Beispiel #1
0
CString CFile::GetFileTitle() const
{
	ASSERT_VALID(this);

	CFileStatus status;
	GetStatus(status);
	CString strResult;
	AfxGetFileTitle(status.m_szFullName, strResult.GetBuffer(_MAX_FNAME),
		_MAX_FNAME);
	strResult.ReleaseBuffer();
	return strResult;
}
Beispiel #2
0
void CDocument::SetPathName(LPCTSTR lpszPathName, BOOL bAddToMRU)
{
	// store the path fully qualified
	TCHAR szFullPath[_MAX_PATH];
	AfxFullPath(szFullPath, lpszPathName);
	m_strPathName = szFullPath;
	ASSERT(!m_strPathName.IsEmpty());       // must be set to something
	m_bEmbedded = FALSE;
	ASSERT_VALID(this);

	// set the document title based on path name
	TCHAR szTitle[_MAX_FNAME];
	if (AfxGetFileTitle(szFullPath, szTitle, _MAX_FNAME) == 0)
		SetTitle(szTitle);

	// add it to the file MRU list
	if (bAddToMRU)
		AfxGetApp()->AddToRecentFileList(m_strPathName);

	ASSERT_VALID(this);
}
Beispiel #3
0
void CDocument::SetPathName(LPCTSTR lpszPathName, BOOL bAddToMRU)
{
	// store the path fully qualified
	TCHAR szFullPath[_MAX_PATH];
	if ( lstrlen(lpszPathName) >= _MAX_PATH )
	{
		ASSERT(FALSE);
		// MFC requires paths with length < _MAX_PATH
		// No other way to handle the error from a void function
		AfxThrowFileException(CFileException::badPath);
	}

	if( AfxFullPath(szFullPath, lpszPathName) == FALSE )
	{
		ASSERT(FALSE);
		// MFC requires paths with length < _MAX_PATH
		// No other way to handle the error from a void function
		AfxThrowFileException(CFileException::badPath);
	}

	m_strPathName = szFullPath;
	ASSERT(!m_strPathName.IsEmpty());       // must be set to something
	m_bEmbedded = FALSE;
	ASSERT_VALID(this);

	// set the document title based on path name
	TCHAR szTitle[_MAX_FNAME];
	if (AfxGetFileTitle(szFullPath, szTitle, _MAX_FNAME) == 0)
		SetTitle(szTitle);

	// add it to the file MRU list
	if (bAddToMRU)
		AfxGetApp()->AddToRecentFileList(m_strPathName);

	ASSERT_VALID(this);
}
Beispiel #4
0
void CView::OnFilePrint()
{
	// get default print info
	CPrintInfo printInfo;
	ASSERT(printInfo.m_pPD != NULL);    // must be set

	if (LOWORD(GetCurrentMessage()->wParam) == ID_FILE_PRINT_DIRECT)
	{
		CCommandLineInfo* pCmdInfo = AfxGetApp()->m_pCmdInfo;

		if (pCmdInfo != NULL)
		{
			if (pCmdInfo->m_nShellCommand == CCommandLineInfo::FilePrintTo)
			{
				printInfo.m_pPD->m_pd.hDC = ::CreateDC(pCmdInfo->m_strDriverName,
					pCmdInfo->m_strPrinterName, pCmdInfo->m_strPortName, NULL);
				if (printInfo.m_pPD->m_pd.hDC == NULL)
				{
					AfxMessageBox(AFX_IDP_FAILED_TO_START_PRINT);
					return;
				}
			}
		}

		printInfo.m_bDirect = TRUE;
	}

	if (OnPreparePrinting(&printInfo))
	{
		// hDC must be set (did you remember to call DoPreparePrinting?)
		ASSERT(printInfo.m_pPD->m_pd.hDC != NULL);

		// gather file to print to if print-to-file selected
		CString strOutput;
		if (printInfo.m_pPD->m_pd.Flags & PD_PRINTTOFILE && !printInfo.m_bDocObject)
		{
			// construct CFileDialog for browsing
			CString strDef(MAKEINTRESOURCE(AFX_IDS_PRINTDEFAULTEXT));
			CString strPrintDef(MAKEINTRESOURCE(AFX_IDS_PRINTDEFAULT));
			CString strFilter(MAKEINTRESOURCE(AFX_IDS_PRINTFILTER));
			CString strCaption(MAKEINTRESOURCE(AFX_IDS_PRINTCAPTION));
			CFileDialog dlg(FALSE, strDef, strPrintDef,
				OFN_HIDEREADONLY|OFN_OVERWRITEPROMPT, strFilter, NULL, 0);
			dlg.m_ofn.lpstrTitle = strCaption;

			if (dlg.DoModal() != IDOK)
				return;

			// set output device to resulting path name
			strOutput = dlg.GetPathName();
		}

		// set up document info and start the document printing process
		CString strTitle;
		CDocument* pDoc = GetDocument();
		if (pDoc != NULL)
			strTitle = pDoc->GetTitle();
		else
			EnsureParentFrame()->GetWindowText(strTitle);
		DOCINFO docInfo;
		memset(&docInfo, 0, sizeof(DOCINFO));
		docInfo.cbSize = sizeof(DOCINFO);
		docInfo.lpszDocName = strTitle;
		CString strPortName;
		if (strOutput.IsEmpty())
		{
			docInfo.lpszOutput = NULL;
			strPortName = printInfo.m_pPD->GetPortName();
		}
		else
		{
			docInfo.lpszOutput = strOutput;
			AfxGetFileTitle(strOutput,
				strPortName.GetBuffer(_MAX_PATH), _MAX_PATH);
		}

		// setup the printing DC
		CDC dcPrint;
		if (!printInfo.m_bDocObject)
		{
			dcPrint.Attach(printInfo.m_pPD->m_pd.hDC);  // attach printer dc
			dcPrint.m_bPrinting = TRUE;
		}
		OnBeginPrinting(&dcPrint, &printInfo);

		if (!printInfo.m_bDocObject)
			dcPrint.SetAbortProc(_AfxAbortProc);

		// disable main window while printing & init printing status dialog
		// Store the Handle of the Window in a temp so that it can be enabled 
		// once the printing is finished
		CWnd * hwndTemp = AfxGetMainWnd();
		hwndTemp->EnableWindow(FALSE);
		CPrintingDialog dlgPrintStatus(this);

		CString strTemp;
		dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_DOCNAME, strTitle);
		dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PRINTERNAME,
			printInfo.m_pPD->GetDeviceName());
		dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PORTNAME, strPortName);
		dlgPrintStatus.ShowWindow(SW_SHOW);
		dlgPrintStatus.UpdateWindow();

		// start document printing process
		if (!printInfo.m_bDocObject)
		{
			printInfo.m_nJobNumber = dcPrint.StartDoc(&docInfo);
			if (printInfo.m_nJobNumber == SP_ERROR)
			{
				// enable main window before proceeding
				hwndTemp->EnableWindow(TRUE);

				// cleanup and show error message
				OnEndPrinting(&dcPrint, &printInfo);
				dlgPrintStatus.DestroyWindow();
				dcPrint.Detach();   // will be cleaned up by CPrintInfo destructor
				AfxMessageBox(AFX_IDP_FAILED_TO_START_PRINT);
				return;
			}
		}

		// Guarantee values are in the valid range
		UINT nEndPage = printInfo.GetToPage();
		UINT nStartPage = printInfo.GetFromPage();

		if (nEndPage < printInfo.GetMinPage())
			nEndPage = printInfo.GetMinPage();
		if (nEndPage > printInfo.GetMaxPage())
			nEndPage = printInfo.GetMaxPage();

		if (nStartPage < printInfo.GetMinPage())
			nStartPage = printInfo.GetMinPage();
		if (nStartPage > printInfo.GetMaxPage())
			nStartPage = printInfo.GetMaxPage();

		int nStep = (nEndPage >= nStartPage) ? 1 : -1;
		nEndPage = (nEndPage == 0xffff) ? 0xffff : nEndPage + nStep;

		VERIFY(strTemp.LoadString(AFX_IDS_PRINTPAGENUM));

		// If it's a doc object, we don't loop page-by-page
		// because doc objects don't support that kind of levity.

		BOOL bError = FALSE;
		if (printInfo.m_bDocObject)
		{
			OnPrepareDC(&dcPrint, &printInfo);
			OnPrint(&dcPrint, &printInfo);
		}
		else
		{
			// begin page printing loop
			for (printInfo.m_nCurPage = nStartPage;
				printInfo.m_nCurPage != nEndPage; printInfo.m_nCurPage += nStep)
			{
				OnPrepareDC(&dcPrint, &printInfo);

				// check for end of print
				if (!printInfo.m_bContinuePrinting)
					break;

				// write current page
				TCHAR szBuf[80];
				ATL_CRT_ERRORCHECK_SPRINTF(_sntprintf_s(szBuf, _countof(szBuf), _countof(szBuf) - 1, strTemp, printInfo.m_nCurPage));
				
				dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PAGENUM, szBuf);

				// set up drawing rect to entire page (in logical coordinates)
				printInfo.m_rectDraw.SetRect(0, 0,
					dcPrint.GetDeviceCaps(HORZRES),
					dcPrint.GetDeviceCaps(VERTRES));
				dcPrint.DPtoLP(&printInfo.m_rectDraw);

				// attempt to start the current page
				if (dcPrint.StartPage() < 0)
				{
					bError = TRUE;
					break;
				}

				// must call OnPrepareDC on newer versions of Windows because
				// StartPage now resets the device attributes.
				OnPrepareDC(&dcPrint, &printInfo);

				ASSERT(printInfo.m_bContinuePrinting);

				// page successfully started, so now render the page
				OnPrint(&dcPrint, &printInfo);

				// If the user restarts the job when it's spooling, all 
				// subsequent calls to EndPage returns < 0. The first time
				// GetLastError returns ERROR_PRINT_CANCELLED
				if (dcPrint.EndPage() < 0 && (GetLastError()!= ERROR_SUCCESS))
				{
					HANDLE hPrinter;
					if (!OpenPrinter(LPTSTR(printInfo.m_pPD->GetDeviceName().GetBuffer()), &hPrinter, NULL))
					{
						bError = TRUE;
						break;
					}

					DWORD cBytesNeeded;
					if(!GetJob(hPrinter,printInfo.m_nJobNumber,1,NULL,0,&cBytesNeeded))
					{
						if (GetLastError() != ERROR_INSUFFICIENT_BUFFER)
						{
						   bError = TRUE;
						   break;
						}
					}

					JOB_INFO_1 *pJobInfo; 					
					if((pJobInfo = (JOB_INFO_1 *)malloc(cBytesNeeded))== NULL)
					{
						bError = TRUE;
						break;
					}

					DWORD cBytesUsed;

					BOOL bRet = GetJob(hPrinter,printInfo.m_nJobNumber,1,LPBYTE(pJobInfo),cBytesNeeded,&cBytesUsed);

					DWORD dwJobStatus = pJobInfo->Status;

					free(pJobInfo);
					pJobInfo = NULL;

					// if job status is restart, just continue
					if(!bRet || !(dwJobStatus & JOB_STATUS_RESTART) )
					{
						bError = TRUE;
						break;
					}
				}

				if(!_AfxAbortProc(dcPrint.m_hDC, 0))
				{		
					bError = TRUE;
					break;
				}
			}
		}

		// cleanup document printing process
		if (!printInfo.m_bDocObject)
		{
			if (!bError)
				dcPrint.EndDoc();
			else
				dcPrint.AbortDoc();
		}

		hwndTemp->EnableWindow();    // enable main window

		OnEndPrinting(&dcPrint, &printInfo);    // clean up after printing
		dlgPrintStatus.DestroyWindow();

		dcPrint.Detach();   // will be cleaned up by CPrintInfo destructor
	}
}
Beispiel #5
0
void CView::OnFilePrint()
{
	// get default print info
	CPrintInfo printInfo;
	ASSERT(printInfo.m_pPD != NULL);    // must be set

	if (LOWORD(GetCurrentMessage()->wParam) == ID_FILE_PRINT_DIRECT)
	{
		CCommandLineInfo* pCmdInfo = AfxGetApp()->m_pCmdInfo;

		if (pCmdInfo != NULL)
		{
			if (pCmdInfo->m_nShellCommand == CCommandLineInfo::FilePrintTo)
			{
				printInfo.m_pPD->m_pd.hDC = ::CreateDC(pCmdInfo->m_strDriverName,
					pCmdInfo->m_strPrinterName, pCmdInfo->m_strPortName, NULL);
				if (printInfo.m_pPD->m_pd.hDC == NULL)
				{
					AfxMessageBox(AFX_IDP_FAILED_TO_START_PRINT);
					return;
				}
			}
		}

		printInfo.m_bDirect = TRUE;
	}

	if (OnPreparePrinting(&printInfo))
	{
		// hDC must be set (did you remember to call DoPreparePrinting?)
		ASSERT(printInfo.m_pPD->m_pd.hDC != NULL);

		// gather file to print to if print-to-file selected
		CString strOutput;
		if (printInfo.m_pPD->m_pd.Flags & PD_PRINTTOFILE && !printInfo.m_bDocObject)
		{
			// construct CFileDialog for browsing
			CString strDef(MAKEINTRESOURCE(AFX_IDS_PRINTDEFAULTEXT));
			CString strPrintDef(MAKEINTRESOURCE(AFX_IDS_PRINTDEFAULT));
			CString strFilter(MAKEINTRESOURCE(AFX_IDS_PRINTFILTER));
			CString strCaption(MAKEINTRESOURCE(AFX_IDS_PRINTCAPTION));
			CFileDialog dlg(FALSE, strDef, strPrintDef,
				OFN_HIDEREADONLY|OFN_OVERWRITEPROMPT, strFilter);
			dlg.m_ofn.lpstrTitle = strCaption;

			if (dlg.DoModal() != IDOK)
				return;

			// set output device to resulting path name
			strOutput = dlg.GetPathName();
		}

		// set up document info and start the document printing process
		CString strTitle;
		CDocument* pDoc = GetDocument();
		if (pDoc != NULL)
			strTitle = pDoc->GetTitle();
		else
			GetParentFrame()->GetWindowText(strTitle);
		if (strTitle.GetLength() > 31)
			strTitle.ReleaseBuffer(31);
		DOCINFO docInfo;
		memset(&docInfo, 0, sizeof(DOCINFO));
		docInfo.cbSize = sizeof(DOCINFO);
		docInfo.lpszDocName = strTitle;
		CString strPortName;
		int nFormatID;
		if (strOutput.IsEmpty())
		{
			docInfo.lpszOutput = NULL;
			strPortName = printInfo.m_pPD->GetPortName();
			nFormatID = AFX_IDS_PRINTONPORT;
		}
		else
		{
			docInfo.lpszOutput = strOutput;
			AfxGetFileTitle(strOutput,
				strPortName.GetBuffer(_MAX_PATH), _MAX_PATH);
			nFormatID = AFX_IDS_PRINTTOFILE;
		}

		// setup the printing DC
		CDC dcPrint;
		if (!printInfo.m_bDocObject)
		{
			dcPrint.Attach(printInfo.m_pPD->m_pd.hDC);  // attach printer dc
			dcPrint.m_bPrinting = TRUE;
		}
		OnBeginPrinting(&dcPrint, &printInfo);

		if (!printInfo.m_bDocObject)
			dcPrint.SetAbortProc(_AfxAbortProc);

		// disable main window while printing & init printing status dialog
		AfxGetMainWnd()->EnableWindow(FALSE);
		CPrintingDialog dlgPrintStatus(this);

		CString strTemp;
		dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_DOCNAME, strTitle);
		dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PRINTERNAME,
			printInfo.m_pPD->GetDeviceName());
		AfxFormatString1(strTemp, nFormatID, strPortName);
		dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PORTNAME, strTemp);
		dlgPrintStatus.ShowWindow(SW_SHOW);
		dlgPrintStatus.UpdateWindow();

		// start document printing process
		if (!printInfo.m_bDocObject && dcPrint.StartDoc(&docInfo) == SP_ERROR)
		{
			// enable main window before proceeding
			AfxGetMainWnd()->EnableWindow(TRUE);

			// cleanup and show error message
			OnEndPrinting(&dcPrint, &printInfo);
			dlgPrintStatus.DestroyWindow();
			dcPrint.Detach();   // will be cleaned up by CPrintInfo destructor
			AfxMessageBox(AFX_IDP_FAILED_TO_START_PRINT);
			return;
		}

		// Guarantee values are in the valid range
		UINT nEndPage = printInfo.GetToPage();
		UINT nStartPage = printInfo.GetFromPage();

		if (nEndPage < printInfo.GetMinPage())
			nEndPage = printInfo.GetMinPage();
		if (nEndPage > printInfo.GetMaxPage())
			nEndPage = printInfo.GetMaxPage();

		if (nStartPage < printInfo.GetMinPage())
			nStartPage = printInfo.GetMinPage();
		if (nStartPage > printInfo.GetMaxPage())
			nStartPage = printInfo.GetMaxPage();

		int nStep = (nEndPage >= nStartPage) ? 1 : -1;
		nEndPage = (nEndPage == 0xffff) ? 0xffff : nEndPage + nStep;

		VERIFY(strTemp.LoadString(AFX_IDS_PRINTPAGENUM));

		// If it's a doc object, we don't loop page-by-page
		// because doc objects don't support that kind of levity.

		BOOL bError = FALSE;
		if (printInfo.m_bDocObject)
		{
			OnPrepareDC(&dcPrint, &printInfo);
			OnPrint(&dcPrint, &printInfo);
		}
		else
		{
			// begin page printing loop
			for (printInfo.m_nCurPage = nStartPage;
				printInfo.m_nCurPage != nEndPage; printInfo.m_nCurPage += nStep)
			{
				OnPrepareDC(&dcPrint, &printInfo);

				// check for end of print
				if (!printInfo.m_bContinuePrinting)
					break;

				// write current page
				TCHAR szBuf[80];
				wsprintf(szBuf, strTemp, printInfo.m_nCurPage);
				dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PAGENUM, szBuf);

				// set up drawing rect to entire page (in logical coordinates)
				printInfo.m_rectDraw.SetRect(0, 0,
					dcPrint.GetDeviceCaps(HORZRES),
					dcPrint.GetDeviceCaps(VERTRES));
				dcPrint.DPtoLP(&printInfo.m_rectDraw);

				// attempt to start the current page
				if (dcPrint.StartPage() < 0)
				{
					bError = TRUE;
					break;
				}

				// must call OnPrepareDC on newer versions of Windows because
				// StartPage now resets the device attributes.
				if (afxData.bMarked4)
					OnPrepareDC(&dcPrint, &printInfo);

				ASSERT(printInfo.m_bContinuePrinting);

				// page successfully started, so now render the page
				OnPrint(&dcPrint, &printInfo);
				if (dcPrint.EndPage() < 0 || !_AfxAbortProc(dcPrint.m_hDC, 0))
				{
					bError = TRUE;
					break;
				}
			}
		}

		// cleanup document printing process
		if (!printInfo.m_bDocObject)
		{
			if (!bError)
				dcPrint.EndDoc();
			else
				dcPrint.AbortDoc();
		}

		AfxGetMainWnd()->EnableWindow();    // enable main window

		OnEndPrinting(&dcPrint, &printInfo);    // clean up after printing
		dlgPrintStatus.DestroyWindow();

		dcPrint.Detach();   // will be cleaned up by CPrintInfo destructor
	}
}
Beispiel #6
0
static void PrintPiecesThread(void* pv)
{
	CFrameWndEx* pFrame = (CFrameWndEx*)pv;
	CView* pView = pFrame->GetActiveView();
	CPrintDialog PD(FALSE, PD_ALLPAGES|PD_USEDEVMODECOPIES|PD_NOPAGENUMS|PD_NOSELECTION, pFrame);

	if (theApp.DoPrintDialog(&PD) != IDOK)
		return; 

	if (PD.m_pd.hDC == NULL)
		return;

	Project* project = lcGetActiveProject();
	ObjArray<lcPiecesUsedEntry> PiecesUsed;

	project->GetPiecesUsed(PiecesUsed);
	PiecesUsed.Sort(PiecesUsedSortFunc, NULL);

	// gather file to print to if print-to-file selected
	CString strOutput;
	if (PD.m_pd.Flags & PD_PRINTTOFILE)
	{
		CString strDef(MAKEINTRESOURCE(AFX_IDS_PRINTDEFAULTEXT));
		CString strPrintDef(MAKEINTRESOURCE(AFX_IDS_PRINTDEFAULT));
		CString strFilter(MAKEINTRESOURCE(AFX_IDS_PRINTFILTER));
		CString strCaption(MAKEINTRESOURCE(AFX_IDS_PRINTCAPTION));
		CFileDialog dlg(FALSE, strDef, strPrintDef,OFN_HIDEREADONLY|OFN_OVERWRITEPROMPT, strFilter);
		dlg.m_ofn.lpstrTitle = strCaption;
		if (dlg.DoModal() != IDOK)
			return;
		strOutput = dlg.GetPathName();
	}

	CString DocName;
	char* Ext = strrchr(project->m_strTitle, '.');
	DocName.Format("LeoCAD - %.*s BOM", Ext ? Ext - project->m_strTitle : strlen(project->m_strTitle), project->m_strTitle);
	DOCINFO docInfo;
	memset(&docInfo, 0, sizeof(DOCINFO));
	docInfo.cbSize = sizeof(DOCINFO);
	docInfo.lpszDocName = DocName;
	CString strPortName;

	int nFormatID;
	if (strOutput.IsEmpty())
	{
		docInfo.lpszOutput = NULL;
		strPortName = PD.GetPortName();
		nFormatID = AFX_IDS_PRINTONPORT;
	}
	else
	{
		docInfo.lpszOutput = strOutput;
		AfxGetFileTitle(strOutput, strPortName.GetBuffer(_MAX_PATH), _MAX_PATH);
		nFormatID = AFX_IDS_PRINTTOFILE;
	}

	SetAbortProc(PD.m_pd.hDC, _AfxAbortProc);
	pFrame->EnableWindow(FALSE);
	CPrintingDialog dlgPrintStatus(NULL);

	CString strTemp;
	dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_DOCNAME, DocName);
	dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PRINTERNAME, PD.GetDeviceName());
	AfxFormatString1(strTemp, nFormatID, strPortName);
	dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PORTNAME, strTemp);
	dlgPrintStatus.ShowWindow(SW_SHOW);
	dlgPrintStatus.UpdateWindow();

	if (StartDoc(PD.m_pd.hDC, &docInfo) == SP_ERROR)
	{
		pFrame->EnableWindow(TRUE);
		dlgPrintStatus.DestroyWindow();
		AfxMessageBox(AFX_IDP_FAILED_TO_START_PRINT);
		return;
	}

	int ResX = GetDeviceCaps(PD.m_pd.hDC, LOGPIXELSX);
	int ResY = GetDeviceCaps(PD.m_pd.hDC, LOGPIXELSY);

	CRect RectDraw(0, 0, GetDeviceCaps(PD.m_pd.hDC, HORZRES), GetDeviceCaps(PD.m_pd.hDC, VERTRES));
	DPtoLP(PD.m_pd.hDC, (LPPOINT)(RECT*)&RectDraw, 2);
	RectDraw.DeflateRect((int)(ResX*(float)theApp.GetProfileInt("Default","Margin Left", 50)/100.0f),
	                     (int)(ResY*(float)theApp.GetProfileInt("Default","Margin Top", 50)/100.0f),
	                     (int)(ResX*(float)theApp.GetProfileInt("Default","Margin Right", 50)/100.0f),
	                     (int)(ResY*(float)theApp.GetProfileInt("Default","Margin Bottom", 50)/100.0f));

	CRect HeaderRect = RectDraw;
 	HeaderRect.top -= (int)(ResY*theApp.GetProfileInt("Default", "Margin Top", 50) / 200.0f);
	HeaderRect.bottom += (int)(ResY*theApp.GetProfileInt("Default", "Margin Bottom", 50) / 200.0f);

	int RowsPerPage = AfxGetApp()->GetProfileInt("Default", "Catalog Rows", 10);
	int ColsPerPage = AfxGetApp()->GetProfileInt("Default", "Catalog Columns", 3);
	int PicHeight = RectDraw.Height() / RowsPerPage;
	int PicWidth = RectDraw.Width() / ColsPerPage;
	int TotalRows = (PiecesUsed.GetSize() + ColsPerPage - 1) / ColsPerPage;
	int TotalPages = (TotalRows + RowsPerPage - 1) / RowsPerPage;
	int RowHeight = RectDraw.Height() / RowsPerPage;
	int ColWidth = RectDraw.Width() / ColsPerPage;

	PD.m_pd.nMinPage = 1;
	PD.m_pd.nMaxPage = TotalPages + 1;

	UINT EndPage = PD.m_pd.nToPage;
	UINT StartPage = PD.m_pd.nFromPage;
	if (PD.PrintAll())
	{
		EndPage = PD.m_pd.nMaxPage;
		StartPage = PD.m_pd.nMinPage;
	}

	lcClamp(EndPage, PD.m_pd.nMinPage, PD.m_pd.nMaxPage);
	lcClamp(StartPage, PD.m_pd.nMinPage, PD.m_pd.nMaxPage);
	int StepPage = (EndPage >= StartPage) ? 1 : -1;

	VERIFY(strTemp.LoadString(AFX_IDS_PRINTPAGENUM));

	// begin page printing loop
	BOOL bError = FALSE;

	// Creating Compatible Memory Device Context
	CDC *pMemDC = new CDC;
	if (!pMemDC->CreateCompatibleDC(pView->GetDC()))
		return;

	BITMAPINFO bi;
	ZeroMemory(&bi, sizeof(BITMAPINFO));
	bi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
	bi.bmiHeader.biWidth = PicWidth;
	bi.bmiHeader.biHeight = PicHeight;
	bi.bmiHeader.biPlanes = 1;
	bi.bmiHeader.biBitCount = 24;
	bi.bmiHeader.biCompression = BI_RGB;
	bi.bmiHeader.biSizeImage = PicWidth * PicHeight * 3;
	bi.bmiHeader.biXPelsPerMeter = 2925;
	bi.bmiHeader.biYPelsPerMeter = 2925;
	bi.bmiHeader.biClrUsed = 0;
	bi.bmiHeader.biClrImportant = 0;
	
	LPBITMAPINFOHEADER lpbi[1];

	HBITMAP hBm, hBmOld;
    hBm = CreateDIBSection(pView->GetDC()->GetSafeHdc(), &bi, DIB_RGB_COLORS, (void **)&lpbi, NULL, (DWORD)0);
	if (!hBm)
		return;
	hBmOld = (HBITMAP)::SelectObject(pMemDC->GetSafeHdc(), hBm);

	PIXELFORMATDESCRIPTOR pfd = { sizeof(PIXELFORMATDESCRIPTOR), 1, PFD_DRAW_TO_BITMAP | PFD_SUPPORT_OPENGL | PFD_SUPPORT_GDI,
			PFD_TYPE_RGBA, 24, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 16, 0, 0, PFD_MAIN_PLANE, 0, 0, 0, 0 };
	int pixelformat = ChoosePixelFormat(pMemDC->m_hDC, &pfd);
	DescribePixelFormat(pMemDC->m_hDC, pixelformat, sizeof(PIXELFORMATDESCRIPTOR), &pfd);
	SetPixelFormat(pMemDC->m_hDC, pixelformat, &pfd);
	HGLRC hmemrc = wglCreateContext(pMemDC->GetSafeHdc());
	wglMakeCurrent(pMemDC->GetSafeHdc(), hmemrc);

	GL_DisableVertexBufferObject();
	float Aspect = (float)PicWidth/(float)PicHeight;

	glViewport(0, 0, PicWidth, PicHeight);
	glEnable(GL_DEPTH_TEST);
	glDepthFunc(GL_LEQUAL);
	glEnable(GL_POLYGON_OFFSET_FILL);
	glPolygonOffset(0.5f, 0.1f);
	glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
	glClearColor(1, 1, 1, 1); 

	LOGFONT lf;
	memset(&lf, 0, sizeof(LOGFONT));
	lf.lfHeight = -MulDiv(12, ResY, 72);
	lf.lfWeight = FW_REGULAR;
	lf.lfCharSet = DEFAULT_CHARSET;
	lf.lfQuality = PROOF_QUALITY;
	strcpy (lf.lfFaceName , "Arial");

	HFONT HeaderFont = CreateFontIndirect(&lf);
	HFONT OldFont = (HFONT)SelectObject(PD.m_pd.hDC, HeaderFont);
	SetBkMode(PD.m_pd.hDC, TRANSPARENT);
	SetTextColor(PD.m_pd.hDC, 0x000000);
	SetTextAlign(PD.m_pd.hDC, TA_CENTER|TA_NOUPDATECP);

	DWORD PrintOptions = AfxGetApp()->GetProfileInt("Settings", "Print", PRINT_NUMBERS | PRINT_BORDER/*|PRINT_NAMES*/);
	bool DrawNames = 1;//(PrintOptions & PRINT_NAMES) != 0;
	bool Horizontal = 1;//(PrintOptions & PRINT_HORIZONTAL) != 0;

	pMemDC->SetTextColor(0x000000);
	pMemDC->SetBkMode(TRANSPARENT);
//	lf.lfHeight = -MulDiv(40, GetDeviceCaps(pMemDC->m_hDC, LOGPIXELSY), 72);
//	lf.lfWeight = FW_BOLD;
	HFONT CatalogFont = CreateFontIndirect(&lf);
	lf.lfHeight = -MulDiv(80, GetDeviceCaps(pMemDC->m_hDC, LOGPIXELSY), 72);
	HFONT CountFont = CreateFontIndirect(&lf);
	HFONT OldMemFont = (HFONT)SelectObject(pMemDC->m_hDC, CatalogFont);
	HPEN hpOld = (HPEN)SelectObject(pMemDC->m_hDC, GetStockObject(BLACK_PEN));

	for (UINT CurPage = StartPage; CurPage != EndPage; CurPage += StepPage)
	{
		TCHAR szBuf[80];
		wsprintf(szBuf, strTemp, CurPage);
		dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PAGENUM, szBuf);
		if (::StartPage(PD.m_pd.hDC) < 0)
		{
			bError = TRUE;
			break;
		}

		// Draw header and footer.
		SelectObject(PD.m_pd.hDC, HeaderFont);

		CString Header;
		UINT Align;

		FormatHeader(Header, Align, AfxGetApp()->GetProfileString("Default", "Catalog Header", ""), project->m_strTitle, project->m_strAuthor, project->m_strDescription, CurPage, TotalPages);
		Align |= DT_TOP|DT_SINGLELINE;

		DrawText(PD.m_pd.hDC, (LPCTSTR)Header, Header.GetLength(), HeaderRect, Align);

		FormatHeader(Header, Align, AfxGetApp()->GetProfileString("Default", "Catalog Footer", "Page &P"), project->m_strTitle, project->m_strAuthor, project->m_strDescription, CurPage, TotalPages);
		Align |= DT_BOTTOM|DT_SINGLELINE;

		DrawText(PD.m_pd.hDC, (LPCTSTR)Header, Header.GetLength(), HeaderRect, Align);

		int StartPiece = (CurPage - 1) * RowsPerPage * ColsPerPage;
		int EndPiece = lcMin(StartPiece + RowsPerPage * ColsPerPage, PiecesUsed.GetSize());

		for (int CurPiece = StartPiece; CurPiece < EndPiece; CurPiece++)
		{
			FillRect(pMemDC->m_hDC, CRect(0, PicHeight, PicWidth, 0), (HBRUSH)GetStockObject(WHITE_BRUSH));
			glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);

			PieceInfo* pInfo = PiecesUsed[CurPiece].Info;
			pInfo->ZoomExtents(30.0f, Aspect);

			pInfo->RenderPiece(PiecesUsed[CurPiece].ColorIndex);
			glFinish();

			// Draw description text at the bottom.
			CRect TextRect(0, 0, PicWidth, PicHeight);
	
			if (DrawNames)
			{
				SelectObject(pMemDC->m_hDC, CatalogFont);
				pMemDC->DrawText(pInfo->m_strDescription, strlen(pInfo->m_strDescription), TextRect, DT_CALCRECT | DT_WORDBREAK);

				TextRect.OffsetRect(0, PicHeight - TextRect.Height() - 5);
				pMemDC->DrawText(pInfo->m_strDescription, strlen(pInfo->m_strDescription), TextRect, DT_WORDBREAK);
			}

			// Draw count.
			SelectObject(pMemDC->m_hDC, CountFont);
			TextRect = CRect(0, 0, PicWidth, TextRect.top);
			TextRect.DeflateRect(5, 5);

			char CountStr[16];
			sprintf(CountStr, "%dx", PiecesUsed[CurPiece].Count);
			pMemDC->DrawText(CountStr, strlen(CountStr), TextRect, DT_BOTTOM | DT_LEFT | DT_SINGLELINE);

			LPBITMAPINFOHEADER lpbi[1];
			lpbi[0] = (LPBITMAPINFOHEADER)GlobalLock(MakeDib(hBm, 24));
			BITMAPINFO bi;
			ZeroMemory(&bi, sizeof(BITMAPINFO));
			memcpy (&bi.bmiHeader, lpbi[0], sizeof(BITMAPINFOHEADER));
			SetStretchBltMode(PD.m_pd.hDC, COLORONCOLOR);

			int CurRow, CurCol;

			if (Horizontal)
			{
				CurRow = (CurPiece - StartPiece) / ColsPerPage;
				CurCol = (CurPiece - StartPiece) % ColsPerPage;
			}
			else
			{
				CurRow = (CurPiece - StartPiece) % RowsPerPage;
				CurCol = (CurPiece - StartPiece) / RowsPerPage;
			}
			
			int Left = RectDraw.left + ColWidth * CurCol + (ColWidth - PicWidth) / 2;
			int Top = RectDraw.top + RowHeight * CurRow + (RowHeight - PicHeight) / 2;

			StretchDIBits(PD.m_pd.hDC, Left, Top, PicWidth, PicHeight, 0, 0, PicWidth, PicHeight, 
			              (LPBYTE)lpbi[0] + lpbi[0]->biSize + lpbi[0]->biClrUsed * sizeof(RGBQUAD), &bi, DIB_RGB_COLORS, SRCCOPY);
			if (lpbi[0])
				GlobalFreePtr(lpbi[0]);
		}

		if (::EndPage(PD.m_pd.hDC) < 0 || !_AfxAbortProc(PD.m_pd.hDC, 0))
		{
			bError = TRUE;
			break;
		}
	}

	SelectObject(pMemDC->m_hDC, hpOld);
	SelectObject(PD.m_pd.hDC, OldFont);
	DeleteObject(HeaderFont);
	SelectObject(pMemDC->m_hDC, OldMemFont);
	DeleteObject(CatalogFont);
	DeleteObject(CountFont);

	GL_EnableVertexBufferObject();
	wglMakeCurrent(NULL, NULL);
	wglDeleteContext(hmemrc);
	SelectObject(pMemDC->GetSafeHdc(), hBmOld);
	DeleteObject(hBm);
	delete pMemDC;

	if (!bError)
		EndDoc(PD.m_pd.hDC);
	else
		AbortDoc(PD.m_pd.hDC);

	pFrame->EnableWindow();
	dlgPrintStatus.DestroyWindow();

	if (PD.m_pd.hDC != NULL)
    {
		::DeleteDC(PD.m_pd.hDC);
		PD.m_pd.hDC = NULL;
    }
}
Beispiel #7
0
static void PrintCatalogThread (CWnd* pParent, CFrameWndEx* pMainFrame)
{
	CCADView* pView = (CCADView*)pMainFrame->GetActiveView();
	CPrintDialog* PD = new CPrintDialog(FALSE, PD_ALLPAGES|PD_USEDEVMODECOPIES|PD_NOSELECTION|PD_ENABLEPRINTHOOK, pParent);
	lcPiecesLibrary *pLib = lcGetPiecesLibrary();

	int bricks = 0;
	for (int j = 0; j < pLib->mPieces.GetSize(); j++)
		if (pLib->mPieces[j]->m_strDescription[0] != '~')
			bricks++;
	int rows = theApp.GetProfileInt("Default", "Catalog Rows", 10);
	int cols = theApp.GetProfileInt("Default", "Catalog Columns", 3);
	PD->m_pd.lpfnPrintHook = PrintHookProc;
	PD->m_pd.nFromPage = PD->m_pd.nMinPage = 1; 
	PD->m_pd.nMaxPage = bricks/(rows*cols);
	if (bricks%(rows*cols) != 0) PD->m_pd.nMaxPage++;
	PD->m_pd.nToPage = PD->m_pd.nMaxPage;
	PD->m_pd.lCustData= (LONG)pMainFrame;

	// bring up the print dialog and allow user to change things
	if (theApp.DoPrintDialog(PD) != IDOK) return; 
	if (PD->m_pd.hDC == NULL) return;

	// update page range
	rows = theApp.GetProfileInt("Default","Catalog Rows", 10);
	cols = theApp.GetProfileInt("Default","Catalog Columns", 3);
	PD->m_pd.nMaxPage = bricks/(rows*cols);
	if (bricks%(rows*cols) != 0) PD->m_pd.nMaxPage++;

	// gather file to print to if print-to-file selected
	CString strOutput;
	if (PD->m_pd.Flags & PD_PRINTTOFILE)
	{
		// construct CFileDialog for browsing
		CString strDef(MAKEINTRESOURCE(AFX_IDS_PRINTDEFAULTEXT));
		CString strPrintDef(MAKEINTRESOURCE(AFX_IDS_PRINTDEFAULT));
		CString strFilter(MAKEINTRESOURCE(AFX_IDS_PRINTFILTER));
		CString strCaption(MAKEINTRESOURCE(AFX_IDS_PRINTCAPTION));
		CFileDialog dlg(FALSE, strDef, strPrintDef,
			OFN_HIDEREADONLY|OFN_OVERWRITEPROMPT, strFilter);
		dlg.m_ofn.lpstrTitle = strCaption;

		if (dlg.DoModal() != IDOK)
			return;

		// set output device to resulting path name
		strOutput = dlg.GetPathName();
	}

	DOCINFO docInfo;
	memset(&docInfo, 0, sizeof(DOCINFO));
	docInfo.cbSize = sizeof(DOCINFO);
	docInfo.lpszDocName = "LeoCAD pieces catalog";
	CString strPortName;
	int nFormatID;
	if (strOutput.IsEmpty())
	{
		docInfo.lpszOutput = NULL;
		strPortName = PD->GetPortName();
		nFormatID = AFX_IDS_PRINTONPORT;
	}
	else
	{
		docInfo.lpszOutput = strOutput;
		AfxGetFileTitle(strOutput, strPortName.GetBuffer(_MAX_PATH), _MAX_PATH);
		nFormatID = AFX_IDS_PRINTTOFILE;
	}

	// setup the printing DC
	SetAbortProc(PD->m_pd.hDC, _AfxAbortProc);

	// disable main window while printing & init printing status dialog
	pParent->EnableWindow(FALSE);
	CPrintingDialog dlgPrintStatus(NULL);

	CString strTemp;
	dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_DOCNAME, "LeoCAD parts catalog");
	dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PRINTERNAME, PD->GetDeviceName());
	AfxFormatString1(strTemp, nFormatID, strPortName);
	dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PORTNAME, strTemp);
	dlgPrintStatus.ShowWindow(SW_SHOW);
	dlgPrintStatus.UpdateWindow();

	// start document printing process
	if (StartDoc(PD->m_pd.hDC, &docInfo) == SP_ERROR)
	{
		pParent->EnableWindow(TRUE);
		dlgPrintStatus.DestroyWindow();
		AfxMessageBox(AFX_IDP_FAILED_TO_START_PRINT);
		return;
	}

	// Guarantee values are in the valid range
	UINT nEndPage = PD->m_pd.nToPage;
	UINT nStartPage = PD->m_pd.nFromPage;

	if (PD->PrintAll())
	{
		nEndPage = PD->m_pd.nMaxPage;
		nStartPage = PD->m_pd.nMinPage;
	}

	if (nEndPage < PD->m_pd.nMinPage) nEndPage = PD->m_pd.nMinPage;
	if (nEndPage > PD->m_pd.nMaxPage) nEndPage = PD->m_pd.nMaxPage;
	if (nStartPage < PD->m_pd.nMinPage) nStartPage = PD->m_pd.nMinPage;
	if (nStartPage > PD->m_pd.nMaxPage) nStartPage = PD->m_pd.nMaxPage;

	int nStep = (nEndPage >= nStartPage) ? 1 : -1;
	nEndPage = nEndPage + nStep;

	VERIFY(strTemp.LoadString(AFX_IDS_PRINTPAGENUM));

	// begin page printing loop
	BOOL bError = FALSE;

	// set up drawing rect to entire page (in logical coordinates)
	CRect rectDraw (0, 0, GetDeviceCaps(PD->m_pd.hDC, HORZRES), GetDeviceCaps(PD->m_pd.hDC, VERTRES));
	DPtoLP(PD->m_pd.hDC, (LPPOINT)(RECT*)&rectDraw, 2);
	rectDraw.DeflateRect(
		GetDeviceCaps(PD->m_pd.hDC, LOGPIXELSX)*theApp.GetProfileInt("Default","Margin Left", 50)/100, 
		GetDeviceCaps(PD->m_pd.hDC, LOGPIXELSY)*theApp.GetProfileInt("Default","Margin Top", 50)/100,
		GetDeviceCaps(PD->m_pd.hDC, LOGPIXELSX)*theApp.GetProfileInt("Default","Margin Right", 50)/100, 
		GetDeviceCaps(PD->m_pd.hDC, LOGPIXELSY)*theApp.GetProfileInt("Default","Margin Bottom", 50)/100);
	int w = rectDraw.Width()/cols;
	int h = rectDraw.Height()/rows;

	// Creating Compatible Memory Device Context
	CDC *pMemDC = new CDC;
	if (!pMemDC->CreateCompatibleDC(pView->GetDC()))
		return;

	// Preparing bitmap header for DIB section
	BITMAPINFO bi;
	ZeroMemory(&bi, sizeof(BITMAPINFO));
	
	bi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
	bi.bmiHeader.biWidth = w;
	bi.bmiHeader.biHeight = h;
	bi.bmiHeader.biPlanes = 1;
	bi.bmiHeader.biBitCount = 24;
	bi.bmiHeader.biCompression = BI_RGB;
	bi.bmiHeader.biSizeImage = w * h * (24/8);
	bi.bmiHeader.biXPelsPerMeter = 2925;
	bi.bmiHeader.biYPelsPerMeter = 2925;
	bi.bmiHeader.biClrUsed = 0;
	bi.bmiHeader.biClrImportant = 0;
	
	LPBITMAPINFOHEADER lpbi[1];

	// Creating a DIB surface
	HBITMAP hBm, hBmOld;
	hBm = CreateDIBSection(pView->GetDC()->GetSafeHdc(), &bi, DIB_RGB_COLORS, 
		(void **)&lpbi, NULL, (DWORD)0);
	if (!hBm)
		return;

	// Selecting the DIB Surface
	hBmOld = (HBITMAP)::SelectObject(pMemDC->GetSafeHdc(), hBm);
	if (!hBmOld)
		return;

	// Setting up a Pixel format for the DIB surface
	PIXELFORMATDESCRIPTOR pfd = {
		sizeof(PIXELFORMATDESCRIPTOR),
			1,PFD_DRAW_TO_BITMAP | PFD_SUPPORT_OPENGL | PFD_SUPPORT_GDI,
			PFD_TYPE_RGBA, 24, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 16,
			0, 0, PFD_MAIN_PLANE, 0, 0, 0, 0 };
	int pixelformat = ChoosePixelFormat(pMemDC->m_hDC, &pfd);
	DescribePixelFormat(pMemDC->m_hDC, pixelformat, sizeof(PIXELFORMATDESCRIPTOR), &pfd);
	SetPixelFormat(pMemDC->m_hDC, pixelformat, &pfd);
	
	// Creating a OpenGL context
	HGLRC hmemrc = wglCreateContext(pMemDC->GetSafeHdc());
	
	// Setting up the current OpenGL context
	GL_DisableVertexBufferObject();
	wglMakeCurrent(pMemDC->GetSafeHdc(), hmemrc);
	double aspect = (float)w/(float)h;
	glMatrixMode(GL_MODELVIEW);
	glViewport(0, 0, w, h);

	// Sort pieces by description
	struct BRICKSORT {
		char name[64];
		int actual;
		struct BRICKSORT *next;
	} start, *node, *previous, *news;

	start.next = NULL;
	
	for (int j = 0; j < pLib->mPieces.GetSize(); j++)
	{
		char* desc = pLib->mPieces[j]->m_strDescription;

		if (desc[0] != '~')
			continue;

		// Find the correct location
		previous = &start;
		node = start.next;
		while ((node) && (strcmp(desc, node->name) > 0))
		{
			node = node->next;
			previous = previous->next;
		}
		
		news = (struct BRICKSORT*) malloc(sizeof(struct BRICKSORT));
		news->next = node;
		previous->next = news;
		strcpy(news->name, desc);
		news->actual = j;
	}
	
	node = start.next;

	if (PD->PrintRange())
	{
		for (int j = 0; j < (int)(nStartPage - 1)*rows*cols; j++)
			if (node)
				node = node->next;
	}

	LOGFONT lf;
	memset(&lf, 0, sizeof(LOGFONT));
	lf.lfHeight = -MulDiv(12, GetDeviceCaps(PD->m_pd.hDC, LOGPIXELSY), 72);
	lf.lfWeight = FW_REGULAR;
	lf.lfCharSet = DEFAULT_CHARSET;
	lf.lfQuality = PROOF_QUALITY;
	strcpy (lf.lfFaceName , "Arial");
	HFONT HeaderFont = CreateFontIndirect(&lf);
	HFONT OldFont = (HFONT)SelectObject(PD->m_pd.hDC, HeaderFont);
	SetBkMode(PD->m_pd.hDC, TRANSPARENT);
	SetTextColor(PD->m_pd.hDC, 0x000000);
	SetTextAlign (PD->m_pd.hDC, TA_TOP|TA_LEFT|TA_NOUPDATECP);

	SetTextColor (pMemDC->m_hDC, 0x000000);
	lf.lfHeight = -MulDiv(10, GetDeviceCaps(pMemDC->m_hDC, LOGPIXELSY), 72);
	lf.lfWeight = FW_BOLD;
	HFONT CatalogFont = CreateFontIndirect(&lf);
	HFONT OldMemFont = (HFONT)SelectObject(pMemDC->m_hDC, CatalogFont);
	HPEN hpOld = (HPEN)SelectObject(pMemDC->m_hDC,(HPEN)GetStockObject(BLACK_PEN));

	for (UINT nCurPage = nStartPage; nCurPage != nEndPage; nCurPage += nStep)
	{
		// write current page
		TCHAR szBuf[80];
		wsprintf(szBuf, strTemp, nCurPage);
		dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_PAGENUM, szBuf);

		// attempt to start the current page
		if (StartPage(PD->m_pd.hDC) < 0)
		{
			bError = TRUE;
			break;
		}

		int printed = 0;
		// page successfully started, so now render the page
		for (int r = 0; r < rows; r++)
		for (int c = 0; c < cols; c++)
		{
			if (node == NULL) continue;
			printed++;
			glDepthFunc(GL_LEQUAL);
			glClearColor(1,1,1,1); 
			glColorMaterial(GL_FRONT, GL_AMBIENT_AND_DIFFUSE);
			glEnable(GL_COLOR_MATERIAL);
			glDisable(GL_DITHER);
			glShadeModel(GL_FLAT);

			lcSetColor(lcGetActiveProject()->GetCurrentColor());

//			dlgPrintStatus.SetDlgItemText(AFX_IDC_PRINT_DOCNAME, node->name);
			node = node->next;
			PieceInfo* pInfo = pLib->mPieces[node->actual];
			pInfo->ZoomExtents(30.0f, (float)aspect);

			float pos[4] = { 0, 0, 10, 0 };
			glLightfv(GL_LIGHT0, GL_POSITION, pos);

			glEnable(GL_LIGHTING);
			glEnable(GL_LIGHT0);
			glEnable(GL_DEPTH_TEST);

			FillRect(pMemDC->m_hDC, CRect(0,h,w,0), (HBRUSH)GetStockObject(WHITE_BRUSH));
			glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);

			pInfo->RenderPiece(lcGetActiveProject()->GetCurrentColor());
			glFlush();

			TextOut (pMemDC->m_hDC, 5, 5, pInfo->m_strDescription, strlen(pInfo->m_strDescription));
//			BitBlt(PD->m_pd.hDC, rectDraw.left+(w*c), rectDraw.top+(h*r), w, h, pMemDC->m_hDC, 0, 0, SRCCOPY);

			LPBITMAPINFOHEADER lpbi[1];
			lpbi[0] = (LPBITMAPINFOHEADER)GlobalLock(MakeDib(hBm, 24));
			BITMAPINFO bi;
			ZeroMemory(&bi, sizeof(BITMAPINFO));
			memcpy (&bi.bmiHeader, lpbi[0], sizeof(BITMAPINFOHEADER));
			SetStretchBltMode(PD->m_pd.hDC, COLORONCOLOR);
			StretchDIBits(PD->m_pd.hDC, rectDraw.left+(w*c), rectDraw.top+(h*r), 
				w, h, 0, 0, w, h, (LPBYTE) lpbi[0] + lpbi[0]->biSize + lpbi[0]->biClrUsed * sizeof(RGBQUAD),
				&bi, DIB_RGB_COLORS, SRCCOPY);
			if (lpbi[0]) GlobalFreePtr(lpbi[0]);
		}

		DWORD dwPrint = theApp.GetProfileInt("Settings","Print", PRINT_NUMBERS|PRINT_BORDER);
		if (dwPrint & PRINT_BORDER)
		for (int r = 0; r < rows; r++)
		for (int c = 0; c < cols; c++)
		{
			if (printed == 0) continue;
			printed--;
			if (r == 0)
			{
				MoveToEx(PD->m_pd.hDC, rectDraw.left+(w*c), rectDraw.top+(h*r), NULL);
				LineTo(PD->m_pd.hDC, rectDraw.left+(w*(c+1)), rectDraw.top+(h*r));
			}
			if (c == 0)
			{
				MoveToEx(PD->m_pd.hDC, rectDraw.left+(w*c), rectDraw.top+(h*r), NULL);
				LineTo(PD->m_pd.hDC, rectDraw.left+(w*c), rectDraw.top+(h*(r+1)));
			}
			
			MoveToEx(PD->m_pd.hDC, rectDraw.left+(w*(c+1)), rectDraw.top+(h*r), NULL);
			LineTo(PD->m_pd.hDC, rectDraw.left+(w*(c+1)), rectDraw.top+(h*(r+1)));
			MoveToEx(PD->m_pd.hDC, rectDraw.left+(w*c), rectDraw.top+(h*(r+1)), NULL);
			LineTo(PD->m_pd.hDC, rectDraw.left+(w*(c+1)), rectDraw.top+(h*(r+1)));
		}

		CRect r2 = rectDraw;
		r2.top -= GetDeviceCaps(PD->m_pd.hDC, LOGPIXELSY)*theApp.GetProfileInt("Default","Margin Top", 50)/200;
		r2.bottom += GetDeviceCaps(PD->m_pd.hDC, LOGPIXELSY)*theApp.GetProfileInt("Default","Margin Bottom", 50)/200;
		pView->PrintHeader(FALSE, PD->m_pd.hDC, r2, nCurPage, nEndPage, TRUE);
		pView->PrintHeader(TRUE, PD->m_pd.hDC, r2, nCurPage, nEndPage, TRUE);

		if (EndPage(PD->m_pd.hDC) < 0 || !_AfxAbortProc(PD->m_pd.hDC, 0))
		{
			bError = TRUE;
			break;
		}
	}

	SelectObject(pMemDC->m_hDC, hpOld);
	SelectObject(PD->m_pd.hDC, OldFont);
	DeleteObject(HeaderFont);
	SelectObject(pMemDC->m_hDC, OldMemFont);
	DeleteObject(CatalogFont);

	node = start.next;
	while (node)
	{
		previous = node;
		node = node->next;
		free(previous);
	}

	GL_EnableVertexBufferObject();
	wglMakeCurrent(NULL, NULL);
	wglDeleteContext(hmemrc);
	SelectObject(pMemDC->GetSafeHdc(), hBmOld);
	DeleteObject(hBm);
	delete pMemDC;

	// cleanup document printing process
	if (!bError)
		EndDoc(PD->m_pd.hDC);
	else
		AbortDoc(PD->m_pd.hDC);

	pParent->EnableWindow();
	dlgPrintStatus.DestroyWindow();

    if (PD != NULL && PD->m_pd.hDC != NULL)
    {
        ::DeleteDC(PD->m_pd.hDC);
        PD->m_pd.hDC = NULL;
    }
    delete PD;
}