//------------------------------------------------------------------------------ // File: VideoCtl.cpp // // Desc: DirectShow base classes. // // Copyright (c) 1992-2001 Microsoft Corporation. All rights reserved. //------------------------------------------------------------------------------ #include #include "ddmm.h" // Load a string from the resource file string table. The buffer must be at // least STR_MAX_LENGTH bytes. The easiest way to use this is to declare a // buffer in the property page class and use it for all string loading. It // cannot be static as multiple property pages may be active simultaneously LPTSTR WINAPI StringFromResource(__out_ecount(STR_MAX_LENGTH) LPTSTR pBuffer, int iResourceID) { if (LoadString(g_hInst,iResourceID,pBuffer,STR_MAX_LENGTH) == 0) { return TEXT(""); } return pBuffer; } #ifdef UNICODE LPSTR WINAPI StringFromResource(__out_ecount(STR_MAX_LENGTH) LPSTR pBuffer, int iResourceID) { if (LoadStringA(g_hInst,iResourceID,pBuffer,STR_MAX_LENGTH) == 0) { return ""; } return pBuffer; } #endif // Property pages typically are called through their OLE interfaces. These // use UNICODE strings regardless of how the binary is built. So when we // load strings from the resource file we sometimes want to convert them // to UNICODE. This method is passed the target UNICODE buffer and does a // convert after loading the string (if built UNICODE this is not needed) // On WinNT we can explicitly call LoadStringW which saves two conversions #ifndef UNICODE LPWSTR WINAPI WideStringFromResource(__out_ecount(STR_MAX_LENGTH) LPWSTR pBuffer, int iResourceID) { *pBuffer = 0; if (g_amPlatform == VER_PLATFORM_WIN32_NT) { LoadStringW(g_hInst,iResourceID,pBuffer,STR_MAX_LENGTH); } else { CHAR szBuffer[STR_MAX_LENGTH]; DWORD dwStringLength = LoadString(g_hInst,iResourceID,szBuffer,STR_MAX_LENGTH); // if we loaded a string convert it to wide characters, ensuring // that we also null terminate the result. if (dwStringLength++) { MultiByteToWideChar(CP_ACP,0,szBuffer,dwStringLength,pBuffer,STR_MAX_LENGTH); } } return pBuffer; } #endif // Helper function to calculate the size of the dialog BOOL WINAPI GetDialogSize(int iResourceID, DLGPROC pDlgProc, LPARAM lParam, __out SIZE *pResult) { RECT rc; HWND hwnd; // Create a temporary property page hwnd = CreateDialogParam(g_hInst, MAKEINTRESOURCE(iResourceID), GetDesktopWindow(), pDlgProc, lParam); if (hwnd == NULL) { return FALSE; } GetWindowRect(hwnd, &rc); pResult->cx = rc.right - rc.left; pResult->cy = rc.bottom - rc.top; DestroyWindow(hwnd); return TRUE; } // Class that aggregates on the IDirectDraw interface. Although DirectDraw // has the ability in its interfaces to be aggregated they're not currently // implemented. This makes it difficult for various parts of Quartz that want // to aggregate these interfaces. In particular the video renderer passes out // media samples that expose IDirectDraw and IDirectDrawSurface. The filter // graph manager also exposes IDirectDraw as a plug in distributor. For these // objects we provide these aggregation classes that republish the interfaces STDMETHODIMP CAggDirectDraw::NonDelegatingQueryInterface(REFIID riid, __deref_out void **ppv) { ASSERT(m_pDirectDraw); // Do we have this interface if (riid == IID_IDirectDraw) { return GetInterface((IDirectDraw *)this,ppv); } else { return CUnknown::NonDelegatingQueryInterface(riid,ppv); } } STDMETHODIMP CAggDirectDraw::Compact() { ASSERT(m_pDirectDraw); return m_pDirectDraw->Compact(); } STDMETHODIMP CAggDirectDraw::CreateClipper(DWORD dwFlags, __deref_out LPDIRECTDRAWCLIPPER *lplpDDClipper, __inout_opt IUnknown *pUnkOuter) { ASSERT(m_pDirectDraw); return m_pDirectDraw->CreateClipper(dwFlags,lplpDDClipper,pUnkOuter); } STDMETHODIMP CAggDirectDraw::CreatePalette(DWORD dwFlags, __in LPPALETTEENTRY lpColorTable, __deref_out LPDIRECTDRAWPALETTE *lplpDDPalette, __inout_opt IUnknown *pUnkOuter) { ASSERT(m_pDirectDraw); return m_pDirectDraw->CreatePalette(dwFlags,lpColorTable,lplpDDPalette,pUnkOuter); } STDMETHODIMP CAggDirectDraw::CreateSurface(__in LPDDSURFACEDESC lpDDSurfaceDesc, __deref_out LPDIRECTDRAWSURFACE *lplpDDSurface, __inout_opt IUnknown *pUnkOuter) { ASSERT(m_pDirectDraw); return m_pDirectDraw->CreateSurface(lpDDSurfaceDesc,lplpDDSurface,pUnkOuter); } STDMETHODIMP CAggDirectDraw::DuplicateSurface(__in LPDIRECTDRAWSURFACE lpDDSurface, __deref_out LPDIRECTDRAWSURFACE *lplpDupDDSurface) { ASSERT(m_pDirectDraw); return m_pDirectDraw->DuplicateSurface(lpDDSurface,lplpDupDDSurface); } STDMETHODIMP CAggDirectDraw::EnumDisplayModes(DWORD dwSurfaceDescCount, __in LPDDSURFACEDESC lplpDDSurfaceDescList, __in LPVOID lpContext, __in LPDDENUMMODESCALLBACK lpEnumCallback) { ASSERT(m_pDirectDraw); return m_pDirectDraw->EnumDisplayModes(dwSurfaceDescCount,lplpDDSurfaceDescList,lpContext,lpEnumCallback); } STDMETHODIMP CAggDirectDraw::EnumSurfaces(DWORD dwFlags, __in LPDDSURFACEDESC lpDDSD, __in LPVOID lpContext, __in LPDDENUMSURFACESCALLBACK lpEnumCallback) { ASSERT(m_pDirectDraw); return m_pDirectDraw->EnumSurfaces(dwFlags,lpDDSD,lpContext,lpEnumCallback); } STDMETHODIMP CAggDirectDraw::FlipToGDISurface() { ASSERT(m_pDirectDraw); return m_pDirectDraw->FlipToGDISurface(); } STDMETHODIMP CAggDirectDraw::GetCaps(__out LPDDCAPS lpDDDriverCaps,__out LPDDCAPS lpDDHELCaps) { ASSERT(m_pDirectDraw); return m_pDirectDraw->GetCaps(lpDDDriverCaps,lpDDHELCaps); } STDMETHODIMP CAggDirectDraw::GetDisplayMode(__out LPDDSURFACEDESC lpDDSurfaceDesc) { ASSERT(m_pDirectDraw); return m_pDirectDraw->GetDisplayMode(lpDDSurfaceDesc); } STDMETHODIMP CAggDirectDraw::GetFourCCCodes(__inout LPDWORD lpNumCodes,__out_ecount(*lpNumCodes) LPDWORD lpCodes) { ASSERT(m_pDirectDraw); return m_pDirectDraw->GetFourCCCodes(lpNumCodes,lpCodes); } STDMETHODIMP CAggDirectDraw::GetGDISurface(__deref_out LPDIRECTDRAWSURFACE *lplpGDIDDSurface) { ASSERT(m_pDirectDraw); return m_pDirectDraw->GetGDISurface(lplpGDIDDSurface); } STDMETHODIMP CAggDirectDraw::GetMonitorFrequency(__out LPDWORD lpdwFrequency) { ASSERT(m_pDirectDraw); return m_pDirectDraw->GetMonitorFrequency(lpdwFrequency); } STDMETHODIMP CAggDirectDraw::GetScanLine(__out LPDWORD lpdwScanLine) { ASSERT(m_pDirectDraw); return m_pDirectDraw->GetScanLine(lpdwScanLine); } STDMETHODIMP CAggDirectDraw::GetVerticalBlankStatus(__out LPBOOL lpblsInVB) { ASSERT(m_pDirectDraw); return m_pDirectDraw->GetVerticalBlankStatus(lpblsInVB); } STDMETHODIMP CAggDirectDraw::Initialize(__in GUID *lpGUID) { ASSERT(m_pDirectDraw); return m_pDirectDraw->Initialize(lpGUID); } STDMETHODIMP CAggDirectDraw::RestoreDisplayMode() { ASSERT(m_pDirectDraw); return m_pDirectDraw->RestoreDisplayMode(); } STDMETHODIMP CAggDirectDraw::SetCooperativeLevel(HWND hWnd,DWORD dwFlags) { ASSERT(m_pDirectDraw); return m_pDirectDraw->SetCooperativeLevel(hWnd,dwFlags); } STDMETHODIMP CAggDirectDraw::SetDisplayMode(DWORD dwWidth,DWORD dwHeight,DWORD dwBpp) { ASSERT(m_pDirectDraw); return m_pDirectDraw->SetDisplayMode(dwWidth,dwHeight,dwBpp); } STDMETHODIMP CAggDirectDraw::WaitForVerticalBlank(DWORD dwFlags,HANDLE hEvent) { ASSERT(m_pDirectDraw); return m_pDirectDraw->WaitForVerticalBlank(dwFlags,hEvent); } // Class that aggregates an IDirectDrawSurface interface. Although DirectDraw // has the ability in its interfaces to be aggregated they're not currently // implemented. This makes it difficult for various parts of Quartz that want // to aggregate these interfaces. In particular the video renderer passes out // media samples that expose IDirectDraw and IDirectDrawSurface. The filter // graph manager also exposes IDirectDraw as a plug in distributor. For these // objects we provide these aggregation classes that republish the interfaces STDMETHODIMP CAggDrawSurface::NonDelegatingQueryInterface(REFIID riid, __deref_out void **ppv) { ASSERT(m_pDirectDrawSurface); // Do we have this interface if (riid == IID_IDirectDrawSurface) { return GetInterface((IDirectDrawSurface *)this,ppv); } else { return CUnknown::NonDelegatingQueryInterface(riid,ppv); } } STDMETHODIMP CAggDrawSurface::AddAttachedSurface(__in LPDIRECTDRAWSURFACE lpDDSAttachedSurface) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->AddAttachedSurface(lpDDSAttachedSurface); } STDMETHODIMP CAggDrawSurface::AddOverlayDirtyRect(__in LPRECT lpRect) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->AddOverlayDirtyRect(lpRect); } STDMETHODIMP CAggDrawSurface::Blt(__in LPRECT lpDestRect, __in LPDIRECTDRAWSURFACE lpDDSrcSurface, __in LPRECT lpSrcRect, DWORD dwFlags, __in LPDDBLTFX lpDDBltFx) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->Blt(lpDestRect,lpDDSrcSurface,lpSrcRect,dwFlags,lpDDBltFx); } STDMETHODIMP CAggDrawSurface::BltBatch(__in_ecount(dwCount) LPDDBLTBATCH lpDDBltBatch,DWORD dwCount,DWORD dwFlags) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->BltBatch(lpDDBltBatch,dwCount,dwFlags); } STDMETHODIMP CAggDrawSurface::BltFast(DWORD dwX,DWORD dwY, __in LPDIRECTDRAWSURFACE lpDDSrcSurface, __in LPRECT lpSrcRect, DWORD dwTrans) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->BltFast(dwX,dwY,lpDDSrcSurface,lpSrcRect,dwTrans); } STDMETHODIMP CAggDrawSurface::DeleteAttachedSurface(DWORD dwFlags, __in LPDIRECTDRAWSURFACE lpDDSAttachedSurface) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->DeleteAttachedSurface(dwFlags,lpDDSAttachedSurface); } STDMETHODIMP CAggDrawSurface::EnumAttachedSurfaces(__in LPVOID lpContext, __in LPDDENUMSURFACESCALLBACK lpEnumSurfacesCallback) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->EnumAttachedSurfaces(lpContext,lpEnumSurfacesCallback); } STDMETHODIMP CAggDrawSurface::EnumOverlayZOrders(DWORD dwFlags, __in LPVOID lpContext, __in LPDDENUMSURFACESCALLBACK lpfnCallback) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->EnumOverlayZOrders(dwFlags,lpContext,lpfnCallback); } STDMETHODIMP CAggDrawSurface::Flip(__in LPDIRECTDRAWSURFACE lpDDSurfaceTargetOverride,DWORD dwFlags) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->Flip(lpDDSurfaceTargetOverride,dwFlags); } STDMETHODIMP CAggDrawSurface::GetAttachedSurface(__in LPDDSCAPS lpDDSCaps, __deref_out LPDIRECTDRAWSURFACE *lplpDDAttachedSurface) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetAttachedSurface(lpDDSCaps,lplpDDAttachedSurface); } STDMETHODIMP CAggDrawSurface::GetBltStatus(DWORD dwFlags) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetBltStatus(dwFlags); } STDMETHODIMP CAggDrawSurface::GetCaps(__out LPDDSCAPS lpDDSCaps) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetCaps(lpDDSCaps); } STDMETHODIMP CAggDrawSurface::GetClipper(__deref_out LPDIRECTDRAWCLIPPER *lplpDDClipper) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetClipper(lplpDDClipper); } STDMETHODIMP CAggDrawSurface::GetColorKey(DWORD dwFlags,__out LPDDCOLORKEY lpDDColorKey) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetColorKey(dwFlags,lpDDColorKey); } STDMETHODIMP CAggDrawSurface::GetDC(__out HDC *lphDC) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetDC(lphDC); } STDMETHODIMP CAggDrawSurface::GetFlipStatus(DWORD dwFlags) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetFlipStatus(dwFlags); } STDMETHODIMP CAggDrawSurface::GetOverlayPosition(__out LPLONG lpdwX,__out LPLONG lpdwY) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetOverlayPosition(lpdwX,lpdwY); } STDMETHODIMP CAggDrawSurface::GetPalette(__deref_out LPDIRECTDRAWPALETTE *lplpDDPalette) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetPalette(lplpDDPalette); } STDMETHODIMP CAggDrawSurface::GetPixelFormat(__out LPDDPIXELFORMAT lpDDPixelFormat) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->GetPixelFormat(lpDDPixelFormat); } // A bit of a warning here: Our media samples in DirectShow aggregate on // IDirectDraw and IDirectDrawSurface (ie are available through IMediaSample // by QueryInterface). Unfortunately the underlying DirectDraw code cannot // be aggregated so we have to use these classes. The snag is that when we // call a different surface and pass in this interface as perhaps the source // surface the call will fail because DirectDraw dereferences the pointer to // get at its private data structures. Therefore we supply this workaround to give // access to the real IDirectDraw surface. A filter can call GetSurfaceDesc // and we will fill in the lpSurface pointer with the real underlying surface STDMETHODIMP CAggDrawSurface::GetSurfaceDesc(__out LPDDSURFACEDESC lpDDSurfaceDesc) { ASSERT(m_pDirectDrawSurface); // First call down to the underlying DirectDraw HRESULT hr = m_pDirectDrawSurface->GetSurfaceDesc(lpDDSurfaceDesc); if (FAILED(hr)) { return hr; } // Store the real DirectDrawSurface interface lpDDSurfaceDesc->lpSurface = m_pDirectDrawSurface; return hr; } STDMETHODIMP CAggDrawSurface::Initialize(__in LPDIRECTDRAW lpDD,__in LPDDSURFACEDESC lpDDSurfaceDesc) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->Initialize(lpDD,lpDDSurfaceDesc); } STDMETHODIMP CAggDrawSurface::IsLost() { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->IsLost(); } STDMETHODIMP CAggDrawSurface::Lock(__in LPRECT lpDestRect, __inout LPDDSURFACEDESC lpDDSurfaceDesc, DWORD dwFlags, HANDLE hEvent) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->Lock(lpDestRect,lpDDSurfaceDesc,dwFlags,hEvent); } STDMETHODIMP CAggDrawSurface::ReleaseDC(HDC hDC) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->ReleaseDC(hDC); } STDMETHODIMP CAggDrawSurface::Restore() { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->Restore(); } STDMETHODIMP CAggDrawSurface::SetClipper(__in LPDIRECTDRAWCLIPPER lpDDClipper) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->SetClipper(lpDDClipper); } STDMETHODIMP CAggDrawSurface::SetColorKey(DWORD dwFlags,__in LPDDCOLORKEY lpDDColorKey) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->SetColorKey(dwFlags,lpDDColorKey); } STDMETHODIMP CAggDrawSurface::SetOverlayPosition(LONG dwX,LONG dwY) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->SetOverlayPosition(dwX,dwY); } STDMETHODIMP CAggDrawSurface::SetPalette(__in LPDIRECTDRAWPALETTE lpDDPalette) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->SetPalette(lpDDPalette); } STDMETHODIMP CAggDrawSurface::Unlock(__in LPVOID lpSurfaceData) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->Unlock(lpSurfaceData); } STDMETHODIMP CAggDrawSurface::UpdateOverlay(__in LPRECT lpSrcRect, __in LPDIRECTDRAWSURFACE lpDDDestSurface, __in LPRECT lpDestRect, DWORD dwFlags, __in LPDDOVERLAYFX lpDDOverlayFX) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->UpdateOverlay(lpSrcRect,lpDDDestSurface,lpDestRect,dwFlags,lpDDOverlayFX); } STDMETHODIMP CAggDrawSurface::UpdateOverlayDisplay(DWORD dwFlags) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->UpdateOverlayDisplay(dwFlags); } STDMETHODIMP CAggDrawSurface::UpdateOverlayZOrder(DWORD dwFlags,__in LPDIRECTDRAWSURFACE lpDDSReference) { ASSERT(m_pDirectDrawSurface); return m_pDirectDrawSurface->UpdateOverlayZOrder(dwFlags,lpDDSReference); } // DirectShow must work on multiple platforms. In particular, it also runs on // Windows NT 3.51 which does not have DirectDraw capabilities. The filters // cannot therefore link statically to the DirectDraw library. To make their // lives that little bit easier we provide this class that manages loading // and unloading the library and creating the initial IDirectDraw interface CLoadDirectDraw::CLoadDirectDraw() : m_pDirectDraw(NULL), m_hDirectDraw(NULL) { } // Destructor forces unload CLoadDirectDraw::~CLoadDirectDraw() { ReleaseDirectDraw(); if (m_hDirectDraw) { NOTE("Unloading library"); FreeLibrary(m_hDirectDraw); } } // We can't be sure that DirectDraw is always available so we can't statically // link to the library. Therefore we load the library, get the function entry // point addresses and call them to create the driver objects. We return S_OK // if we manage to load DirectDraw correctly otherwise we return E_NOINTERFACE // We initialise a DirectDraw instance by explicitely loading the library and // calling GetProcAddress on the DirectDrawCreate entry point that it exports // On a multi monitor system, we can get the DirectDraw object for any // monitor (device) with the optional szDevice parameter HRESULT CLoadDirectDraw::LoadDirectDraw(__in LPSTR szDevice) { PDRAWCREATE pDrawCreate; PDRAWENUM pDrawEnum; LPDIRECTDRAWENUMERATEEXA pDrawEnumEx; HRESULT hr = NOERROR; NOTE("Entering DoLoadDirectDraw"); // Is DirectDraw already loaded if (m_pDirectDraw) { NOTE("Already loaded"); ASSERT(m_hDirectDraw); return NOERROR; } // Make sure the library is available if(!m_hDirectDraw) { UINT ErrorMode = SetErrorMode(SEM_NOOPENFILEERRORBOX); m_hDirectDraw = LoadLibrary(TEXT("DDRAW.DLL")); SetErrorMode(ErrorMode); if (m_hDirectDraw == NULL) { DbgLog((LOG_ERROR,1,TEXT("Can't load DDRAW.DLL"))); NOTE("No library"); return E_NOINTERFACE; } } // Get the DLL address for the creator function pDrawCreate = (PDRAWCREATE)GetProcAddress(m_hDirectDraw,"DirectDrawCreate"); // force ANSI, we assume it pDrawEnum = (PDRAWENUM)GetProcAddress(m_hDirectDraw,"DirectDrawEnumerateA"); pDrawEnumEx = (LPDIRECTDRAWENUMERATEEXA)GetProcAddress(m_hDirectDraw, "DirectDrawEnumerateExA"); // We don't NEED DirectDrawEnumerateEx, that's just for multimon stuff if (pDrawCreate == NULL || pDrawEnum == NULL) { DbgLog((LOG_ERROR,1,TEXT("Can't get functions: Create=%x Enum=%x"), pDrawCreate, pDrawEnum)); NOTE("No entry point"); ReleaseDirectDraw(); return E_NOINTERFACE; } DbgLog((LOG_TRACE,3,TEXT("Creating DDraw for device %s"), szDevice ? szDevice : "")); // Create a DirectDraw display provider for this device, using the fancy // multimon-aware version, if it exists if (pDrawEnumEx) m_pDirectDraw = DirectDrawCreateFromDeviceEx(szDevice, pDrawCreate, pDrawEnumEx); else m_pDirectDraw = DirectDrawCreateFromDevice(szDevice, pDrawCreate, pDrawEnum); if (m_pDirectDraw == NULL) { DbgLog((LOG_ERROR,1,TEXT("Can't create DDraw"))); NOTE("No instance"); ReleaseDirectDraw(); return E_NOINTERFACE; } return NOERROR; } // Called to release any DirectDraw provider we previously loaded. We may be // called at any time especially when something goes horribly wrong and when // we need to clean up before returning so we can't guarantee that all state // variables are consistent so free only those really allocated allocated // This should only be called once all reference counts have been released void CLoadDirectDraw::ReleaseDirectDraw() { NOTE("Releasing DirectDraw driver"); // Release any DirectDraw provider interface if (m_pDirectDraw) { NOTE("Releasing instance"); m_pDirectDraw->Release(); m_pDirectDraw = NULL; } } // Return NOERROR (S_OK) if DirectDraw has been loaded by this object HRESULT CLoadDirectDraw::IsDirectDrawLoaded() { NOTE("Entering IsDirectDrawLoaded"); if (m_pDirectDraw == NULL) { NOTE("DirectDraw not loaded"); return S_FALSE; } return NOERROR; } // Return the IDirectDraw interface we look after LPDIRECTDRAW CLoadDirectDraw::GetDirectDraw() { NOTE("Entering GetDirectDraw"); if (m_pDirectDraw == NULL) { NOTE("No DirectDraw"); return NULL; } NOTE("Returning DirectDraw"); m_pDirectDraw->AddRef(); return m_pDirectDraw; } // Are we running on Direct Draw version 1? We need to find out as // we rely on specific bug fixes in DirectDraw 2 for fullscreen playback. To // find out, we simply see if it supports IDirectDraw2. Only version 2 and // higher support this. BOOL CLoadDirectDraw::IsDirectDrawVersion1() { if (m_pDirectDraw == NULL) return FALSE; IDirectDraw2 *p = NULL; HRESULT hr = m_pDirectDraw->QueryInterface(IID_IDirectDraw2, (void **)&p); if (p) p->Release(); if (hr == NOERROR) { DbgLog((LOG_TRACE,3,TEXT("Direct Draw Version 2 or greater"))); return FALSE; } else { DbgLog((LOG_TRACE,3,TEXT("Direct Draw Version 1"))); return TRUE; } }