#include "stdafx.h" #include "resource.h" #include #include "bar.h" #include "pbrush.h" #include "imaging.h" ////////////////////////////////////////////////////////////////////////// // // Trace // #ifdef DBG void AFX_CDECL Trace(PCTSTR pszFormat, ...) { va_list argList; va_start(argList, pszFormat); CString strMessage; strMessage.FormatV(pszFormat, argList); OutputDebugString(strMessage); va_end(argList); } #else //DBG inline void AFX_CDECL Trace(PCTSTR pszFormat, ...) { } #endif DBG ////////////////////////////////////////////////////////////////////////// // // // CImagingMgr::~CImagingMgr() { } ////////////////////////////////////////////////////////////////////////// // // // CWIAMgr::CWIAMgr() { HRESULT hr; m_pEventCallback = new CEventCallback(); if (m_pEventCallback) { hr = m_pEventCallback->Register(); if (hr != S_OK) { m_pEventCallback.Release(); } } } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CWIAMgr::SelectSource( HWND hWndParent, LONG lFlags ) { HRESULT hr = S_FALSE; // Create a connection to the local WIA device manager CComPtr pWiaDevMgr; hr = pWiaDevMgr.CoCreateInstance(CLSID_WiaDevMgr); if (!SUCCEEDED(hr)) { return hr; } // clear the current selection (if any) m_bstrDeviceID.Empty(); // display the device selection dialog hr = pWiaDevMgr->SelectDeviceDlgID( hWndParent, StiDeviceTypeDefault, lFlags, &m_bstrDeviceID ); theApp.RestoreWaitCursor(); if (hr != S_OK) { Trace(_T("SelectDeviceDlgID HRESULT=%08x\n"), hr); return hr; } return S_OK; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CWIAMgr::Select( LPCTSTR pDeviceId ) { m_bstrDeviceID = pDeviceId; return S_OK; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT ReadPropertyLong(IWiaItem *pWiaItem, PROPID propid, LONG *lResult) { if (!lResult) { return E_POINTER; } HRESULT hr = S_FALSE; CComQIPtr pWiaPropertyStorage(pWiaItem); if (pWiaPropertyStorage == 0) { return E_NOINTERFACE; } PROPSPEC PropSpec; PropSpec.ulKind = PRSPEC_PROPID; PropSpec.propid = propid; PROPVARIANT PropVariant; PropVariantInit(&PropVariant); hr = pWiaPropertyStorage->ReadMultiple(1, &PropSpec, &PropVariant); if (hr != S_OK) { Trace(_T("ReadMultiple HRESULT=%08x\n"), hr); return hr; } switch (PropVariant.vt) { case VT_I1: *lResult = (LONG) PropVariant.cVal; break; case VT_UI1: *lResult = (LONG) PropVariant.bVal; break; case VT_I2: *lResult = (LONG) PropVariant.iVal; break; case VT_UI2: *lResult = (LONG) PropVariant.uiVal; break; case VT_I4: *lResult = (LONG) PropVariant.lVal; break; case VT_UI4: *lResult = (LONG) PropVariant.ulVal; break; case VT_INT: *lResult = (LONG) PropVariant.intVal; break; case VT_UINT: *lResult = (LONG) PropVariant.uintVal; break; case VT_R4: *lResult = (LONG) (PropVariant.fltVal + 0.5); break; case VT_R8: *lResult = (LONG) (PropVariant.dblVal + 0.5); break; default: hr = S_FALSE; break; } PropVariantClear(&PropVariant); return hr; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CWIAMgr::Acquire( HWND hWndParent, HGLOBAL *phDib ) { ASSERT(phDib != 0); HRESULT hr; // Create a connection to the local WIA device manager CComPtr pWiaDevMgr; hr = pWiaDevMgr.CoCreateInstance(CLSID_WiaDevMgr); if (!SUCCEEDED(hr)) { return hr; } // Create the device object. // Select the device first if // no device has been selected before or // we fail to create the device with the selected ID CComPtr pRootItem; if (!m_bstrDeviceID || !SUCCEEDED(pWiaDevMgr->CreateDevice(m_bstrDeviceID, &pRootItem))) { // clear the current selection (if any) m_bstrDeviceID.Empty(); // display the device selection dialog hr = pWiaDevMgr->SelectDeviceDlg( hWndParent, StiDeviceTypeDefault, 0, &m_bstrDeviceID, &pRootItem ); theApp.RestoreWaitCursor(); if (hr != S_OK) { Trace(_T("SelectDeviceDlg HRESULT=%08x\n"), hr); return hr; } #ifndef USE_SELECTSOURCE_MENUITEM // forget the current selection m_bstrDeviceID.Empty(); #endif //!USE_SELECTSOURCE_MENUITEM if (!SUCCEEDED(hr)) { Trace(_T("CreateDevice HRESULT=%08x\n"), hr); return hr; } } // display the image selection dialog and let the user // select the item to be transferred CComPtrArray ppIWiaItem; hr = pRootItem->DeviceDlg( hWndParent, WIA_DEVICE_DIALOG_SINGLE_IMAGE, WIA_INTENT_NONE, &ppIWiaItem.ItemCount(), &ppIWiaItem ); theApp.RestoreWaitCursor(); if (hr != S_OK) { Trace(_T("DeviceDlg HRESULT=%08x\n"), hr); return hr; } if (ppIWiaItem.ItemCount() == 0) { Trace(_T("DeviceDlg returned 0 items\n")); return E_FAIL; } // set the image transfer properties; we want a DIB memory transfer TYMED tymed = (TYMED) TYMED_CALLBACK; GUID guidFormat = WiaImgFmt_MEMORYBMP; PROPSPEC PropSpec[2] = { 0 }; PROPVARIANT PropVariant[2] = { 0 }; PropSpec[0].ulKind = PRSPEC_PROPID; PropSpec[0].propid = WIA_IPA_TYMED; PropVariant[0].vt = VT_I4; PropVariant[0].lVal = tymed; PropSpec[1].ulKind = PRSPEC_PROPID; PropSpec[1].propid = WIA_IPA_FORMAT; PropVariant[1].vt = VT_CLSID; PropVariant[1].puuid = &guidFormat; CComQIPtr pWiaPropertyStorage(ppIWiaItem[0]); if (pWiaPropertyStorage == 0) { return E_NOINTERFACE; } hr = pWiaPropertyStorage->WriteMultiple( 1, &(PropSpec[0]), &(PropVariant[0]), WIA_IPA_FIRST ); if (hr != S_OK) { Trace(_T("WriteMultiple HRESULT=%08x\n"), hr); return hr; } hr = pWiaPropertyStorage->WriteMultiple( 1, &(PropSpec[1]), &(PropVariant[1]), WIA_IPA_FIRST ); if (hr != S_OK) { Trace(_T("WriteMultiple HRESULT=%08x\n"), hr); return hr; } // now, determine the transfer buffer size // 64k transfer size and double buffering seem to work fine; // a smaller buffer considerably slows down the memory transfer // and a larger buffer doesn't give much speed increase. // If the device minimum is larger than 64k though, use that size... LONG lBufferSize; hr = ReadPropertyLong(ppIWiaItem[0], WIA_IPA_MIN_BUFFER_SIZE, &lBufferSize); if (hr != S_OK || lBufferSize < 64*1024) { lBufferSize = 64*1024; } // setup the progress dialog CComPtr pProgress; hr = CoCreateInstance( CLSID_WiaDefaultUi, 0, CLSCTX_INPROC_SERVER, IID_IWiaProgressDialog, (void**) &pProgress ); if (hr != S_OK) { pProgress = new CProgressDialog; } LONG nDeviceType; hr = ReadPropertyLong(pRootItem, WIA_DIP_DEV_TYPE, &nDeviceType); if (hr != S_OK) { nDeviceType = 0; } LONG lAnimFlag; switch (GET_STIDEVICE_TYPE(nDeviceType)) { case StiDeviceTypeScanner: lAnimFlag = WIA_PROGRESSDLG_ANIM_SCANNER_ACQUIRE; break; case StiDeviceTypeDigitalCamera: lAnimFlag = WIA_PROGRESSDLG_ANIM_CAMERA_ACQUIRE; break; case StiDeviceTypeStreamingVideo: lAnimFlag = WIA_PROGRESSDLG_ANIM_VIDEO_ACQUIRE; break; default: lAnimFlag = WIA_PROGRESSDLG_NO_ANIM; break; } pProgress->Create(hWndParent, lAnimFlag); CString strDownloading; strDownloading.LoadString(IDS_DOWNLOAD_IMAGE); USES_CONVERSION; pProgress->SetTitle(T2CW(strDownloading)); pProgress->SetMessage(L""); pProgress->Show(); // init the data callback interface CDataCallback *pDataCallback = new CDataCallback(pProgress); if (!pDataCallback) { theApp.SetMemoryEmergency(TRUE); return E_OUTOFMEMORY; } CComQIPtr pIWiaDataCallback(pDataCallback); ASSERT(pIWiaDataCallback != 0); // initiate the transfer CComQIPtr pIWiaDataTransfer(ppIWiaItem[0]); if (pIWiaDataTransfer == 0) { return E_NOINTERFACE; } WIA_DATA_TRANSFER_INFO WiaDataTransferInfo = { 0 }; WiaDataTransferInfo.ulSize = sizeof(WIA_DATA_TRANSFER_INFO); WiaDataTransferInfo.ulBufferSize = 2 * lBufferSize; WiaDataTransferInfo.bDoubleBuffer = TRUE; // This *easy* solution will cause the mspaint UI to freeze during // image transfer; this is possibly too long time to remain frozen. // So we will create a worker thread to do the data transfer. // //hr = pIWiaDataTransfer->idtGetBandedData( // &WiaDataTransferInfo, // pIWiaDataCallback //); EnableWindow(hWndParent, FALSE); hr = GetBandedData(CGetBandedDataThreadData( pIWiaDataTransfer, &WiaDataTransferInfo, pIWiaDataCallback )); EnableWindow(hWndParent, TRUE); // check if the user has pressed cancel if (pProgress) { BOOL bCancelled; if (pProgress->Cancelled(&bCancelled) == S_OK && bCancelled) { hr = S_FALSE; } pProgress->Destroy(); } if (hr != S_OK) { Trace(_T("idtGetBandedData HRESULT=%08x\n"), hr); return hr; } // return the results pDataCallback->PrintTimes(); *phDib = pDataCallback->GetBuffer(); return S_OK; } ////////////////////////////////////////////////////////////////////////// // // // CWIAMgr::CGetBandedDataThreadData::CGetBandedDataThreadData( IWiaDataTransfer *pIWiaDataTransfer, WIA_DATA_TRANSFER_INFO *pWiaDataTransferInfo, IWiaDataCallback *pIWiaDataCallback ) : m_pIWiaDataTransfer(pIWiaDataTransfer), m_pWiaDataTransferInfo(pWiaDataTransferInfo), m_pIWiaDataCallback(pIWiaDataCallback) { } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CWIAMgr::CGetBandedDataThreadData::Marshal() { HRESULT hr; // marshal the IWiaDataTransfer interface ASSERT(m_pIWiaDataTransfer != 0); hr = CoMarshalInterThreadInterfaceInStream( IID_IWiaDataTransfer, m_pIWiaDataTransfer, &m_pIWiaDataTransferStream ); if (hr != S_OK) { Trace(_T("CoMarshalInterThreadInterfaceInStream HRESULT=%08x\n"), hr); return hr; } m_pIWiaDataTransfer.Release(); // marshal the IWiaDataCallback interface ASSERT(m_pIWiaDataCallback != 0); hr = CoMarshalInterThreadInterfaceInStream( IID_IWiaDataCallback, m_pIWiaDataCallback, &m_pIWiaDataCallbackStream ); if (hr != S_OK) { Trace(_T("CoMarshalInterThreadInterfaceInStream HRESULT=%08x\n"), hr); return hr; } m_pIWiaDataCallback.Release(); return hr; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CWIAMgr::CGetBandedDataThreadData::Unmarshal() { HRESULT hr; // unmarshal the IWiaDataTransfer interface ASSERT(m_pIWiaDataTransferStream != 0); hr = CoGetInterfaceAndReleaseStream( m_pIWiaDataTransferStream, IID_IWiaDataTransfer, (void **) &m_pIWiaDataTransfer ); // CoGetInterfaceAndReleaseStream should already have // released the stream pointer, so set it to zero so that // ~CGetBandedDataThreadData will not try to release it again m_pIWiaDataTransferStream.Detach(); if (hr != S_OK) { Trace(_T("CoGetInterfaceAndReleaseStream HRESULT=%08x\n"), hr); return hr; } // unmarshal the IWiaDataCallback interface ASSERT(m_pIWiaDataCallbackStream != 0); hr = CoGetInterfaceAndReleaseStream( m_pIWiaDataCallbackStream, IID_IWiaDataCallback, (void **) &m_pIWiaDataCallback ); m_pIWiaDataCallbackStream.Detach(); if (hr != S_OK) { Trace(_T("CoGetInterfaceAndReleaseStream HRESULT=%08x\n"), hr); return hr; } return hr; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CWIAMgr::GetBandedData(CGetBandedDataThreadData &ThreadData) { // marshal the interface pointers before passing them to another thread HRESULT hr = ThreadData.Marshal(); if (hr != S_OK) { return hr; } // fire up the new thread unsigned nThreadId; HANDLE hThread = (HANDLE) _beginthreadex( 0, 0, GetBandedDataThread, &ThreadData, 0, &nThreadId ); if (hThread == 0) { Trace(_T("CreateThread LastError=%08x\n"), GetLastError()); return HRESULT_FROM_WIN32(GetLastError()); } // enter a msg loop while waiting for the thread to complete; // this will keep the mspaint UI alive while (MsgWaitForMultipleObjects(1, &hThread, FALSE, INFINITE, QS_ALLINPUT) == WAIT_OBJECT_0+1) { MSG msg; while (PeekMessage(&msg, 0, 0, 0, PM_REMOVE)) { TranslateMessage(&msg); DispatchMessage(&msg); } theApp.RestoreWaitCursor(); } // if we reach here, the thread must have ended; get the result DWORD dwExitCode = S_FALSE; GetExitCodeThread(hThread, &dwExitCode); // in case the thread is still alive (shouldn't happen), kill it if (dwExitCode == STILL_ACTIVE) { TerminateThread(hThread, 0); dwExitCode = E_FAIL; } CloseHandle(hThread); ASSERT(sizeof(DWORD) >= sizeof(HRESULT)); return (HRESULT) dwExitCode; } ////////////////////////////////////////////////////////////////////////// // // // unsigned WINAPI CWIAMgr::GetBandedDataThread(PVOID pVoid) { // Init COM for this thread HRESULT hr = CoInitialize(0); if (hr != S_OK) { Trace(_T("CoInitialize HRESULT=%08x\n"), hr); return (unsigned) hr; } CGetBandedDataThreadData *pThreadData = (CGetBandedDataThreadData *) pVoid; ASSERT(pThreadData != 0); if (pThreadData != 0) { // unmarshal the interface pointers before calling idtGetBandedData hr = pThreadData->Unmarshal(); if (hr == S_OK) { hr = pThreadData->m_pIWiaDataTransfer->idtGetBandedData( pThreadData->m_pWiaDataTransferInfo, pThreadData->m_pIWiaDataCallback ); } } CoUninitialize(); ASSERT(sizeof(unsigned) >= sizeof(HRESULT)); return (unsigned) hr; } ////////////////////////////////////////////////////////////////////////// // // // int CWIAMgr::NumDevices(HWND /*hWndParent*/) { return m_pEventCallback ? m_pEventCallback->GetNumDevices() : 0; } #ifdef USE_TWAIN ////////////////////////////////////////////////////////////////////////// // // // CTwainMgr::CTwainMgr() { m_TwainState = State_1_Pre_Session; // fill in the m_AppId struct with defaults m_AppId.Id = 0; m_AppId.Version.MajorNum = 1; m_AppId.Version.MinorNum = 0; m_AppId.Version.Language = TWLG_USA; m_AppId.Version.Country = TWCY_USA; strcpy(m_AppId.Version.Info, "FileDescription"); m_AppId.ProtocolMajor = TWON_PROTOCOLMAJOR; m_AppId.ProtocolMinor = TWON_PROTOCOLMINOR; m_AppId.SupportedGroups = DG_IMAGE | DG_CONTROL; strcpy(m_AppId.Manufacturer, "CompanyName"); strcpy(m_AppId.ProductFamily, "ProductVersion"); strcpy(m_AppId.ProductName, "ProductName"); // reset m_SrcId m_SrcId.Id = 0; m_SrcId.ProductName[0] = '\0'; // Load TWAIN DLL m_hTwainDll = LoadLibrary(_T("TWAIN_32.DLL")); if (m_hTwainDll) { // Get the entry point m_DSM_Entry = (DSMENTRYPROC) GetProcAddress(m_hTwainDll, "DSM_Entry"); if (m_DSM_Entry) { m_TwainState = State_2_Source_Manager_Loaded; } } } ////////////////////////////////////////////////////////////////////////// // // // CTwainMgr::~CTwainMgr() { // Free the library if loaded if (m_TwainState >= State_1_Pre_Session) { FreeLibrary(m_hTwainDll); } } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CTwainMgr::SelectSource( HWND hWndParent, LONG /*lFlags*/ ) { HRESULT hr = S_FALSE; TW_UINT16 rc = TWRC_FAILURE; if (m_TwainState >= State_2_Source_Manager_Loaded) { __try { if (m_TwainState == State_2_Source_Manager_Loaded) { // Open the data source manager rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_PARENT, MSG_OPENDSM, (TW_MEMREF) &hWndParent ); if (rc != TWRC_SUCCESS) { __leave; } m_TwainState = State_3_Source_Manager_Open; } // pop up the selection dialog rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_IDENTITY, MSG_USERSELECT, (TW_MEMREF) &m_SrcId ); ASSERT(rc == TWRC_SUCCESS || rc == TWRC_CANCEL); if (rc == TWRC_SUCCESS) { hr = S_OK; } } __finally { if (m_TwainState == State_3_Source_Manager_Open) { // Close the data source manager rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_PARENT, MSG_CLOSEDSM, (TW_MEMREF) &hWndParent ); ASSERT(rc == TWRC_SUCCESS); m_TwainState = State_2_Source_Manager_Loaded; } } } return hr; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CTwainMgr::Select( LPCTSTR pDeviceId ) { #ifdef UNICODE WideCharToMultiByte(CP_ACP, 0, pDeviceId, -1, m_SrcId.ProductName, sizeof(m_SrcId.ProductName), 0, 0); #else //UNICODE lstrcpyn(m_SrcId.ProductName, pDeviceId, sizeof(m_SrcId.ProductName)); #endif //UNICODE return S_OK; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CTwainMgr::Acquire( HWND hWndParent, HGLOBAL *phDib ) { ASSERT(phDib); HRESULT hr = S_FALSE; TW_UINT16 rc = TWRC_FAILURE; if (m_TwainState >= State_2_Source_Manager_Loaded) { __try { if (m_TwainState == State_2_Source_Manager_Loaded) { // Open the data source manager rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_PARENT, MSG_OPENDSM, (TW_MEMREF) &hWndParent ); if (rc != TWRC_SUCCESS) { __leave; } m_TwainState = State_3_Source_Manager_Open; } #ifdef USE_SELECTSOURCE_MENUITEM if (m_SrcId.ProductName[0] == '\0') { // if no data source is selected yet, get the default rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_IDENTITY, MSG_GETDEFAULT, (TW_MEMREF) &m_SrcId ); if (rc != TWRC_SUCCESS) { __leave; } } #else //USE_SELECTSOURCE_MENUITEM rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_IDENTITY, MSG_USERSELECT, (TW_MEMREF) &m_SrcId ); ASSERT(rc == TWRC_SUCCESS || rc == TWRC_CANCEL); if (rc != TWRC_SUCCESS) { __leave; } #endif //USE_SELECTSOURCE_MENUITEM if (m_TwainState == State_3_Source_Manager_Open) { // open the data source rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_IDENTITY, MSG_OPENDS, (TW_MEMREF) &m_SrcId ); if (rc != TWRC_SUCCESS) { __leave; } m_TwainState = State_4_Source_Open; } // set the desired transfer options; // we want to transfer a single 8-bit RGB image SetCapability(CAP_XFERCOUNT, TWTY_INT16, 1); SetCapability(ICAP_PIXELTYPE, TWTY_UINT32, TWPT_RGB); SetCapability(ICAP_BITDEPTH, TWTY_UINT32, 8); if (m_TwainState == State_4_Source_Open) { // enable the data source TW_USERINTERFACE twUI; twUI.ShowUI = TRUE; twUI.hParent = hWndParent; rc = m_DSM_Entry( &m_AppId, &m_SrcId, DG_CONTROL, DAT_USERINTERFACE, MSG_ENABLEDS, (TW_MEMREF) &twUI ); theApp.RestoreWaitCursor(); if (rc != TWRC_SUCCESS) { __leave; } m_TwainState = State_5_Source_Enabled; } if (m_TwainState == State_5_Source_Enabled) { // Disable the parent window EnableWindow(hWndParent, FALSE); // Enter the message loop to transfer the image MSG msg; BOOL bDone = FALSE; while (!bDone && GetMessage(&msg, 0, 0, 0)) { // process the event through TWAIN TW_EVENT twEvent; twEvent.pEvent = &msg; twEvent.TWMessage = MSG_NULL; rc = m_DSM_Entry( &m_AppId, &m_SrcId, DG_CONTROL, DAT_EVENT, MSG_PROCESSEVENT, (TW_MEMREF) &twEvent ); if (twEvent.TWMessage == MSG_CLOSEDSREQ) { bDone = TRUE; hr = S_FALSE; } else if (twEvent.TWMessage == MSG_XFERREADY) { m_TwainState = State_6_Transfer_Ready; TW_PENDINGXFERS twPendingXfers; do { m_TwainState = State_7_Transferring; rc = m_DSM_Entry( &m_AppId, &m_SrcId, DG_IMAGE, DAT_IMAGENATIVEXFER, MSG_GET, (TW_MEMREF) phDib ); if (rc != TWRC_XFERDONE) { if (*phDib) { GlobalFree(*phDib); } __leave; } hr = S_OK; // End the transfer rc = m_DSM_Entry( &m_AppId, &m_SrcId, DG_CONTROL, DAT_PENDINGXFERS, MSG_ENDXFER, (TW_MEMREF) &twPendingXfers ); if (rc != TWRC_SUCCESS) { __leave; } m_TwainState = State_6_Transfer_Ready; } while (twPendingXfers.Count != 0); m_TwainState = State_5_Source_Enabled; //exit after a single image transfer bDone = TRUE; } if (rc == TWRC_NOTDSEVENT) { TranslateMessage(&msg); DispatchMessage(&msg); } } } } __finally { // enable the parent window upon exiting the message loop EnableWindow(hWndParent, TRUE); ASSERT(m_TwainState <= State_6_Transfer_Ready); if (m_TwainState == State_6_Transfer_Ready) { TW_PENDINGXFERS twPendingXfers; rc = m_DSM_Entry( &m_AppId, &m_SrcId, DG_CONTROL, DAT_PENDINGXFERS, MSG_RESET, (TW_MEMREF) &twPendingXfers ); ASSERT(rc == TWRC_SUCCESS); m_TwainState = State_5_Source_Enabled; } if (m_TwainState == State_5_Source_Enabled) { TW_USERINTERFACE twUI; rc = m_DSM_Entry( &m_AppId, &m_SrcId, DG_CONTROL, DAT_USERINTERFACE, MSG_DISABLEDS, (TW_MEMREF) &twUI ); ASSERT(rc == TWRC_SUCCESS); m_TwainState = State_4_Source_Open; } if (m_TwainState == State_4_Source_Open) { rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_IDENTITY, MSG_CLOSEDS, (TW_MEMREF) &m_SrcId ); ASSERT(rc == TWRC_SUCCESS); m_TwainState = State_3_Source_Manager_Open; } if (m_TwainState == State_3_Source_Manager_Open) { rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_PARENT, MSG_CLOSEDSM, (TW_MEMREF) &hWndParent ); ASSERT(rc == TWRC_SUCCESS); m_TwainState = State_2_Source_Manager_Loaded; } } } return hr; } ////////////////////////////////////////////////////////////////////////// // // // int CTwainMgr::NumDevices(HWND hWndParent) { return 1; // this is too slow, better lie... int nNumDevices = 0; TW_UINT16 rc = TWRC_FAILURE; // m_TwainState >= State_2 guarantees m_DSM_Entry != 0 if (m_TwainState >= State_2_Source_Manager_Loaded) { __try { if (m_TwainState == State_2_Source_Manager_Loaded) { // Open the data source manager rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_PARENT, MSG_OPENDSM, (TW_MEMREF) &hWndParent ); if (rc != TWRC_SUCCESS) { __leave; } m_TwainState = State_3_Source_Manager_Open; } // Enumerate the devices one by one TW_IDENTITY SrcId; rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_IDENTITY, MSG_GETFIRST, (TW_MEMREF) &SrcId ); while (rc == TWRC_SUCCESS) { ++nNumDevices; rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_IDENTITY, MSG_GETNEXT, (TW_MEMREF) &SrcId ); } } __finally { if (m_TwainState == State_3_Source_Manager_Open) { // Close the data source manager rc = m_DSM_Entry( &m_AppId, 0, DG_CONTROL, DAT_PARENT, MSG_CLOSEDSM, (TW_MEMREF) &hWndParent ); ASSERT(rc == TWRC_SUCCESS); m_TwainState = State_2_Source_Manager_Loaded; } } } return nNumDevices; } ////////////////////////////////////////////////////////////////////////// // // // TW_UINT16 CTwainMgr::SetCapability( TW_UINT16 Cap, TW_UINT16 ItemType, TW_UINT32 Item ) { TW_UINT16 rc = TWRC_FAILURE; TW_CAPABILITY twCapability; twCapability.Cap = Cap; twCapability.ConType = TWON_ONEVALUE; twCapability.hContainer = 0; twCapability.hContainer = GlobalAlloc( GMEM_MOVEABLE | GMEM_ZEROINIT, sizeof(TW_ONEVALUE) ); if (twCapability.hContainer) { pTW_ONEVALUE pVal = (pTW_ONEVALUE) GlobalLock(twCapability.hContainer); if (pVal) { pVal->ItemType = ItemType; pVal->Item = Item; GlobalUnlock(twCapability.hContainer); rc = m_DSM_Entry( &m_AppId, &m_SrcId, DG_CONTROL, DAT_CAPABILITY, MSG_SET, (TW_MEMREF) &twCapability ); } GlobalFree(twCapability.hContainer); } return rc; } ////////////////////////////////////////////////////////////////////////// // // // TW_UINT16 CTwainMgr::GetCapability( TW_UINT16 Cap, pTW_UINT16 pItemType, pTW_UINT32 pItem ) { TW_CAPABILITY twCapability; twCapability.Cap = Cap; twCapability.ConType = TWON_DONTCARE16; twCapability.hContainer = 0; TW_UINT16 rc = m_DSM_Entry( &m_AppId, &m_SrcId, DG_CONTROL, DAT_CAPABILITY, MSG_GET, (TW_MEMREF) &twCapability ); if (twCapability.hContainer) { pTW_ONEVALUE pVal = (pTW_ONEVALUE) GlobalLock(twCapability.hContainer); if (pVal) { if (pItemType) { *pItemType = pVal->ItemType; } if (pItem) { *pItem = pVal->Item; } } GlobalFree(twCapability.hContainer); } return rc; } #endif //USE_TWAIN ////////////////////////////////////////////////////////////////////////// // // // HRESULT WiaGetNumDevices( IWiaDevMgr *_pWiaDevMgr, ULONG *pulNumDevices ) { HRESULT hr; // Validate and initialize output parameters if (pulNumDevices == 0) { return E_POINTER; } *pulNumDevices = 0; // Create a connection to the local WIA device manager CComPtr pWiaDevMgr = _pWiaDevMgr; if (pWiaDevMgr == 0) { hr = pWiaDevMgr.CoCreateInstance(CLSID_WiaDevMgr); if (!SUCCEEDED(hr)) { return hr; } } // Get a list of all the WIA devices on the system CComPtr pIEnumWIA_DEV_INFO; hr = pWiaDevMgr->EnumDeviceInfo( 0, &pIEnumWIA_DEV_INFO ); if (!SUCCEEDED(hr)) { return hr; } // Get the number of WIA devices ULONG celt; hr = pIEnumWIA_DEV_INFO->GetCount(&celt); if (!SUCCEEDED(hr)) { return hr; } *pulNumDevices = celt; return S_OK; } ////////////////////////////////////////////////////////////////////////// // // // CEventCallback::CEventCallback() { m_cRef = 0; m_nNumDevices = 0; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CEventCallback::Register() { HRESULT hr; // Create a connection to the local WIA device manager CComPtr pWiaDevMgr; hr = pWiaDevMgr.CoCreateInstance(CLSID_WiaDevMgr); if (!SUCCEEDED(hr)) { return hr; } // Get the count of all the WIA devices on the system hr = WiaGetNumDevices(pWiaDevMgr, &m_nNumDevices); if (!SUCCEEDED(hr)) { return hr; } // Register the callback interface hr = pWiaDevMgr->RegisterEventCallbackInterface( 0, 0, &WIA_EVENT_DEVICE_CONNECTED, this, &m_pConnectEventObject ); if (!SUCCEEDED(hr)) { return hr; } hr = pWiaDevMgr->RegisterEventCallbackInterface( 0, 0, &WIA_EVENT_DEVICE_DISCONNECTED, this, &m_pDisconnectEventObject ); if (!SUCCEEDED(hr)) { return hr; } return S_OK; } ////////////////////////////////////////////////////////////////////////// // // // ULONG CEventCallback::GetNumDevices() const { return m_nNumDevices; } ////////////////////////////////////////////////////////////////////////// // // // STDMETHODIMP CEventCallback::QueryInterface(REFIID iid, LPVOID *ppvObj) { if (ppvObj == 0) { return E_POINTER; } if (iid == IID_IUnknown) { AddRef(); *ppvObj = (IUnknown *) this; return S_OK; } if (iid == IID_IWiaEventCallback) { AddRef(); *ppvObj = (IWiaEventCallback *) this; return S_OK; } *ppvObj = 0; return E_NOINTERFACE; } ////////////////////////////////////////////////////////////////////////// // // // STDMETHODIMP_(ULONG) CEventCallback::AddRef() { return InterlockedIncrement(&m_cRef); } ////////////////////////////////////////////////////////////////////////// // // // STDMETHODIMP_(ULONG) CEventCallback::Release() { LONG cRef = InterlockedDecrement(&m_cRef); if (cRef == 0) { delete this; } return cRef; } ////////////////////////////////////////////////////////////////////////// // // // STDMETHODIMP CEventCallback::ImageEventCallback( LPCGUID pEventGuid, BSTR bstrEventDescription, BSTR bstrDeviceID, BSTR bstrDeviceDescription, DWORD dwDeviceType, BSTR bstrFullItemName, ULONG *pulEventType, ULONG ulReserved ) { return WiaGetNumDevices(0, &m_nNumDevices); } ////////////////////////////////////////////////////////////////////////// // // // CDataCallback::CDataCallback(IWiaProgressDialog *pProgress) { m_cRef = 0; m_hBuffer = 0; m_lBufferSize = 0; m_lDataSize = 0; m_pProgress = pProgress; #ifdef DBG m_hDumpFile = CreateFile(_T("wiadump.bin"), GENERIC_WRITE, FILE_SHARE_READ, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0); m_TimeDeviceBegin.QuadPart = 0; m_TimeDeviceEnd.QuadPart = 0; m_TimeProcessBegin.QuadPart = 0; m_TimeProcessEnd.QuadPart = 0; m_TimeClientBegin.QuadPart = 0; m_TimeClientEnd.QuadPart = 0; #endif //DBG } ////////////////////////////////////////////////////////////////////////// // // // CDataCallback::~CDataCallback() { if (m_hBuffer) { GlobalFree(m_hBuffer); } #ifdef DBG CloseHandle(m_hDumpFile); #endif //DBG } ////////////////////////////////////////////////////////////////////////// // // // HGLOBAL CDataCallback::GetBuffer() { HGLOBAL hBuffer = m_hBuffer; m_hBuffer = 0; m_lBufferSize = 0; m_lDataSize = 0; return hBuffer; } ////////////////////////////////////////////////////////////////////////// // // // STDMETHODIMP CDataCallback::QueryInterface(REFIID iid, LPVOID *ppvObj) { if (ppvObj == 0) { return E_POINTER; } if (iid == IID_IUnknown) { AddRef(); *ppvObj = (IUnknown*) this; return S_OK; } if (iid == IID_IWiaDataCallback) { AddRef(); *ppvObj = (IWiaDataCallback *) this; return S_OK; } *ppvObj = 0; return E_NOINTERFACE; } ////////////////////////////////////////////////////////////////////////// // // // STDMETHODIMP_(ULONG) CDataCallback::AddRef() { return InterlockedIncrement(&m_cRef); } ////////////////////////////////////////////////////////////////////////// // // // STDMETHODIMP_(ULONG) CDataCallback::Release() { LONG cRef = InterlockedDecrement(&m_cRef); if (cRef == 0) { delete this; } return cRef; } ////////////////////////////////////////////////////////////////////////// // // // STDMETHODIMP CDataCallback::BandedDataCallback( LONG lReason, LONG lStatus, LONG lPercentComplete, LONG lOffset, LONG lLength, LONG lReserved, LONG lResLength, PBYTE pbBuffer ) { HRESULT hr; Trace( _T("DataCallback: Reason=%d Stat=%d %%=%d Offset=%d Length=%d Buf=%p\n"), lReason, lStatus, lPercentComplete, lOffset, lLength, pbBuffer ); // check if the user has pressed cancel BOOL bCancelled; if (m_pProgress && m_pProgress->Cancelled(&bCancelled) == S_OK && bCancelled) { return S_FALSE; } switch (lReason) { case IT_MSG_DATA_HEADER: { // allocate memory for the image if the size is given in the header PWIA_DATA_CALLBACK_HEADER pHeader = (PWIA_DATA_CALLBACK_HEADER) pbBuffer; if (pHeader && pHeader->lBufferSize) { hr = ReAllocBuffer(pHeader->lBufferSize); if (hr != S_OK) { return S_FALSE; } } break; } case IT_MSG_DATA: { QueryStartTimes(lStatus, lPercentComplete); UpdateStatus(lStatus, lPercentComplete); // if the buffer is not allocated yet and this is the first block, // try to allocate a buffer according to the bitmap header info if (m_lBufferSize == 0 && lOffset == 0) { LONG lBufferSize = FindDibSize(pbBuffer); if (lBufferSize) { hr = ReAllocBuffer(lBufferSize); if (hr != S_OK) { return S_FALSE; } } } // if the transfer goes past the buffer, try to expand it if (lOffset + lLength > m_lBufferSize) { hr = ReAllocBuffer(lOffset + 2*lLength); if (hr != S_OK) { return S_FALSE; } } // keep track of data size if (lOffset + lLength > m_lDataSize) { m_lDataSize = lOffset + lLength; } // copy the transfer buffer PBYTE pBuffer = (PBYTE) GlobalLock(m_hBuffer); if (pBuffer) { CopyMemory(pBuffer + lOffset, pbBuffer, lLength); GlobalUnlock(m_hBuffer); } #ifdef DBG DWORD nWritten; SetFilePointer(m_hDumpFile, lOffset, 0, FILE_BEGIN); WriteFile(m_hDumpFile, pbBuffer, lLength, &nWritten, 0); #endif //DBG QueryStopTimes(lStatus, lPercentComplete); break; } case IT_MSG_STATUS: { // update the progress bar position QueryStartTimes(lStatus, lPercentComplete); UpdateStatus(lStatus, lPercentComplete); QueryStopTimes(lStatus, lPercentComplete); break; } case IT_MSG_TERMINATION: { PVOID pBuffer = GlobalLock(m_hBuffer); if (pBuffer) { FixDibHeader(pBuffer, m_lDataSize); GlobalUnlock(m_hBuffer); } break; } case IT_MSG_NEW_PAGE: { // mspaint should not get this message, but... PVOID pBuffer = GlobalLock(m_hBuffer); if (pBuffer) { FixDibHeader(pBuffer, m_lDataSize); GlobalUnlock(m_hBuffer); } break; } } return S_OK; } ////////////////////////////////////////////////////////////////////////// // // // HRESULT CDataCallback::ReAllocBuffer(LONG lBufferSize) { // try to allocate the new buffer Trace(_T("Allocating %d bytes for image data\n"), lBufferSize); HGLOBAL hBuffer; if (m_hBuffer == 0) { hBuffer = (PBYTE) GlobalAlloc(GMEM_MOVEABLE, lBufferSize); } else { hBuffer = (PBYTE) GlobalReAlloc(m_hBuffer, lBufferSize, 0); } if (hBuffer == 0) { theApp.SetMemoryEmergency(TRUE); return S_FALSE; } // store this new buffer m_hBuffer = hBuffer; m_lBufferSize = lBufferSize; return S_OK; } ////////////////////////////////////////////////////////////////////////// // // // inline ULONG LineWidth(ULONG nWidth, ULONG nBitCount) { return (((nWidth * nBitCount) + 31) & ~31) >> 3; } ////////////////////////////////////////////////////////////////////////// // // // ULONG FindDibSize(LPCVOID pDib) { ULONG nHeaderSize = *(PDWORD)pDib; // Do we recognize the header? if (nHeaderSize != sizeof(BITMAPCOREHEADER) && nHeaderSize != sizeof(BITMAPINFOHEADER) && nHeaderSize != sizeof(BITMAPV4HEADER) && nHeaderSize != sizeof(BITMAPV5HEADER)) { return 0; } // Start the calculation with the header size ULONG nDibSize = nHeaderSize; // is this an old style BITMAPCOREHEADER? if (nHeaderSize == sizeof(BITMAPCOREHEADER)) { PBITMAPCOREHEADER pbmch = (PBITMAPCOREHEADER) pDib; // Add the color table size if (pbmch->bcBitCount <= 8) { nDibSize += sizeof(RGBTRIPLE) * (1 << pbmch->bcBitCount); } // Add the bitmap size nDibSize += LineWidth(pbmch->bcWidth, pbmch->bcBitCount) * pbmch->bcHeight; } else { // this is at least a BITMAPINFOHEADER PBITMAPINFOHEADER pbmih = (PBITMAPINFOHEADER) pDib; // Add the color table size if (pbmih->biClrUsed != 0) { nDibSize += sizeof(RGBQUAD) * pbmih->biClrUsed; } else if (pbmih->biBitCount <= 8) { nDibSize += sizeof(RGBQUAD) * (1 << pbmih->biBitCount); } // Add the bitmap size if (pbmih->biSizeImage != 0) { nDibSize += pbmih->biSizeImage; } else { // biSizeImage must be specified for compressed bitmaps if (pbmih->biCompression != BI_RGB && pbmih->biCompression != BI_BITFIELDS) { return 0; } nDibSize += LineWidth(pbmih->biWidth, pbmih->biBitCount) * abs(pbmih->biHeight); } // Consider special cases if (nHeaderSize == sizeof(BITMAPINFOHEADER)) { // If this is a 16 or 32 bit bitmap and BI_BITFIELDS is used, // bmiColors member contains three DWORD color masks. // For V4 or V5 headers, this info is included the header if (pbmih->biCompression == BI_BITFIELDS) { nDibSize += 3 * sizeof(DWORD); } } else if (nHeaderSize >= sizeof(BITMAPV5HEADER)) { // If this is a V5 header and an ICM profile is specified, // we need to consider the profile data size PBITMAPV5HEADER pbV5h = (PBITMAPV5HEADER) pDib; // if there is some padding before the profile data, add it if (pbV5h->bV5ProfileData > nDibSize) { nDibSize = pbV5h->bV5ProfileData; } // add the profile data size nDibSize += pbV5h->bV5ProfileSize; } } return nDibSize; } ////////////////////////////////////////////////////////////////////////// // // // ULONG FindDibOffBits(LPCVOID pDib) { ULONG nHeaderSize = *(PDWORD)pDib; // Do we recognize the header? if (nHeaderSize != sizeof(BITMAPCOREHEADER) && nHeaderSize != sizeof(BITMAPINFOHEADER) && nHeaderSize != sizeof(BITMAPV4HEADER) && nHeaderSize != sizeof(BITMAPV5HEADER)) { return 0; } // Start the calculation with the header size ULONG nOffBits = nHeaderSize; // is this an old style BITMAPCOREHEADER? if (nHeaderSize == sizeof(BITMAPCOREHEADER)) { PBITMAPCOREHEADER pbmch = (PBITMAPCOREHEADER) pDib; // Add the color table size if (pbmch->bcBitCount <= 8) { nOffBits += sizeof(RGBTRIPLE) * (1 << pbmch->bcBitCount); } } else { // this is at least a BITMAPINFOHEADER PBITMAPINFOHEADER pbmih = (PBITMAPINFOHEADER) pDib; // Add the color table size if (pbmih->biClrUsed != 0) { nOffBits += sizeof(RGBQUAD) * pbmih->biClrUsed; } else if (pbmih->biBitCount <= 8) { nOffBits += sizeof(RGBQUAD) * (1 << pbmih->biBitCount); } // Consider special cases if (nHeaderSize == sizeof(BITMAPINFOHEADER)) { // If this is a 16 or 32 bit bitmap and BI_BITFIELDS is used, // bmiColors member contains three DWORD color masks. // For V4 or V5 headers, this info is included the header if (pbmih->biCompression == BI_BITFIELDS) { nOffBits += 3 * sizeof(DWORD); } } else if (nHeaderSize >= sizeof(BITMAPV5HEADER)) { // If this is a V5 header and an ICM profile is specified, // we need to consider the profile data size PBITMAPV5HEADER pbV5h = (PBITMAPV5HEADER) pDib; // if the profile data comes before the pixel data, add it if (pbV5h->bV5ProfileData <= nOffBits) { nOffBits += pbV5h->bV5ProfileSize; } } } return nOffBits; } ////////////////////////////////////////////////////////////////////////// // // // void FixDibHeader(LPVOID pDib, DWORD dwSize) { ULONG nHeaderSize = *(PDWORD)pDib; // Do we recognize the header? if (nHeaderSize != sizeof(BITMAPCOREHEADER) && nHeaderSize != sizeof(BITMAPINFOHEADER) && nHeaderSize != sizeof(BITMAPV4HEADER) && nHeaderSize != sizeof(BITMAPV5HEADER)) { return; } // is this an old style BITMAPCOREHEADER? if (nHeaderSize == sizeof(BITMAPCOREHEADER)) { PBITMAPCOREHEADER pbmch = (PBITMAPCOREHEADER) pDib; // fix the height value if necessary if (pbmch->bcHeight == 0) { // start the calculation with the header size DWORD dwSizeImage = dwSize - nHeaderSize; // subtract the color table size if (pbmch->bcBitCount <= 8) { dwSizeImage -= sizeof(RGBTRIPLE) * (1 << pbmch->bcBitCount); } // calculate the height pbmch->bcHeight = (WORD) (dwSizeImage / LineWidth(pbmch->bcWidth, pbmch->bcBitCount)); } } else { // this is at least a BITMAPINFOHEADER PBITMAPINFOHEADER pbmih = (PBITMAPINFOHEADER) pDib; // fix the height value if necessary if (pbmih->biHeight == 0) { // find the size of the image data DWORD dwSizeImage; if (pbmih->biSizeImage != 0) { // if the size is specified in the header, take it dwSizeImage = pbmih->biSizeImage; } else { // start the calculation with the header size dwSizeImage = dwSize - nHeaderSize; // subtract the color table size if (pbmih->biClrUsed != 0) { dwSizeImage -= sizeof(RGBQUAD) * pbmih->biClrUsed; } else if (pbmih->biBitCount <= 8) { dwSizeImage -= sizeof(RGBQUAD) * (1 << pbmih->biBitCount); } // Consider special cases if (nHeaderSize == sizeof(BITMAPINFOHEADER)) { // If this is a 16 or 32 bit bitmap and BI_BITFIELDS is used, // bmiColors member contains three DWORD color masks. // For V4 or V5 headers, this info is included the header if (pbmih->biCompression == BI_BITFIELDS) { dwSizeImage -= 3 * sizeof(DWORD); } } else if (nHeaderSize >= sizeof(BITMAPV5HEADER)) { // If this is a V5 header and an ICM profile is specified, // we need to consider the profile data size PBITMAPV5HEADER pbV5h = (PBITMAPV5HEADER) pDib; // add the profile data size dwSizeImage -= pbV5h->bV5ProfileSize; } // store the image size pbmih->biSizeImage = dwSizeImage; } // finally, calculate the height pbmih->biHeight = -(LONG) (dwSizeImage / LineWidth(pbmih->biWidth, pbmih->biBitCount)); } } } ////////////////////////////////////////////////////////////////////////// // // // void CDataCallback::UpdateStatus(LONG lStatus, LONG lPercentComplete) { if (m_pProgress) { m_pProgress->SetPercentComplete(lPercentComplete); CString strFormat; switch (lStatus) { case IT_STATUS_TRANSFER_FROM_DEVICE: strFormat.LoadString(IDS_STATUS_TRANSFER_FROM_DEVICE); break; case IT_STATUS_PROCESSING_DATA: strFormat.LoadString(IDS_STATUS_PROCESSING_DATA); break; case IT_STATUS_TRANSFER_TO_CLIENT: strFormat.LoadString(IDS_STATUS_TRANSFER_TO_CLIENT); break; } CString strStatusText; strStatusText.Format(strFormat, lPercentComplete); USES_CONVERSION; m_pProgress->SetMessage(T2CW(strStatusText)); } } ////////////////////////////////////////////////////////////////////////// // // // #ifdef DBG void CDataCallback::QueryStartTimes(LONG lStatus, LONG lPercentComplete) { if (lStatus & IT_STATUS_TRANSFER_FROM_DEVICE && (lPercentComplete == 0 || m_TimeDeviceBegin.QuadPart == 0)) { QueryPerformanceCounter(&m_TimeDeviceBegin); } if (lStatus & IT_STATUS_PROCESSING_DATA && (lPercentComplete == 0 || m_TimeProcessBegin.QuadPart == 0)) { QueryPerformanceCounter(&m_TimeProcessBegin); } if (lStatus & IT_STATUS_TRANSFER_TO_CLIENT && (lPercentComplete == 0 || m_TimeClientBegin.QuadPart == 0)) { QueryPerformanceCounter(&m_TimeClientBegin); } } void CDataCallback::QueryStopTimes(LONG lStatus, LONG lPercentComplete) { if (lStatus & IT_STATUS_TRANSFER_FROM_DEVICE && lPercentComplete == 100) { QueryPerformanceCounter(&m_TimeDeviceEnd); } if (lStatus & IT_STATUS_PROCESSING_DATA && lPercentComplete == 100) { QueryPerformanceCounter(&m_TimeProcessEnd); } if (lStatus & IT_STATUS_TRANSFER_TO_CLIENT && lPercentComplete == 100) { QueryPerformanceCounter(&m_TimeClientEnd); } } void CDataCallback::PrintTimes() { LARGE_INTEGER Freq; QueryPerformanceFrequency(&Freq); double nTimeDevice = (double) (m_TimeDeviceEnd.QuadPart - m_TimeDeviceBegin.QuadPart) / (double) Freq.QuadPart; double nTimeProcess = (double) (m_TimeProcessEnd.QuadPart - m_TimeProcessBegin.QuadPart) / (double) Freq.QuadPart; double nTimeClient = (double) (m_TimeClientEnd.QuadPart - m_TimeClientBegin.QuadPart) / (double) Freq.QuadPart; Trace( _T("TRANSFER_FROM_DEVICE = %.02lf secs\n") _T("PROCESSING_DATA = %.02lf secs\n") _T("TRANSFER_TO_CLIENT = %.02lf secs\n") _T("\n"), nTimeDevice, nTimeProcess, nTimeClient ); } #else //DBG inline void CDataCallback::QueryStartTimes(LONG, LONG) { } inline void CDataCallback::QueryStopTimes(LONG, LONG) { } inline void CDataCallback::PrintTimes() { } #endif //DBG ////////////////////////////////////////////////////////////////////////// // // // CProgressDialog::CProgressDialog() { m_cRef = 0; } CProgressDialog::~CProgressDialog() { // remove the "downloading..." message from the status bar if (g_pStatBarWnd) { g_pStatBarWnd->SetPaneText(0, _T("")); } } STDMETHODIMP CProgressDialog::QueryInterface(REFIID iid, LPVOID *ppvObj) { if (ppvObj == 0) { return E_POINTER; } if (iid == IID_IUnknown) { AddRef(); *ppvObj = (IUnknown*) this; return S_OK; } if (iid == IID_IWiaProgressDialog) { AddRef(); *ppvObj = (IWiaProgressDialog *) this; return S_OK; } *ppvObj = 0; return E_NOINTERFACE; } STDMETHODIMP_(ULONG) CProgressDialog::AddRef() { return InterlockedIncrement(&m_cRef); } STDMETHODIMP_(ULONG) CProgressDialog::Release() { LONG cRef = InterlockedDecrement(&m_cRef); if (cRef == 0) { delete this; } return cRef; } STDMETHODIMP CProgressDialog::Create(HWND hwndParent, LONG lFlags) { if (g_pStatBarWnd) { RECT r; g_pStatBarWnd->GetItemRect(1, &r); m_ProgressCtrl.Create(WS_CHILD | WS_VISIBLE, r, g_pStatBarWnd, 1); m_ProgressCtrl.SetRange(0, 100); } return S_OK; } STDMETHODIMP CProgressDialog::Show() { m_ProgressCtrl.UpdateWindow(); return S_OK; } STDMETHODIMP CProgressDialog::Hide() { return S_OK; } STDMETHODIMP CProgressDialog::Cancelled(BOOL *pbCancelled) { *pbCancelled = FALSE; return S_OK; } STDMETHODIMP CProgressDialog::SetTitle(LPCWSTR pszMessage) { return S_OK; } STDMETHODIMP CProgressDialog::SetMessage(LPCWSTR pszTitle) { if (g_pStatBarWnd) { USES_CONVERSION; g_pStatBarWnd->SetPaneText(0, W2CT(pszTitle)); } return S_OK; } STDMETHODIMP CProgressDialog::SetPercentComplete(UINT nPercent) { m_ProgressCtrl.SetPos(nPercent); return S_OK; } STDMETHODIMP CProgressDialog::Destroy() { return S_OK; }