/* -*- 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 "fastserializer.hxx" #include #include #include #include #include #include #if OSL_DEBUG_LEVEL > 0 #include #include #endif using ::comphelper::SequenceAsVector; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::RuntimeException; using ::com::sun::star::uno::Sequence; using ::com::sun::star::uno::toUnoSequence; using ::com::sun::star::xml::FastAttribute; using ::com::sun::star::xml::Attribute; using ::com::sun::star::xml::sax::SAXException; using ::com::sun::star::xml::sax::XFastAttributeList; using ::com::sun::star::io::XOutputStream; using ::com::sun::star::io::NotConnectedException; using ::com::sun::star::io::IOException; using ::com::sun::star::io::BufferSizeExceededException; #define HAS_NAMESPACE(x) ((x & 0xffff0000) != 0) #define NAMESPACE(x) (x >> 16) #define TOKEN(x) (x & 0xffff) namespace sax_fastparser { FastSaxSerializer::FastSaxSerializer( ) : mxOutputStream() , mxFastTokenHandler() , maMarkStack() , maClosingBracket((const sal_Int8 *)">", 1) , maSlashAndClosingBracket((const sal_Int8 *)"/>", 2) , maColon((const sal_Int8 *)":", 1) , maOpeningBracket((const sal_Int8 *)"<", 1) , maOpeningBracketAndSlash((const sal_Int8 *)"\n", 56); writeBytes(toUnoSequence(aXmlHeader)); } OUString FastSaxSerializer::escapeXml( const OUString& s ) { OUStringBuffer sBuf( s.getLength() ); const sal_Unicode* pStr = s.getStr(); sal_Int32 nLen = s.getLength(); for( sal_Int32 i = 0; i < nLen; ++i) { sal_Unicode c = pStr[ i ]; switch( c ) { case '<': sBuf.appendAscii( "<" ); break; case '>': sBuf.appendAscii( ">" ); break; case '&': sBuf.appendAscii( "&" ); break; case '\'': sBuf.appendAscii( "'" ); break; case '"': sBuf.appendAscii( """ ); break; case '\n': sBuf.appendAscii( " " ); break; case '\r': sBuf.appendAscii( " " ); break; default: sBuf.append( c ); break; } } return sBuf.makeStringAndClear(); } void FastSaxSerializer::write( const OUString& s ) { OString sOutput( OUStringToOString( s, RTL_TEXTENCODING_UTF8 ) ); writeBytes( Sequence< sal_Int8 >( reinterpret_cast< const sal_Int8*>( sOutput.getStr() ), sOutput.getLength() ) ); } void SAL_CALL FastSaxSerializer::endDocument( ) throw (SAXException, RuntimeException) { if (!mxOutputStream.is()) return; } void SAL_CALL FastSaxSerializer::writeId( ::sal_Int32 nElement ) { if( HAS_NAMESPACE( nElement ) ) { writeBytes(mxFastTokenHandler->getUTF8Identifier(NAMESPACE(nElement))); writeBytes(toUnoSequence(maColon)); writeBytes(mxFastTokenHandler->getUTF8Identifier(TOKEN(nElement))); } else writeBytes(mxFastTokenHandler->getUTF8Identifier(nElement)); } #ifdef DBG_UTIL OString SAL_CALL FastSaxSerializer::getId( ::sal_Int32 nElement ) { if (HAS_NAMESPACE(nElement)) { Sequence const ns( mxFastTokenHandler->getUTF8Identifier(NAMESPACE(nElement))); Sequence const name( mxFastTokenHandler->getUTF8Identifier(TOKEN(nElement))); return OString(reinterpret_cast(ns.getConstArray()), ns.getLength()) + OString(reinterpret_cast(maColon.getConstArray()), maColon.getLength()) + OString(reinterpret_cast(name.getConstArray()), name.getLength()); } else { Sequence const name( mxFastTokenHandler->getUTF8Identifier(nElement)); return OString(reinterpret_cast(name.getConstArray()), name.getLength()); } } #endif void SAL_CALL FastSaxSerializer::startFastElement( ::sal_Int32 Element, const Reference< XFastAttributeList >& Attribs ) throw (SAXException, RuntimeException) { if (!mxOutputStream.is()) return; if ( !maMarkStack.empty() ) maMarkStack.top()->setCurrentElement( Element ); #ifdef DBG_UTIL m_DebugStartedElements.push(Element); #endif writeBytes(toUnoSequence(maOpeningBracket)); writeId(Element); writeFastAttributeList(Attribs); writeBytes(toUnoSequence(maClosingBracket)); } void SAL_CALL FastSaxSerializer::endFastElement( ::sal_Int32 Element ) throw (SAXException, RuntimeException) { if (!mxOutputStream.is()) return; #ifdef DBG_UTIL assert(!m_DebugStartedElements.empty()); // Well-formedness constraint: Element Type Match assert(Element == m_DebugStartedElements.top()); m_DebugStartedElements.pop(); #endif writeBytes(toUnoSequence(maOpeningBracketAndSlash)); writeId(Element); writeBytes(toUnoSequence(maClosingBracket)); } void SAL_CALL FastSaxSerializer::singleFastElement( ::sal_Int32 Element, const Reference< XFastAttributeList >& Attribs ) throw (SAXException, RuntimeException) { if (!mxOutputStream.is()) return; if ( !maMarkStack.empty() ) maMarkStack.top()->setCurrentElement( Element ); writeBytes(toUnoSequence(maOpeningBracket)); writeId(Element); writeFastAttributeList(Attribs); writeBytes(toUnoSequence(maSlashAndClosingBracket)); } void SAL_CALL FastSaxSerializer::characters( const OUString& aChars ) throw (SAXException, RuntimeException) { if (!mxOutputStream.is()) return; write( aChars ); } void SAL_CALL FastSaxSerializer::setOutputStream( const ::com::sun::star::uno::Reference< ::com::sun::star::io::XOutputStream >& xOutputStream ) throw (::com::sun::star::uno::RuntimeException) { mxOutputStream = xOutputStream; assert(mxOutputStream.is()); // cannot do anything without that } void SAL_CALL FastSaxSerializer::setFastTokenHandler( const ::com::sun::star::uno::Reference< ::com::sun::star::xml::sax::XFastTokenHandler >& xFastTokenHandler ) throw (::com::sun::star::uno::RuntimeException) { mxFastTokenHandler = xFastTokenHandler; } void FastSaxSerializer::writeFastAttributeList( const Reference< XFastAttributeList >& Attribs ) { #ifdef DBG_UTIL ::std::set DebugAttributes; #endif Sequence< Attribute > aAttrSeq = Attribs->getUnknownAttributes(); const Attribute *pAttr = aAttrSeq.getConstArray(); sal_Int32 nAttrLength = aAttrSeq.getLength(); for (sal_Int32 i = 0; i < nAttrLength; i++) { writeBytes(toUnoSequence(maSpace)); OUString const& rAttrName(pAttr[i].Name); #ifdef DBG_UTIL // Well-formedness constraint: Unique Att Spec assert(DebugAttributes.find(rAttrName) == DebugAttributes.end()); DebugAttributes.insert(rAttrName); #endif write(rAttrName); writeBytes(toUnoSequence(maEqualSignAndQuote)); write(escapeXml(pAttr[i].Value)); writeBytes(toUnoSequence(maQuote)); } Sequence< FastAttribute > aFastAttrSeq = Attribs->getFastAttributes(); const FastAttribute *pFastAttr = aFastAttrSeq.getConstArray(); sal_Int32 nFastAttrLength = aFastAttrSeq.getLength(); for (sal_Int32 j = 0; j < nFastAttrLength; j++) { writeBytes(toUnoSequence(maSpace)); sal_Int32 nToken = pFastAttr[j].Token; writeId(nToken); #ifdef DBG_UTIL // Well-formedness constraint: Unique Att Spec OUString const name(OStringToOUString(getId(nToken), RTL_TEXTENCODING_UTF8)); assert(DebugAttributes.find(name) == DebugAttributes.end()); DebugAttributes.insert(name); #endif writeBytes(toUnoSequence(maEqualSignAndQuote)); write(escapeXml(Attribs->getValue(pFastAttr[j].Token))); writeBytes(toUnoSequence(maQuote)); } } void FastSaxSerializer::mark( const Int32Sequence& aOrder ) { if ( aOrder.hasElements() ) { boost::shared_ptr< ForMerge > pSort( new ForSort( aOrder ) ); maMarkStack.push( pSort ); } else { boost::shared_ptr< ForMerge > pMerge( new ForMerge( ) ); maMarkStack.push( pMerge ); } } void FastSaxSerializer::mergeTopMarks( sax_fastparser::MergeMarksEnum eMergeType ) { if ( maMarkStack.empty() ) return; if ( maMarkStack.size() == 1 && eMergeType != MERGE_MARKS_IGNORE) { mxOutputStream->writeBytes( maMarkStack.top()->getData() ); maMarkStack.pop(); return; } const Int8Sequence aMerge( maMarkStack.top()->getData() ); maMarkStack.pop(); switch ( eMergeType ) { case MERGE_MARKS_APPEND: maMarkStack.top()->append( aMerge ); break; case MERGE_MARKS_PREPEND: maMarkStack.top()->prepend( aMerge ); break; case MERGE_MARKS_POSTPONE: maMarkStack.top()->postpone( aMerge ); break; case MERGE_MARKS_IGNORE : break; } } void FastSaxSerializer::writeBytes( const Sequence< ::sal_Int8 >& aData ) throw ( NotConnectedException, BufferSizeExceededException, IOException, RuntimeException ) { if ( maMarkStack.empty() ) mxOutputStream->writeBytes( aData ); else maMarkStack.top()->append( aData ); } FastSaxSerializer::Int8Sequence& FastSaxSerializer::ForMerge::getData() { merge( maData, maPostponed, true ); maPostponed.realloc( 0 ); return maData; } #if OSL_DEBUG_LEVEL > 0 void FastSaxSerializer::ForMerge::print( ) { std::cerr << "Data: "; for ( sal_Int32 i=0, len=maData.getLength(); i < len; i++ ) { std::cerr << maData[i]; } std::cerr << "\nPostponed: "; for ( sal_Int32 i=0, len=maPostponed.getLength(); i < len; i++ ) { std::cerr << maPostponed[i]; } std::cerr << "\n"; } #endif void FastSaxSerializer::ForMerge::prepend( const Int8Sequence &rWhat ) { merge( maData, rWhat, false ); } void FastSaxSerializer::ForMerge::append( const Int8Sequence &rWhat ) { merge( maData, rWhat, true ); } void FastSaxSerializer::ForMerge::postpone( const Int8Sequence &rWhat ) { merge( maPostponed, rWhat, true ); } void FastSaxSerializer::ForMerge::merge( Int8Sequence &rTop, const Int8Sequence &rMerge, bool bAppend ) { sal_Int32 nMergeLen = rMerge.getLength(); if ( nMergeLen > 0 ) { sal_Int32 nTopLen = rTop.getLength(); rTop.realloc( nTopLen + nMergeLen ); if ( bAppend ) { // append the rMerge to the rTop memcpy( rTop.getArray() + nTopLen, rMerge.getConstArray(), nMergeLen ); } else { // prepend the rMerge to the rTop memmove( rTop.getArray() + nMergeLen, rTop.getConstArray(), nTopLen ); memcpy( rTop.getArray(), rMerge.getConstArray(), nMergeLen ); } } } void FastSaxSerializer::ForMerge::resetData( ) { maData = Int8Sequence(); } void FastSaxSerializer::ForSort::setCurrentElement( sal_Int32 nElement ) { SequenceAsVector< sal_Int32 > aOrder( maOrder ); if( std::find( aOrder.begin(), aOrder.end(), nElement ) != aOrder.end() ) { mnCurrentElement = nElement; if ( maData.find( nElement ) == maData.end() ) maData[ nElement ] = Int8Sequence(); } } void FastSaxSerializer::ForSort::prepend( const Int8Sequence &rWhat ) { append( rWhat ); } void FastSaxSerializer::ForSort::append( const Int8Sequence &rWhat ) { merge( maData[mnCurrentElement], rWhat, true ); } void FastSaxSerializer::ForSort::sort() { // Clear the ForMerge data to avoid duplicate items resetData(); // Sort it all std::map< sal_Int32, Int8Sequence >::iterator iter; for ( sal_Int32 i=0, len=maOrder.getLength(); i < len; i++ ) { iter = maData.find( maOrder[i] ); if ( iter != maData.end() ) ForMerge::append( iter->second ); } } FastSaxSerializer::Int8Sequence& FastSaxSerializer::ForSort::getData() { sort( ); return ForMerge::getData(); } #if OSL_DEBUG_LEVEL > 0 void FastSaxSerializer::ForSort::print( ) { std::map< sal_Int32, Int8Sequence >::iterator iter = maData.begin(); while ( iter != maData.end( ) ) { std::cerr << "pair: " << iter->first; for ( sal_Int32 i=0, len=iter->second.getLength(); i < len; ++i ) std::cerr << iter->second[i]; std::cerr << "\n"; ++iter; } sort( ); ForMerge::print(); } #endif } // namespace sax_fastparser /* vim:set shiftwidth=4 softtabstop=4 expandtab: */