`
			`if (m_ulLocks == 0) break;`
			`m_ulThreadsWaiting++;`
			`Unlock();`
			`WaitForSingleObject(m_hSemaphore, INFINITE);`
			`}`
			`}`
			`//`
			`// Virtual functions derived class MUST override`
			`//`
			`virtual const GUID & SurfaceCLSID() = 0;`
			`virtual HRESULT CreateARGBPointer(CDXBaseSurface * pSurface, CDXBaseARGBPtr ** ppPtr) = 0;`
			`virtual void DeleteARGBPointer(CDXBaseARGBPtr *pPtr) = 0;`

			`//`
			`// Class may override this virtual function to return a more accurate enum`
			`// for example, no transparency or translucency.`
			`//`
			`virtual DXSAMPLEFORMATENUM SampleFormatEnum()`
			`{`
			`return (DXSAMPLEFORMATENUM)(DXPF_NONSTANDARD \| DXPF_TRANSPARENCY \| DXPF_TRANSLUCENCY);`
			`}`

			`//`
			`// Class may override this virtual function to perform necessary computations`
			`// when the size of the surface changes. The base class will only call this`
			`// function from InitSurface. You may choose to call it from other interfaces`
			`// you implement, for example IDXTScaleOutput.`
			`//`
			`// This function will be called with the critical section taken and 0 outstanding`
			`// surface pointers (_EnterCritWith0PtrLocks).`
			`//`
			`virtual HRESULT OnSetSize(ULONG Width, ULONG Height)`
			`{`
			`if (m_Width != Width \|\| m_Height != Height)`
			`{`
			`m_Width = Width;`
			`m_Height = Height;`
			`m_dwGenerationId++;`
			`}`
			`return S_OK;`
			`}`

			`//`
			`// Internal functions for base class`
			`//`
			`void _InternalUnlock(CDXBaseARGBPtr *pPtrToUnlock);`

			`//`
			`// Static member function for registering surface`
			`//`
			`static HRESULT RegisterSurface(REFCLSID rcid, int ResourceId, ULONG cCatImpl, const CATID * pCatImpl,`
			`ULONG cCatReq, const CATID * pCatReq, BOOL bRegister);`
			`};`

			`struct DXPtrFillInfo`
			`{`
			`DXBASESAMPLE * pSamples;`
			`ULONG cSamples;`
			`ULONG x;`
			`ULONG y;`
			`BOOL bPremult;`
			`};`


			`class CDXBaseARGBPtr : public IDXARGBReadPtr`
			`{`
			`public:`
			`CDXBaseARGBPtr * m_pNext;`
			`CDXBaseSurface * m_pSurface;`
			`ULONG m_ulRefCount;`
			`DXPtrFillInfo m_FillInfo;`
			`RECT m_LockedRect;`
			`DXRUNINFO m_RunInfo;`

			`CDXBaseARGBPtr(CDXBaseSurface *pSurface) :`
			`m_pSurface(pSurface),`
			`m_pNext(NULL),`
			`m_ulRefCount(0) {}`

			`//`
			`// IUnknown`
			`//`
			`STDMETHODIMP QueryInterface(REFIID riid, void ** ppv);`
			`ULONG STDMETHODCALLTYPE AddRef();`
			`ULONG STDMETHODCALLTYPE Release();`
			`//`
			`// IDXARGBReadPtr`
			`//`
			`HRESULT STDMETHODCALLTYPE GetSurface(REFIID riid, void **ppSurface);`
			`DXSAMPLEFORMATENUM STDMETHODCALLTYPE GetNativeType(DXNATIVETYPEINFO *pInfo);`
			`void STDMETHODCALLTYPE Move(long cSamples);`
			`void STDMETHODCALLTYPE MoveToRow(ULONG y);`
			`void STDMETHODCALLTYPE MoveToXY(ULONG x, ULONG y);`
			`ULONG STDMETHODCALLTYPE MoveAndGetRunInfo(ULONG Row, const DXRUNINFO ** ppInfo);`
			`DXSAMPLE STDMETHODCALLTYPE Unpack(DXSAMPLE pSamples, ULONG cSamples, BOOL bMove);`
			`DXPMSAMPLE STDMETHODCALLTYPE UnpackPremult(DXPMSAMPLE pSamples, ULONG cSamples, BOOL bMove);`
			`void STDMETHODCALLTYPE UnpackRect(const DXPACKEDRECTDESC *pDesc);`

			`//`
			`// Virtual function derived class MUST override`
			`//`
			`virtual void FillSamples(const DXPtrFillInfo & FillInfo) = 0;`

			`//`
			`// Virtual functions derived class MAY want to override (but you will need to call the base class too)`
			`//`
			`virtual HRESULT InitFromLock(const RECT & rect, ULONG ulTimeOut, DWORD dwLockFlags, REFIID riid, void ** ppv);`
			`};`

			`//=== Macro Definitions ============================================`

			`#define DECLARE_REGISTER_DX_SURFACE(id)\`
			`static HRESULT WINAPI UpdateRegistry(BOOL bRegister) \`
			`{ \`
			`CATID cat[2]; \`
			`cat[0] = CATID_DXSurface; \`
			`cat[1] = CATID_DXImageTransform; \`
			`return RegisterSurface(GetObjectCLSID(), (id), 2, cat, 0, NULL, bRegister); \`
			`}`

			`#define DECLARE_REGISTER_DX_AUTHORING_SURFACE(id)\`
			`static HRESULT WINAPI UpdateRegistry(BOOL bRegister) \`
			`{ \`
			`CATID cat[3]; \`
			`cat[0] = CATID_DXSurface; \`
			`cat[1] = CATID_DXImageTransform; \`
			`cat[2] = CATID_DXAuthoringTransform; \`
			`return RegisterSurface(GetObjectCLSID(), (id), 3, cat, 0, NULL, bRegister); \`
			`}`

			`#endif`