// AttrStrW.cpp : Implementation of CMLStrAttrWStr #include "private.h" #ifdef NEWMLSTR #include "attrstrw.h" #include "mlsbwalk.h" ///////////////////////////////////////////////////////////////////////////// // CMLStrAttrWStr CMLStrAttrWStr::CMLStrAttrWStr(void) : m_pMLStr(NULL) { } CMLStrAttrWStr::~CMLStrAttrWStr(void) { VERIFY(SetClient(NULL)); // Clean m_pMLStr } STDMETHODIMP CMLStrAttrWStr::SetClient(IUnknown* pUnk) { ASSERT_THIS; ASSERT_READ_PTR_OR_NULL(pUnk); HRESULT hr = S_OK; // Release old client IMLangString* const pMLStr = m_pMLStr; if (pMLStr && SUCCEEDED(hr = StartEndConnectionMLStr(pMLStr, FALSE))) // End connection to MLStr { pMLStr->Release(); m_pMLStr = NULL; } // Set new client if (SUCCEEDED(hr) && pUnk) // pUnk is given { ASSERT(!m_pMLStr); if (SUCCEEDED(hr = pUnk->QueryInterface(IID_IMLangString, (void**)&m_pMLStr))) { ASSERT_READ_PTR(m_pMLStr); if (FAILED(hr = StartEndConnectionMLStr(pUnk, TRUE))) // Start connection to MLStr { m_pMLStr->Release(); m_pMLStr = NULL; } } } return hr; } HRESULT CMLStrAttrWStr::StartEndConnectionMLStr(IUnknown* const pUnk, BOOL fStart) { ASSERT_THIS; ASSERT_READ_PTR(pUnk); HRESULT hr; IConnectionPointContainer* pCPC; if (SUCCEEDED(hr = pUnk->QueryInterface(IID_IConnectionPointContainer, (void**)&pCPC))) { ASSERT_READ_PTR(pCPC); IConnectionPoint* pCP; if (SUCCEEDED(hr = pCPC->FindConnectionPoint(IID_IMLangStringNotifySink, &pCP))) { ASSERT_READ_PTR(pCP); if (fStart) hr = pCP->Advise((IMLStrAttr*)this, &m_dwMLStrCookie); else hr = pCP->Unadvise(m_dwMLStrCookie); pCP->Release(); } pCPC->Release(); } return hr; } STDMETHODIMP CMLStrAttrWStr::GetClient(IUnknown** ppUnk) { ASSERT_THIS; ASSERT_WRITE_PTR_OR_NULL(ppUnk); if (ppUnk) { IUnknown* const pUnk = m_pMLStr; *ppUnk = pUnk; if (pUnk) pUnk->AddRef(); } return S_OK; } STDMETHODIMP CMLStrAttrWStr::QueryAttr(REFIID riid, LPARAM lParam, IUnknown** ppUnk, long* lConf) { return E_NOTIMPL; // CMLStrAttrWStr::QueryAttr() } STDMETHODIMP CMLStrAttrWStr::GetAttrInterface(IID* pIID, LPARAM* plParam) { return E_NOTIMPL; // CMLStrAttrWStr::GetAttrInterface() } STDMETHODIMP CMLStrAttrWStr::SetMLStr(long lDestPos, long lDestLen, IUnknown* pSrcMLStr, long lSrcPos, long lSrcLen) { return E_NOTIMPL; // CMLStrAttrWStr::SetMLStr() } STDMETHODIMP CMLStrAttrWStr::SetWStr(long lDestPos, long lDestLen, const WCHAR* pszSrc, long cchSrc, long* pcchActual, long* plActualLen) { ASSERT_THIS; ASSERT_READ_BLOCK(pszSrc, cchSrc); ASSERT_WRITE_PTR_OR_NULL(pcchActual); ASSERT_WRITE_PTR_OR_NULL(plActualLen); HRESULT hr = CheckThread(); CLock Lock(TRUE, this, hr); long cchDestPos; long cchDestLen; long cchActual; long lActualLen; if (SUCCEEDED(hr) && (GetBufFlags() & MLSTR_WRITE)) hr = E_INVALIDARG; // Not writable StrBuf; TODO: Replace StrBuf in this case if allowed if (SUCCEEDED(hr) && SUCCEEDED(hr = PrepareMLStrBuf()) && SUCCEEDED(hr = RegularizePosLen(&lDestPos, &lDestLen)) && SUCCEEDED(hr = GetCCh(0, lDestPos, &cchDestPos)) && SUCCEEDED(hr = GetCCh(cchDestPos, lDestLen, &cchDestLen))) { IMLangStringBufW* const pMLStrBufW = GetMLStrBufW(); if (pMLStrBufW) { if (cchSrc > cchDestLen) { hr = pMLStrBufW->Insert(cchDestPos, cchSrc - cchDestLen, (pcchActual || plActualLen) ? &cchSrc : NULL); cchSrc += cchDestLen; } else if (cchSrc < cchDestLen) { hr = pMLStrBufW->Delete(cchDestPos, cchDestLen - cchSrc); } CMLStrBufWalkW BufWalk(pMLStrBufW, cchDestPos, cchSrc, (pcchActual || plActualLen)); lActualLen = 0; while (BufWalk.Lock(hr)) { long lLen; if (plActualLen) hr = CalcLenW(pszSrc, BufWalk.GetCCh(), &lLen); if (SUCCEEDED(hr)) { lActualLen += lLen; ::memcpy(BufWalk.GetStr(), pszSrc, sizeof(WCHAR) * BufWalk.GetCCh()); pszSrc += BufWalk.GetCCh(); } BufWalk.Unlock(hr); } cchActual = BufWalk.GetDoneCCh(); } else { IMLangStringBufA* const pMLStrBufA = GetMLStrBufA(); // Should succeed because PrepareMLStrBuf() above was succeeded const UINT uCodePage = GetCodePage(); long cchSrcA; if (SUCCEEDED(hr = ConvWStrToAStr(pcchActual || plActualLen, uCodePage, pszSrc, cchSrc, NULL, 0, &cchSrcA, NULL, NULL))) { if (cchSrcA > cchDestLen) { hr = pMLStrBufA->Insert(cchDestPos, cchSrcA - cchDestLen, (pcchActual || plActualLen) ? &cchSrcA : NULL); cchSrcA += cchDestLen; } else if (cchSrcA < cchDestLen) { hr = pMLStrBufA->Delete(cchDestPos, cchDestLen - cchSrcA); } } CMLStrBufWalkA BufWalk(pMLStrBufA, cchDestPos, cchSrcA, (pcchActual || plActualLen)); cchActual = 0; lActualLen = 0; while (BufWalk.Lock(hr)) { long cchWrittenA; long cchWrittenW; long lWrittenLen; if (SUCCEEDED(hr = ConvWStrToAStr(pcchActual || plActualLen, uCodePage, pszSrc, cchSrc, BufWalk.GetStr(), BufWalk.GetCCh(), &cchWrittenA, &cchWrittenW, &lWrittenLen))) { pszSrc += cchWrittenW; cchSrc -= cchWrittenW; cchActual += cchWrittenW; lActualLen += lWrittenLen; } BufWalk.Unlock(hr, cchWrittenA); } } } if (SUCCEEDED(hr)) { if (pcchActual) *pcchActual = cchActual; if (plActualLen) *plActualLen = lActualLen; } else { if (pcchActual) *pcchActual = 0; if (plActualLen) *plActualLen = 0; } return hr; } STDMETHODIMP CMLStrAttrWStr::SetStrBufW(long lDestPos, long lDestLen, IMLangStringBufW* pSrcBuf, long* pcchActual, long* plActualLen) { ASSERT_THIS; return SetStrBufCommon(this, lDestPos, lDestLen, 0, pSrcBuf, NULL, pcchActual, plActualLen); } STDMETHODIMP CMLStrAttrWStr::GetWStr(long lSrcPos, long lSrcLen, WCHAR* pszDest, long cchDest, long* pcchActual, long* plActualLen) { ASSERT_THIS; ASSERT_WRITE_BLOCK_OR_NULL(pszDest, cchDest); ASSERT_WRITE_PTR_OR_NULL(pcchActual); ASSERT_WRITE_PTR_OR_NULL(plActualLen); HRESULT hr = CheckThread(); CLock Lock(FALSE, this, hr); long cchSrcPos; long cchSrcLen; long cchActual; long lActualLen; if (SUCCEEDED(hr) && SUCCEEDED(hr = RegularizePosLen(&lSrcPos, &lSrcLen)) && SUCCEEDED(hr = GetCCh(0, lSrcPos, &cchSrcPos)) && SUCCEEDED(hr = GetCCh(cchSrcPos, lSrcLen, &cchSrcLen))) { IMLangStringBufW* const pMLStrBufW = GetMLStrBufW(); IMLangStringBufA* const pMLStrBufA = GetMLStrBufA(); if (pszDest) cchActual = min(cchSrcLen, cchDest); else cchActual = cchSrcLen; if (pMLStrBufW) { CMLStrBufWalkW BufWalk(pMLStrBufW, cchSrcPos, cchActual, (pcchActual || plActualLen)); lActualLen = 0; while (BufWalk.Lock(hr)) { long lLen; if (plActualLen) hr = CalcLenW(BufWalk.GetStr(), BufWalk.GetCCh(), &lLen); if (SUCCEEDED(hr)) { lActualLen += lLen; if (pszDest) { ::memcpy(pszDest, BufWalk.GetStr(), sizeof(WCHAR) * BufWalk.GetCCh()); pszDest += BufWalk.GetCCh(); } } BufWalk.Unlock(hr); } cchActual = BufWalk.GetDoneCCh(); } else if (pMLStrBufA) { CMLStrBufWalkA BufWalk(pMLStrBufA, cchSrcPos, cchActual, (pcchActual || plActualLen)); cchActual = 0; lActualLen = 0; while ((!pszDest || cchDest > 0) && BufWalk.Lock(hr)) { CHAR* const pszBuf = BufWalk.GetStr(); long cchWrittenA; long cchWrittenW; long lWrittenLen; if (SUCCEEDED(hr = ConvAStrToWStr(GetCodePage(), pszBuf, BufWalk.GetCCh(), pszDest, cchDest, &cchWrittenA, &cchWrittenW, &lWrittenLen))) { lActualLen += lWrittenLen; cchActual += cchWrittenW; if (pszDest) { pszDest += cchWrittenW; cchDest -= cchWrittenW; } } BufWalk.Unlock(hr, cchWrittenA); } } else { ASSERT(cchActual == 0); // MLStrBuf is not available lActualLen = 0; } } if (SUCCEEDED(hr)) { if (pcchActual) *pcchActual = cchActual; if (plActualLen) *plActualLen = lActualLen; } else { if (pcchActual) *pcchActual = 0; if (plActualLen) *plActualLen = 0; } return hr; } STDMETHODIMP CMLStrAttrWStr::GetStrBufW(long lSrcPos, long lSrcMaxLen, IMLangStringBufW** ppDestBuf, long* plDestLen) { ASSERT_THIS; ASSERT_WRITE_PTR_OR_NULL(ppDestBuf); ASSERT_WRITE_PTR_OR_NULL(plDestLen); HRESULT hr = CheckThread(); CLock Lock(FALSE, this, hr); IMLangStringBufW* pMLStrBufW; if (SUCCEEDED(hr) && SUCCEEDED(hr = RegularizePosLen(&lSrcPos, &lSrcMaxLen)) && lSrcMaxLen <= 0) { hr = E_INVALIDARG; } if (SUCCEEDED(hr)) { pMLStrBufW = GetMLStrBufW(); if (!pMLStrBufW) hr = MLSTR_E_STRBUFNOTAVAILABLE; } if (SUCCEEDED(hr)) { if (ppDestBuf) { pMLStrBufW->AddRef(); *ppDestBuf = pMLStrBufW; } if (plDestLen) *plDestLen = lSrcMaxLen; } else { if (ppDestBuf) *ppDestBuf = NULL; if (plDestLen) *plDestLen = 0; } return hr; } STDMETHODIMP CMLStrAttrWStr::LockWStr(long lSrcPos, long lSrcLen, long lFlags, long cchRequest, WCHAR** ppszDest, long* pcchDest, long* plDestLen) { ASSERT_THIS; ASSERT_WRITE_PTR_OR_NULL(ppszDest); ASSERT_WRITE_PTR_OR_NULL(pcchDest); ASSERT_WRITE_PTR_OR_NULL(plDestLen); HRESULT hr = CheckThread(); CLock Lock(lFlags & MLSTR_WRITE, this, hr); long cchSrcPos; long cchSrcLen; WCHAR* pszBuf = NULL; long cchBuf; long lLockLen; BOOL fDirectLock; if (SUCCEEDED(hr) && (!lFlags || (lFlags & ~GetBufFlags() & MLSTR_WRITE))) hr = E_INVALIDARG; // No flags specified, or not writable StrBuf; TODO: Replace StrBuf in this case if allowed if (!(lFlags & MLSTR_WRITE)) cchRequest = 0; if (SUCCEEDED(hr) && SUCCEEDED(hr = PrepareMLStrBuf()) && SUCCEEDED(hr = RegularizePosLen(&lSrcPos, &lSrcLen)) && SUCCEEDED(hr = GetCCh(0, lSrcPos, &cchSrcPos)) && SUCCEEDED(hr = GetCCh(cchSrcPos, lSrcLen, &cchSrcLen))) { IMLangStringBufW* const pMLStrBufW = GetMLStrBufW(); fDirectLock = (pMLStrBufW != 0); if (fDirectLock) { long cchInserted; long cchLockLen = cchSrcLen; if (cchRequest > cchSrcLen && SUCCEEDED(hr = pMLStrBufW->Insert(cchSrcPos + cchSrcLen, cchRequest - cchSrcLen, &cchInserted))) { SetBufCCh(GetBufCCh() + cchInserted); cchLockLen += cchInserted; if (!pcchDest && cchLockLen < cchRequest) hr = E_OUTOFMEMORY; // Can't insert in StrBuf } if (SUCCEEDED(hr) && SUCCEEDED(hr = pMLStrBufW->LockBuf(cchSrcPos, cchLockLen, &pszBuf, &cchBuf)) && !pcchDest && cchBuf < max(cchSrcLen, cchRequest)) { hr = E_OUTOFMEMORY; // Can't lock StrBuf } if (plDestLen && SUCCEEDED(hr)) hr = CalcLenW(pszBuf, cchBuf, &lLockLen); } else { long cchSize; if (SUCCEEDED(hr = CalcBufSizeW(lSrcLen, &cchSize))) { cchBuf = max(cchSize, cchRequest); hr = MemAlloc(sizeof(*pszBuf) * cchBuf, (void**)&pszBuf); } if (SUCCEEDED(hr) && (lFlags & MLSTR_READ)) hr = GetWStr(lSrcPos, lSrcLen, pszBuf, cchBuf, (pcchDest) ? &cchBuf : NULL, (plDestLen) ? &lLockLen : NULL); } } if (SUCCEEDED(hr) && SUCCEEDED(hr = Lock.FallThrough())) { hr = GetLockInfo()->Lock((fDirectLock) ? UnlockWStrDirect : UnlockWStrIndirect, lFlags, 0, pszBuf, lSrcPos, lSrcLen, cchSrcPos, cchBuf); } if (SUCCEEDED(hr)) { if (ppszDest) *ppszDest = pszBuf; if (pcchDest) *pcchDest = cchBuf; if (plDestLen) *plDestLen = lLockLen; } else { if (pszBuf) { if (fDirectLock) GetMLStrBufW()->UnlockBuf(pszBuf, 0, 0); else MemFree(pszBuf); } if (ppszDest) *ppszDest = NULL; if (pcchDest) *pcchDest = 0; if (plDestLen) *plDestLen = 0; } return hr; } STDMETHODIMP CMLStrAttrWStr::UnlockWStr(const WCHAR* pszSrc, long cchSrc, long* pcchActual, long* plActualLen) { ASSERT_THIS; ASSERT_READ_BLOCK(pszSrc, cchSrc); ASSERT_WRITE_PTR_OR_NULL(pcchActual); ASSERT_WRITE_PTR_OR_NULL(plActualLen); return UnlockStrCommon(pszSrc, cchSrc, pcchActual, plActualLen); } STDMETHODIMP CMLStrAttrWStr::OnRegisterAttr(IUnknown* pUnk) { return E_NOTIMPL; // CMLStrAttrWStr::OnRegisterAttr() } STDMETHODIMP CMLStrAttrWStr::OnUnregisterAttr(IUnknown* pUnk) { return E_NOTIMPL; // CMLStrAttrWStr::OnUnregisterAttr() } STDMETHODIMP CMLStrAttrWStr::OnRequestEdit(long lDestPos, long lDestLen, long lNewLen, REFIID riid, LPARAM lParam, IUnknown* pUnk) { return E_NOTIMPL; // CMLStrAttrWStr::OnRequestEdit() } STDMETHODIMP CMLStrAttrWStr::OnCanceledEdit(long lDestPos, long lDestLen, long lNewLen, REFIID riid, LPARAM lParam, IUnknown* pUnk) { return E_NOTIMPL; // CMLStrAttrWStr::OnCanceledEdit() } STDMETHODIMP CMLStrAttrWStr::OnChanged(long lDestPos, long lDestLen, long lNewLen, REFIID riid, LPARAM lParam, IUnknown* pUnk) { return E_NOTIMPL; // CMLStrAttrWStr::OnChanged() } #endif // NEWMLSTR