//********************************************************************* //* Microsoft Windows ** //* Copyright(c) Microsoft Corp., 1994-1995 ** //********************************************************************* // // CLSUTIL.C - some small, useful C++ classes to wrap memory allocation, // registry access, etc. // // HISTORY: // // 12/07/94 jeremys Borrowed from WNET common library // #include "inetcplp.h" #define DECL_CRTFREE #include BOOL BUFFER::Alloc( UINT cbBuffer ) { _lpBuffer = (LPTSTR)::GlobalAlloc(GPTR,cbBuffer); if (_lpBuffer != NULL) { _cb = cbBuffer; return TRUE; } return FALSE; } BOOL BUFFER::Realloc( UINT cbNew ) { LPVOID lpNew = ::GlobalReAlloc((HGLOBAL)_lpBuffer, cbNew, GMEM_MOVEABLE | GMEM_ZEROINIT); if (lpNew == NULL) return FALSE; _lpBuffer = (LPTSTR)lpNew; _cb = cbNew; return TRUE; } BUFFER::BUFFER( UINT cbInitial /* =0 */ ) : BUFFER_BASE(), _lpBuffer( NULL ) { if (cbInitial) Alloc( cbInitial ); } BUFFER::~BUFFER() { if (_lpBuffer != NULL) { GlobalFree((HGLOBAL) _lpBuffer); _lpBuffer = NULL; } } BOOL BUFFER::Resize( UINT cbNew ) { BOOL fSuccess; if (QuerySize() == 0) fSuccess = Alloc( cbNew ); else { fSuccess = Realloc( cbNew ); } if (fSuccess) _cb = cbNew; return fSuccess; } RegEntry::RegEntry(const TCHAR *pszSubKey, HKEY hkey, REGSAM regsam) { _error = RegCreateKeyEx(hkey, pszSubKey, 0, NULL, 0, regsam, NULL, &_hkey, NULL); if (_error) { bhkeyValid = FALSE; } else { bhkeyValid = TRUE; } } RegEntry::~RegEntry() { if (bhkeyValid) { RegCloseKey(_hkey); } } long RegEntry::SetValue(const TCHAR *pszValue, const TCHAR *string) { if (bhkeyValid) { _error = RegSetValueEx(_hkey, pszValue, 0, REG_SZ, (LPBYTE)string, (lstrlen(string)+1)*sizeof(TCHAR)); } return _error; } long RegEntry::SetValue(const TCHAR *pszValue, unsigned long dwNumber) { if (bhkeyValid) { _error = RegSetValueEx(_hkey, pszValue, 0, REG_BINARY, (LPBYTE)&dwNumber, sizeof(dwNumber)); } return _error; } long RegEntry::DeleteValue(const TCHAR *pszValue) { if (bhkeyValid) { _error = RegDeleteValue(_hkey, (LPTSTR) pszValue); } return _error; } TCHAR *RegEntry::GetString(const TCHAR *pszValue, TCHAR *string, unsigned long length) { DWORD dwType; if (bhkeyValid) { _error = RegQueryValueEx(_hkey, (LPTSTR) pszValue, 0, &dwType, (LPBYTE)string, &length); } if (_error) { *string = '\0'; return NULL; } return string; } long RegEntry::GetNumber(const TCHAR *pszValue, long dwDefault) { DWORD dwType; long dwNumber = 0L; DWORD dwSize = sizeof(dwNumber); if (bhkeyValid) { _error = RegQueryValueEx(_hkey, (LPTSTR) pszValue, 0, &dwType, (LPBYTE)&dwNumber, &dwSize); } if (_error) dwNumber = dwDefault; return dwNumber; } long RegEntry::MoveToSubKey(const TCHAR *pszSubKeyName) { HKEY _hNewKey; if (bhkeyValid) { _error = RegOpenKeyEx ( _hkey, pszSubKeyName, 0, KEY_READ|KEY_WRITE, &_hNewKey ); if (_error == ERROR_SUCCESS) { RegCloseKey(_hkey); _hkey = _hNewKey; } } return _error; } long RegEntry::FlushKey() { if (bhkeyValid) { _error = RegFlushKey(_hkey); } return _error; } RegEnumValues::RegEnumValues(RegEntry *pReqRegEntry) : pRegEntry(pReqRegEntry), iEnum(0), pchName(NULL), pbValue(NULL) { _error = pRegEntry->GetError(); if (_error == ERROR_SUCCESS) { _error = RegQueryInfoKey ( pRegEntry->GetKey(), // Key NULL, // Buffer for class string NULL, // Size of class string buffer NULL, // Reserved NULL, // Number of subkeys NULL, // Longest subkey name NULL, // Longest class string &cEntries, // Number of value entries &cMaxValueName, // Longest value name &cMaxData, // Longest value data NULL, // Security descriptor NULL ); // Last write time } if (_error == ERROR_SUCCESS) { if (cEntries != 0) { cMaxValueName = cMaxValueName + 1; // REG_SZ needs one more for null cMaxData = cMaxData + 1; // REG_SZ needs one more for null pchName = new TCHAR[cMaxValueName]; if (!pchName) { _error = ERROR_NOT_ENOUGH_MEMORY; } else { if (cMaxData) { pbValue = new BYTE[cMaxData]; if (!pbValue) { _error = ERROR_NOT_ENOUGH_MEMORY; } } } } } } RegEnumValues::~RegEnumValues() { delete pchName; delete pbValue; } long RegEnumValues::Next() { if (_error != ERROR_SUCCESS) { return _error; } if (cEntries == iEnum) { return ERROR_NO_MORE_ITEMS; } DWORD cchName = cMaxValueName; dwDataLength = cMaxData; _error = RegEnumValue ( pRegEntry->GetKey(), // Key iEnum, // Index of value pchName, // Address of buffer for value name &cchName, // Address for size of buffer NULL, // Reserved &dwType, // Data type pbValue, // Address of buffer for value data &dwDataLength ); // Address for size of data iEnum++; return _error; } ////////////////////////////////////////////////////////////////////////////// // // CAccessibleWrapper implementation // ////////////////////////////////////////////////////////////////////////////// CAccessibleWrapper::CAccessibleWrapper( IAccessible * pAcc ) : m_ref( 1 ), m_pAcc( pAcc ), m_pEnumVar( NULL ), m_pOleWin( NULL ) { m_pAcc->AddRef(); } CAccessibleWrapper::~CAccessibleWrapper() { m_pAcc->Release(); if( m_pEnumVar ) m_pEnumVar->Release(); if( m_pOleWin ) m_pOleWin->Release(); } // IUnknown // Implement refcounting ourselves // Also implement QI ourselves, so that we return a ptr back to the wrapper. STDMETHODIMP CAccessibleWrapper::QueryInterface(REFIID riid, void** ppv) { HRESULT hr; *ppv = NULL; if ((riid == IID_IUnknown) || (riid == IID_IDispatch) || (riid == IID_IAccessible)) { *ppv = (IAccessible *) this; } else if( riid == IID_IEnumVARIANT ) { // Get the IEnumVariant from the object we are sub-classing so we can delegate // calls. if( ! m_pEnumVar ) { hr = m_pAcc->QueryInterface( IID_IEnumVARIANT, (void **) & m_pEnumVar ); if( FAILED( hr ) ) { m_pEnumVar = NULL; return hr; } // Paranoia (in case QI returns S_OK with NULL...) if( ! m_pEnumVar ) return E_NOINTERFACE; } *ppv = (IEnumVARIANT *) this; } else if( riid == IID_IOleWindow ) { // Get the IOleWindow from the object we are sub-classing so we can delegate // calls. if( ! m_pOleWin ) { hr = m_pAcc->QueryInterface( IID_IOleWindow, (void **) & m_pOleWin ); if( FAILED( hr ) ) { m_pOleWin = NULL; return hr; } // Paranoia (in case QI returns S_OK with NULL...) if( ! m_pOleWin ) return E_NOINTERFACE; } *ppv = (IOleWindow*) this; } else return(E_NOINTERFACE); AddRef(); return(NOERROR); } STDMETHODIMP_(ULONG) CAccessibleWrapper::AddRef() { return ++m_ref; } STDMETHODIMP_(ULONG) CAccessibleWrapper::Release() { ULONG ulRet = --m_ref; if( ulRet == 0 ) delete this; return ulRet; } // IDispatch // - pass all through m_pAcc STDMETHODIMP CAccessibleWrapper::GetTypeInfoCount(UINT* pctinfo) { return m_pAcc->GetTypeInfoCount(pctinfo); } STDMETHODIMP CAccessibleWrapper::GetTypeInfo(UINT itinfo, LCID lcid, ITypeInfo** pptinfo) { return m_pAcc->GetTypeInfo(itinfo, lcid, pptinfo); } STDMETHODIMP CAccessibleWrapper::GetIDsOfNames(REFIID riid, OLECHAR** rgszNames, UINT cNames, LCID lcid, DISPID* rgdispid) { return m_pAcc->GetIDsOfNames(riid, rgszNames, cNames, lcid, rgdispid); } STDMETHODIMP CAccessibleWrapper::Invoke(DISPID dispidMember, REFIID riid, LCID lcid, WORD wFlags, DISPPARAMS* pdispparams, VARIANT* pvarResult, EXCEPINFO* pexcepinfo, UINT* puArgErr) { return m_pAcc->Invoke(dispidMember, riid, lcid, wFlags, pdispparams, pvarResult, pexcepinfo, puArgErr); } // IAccessible // - pass all through m_pAcc STDMETHODIMP CAccessibleWrapper::get_accParent(IDispatch ** ppdispParent) { return m_pAcc->get_accParent(ppdispParent); } STDMETHODIMP CAccessibleWrapper::get_accChildCount(long* pChildCount) { return m_pAcc->get_accChildCount(pChildCount); } STDMETHODIMP CAccessibleWrapper::get_accChild(VARIANT varChild, IDispatch ** ppdispChild) { return m_pAcc->get_accChild(varChild, ppdispChild); } STDMETHODIMP CAccessibleWrapper::get_accName(VARIANT varChild, BSTR* pszName) { return m_pAcc->get_accName(varChild, pszName); } STDMETHODIMP CAccessibleWrapper::get_accValue(VARIANT varChild, BSTR* pszValue) { return m_pAcc->get_accValue(varChild, pszValue); } STDMETHODIMP CAccessibleWrapper::get_accDescription(VARIANT varChild, BSTR* pszDescription) { return m_pAcc->get_accDescription(varChild, pszDescription); } STDMETHODIMP CAccessibleWrapper::get_accRole(VARIANT varChild, VARIANT *pvarRole) { return m_pAcc->get_accRole(varChild, pvarRole); } STDMETHODIMP CAccessibleWrapper::get_accState(VARIANT varChild, VARIANT *pvarState) { return m_pAcc->get_accState(varChild, pvarState); } STDMETHODIMP CAccessibleWrapper::get_accHelp(VARIANT varChild, BSTR* pszHelp) { return m_pAcc->get_accHelp(varChild, pszHelp); } STDMETHODIMP CAccessibleWrapper::get_accHelpTopic(BSTR* pszHelpFile, VARIANT varChild, long* pidTopic) { return m_pAcc->get_accHelpTopic(pszHelpFile, varChild, pidTopic); } STDMETHODIMP CAccessibleWrapper::get_accKeyboardShortcut(VARIANT varChild, BSTR* pszKeyboardShortcut) { return m_pAcc->get_accKeyboardShortcut(varChild, pszKeyboardShortcut); } STDMETHODIMP CAccessibleWrapper::get_accFocus(VARIANT * pvarFocusChild) { return m_pAcc->get_accFocus(pvarFocusChild); } STDMETHODIMP CAccessibleWrapper::get_accSelection(VARIANT * pvarSelectedChildren) { return m_pAcc->get_accSelection(pvarSelectedChildren); } STDMETHODIMP CAccessibleWrapper::get_accDefaultAction(VARIANT varChild, BSTR* pszDefaultAction) { return m_pAcc->get_accDefaultAction(varChild, pszDefaultAction); } STDMETHODIMP CAccessibleWrapper::accSelect(long flagsSel, VARIANT varChild) { return m_pAcc->accSelect(flagsSel, varChild); } STDMETHODIMP CAccessibleWrapper::accLocation(long* pxLeft, long* pyTop, long* pcxWidth, long* pcyHeight, VARIANT varChild) { return m_pAcc->accLocation(pxLeft, pyTop, pcxWidth, pcyHeight, varChild); } STDMETHODIMP CAccessibleWrapper::accNavigate(long navDir, VARIANT varStart, VARIANT * pvarEndUpAt) { return m_pAcc->accNavigate(navDir, varStart, pvarEndUpAt); } STDMETHODIMP CAccessibleWrapper::accHitTest(long xLeft, long yTop, VARIANT * pvarChildAtPoint) { return m_pAcc->accHitTest(xLeft, yTop, pvarChildAtPoint); } STDMETHODIMP CAccessibleWrapper::accDoDefaultAction(VARIANT varChild) { return m_pAcc->accDoDefaultAction(varChild); } STDMETHODIMP CAccessibleWrapper::put_accName(VARIANT varChild, BSTR szName) { return m_pAcc->put_accName(varChild, szName); } STDMETHODIMP CAccessibleWrapper::put_accValue(VARIANT varChild, BSTR pszValue) { return m_pAcc->put_accValue(varChild, pszValue); } // IEnumVARIANT // - pass all through m_pEnumVar STDMETHODIMP CAccessibleWrapper::Next(ULONG celt, VARIANT* rgvar, ULONG * pceltFetched) { return m_pEnumVar->Next(celt, rgvar, pceltFetched); } STDMETHODIMP CAccessibleWrapper::Skip(ULONG celt) { return m_pEnumVar->Skip(celt); } STDMETHODIMP CAccessibleWrapper::Reset() { return m_pEnumVar->Reset(); } STDMETHODIMP CAccessibleWrapper::Clone(IEnumVARIANT ** ppenum) { return m_pEnumVar->Clone(ppenum); } // IOleWindow // - pass all through m_pOleWin STDMETHODIMP CAccessibleWrapper::GetWindow(HWND* phwnd) { return m_pOleWin->GetWindow(phwnd); } STDMETHODIMP CAccessibleWrapper::ContextSensitiveHelp(BOOL fEnterMode) { return m_pOleWin->ContextSensitiveHelp(fEnterMode); }