/* -*- 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 #include #include #include #include #include #include "dispatchwatcher.hxx" #include "officeipcthread.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::osl; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::util; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::frame; using namespace ::com::sun::star::container; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::view; using namespace ::com::sun::star::task; using namespace ::com::sun::star::document; namespace document = ::com::sun::star::document; namespace desktop { namespace { struct DispatchHolder { DispatchHolder( URL _aURL, Reference< XDispatch > const & rDispatch ) : aURL(std::move( _aURL )), xDispatch( rDispatch ) {} URL aURL; Reference< XDispatch > xDispatch; }; std::shared_ptr impl_lookupExportFilterForUrl( std::u16string_view rUrl, std::u16string_view rFactory ) { // create the list of filters OUString sQuery = "getSortedFilterList()" ":module=" + OUString::Concat(rFactory) + // use long name here ! ":iflags=" + OUString::number(static_cast(SfxFilterFlags::EXPORT)) + ":eflags=" + OUString::number(static_cast(SFX_FILTER_NOTINSTALLED)); const Reference< XComponentContext > xContext( comphelper::getProcessComponentContext() ); const Reference< XContainerQuery > xFilterFactory( xContext->getServiceManager()->createInstanceWithContext( u"com.sun.star.document.FilterFactory"_ustr, xContext ), UNO_QUERY_THROW ); std::shared_ptr pBestMatch; const Reference< XEnumeration > xFilterEnum( xFilterFactory->createSubSetEnumerationByQuery( sQuery ), UNO_SET_THROW ); while ( xFilterEnum->hasMoreElements() ) { comphelper::SequenceAsHashMap aFilterProps( xFilterEnum->nextElement() ); const OUString aName( aFilterProps.getUnpackedValueOrDefault( u"Name"_ustr, OUString() ) ); if ( !aName.isEmpty() ) { std::shared_ptr pFilter( SfxFilter::GetFilterByName( aName ) ); if ( pFilter && pFilter->CanExport() && pFilter->GetWildcard().Matches( rUrl ) ) { if ( !pBestMatch || ( SfxFilterFlags::PREFERED & pFilter->GetFilterFlags() ) ) pBestMatch = std::move(pFilter); } } } return pBestMatch; } std::shared_ptr impl_getExportFilterFromUrl( const OUString& rUrl, const OUString& rFactory) { try { const Reference< XComponentContext > xContext( comphelper::getProcessComponentContext() ); const Reference< document::XTypeDetection > xTypeDetector( xContext->getServiceManager()->createInstanceWithContext( u"com.sun.star.document.TypeDetection"_ustr, xContext ), UNO_QUERY_THROW ); const OUString aTypeName( xTypeDetector->queryTypeByURL( rUrl ) ); std::shared_ptr pFilter( SfxFilterMatcher( rFactory ).GetFilter4EA( aTypeName, SfxFilterFlags::EXPORT ) ); if ( !pFilter ) pFilter = impl_lookupExportFilterForUrl( rUrl, rFactory ); if ( !pFilter ) { OUString aTempName; FileBase::getSystemPathFromFileURL( rUrl, aTempName ); OString aSource = OUStringToOString ( aTempName, osl_getThreadTextEncoding() ); std::cerr << "Error: no export filter for " << aSource << " found, aborting." << std::endl; } return pFilter; } catch ( const Exception& ) { return nullptr; } } OUString impl_GuessFilter( const OUString& rUrlOut, const OUString& rDocService ) { OUString aOutFilter; std::shared_ptr pOutFilter = impl_getExportFilterFromUrl( rUrlOut, rDocService ); if (pOutFilter) aOutFilter = pOutFilter->GetFilterName(); return aOutFilter; } /// dump scripts in a document to the console. void scriptCat(const Reference< XModel >& xDoc ) { Reference< XEmbeddedScripts > xScriptAccess( xDoc, UNO_QUERY ); if (!xScriptAccess) { std::cout << "No script access\n"; return; } // ignore xScriptAccess->getDialogLibraries() for now Reference< css::script::XLibraryContainer2 > xLibraries( xScriptAccess->getBasicLibraries() ); if ( !xLibraries.is() ) { std::cout << "No script libraries\n"; return; } const Sequence< OUString > aLibNames = xLibraries->getElementNames(); std::cout << "Libraries: " << aLibNames.getLength() << "\n"; for (OUString const & libName : aLibNames) { std::cout << "Library: '" << libName << "' children: "; Reference< XNameContainer > xContainer; try { if (!xLibraries->isLibraryLoaded( libName )) xLibraries->loadLibrary( libName ); xContainer = Reference< XNameContainer >( xLibraries->getByName( libName ), UNO_QUERY ); } catch (const css::uno::Exception &e) { std::cout << "[" << libName << "] - failed to load library: " << e.Message << "\n"; continue; } if( !xContainer.is() ) std::cout << "0\n"; else { Sequence< OUString > aObjectNames = xContainer->getElementNames(); std::cout << aObjectNames.getLength() << "\n\n"; for ( sal_Int32 j = 0 ; j < aObjectNames.getLength() ; ++j ) { const OUString &rObjectName = aObjectNames[j]; try { Any aCode = xContainer->getByName( rObjectName ); OUString aCodeString; if (! (aCode >>= aCodeString ) ) std::cout << "[" << rObjectName << "] - error fetching code\n"; else std::cout << "[" << rObjectName << "]\n" << aCodeString.trim() << "\n[/" << rObjectName << "]\n"; } catch (const css::uno::Exception &e) { std::cout << "[" << rObjectName << "] - exception " << e.Message << " fetching code\n"; } if (j < aObjectNames.getLength() - 1) std::cout << "\n----------------------------------------------------------\n"; std::cout << "\n"; } } } } // Perform batch print void batchPrint( std::u16string_view rPrinterName, const Reference< XPrintable > &xDoc, const INetURLObject &aObj, const OUString &aName ) { OUString aFilterOut; OUString aPrinterName; size_t nPathIndex = rPrinterName.rfind( ';' ); if( nPathIndex != std::u16string_view::npos ) aFilterOut=rPrinterName.substr( nPathIndex+1 ); if( nPathIndex != 0 ) aPrinterName=rPrinterName.substr( 0, nPathIndex ); INetURLObject aOutFilename( aObj ); aOutFilename.SetExtension( u"pdf" ); FileBase::getFileURLFromSystemPath( aFilterOut, aFilterOut ); OUString aOutFile = aFilterOut + "/" + aOutFilename.getName(); OUString aTempName; FileBase::getSystemPathFromFileURL( aName, aTempName ); OString aSource8 = OUStringToOString ( aTempName, osl_getThreadTextEncoding() ); FileBase::getSystemPathFromFileURL( aOutFile, aTempName ); OString aTargetURL8 = OUStringToOString(aTempName, osl_getThreadTextEncoding() ); std::cout << "print " << aSource8 << " -> " << aTargetURL8; std::cout << " using " << (aPrinterName.isEmpty() ? ""_ostr : OUStringToOString( aPrinterName, osl_getThreadTextEncoding() )); std::cout << std::endl; // create the custom printer, if given Sequence < PropertyValue > aPrinterArgs; if( !aPrinterName.isEmpty() ) { aPrinterArgs = { comphelper::makePropertyValue(u"Name"_ustr, aPrinterName) }; xDoc->setPrinter( aPrinterArgs ); } // print ( also without user interaction ) aPrinterArgs = { comphelper::makePropertyValue(u"FileName"_ustr, aOutFile), comphelper::makePropertyValue(u"Wait"_ustr, true) }; xDoc->print( aPrinterArgs ); } // Get xDoc module name OUString getName(const Reference< XInterface > & xDoc) { Reference< XModel > xModel( xDoc, UNO_QUERY ); if (!xModel) return OUString(); utl::MediaDescriptor aMediaDesc( xModel->getArgs() ); OUString aDocService = aMediaDesc.getUnpackedValueOrDefault(utl::MediaDescriptor::PROP_DOCUMENTSERVICE, OUString() ); if (aDocService == "com.sun.star.text.TextDocument") return u"Writer"_ustr; else if (aDocService == "com.sun.star.text.GlobalDocument") return u"Writer master"_ustr; else if (aDocService == "com.sun.star.text.WebDocument") return u"Writer/Web"_ustr; else if (aDocService == "com.sun.star.drawing.DrawingDocument") return u"Draw"_ustr; else if (aDocService == "com.sun.star.presentation.PresentationDocument") return u"Impress"_ustr; else if (aDocService == "com.sun.star.sheet.SpreadsheetDocument") return u"Calc"_ustr; else if (aDocService == "com.sun.star.script.BasicIDE") return u"Basic"_ustr; else if (aDocService == "com.sun.star.formula.FormulaProperties") return u"Math"_ustr; else if (aDocService == "com.sun.star.sdb.RelationDesign") return u"Relation Design"_ustr; else if (aDocService == "com.sun.star.sdb.QueryDesign") return u"Query Design"_ustr; else if (aDocService == "com.sun.star.sdb.TableDesign") return u"Table Design"_ustr; else if (aDocService == "com.sun.star.sdb.DataSourceBrowser") return u"Data Source Browser"_ustr; else if (aDocService == "com.sun.star.sdb.DatabaseDocument") return u"Database"_ustr; return OUString(); } } // anonymous namespace DispatchWatcher::DispatchWatcher() : m_nRequestCount(0) { } DispatchWatcher::~DispatchWatcher() { } bool DispatchWatcher::executeDispatchRequests( const std::vector& aDispatchRequestsList, bool bNoTerminate ) { Reference< XDesktop2 > xDesktop = css::frame::Desktop::create( ::comphelper::getProcessComponentContext() ); std::vector< DispatchHolder > aDispatches; bool bSetInputFilter = false; OUString aForcedInputFilter; for (auto const & aDispatchRequest: aDispatchRequestsList) { // Set Input Filter if ( aDispatchRequest.aRequestType == REQUEST_INFILTER ) { bSetInputFilter = true; aForcedInputFilter = aDispatchRequest.aURL; RequestHandler::RequestsCompleted(); continue; } // create parameter array std::vector aArgs; // mark request as user interaction from outside aArgs.emplace_back("Referer", 0, Any(u"private:OpenEvent"_ustr), PropertyState_DIRECT_VALUE); OUString aTarget(u"_default"_ustr); if ( aDispatchRequest.aRequestType == REQUEST_PRINT || aDispatchRequest.aRequestType == REQUEST_PRINTTO || aDispatchRequest.aRequestType == REQUEST_BATCHPRINT || aDispatchRequest.aRequestType == REQUEST_CONVERSION || aDispatchRequest.aRequestType == REQUEST_CAT || aDispatchRequest.aRequestType == REQUEST_SCRIPT_CAT) { // documents opened for printing are opened readonly because they must be opened as a // new document and this document could be open already aArgs.emplace_back("ReadOnly", 0, Any(true), PropertyState_DIRECT_VALUE); // always open a new document for printing, because it must be disposed afterwards aArgs.emplace_back("OpenNewView", 0, Any(true), PropertyState_DIRECT_VALUE); // printing is done in a hidden view aArgs.emplace_back("Hidden", 0, Any(true), PropertyState_DIRECT_VALUE); // load document for printing without user interaction aArgs.emplace_back("Silent", 0, Any(true), PropertyState_DIRECT_VALUE); // hidden documents should never be put into open tasks aTarget = "_blank"; } else { Reference < XInteractionHandler2 > xInteraction( InteractionHandler::createWithParent(::comphelper::getProcessComponentContext(), nullptr) ); aArgs.emplace_back("InteractionHandler", 0, Any(xInteraction), PropertyState_DIRECT_VALUE); aArgs.emplace_back("MacroExecutionMode", 0, Any(css::document::MacroExecMode::USE_CONFIG), PropertyState_DIRECT_VALUE); aArgs.emplace_back("UpdateDocMode", 0, Any(css::document::UpdateDocMode::ACCORDING_TO_CONFIG), PropertyState_DIRECT_VALUE); } if ( !aDispatchRequest.aPreselectedFactory.isEmpty() ) { aArgs.emplace_back(utl::MediaDescriptor::PROP_DOCUMENTSERVICE, 0, Any(aDispatchRequest.aPreselectedFactory), PropertyState_DIRECT_VALUE); } OUString aName( GetURL_Impl( aDispatchRequest.aURL, aDispatchRequest.aCwdUrl ) ); // load the document ... if they are loadable! // Otherwise try to dispatch it ... Reference < XPrintable > xDoc; if( ( aName.startsWith( ".uno" ) ) || ( aName.startsWith( "slot:" ) ) || ( aName.startsWith( "macro:" ) ) || ( aName.startsWith("vnd.sun.star.script") ) ) { // Attention: URL must be parsed full. Otherwise some detections on it will fail! // It doesn't matter, if parser isn't available. Because; We try loading of URL then ... URL aURL ; aURL.Complete = aName; Reference < XDispatch > xDispatcher ; Reference < XURLTransformer > xParser ( URLTransformer::create(::comphelper::getProcessComponentContext()) ); if( xParser.is() ) xParser->parseStrict( aURL ); xDispatcher = xDesktop->queryDispatch( aURL, OUString(), 0 ); SAL_WARN_IF( !xDispatcher.is(), "desktop.app", "unsupported dispatch request <" << aName << ">"); if( xDispatcher.is() ) { // Remember request so we can find it in statusChanged! m_nRequestCount++; // Use local vector to store dispatcher because we have to fill our request container before // we can dispatch. Otherwise it would be possible that statusChanged is called before we dispatched all requests!! aDispatches.emplace_back( aURL, xDispatcher ); } } else if ( aName.startsWith( "service:" ) ) { // TODO: the dispatch has to be done for loadComponentFromURL as well. URL aURL ; aURL.Complete = aName; Reference < XDispatch > xDispatcher ; Reference < XURLTransformer > xParser ( URLTransformer::create(::comphelper::getProcessComponentContext()) ); if( xParser.is() ) xParser->parseStrict( aURL ); xDispatcher = xDesktop->queryDispatch( aURL, OUString(), 0 ); if( xDispatcher.is() ) { try { // We have to be listener to catch errors during dispatching URLs. // Otherwise it would be possible to have an office running without an open // window!! Sequence < PropertyValue > aArgs2{ comphelper::makePropertyValue(u"SynchronMode"_ustr, true) }; Reference < XNotifyingDispatch > xDisp( xDispatcher, UNO_QUERY ); if ( xDisp.is() ) xDisp->dispatchWithNotification( aURL, aArgs2, this ); else xDispatcher->dispatch( aURL, aArgs2 ); } catch (const css::uno::Exception&) { TOOLS_WARN_EXCEPTION( "desktop.app", "Desktop::OpenDefault() ignoring Exception while calling XNotifyingDispatch"); } } } else { INetURLObject aObj( aName ); if ( aObj.GetProtocol() == INetProtocol::PrivSoffice ) aTarget = "_default"; // Set "AsTemplate" argument according to request type if ( aDispatchRequest.aRequestType == REQUEST_FORCENEW || aDispatchRequest.aRequestType == REQUEST_FORCEOPEN ) { aArgs.emplace_back("AsTemplate", 0, Any(aDispatchRequest.aRequestType == REQUEST_FORCENEW), PropertyState_DIRECT_VALUE); } // if we are called in viewmode, open document read-only if(aDispatchRequest.aRequestType == REQUEST_VIEW) { aArgs.emplace_back("ReadOnly", 0, Any(true), PropertyState_DIRECT_VALUE); } // if we are called with --show set Start in mediadescriptor if(aDispatchRequest.aRequestType == REQUEST_START) { const sal_Int32 nStartingSlide = aDispatchRequest.aParam.toInt32(); const sal_uInt16 nSlide = nStartingSlide > 0 ? nStartingSlide : 1; aArgs.emplace_back("StartPresentation", 0, Any(nSlide), PropertyState_DIRECT_VALUE); } // Force input filter, if possible if( bSetInputFilter ) { sal_Int32 nFilterOptionsIndex = 0; aArgs.emplace_back("FilterName", 0, Any(aForcedInputFilter.getToken(0, ':', nFilterOptionsIndex)), PropertyState_DIRECT_VALUE); if (0 < nFilterOptionsIndex) { aArgs.emplace_back("FilterOptions", 0, Any(aForcedInputFilter.copy(nFilterOptionsIndex)), PropertyState_DIRECT_VALUE); } } // This is a synchron loading of a component so we don't have to deal with our statusChanged listener mechanism. try { xDoc.set(comphelper::SynchronousDispatch::dispatch( xDesktop, aName, aTarget, comphelper::containerToSequence(aArgs)), UNO_QUERY); } catch (const css::lang::IllegalArgumentException&) { TOOLS_WARN_EXCEPTION( "desktop.app", "Dispatchwatcher IllegalArgumentException while calling loadComponentFromURL"); } catch (const css::io::IOException&) { TOOLS_WARN_EXCEPTION( "desktop.app", "Dispatchwatcher IOException while calling loadComponentFromURL"); } if ( aDispatchRequest.aRequestType == REQUEST_OPEN || aDispatchRequest.aRequestType == REQUEST_VIEW || aDispatchRequest.aRequestType == REQUEST_START || aDispatchRequest.aRequestType == REQUEST_FORCEOPEN || aDispatchRequest.aRequestType == REQUEST_FORCENEW ) { // request is completed RequestHandler::RequestsCompleted(); } else if ( aDispatchRequest.aRequestType == REQUEST_PRINT || aDispatchRequest.aRequestType == REQUEST_PRINTTO || aDispatchRequest.aRequestType == REQUEST_BATCHPRINT || aDispatchRequest.aRequestType == REQUEST_CONVERSION || aDispatchRequest.aRequestType == REQUEST_CAT || aDispatchRequest.aRequestType == REQUEST_SCRIPT_CAT ) { if ( xDoc.is() ) { // Do we need to save the document in a different format? if ( aDispatchRequest.aRequestType == REQUEST_CONVERSION || aDispatchRequest.aRequestType == REQUEST_CAT ) { // FIXME: factor out into a method ... Reference< XStorable > xStorable( xDoc, UNO_QUERY ); if ( xStorable.is() ) { const OUString& aParam = aDispatchRequest.aParam; sal_Int32 nPathIndex = aParam.lastIndexOf( ';' ); sal_Int32 nFilterIndex = aParam.indexOf( ':' ); sal_Int32 nImgFilterIndex = aParam.lastIndexOf( '|' ); if( nPathIndex < nFilterIndex ) nFilterIndex = -1; OUString aFilterOut; OUString aImgOut; OUString aFilter; OUString aFilterExt; bool bGuess = false; if( nFilterIndex >= 0 ) { aFilter = aParam.copy( nFilterIndex+1, nPathIndex-nFilterIndex-1 ); aFilterExt = aParam.copy( 0, nFilterIndex ); } else { // Guess bGuess = true; aFilterExt = aParam.copy( 0, nPathIndex ); } if( nImgFilterIndex >= 0 ) { aImgOut = aParam.copy( nImgFilterIndex+1 ); aFilterOut = aParam.copy( nPathIndex+1, nImgFilterIndex-nPathIndex-1 ); } else aFilterOut = aParam.copy( nPathIndex+1 ); FileBase::getFileURLFromSystemPath( aFilterOut, aFilterOut ); INetURLObject aOutFilename(aFilterOut); aOutFilename.Append(aObj.getName(INetURLObject::LAST_SEGMENT, true, INetURLObject::DecodeMechanism::NONE)); aOutFilename.SetExtension(aFilterExt); OUString aOutFile = aOutFilename.GetMainURL(INetURLObject::DecodeMechanism::NONE); std::unique_ptr fileForCat; if( aDispatchRequest.aRequestType == REQUEST_CAT ) { fileForCat = std::make_unique(); if (fileForCat->IsValid()) fileForCat->EnableKillingFile(); else std::cerr << "Error: Cannot create temporary file..." << std::endl ; aOutFile = fileForCat->GetURL(); } if ( bGuess ) { OUString aDocService; Reference< XModel > xModel( xDoc, UNO_QUERY ); if ( xModel.is() ) { utl::MediaDescriptor aMediaDesc( xModel->getArgs() ); aDocService = aMediaDesc.getUnpackedValueOrDefault(utl::MediaDescriptor::PROP_DOCUMENTSERVICE, OUString() ); } aFilter = impl_GuessFilter( aOutFile, aDocService ); } bool bMultiFileTarget = false; if (aFilter.isEmpty()) { std::cerr << "Error: no export filter" << std::endl; } else { sal_Int32 nFilterOptionsIndex = aFilter.indexOf(':'); sal_Int32 nProps = ( 0 < nFilterOptionsIndex ) ? 4 : 3; if ( !aImgOut.isEmpty() ) nProps +=1; Sequence conversionProperties( nProps ); auto pconversionProperties = conversionProperties.getArray(); pconversionProperties[0].Name = "ConversionRequestOrigin"; pconversionProperties[0].Value <<= u"CommandLine"_ustr; pconversionProperties[1].Name = "Overwrite"; pconversionProperties[1].Value <<= true; pconversionProperties[2].Name = "FilterName"; if( 0 < nFilterOptionsIndex ) { OUString sFilterName = aFilter.copy(0, nFilterOptionsIndex); OUString sFilterOptions = aFilter.copy(nFilterOptionsIndex + 1); if (sFilterName == "Text - txt - csv (StarCalc)") { sal_Int32 nIdx(0); // If the 11th token is '-1' then we export a file // per sheet where the file name is based on the suggested // output filename concatenated with the sheet name, so adjust // the output and overwrite messages // If the 11th token is not present or numeric 0 then the // default sheet is exported with the output filename. If it // is numeric >0 then that sheet (1-based) with the output // filename concatenated with the sheet name. So even if // that is a single file, the multi file target mechanism is // used. const OUString aTok(sFilterOptions.getToken(11, ',', nIdx)); // Actual validity is checked in Calc, here just check for // presence of numeric value at start. bMultiFileTarget = (!aTok.isEmpty() && aTok.toInt32() != 0); } pconversionProperties[2].Value <<= sFilterName; pconversionProperties[3].Name = "FilterOptions"; pconversionProperties[3].Value <<= sFilterOptions; } else { pconversionProperties[2].Value <<= aFilter; } if ( !aImgOut.isEmpty() ) { assert(conversionProperties[nProps-1].Name.isEmpty()); pconversionProperties[nProps-1].Name = "ImageFilter"; pconversionProperties[nProps-1].Value <<= aImgOut; } OUString aTempName; FileBase::getSystemPathFromFileURL(aName, aTempName); OString aSource8 = OUStringToOString(aTempName, osl_getThreadTextEncoding()); FileBase::getSystemPathFromFileURL(aOutFile, aTempName); OString aTargetURL8 = OUStringToOString(aTempName, osl_getThreadTextEncoding()); if (aDispatchRequest.aRequestType != REQUEST_CAT) { OUString name=getName(xDoc); std::cout << "convert " << aSource8; if (!name.isEmpty()) std::cout << " as a " << name <<" document"; if (!bMultiFileTarget) std::cout << " -> " << aTargetURL8; std::cout << " using filter : " << OUStringToOString(aFilter, osl_getThreadTextEncoding()) << std::endl; if (!bMultiFileTarget && FStatHelper::IsDocument(aOutFile)) std::cout << "Overwriting: " << OUStringToOString(aTempName, osl_getThreadTextEncoding()) << std::endl ; } try { xStorable->storeToURL(aOutFile, conversionProperties); } catch (const Exception& rException) { std::cerr << "Error: Please verify input parameters..."; if (!rException.Message.isEmpty()) std::cerr << " (" << rException.Message << ")"; std::cerr << std::endl; } if (fileForCat && fileForCat->IsValid()) { SvStream* aStream = fileForCat->GetStream(StreamMode::STD_READ); while (aStream->good()) { OString aStr; aStream->ReadLine(aStr, SAL_MAX_INT32); for (sal_Int32 i = 0; i < aStr.getLength(); ++i) { std::cout << aStr[i]; } std::cout << std::endl; } } } } } else if ( aDispatchRequest.aRequestType == REQUEST_SCRIPT_CAT ) { Reference< XModel > xModel( xDoc, UNO_QUERY ); if( xModel.is() ) scriptCat( xModel ); } else if ( aDispatchRequest.aRequestType == REQUEST_BATCHPRINT ) { batchPrint(aDispatchRequest.aParam, xDoc, aObj, aName); } else { if ( aDispatchRequest.aRequestType == REQUEST_PRINTTO ) { // create the printer Sequence < PropertyValue > aPrinterArgs{ comphelper::makePropertyValue( u"Name"_ustr, aDispatchRequest.aParam) }; xDoc->setPrinter( aPrinterArgs ); } // print ( also without user interaction ) Sequence < PropertyValue > aPrinterArgs{ comphelper::makePropertyValue(u"Wait"_ustr, true) }; xDoc->print( aPrinterArgs ); } } else { std::cerr << "Error: source file could not be loaded" << std::endl; } // remove the document try { Reference < XCloseable > xClose( xDoc, UNO_QUERY ); if ( xClose.is() ) xClose->close( true ); else { Reference < XComponent > xComp( xDoc, UNO_QUERY ); if ( xComp.is() ) xComp->dispose(); } } catch (const css::util::CloseVetoException&) { } // request is completed RequestHandler::RequestsCompleted(); } } } if ( !aDispatches.empty() ) { // Execute all asynchronous dispatches now after we placed them into our request container! Sequence < PropertyValue > aArgs{ comphelper::makePropertyValue(u"Referer"_ustr, u"private:OpenEvent"_ustr), comphelper::makePropertyValue(u"SynchronMode"_ustr, true) }; for (const DispatchHolder & aDispatche : aDispatches) { Reference< XDispatch > xDispatch = aDispatche.xDispatch; Reference < XNotifyingDispatch > xDisp( xDispatch, UNO_QUERY ); if ( xDisp.is() ) xDisp->dispatchWithNotification( aDispatche.aURL, aArgs, this ); else { m_nRequestCount--; xDispatch->dispatch( aDispatche.aURL, aArgs ); } } } bool bEmpty = (m_nRequestCount == 0); // No more asynchronous requests? // The requests are removed from the request container after they called back to this // implementation via statusChanged!! if ( bEmpty && !bNoTerminate /*m_aRequestContainer.empty()*/ ) { // We have to check if we have an open task otherwise we have to shutdown the office. Reference< XElementAccess > xList = xDesktop->getFrames(); if ( !xList->hasElements() ) { // We don't have any task open so we have to shutdown ourself!! return xDesktop->terminate(); } } return false; } void SAL_CALL DispatchWatcher::disposing( const css::lang::EventObject& ) { } void SAL_CALL DispatchWatcher::dispatchFinished( const DispatchResultEvent& ) { int nCount = --m_nRequestCount; RequestHandler::RequestsCompleted(); if ( !nCount && !RequestHandler::AreRequestsPending() ) { // We have to check if we have an open task otherwise we have to shutdown the office. Reference< XDesktop2 > xDesktop = css::frame::Desktop::create( ::comphelper::getProcessComponentContext() ); Reference< XElementAccess > xList = xDesktop->getFrames(); if ( !xList->hasElements() ) { // We don't have any task open so we have to shutdown ourself!! xDesktop->terminate(); } } } } // namespace desktop /* vim:set shiftwidth=4 softtabstop=4 expandtab: */