/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include "vcl/layout.hxx" #include "vcl/print.hxx" #include "vcl/svapp.hxx" #include "vcl/metaact.hxx" #include "vcl/configsettings.hxx" #include "vcl/unohelp.hxx" #include "printdlg.hxx" #include "svdata.hxx" #include "salinst.hxx" #include "salprn.hxx" #include "svids.hrc" #include "tools/urlobj.hxx" #include "com/sun/star/container/XNameAccess.hpp" #include "com/sun/star/ui/dialogs/FilePicker.hpp" #include "com/sun/star/ui/dialogs/XFilterManager.hpp" #include "com/sun/star/ui/dialogs/TemplateDescription.hpp" #include "com/sun/star/ui/dialogs/ExecutableDialogResults.hpp" #include "com/sun/star/view/DuplexMode.hpp" #include "com/sun/star/lang/XMultiServiceFactory.hpp" #include "com/sun/star/awt/Size.hpp" #include "comphelper/processfactory.hxx" #include #include using namespace com::sun::star; using namespace com::sun::star::uno; using namespace com::sun::star::beans; using namespace vcl; class ImplPageCache { struct CacheEntry { GDIMetaFile aPage; PrinterController::PageSize aSize; }; std::vector< CacheEntry > maPages; std::vector< sal_Int32 > maPageNumbers; std::vector< sal_Int32 > maCacheRanking; static const sal_Int32 nCacheSize = 6; void updateRanking( sal_Int32 nLastHit ) { if( maCacheRanking[0] != nLastHit ) { for( sal_Int32 i = nCacheSize-1; i > 0; i-- ) maCacheRanking[i] = maCacheRanking[i-1]; maCacheRanking[0] = nLastHit; } } public: ImplPageCache() : maPages( nCacheSize ) , maPageNumbers( nCacheSize, -1 ) , maCacheRanking( nCacheSize ) { for( sal_Int32 i = 0; i < nCacheSize; i++ ) maCacheRanking[i] = nCacheSize - i - 1; } // caution: does not ensure uniqueness void insert( sal_Int32 i_nPageNo, const GDIMetaFile& i_rPage, const PrinterController::PageSize& i_rSize ) { sal_Int32 nReplacePage = maCacheRanking.back(); maPages[ nReplacePage ].aPage = i_rPage; maPages[ nReplacePage ].aSize = i_rSize; maPageNumbers[ nReplacePage ] = i_nPageNo; // cache insertion means in our case, the page was just queried // so update the ranking updateRanking( nReplacePage ); } // caution: bad algorithm; should there ever be reason to increase the cache size beyond 6 // this needs to be urgently rewritten. However do NOT increase the cache size lightly, // whole pages can be rather memory intensive bool get( sal_Int32 i_nPageNo, GDIMetaFile& o_rPageFile, PrinterController::PageSize& o_rSize ) { for( sal_Int32 i = 0; i < nCacheSize; ++i ) { if( maPageNumbers[i] == i_nPageNo ) { updateRanking( i ); o_rPageFile = maPages[i].aPage; o_rSize = maPages[i].aSize; return true; } } return false; } void invalidate() { for( sal_Int32 i = 0; i < nCacheSize; ++i ) { maPageNumbers[i] = -1; maPages[i].aPage.Clear(); maCacheRanking[i] = nCacheSize - i - 1; } } }; class vcl::ImplPrinterControllerData { public: struct ControlDependency { OUString maDependsOnName; sal_Int32 mnDependsOnEntry; ControlDependency() : mnDependsOnEntry( -1 ) {} }; typedef std::unordered_map< OUString, size_t, OUStringHash > PropertyToIndexMap; typedef std::unordered_map< OUString, ControlDependency, OUStringHash > ControlDependencyMap; typedef std::unordered_map< OUString, Sequence< sal_Bool >, OUStringHash > ChoiceDisableMap; VclPtr< Printer > mxPrinter; Sequence< PropertyValue > maUIOptions; std::vector< PropertyValue > maUIProperties; std::vector< bool > maUIPropertyEnabled; PropertyToIndexMap maPropertyToIndex; ControlDependencyMap maControlDependencies; ChoiceDisableMap maChoiceDisableMap; bool mbFirstPage; bool mbLastPage; bool mbReversePageOrder; bool mbPapersizeFromSetup; bool mbPrinterModified; view::PrintableState meJobState; vcl::PrinterController::MultiPageSetup maMultiPage; VclPtr mpProgress; ImplPageCache maPageCache; // set by user through printer properties subdialog of printer settings dialog Size maDefaultPageSize; // set by user through printer properties subdialog of printer settings dialog sal_Int32 mnDefaultPaperBin; // Set by user through printer properties subdialog of print dialog. // Overrides application-set tray for a page. sal_Int32 mnFixedPaperBin; // N.B. Apparently we have three levels of paper tray settings // (latter overrides former): // 1. default tray // 2. tray set for a concrete page by an application, e.g., writer // allows setting a printer tray (for the default printer) for a // page style. This setting can be overridden by user by selecting // "Use only paper tray from printer preferences" on the Options // page in the print dialog, in which case the default tray is // used for all pages. // 3. tray set in printer properties the printer dialog // I'm not quite sure why 1. and 3. are distinct, but the commit // history suggests this is intentional... ImplPrinterControllerData() : mbFirstPage( true ), mbLastPage( false ), mbReversePageOrder( false ), mbPapersizeFromSetup( false ), mbPrinterModified( false ), meJobState( view::PrintableState_JOB_STARTED ), mpProgress( NULL ), mnDefaultPaperBin( -1 ), mnFixedPaperBin( -1 ) {} ~ImplPrinterControllerData() { mpProgress.disposeAndClear(); } Size getRealPaperSize( const Size& i_rPageSize, bool bNoNUP ) const { if( mbPapersizeFromSetup ) return maDefaultPageSize; if( maMultiPage.nRows * maMultiPage.nColumns > 1 && ! bNoNUP ) return maMultiPage.aPaperSize; return i_rPageSize; } bool isFixedPageSize() const { return mbPapersizeFromSetup; } PrinterController::PageSize modifyJobSetup( const Sequence< PropertyValue >& i_rProps, bool bNoNUP ); void resetPaperToLastConfigured(); }; PrinterController::PrinterController( const VclPtr& i_xPrinter ) : mpImplData( new ImplPrinterControllerData ) { mpImplData->mxPrinter = i_xPrinter; } static OUString queryFile( Printer* pPrinter ) { OUString aResult; uno::Reference< uno::XComponentContext > xContext( ::comphelper::getProcessComponentContext() ); uno::Reference< ui::dialogs::XFilePicker3 > xFilePicker = ui::dialogs::FilePicker::createWithMode(xContext, ui::dialogs::TemplateDescription::FILESAVE_AUTOEXTENSION); try { #ifdef UNX // add PostScript and PDF bool bPS = true, bPDF = true; if( pPrinter ) { if( pPrinter->GetCapabilities( PrinterCapType::PDF ) ) bPS = false; else bPDF = false; } if( bPS ) xFilePicker->appendFilter( OUString( "PostScript" ), OUString( "*.ps" ) ); if( bPDF ) xFilePicker->appendFilter( OUString( "Portable Document Format" ), OUString( "*.pdf" ) ); #elif defined WNT (void)pPrinter; xFilePicker->appendFilter( OUString( "*.PRN" ), OUString( "*.prn" ) ); #endif // add arbitrary files xFilePicker->appendFilter(VclResId(SV_STDTEXT_ALLFILETYPES), "*.*"); } catch (const lang::IllegalArgumentException&) { SAL_WARN( "vcl.gdi", "caught IllegalArgumentException when registering filter" ); } if( xFilePicker->execute() == ui::dialogs::ExecutableDialogResults::OK ) { uno::Sequence< OUString > aPathSeq( xFilePicker->getFiles() ); INetURLObject aObj( aPathSeq[0] ); aResult = aObj.PathToFileName(); } return aResult; } struct PrintJobAsync { std::shared_ptr mxController; JobSetup maInitSetup; PrintJobAsync(const std::shared_ptr& i_xController, const JobSetup& i_rInitSetup) : mxController( i_xController ), maInitSetup( i_rInitSetup ) {} DECL_LINK_TYPED( ExecJob, void*, void ); }; IMPL_LINK_NOARG_TYPED(PrintJobAsync, ExecJob, void*, void) { Printer::ImplPrintJob(mxController, maInitSetup); // clean up, do not access members after this delete this; } void Printer::PrintJob(const std::shared_ptr& i_xController, const JobSetup& i_rInitSetup) { bool bSynchronous = false; PropertyValue* pVal = i_xController->getValue( OUString( "Wait" ) ); if( pVal ) pVal->Value >>= bSynchronous; if( bSynchronous ) ImplPrintJob(i_xController, i_rInitSetup); else { PrintJobAsync* pAsync = new PrintJobAsync(i_xController, i_rInitSetup); Application::PostUserEvent( LINK( pAsync, PrintJobAsync, ExecJob ) ); } } bool Printer::PreparePrintJob(std::shared_ptr xController, const JobSetup& i_rInitSetup) { // check if there is a default printer; if not, show an error box (if appropriate) if( GetDefaultPrinterName().isEmpty() ) { if (xController->isShowDialogs()) { ScopedVclPtrInstance aBox( nullptr, "ErrorNoPrinterDialog", "vcl/ui/errornoprinterdialog.ui"); aBox->Execute(); } xController->setValue( OUString( "IsDirect" ), makeAny( false ) ); } // setup printer // #i114306# changed behavior back from persistence // if no specific printer is already set, create the default printer if (!xController->getPrinter()) { OUString aPrinterName( i_rInitSetup.GetPrinterName() ); VclPtrInstance xPrinter( aPrinterName ); xPrinter->SetJobSetup(i_rInitSetup); xController->setPrinter(xPrinter); } // reset last page property xController->setLastPage(false); // update "PageRange" property inferring from other properties: // case 1: "Pages" set from UNO API -> // setup "Print Selection" and insert "PageRange" attribute // case 2: "All pages" is selected // update "Page range" attribute to have a sensible default, // but leave "All" as selected // "Pages" attribute from API is now equivalent to "PageRange" // AND "PrintContent" = 1 except calc where it is "PrintRange" = 1 // Argh ! That sure needs cleaning up PropertyValue* pContentVal = xController->getValue(OUString("PrintRange")); if( ! pContentVal ) pContentVal = xController->getValue(OUString("PrintContent")); // case 1: UNO API has set "Pages" PropertyValue* pPagesVal = xController->getValue(OUString("Pages")); if( pPagesVal ) { OUString aPagesVal; pPagesVal->Value >>= aPagesVal; if( !aPagesVal.isEmpty() ) { // "Pages" attribute from API is now equivalent to "PageRange" // AND "PrintContent" = 1 except calc where it is "PrintRange" = 1 // Argh ! That sure needs cleaning up if( pContentVal ) { pContentVal->Value = makeAny( sal_Int32( 1 ) ); xController->setValue(OUString("PageRange"), pPagesVal->Value); } } } // case 2: is "All" selected ? else if( pContentVal ) { sal_Int32 nContent = -1; if( pContentVal->Value >>= nContent ) { if( nContent == 0 ) { // do not overwrite PageRange if it is already set PropertyValue* pRangeVal = xController->getValue(OUString("PageRange")); OUString aRange; if( pRangeVal ) pRangeVal->Value >>= aRange; if( aRange.isEmpty() ) { sal_Int32 nPages = xController->getPageCount(); if( nPages > 0 ) { OUStringBuffer aBuf( 32 ); aBuf.append( "1" ); if( nPages > 1 ) { aBuf.append( "-" ); aBuf.append( nPages ); } xController->setValue(OUString("PageRange"), makeAny(aBuf.makeStringAndClear())); } } } } } PropertyValue* pReverseVal = xController->getValue(OUString("PrintReverse")); if( pReverseVal ) { bool bReverse = false; pReverseVal->Value >>= bReverse; xController->setReversePrint( bReverse ); } PropertyValue* pPapersizeFromSetupVal = xController->getValue(OUString("PapersizeFromSetup")); if( pPapersizeFromSetupVal ) { bool bPapersizeFromSetup = false; pPapersizeFromSetupVal->Value >>= bPapersizeFromSetup; xController->setPapersizeFromSetup(bPapersizeFromSetup); } // setup NUp printing from properties sal_Int32 nRows = xController->getIntProperty(OUString("NUpRows"), 1); sal_Int32 nCols = xController->getIntProperty(OUString("NUpColumns"), 1); if( nRows > 1 || nCols > 1 ) { PrinterController::MultiPageSetup aMPS; aMPS.nRows = nRows > 1 ? nRows : 1; aMPS.nColumns = nCols > 1 ? nCols : 1; sal_Int32 nValue = xController->getIntProperty(OUString("NUpPageMarginLeft"), aMPS.nLeftMargin); if( nValue >= 0 ) aMPS.nLeftMargin = nValue; nValue = xController->getIntProperty(OUString("NUpPageMarginRight"), aMPS.nRightMargin); if( nValue >= 0 ) aMPS.nRightMargin = nValue; nValue = xController->getIntProperty( OUString( "NUpPageMarginTop" ), aMPS.nTopMargin ); if( nValue >= 0 ) aMPS.nTopMargin = nValue; nValue = xController->getIntProperty( OUString( "NUpPageMarginBottom" ), aMPS.nBottomMargin ); if( nValue >= 0 ) aMPS.nBottomMargin = nValue; nValue = xController->getIntProperty( OUString( "NUpHorizontalSpacing" ), aMPS.nHorizontalSpacing ); if( nValue >= 0 ) aMPS.nHorizontalSpacing = nValue; nValue = xController->getIntProperty( OUString( "NUpVerticalSpacing" ), aMPS.nVerticalSpacing ); if( nValue >= 0 ) aMPS.nVerticalSpacing = nValue; aMPS.bDrawBorder = xController->getBoolProperty( OUString( "NUpDrawBorder" ), aMPS.bDrawBorder ); aMPS.nOrder = static_cast(xController->getIntProperty( OUString( "NUpSubPageOrder" ), aMPS.nOrder )); aMPS.aPaperSize = xController->getPrinter()->PixelToLogic( xController->getPrinter()->GetPaperSizePixel(), MapMode( MAP_100TH_MM ) ); PropertyValue* pPgSizeVal = xController->getValue( OUString( "NUpPaperSize" ) ); awt::Size aSizeVal; if( pPgSizeVal && (pPgSizeVal->Value >>= aSizeVal) ) { aMPS.aPaperSize.Width() = aSizeVal.Width; aMPS.aPaperSize.Height() = aSizeVal.Height; } xController->setMultipage( aMPS ); } // in direct print case check whether there is anything to print. // if not, show an errorbox (if appropriate) if( xController->isShowDialogs() && xController->isDirectPrint() ) { if( xController->getFilteredPageCount() == 0 ) { ScopedVclPtrInstance aBox( nullptr, "ErrorNoContentDialog", "vcl/ui/errornocontentdialog.ui"); aBox->Execute(); return false; } } // check if the printer brings up its own dialog // in that case leave the work to that dialog if( ! xController->getPrinter()->GetCapabilities( PrinterCapType::ExternalDialog ) && ! xController->isDirectPrint() && xController->isShowDialogs() ) { try { ScopedVclPtrInstance< PrintDialog > aDlg( nullptr, xController ); if( ! aDlg->Execute() ) { xController->abortJob(); return false; } if( aDlg->isPrintToFile() ) { OUString aFile = queryFile( xController->getPrinter().get() ); if( aFile.isEmpty() ) { xController->abortJob(); return false; } xController->setValue( OUString( "LocalFileName" ), makeAny( aFile ) ); } else if( aDlg->isSingleJobs() ) { xController->setValue( OUString( "PrintCollateAsSingleJobs" ), makeAny( true ) ); } } catch (const std::bad_alloc&) { } } xController->pushPropertiesToPrinter(); return true; } bool Printer::ExecutePrintJob(std::shared_ptr xController) { OUString aJobName; PropertyValue* pJobNameVal = xController->getValue( OUString( "JobName" ) ); if( pJobNameVal ) pJobNameVal->Value >>= aJobName; return xController->getPrinter()->StartJob( aJobName, xController ); } void Printer::FinishPrintJob(std::shared_ptr xController) { xController->resetPaperToLastConfigured(); xController->jobFinished( xController->getJobState() ); } void Printer::ImplPrintJob(std::shared_ptr xController, const JobSetup& i_rInitSetup) { if (PreparePrintJob(xController, i_rInitSetup)) { ExecutePrintJob(xController); } FinishPrintJob(xController); } bool Printer::StartJob( const OUString& i_rJobName, std::shared_ptr& i_xController) { mnError = PRINTER_OK; if ( IsDisplayPrinter() ) return false; if ( IsJobActive() || IsPrinting() ) return false; sal_uLong nCopies = mnCopyCount; bool bCollateCopy = mbCollateCopy; bool bUserCopy = false; if ( nCopies > 1 ) { sal_uLong nDevCopy; if ( bCollateCopy ) nDevCopy = GetCapabilities( PrinterCapType::CollateCopies ); else nDevCopy = GetCapabilities( PrinterCapType::Copies ); // need to do copies by hand ? if ( nCopies > nDevCopy ) { bUserCopy = true; nCopies = 1; bCollateCopy = false; } } else bCollateCopy = false; ImplSVData* pSVData = ImplGetSVData(); mpPrinter = pSVData->mpDefInst->CreatePrinter( mpInfoPrinter ); if (!mpPrinter) return false; bool bSinglePrintJobs = false; PropertyValue* pSingleValue = i_xController->getValue(OUString("PrintCollateAsSingleJobs")); if( pSingleValue ) { pSingleValue->Value >>= bSinglePrintJobs; } PropertyValue* pFileValue = i_xController->getValue(OUString("LocalFileName")); if( pFileValue ) { OUString aFile; pFileValue->Value >>= aFile; if( !aFile.isEmpty() ) { mbPrintFile = true; maPrintFile = aFile; bSinglePrintJobs = false; } } OUString* pPrintFile = NULL; if ( mbPrintFile ) pPrintFile = &maPrintFile; mpPrinterOptions->ReadFromConfig( mbPrintFile ); maJobName = i_rJobName; mnCurPage = 1; mnCurPrintPage = 1; mbPrinting = true; if( GetCapabilities( PrinterCapType::UsePullModel ) ) { mbJobActive = true; // SAL layer does all necessary page printing // and also handles showing a dialog // that also means it must call jobStarted when the dialog is finished // it also must set the JobState of the Controller if( mpPrinter->StartJob( pPrintFile, i_rJobName, Application::GetDisplayName(), maJobSetup.ImplGetConstData(), *i_xController) ) { EndJob(); } else { mnError = ImplSalPrinterErrorCodeToVCL(mpPrinter->GetErrorCode()); if ( !mnError ) mnError = PRINTER_GENERALERROR; pSVData->mpDefInst->DestroyPrinter( mpPrinter ); mnCurPage = 0; mnCurPrintPage = 0; mbPrinting = false; mpPrinter = NULL; mbJobActive = false; GDIMetaFile aDummyFile; i_xController->setLastPage(true); i_xController->getFilteredPageFile(0, aDummyFile); return false; } } else { // possibly a dialog has been shown // now the real job starts i_xController->setJobState( view::PrintableState_JOB_STARTED ); i_xController->jobStarted(); int nJobs = 1; int nOuterRepeatCount = 1; int nInnerRepeatCount = 1; if( bUserCopy ) { if( mbCollateCopy ) nOuterRepeatCount = mnCopyCount; else nInnerRepeatCount = mnCopyCount; } if( bSinglePrintJobs ) { nJobs = mnCopyCount; nCopies = 1; nOuterRepeatCount = nInnerRepeatCount = 1; } for( int nJobIteration = 0; nJobIteration < nJobs; nJobIteration++ ) { bool bError = false; if( mpPrinter->StartJob( pPrintFile, i_rJobName, Application::GetDisplayName(), nCopies, bCollateCopy, i_xController->isDirectPrint(), maJobSetup.ImplGetConstData() ) ) { bool bAborted = false; mbJobActive = true; i_xController->createProgressDialog(); const int nPages = i_xController->getFilteredPageCount(); // abort job, if no pages will be printed. if ( nPages == 0 ) { i_xController->abortJob(); bAborted = true; } for( int nOuterIteration = 0; nOuterIteration < nOuterRepeatCount && ! bAborted; nOuterIteration++ ) { for( int nPage = 0; nPage < nPages && ! bAborted; nPage++ ) { for( int nInnerIteration = 0; nInnerIteration < nInnerRepeatCount && ! bAborted; nInnerIteration++ ) { if( nPage == nPages-1 && nOuterIteration == nOuterRepeatCount-1 && nInnerIteration == nInnerRepeatCount-1 && nJobIteration == nJobs-1 ) { i_xController->setLastPage(true); } i_xController->printFilteredPage(nPage); if (i_xController->isProgressCanceled()) { i_xController->abortJob(); } if (i_xController->getJobState() == view::PrintableState_JOB_ABORTED) { bAborted = true; } } } // FIXME: duplex ? } EndJob(); if( nJobIteration < nJobs-1 ) { mpPrinter = pSVData->mpDefInst->CreatePrinter( mpInfoPrinter ); if ( mpPrinter ) { maJobName = i_rJobName; mnCurPage = 1; mnCurPrintPage = 1; mbPrinting = true; } else bError = true; } } else bError = true; if( bError ) { mnError = mpPrinter ? ImplSalPrinterErrorCodeToVCL(mpPrinter->GetErrorCode()) : 0; if ( !mnError ) mnError = PRINTER_GENERALERROR; i_xController->setJobState( mnError == PRINTER_ABORT ? view::PrintableState_JOB_ABORTED : view::PrintableState_JOB_FAILED ); if( mpPrinter ) pSVData->mpDefInst->DestroyPrinter( mpPrinter ); mnCurPage = 0; mnCurPrintPage = 0; mbPrinting = false; mpPrinter = NULL; return false; } } if (i_xController->getJobState() == view::PrintableState_JOB_STARTED) i_xController->setJobState(view::PrintableState_JOB_SPOOLED); } // make last used printer persistent for UI jobs if (i_xController->isShowDialogs() && !i_xController->isDirectPrint()) { SettingsConfigItem* pItem = SettingsConfigItem::get(); pItem->setValue( OUString( "PrintDialog" ), OUString( "LastPrinterUsed" ), GetName() ); } return true; } PrinterController::~PrinterController() { delete mpImplData; } view::PrintableState PrinterController::getJobState() const { return mpImplData->meJobState; } void PrinterController::setJobState( view::PrintableState i_eState ) { mpImplData->meJobState = i_eState; } const VclPtr& PrinterController::getPrinter() const { return mpImplData->mxPrinter; } void PrinterController::setPrinter( const VclPtr& i_rPrinter ) { mpImplData->mxPrinter = i_rPrinter; setValue( OUString( "Name" ), makeAny( OUString( i_rPrinter->GetName() ) ) ); mpImplData->mnDefaultPaperBin = mpImplData->mxPrinter->GetPaperBin(); mpImplData->mxPrinter->Push(); mpImplData->mxPrinter->SetMapMode(MapMode(MAP_100TH_MM)); mpImplData->maDefaultPageSize = mpImplData->mxPrinter->GetPaperSize(); mpImplData->mxPrinter->Pop(); mpImplData->mnFixedPaperBin = -1; } void PrinterController::resetPrinterOptions( bool i_bFileOutput ) { PrinterOptions aOpt; aOpt.ReadFromConfig( i_bFileOutput ); mpImplData->mxPrinter->SetPrinterOptions( aOpt ); } bool PrinterController::setupPrinter( vcl::Window* i_pParent ) { bool bRet = false; if( mpImplData->mxPrinter.get() ) { mpImplData->mxPrinter->Push(); mpImplData->mxPrinter->SetMapMode(MapMode(MAP_100TH_MM)); // get current data Size aPaperSize(mpImplData->mxPrinter->GetPaperSize()); sal_uInt16 nPaperBin = mpImplData->mxPrinter->GetPaperBin(); // reset paper size back to last configured size, not // whatever happens to be the current page // (but only if the printer config has changed, otherwise // don't override printer page auto-detection - tdf#91362) if (getPrinterModified()) { resetPaperToLastConfigured(); } // call driver setup bRet = mpImplData->mxPrinter->Setup( i_pParent, getPapersizeFromSetup() ); Size aNewPaperSize(mpImplData->mxPrinter->GetPaperSize()); if (bRet) { bool bInvalidateCache = false; // was papersize overridden ? if so we need to take action if we're // configured to use the driver papersize if (aNewPaperSize != mpImplData->maDefaultPageSize) { mpImplData->maDefaultPageSize = aNewPaperSize; bInvalidateCache = getPapersizeFromSetup(); } // was bin overridden ? if so we need to take action sal_uInt16 nNewPaperBin = mpImplData->mxPrinter->GetPaperBin(); if (nNewPaperBin != nPaperBin) { mpImplData->mnFixedPaperBin = nNewPaperBin; bInvalidateCache = true; } if (bInvalidateCache) { mpImplData->maPageCache.invalidate(); } } else { //restore to whatever it was before we entered this method if (aPaperSize != aNewPaperSize) mpImplData->mxPrinter->SetPaperSizeUser(aPaperSize, !mpImplData->isFixedPageSize()); } mpImplData->mxPrinter->Pop(); } return bRet; } PrinterController::PageSize vcl::ImplPrinterControllerData::modifyJobSetup( const Sequence< PropertyValue >& i_rProps, bool bNoNUP ) { PrinterController::PageSize aPageSize; aPageSize.aSize = mxPrinter->GetPaperSize(); awt::Size aSetSize, aIsSize; sal_Int32 nPaperBin = mnDefaultPaperBin; for( sal_Int32 nProperty = 0, nPropertyCount = i_rProps.getLength(); nProperty < nPropertyCount; ++nProperty ) { if ( i_rProps[ nProperty ].Name == "PreferredPageSize" ) { i_rProps[ nProperty ].Value >>= aSetSize; } else if ( i_rProps[ nProperty ].Name == "PageSize" ) { i_rProps[ nProperty ].Value >>= aIsSize; } else if ( i_rProps[ nProperty ].Name == "PageIncludesNonprintableArea" ) { bool bVal = false; i_rProps[ nProperty ].Value >>= bVal; aPageSize.bFullPaper = bVal; } else if ( i_rProps[ nProperty ].Name == "PrinterPaperTray" ) { sal_Int32 nBin = -1; i_rProps[ nProperty ].Value >>= nBin; if( nBin >= 0 && nBin < mxPrinter->GetPaperBinCount() ) nPaperBin = nBin; } } Size aCurSize( mxPrinter->GetPaperSize() ); if( aSetSize.Width && aSetSize.Height ) { Size aSetPaperSize( aSetSize.Width, aSetSize.Height ); Size aRealPaperSize( getRealPaperSize( aSetPaperSize, bNoNUP ) ); if( aRealPaperSize != aCurSize ) aIsSize = aSetSize; } if( aIsSize.Width && aIsSize.Height ) { aPageSize.aSize.Width() = aIsSize.Width; aPageSize.aSize.Height() = aIsSize.Height; Size aRealPaperSize( getRealPaperSize( aPageSize.aSize, bNoNUP ) ); if( aRealPaperSize != aCurSize ) mxPrinter->SetPaperSizeUser( aRealPaperSize, ! isFixedPageSize() ); } // paper bin set from properties in print dialog overrides // application default for a page if ( mnFixedPaperBin != -1 ) nPaperBin = mnFixedPaperBin; if( nPaperBin != -1 && nPaperBin != mxPrinter->GetPaperBin() ) mxPrinter->SetPaperBin( nPaperBin ); return aPageSize; } //fdo#61886 //when printing is finished, set the paper size of the printer to either what //the user explicitly set as the desired paper size, or fallback to whatever //the printer had before printing started. That way it doesn't contain the last //paper size of a multiple paper size using document when we are in our normal //auto accept document paper size mode and end up overwriting the original //paper size setting for file->printer_settings just by pressing "ok" in the //print dialog void vcl::ImplPrinterControllerData::resetPaperToLastConfigured() { mxPrinter->Push(); mxPrinter->SetMapMode(MapMode(MAP_100TH_MM)); Size aCurSize(mxPrinter->GetPaperSize()); if (aCurSize != maDefaultPageSize) mxPrinter->SetPaperSizeUser(maDefaultPageSize, !isFixedPageSize()); mxPrinter->Pop(); } int PrinterController::getPageCountProtected() const { const MapMode aMapMode( MAP_100TH_MM ); mpImplData->mxPrinter->Push(); mpImplData->mxPrinter->SetMapMode( aMapMode ); int nPages = getPageCount(); mpImplData->mxPrinter->Pop(); return nPages; } Sequence< PropertyValue > PrinterController::getPageParametersProtected( int i_nPage ) const { const MapMode aMapMode( MAP_100TH_MM ); mpImplData->mxPrinter->Push(); mpImplData->mxPrinter->SetMapMode( aMapMode ); Sequence< PropertyValue > aResult( getPageParameters( i_nPage ) ); mpImplData->mxPrinter->Pop(); return aResult; } PrinterController::PageSize PrinterController::getPageFile( int i_nUnfilteredPage, GDIMetaFile& o_rMtf, bool i_bMayUseCache ) { // update progress if necessary if( mpImplData->mpProgress ) { // do nothing if printing is canceled if( mpImplData->mpProgress->isCanceled() ) return PrinterController::PageSize(); mpImplData->mpProgress->tick(); Application::Reschedule( true ); } if( i_bMayUseCache ) { PrinterController::PageSize aPageSize; if( mpImplData->maPageCache.get( i_nUnfilteredPage, o_rMtf, aPageSize ) ) { return aPageSize; } } else mpImplData->maPageCache.invalidate(); o_rMtf.Clear(); // get page parameters Sequence< PropertyValue > aPageParm( getPageParametersProtected( i_nUnfilteredPage ) ); const MapMode aMapMode( MAP_100TH_MM ); mpImplData->mxPrinter->Push(); mpImplData->mxPrinter->SetMapMode( aMapMode ); // modify job setup if necessary PrinterController::PageSize aPageSize = mpImplData->modifyJobSetup( aPageParm, true ); o_rMtf.SetPrefSize( aPageSize.aSize ); o_rMtf.SetPrefMapMode( aMapMode ); mpImplData->mxPrinter->EnableOutput( false ); o_rMtf.Record( mpImplData->mxPrinter.get() ); printPage( i_nUnfilteredPage ); o_rMtf.Stop(); o_rMtf.WindStart(); mpImplData->mxPrinter->Pop(); if( i_bMayUseCache ) mpImplData->maPageCache.insert( i_nUnfilteredPage, o_rMtf, aPageSize ); // reset "FirstPage" property to false now we've gotten at least our first one mpImplData->mbFirstPage = false; return aPageSize; } static void appendSubPage( GDIMetaFile& o_rMtf, const Rectangle& i_rClipRect, GDIMetaFile& io_rSubPage, bool i_bDrawBorder ) { // intersect all clipregion actions with our clip rect io_rSubPage.WindStart(); io_rSubPage.Clip( i_rClipRect ); // save gstate o_rMtf.AddAction( new MetaPushAction( PushFlags::ALL ) ); // clip to page rect o_rMtf.AddAction( new MetaClipRegionAction( vcl::Region( i_rClipRect ), true ) ); // append the subpage io_rSubPage.WindStart(); io_rSubPage.Play( o_rMtf ); // restore gstate o_rMtf.AddAction( new MetaPopAction() ); // draw a border if( i_bDrawBorder ) { // save gstate o_rMtf.AddAction( new MetaPushAction( PushFlags::LINECOLOR | PushFlags::FILLCOLOR | PushFlags::CLIPREGION | PushFlags::MAPMODE ) ); o_rMtf.AddAction( new MetaMapModeAction( MapMode( MAP_100TH_MM ) ) ); Rectangle aBorderRect( i_rClipRect ); o_rMtf.AddAction( new MetaLineColorAction( Color( COL_BLACK ), true ) ); o_rMtf.AddAction( new MetaFillColorAction( Color( COL_TRANSPARENT ), false ) ); o_rMtf.AddAction( new MetaRectAction( aBorderRect ) ); // restore gstate o_rMtf.AddAction( new MetaPopAction() ); } } PrinterController::PageSize PrinterController::getFilteredPageFile( int i_nFilteredPage, GDIMetaFile& o_rMtf, bool i_bMayUseCache ) { const MultiPageSetup& rMPS( mpImplData->maMultiPage ); int nSubPages = rMPS.nRows * rMPS.nColumns; if( nSubPages < 1 ) nSubPages = 1; // reverse sheet order if( mpImplData->mbReversePageOrder ) { int nDocPages = getFilteredPageCount(); i_nFilteredPage = nDocPages - 1 - i_nFilteredPage; } // there is no filtering to be done (and possibly the page size of the // original page is to be set), when N-Up is "neutral" that is there is // only one subpage and the margins are 0 if( nSubPages == 1 && rMPS.nLeftMargin == 0 && rMPS.nRightMargin == 0 && rMPS.nTopMargin == 0 && rMPS.nBottomMargin == 0 ) { PrinterController::PageSize aPageSize = getPageFile( i_nFilteredPage, o_rMtf, i_bMayUseCache ); if (mpImplData->meJobState != view::PrintableState_JOB_STARTED) { // rhbz#657394: check that we are still printing... return PrinterController::PageSize(); } Size aPaperSize = mpImplData->getRealPaperSize( aPageSize.aSize, true ); mpImplData->mxPrinter->SetMapMode( MapMode( MAP_100TH_MM ) ); mpImplData->mxPrinter->SetPaperSizeUser( aPaperSize, ! mpImplData->isFixedPageSize() ); if( aPaperSize != aPageSize.aSize ) { // user overridden page size, center Metafile o_rMtf.WindStart(); long nDX = (aPaperSize.Width() - aPageSize.aSize.Width()) / 2; long nDY = (aPaperSize.Height() - aPageSize.aSize.Height()) / 2; o_rMtf.Move( nDX, nDY, mpImplData->mxPrinter->GetDPIX(), mpImplData->mxPrinter->GetDPIY() ); o_rMtf.WindStart(); o_rMtf.SetPrefSize( aPaperSize ); aPageSize.aSize = aPaperSize; } return aPageSize; } // set last page property really only on the very last page to be rendered // that is on the last subpage of a NUp run bool bIsLastPage = mpImplData->mbLastPage; mpImplData->mbLastPage = false; Size aPaperSize( mpImplData->getRealPaperSize( mpImplData->maMultiPage.aPaperSize, false ) ); // multi page area: page size minus margins + one time spacing right and down // the added spacing is so each subpage can be calculated including its spacing Size aMPArea( aPaperSize ); aMPArea.Width() -= rMPS.nLeftMargin + rMPS.nRightMargin; aMPArea.Width() += rMPS.nHorizontalSpacing; aMPArea.Height() -= rMPS.nTopMargin + rMPS.nBottomMargin; aMPArea.Height() += rMPS.nVerticalSpacing; // determine offsets long nAdvX = aMPArea.Width() / rMPS.nColumns; long nAdvY = aMPArea.Height() / rMPS.nRows; // determine size of a "cell" subpage, leave a little space around pages Size aSubPageSize( nAdvX - rMPS.nHorizontalSpacing, nAdvY - rMPS.nVerticalSpacing ); o_rMtf.Clear(); o_rMtf.SetPrefSize( aPaperSize ); o_rMtf.SetPrefMapMode( MapMode( MAP_100TH_MM ) ); o_rMtf.AddAction( new MetaMapModeAction( MapMode( MAP_100TH_MM ) ) ); int nDocPages = getPageCountProtected(); if (mpImplData->meJobState != view::PrintableState_JOB_STARTED) { // rhbz#657394: check that we are still printing... return PrinterController::PageSize(); } for( int nSubPage = 0; nSubPage < nSubPages; nSubPage++ ) { // map current sub page to real page int nPage = (i_nFilteredPage * nSubPages + nSubPage) / rMPS.nRepeat; if( nSubPage == nSubPages-1 || nPage == nDocPages-1 ) { mpImplData->mbLastPage = bIsLastPage; } if( nPage >= 0 && nPage < nDocPages ) { GDIMetaFile aPageFile; PrinterController::PageSize aPageSize = getPageFile( nPage, aPageFile, i_bMayUseCache ); if( aPageSize.aSize.Width() && aPageSize.aSize.Height() ) { long nCellX = 0, nCellY = 0; switch( rMPS.nOrder ) { case PrinterController::LRTB: nCellX = (nSubPage % rMPS.nColumns); nCellY = (nSubPage / rMPS.nColumns); break; case PrinterController::TBLR: nCellX = (nSubPage / rMPS.nRows); nCellY = (nSubPage % rMPS.nRows); break; case PrinterController::RLTB: nCellX = rMPS.nColumns - 1 - (nSubPage % rMPS.nColumns); nCellY = (nSubPage / rMPS.nColumns); break; case PrinterController::TBRL: nCellX = rMPS.nColumns - 1 - (nSubPage / rMPS.nRows); nCellY = (nSubPage % rMPS.nRows); break; } // scale the metafile down to a sub page size double fScaleX = double(aSubPageSize.Width())/double(aPageSize.aSize.Width()); double fScaleY = double(aSubPageSize.Height())/double(aPageSize.aSize.Height()); double fScale = std::min( fScaleX, fScaleY ); aPageFile.Scale( fScale, fScale ); aPageFile.WindStart(); // move the subpage so it is centered in its "cell" long nOffX = (aSubPageSize.Width() - long(double(aPageSize.aSize.Width()) * fScale)) / 2; long nOffY = (aSubPageSize.Height() - long(double(aPageSize.aSize.Height()) * fScale)) / 2; long nX = rMPS.nLeftMargin + nOffX + nAdvX * nCellX; long nY = rMPS.nTopMargin + nOffY + nAdvY * nCellY; aPageFile.Move( nX, nY, mpImplData->mxPrinter->GetDPIX(), mpImplData->mxPrinter->GetDPIY() ); aPageFile.WindStart(); // calculate border rectangle Rectangle aSubPageRect( Point( nX, nY ), Size( long(double(aPageSize.aSize.Width())*fScale), long(double(aPageSize.aSize.Height())*fScale) ) ); // append subpage to page appendSubPage( o_rMtf, aSubPageRect, aPageFile, rMPS.bDrawBorder ); } } } o_rMtf.WindStart(); // subsequent getPageFile calls have changed the paper, reset it to current value mpImplData->mxPrinter->SetMapMode( MapMode( MAP_100TH_MM ) ); mpImplData->mxPrinter->SetPaperSizeUser( aPaperSize, ! mpImplData->isFixedPageSize() ); return PrinterController::PageSize( aPaperSize, true ); } int PrinterController::getFilteredPageCount() { int nDiv = mpImplData->maMultiPage.nRows * mpImplData->maMultiPage.nColumns; if( nDiv < 1 ) nDiv = 1; return (getPageCountProtected() * mpImplData->maMultiPage.nRepeat + (nDiv-1)) / nDiv; } DrawModeFlags PrinterController::removeTransparencies( GDIMetaFile& i_rIn, GDIMetaFile& o_rOut ) { DrawModeFlags nRestoreDrawMode = mpImplData->mxPrinter->GetDrawMode(); sal_Int32 nMaxBmpDPIX = mpImplData->mxPrinter->GetDPIX(); sal_Int32 nMaxBmpDPIY = mpImplData->mxPrinter->GetDPIY(); const PrinterOptions& rPrinterOptions = mpImplData->mxPrinter->GetPrinterOptions(); static const sal_Int32 OPTIMAL_BMP_RESOLUTION = 300; static const sal_Int32 NORMAL_BMP_RESOLUTION = 200; if( rPrinterOptions.IsReduceBitmaps() ) { // calculate maximum resolution for bitmap graphics if( PRINTER_BITMAP_OPTIMAL == rPrinterOptions.GetReducedBitmapMode() ) { nMaxBmpDPIX = std::min( sal_Int32(OPTIMAL_BMP_RESOLUTION), nMaxBmpDPIX ); nMaxBmpDPIY = std::min( sal_Int32(OPTIMAL_BMP_RESOLUTION), nMaxBmpDPIY ); } else if( PRINTER_BITMAP_NORMAL == rPrinterOptions.GetReducedBitmapMode() ) { nMaxBmpDPIX = std::min( sal_Int32(NORMAL_BMP_RESOLUTION), nMaxBmpDPIX ); nMaxBmpDPIY = std::min( sal_Int32(NORMAL_BMP_RESOLUTION), nMaxBmpDPIY ); } else { nMaxBmpDPIX = std::min( sal_Int32(rPrinterOptions.GetReducedBitmapResolution()), nMaxBmpDPIX ); nMaxBmpDPIY = std::min( sal_Int32(rPrinterOptions.GetReducedBitmapResolution()), nMaxBmpDPIY ); } } // convert to greysacles if( rPrinterOptions.IsConvertToGreyscales() ) { mpImplData->mxPrinter->SetDrawMode( mpImplData->mxPrinter->GetDrawMode() | ( DrawModeFlags::GrayLine | DrawModeFlags::GrayFill | DrawModeFlags::GrayText | DrawModeFlags::GrayBitmap | DrawModeFlags::GrayGradient ) ); } // disable transparency output if( rPrinterOptions.IsReduceTransparency() && ( PRINTER_TRANSPARENCY_NONE == rPrinterOptions.GetReducedTransparencyMode() ) ) { mpImplData->mxPrinter->SetDrawMode( mpImplData->mxPrinter->GetDrawMode() | DrawModeFlags::NoTransparency ); } Color aBg( COL_TRANSPARENT ); // default: let RemoveTransparenciesFromMetaFile do its own background logic if( mpImplData->maMultiPage.nRows * mpImplData->maMultiPage.nColumns > 1 ) { // in N-Up printing we have no "page" background operation // we also have no way to determine the paper color // so let's go for white, which will kill 99.9% of the real cases aBg = Color( COL_WHITE ); } mpImplData->mxPrinter->RemoveTransparenciesFromMetaFile( i_rIn, o_rOut, nMaxBmpDPIX, nMaxBmpDPIY, rPrinterOptions.IsReduceTransparency(), rPrinterOptions.GetReducedTransparencyMode() == PRINTER_TRANSPARENCY_AUTO, rPrinterOptions.IsReduceBitmaps() && rPrinterOptions.IsReducedBitmapIncludesTransparency(), aBg ); return nRestoreDrawMode; } void PrinterController::printFilteredPage( int i_nPage ) { if( mpImplData->meJobState != view::PrintableState_JOB_STARTED ) return; GDIMetaFile aPageFile; PrinterController::PageSize aPageSize = getFilteredPageFile( i_nPage, aPageFile ); if (mpImplData->meJobState != view::PrintableState_JOB_STARTED) { // rhbz#657394: check that we are still printing... return; } if( mpImplData->mpProgress ) { // do nothing if printing is canceled if( mpImplData->mpProgress->isCanceled() ) { setJobState( view::PrintableState_JOB_ABORTED ); return; } } // in N-Up printing set the correct page size mpImplData->mxPrinter->SetMapMode( MAP_100TH_MM ); // aPageSize was filtered through mpImplData->getRealPaperSize already by getFilteredPageFile() mpImplData->mxPrinter->SetPaperSizeUser( aPageSize.aSize, ! mpImplData->isFixedPageSize() ); if( mpImplData->mnFixedPaperBin != -1 && mpImplData->mxPrinter->GetPaperBin() != mpImplData->mnFixedPaperBin ) { mpImplData->mxPrinter->SetPaperBin( mpImplData->mnFixedPaperBin ); } // if full paper is meant to be used, move the output to accommodate for pageoffset if( aPageSize.bFullPaper ) { Point aPageOffset( mpImplData->mxPrinter->GetPageOffset() ); aPageFile.WindStart(); aPageFile.Move( -aPageOffset.X(), -aPageOffset.Y(), mpImplData->mxPrinter->GetDPIX(), mpImplData->mxPrinter->GetDPIY() ); } GDIMetaFile aCleanedFile; DrawModeFlags nRestoreDrawMode = removeTransparencies( aPageFile, aCleanedFile ); mpImplData->mxPrinter->EnableOutput(); // actually print the page mpImplData->mxPrinter->ImplStartPage(); mpImplData->mxPrinter->Push(); aCleanedFile.WindStart(); aCleanedFile.Play( mpImplData->mxPrinter.get() ); mpImplData->mxPrinter->Pop(); mpImplData->mxPrinter->ImplEndPage(); mpImplData->mxPrinter->SetDrawMode( nRestoreDrawMode ); } void PrinterController::jobStarted() { } void PrinterController::jobFinished( view::PrintableState ) { } void PrinterController::abortJob() { setJobState( view::PrintableState_JOB_ABORTED ); // applications (well, sw) depend on a page request with "IsLastPage" = true // to free resources, else they (well, sw) will crash eventually setLastPage( true ); mpImplData->mpProgress.disposeAndClear(); GDIMetaFile aMtf; getPageFile( 0, aMtf ); } void PrinterController::setLastPage( bool i_bLastPage ) { mpImplData->mbLastPage = i_bLastPage; } void PrinterController::setReversePrint( bool i_bReverse ) { mpImplData->mbReversePageOrder = i_bReverse; } bool PrinterController::getReversePrint() const { return mpImplData->mbReversePageOrder; } void PrinterController::setPapersizeFromSetup( bool i_bPapersizeFromSetup ) { mpImplData->mbPapersizeFromSetup = i_bPapersizeFromSetup; } bool PrinterController::getPapersizeFromSetup() const { return mpImplData->mbPapersizeFromSetup; } void PrinterController::setPrinterModified( bool i_bPrinterModified ) { mpImplData->mbPrinterModified = i_bPrinterModified; } bool PrinterController::getPrinterModified() const { return mpImplData->mbPrinterModified; } Sequence< PropertyValue > PrinterController::getJobProperties( const Sequence< PropertyValue >& i_rMergeList ) const { std::unordered_set< OUString, OUStringHash > aMergeSet; size_t nResultLen = size_t(i_rMergeList.getLength()) + mpImplData->maUIProperties.size() + 3; for( int i = 0; i < i_rMergeList.getLength(); i++ ) aMergeSet.insert( i_rMergeList[i].Name ); Sequence< PropertyValue > aResult( nResultLen ); for( int i = 0; i < i_rMergeList.getLength(); i++ ) aResult[i] = i_rMergeList[i]; int nCur = i_rMergeList.getLength(); for( size_t i = 0; i < mpImplData->maUIProperties.size(); i++ ) { if( aMergeSet.find( mpImplData->maUIProperties[i].Name ) == aMergeSet.end() ) aResult[nCur++] = mpImplData->maUIProperties[i]; } // append IsFirstPage if( aMergeSet.find( OUString( "IsFirstPage" ) ) == aMergeSet.end() ) { PropertyValue aVal; aVal.Name = "IsFirstPage"; aVal.Value <<= mpImplData->mbFirstPage; aResult[nCur++] = aVal; } // append IsLastPage if( aMergeSet.find( OUString( "IsLastPage" ) ) == aMergeSet.end() ) { PropertyValue aVal; aVal.Name = "IsLastPage"; aVal.Value <<= mpImplData->mbLastPage; aResult[nCur++] = aVal; } // append IsPrinter if( aMergeSet.find( OUString( "IsPrinter" ) ) == aMergeSet.end() ) { PropertyValue aVal; aVal.Name = "IsPrinter"; aVal.Value <<= sal_True; aResult[nCur++] = aVal; } aResult.realloc( nCur ); return aResult; } const Sequence< PropertyValue >& PrinterController::getUIOptions() const { return mpImplData->maUIOptions; } PropertyValue* PrinterController::getValue( const OUString& i_rProperty ) { std::unordered_map< OUString, size_t, OUStringHash >::const_iterator it = mpImplData->maPropertyToIndex.find( i_rProperty ); return it != mpImplData->maPropertyToIndex.end() ? &mpImplData->maUIProperties[it->second] : NULL; } const PropertyValue* PrinterController::getValue( const OUString& i_rProperty ) const { std::unordered_map< OUString, size_t, OUStringHash >::const_iterator it = mpImplData->maPropertyToIndex.find( i_rProperty ); return it != mpImplData->maPropertyToIndex.end() ? &mpImplData->maUIProperties[it->second] : NULL; } void PrinterController::setValue( const OUString& i_rName, const Any& i_rValue ) { PropertyValue aVal; aVal.Name = i_rName; aVal.Value = i_rValue; setValue( aVal ); } void PrinterController::setValue( const PropertyValue& i_rValue ) { std::unordered_map< OUString, size_t, OUStringHash >::const_iterator it = mpImplData->maPropertyToIndex.find( i_rValue.Name ); if( it != mpImplData->maPropertyToIndex.end() ) mpImplData->maUIProperties[ it->second ] = i_rValue; else { // insert correct index into property map mpImplData->maPropertyToIndex[ i_rValue.Name ] = mpImplData->maUIProperties.size(); mpImplData->maUIProperties.push_back( i_rValue ); mpImplData->maUIPropertyEnabled.push_back( true ); } } void PrinterController::setUIOptions( const Sequence< PropertyValue >& i_rOptions ) { DBG_ASSERT( mpImplData->maUIOptions.getLength() == 0, "setUIOptions called twice !" ); mpImplData->maUIOptions = i_rOptions; for( int i = 0; i < i_rOptions.getLength(); i++ ) { Sequence< PropertyValue > aOptProp; i_rOptions[i].Value >>= aOptProp; bool bIsEnabled = true; bool bHaveProperty = false; OUString aPropName; vcl::ImplPrinterControllerData::ControlDependency aDep; Sequence< sal_Bool > aChoicesDisabled; for( int n = 0; n < aOptProp.getLength(); n++ ) { const PropertyValue& rEntry( aOptProp[ n ] ); if ( rEntry.Name == "Property" ) { PropertyValue aVal; rEntry.Value >>= aVal; DBG_ASSERT( mpImplData->maPropertyToIndex.find( aVal.Name ) == mpImplData->maPropertyToIndex.end(), "duplicate property entry" ); setValue( aVal ); aPropName = aVal.Name; bHaveProperty = true; } else if ( rEntry.Name == "Enabled" ) { bool bValue = true; rEntry.Value >>= bValue; bIsEnabled = bValue; } else if ( rEntry.Name == "DependsOnName" ) { rEntry.Value >>= aDep.maDependsOnName; } else if ( rEntry.Name == "DependsOnEntry" ) { rEntry.Value >>= aDep.mnDependsOnEntry; } else if ( rEntry.Name == "ChoicesDisabled" ) { rEntry.Value >>= aChoicesDisabled; } } if( bHaveProperty ) { vcl::ImplPrinterControllerData::PropertyToIndexMap::const_iterator it = mpImplData->maPropertyToIndex.find( aPropName ); // sanity check if( it != mpImplData->maPropertyToIndex.end() ) { mpImplData->maUIPropertyEnabled[ it->second ] = bIsEnabled; } if( !aDep.maDependsOnName.isEmpty() ) mpImplData->maControlDependencies[ aPropName ] = aDep; if( aChoicesDisabled.getLength() > 0 ) mpImplData->maChoiceDisableMap[ aPropName ] = aChoicesDisabled; } } } bool PrinterController::isUIOptionEnabled( const OUString& i_rProperty ) const { bool bEnabled = false; std::unordered_map< OUString, size_t, OUStringHash >::const_iterator prop_it = mpImplData->maPropertyToIndex.find( i_rProperty ); if( prop_it != mpImplData->maPropertyToIndex.end() ) { bEnabled = mpImplData->maUIPropertyEnabled[prop_it->second]; if( bEnabled ) { // check control dependencies vcl::ImplPrinterControllerData::ControlDependencyMap::const_iterator it = mpImplData->maControlDependencies.find( i_rProperty ); if( it != mpImplData->maControlDependencies.end() ) { // check if the dependency is enabled // if the dependency is disabled, we are too bEnabled = isUIOptionEnabled( it->second.maDependsOnName ); if( bEnabled ) { // does the dependency have the correct value ? const css::beans::PropertyValue* pVal = getValue( it->second.maDependsOnName ); OSL_ENSURE( pVal, "unknown property in dependency" ); if( pVal ) { sal_Int32 nDepVal = 0; bool bDepVal = false; if( pVal->Value >>= nDepVal ) { bEnabled = (nDepVal == it->second.mnDependsOnEntry) || (it->second.mnDependsOnEntry == -1); } else if( pVal->Value >>= bDepVal ) { // could be a dependency on a checked boolean // in this case the dependency is on a non zero for checked value bEnabled = ( bDepVal && it->second.mnDependsOnEntry != 0) || ( ! bDepVal && it->second.mnDependsOnEntry == 0); } else { // if the type does not match something is awry OSL_FAIL( "strange type in control dependency" ); bEnabled = false; } } } } } } return bEnabled; } bool PrinterController::isUIChoiceEnabled( const OUString& i_rProperty, sal_Int32 i_nValue ) const { bool bEnabled = true; ImplPrinterControllerData::ChoiceDisableMap::const_iterator it = mpImplData->maChoiceDisableMap.find( i_rProperty ); if(it != mpImplData->maChoiceDisableMap.end() ) { const Sequence< sal_Bool >& rDisabled( it->second ); if( i_nValue >= 0 && i_nValue < rDisabled.getLength() ) bEnabled = ! rDisabled[i_nValue]; } return bEnabled; } OUString PrinterController::getDependency( const OUString& i_rProperty ) const { OUString aDependency; vcl::ImplPrinterControllerData::ControlDependencyMap::const_iterator it = mpImplData->maControlDependencies.find( i_rProperty ); if( it != mpImplData->maControlDependencies.end() ) aDependency = it->second.maDependsOnName; return aDependency; } OUString PrinterController::makeEnabled( const OUString& i_rProperty ) { OUString aDependency; vcl::ImplPrinterControllerData::ControlDependencyMap::const_iterator it = mpImplData->maControlDependencies.find( i_rProperty ); if( it != mpImplData->maControlDependencies.end() ) { if( isUIOptionEnabled( it->second.maDependsOnName ) ) { aDependency = it->second.maDependsOnName; const css::beans::PropertyValue* pVal = getValue( aDependency ); OSL_ENSURE( pVal, "unknown property in dependency" ); if( pVal ) { sal_Int32 nDepVal = 0; bool bDepVal = false; if( pVal->Value >>= nDepVal ) { if( it->second.mnDependsOnEntry != -1 ) { setValue( aDependency, makeAny( sal_Int32( it->second.mnDependsOnEntry ) ) ); } } else if( pVal->Value >>= bDepVal ) { setValue( aDependency, makeAny( it->second.mnDependsOnEntry != 0 ) ); } else { // if the type does not match something is awry OSL_FAIL( "strange type in control dependency" ); } } } } return aDependency; } void PrinterController::createProgressDialog() { if( ! mpImplData->mpProgress ) { bool bShow = true; PropertyValue* pMonitor = getValue( OUString( "MonitorVisible" ) ); if( pMonitor ) pMonitor->Value >>= bShow; else { const css::beans::PropertyValue* pVal = getValue( OUString( "IsApi" ) ); if( pVal ) { bool bApi = false; pVal->Value >>= bApi; bShow = ! bApi; } } if( bShow && ! Application::IsHeadlessModeEnabled() ) { mpImplData->mpProgress = VclPtr::Create( nullptr, getPageCountProtected() ); mpImplData->mpProgress->Show(); } } else mpImplData->mpProgress->reset(); } bool PrinterController::isProgressCanceled() const { return mpImplData->mpProgress && mpImplData->mpProgress->isCanceled(); } void PrinterController::setMultipage( const MultiPageSetup& i_rMPS ) { mpImplData->maMultiPage = i_rMPS; } const PrinterController::MultiPageSetup& PrinterController::getMultipage() const { return mpImplData->maMultiPage; } void PrinterController::resetPaperToLastConfigured() { mpImplData->resetPaperToLastConfigured(); } void PrinterController::pushPropertiesToPrinter() { sal_Int32 nCopyCount = 1; // set copycount and collate const css::beans::PropertyValue* pVal = getValue( OUString( "CopyCount" ) ); if( pVal ) pVal->Value >>= nCopyCount; bool bCollate = false; pVal = getValue( OUString( "Collate" ) ); if( pVal ) pVal->Value >>= bCollate; mpImplData->mxPrinter->SetCopyCount( static_cast(nCopyCount), bCollate ); // duplex mode pVal = getValue( OUString( "DuplexMode" ) ); if( pVal ) { sal_Int16 nDuplex = view::DuplexMode::UNKNOWN; pVal->Value >>= nDuplex; switch( nDuplex ) { case view::DuplexMode::OFF: mpImplData->mxPrinter->SetDuplexMode( DUPLEX_OFF ); break; case view::DuplexMode::LONGEDGE: mpImplData->mxPrinter->SetDuplexMode( DUPLEX_LONGEDGE ); break; case view::DuplexMode::SHORTEDGE: mpImplData->mxPrinter->SetDuplexMode( DUPLEX_SHORTEDGE ); break; } } } bool PrinterController::isShowDialogs() const { bool bApi = getBoolProperty( OUString( "IsApi" ), false ); return ! bApi && ! Application::IsHeadlessModeEnabled(); } bool PrinterController::isDirectPrint() const { bool bDirect = getBoolProperty( OUString( "IsDirect" ), false ); return bDirect; } bool PrinterController::getBoolProperty( const OUString& i_rProperty, bool i_bFallback ) const { bool bRet = i_bFallback; const css::beans::PropertyValue* pVal = getValue( i_rProperty ); if( pVal ) pVal->Value >>= bRet; return bRet; } sal_Int32 PrinterController::getIntProperty( const OUString& i_rProperty, sal_Int32 i_nFallback ) const { sal_Int32 nRet = i_nFallback; const css::beans::PropertyValue* pVal = getValue( i_rProperty ); if( pVal ) pVal->Value >>= nRet; return nRet; } /* * PrinterOptionsHelper **/ Any PrinterOptionsHelper::getValue( const OUString& i_rPropertyName ) const { Any aRet; std::unordered_map< OUString, Any, OUStringHash >::const_iterator it = m_aPropertyMap.find( i_rPropertyName ); if( it != m_aPropertyMap.end() ) aRet = it->second; return aRet; } bool PrinterOptionsHelper::getBoolValue( const OUString& i_rPropertyName, bool i_bDefault ) const { bool bRet = false; Any aVal( getValue( i_rPropertyName ) ); return (aVal >>= bRet) ? bRet : i_bDefault; } sal_Int64 PrinterOptionsHelper::getIntValue( const OUString& i_rPropertyName, sal_Int64 i_nDefault ) const { sal_Int64 nRet = 0; Any aVal( getValue( i_rPropertyName ) ); return (aVal >>= nRet) ? nRet : i_nDefault; } OUString PrinterOptionsHelper::getStringValue( const OUString& i_rPropertyName, const OUString& i_rDefault ) const { OUString aRet; Any aVal( getValue( i_rPropertyName ) ); return (aVal >>= aRet) ? aRet : i_rDefault; } bool PrinterOptionsHelper::processProperties( const Sequence< PropertyValue >& i_rNewProp, std::set< OUString >* o_pChangeProp ) { bool bChanged = false; // clear the changed set if( o_pChangeProp ) o_pChangeProp->clear(); sal_Int32 nElements = i_rNewProp.getLength(); const PropertyValue* pVals = i_rNewProp.getConstArray(); for( sal_Int32 i = 0; i < nElements; i++ ) { bool bElementChanged = false; std::unordered_map< OUString, Any, OUStringHash >::iterator it = m_aPropertyMap.find( pVals[ i ].Name ); if( it != m_aPropertyMap.end() ) { if( it->second != pVals[ i ].Value ) bElementChanged = true; } else bElementChanged = true; if( bElementChanged ) { if( o_pChangeProp ) o_pChangeProp->insert( pVals[ i ].Name ); m_aPropertyMap[ pVals[i].Name ] = pVals[i].Value; bChanged = true; } } return bChanged; } void PrinterOptionsHelper::appendPrintUIOptions( uno::Sequence< PropertyValue >& io_rProps ) const { if( m_aUIProperties.getLength() > 0 ) { sal_Int32 nIndex = io_rProps.getLength(); io_rProps.realloc( nIndex+1 ); PropertyValue aVal; aVal.Name = "ExtraPrintUIOptions"; aVal.Value = makeAny( m_aUIProperties ); io_rProps[ nIndex ] = aVal; } } Any PrinterOptionsHelper::setUIControlOpt(const css::uno::Sequence< OUString >& i_rIDs, const OUString& i_rTitle, const Sequence< OUString >& i_rHelpIds, const OUString& i_rType, const PropertyValue* i_pVal, const PrinterOptionsHelper::UIControlOptions& i_rControlOptions) { sal_Int32 nElements = 2 // ControlType + ID + (i_rTitle.isEmpty() ? 0 : 1) // Text + (i_rHelpIds.getLength() ? 1 : 0) // HelpId + (i_pVal ? 1 : 0) // Property + i_rControlOptions.maAddProps.getLength() // additional props + (i_rControlOptions.maGroupHint.isEmpty() ? 0 : 1) // grouping + (i_rControlOptions.mbInternalOnly ? 1 : 0) // internal hint + (i_rControlOptions.mbEnabled ? 0 : 1) // enabled ; if( !i_rControlOptions.maDependsOnName.isEmpty() ) { nElements += 1; if( i_rControlOptions.mnDependsOnEntry != -1 ) nElements += 1; if( i_rControlOptions.mbAttachToDependency ) nElements += 1; } Sequence< PropertyValue > aCtrl( nElements ); sal_Int32 nUsed = 0; if( !i_rTitle.isEmpty() ) { aCtrl[nUsed ].Name = "Text"; aCtrl[nUsed++].Value = makeAny( i_rTitle ); } if( i_rHelpIds.getLength() ) { aCtrl[nUsed ].Name = "HelpId"; aCtrl[nUsed++].Value = makeAny( i_rHelpIds ); } aCtrl[nUsed ].Name = "ControlType"; aCtrl[nUsed++].Value = makeAny( i_rType ); aCtrl[nUsed ].Name = "ID"; aCtrl[nUsed++].Value = makeAny( i_rIDs ); if( i_pVal ) { aCtrl[nUsed ].Name = "Property"; aCtrl[nUsed++].Value = makeAny( *i_pVal ); } if( !i_rControlOptions.maDependsOnName.isEmpty() ) { aCtrl[nUsed ].Name = "DependsOnName"; aCtrl[nUsed++].Value = makeAny( i_rControlOptions.maDependsOnName ); if( i_rControlOptions.mnDependsOnEntry != -1 ) { aCtrl[nUsed ].Name = "DependsOnEntry"; aCtrl[nUsed++].Value = makeAny( i_rControlOptions.mnDependsOnEntry ); } if( i_rControlOptions.mbAttachToDependency ) { aCtrl[nUsed ].Name = "AttachToDependency"; aCtrl[nUsed++].Value = makeAny( i_rControlOptions.mbAttachToDependency ); } } if( !i_rControlOptions.maGroupHint.isEmpty() ) { aCtrl[nUsed ].Name = "GroupingHint"; aCtrl[nUsed++].Value <<= i_rControlOptions.maGroupHint; } if( i_rControlOptions.mbInternalOnly ) { aCtrl[nUsed ].Name = "InternalUIOnly"; aCtrl[nUsed++].Value <<= sal_True; } if( ! i_rControlOptions.mbEnabled ) { aCtrl[nUsed ].Name = "Enabled"; aCtrl[nUsed++].Value <<= sal_False; } sal_Int32 nAddProps = i_rControlOptions.maAddProps.getLength(); for( sal_Int32 i = 0; i < nAddProps; i++ ) aCtrl[ nUsed++ ] = i_rControlOptions.maAddProps[i]; DBG_ASSERT( nUsed == nElements, "nUsed != nElements, probable heap corruption" ); return makeAny( aCtrl ); } Any PrinterOptionsHelper::setGroupControlOpt(const OUString& i_rID, const OUString& i_rTitle, const OUString& i_rHelpId) { Sequence< OUString > aHelpId; if( !i_rHelpId.isEmpty() ) { aHelpId.realloc( 1 ); *aHelpId.getArray() = i_rHelpId; } Sequence< OUString > aIds(1); aIds[0] = i_rID; return setUIControlOpt(aIds, i_rTitle, aHelpId, "Group"); } Any PrinterOptionsHelper::setSubgroupControlOpt(const OUString& i_rID, const OUString& i_rTitle, const OUString& i_rHelpId, const PrinterOptionsHelper::UIControlOptions& i_rControlOptions) { Sequence< OUString > aHelpId; if( !i_rHelpId.isEmpty() ) { aHelpId.realloc( 1 ); *aHelpId.getArray() = i_rHelpId; } Sequence< OUString > aIds(1); aIds[0] = i_rID; return setUIControlOpt(aIds, i_rTitle, aHelpId, "Subgroup", NULL, i_rControlOptions); } Any PrinterOptionsHelper::setBoolControlOpt(const OUString& i_rID, const OUString& i_rTitle, const OUString& i_rHelpId, const OUString& i_rProperty, bool i_bValue, const PrinterOptionsHelper::UIControlOptions& i_rControlOptions) { Sequence< OUString > aHelpId; if( !i_rHelpId.isEmpty() ) { aHelpId.realloc( 1 ); *aHelpId.getArray() = i_rHelpId; } PropertyValue aVal; aVal.Name = i_rProperty; aVal.Value = makeAny( i_bValue ); Sequence< OUString > aIds(1); aIds[0] = i_rID; return setUIControlOpt(aIds, i_rTitle, aHelpId, "Bool", &aVal, i_rControlOptions); } Any PrinterOptionsHelper::setChoiceRadiosControlOpt(const css::uno::Sequence< OUString >& i_rIDs, const OUString& i_rTitle, const Sequence< OUString >& i_rHelpId, const OUString& i_rProperty, const Sequence< OUString >& i_rChoices, sal_Int32 i_nValue, const Sequence< sal_Bool >& i_rDisabledChoices, const PrinterOptionsHelper::UIControlOptions& i_rControlOptions) { UIControlOptions aOpt( i_rControlOptions ); sal_Int32 nUsed = aOpt.maAddProps.getLength(); aOpt.maAddProps.realloc( nUsed + 1 + (i_rDisabledChoices.getLength() ? 1 : 0) ); aOpt.maAddProps[nUsed].Name = "Choices"; aOpt.maAddProps[nUsed].Value = makeAny( i_rChoices ); if( i_rDisabledChoices.getLength() ) { aOpt.maAddProps[nUsed+1].Name = "ChoicesDisabled"; aOpt.maAddProps[nUsed+1].Value = makeAny( i_rDisabledChoices ); } PropertyValue aVal; aVal.Name = i_rProperty; aVal.Value = makeAny( i_nValue ); return setUIControlOpt(i_rIDs, i_rTitle, i_rHelpId, "Radio", &aVal, aOpt); } Any PrinterOptionsHelper::setChoiceListControlOpt(const OUString& i_rID, const OUString& i_rTitle, const Sequence< OUString >& i_rHelpId, const OUString& i_rProperty, const Sequence< OUString >& i_rChoices, sal_Int32 i_nValue, const Sequence< sal_Bool >& i_rDisabledChoices, const PrinterOptionsHelper::UIControlOptions& i_rControlOptions) { UIControlOptions aOpt( i_rControlOptions ); sal_Int32 nUsed = aOpt.maAddProps.getLength(); aOpt.maAddProps.realloc( nUsed + 1 + (i_rDisabledChoices.getLength() ? 1 : 0) ); aOpt.maAddProps[nUsed].Name = "Choices"; aOpt.maAddProps[nUsed].Value = makeAny( i_rChoices ); if( i_rDisabledChoices.getLength() ) { aOpt.maAddProps[nUsed+1].Name = "ChoicesDisabled"; aOpt.maAddProps[nUsed+1].Value = makeAny( i_rDisabledChoices ); } PropertyValue aVal; aVal.Name = i_rProperty; aVal.Value = makeAny( i_nValue ); Sequence< OUString > aIds(1); aIds[0] = i_rID; return setUIControlOpt(aIds, i_rTitle, i_rHelpId, "List", &aVal, aOpt); } Any PrinterOptionsHelper::setRangeControlOpt(const OUString& i_rID, const OUString& i_rTitle, const OUString& i_rHelpId, const OUString& i_rProperty, sal_Int32 i_nValue, sal_Int32 i_nMinValue, sal_Int32 i_nMaxValue, const PrinterOptionsHelper::UIControlOptions& i_rControlOptions) { UIControlOptions aOpt( i_rControlOptions ); if( i_nMaxValue >= i_nMinValue ) { sal_Int32 nUsed = aOpt.maAddProps.getLength(); aOpt.maAddProps.realloc( nUsed + 2 ); aOpt.maAddProps[nUsed ].Name = "MinValue"; aOpt.maAddProps[nUsed++].Value = makeAny( i_nMinValue ); aOpt.maAddProps[nUsed ].Name = "MaxValue"; aOpt.maAddProps[nUsed++].Value = makeAny( i_nMaxValue ); } Sequence< OUString > aHelpId; if( !i_rHelpId.isEmpty() ) { aHelpId.realloc( 1 ); *aHelpId.getArray() = i_rHelpId; } PropertyValue aVal; aVal.Name = i_rProperty; aVal.Value = makeAny( i_nValue ); Sequence< OUString > aIds(1); aIds[0] = i_rID; return setUIControlOpt(aIds, i_rTitle, aHelpId, "Range", &aVal, aOpt); } Any PrinterOptionsHelper::setEditControlOpt(const OUString& i_rID, const OUString& i_rTitle, const OUString& i_rHelpId, const OUString& i_rProperty, const OUString& i_rValue, const PrinterOptionsHelper::UIControlOptions& i_rControlOptions) { Sequence< OUString > aHelpId; if( !i_rHelpId.isEmpty() ) { aHelpId.realloc( 1 ); *aHelpId.getArray() = i_rHelpId; } PropertyValue aVal; aVal.Name = i_rProperty; aVal.Value = makeAny( i_rValue ); Sequence< OUString > aIds(1); aIds[0] = i_rID; return setUIControlOpt(aIds, i_rTitle, aHelpId, "Edit", &aVal, i_rControlOptions); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */