/* * OLE2 library * * Copyright 1995 Martin von Loewis * Copyright 1999 Francis Beaudet * Copyright 1999 Noel Borthwick */ #include #include #include #include #include #include #include #include "ole32_main.h" #include #if 0 /****************************************************************************** * These are static/global variables and internal data structures that the * OLE module uses to maintain it's state. */ typedef struct tagDropTargetNode { HWND hwndTarget; IDropTarget* dropTarget; struct tagDropTargetNode* prevDropTarget; struct tagDropTargetNode* nextDropTarget; } DropTargetNode; typedef struct tagTrackerWindowInfo { IDataObject* dataObject; IDropSource* dropSource; DWORD dwOKEffect; DWORD* pdwEffect; BOOL trackingDone; HRESULT returnValue; BOOL escPressed; HWND curDragTargetHWND; IDropTarget* curDragTarget; } TrackerWindowInfo; typedef struct tagOleMenuDescriptor /* OleMenuDescriptor */ { HWND hwndFrame; /* The containers frame window */ HWND hwndActiveObject; /* The active objects window */ OLEMENUGROUPWIDTHS mgw; /* OLE menu group widths for the shared menu */ HMENU hmenuCombined; /* The combined menu */ BOOL bIsServerItem; /* True if the currently open popup belongs to the server */ } OleMenuDescriptor; typedef struct tagOleMenuHookItem /* OleMenu hook item in per thread hook list */ { DWORD tid; /* Thread Id */ HANDLE hHeap; /* Heap this is allocated from */ HHOOK GetMsg_hHook; /* message hook for WH_GETMESSAGE */ HHOOK CallWndProc_hHook; /* message hook for WH_CALLWNDPROC */ struct tagOleMenuHookItem *next; } OleMenuHookItem; static OleMenuHookItem *hook_list; /* * This is the lock count on the OLE library. It is controlled by the * OLEInitialize/OLEUninitialize methods. */ static ULONG OLE_moduleLockCount = 0; /* * Name of our registered window class. */ static const char OLEDD_DRAGTRACKERCLASS[] = "WineDragDropTracker32"; /* * This is the head of the Drop target container. */ static DropTargetNode* targetListHead = NULL; /****************************************************************************** * These are the prototypes of miscelaneous utility methods */ static void OLEUTL_ReadRegistryDWORDValue(HKEY regKey, DWORD* pdwValue); /****************************************************************************** * These are the prototypes of the utility methods used to manage a shared menu */ static void OLEMenu_Initialize(); static void OLEMenu_UnInitialize(); BOOL OLEMenu_InstallHooks( DWORD tid ); BOOL OLEMenu_UnInstallHooks( DWORD tid ); OleMenuHookItem * OLEMenu_IsHookInstalled( DWORD tid ); static BOOL OLEMenu_FindMainMenuIndex( HMENU hMainMenu, HMENU hPopupMenu, UINT *pnPos ); BOOL OLEMenu_SetIsServerMenu( HMENU hmenu, OleMenuDescriptor *pOleMenuDescriptor ); LRESULT CALLBACK OLEMenu_CallWndProc(INT code, WPARAM wParam, LPARAM lParam); LRESULT CALLBACK OLEMenu_GetMsgProc(INT code, WPARAM wParam, LPARAM lParam); /****************************************************************************** * These are the prototypes of the OLE Clipboard initialization methods (in clipboard.c) */ void OLEClipbrd_UnInitialize(); void OLEClipbrd_Initialize(); /****************************************************************************** * These are the prototypes of the utility methods used for OLE Drag n Drop */ static void OLEDD_Initialize(); static void OLEDD_UnInitialize(); static void OLEDD_InsertDropTarget( DropTargetNode* nodeToAdd); static DropTargetNode* OLEDD_ExtractDropTarget( HWND hwndOfTarget); static DropTargetNode* OLEDD_FindDropTarget( HWND hwndOfTarget); static LRESULT WINAPI OLEDD_DragTrackerWindowProc( HWND hwnd, UINT uMsg, WPARAM wParam, LPARAM lParam); static void OLEDD_TrackMouseMove( TrackerWindowInfo* trackerInfo, POINT mousePos, DWORD keyState); static void OLEDD_TrackStateChange( TrackerWindowInfo* trackerInfo, POINT mousePos, DWORD keyState); static DWORD OLEDD_GetButtonState(); /****************************************************************************** * OleBuildVersion [OLE2.1] */ DWORD WINAPI OleBuildVersion(void) { Print(MAX_TRACE, ("Returning version %d, build %d.\n", 1, 0)); return (1<<16)+0; } /*********************************************************************** * OleInitialize (OLE2.2) (OLE32.108) */ HRESULT WINAPI OleInitialize(LPVOID reserved) { HRESULT hr; Print(MAX_TRACE, ("(%p)\n", reserved)); /* * The first duty of the OleInitialize is to initialize the COM libraries. */ hr = CoInitializeEx(NULL, COINIT_APARTMENTTHREADED); /* * If the CoInitializeEx call failed, the OLE libraries can't be * initialized. */ if (FAILED(hr)) return hr; /* * Then, it has to initialize the OLE specific modules. * This includes: * Clipboard * Drag and Drop * Object linking and Embedding * In-place activation */ if (OLE_moduleLockCount==0) { /* * Initialize the libraries. */ Print(MAX_TRACE, ("() - Initializing the OLE libraries\n")); /* * OLE Clipboard */ OLEClipbrd_Initialize(); /* * Drag and Drop */ OLEDD_Initialize(); /* * OLE shared menu */ OLEMenu_Initialize(); } /* * Then, we increase the lock count on the OLE module. */ OLE_moduleLockCount++; return hr; } /****************************************************************************** * CoGetCurrentProcess [COMPOBJ.34] [OLE2.2][OLE32.108] * * NOTES * Is DWORD really the correct return type for this function? */ DWORD WINAPI CoGetCurrentProcess(void) { return GetCurrentProcessId(); } /****************************************************************************** * OleUninitialize [OLE2.3] [OLE32.131] */ void WINAPI OleUninitialize(void) { Print(MAX_TRACE, ("()\n")); /* * Decrease the lock count on the OLE module. */ OLE_moduleLockCount--; /* * If we hit the bottom of the lock stack, free the libraries. */ if (OLE_moduleLockCount==0) { /* * Actually free the libraries. */ Print(MAX_TRACE, ("() - Freeing the last reference count\n")); /* * OLE Clipboard */ OLEClipbrd_UnInitialize(); /* * Drag and Drop */ OLEDD_UnInitialize(); /* * OLE shared menu */ OLEMenu_UnInitialize(); } /* * Then, uninitialize the COM libraries. */ CoUninitialize(); } /****************************************************************************** * CoRegisterMessageFilter [OLE32.38] */ HRESULT WINAPI CoRegisterMessageFilter( LPMESSAGEFILTER lpMessageFilter, /* [in] Pointer to interface */ LPMESSAGEFILTER *lplpMessageFilter /* [out] Indirect pointer to prior instance if non-NULL */ ) { Print(MIN_TRACE, ("stub\n")); if (lplpMessageFilter) { *lplpMessageFilter = NULL; } return S_OK; } /****************************************************************************** * OleInitializeWOW [OLE32.109] */ HRESULT WINAPI OleInitializeWOW(DWORD x) { Print(MIN_TRACE, ("(0x%08lx),stub!\n",x)); return 0; } /*********************************************************************** * RegisterDragDrop16 (OLE2.35) */ HRESULT WINAPI RegisterDragDrop16( DWORD hwnd, LPDROPTARGET pDropTarget ) { UNIMPLEMENTED; return S_OK; } /*********************************************************************** * RegisterDragDrop (OLE32.139) */ HRESULT WINAPI RegisterDragDrop( HWND hwnd, LPDROPTARGET pDropTarget) { DropTargetNode* dropTargetInfo; Print(MAX_TRACE, ("(0x%x,%p)\n", hwnd, pDropTarget)); /* * First, check if the window is already registered. */ dropTargetInfo = OLEDD_FindDropTarget(hwnd); if (dropTargetInfo!=NULL) return DRAGDROP_E_ALREADYREGISTERED; /* * If it's not there, we can add it. We first create a node for it. */ dropTargetInfo = HeapAlloc(GetProcessHeap(), 0, sizeof(DropTargetNode)); if (dropTargetInfo==NULL) return E_OUTOFMEMORY; dropTargetInfo->hwndTarget = hwnd; dropTargetInfo->prevDropTarget = NULL; dropTargetInfo->nextDropTarget = NULL; /* * Don't forget that this is an interface pointer, need to nail it down since * we keep a copy of it. */ dropTargetInfo->dropTarget = pDropTarget; IDropTarget_AddRef(dropTargetInfo->dropTarget); OLEDD_InsertDropTarget(dropTargetInfo); return S_OK; } /*********************************************************************** * RevokeDragDrop16 (OLE2.36) */ HRESULT WINAPI RevokeDragDrop16( DWORD hwnd ) { UNIMPLEMENTED; return S_OK; } /*********************************************************************** * RevokeDragDrop (OLE32.141) */ HRESULT WINAPI RevokeDragDrop( HWND hwnd) { DropTargetNode* dropTargetInfo; Print(MAX_TRACE, ("(0x%x)\n", hwnd)); /* * First, check if the window is already registered. */ dropTargetInfo = OLEDD_ExtractDropTarget(hwnd); /* * If it ain't in there, it's an error. */ if (dropTargetInfo==NULL) return DRAGDROP_E_NOTREGISTERED; /* * If it's in there, clean-up it's used memory and * references */ IDropTarget_Release(dropTargetInfo->dropTarget); HeapFree(GetProcessHeap(), 0, dropTargetInfo); return S_OK; } /*********************************************************************** * OleRegGetUserType (OLE32.122) * * This implementation of OleRegGetUserType ignores the dwFormOfType * parameter and always returns the full name of the object. This is * not too bad since this is the case for many objects because of the * way they are registered. */ HRESULT WINAPI OleRegGetUserType( REFCLSID clsid, DWORD dwFormOfType, LPOLESTR* pszUserType) { char keyName[60]; DWORD dwKeyType; DWORD cbData; HKEY clsidKey; LONG hres; LPBYTE buffer; HRESULT retVal; /* * Initialize the out parameter. */ *pszUserType = NULL; /* * Build the key name we're looking for */ sprintf( keyName, "CLSID\\{%08lx-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x}\\", clsid->Data1, clsid->Data2, clsid->Data3, clsid->Data4[0], clsid->Data4[1], clsid->Data4[2], clsid->Data4[3], clsid->Data4[4], clsid->Data4[5], clsid->Data4[6], clsid->Data4[7] ); Print(MAX_TRACE, ("(%s, %ld, %p)\n", keyName, dwFormOfType, pszUserType)); /* * Open the class id Key */ hres = RegOpenKeyA(HKEY_CLASSES_ROOT, keyName, &clsidKey); if (hres != ERROR_SUCCESS) return REGDB_E_CLASSNOTREG; /* * Retrieve the size of the name string. */ cbData = 0; hres = RegQueryValueExA(clsidKey, "", NULL, &dwKeyType, NULL, &cbData); if (hres!=ERROR_SUCCESS) { RegCloseKey(clsidKey); return REGDB_E_READREGDB; } /* * Allocate a buffer for the registry value. */ *pszUserType = CoTaskMemAlloc(cbData*2); if (*pszUserType==NULL) { RegCloseKey(clsidKey); return E_OUTOFMEMORY; } buffer = HeapAlloc(GetProcessHeap(), 0, cbData); if (buffer == NULL) { RegCloseKey(clsidKey); CoTaskMemFree(*pszUserType); *pszUserType=NULL; return E_OUTOFMEMORY; } hres = RegQueryValueExA(clsidKey, "", NULL, &dwKeyType, buffer, &cbData); RegCloseKey(clsidKey); if (hres!=ERROR_SUCCESS) { CoTaskMemFree(*pszUserType); *pszUserType=NULL; retVal = REGDB_E_READREGDB; } else { MultiByteToWideChar( CP_ACP, 0, buffer, -1, *pszUserType, cbData /*FIXME*/ ); retVal = S_OK; } HeapFree(GetProcessHeap(), 0, buffer); return retVal; } /*********************************************************************** * DoDragDrop [OLE32.65] */ HRESULT WINAPI DoDragDrop ( IDataObject *pDataObject, /* [in] ptr to the data obj */ IDropSource* pDropSource, /* [in] ptr to the source obj */ DWORD dwOKEffect, /* [in] effects allowed by the source */ DWORD *pdwEffect) /* [out] ptr to effects of the source */ { TrackerWindowInfo trackerInfo; HWND hwndTrackWindow; MSG msg; Print(MAX_TRACE, ("(DataObject %p, DropSource %p)\n", pDataObject, pDropSource)); /* * Setup the drag n drop tracking window. */ trackerInfo.dataObject = pDataObject; trackerInfo.dropSource = pDropSource; trackerInfo.dwOKEffect = dwOKEffect; trackerInfo.pdwEffect = pdwEffect; trackerInfo.trackingDone = FALSE; trackerInfo.escPressed = FALSE; trackerInfo.curDragTargetHWND = 0; trackerInfo.curDragTarget = 0; hwndTrackWindow = CreateWindowA(OLEDD_DRAGTRACKERCLASS, "TrackerWindow", WS_POPUP, CW_USEDEFAULT, CW_USEDEFAULT, CW_USEDEFAULT, CW_USEDEFAULT, 0, 0, 0, (LPVOID)&trackerInfo); if (hwndTrackWindow!=0) { /* * Capture the mouse input */ SetCapture(hwndTrackWindow); /* * Pump messages. All mouse input should go the the capture window. */ while (!trackerInfo.trackingDone && GetMessageA(&msg, 0, 0, 0) ) { if ( (msg.message >= WM_KEYFIRST) && (msg.message <= WM_KEYLAST) ) { /* * When keyboard messages are sent to windows on this thread, we * want to ignore notify the drop source that the state changed. * in the case of the Escape key, we also notify the drop source * we give it a special meaning. */ if ( (msg.message==WM_KEYDOWN) && (msg.wParam==VK_ESCAPE) ) { trackerInfo.escPressed = TRUE; } /* * Notify the drop source. */ OLEDD_TrackStateChange(&trackerInfo, msg.pt, OLEDD_GetButtonState()); } else { /* * Dispatch the messages only when it's not a keyboard message. */ DispatchMessageA(&msg); } } /* * Destroy the temporary window. */ DestroyWindow(hwndTrackWindow); return trackerInfo.returnValue; } return E_FAIL; } /*********************************************************************** * OleQueryLinkFromData [OLE32.118] */ HRESULT WINAPI OleQueryLinkFromData( IDataObject* pSrcDataObject) { Print(MIN_TRACE, ("(%p),stub!\n", pSrcDataObject)); return S_OK; } /*********************************************************************** * OleRegGetMiscStatus [OLE32.121] */ HRESULT WINAPI OleRegGetMiscStatus( REFCLSID clsid, DWORD dwAspect, DWORD* pdwStatus) { char keyName[60]; HKEY clsidKey; HKEY miscStatusKey; HKEY aspectKey; LONG result; /* * Initialize the out parameter. */ *pdwStatus = 0; /* * Build the key name we're looking for */ sprintf( keyName, "CLSID\\{%08lx-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x}\\", clsid->Data1, clsid->Data2, clsid->Data3, clsid->Data4[0], clsid->Data4[1], clsid->Data4[2], clsid->Data4[3], clsid->Data4[4], clsid->Data4[5], clsid->Data4[6], clsid->Data4[7] ); Print(MAX_TRACE, ("(%s, %ld, %p)\n", keyName, dwAspect, pdwStatus)); /* * Open the class id Key */ result = RegOpenKeyA(HKEY_CLASSES_ROOT, keyName, &clsidKey); if (result != ERROR_SUCCESS) return REGDB_E_CLASSNOTREG; /* * Get the MiscStatus */ result = RegOpenKeyA(clsidKey, "MiscStatus", &miscStatusKey); if (result != ERROR_SUCCESS) { RegCloseKey(clsidKey); return REGDB_E_READREGDB; } /* * Read the default value */ OLEUTL_ReadRegistryDWORDValue(miscStatusKey, pdwStatus); /* * Open the key specific to the requested aspect. */ sprintf(keyName, "%ld", dwAspect); result = RegOpenKeyA(miscStatusKey, keyName, &aspectKey); if (result == ERROR_SUCCESS) { OLEUTL_ReadRegistryDWORDValue(aspectKey, pdwStatus); RegCloseKey(aspectKey); } /* * Cleanup */ RegCloseKey(miscStatusKey); RegCloseKey(clsidKey); return S_OK; } /****************************************************************************** * OleSetContainedObject [OLE32.128] */ HRESULT WINAPI OleSetContainedObject( LPUNKNOWN pUnknown, BOOL fContained) { IRunnableObject* runnable = NULL; HRESULT hres; Print(MAX_TRACE, ("(%p,%x), stub!\n", pUnknown, fContained)); hres = IUnknown_QueryInterface(pUnknown, &IID_IRunnableObject, (void**)&runnable); if (SUCCEEDED(hres)) { hres = IRunnableObject_SetContainedObject(runnable, fContained); IRunnableObject_Release(runnable); return hres; } return S_OK; } /****************************************************************************** * OleLoad [OLE32.112] */ HRESULT WINAPI OleLoad( LPSTORAGE pStg, REFIID riid, LPOLECLIENTSITE pClientSite, LPVOID* ppvObj) { IPersistStorage* persistStorage = NULL; IOleObject* oleObject = NULL; STATSTG storageInfo; HRESULT hres; Print(MAX_TRACE, ("(%p,%p,%p,%p)\n", pStg, riid, pClientSite, ppvObj)); /* * TODO, Conversion ... OleDoAutoConvert */ /* * Get the class ID for the object. */ hres = IStorage_Stat(pStg, &storageInfo, STATFLAG_NONAME); /* * Now, try and create the handler for the object */ hres = CoCreateInstance(&storageInfo.clsid, NULL, CLSCTX_INPROC_HANDLER, &IID_IOleObject, (void**)&oleObject); /* * If that fails, as it will most times, load the default * OLE handler. */ if (FAILED(hres)) { hres = OleCreateDefaultHandler(&storageInfo.clsid, NULL, &IID_IOleObject, (void**)&oleObject); } /* * If we couldn't find a handler... this is bad. Abort the whole thing. */ if (FAILED(hres)) return hres; /* * Inform the new object of it's client site. */ hres = IOleObject_SetClientSite(oleObject, pClientSite); /* * Initialize the object with it's IPersistStorage interface. */ hres = IOleObject_QueryInterface(oleObject, &IID_IPersistStorage, (void**)&persistStorage); if (SUCCEEDED(hres)) { IPersistStorage_Load(persistStorage, pStg); IPersistStorage_Release(persistStorage); persistStorage = NULL; } /* * Return the requested interface to the caller. */ hres = IOleObject_QueryInterface(oleObject, riid, ppvObj); /* * Cleanup interfaces used internally */ IOleObject_Release(oleObject); return hres; } /*********************************************************************** * OleSave [OLE32.124] */ HRESULT WINAPI OleSave( LPPERSISTSTORAGE pPS, LPSTORAGE pStg, BOOL fSameAsLoad) { HRESULT hres; CLSID objectClass; Print(MAX_TRACE, ("(%p,%p,%x)\n", pPS, pStg, fSameAsLoad)); /* * First, we transfer the class ID (if available) */ hres = IPersistStorage_GetClassID(pPS, &objectClass); if (SUCCEEDED(hres)) { WriteClassStg(pStg, &objectClass); } /* * Then, we ask the object to save itself to the * storage. If it is successful, we commit the storage. */ hres = IPersistStorage_Save(pPS, pStg, fSameAsLoad); if (SUCCEEDED(hres)) { IStorage_Commit(pStg, STGC_DEFAULT); } return hres; } /****************************************************************************** * OleLockRunning [OLE32.114] */ HRESULT WINAPI OleLockRunning(LPUNKNOWN pUnknown, BOOL fLock, BOOL fLastUnlockCloses) { IRunnableObject* runnable = NULL; HRESULT hres; Print(MAX_TRACE, ("(%p,%x,%x)\n", pUnknown, fLock, fLastUnlockCloses)); hres = IUnknown_QueryInterface(pUnknown, &IID_IRunnableObject, (void**)&runnable); if (SUCCEEDED(hres)) { hres = IRunnableObject_LockRunning(runnable, fLock, fLastUnlockCloses); IRunnableObject_Release(runnable); return hres; } else return E_INVALIDARG; } /************************************************************************** * Internal methods to manage the shared OLE menu in response to the * OLE***MenuDescriptor API */ /*** * OLEMenu_Initialize() * * Initializes the OLEMENU data structures. */ static void OLEMenu_Initialize() { } /*** * OLEMenu_UnInitialize() * * Releases the OLEMENU data structures. */ static void OLEMenu_UnInitialize() { } /************************************************************************* * OLEMenu_InstallHooks * Install thread scope message hooks for WH_GETMESSAGE and WH_CALLWNDPROC * * RETURNS: TRUE if message hooks were succesfully installed * FALSE on failure */ BOOL OLEMenu_InstallHooks( DWORD tid ) { OleMenuHookItem *pHookItem = NULL; /* Create an entry for the hook table */ if ( !(pHookItem = HeapAlloc(GetProcessHeap(), 0, sizeof(OleMenuHookItem)) ) ) return FALSE; pHookItem->tid = tid; pHookItem->hHeap = GetProcessHeap(); /* Install a thread scope message hook for WH_GETMESSAGE */ pHookItem->GetMsg_hHook = SetWindowsHookExA( WH_GETMESSAGE, OLEMenu_GetMsgProc, 0, GetCurrentThreadId() ); if ( !pHookItem->GetMsg_hHook ) goto CLEANUP; /* Install a thread scope message hook for WH_CALLWNDPROC */ pHookItem->CallWndProc_hHook = SetWindowsHookExA( WH_CALLWNDPROC, OLEMenu_CallWndProc, 0, GetCurrentThreadId() ); if ( !pHookItem->CallWndProc_hHook ) goto CLEANUP; /* Insert the hook table entry */ pHookItem->next = hook_list; hook_list = pHookItem; return TRUE; CLEANUP: /* Unhook any hooks */ if ( pHookItem->GetMsg_hHook ) UnhookWindowsHookEx( pHookItem->GetMsg_hHook ); if ( pHookItem->CallWndProc_hHook ) UnhookWindowsHookEx( pHookItem->CallWndProc_hHook ); /* Release the hook table entry */ HeapFree(pHookItem->hHeap, 0, pHookItem ); return FALSE; } /************************************************************************* * OLEMenu_UnInstallHooks * UnInstall thread scope message hooks for WH_GETMESSAGE and WH_CALLWNDPROC * * RETURNS: TRUE if message hooks were succesfully installed * FALSE on failure */ BOOL OLEMenu_UnInstallHooks( DWORD tid ) { OleMenuHookItem *pHookItem = NULL; OleMenuHookItem **ppHook = &hook_list; while (*ppHook) { if ((*ppHook)->tid == tid) { pHookItem = *ppHook; *ppHook = pHookItem->next; break; } ppHook = &(*ppHook)->next; } if (!pHookItem) return FALSE; /* Uninstall the hooks installed for this thread */ if ( !UnhookWindowsHookEx( pHookItem->GetMsg_hHook ) ) goto CLEANUP; if ( !UnhookWindowsHookEx( pHookItem->CallWndProc_hHook ) ) goto CLEANUP; /* Release the hook table entry */ HeapFree(pHookItem->hHeap, 0, pHookItem ); return TRUE; CLEANUP: /* Release the hook table entry */ if (pHookItem) HeapFree(pHookItem->hHeap, 0, pHookItem ); return FALSE; } /************************************************************************* * OLEMenu_IsHookInstalled * Tests if OLEMenu hooks have been installed for a thread * * RETURNS: The pointer and index of the hook table entry for the tid * NULL and -1 for the index if no hooks were installed for this thread */ OleMenuHookItem * OLEMenu_IsHookInstalled( DWORD tid ) { OleMenuHookItem *pHookItem = NULL; /* Do a simple linear search for an entry whose tid matches ours. * We really need a map but efficiency is not a concern here. */ for (pHookItem = hook_list; pHookItem; pHookItem = pHookItem->next) { if ( tid == pHookItem->tid ) return pHookItem; } return NULL; } /*********************************************************************** * OLEMenu_FindMainMenuIndex * * Used by OLEMenu API to find the top level group a menu item belongs to. * On success pnPos contains the index of the item in the top level menu group * * RETURNS: TRUE if the ID was found, FALSE on failure */ static BOOL OLEMenu_FindMainMenuIndex( HMENU hMainMenu, HMENU hPopupMenu, UINT *pnPos ) { UINT i, nItems; nItems = GetMenuItemCount( hMainMenu ); for (i = 0; i < nItems; i++) { HMENU hsubmenu; /* Is the current item a submenu? */ if ( (hsubmenu = GetSubMenu(hMainMenu, i)) ) { /* If the handle is the same we're done */ if ( hsubmenu == hPopupMenu ) { if (pnPos) *pnPos = i; return TRUE; } /* Recursively search without updating pnPos */ else if ( OLEMenu_FindMainMenuIndex( hsubmenu, hPopupMenu, NULL ) ) { if (pnPos) *pnPos = i; return TRUE; } } } return FALSE; } /*********************************************************************** * OLEMenu_SetIsServerMenu * * Checks whether a popup menu belongs to a shared menu group which is * owned by the server, and sets the menu descriptor state accordingly. * All menu messages from these groups should be routed to the server. * * RETURNS: TRUE if the popup menu is part of a server owned group * FASE if the popup menu is part of a container owned group */ BOOL OLEMenu_SetIsServerMenu( HMENU hmenu, OleMenuDescriptor *pOleMenuDescriptor ) { UINT nPos = 0, nWidth, i; pOleMenuDescriptor->bIsServerItem = FALSE; /* Don't bother searching if the popup is the combined menu itself */ if ( hmenu == pOleMenuDescriptor->hmenuCombined ) return FALSE; /* Find the menu item index in the shared OLE menu that this item belongs to */ if ( !OLEMenu_FindMainMenuIndex( pOleMenuDescriptor->hmenuCombined, hmenu, &nPos ) ) return FALSE; /* The group widths array has counts for the number of elements * in the groups File, Edit, Container, Object, Window, Help. * The Edit, Object & Help groups belong to the server object * and the other three belong to the container. * Loop thru the group widths and locate the group we are a member of. */ for ( i = 0, nWidth = 0; i < 6; i++ ) { nWidth += pOleMenuDescriptor->mgw.width[i]; if ( nPos < nWidth ) { /* Odd elements are server menu widths */ pOleMenuDescriptor->bIsServerItem = (i%2) ? TRUE : FALSE; break; } } return pOleMenuDescriptor->bIsServerItem; } /************************************************************************* * OLEMenu_CallWndProc * Thread scope WH_CALLWNDPROC hook proc filter function (callback) * This is invoked from a message hook installed in OleSetMenuDescriptor. */ LRESULT CALLBACK OLEMenu_CallWndProc(INT code, WPARAM wParam, LPARAM lParam) { #if 0 LPCWPSTRUCT pMsg = NULL; HOLEMENU hOleMenu = 0; OleMenuDescriptor *pOleMenuDescriptor = NULL; OleMenuHookItem *pHookItem = NULL; WORD fuFlags; Print(MAX_TRACE, ("%i, %04x, %08x\n", code, wParam, (unsigned)lParam )); /* Check if we're being asked to process the message */ if ( HC_ACTION != code ) goto NEXTHOOK; /* Retrieve the current message being dispatched from lParam */ pMsg = (LPCWPSTRUCT)lParam; /* Check if the message is destined for a window we are interested in: * If the window has an OLEMenu property we may need to dispatch * the menu message to its active objects window instead. */ hOleMenu = (HOLEMENU)GetPropA( pMsg->hwnd, "PROP_OLEMenuDescriptor" ); if ( !hOleMenu ) goto NEXTHOOK; /* Get the menu descriptor */ pOleMenuDescriptor = (OleMenuDescriptor *) GlobalLock( hOleMenu ); if ( !pOleMenuDescriptor ) /* Bad descriptor! */ goto NEXTHOOK; /* Process menu messages */ switch( pMsg->message ) { case WM_INITMENU: { /* Reset the menu descriptor state */ pOleMenuDescriptor->bIsServerItem = FALSE; /* Send this message to the server as well */ SendMessageA( pOleMenuDescriptor->hwndActiveObject, pMsg->message, pMsg->wParam, pMsg->lParam ); goto NEXTHOOK; } case WM_INITMENUPOPUP: { /* Save the state for whether this is a server owned menu */ OLEMenu_SetIsServerMenu( (HMENU)pMsg->wParam, pOleMenuDescriptor ); break; } case WM_MENUSELECT: { fuFlags = HIWORD(pMsg->wParam); /* Get flags */ if ( fuFlags & MF_SYSMENU ) goto NEXTHOOK; /* Save the state for whether this is a server owned popup menu */ else if ( fuFlags & MF_POPUP ) OLEMenu_SetIsServerMenu( (HMENU)pMsg->lParam, pOleMenuDescriptor ); break; } case WM_DRAWITEM: { LPDRAWITEMSTRUCT lpdis = (LPDRAWITEMSTRUCT) pMsg->lParam; if ( pMsg->wParam != 0 || lpdis->CtlType != ODT_MENU ) goto NEXTHOOK; /* Not a menu message */ break; } default: goto NEXTHOOK; } /* If the message was for the server dispatch it accordingly */ if ( pOleMenuDescriptor->bIsServerItem ) { SendMessageA( pOleMenuDescriptor->hwndActiveObject, pMsg->message, pMsg->wParam, pMsg->lParam ); } NEXTHOOK: if ( pOleMenuDescriptor ) GlobalUnlock( hOleMenu ); /* Lookup the hook item for the current thread */ if ( !( pHookItem = OLEMenu_IsHookInstalled( GetCurrentThreadId() ) ) ) { /* This should never fail!! */ Print(MID_TRACE, ("could not retrieve hHook for current thread!\n" )); return 0; } /* Pass on the message to the next hooker */ return CallNextHookEx( pHookItem->CallWndProc_hHook, code, wParam, lParam ); #else UNIMPLEMENTED; return 0; #endif } /************************************************************************* * OLEMenu_GetMsgProc * Thread scope WH_GETMESSAGE hook proc filter function (callback) * This is invoked from a message hook installed in OleSetMenuDescriptor. */ LRESULT CALLBACK OLEMenu_GetMsgProc(INT code, WPARAM wParam, LPARAM lParam) { LPMSG pMsg = NULL; HOLEMENU hOleMenu = 0; OleMenuDescriptor *pOleMenuDescriptor = NULL; OleMenuHookItem *pHookItem = NULL; WORD wCode; Print(MAX_TRACE, ("%i, %04x, %08x\n", code, wParam, (unsigned)lParam )); /* Check if we're being asked to process a messages */ if ( HC_ACTION != code ) goto NEXTHOOK; /* Retrieve the current message being dispatched from lParam */ pMsg = (LPMSG)lParam; /* Check if the message is destined for a window we are interested in: * If the window has an OLEMenu property we may need to dispatch * the menu message to its active objects window instead. */ hOleMenu = (HOLEMENU)GetPropA( pMsg->hwnd, "PROP_OLEMenuDescriptor" ); if ( !hOleMenu ) goto NEXTHOOK; /* Process menu messages */ switch( pMsg->message ) { case WM_COMMAND: { wCode = HIWORD(pMsg->wParam); /* Get notification code */ if ( wCode ) goto NEXTHOOK; /* Not a menu message */ break; } default: goto NEXTHOOK; } /* Get the menu descriptor */ pOleMenuDescriptor = (OleMenuDescriptor *) GlobalLock( hOleMenu ); if ( !pOleMenuDescriptor ) /* Bad descriptor! */ goto NEXTHOOK; /* If the message was for the server dispatch it accordingly */ if ( pOleMenuDescriptor->bIsServerItem ) { /* Change the hWnd in the message to the active objects hWnd. * The message loop which reads this message will automatically * dispatch it to the embedded objects window. */ pMsg->hwnd = pOleMenuDescriptor->hwndActiveObject; } NEXTHOOK: if ( pOleMenuDescriptor ) GlobalUnlock( hOleMenu ); /* Lookup the hook item for the current thread */ if ( !( pHookItem = OLEMenu_IsHookInstalled( GetCurrentThreadId() ) ) ) { /* This should never fail!! */ Print(MID_TRACE, ("could not retrieve hHook for current thread!\n" )); return FALSE; } /* Pass on the message to the next hooker */ return CallNextHookEx( pHookItem->GetMsg_hHook, code, wParam, lParam ); } /*********************************************************************** * OleCreateMenuDescriptor [OLE32.97] * Creates an OLE menu descriptor for OLE to use when dispatching * menu messages and commands. * * PARAMS: * hmenuCombined - Handle to the objects combined menu * lpMenuWidths - Pointer to array of 6 LONG's indicating menus per group * */ HOLEMENU WINAPI OleCreateMenuDescriptor( HMENU hmenuCombined, LPOLEMENUGROUPWIDTHS lpMenuWidths) { HOLEMENU hOleMenu; OleMenuDescriptor *pOleMenuDescriptor; int i; if ( !hmenuCombined || !lpMenuWidths ) return 0; /* Create an OLE menu descriptor */ if ( !(hOleMenu = GlobalAlloc(GMEM_MOVEABLE | GMEM_ZEROINIT, sizeof(OleMenuDescriptor) ) ) ) return 0; pOleMenuDescriptor = (OleMenuDescriptor *) GlobalLock( hOleMenu ); if ( !pOleMenuDescriptor ) return 0; /* Initialize menu group widths and hmenu */ for ( i = 0; i < 6; i++ ) pOleMenuDescriptor->mgw.width[i] = lpMenuWidths->width[i]; pOleMenuDescriptor->hmenuCombined = hmenuCombined; pOleMenuDescriptor->bIsServerItem = FALSE; GlobalUnlock( hOleMenu ); return hOleMenu; } /*********************************************************************** * OleDestroyMenuDescriptor [OLE32.99] * Destroy the shared menu descriptor */ HRESULT WINAPI OleDestroyMenuDescriptor( HOLEMENU hmenuDescriptor) { if ( hmenuDescriptor ) GlobalFree( hmenuDescriptor ); return S_OK; } /*********************************************************************** * OleSetMenuDescriptor [OLE32.129] * Installs or removes OLE dispatching code for the containers frame window * FIXME: The lpFrame and lpActiveObject parameters are currently ignored * OLE should install context sensitive help F1 filtering for the app when * these are non null. * * PARAMS: * hOleMenu Handle to composite menu descriptor * hwndFrame Handle to containers frame window * hwndActiveObject Handle to objects in-place activation window * lpFrame Pointer to IOleInPlaceFrame on containers window * lpActiveObject Pointer to IOleInPlaceActiveObject on active in-place object * * RETURNS: * S_OK - menu installed correctly * E_FAIL, E_INVALIDARG, E_UNEXPECTED - failure */ HRESULT WINAPI OleSetMenuDescriptor( HOLEMENU hOleMenu, HWND hwndFrame, HWND hwndActiveObject, LPOLEINPLACEFRAME lpFrame, LPOLEINPLACEACTIVEOBJECT lpActiveObject) { OleMenuDescriptor *pOleMenuDescriptor = NULL; /* Check args */ if ( !hwndFrame || (hOleMenu && !hwndActiveObject) ) return E_INVALIDARG; if ( lpFrame || lpActiveObject ) { Print(MIN_TRACE, ("(%x, %x, %x, %p, %p), Context sensitive help filtering not implemented!\n", (unsigned int)hOleMenu, hwndFrame, hwndActiveObject, lpFrame, lpActiveObject)); } /* Set up a message hook to intercept the containers frame window messages. * The message filter is responsible for dispatching menu messages from the * shared menu which are intended for the object. */ if ( hOleMenu ) /* Want to install dispatching code */ { /* If OLEMenu hooks are already installed for this thread, fail * Note: This effectively means that OleSetMenuDescriptor cannot * be called twice in succession on the same frame window * without first calling it with a null hOleMenu to uninstall */ if ( OLEMenu_IsHookInstalled( GetCurrentThreadId() ) ) return E_FAIL; /* Get the menu descriptor */ pOleMenuDescriptor = (OleMenuDescriptor *) GlobalLock( hOleMenu ); if ( !pOleMenuDescriptor ) return E_UNEXPECTED; /* Update the menu descriptor */ pOleMenuDescriptor->hwndFrame = hwndFrame; pOleMenuDescriptor->hwndActiveObject = hwndActiveObject; GlobalUnlock( hOleMenu ); pOleMenuDescriptor = NULL; /* Add a menu descriptor windows property to the frame window */ SetPropA( hwndFrame, "PROP_OLEMenuDescriptor", hOleMenu ); /* Install thread scope message hooks for WH_GETMESSAGE and WH_CALLWNDPROC */ if ( !OLEMenu_InstallHooks( GetCurrentThreadId() ) ) return E_FAIL; } else /* Want to uninstall dispatching code */ { /* Uninstall the hooks */ if ( !OLEMenu_UnInstallHooks( GetCurrentThreadId() ) ) return E_FAIL; /* Remove the menu descriptor property from the frame window */ RemovePropA( hwndFrame, "PROP_OLEMenuDescriptor" ); } return S_OK; } /****************************************************************************** * IsAccelerator [OLE32.75] * Mostly copied from controls/menu.c TranslateAccelerator implementation */ BOOL WINAPI IsAccelerator(HACCEL hAccel, int cAccelEntries, LPMSG lpMsg, WORD* lpwCmd) { #if 0 /* YES, Accel16! */ LPACCEL16 lpAccelTbl; int i; if(!lpMsg) return FALSE; if (!hAccel || !(lpAccelTbl = (LPACCEL16)LockResource16(hAccel))) { WARN_(accel)("invalid accel handle=%04x\n", hAccel); return FALSE; } if((lpMsg->message != WM_KEYDOWN && lpMsg->message != WM_KEYUP && lpMsg->message != WM_SYSKEYDOWN && lpMsg->message != WM_SYSKEYUP && lpMsg->message != WM_CHAR)) return FALSE; Print(MAX_TRACE, ("hAccel=%04x, cAccelEntries=%d," "msg->hwnd=%04x, msg->message=%04x, wParam=%08x, lParam=%08lx\n", hAccel, cAccelEntries, lpMsg->hwnd, lpMsg->message, lpMsg->wParam, lpMsg->lParam)); for(i = 0; i < cAccelEntries; i++) { if(lpAccelTbl[i].key != lpMsg->wParam) continue; if(lpMsg->message == WM_CHAR) { if(!(lpAccelTbl[i].fVirt & FALT) && !(lpAccelTbl[i].fVirt & FVIRTKEY)) { Print(MAX_TRACE, ("found accel for WM_CHAR: ('%c')\n", lpMsg->wParam & 0xff)); goto found; } } else { if(lpAccelTbl[i].fVirt & FVIRTKEY) { INT mask = 0; Print(MAX_TRACE, ("found accel for virt_key %04x (scan %04x)\n", lpMsg->wParam, HIWORD(lpMsg->lParam) & 0xff)); if(GetKeyState(VK_SHIFT) & 0x8000) mask |= FSHIFT; if(GetKeyState(VK_CONTROL) & 0x8000) mask |= FCONTROL; if(GetKeyState(VK_MENU) & 0x8000) mask |= FALT; if(mask == (lpAccelTbl[i].fVirt & (FSHIFT | FCONTROL | FALT))) goto found; Print(MAX_TRACE, ("incorrect SHIFT/CTRL/ALT-state\n")); } else { if(!(lpMsg->lParam & 0x01000000)) /* no special_key */ { if((lpAccelTbl[i].fVirt & FALT) && (lpMsg->lParam & 0x20000000)) { /* ^^ ALT pressed */ Print(MAX_TRACE, ("found accel for Alt-%c\n", lpMsg->wParam & 0xff)); goto found; } } } } } WARN_(accel)("couldn't translate accelerator key\n"); return FALSE; found: if(lpwCmd) *lpwCmd = lpAccelTbl[i].cmd; return TRUE; #else return FALSE; #endif } /*********************************************************************** * ReleaseStgMedium [OLE32.140] */ void WINAPI ReleaseStgMedium( STGMEDIUM* pmedium) { switch (pmedium->tymed) { case TYMED_HGLOBAL: { if ( (pmedium->pUnkForRelease==0) && (pmedium->u.hGlobal!=0) ) GlobalFree(pmedium->u.hGlobal); pmedium->u.hGlobal = 0; break; } case TYMED_FILE: { if (pmedium->u.lpszFileName!=0) { if (pmedium->pUnkForRelease==0) { DeleteFileW(pmedium->u.lpszFileName); } CoTaskMemFree(pmedium->u.lpszFileName); } pmedium->u.lpszFileName = 0; break; } case TYMED_ISTREAM: { if (pmedium->u.pstm!=0) { IStream_Release(pmedium->u.pstm); } pmedium->u.pstm = 0; break; } case TYMED_ISTORAGE: { if (pmedium->u.pstg!=0) { IStorage_Release(pmedium->u.pstg); } pmedium->u.pstg = 0; break; } case TYMED_GDI: { if ( (pmedium->pUnkForRelease==0) && (pmedium->u.hGlobal!=0) ) DeleteObject(pmedium->u.hGlobal); pmedium->u.hGlobal = 0; break; } case TYMED_MFPICT: { if ( (pmedium->pUnkForRelease==0) && (pmedium->u.hMetaFilePict!=0) ) { #if 0 LPMETAFILEPICT pMP = GlobalLock(pmedium->u.hMetaFilePict); DeleteMetaFile(pMP->hMF); #else Print(MIN_TRACE, ("Depending on MetaFile implementation\n")); #endif GlobalUnlock(pmedium->u.hMetaFilePict); GlobalFree(pmedium->u.hMetaFilePict); } pmedium->u.hMetaFilePict = 0; break; } case TYMED_ENHMF: { if ( (pmedium->pUnkForRelease==0) && (pmedium->u.hEnhMetaFile!=0) ) { DeleteEnhMetaFile(pmedium->u.hEnhMetaFile); } pmedium->u.hEnhMetaFile = 0; break; } case TYMED_NULL: default: break; } /* * After cleaning up, the unknown is released */ if (pmedium->pUnkForRelease!=0) { IUnknown_Release(pmedium->pUnkForRelease); pmedium->pUnkForRelease = 0; } } /*** * OLEDD_Initialize() * * Initializes the OLE drag and drop data structures. */ static void OLEDD_Initialize() { WNDCLASS wndClass; ZeroMemory (&wndClass, sizeof(WNDCLASS)); wndClass.style = CS_GLOBALCLASS; wndClass.lpfnWndProc = (WNDPROC)OLEDD_DragTrackerWindowProc; wndClass.cbClsExtra = 0; wndClass.cbWndExtra = sizeof(TrackerWindowInfo*); wndClass.hCursor = 0; wndClass.hbrBackground = 0; wndClass.lpszClassName = OLEDD_DRAGTRACKERCLASS; RegisterClassA (&wndClass); } /*** * OLEDD_UnInitialize() * * Releases the OLE drag and drop data structures. */ static void OLEDD_UnInitialize() { /* * Simply empty the list. */ while (targetListHead!=NULL) { RevokeDragDrop(targetListHead->hwndTarget); } } /*** * OLEDD_InsertDropTarget() * * Insert the target node in the tree. */ static void OLEDD_InsertDropTarget(DropTargetNode* nodeToAdd) { DropTargetNode* curNode; DropTargetNode** parentNodeLink; /* * Iterate the tree to find the insertion point. */ curNode = targetListHead; parentNodeLink = &targetListHead; while (curNode!=NULL) { if (nodeToAdd->hwndTargethwndTarget) { /* * If the node we want to add has a smaller HWND, go left */ parentNodeLink = &curNode->prevDropTarget; curNode = curNode->prevDropTarget; } else if (nodeToAdd->hwndTarget>curNode->hwndTarget) { /* * If the node we want to add has a larger HWND, go right */ parentNodeLink = &curNode->nextDropTarget; curNode = curNode->nextDropTarget; } else { /* * The item was found in the list. It shouldn't have been there */ assert(FALSE); return; } } /* * If we get here, we have found a spot for our item. The parentNodeLink * pointer points to the pointer that we have to modify. * The curNode should be NULL. We just have to establish the link and Voila! */ assert(curNode==NULL); assert(parentNodeLink!=NULL); assert(*parentNodeLink==NULL); *parentNodeLink=nodeToAdd; } /*** * OLEDD_ExtractDropTarget() * * Removes the target node from the tree. */ static DropTargetNode* OLEDD_ExtractDropTarget(HWND hwndOfTarget) { DropTargetNode* curNode; DropTargetNode** parentNodeLink; /* * Iterate the tree to find the insertion point. */ curNode = targetListHead; parentNodeLink = &targetListHead; while (curNode!=NULL) { if (hwndOfTargethwndTarget) { /* * If the node we want to add has a smaller HWND, go left */ parentNodeLink = &curNode->prevDropTarget; curNode = curNode->prevDropTarget; } else if (hwndOfTarget>curNode->hwndTarget) { /* * If the node we want to add has a larger HWND, go right */ parentNodeLink = &curNode->nextDropTarget; curNode = curNode->nextDropTarget; } else { /* * The item was found in the list. Detach it from it's parent and * re-insert it's kids in the tree. */ assert(parentNodeLink!=NULL); assert(*parentNodeLink==curNode); /* * We arbitrately re-attach the left sub-tree to the parent. */ *parentNodeLink = curNode->prevDropTarget; /* * And we re-insert the right subtree */ if (curNode->nextDropTarget!=NULL) { OLEDD_InsertDropTarget(curNode->nextDropTarget); } /* * The node we found is still a valid node once we complete * the unlinking of the kids. */ curNode->nextDropTarget=NULL; curNode->prevDropTarget=NULL; return curNode; } } /* * If we get here, the node is not in the tree */ return NULL; } /*** * OLEDD_FindDropTarget() * * Finds information about the drop target. */ static DropTargetNode* OLEDD_FindDropTarget(HWND hwndOfTarget) { DropTargetNode* curNode; /* * Iterate the tree to find the HWND value. */ curNode = targetListHead; while (curNode!=NULL) { if (hwndOfTargethwndTarget) { /* * If the node we want to add has a smaller HWND, go left */ curNode = curNode->prevDropTarget; } else if (hwndOfTarget>curNode->hwndTarget) { /* * If the node we want to add has a larger HWND, go right */ curNode = curNode->nextDropTarget; } else { /* * The item was found in the list. */ return curNode; } } /* * If we get here, the item is not in the list */ return NULL; } /*** * OLEDD_DragTrackerWindowProc() * * This method is the WindowProcedure of the drag n drop tracking * window. During a drag n Drop operation, an invisible window is created * to receive the user input and act upon it. This procedure is in charge * of this behavior. */ static LRESULT WINAPI OLEDD_DragTrackerWindowProc( HWND hwnd, UINT uMsg, WPARAM wParam, LPARAM lParam) { switch (uMsg) { case WM_CREATE: { LPCREATESTRUCT createStruct = (LPCREATESTRUCT)lParam; SetWindowLongA(hwnd, 0, (LONG)createStruct->lpCreateParams); break; } case WM_MOUSEMOVE: { TrackerWindowInfo* trackerInfo = (TrackerWindowInfo*)GetWindowLongA(hwnd, 0); POINT mousePos; /* * Get the current mouse position in screen coordinates. */ mousePos.x = LOWORD(lParam); mousePos.y = HIWORD(lParam); ClientToScreen(hwnd, &mousePos); /* * Track the movement of the mouse. */ OLEDD_TrackMouseMove(trackerInfo, mousePos, wParam); break; } case WM_LBUTTONUP: case WM_MBUTTONUP: case WM_RBUTTONUP: case WM_LBUTTONDOWN: case WM_MBUTTONDOWN: case WM_RBUTTONDOWN: { TrackerWindowInfo* trackerInfo = (TrackerWindowInfo*)GetWindowLongA(hwnd, 0); POINT mousePos; /* * Get the current mouse position in screen coordinates. */ mousePos.x = LOWORD(lParam); mousePos.y = HIWORD(lParam); ClientToScreen(hwnd, &mousePos); /* * Notify everyone that the button state changed * TODO: Check if the "escape" key was pressed. */ OLEDD_TrackStateChange(trackerInfo, mousePos, wParam); break; } } /* * This is a window proc after all. Let's call the default. */ return DefWindowProcA (hwnd, uMsg, wParam, lParam); } /*** * OLEDD_TrackMouseMove() * * This method is invoked while a drag and drop operation is in effect. * it will generate the appropriate callbacks in the drop source * and drop target. It will also provide the expected feedback to * the user. * * params: * trackerInfo - Pointer to the structure identifying the * drag & drop operation that is currently * active. * mousePos - Current position of the mouse in screen * coordinates. * keyState - Contains the state of the shift keys and the * mouse buttons (MK_LBUTTON and the like) */ static void OLEDD_TrackMouseMove( TrackerWindowInfo* trackerInfo, POINT mousePos, DWORD keyState) { HWND hwndNewTarget = 0; HRESULT hr = S_OK; /* * Get the handle of the window under the mouse */ hwndNewTarget = WindowFromPoint(mousePos); /* * Every time, we re-initialize the effects passed to the * IDropTarget to the effects allowed by the source. */ *trackerInfo->pdwEffect = trackerInfo->dwOKEffect; /* * If we are hovering over the same target as before, send the * DragOver notification */ if ( (trackerInfo->curDragTarget != 0) && (trackerInfo->curDragTargetHWND==hwndNewTarget) ) { POINTL mousePosParam; /* * The documentation tells me that the coordinate should be in the target * window's coordinate space. However, the tests I made tell me the * coordinates should be in screen coordinates. */ mousePosParam.x = mousePos.x; mousePosParam.y = mousePos.y; IDropTarget_DragOver(trackerInfo->curDragTarget, keyState, mousePosParam, trackerInfo->pdwEffect); } else { DropTargetNode* newDropTargetNode = 0; /* * If we changed window, we have to notify our old target and check for * the new one. */ if (trackerInfo->curDragTarget!=0) { IDropTarget_DragLeave(trackerInfo->curDragTarget); } /* * Make sure we're hovering over a window. */ if (hwndNewTarget!=0) { /* * Find-out if there is a drag target under the mouse */ HWND nexttar = hwndNewTarget; do { newDropTargetNode = OLEDD_FindDropTarget(nexttar); } while (!newDropTargetNode && (nexttar = GetParent(nexttar)) != 0); if(nexttar) hwndNewTarget = nexttar; trackerInfo->curDragTargetHWND = hwndNewTarget; trackerInfo->curDragTarget = newDropTargetNode ? newDropTargetNode->dropTarget : 0; /* * If there is, notify it that we just dragged-in */ if (trackerInfo->curDragTarget!=0) { POINTL mousePosParam; /* * The documentation tells me that the coordinate should be in the target * window's coordinate space. However, the tests I made tell me the * coordinates should be in screen coordinates. */ mousePosParam.x = mousePos.x; mousePosParam.y = mousePos.y; IDropTarget_DragEnter(trackerInfo->curDragTarget, trackerInfo->dataObject, keyState, mousePosParam, trackerInfo->pdwEffect); } } else { /* * The mouse is not over a window so we don't track anything. */ trackerInfo->curDragTargetHWND = 0; trackerInfo->curDragTarget = 0; } } /* * Now that we have done that, we have to tell the source to give * us feedback on the work being done by the target. If we don't * have a target, simulate no effect. */ if (trackerInfo->curDragTarget==0) { *trackerInfo->pdwEffect = DROPEFFECT_NONE; } hr = IDropSource_GiveFeedback(trackerInfo->dropSource, *trackerInfo->pdwEffect); /* * When we ask for feedback from the drop source, sometimes it will * do all the necessary work and sometimes it will not handle it * when that's the case, we must display the standard drag and drop * cursors. */ if (hr==DRAGDROP_S_USEDEFAULTCURSORS) { if (*trackerInfo->pdwEffect & DROPEFFECT_MOVE) { SetCursor(LoadCursorA(OLE32_hInstance, MAKEINTRESOURCE(1))); } else if (*trackerInfo->pdwEffect & DROPEFFECT_COPY) { SetCursor(LoadCursorA(OLE32_hInstance, MAKEINTRESOURCE(2))); } else if (*trackerInfo->pdwEffect & DROPEFFECT_LINK) { SetCursor(LoadCursorA(OLE32_hInstance, MAKEINTRESOURCE(3))); } else { SetCursor(LoadCursorA(OLE32_hInstance, MAKEINTRESOURCE(0))); } } } /*** * OLEDD_TrackStateChange() * * This method is invoked while a drag and drop operation is in effect. * It is used to notify the drop target/drop source callbacks when * the state of the keyboard or mouse button change. * * params: * trackerInfo - Pointer to the structure identifying the * drag & drop operation that is currently * active. * mousePos - Current position of the mouse in screen * coordinates. * keyState - Contains the state of the shift keys and the * mouse buttons (MK_LBUTTON and the like) */ static void OLEDD_TrackStateChange( TrackerWindowInfo* trackerInfo, POINT mousePos, DWORD keyState) { /* * Ask the drop source what to do with the operation. */ trackerInfo->returnValue = IDropSource_QueryContinueDrag( trackerInfo->dropSource, trackerInfo->escPressed, keyState); /* * All the return valued will stop the operation except the S_OK * return value. */ if (trackerInfo->returnValue!=S_OK) { /* * Make sure the message loop in DoDragDrop stops */ trackerInfo->trackingDone = TRUE; /* * Release the mouse in case the drop target decides to show a popup * or a menu or something. */ ReleaseCapture(); /* * If we end-up over a target, drop the object in the target or * inform the target that the operation was cancelled. */ if (trackerInfo->curDragTarget!=0) { switch (trackerInfo->returnValue) { /* * If the source wants us to complete the operation, we tell * the drop target that we just dropped the object in it. */ case DRAGDROP_S_DROP: { POINTL mousePosParam; /* * The documentation tells me that the coordinate should be * in the target window's coordinate space. However, the tests * I made tell me the coordinates should be in screen coordinates. */ mousePosParam.x = mousePos.x; mousePosParam.y = mousePos.y; IDropTarget_Drop(trackerInfo->curDragTarget, trackerInfo->dataObject, keyState, mousePosParam, trackerInfo->pdwEffect); break; } /* * If the source told us that we should cancel, fool the drop * target by telling it that the mouse left it's window. * Also set the drop effect to "NONE" in case the application * ignores the result of DoDragDrop. */ case DRAGDROP_S_CANCEL: IDropTarget_DragLeave(trackerInfo->curDragTarget); *trackerInfo->pdwEffect = DROPEFFECT_NONE; break; } } } } /*** * OLEDD_GetButtonState() * * This method will use the current state of the keyboard to build * a button state mask equivalent to the one passed in the * WM_MOUSEMOVE wParam. */ static DWORD OLEDD_GetButtonState() { BYTE keyboardState[256]; DWORD keyMask = 0; GetKeyboardState(keyboardState); if ( (keyboardState[VK_SHIFT] & 0x80) !=0) keyMask |= MK_SHIFT; if ( (keyboardState[VK_CONTROL] & 0x80) !=0) keyMask |= MK_CONTROL; if ( (keyboardState[VK_LBUTTON] & 0x80) !=0) keyMask |= MK_LBUTTON; if ( (keyboardState[VK_RBUTTON] & 0x80) !=0) keyMask |= MK_RBUTTON; if ( (keyboardState[VK_MBUTTON] & 0x80) !=0) keyMask |= MK_MBUTTON; return keyMask; } /*** * OLEDD_GetButtonState() * * This method will read the default value of the registry key in * parameter and extract a DWORD value from it. The registry key value * can be in a string key or a DWORD key. * * params: * regKey - Key to read the default value from * pdwValue - Pointer to the location where the DWORD * value is returned. This value is not modified * if the value is not found. */ static void OLEUTL_ReadRegistryDWORDValue( HKEY regKey, DWORD* pdwValue) { char buffer[20]; DWORD dwKeyType; DWORD cbData = 20; LONG lres; lres = RegQueryValueExA(regKey, "", NULL, &dwKeyType, (LPBYTE)buffer, &cbData); if (lres==ERROR_SUCCESS) { switch (dwKeyType) { case REG_DWORD: *pdwValue = *(DWORD*)buffer; break; case REG_EXPAND_SZ: case REG_MULTI_SZ: case REG_SZ: *pdwValue = (DWORD)strtoul(buffer, NULL, 10); break; } } } /****************************************************************************** * OleMetaFilePictFromIconAndLabel * * Returns a global memory handle to a metafile which contains the icon and * label given. * I guess the result of that should look somehow like desktop icons. * If no hIcon is given, we load the icon via lpszSourceFile and iIconIndex. * This code might be wrong at some places. */ DWORD WINAPI OleMetaFilePictFromIconAndLabel16( DWORD hIcon, PVOID lpszLabel, PVOID lpszSourceFile, DWORD iIconIndex ) { UNIMPLEMENTED; return 0; } /****************************************************************************** * DllDebugObjectRPCHook * turns on and off internal debugging, pointer is only used on macintosh */ BOOL WINAPI DllDebugObjectRPCHook(BOOL b, void *dummy) { Print(MIN_TRACE, ("stub\n")); return TRUE; } #endif