/****************************************************************************** * LoadTypeInfo -- Gets the type information of an object's interface from the * type library. Returns S_OK if successful. ******************************************************************************/ STDMETHODIMP RTDServer::LoadTypeInfo(ITypeInfo** pptinfo, REFCLSID clsid, LCID lcid) { HRESULT hr; LPTYPELIB ptlib = NULL; LPTYPEINFO ptinfo = NULL; *pptinfo = NULL; // First try to load the type info from a registered type library hr = LoadRegTypeLib(LIBID_RTDServerLib, 1, 0, lcid, &ptlib); if (FAILED(hr)) { //can't get the type information return hr; } // Get type information for interface of the object. hr = ptlib->GetTypeInfoOfGuid(clsid, &ptinfo); if (FAILED(hr)) { ptlib->Release(); return hr; } ptlib->Release(); *pptinfo = ptinfo; return S_OK; }
HRESULT CoFoldersMonitor::LoadTypeInfo(ITypeInfo **ppTypeInfo, const CLSID &libId, const CLSID &iid, LCID lcid) { HRESULT hr; LPTYPELIB ptlib = nullptr; LPTYPEINFO ptinfo = nullptr; *ppTypeInfo = nullptr; // Load type library. hr = ::LoadRegTypeLib(libId, g_majorVer, g_minorVer, lcid, &ptlib); if (FAILED(hr)) { com::Trace(L"[%s] : LoadRegTypeLib failed ! (%d)", hr); return hr; } // Get the information for the interface of the object. hr = ptlib->GetTypeInfoOfGuid(iid, &ptinfo); if (FAILED(hr)) { com::Trace(L"[%s] : GetTypeInfoOfGuid failed ! (%d)", hr); ptlib->Release(); return hr; } ptlib->Release(); *ppTypeInfo = ptinfo; return NOERROR; }
HRESULT CCmdTarget::GetTypeInfoOfGuid(LCID lcid, REFGUID guid, LPTYPEINFO* ppTypeInfo) { USES_CONVERSION; AfxLockGlobals(CRIT_TYPELIBCACHE); HRESULT hr = TYPE_E_CANTLOADLIBRARY; CTypeLibCache* pTypeLibCache = GetTypeLibCache(); LPTYPELIB pTypeLib = NULL; // If type info is already cached, just return it. if (pTypeLibCache->LookupTypeInfo(lcid, guid, ppTypeInfo)) { hr = S_OK; } else { // If type library isn't already cached, try to locate it. if (!pTypeLibCache->Lookup(lcid, &pTypeLib)) { // First, try getting the subclass to load the type library // (normally this goes through LoadRegTypeLib). if (FAILED(GetTypeLib(lcid, &pTypeLib))) { AFX_MANAGE_STATE(m_pModuleState); // If that failed, try loading the type library from our own // resources. TCHAR szPath[_MAX_PATH]; GetModuleFileName(AfxGetInstanceHandle(), szPath, _MAX_PATH); if (FAILED(LoadTypeLib(T2COLE(szPath), &pTypeLib))) pTypeLib = NULL; } pTypeLibCache->Cache(lcid, pTypeLib); } // If we got a type library, extract the requested type info. if (pTypeLib != NULL) { hr = pTypeLib->GetTypeInfoOfGuid(guid, ppTypeInfo); pTypeLib->Release(); pTypeLibCache->CacheTypeInfo(lcid, guid, *ppTypeInfo); } } AfxUnlockGlobals(CRIT_TYPELIBCACHE); return hr; }
// LIBID_OliverCom := IID for type library HRESULT Sorter::loadITypeInfo() { LPTYPELIB pTypeLib; HRESULT hr = LoadRegTypeLib( LIBID_ComSort, 1, 0, 0, &pTypeLib ); if( SUCCEEDED(hr) ) { hr = pTypeLib->GetTypeInfoOfGuid( IID_ISort, &pITypeInfo ); if( SUCCEEDED(hr) ) { pTypeLib->Release(); pITypeInfo->AddRef(); } } return hr; }
int PolylineTest::writePersistFile() { ComPtr<IPolyline> pl; auto hr = CoCreateInstance(CLSID_PolylineObj, NULL, CLSCTX_INPROC_SERVER, IID_IPolyline, (void**)&pl); if (FAILED(hr)) { return -1; } LPTYPEINFO pTypeInfo = NULL; LPTYPELIB pTypelib = NULL; IRecordInfo* pRecInfo = NULL; hr = LoadRegTypeLib(LIBID_GraphicsLibrary, 1, 0, GetUserDefaultLCID(), &pTypelib); _ASSERT(SUCCEEDED(hr) && pTypelib); hr = pTypelib->GetTypeInfoOfGuid(__uuidof(PolyPoint), &pTypeInfo); _ASSERT(SUCCEEDED(hr) && pTypeInfo); hr = GetRecordInfoFromTypeInfo(pTypeInfo, &pRecInfo); _ASSERT(SUCCEEDED(hr) && pRecInfo); pTypeInfo->Release(); pTypelib->Release(); std::vector<POINT> points = { { 1, 2 }, { 100, 200 }, { 300, 400 } }; auto psa = SafeArrayCreateVectorEx(VT_RECORD, 0, points.size(), pRecInfo); PolyPoint* pps; SafeArrayAccessData(psa, (void**)&pps); _ASSERT(psa); for (size_t i = 0; i < points.size(); ++i) { pps[i].x = points[i].x; pps[i].y = points[i].y; } pl->put_Points(psa); outputPoints(pl); ComPtr<IPersistFile> pf; pl->QueryInterface(IID_IPersistFile, (void**)&pf); pf->Save(kFileName, TRUE); pf->SaveCompleted(kFileName); return 0; }
BOOL CSTEditorApp::InitInstance() { HRESULT hr; COleMessageFilter *pFilter; USES_CONVERSION; #ifdef STEDITOR_DEBUG DebugBreak(); #endif // Initialize OLE libraries if (!AfxOleInit()) { AfxMessageBox(IDP_OLE_INIT_FAILED); return FALSE; } hr = ::CoInitializeSecurity (NULL, -1, NULL, NULL, RPC_C_AUTHN_LEVEL_NONE, RPC_C_IMP_LEVEL_IMPERSONATE, NULL, EOAC_NONE, NULL); assert (SUCCEEDED (hr)); pFilter = AfxOleGetMessageFilter (); assert (pFilter); if (pFilter != NULL) { pFilter->EnableNotRespondingDialog (FALSE); pFilter->EnableBusyDialog (FALSE); }; AfxEnableControlContainer(); // Standard initialization // If you are not using these features and wish to reduce the size // of your final executable, you should remove from the following // the specific initialization routines you do not need. #ifdef _AFXDLL Enable3dControls(); // Call this when using MFC in a shared DLL #else Enable3dControlsStatic(); // Call this when linking to MFC statically #endif _Module.Init (ObjectMap, m_hInstance); // Change the registry key under which our settings are stored. // You should modify this string to be something appropriate // such as the name of your company or organization. SetRegistryKey (_T("Softing\\4CONTROLV2\\4CONTROL Engineering")); // keywords are case insensitive // AUTOFMT 08.08.06 SIS >> InitRegistry(); // AUTOFMT 08.08.06 SIS << LoadStdProfileSettings(); // Load standard INI file options (including MRU) // Register the application's document templates. Document templates // serve as the connection between documents, frame windows and views. m_pDocTemplate = new CMultiDocTemplate( IDR_STTYPE, RUNTIME_CLASS(CSTEditorDoc), RUNTIME_CLASS(CChildFrame), // custom MDI child frame RUNTIME_CLASS(CSTEditorView)); m_pDocTemplate->SetServerInfo( IDR_STTYPE_SRVR_EMB, IDR_STTYPE_SRVR_IP, RUNTIME_CLASS(CInPlaceFrame)); AddDocTemplate(m_pDocTemplate); // Connect the COleTemplateServer to the document template. // The COleTemplateServer creates new documents on behalf // of requesting OLE containers by using information // specified in the document template. m_server.ConnectTemplate(clsid, m_pDocTemplate, FALSE); // Register all OLE server factories as running. This enables the // OLE libraries to create objects from other applications. COleTemplateServer::RegisterAll(); // Note: MDI applications register all server objects without regard // to the /Embedding or /Automation on the command line. // create main MDI Frame window CMainFrame* pMainFrame = new CMainFrame; if (!pMainFrame->LoadFrame(IDR_MAINFRAME)) return FALSE; m_pMainWnd = pMainFrame; // Enable drag/drop open m_pMainWnd->DragAcceptFiles(); // Enable DDE Execute open EnableShellOpen(); RegisterShellFileTypes(TRUE); // Parse command line for standard shell commands, DDE, file open CSTCommandLineInfo cmdInfo; ParseCommandLine(cmdInfo); // Check to see if launched as OLE server if (cmdInfo.m_bRunEmbedded || cmdInfo.m_bRunAutomated) { // Application was run with /Embedding or /Automation. Don't show the // main window in this case. return TRUE; } // When a server application is launched stand-alone, it is a good idea // to update the system registry in case it has been damaged. m_server.UpdateRegistry(OAT_DOC_OBJECT_SERVER); COleObjectFactory::UpdateRegistryAll(); if (cmdInfo.m_bRegServer) { TCHAR szModule[_MAX_PATH+10]; LPOLESTR pszModule; HRESULT hr; LPTYPELIB pTypeLib; USES_CONVERSION; ::GetModuleFileName (m_hInstance, szModule, _MAX_PATH); pszModule = T2OLE (szModule); hr = LoadTypeLib (pszModule, &pTypeLib); if (SUCCEEDED (hr)) { hr = RegisterTypeLib (pTypeLib, pszModule, NULL); pTypeLib->Release (); }; return (FALSE); }; // Prevents ProcessShellCommand from displaying // a message box when unregistering. if (cmdInfo.m_nShellCommand == CCommandLineInfo::AppUnregister) { cmdInfo.m_bRunEmbedded = true; }; // Dispatch commands specified on the command line if (!ProcessShellCommand(cmdInfo)) return FALSE; // The main window has been initialized, so show and update it. pMainFrame->ShowWindow(m_nCmdShow); pMainFrame->UpdateWindow(); return TRUE; }
HRESULT CoCOMServer::LoadTypeInfo(ITypeInfo ** pptinfo, const CLSID &libid, const CLSID &iid, LCID lcid) { HRESULT hr; LPTYPELIB ptlib = NULL; LPTYPEINFO ptinfo = NULL; *pptinfo = NULL; // Load type library. hr = LoadRegTypeLib(libid, 1, 0, lcid, &ptlib); if (FAILED(hr)) { // search for TypeLib in current dll WCHAR buf[MAX_PATH * sizeof(WCHAR)]; // LoadTypeLibEx needs Unicode string if (GetModuleFileNameW(g_hInstance, buf, _countof(buf))) hr = LoadTypeLibEx(buf,REGKIND_NONE,&ptlib); else // MemoryModule, search troug g_ListOfMemoryModules and use temp file to extract and load TypeLib file { HMEMORYMODULE hmodule = (HMEMORYMODULE)(g_hMemoryModule); HMEMORYRSRC res = MemoryFindResource(hmodule,_T("TYPELIB"),MAKEINTRESOURCE(1)); if (!res) return TYPE_E_INVALIDSTATE; DWORD resSize = MemorySizeOfResource(hmodule,res); // Path to temp directory + our temporary file name DWORD tempPathLength = GetTempPathW(MAX_PATH, buf); wcscpy(buf + tempPathLength,L"AutoHotkey.MemoryModule.temp.tlb"); // Write manifest to temportary file // Using FILE_ATTRIBUTE_TEMPORARY will avoid writing it to disk // It will be deleted after LoadTypeLib has been called. HANDLE hFile = CreateFileW(buf,GENERIC_WRITE,NULL,NULL,CREATE_ALWAYS,FILE_ATTRIBUTE_TEMPORARY,NULL); if (hFile == INVALID_HANDLE_VALUE) { #if DEBUG_OUTPUT OutputDebugStringA("CreateFile failed.\n"); #endif return TYPE_E_CANTLOADLIBRARY; //failed to create file, continue and try loading without CreateActCtx } DWORD byteswritten = 0; WriteFile(hFile,MemoryLoadResource(hmodule,res),resSize,&byteswritten,NULL); CloseHandle(hFile); if (byteswritten == 0) { #if DEBUG_OUTPUT OutputDebugStringA("WriteFile failed.\n"); #endif return TYPE_E_CANTLOADLIBRARY; //failed to write data, continue and try loading } hr = LoadTypeLibEx(buf,REGKIND_NONE,&ptlib); // Open file and automatically delete on CloseHandle (FILE_FLAG_DELETE_ON_CLOSE) hFile = CreateFileW(buf,GENERIC_WRITE,FILE_SHARE_DELETE,NULL,OPEN_EXISTING,FILE_ATTRIBUTE_TEMPORARY|FILE_FLAG_DELETE_ON_CLOSE,NULL); CloseHandle(hFile); } if (FAILED(hr)) return hr; } // Get type information for interface of the object. hr = ptlib->GetTypeInfoOfGuid(iid, &ptinfo); if (FAILED(hr)) { ptlib->Release(); return hr; } ptlib->Release(); *pptinfo = ptinfo; return NOERROR; }
/*func*------------------------------------------------------------------------ description: in : out: -----------------------------------------------------------------------------*/ BOOL CGrEditorApp::InitInstance() { HRESULT hr; HFONT hFont; LOGFONT logFont; CGdiObject *pGdiObject; USES_CONVERSION; // Initialize OLE libraries if (!AfxOleInit()) { AfxMessageBox(IDP_GR_OLE_INIT_FAILED); return FALSE; } hr = ::CoInitializeSecurity (NULL, -1, NULL, NULL, RPC_C_AUTHN_LEVEL_NONE, RPC_C_IMP_LEVEL_IMPERSONATE, NULL, EOAC_NONE, NULL); assert (SUCCEEDED (hr)); // prevent the Server-Busy dialog COleMessageFilter *pFilter = AfxOleGetMessageFilter(); assert (pFilter); if (pFilter != NULL) { pFilter->EnableNotRespondingDialog(FALSE); pFilter->EnableBusyDialog(FALSE); } AfxEnableControlContainer(); // Standard initialization // If you are not using these features and wish to reduce the size // of your final executable, you should remove from the following // the specific initialization routines you do not need. #ifdef _AFXDLL Enable3dControls(); // Call this when using MFC in a shared DLL #else Enable3dControlsStatic(); // Call this when linking to MFC statically #endif _Module.Init (ObjectMap, m_hInstance); // Change the registry key under which our settings are stored. // TODO: You should modify this string to be something appropriate // such as the name of your company or organization. SetRegistryKey (_T ("Softing\\4CONTROLV2\\4CONTROL Engineering")); int iValue; CString strKey, strSec; strSec.LoadString(IDS_GR_REG_SECTION); strKey.LoadString(IDS_GR_REG_RUBBLINE); iValue = GetProfileInt ((LPCTSTR)strSec, (LPCTSTR)strKey, 0); WriteProfileInt ((LPCTSTR)strSec, (LPCTSTR)strKey, iValue ); // set Line draw mode to rubberlines strKey.LoadString(IDS_GR_REG_RUBB_RECON); iValue = GetProfileInt ((LPCTSTR)strSec, (LPCTSTR)strKey, 1); WriteProfileInt ((LPCTSTR)strSec, (LPCTSTR)strKey, iValue ); // set Line draw mode to rubberlines strKey.LoadString(IDS_GR_REG_ZOOMVALUE); iValue = GetProfileInt ((LPCTSTR)strSec, (LPCTSTR)strKey, 100); WriteProfileInt ((LPCTSTR)strSec, (LPCTSTR)strKey, iValue ); // set zoom factor for 4gr // default sizes for element insertion strKey.LoadString(IDS_GR_REG_STEPSIZE); iValue = GetProfileInt ((LPCTSTR)strSec, (LPCTSTR)strKey, (4<<16)+4); // <0: AutoSize:on; HiWord:X; LoWord:Y WriteProfileInt ((LPCTSTR)strSec, (LPCTSTR)strKey, iValue ); // ST actions we yes the STEditor settings .. WriteProfileInt (_T ("ST"), _T ("Case" ), 0 ); // keywords are case insensitive WriteProfileInt (_T ("ST"), _T ("Chroma" ), 1 ); // coloring enabled WriteProfileString (_T ("ST"), _T ("Background" ), _T ("255,255,255" )); // background color white WriteProfileString (_T ("ST"), _T ("Default Text" ), _T ("0,0,0" )); // text color black WriteProfileString (_T ("ST"), _T ("Quote" ), _T ("128,128,128" )); // string color grey WriteProfileString (_T ("ST"), _T ("Comment" ), _T ("0,128,0" )); // comment color red WriteProfileString (_T ("ST"), _T ("Comment Start 1"), _T ("(*" )); // comments start with (* WriteProfileString (_T ("ST"), _T ("Comment End 1" ), _T ("*)" )); // comments end with *) WriteProfileInt (_T ("ST"), _T ("Keep Tabs" ), 0 ); // tabs are not converted to spaces WriteProfileInt (_T ("ST"), _T ("Show Tabs" ), 0 ); // tabs are not visualized WriteProfileInt (_T ("ST"), _T ("Tab Size" ), 4 ); // tab is as wide as 4 spaces WriteProfileString (_T ("ST"), _T ("Keywords" ), _T ("stkeywords.ini")); // // sizeof (LOGFONT) gives you the maximum size of a LOGFONT structure. // CGdiObject::GetObject possibly returns less because the font name // at the end of the LOGFONT structure may not take the whole space // reserved for it. hFont = (HFONT)GetStockObject (ANSI_FIXED_FONT); pGdiObject = CGdiObject::FromHandle (hFont); if (pGdiObject != NULL && pGdiObject->GetObject (sizeof (LOGFONT), &logFont) != 0) { int iFontSize; CWindowDC dc (m_pMainWnd); WriteProfileString (_T ("ST"), _T ("Font Name"), A2T (logFont.lfFaceName)); iFontSize = MulDiv (logFont.lfHeight, 72, dc.GetDeviceCaps (LOGPIXELSY)); WriteProfileInt (_T ("ST"), _T ("Font Size"), iFontSize); WriteProfileInt (_T ("ST"), _T ("Font Weight"), logFont.lfWeight); WriteProfileInt (_T ("ST"), _T ("Font Italic"), logFont.lfItalic); WriteProfileInt (_T ("ST"), _T ("CharSet"), logFont.lfCharSet); }; LoadStdProfileSettings(); // Load standard INI file options (including MRU) // Register the application's document templates. Document templates // serve as the connection between documents, frame windows and views. m_pDocTemplate = new CMultiDocTemplate( IDR_GR_TYPE, RUNTIME_CLASS(CGrEditorDoc), RUNTIME_CLASS(CChildFrame), // custom MDI child frame RUNTIME_CLASS(CGrEditorView)); m_pDocTemplate->SetServerInfo( IDR_GR_TYPE_SRVR_EMB, IDR_GR_TYPE_SRVR_IP, RUNTIME_CLASS(CInPlaceFrame)); AddDocTemplate(m_pDocTemplate); // Connect the COleTemplateServer to the document template. // The COleTemplateServer creates new documents on behalf // of requesting OLE containers by using information // specified in the document template. m_server.ConnectTemplate(clsid, m_pDocTemplate, FALSE); // Register all OLE server factories as running. This enables the // OLE libraries to create objects from other applications. COleTemplateServer::RegisterAll(); // Note: MDI applications register all server objects without regard // to the /Embedding or /Automation on the command line. // create main MDI Frame window CMainFrame* pMainFrame = new CMainFrame; if (!pMainFrame->LoadFrame(IDR_GR_MAINFRAME)) return FALSE; m_pMainWnd = pMainFrame; // create a dummy image .. to solve the problem with DeleteTempMap in OnIdle m_pDummyImage = new CImageList(); VERIFY (m_pDummyImage->Create (16, 15, TRUE, 0, 1)); CBitmap bm; bm.LoadBitmap (IDR_GR_MAINFRAME); m_pDummyImage->Add (&bm, RGB (192, 192, 192)); // Enable drag/drop open m_pMainWnd->DragAcceptFiles(); // Enable DDE Execute open EnableShellOpen(); RegisterShellFileTypes(TRUE); // Parse command line for standard shell commands, DDE, file open CSTCommandLineInfo cmdInfo; ParseCommandLine(cmdInfo); // Check to see if launched as OLE server if (cmdInfo.m_bRunEmbedded || cmdInfo.m_bRunAutomated) { // Application was run with /Embedding or /Automation. Don't show the // main window in this case. return TRUE; } // When a server application is launched stand-alone, it is a good idea // to update the system registry in case it has been damaged. m_server.UpdateRegistry(OAT_DOC_OBJECT_SERVER); COleObjectFactory::UpdateRegistryAll(); if (cmdInfo.m_bRegServer) { TCHAR szModule[_MAX_PATH+10]; LPOLESTR pszModule; HRESULT hr; LPTYPELIB pTypeLib; USES_CONVERSION; ::GetModuleFileName (m_hInstance, szModule, _MAX_PATH); pszModule = T2OLE (szModule); hr = LoadTypeLib (pszModule, &pTypeLib); if (SUCCEEDED (hr)) { hr = RegisterTypeLib (pTypeLib, pszModule, NULL); pTypeLib->Release (); }; return (FALSE); }; // Prevents ProcessShellCommand from displaying // a message box when unregistering. if (cmdInfo.m_nShellCommand == CCommandLineInfo::AppUnregister) { cmdInfo.m_bRunEmbedded = true; }; // Dispatch commands specified on the command line if (!ProcessShellCommand(cmdInfo)) return FALSE; // The main window has been initialized, so show and update it. pMainFrame->ShowWindow(m_nCmdShow); pMainFrame->UpdateWindow(); return TRUE; }