/* -*- 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 "officecfg/Office/Common.hxx" #include "vcl/print.hxx" #include #include "osx/salinst.h" #include "osx/salprn.h" #include "osx/printview.h" #include "quartz/salgdi.h" #include "osx/saldata.hxx" #include "quartz/utils.h" #include "jobset.h" #include "salptype.hxx" #include "com/sun/star/beans/PropertyValue.hpp" #include "com/sun/star/awt/Size.hpp" #include "com/sun/star/uno/Sequence.hxx" #include #include using namespace vcl; using namespace com::sun::star; using namespace com::sun::star::beans; AquaSalInfoPrinter::AquaSalInfoPrinter( const SalPrinterQueueInfo& i_rQueue ) : mpGraphics( 0 ), mbGraphics( false ), mbJob( false ), mpPrinter( nil ), mpPrintInfo( nil ), mePageOrientation( ORIENTATION_PORTRAIT ), mnStartPageOffsetX( 0 ), mnStartPageOffsetY( 0 ), mnCurPageRangeStart( 0 ), mnCurPageRangeCount( 0 ) { NSString* pStr = CreateNSString( i_rQueue.maPrinterName ); mpPrinter = [NSPrinter printerWithName: pStr]; [pStr release]; NSPrintInfo* pShared = [NSPrintInfo sharedPrintInfo]; if( pShared ) { mpPrintInfo = [pShared copy]; [mpPrintInfo setPrinter: mpPrinter]; #if MACOSX_SDK_VERSION >= 1090 mePageOrientation = ([mpPrintInfo orientation] == NSPaperOrientationPortrait) ? ORIENTATION_LANDSCAPE : ORIENTATION_PORTRAIT; [mpPrintInfo setOrientation: NSPaperOrientationPortrait]; #else mePageOrientation = ([mpPrintInfo orientation] == NSLandscapeOrientation) ? ORIENTATION_LANDSCAPE : ORIENTATION_PORTRAIT; [mpPrintInfo setOrientation: NSPortraitOrientation]; #endif } mpGraphics = new AquaSalGraphics(); const int nWidth = 100, nHeight = 100; maContextMemory.reset( reinterpret_cast( rtl_allocateMemory( nWidth * 4 * nHeight ) ), boost::bind( rtl_freeMemory, _1 ) ); if( maContextMemory ) { mrContext = CGBitmapContextCreate( maContextMemory.get(), nWidth, nHeight, 8, nWidth * 4, GetSalData()->mxRGBSpace, kCGImageAlphaNoneSkipFirst ); if( mrContext ) SetupPrinterGraphics( mrContext ); } } AquaSalInfoPrinter::~AquaSalInfoPrinter() { delete mpGraphics; if( mpPrintInfo ) [mpPrintInfo release]; if( mrContext ) CFRelease( mrContext ); } void AquaSalInfoPrinter::SetupPrinterGraphics( CGContextRef i_rContext ) const { if( mpGraphics ) { if( mpPrintInfo ) { // FIXME: get printer resolution long nDPIX = 720, nDPIY = 720; NSSize aPaperSize = [mpPrintInfo paperSize]; NSRect aImageRect = [mpPrintInfo imageablePageBounds]; if( mePageOrientation == ORIENTATION_PORTRAIT ) { // move mirrored CTM back into paper double dX = 0, dY = aPaperSize.height; // move CTM to reflect imageable area dX += aImageRect.origin.x; dY -= aPaperSize.height - aImageRect.size.height - aImageRect.origin.y; CGContextTranslateCTM( i_rContext, dX + mnStartPageOffsetX, dY - mnStartPageOffsetY ); // scale to be top/down and reflect our "virtual" DPI CGContextScaleCTM( i_rContext, 72.0/double(nDPIX), -(72.0/double(nDPIY)) ); } else { // move CTM to reflect imageable area double dX = aImageRect.origin.x, dY = aPaperSize.height - aImageRect.size.height - aImageRect.origin.y; CGContextTranslateCTM( i_rContext, -dX, -dY ); // turn by 90 degree CGContextRotateCTM( i_rContext, M_PI/2 ); // move turned CTM back into paper dX = aPaperSize.height; dY = -aPaperSize.width; CGContextTranslateCTM( i_rContext, dX + mnStartPageOffsetY, dY - mnStartPageOffsetX ); // scale to be top/down and reflect our "virtual" DPI CGContextScaleCTM( i_rContext, -(72.0/double(nDPIY)), (72.0/double(nDPIX)) ); } mpGraphics->SetPrinterGraphics( i_rContext, nDPIX, nDPIY ); } else OSL_FAIL( "no print info in SetupPrinterGraphics" ); } } SalGraphics* AquaSalInfoPrinter::AcquireGraphics() { SalGraphics* pGraphics = mbGraphics ? NULL : mpGraphics; mbGraphics = true; return pGraphics; } void AquaSalInfoPrinter::ReleaseGraphics( SalGraphics* ) { mbGraphics = false; } bool AquaSalInfoPrinter::Setup( SalFrame*, ImplJobSetup* ) { return false; } bool AquaSalInfoPrinter::SetPrinterData( ImplJobSetup* io_pSetupData ) { // FIXME: implement driver data if( io_pSetupData && io_pSetupData->mpDriverData ) return SetData( ~0, io_pSetupData ); bool bSuccess = true; // set system type io_pSetupData->mnSystem = JOBSETUP_SYSTEM_MAC; // get paper format if( mpPrintInfo ) { NSSize aPaperSize = [mpPrintInfo paperSize]; double width = aPaperSize.width, height = aPaperSize.height; // set paper PaperInfo aInfo( PtTo10Mu( width ), PtTo10Mu( height ) ); aInfo.doSloppyFit(); io_pSetupData->mePaperFormat = aInfo.getPaper(); if( io_pSetupData->mePaperFormat == PAPER_USER ) { io_pSetupData->mnPaperWidth = PtTo10Mu( width ); io_pSetupData->mnPaperHeight = PtTo10Mu( height ); } else { io_pSetupData->mnPaperWidth = 0; io_pSetupData->mnPaperHeight = 0; } // set orientation io_pSetupData->meOrientation = mePageOrientation; io_pSetupData->mnPaperBin = 0; io_pSetupData->mpDriverData = reinterpret_cast(rtl_allocateMemory( 4 )); io_pSetupData->mnDriverDataLen = 4; } else bSuccess = false; return bSuccess; } void AquaSalInfoPrinter::setPaperSize( long i_nWidth, long i_nHeight, Orientation i_eSetOrientation ) { Orientation ePaperOrientation = ORIENTATION_PORTRAIT; const PaperInfo* pPaper = matchPaper( i_nWidth, i_nHeight, ePaperOrientation ); if( pPaper ) { NSString* pPaperName = [CreateNSString( OStringToOUString(PaperInfo::toPSName(pPaper->getPaper()), RTL_TEXTENCODING_ASCII_US) ) autorelease]; [mpPrintInfo setPaperName: pPaperName]; } else if( i_nWidth > 0 && i_nHeight > 0 ) { NSSize aPaperSize = { static_cast(TenMuToPt(i_nWidth)), static_cast(TenMuToPt(i_nHeight)) }; [mpPrintInfo setPaperSize: aPaperSize]; } // this seems counterintuitive mePageOrientation = i_eSetOrientation; } bool AquaSalInfoPrinter::SetData( sal_uLong i_nFlags, ImplJobSetup* io_pSetupData ) { if( ! io_pSetupData || io_pSetupData->mnSystem != JOBSETUP_SYSTEM_MAC ) return false; if( mpPrintInfo ) { if( (i_nFlags & SAL_JOBSET_ORIENTATION) != 0 ) mePageOrientation = io_pSetupData->meOrientation; if( (i_nFlags & SAL_JOBSET_PAPERSIZE) != 0) { // set paper format long width = 21000, height = 29700; if( io_pSetupData->mePaperFormat == PAPER_USER ) { // #i101108# sanity check if( io_pSetupData->mnPaperWidth && io_pSetupData->mnPaperHeight ) { width = io_pSetupData->mnPaperWidth; height = io_pSetupData->mnPaperHeight; } } else { PaperInfo aInfo( io_pSetupData->mePaperFormat ); width = aInfo.getWidth(); height = aInfo.getHeight(); } setPaperSize( width, height, mePageOrientation ); } } return mpPrintInfo != nil; } sal_uLong AquaSalInfoPrinter::GetPaperBinCount( const ImplJobSetup* ) { return 0; } OUString AquaSalInfoPrinter::GetPaperBinName( const ImplJobSetup*, sal_uLong ) { return OUString(); } sal_uLong AquaSalInfoPrinter::GetCapabilities( const ImplJobSetup*, sal_uInt16 i_nType ) { switch( i_nType ) { case PRINTER_CAPABILITIES_SUPPORTDIALOG: return 0; case PRINTER_CAPABILITIES_COPIES: return 0xffff; case PRINTER_CAPABILITIES_COLLATECOPIES: return 0xffff; case PRINTER_CAPABILITIES_SETORIENTATION: return 1; case PRINTER_CAPABILITIES_SETDUPLEX: return 0; case PRINTER_CAPABILITIES_SETPAPERBIN: return 0; case PRINTER_CAPABILITIES_SETPAPERSIZE: return 1; case PRINTER_CAPABILITIES_SETPAPER: return 1; case PRINTER_CAPABILITIES_EXTERNALDIALOG: return officecfg::Office::Common::Misc::UseSystemPrintDialog::get() ? 1 : 0; case PRINTER_CAPABILITIES_PDF: return 1; case PRINTER_CAPABILITIES_USEPULLMODEL: return 1; default: break; } return 0; } void AquaSalInfoPrinter::GetPageInfo( const ImplJobSetup*, long& o_rOutWidth, long& o_rOutHeight, long& o_rPageOffX, long& o_rPageOffY, long& o_rPageWidth, long& o_rPageHeight ) { if( mpPrintInfo ) { sal_Int32 nDPIX = 72, nDPIY = 72; mpGraphics->GetResolution( nDPIX, nDPIY ); const double fXScaling = static_cast(nDPIX)/72.0, fYScaling = static_cast(nDPIY)/72.0; NSSize aPaperSize = [mpPrintInfo paperSize]; o_rPageWidth = static_cast( double(aPaperSize.width) * fXScaling ); o_rPageHeight = static_cast( double(aPaperSize.height) * fYScaling ); NSRect aImageRect = [mpPrintInfo imageablePageBounds]; o_rPageOffX = static_cast( aImageRect.origin.x * fXScaling ); o_rPageOffY = static_cast( (aPaperSize.height - aImageRect.size.height - aImageRect.origin.y) * fYScaling ); o_rOutWidth = static_cast( aImageRect.size.width * fXScaling ); o_rOutHeight = static_cast( aImageRect.size.height * fYScaling ); if( mePageOrientation == ORIENTATION_LANDSCAPE ) { std::swap( o_rOutWidth, o_rOutHeight ); std::swap( o_rPageWidth, o_rPageHeight ); std::swap( o_rPageOffX, o_rPageOffY ); } } } static Size getPageSize( vcl::PrinterController& i_rController, sal_Int32 i_nPage ) { Size aPageSize; uno::Sequence< PropertyValue > aPageParms( i_rController.getPageParameters( i_nPage ) ); for( sal_Int32 nProperty = 0, nPropertyCount = aPageParms.getLength(); nProperty < nPropertyCount; ++nProperty ) { if ( aPageParms[ nProperty ].Name == "PageSize" ) { awt::Size aSize; aPageParms[ nProperty].Value >>= aSize; aPageSize.Width() = aSize.Width; aPageSize.Height() = aSize.Height; break; } } return aPageSize; } bool AquaSalInfoPrinter::StartJob( const OUString* i_pFileName, const OUString& i_rJobName, const OUString& /*i_rAppName*/, ImplJobSetup* i_pSetupData, vcl::PrinterController& i_rController ) { if( mbJob ) return false; bool bSuccess = false; bool bWasAborted = false; AquaSalInstance* pInst = GetSalData()->mpFirstInstance; PrintAccessoryViewState aAccViewState; sal_Int32 nAllPages = 0; // reset IsLastPage i_rController.setLastPage( false ); // update job data if( i_pSetupData ) SetData( ~0, i_pSetupData ); // do we want a progress panel ? bool bShowProgressPanel = true; beans::PropertyValue* pMonitor = i_rController.getValue( OUString( "MonitorVisible" ) ); if( pMonitor ) pMonitor->Value >>= bShowProgressPanel; if( ! i_rController.isShowDialogs() ) bShowProgressPanel = false; // possibly create one job for collated output bool bSinglePrintJobs = false; beans::PropertyValue* pSingleValue = i_rController.getValue( OUString( "PrintCollateAsSingleJobs" ) ); if( pSingleValue ) { pSingleValue->Value >>= bSinglePrintJobs; } // FIXME: jobStarted() should be done after the print dialog has ended (if there is one) // how do I know when that might be ? i_rController.jobStarted(); int nCopies = i_rController.getPrinter()->GetCopyCount(); int nJobs = 1; if( bSinglePrintJobs ) { nJobs = nCopies; nCopies = 1; } for( int nCurJob = 0; nCurJob < nJobs; nCurJob++ ) { aAccViewState.bNeedRestart = true; do { if( aAccViewState.bNeedRestart ) { mnCurPageRangeStart = 0; mnCurPageRangeCount = 0; nAllPages = i_rController.getFilteredPageCount(); } aAccViewState.bNeedRestart = false; Size aCurSize( 21000, 29700 ); if( nAllPages > 0 ) { mnCurPageRangeCount = 1; aCurSize = getPageSize( i_rController, mnCurPageRangeStart ); Size aNextSize( aCurSize ); // print pages up to a different size while( mnCurPageRangeCount + mnCurPageRangeStart < nAllPages ) { aNextSize = getPageSize( i_rController, mnCurPageRangeStart + mnCurPageRangeCount ); if( aCurSize == aNextSize // same page size || (aCurSize.Width() == aNextSize.Height() && aCurSize.Height() == aNextSize.Width()) // same size, but different orientation ) { mnCurPageRangeCount++; } else break; } } else mnCurPageRangeCount = 0; // now for the current run mnStartPageOffsetX = mnStartPageOffsetY = 0; // setup the paper size and orientation // do this on our associated Printer object, since that is // out interface to the applications which occasionally rely on the paper // information (e.g. brochure printing scales to the found paper size) // also SetPaperSizeUser has the advantage that we can share a // platform independent paper matching algorithm boost::shared_ptr pPrinter( i_rController.getPrinter() ); pPrinter->SetMapMode( MapMode( MAP_100TH_MM ) ); pPrinter->SetPaperSizeUser( aCurSize, true ); // create view NSView* pPrintView = [[AquaPrintView alloc] initWithController: &i_rController withInfoPrinter: this]; NSMutableDictionary* pPrintDict = [mpPrintInfo dictionary]; // set filename if( i_pFileName ) { [mpPrintInfo setJobDisposition: NSPrintSaveJob]; NSString* pPath = CreateNSString( *i_pFileName ); #if MAC_OS_X_VERSION_MAX_ALLOWED < 1060 [pPrintDict setObject:[NSURL fileURLWithPath:pPath] forKey:NSPrintSavePath]; #else [pPrintDict setObject:[NSURL fileURLWithPath:pPath] forKey:NSPrintJobSavingURL]; #endif [pPath release]; } [pPrintDict setObject: [[NSNumber numberWithInt: nCopies] autorelease] forKey: NSPrintCopies]; if( nCopies > 1 ) [pPrintDict setObject: [[NSNumber numberWithBool: pPrinter->IsCollateCopy()] autorelease] forKey: NSPrintMustCollate]; [pPrintDict setObject: [[NSNumber numberWithBool: YES] autorelease] forKey: NSPrintDetailedErrorReporting]; [pPrintDict setObject: [[NSNumber numberWithInt: 1] autorelease] forKey: NSPrintFirstPage]; // #i103253# weird: for some reason, autoreleasing the value below like the others above // leads do a double free malloc error. Why this value should behave differently from all the others // is a mystery. [pPrintDict setObject: [NSNumber numberWithInt: mnCurPageRangeCount] forKey: NSPrintLastPage]; // create print operation NSPrintOperation* pPrintOperation = [NSPrintOperation printOperationWithView: pPrintView printInfo: mpPrintInfo]; if( pPrintOperation ) { NSObject* pReleaseAfterUse = nil; bool bShowPanel = !i_rController.isDirectPrint() && (officecfg::Office::Common::Misc::UseSystemPrintDialog:: get()) && i_rController.isShowDialogs(); [pPrintOperation setShowsPrintPanel: bShowPanel ? YES : NO ]; [pPrintOperation setShowsProgressPanel: bShowProgressPanel ? YES : NO]; // set job title (since MacOSX 10.5) if( [pPrintOperation respondsToSelector: @selector(setJobTitle:)] ) [pPrintOperation performSelector: @selector(setJobTitle:) withObject: [CreateNSString( i_rJobName ) autorelease]]; if( bShowPanel && mnCurPageRangeStart == 0 && nCurJob == 0) // only the first range of pages (in the first job) gets the accesory view pReleaseAfterUse = [AquaPrintAccessoryView setupPrinterPanel: pPrintOperation withController: &i_rController withState: &aAccViewState]; bSuccess = true; mbJob = true; pInst->startedPrintJob(); [pPrintOperation runOperation]; pInst->endedPrintJob(); bWasAborted = [[[pPrintOperation printInfo] jobDisposition] compare: NSPrintCancelJob] == NSOrderedSame; mbJob = false; if( pReleaseAfterUse ) [pReleaseAfterUse release]; } mnCurPageRangeStart += mnCurPageRangeCount; mnCurPageRangeCount = 1; } while( aAccViewState.bNeedRestart || mnCurPageRangeStart + mnCurPageRangeCount < nAllPages ); } // inform application that it can release its data // this is awkward, but the XRenderable interface has no method for this, // so we need to call XRenderadble::render one last time with IsLastPage = true i_rController.setLastPage( true ); GDIMetaFile aPageFile; if( mrContext ) SetupPrinterGraphics( mrContext ); i_rController.getFilteredPageFile( 0, aPageFile ); i_rController.setJobState( bWasAborted ? view::PrintableState_JOB_ABORTED : view::PrintableState_JOB_SPOOLED ); mnCurPageRangeStart = mnCurPageRangeCount = 0; return bSuccess; } bool AquaSalInfoPrinter::EndJob() { mnStartPageOffsetX = mnStartPageOffsetY = 0; mbJob = false; return true; } bool AquaSalInfoPrinter::AbortJob() { mbJob = false; // FIXME: implementation return false; } SalGraphics* AquaSalInfoPrinter::StartPage( ImplJobSetup* i_pSetupData, bool i_bNewJobData ) { if( i_bNewJobData && i_pSetupData ) SetPrinterData( i_pSetupData ); CGContextRef rContext = reinterpret_cast([[NSGraphicsContext currentContext] graphicsPort]); SetupPrinterGraphics( rContext ); return mpGraphics; } bool AquaSalInfoPrinter::EndPage() { mpGraphics->InvalidateContext(); return true; } sal_uLong AquaSalInfoPrinter::GetErrorCode() const { return 0; } AquaSalPrinter::AquaSalPrinter( AquaSalInfoPrinter* i_pInfoPrinter ) : mpInfoPrinter( i_pInfoPrinter ) { } AquaSalPrinter::~AquaSalPrinter() { } bool AquaSalPrinter::StartJob( const OUString* i_pFileName, const OUString& i_rJobName, const OUString& i_rAppName, ImplJobSetup* i_pSetupData, vcl::PrinterController& i_rController ) { return mpInfoPrinter->StartJob( i_pFileName, i_rJobName, i_rAppName, i_pSetupData, i_rController ); } bool AquaSalPrinter::StartJob( const OUString* /*i_pFileName*/, const OUString& /*i_rJobName*/, const OUString& /*i_rAppName*/, sal_uLong /*i_nCopies*/, bool /*i_bCollate*/, bool /*i_bDirect*/, ImplJobSetup* ) { OSL_FAIL( "should never be called" ); return false; } bool AquaSalPrinter::EndJob() { return mpInfoPrinter->EndJob(); } bool AquaSalPrinter::AbortJob() { return mpInfoPrinter->AbortJob(); } SalGraphics* AquaSalPrinter::StartPage( ImplJobSetup* i_pSetupData, bool i_bNewJobData ) { return mpInfoPrinter->StartPage( i_pSetupData, i_bNewJobData ); } bool AquaSalPrinter::EndPage() { return mpInfoPrinter->EndPage(); } sal_uLong AquaSalPrinter::GetErrorCode() { return mpInfoPrinter->GetErrorCode(); } void AquaSalInfoPrinter::InitPaperFormats( const ImplJobSetup* ) { m_aPaperFormats.clear(); m_bPapersInit = true; if( mpPrinter ) { if( [mpPrinter statusForTable: @"PPD"] == NSPrinterTableOK ) { NSArray* pPaperNames = [mpPrinter stringListForKey: @"PageSize" inTable: @"PPD"]; if( pPaperNames ) { unsigned int nPapers = [pPaperNames count]; for( unsigned int i = 0; i < nPapers; i++ ) { NSString* pPaper = [pPaperNames objectAtIndex: i]; // first try to match the name OString aPaperName( [pPaper UTF8String] ); Paper ePaper = PaperInfo::fromPSName( aPaperName ); if( ePaper != PAPER_USER ) { m_aPaperFormats.push_back( PaperInfo( ePaper ) ); } else { NSSize aPaperSize = [mpPrinter pageSizeForPaper: pPaper]; if( aPaperSize.width > 0 && aPaperSize.height > 0 ) { PaperInfo aInfo( PtTo10Mu( aPaperSize.width ), PtTo10Mu( aPaperSize.height ) ); if( aInfo.getPaper() == PAPER_USER ) aInfo.doSloppyFit(); m_aPaperFormats.push_back( aInfo ); } } } } } } } const PaperInfo* AquaSalInfoPrinter::matchPaper( long i_nWidth, long i_nHeight, Orientation& o_rOrientation ) const { if( ! m_bPapersInit ) const_cast(this)->InitPaperFormats( NULL ); const PaperInfo* pMatch = NULL; o_rOrientation = ORIENTATION_PORTRAIT; for( int n = 0; n < 2 ; n++ ) { for( size_t i = 0; i < m_aPaperFormats.size(); i++ ) { if( std::abs( m_aPaperFormats[i].getWidth() - i_nWidth ) < 50 && std::abs( m_aPaperFormats[i].getHeight() - i_nHeight ) < 50 ) { pMatch = &m_aPaperFormats[i]; return pMatch; } } o_rOrientation = ORIENTATION_LANDSCAPE; std::swap( i_nWidth, i_nHeight ); } return pMatch; } int AquaSalInfoPrinter::GetLandscapeAngle( const ImplJobSetup* ) { return 900; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */