/* -*- 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 "sal/config.h" #include /* std::iterator*/ #include #include #include #include "helper.hxx" #include "common.hxx" #include "xmlparse.hxx" #include #include #include #include #include #include #include using namespace U_ICU_NAMESPACE; using namespace std; using namespace osl; #define XML_LANG "xml-lang" #define ID "id" #define OLDREF "oldref" // class XMLChildNode XMLChildNode::XMLChildNode( XMLParentNode *pPar ) : m_pParent( pPar ) { if ( m_pParent ) m_pParent->AddChild( this ); } XMLChildNode::XMLChildNode( const XMLChildNode& rObj) : XMLNode(rObj), m_pParent(rObj.m_pParent) { } XMLChildNode& XMLChildNode::operator=(const XMLChildNode& rObj) { if(this != &rObj) { m_pParent=rObj.m_pParent; } return *this; } // class XMLParentNode XMLParentNode::~XMLParentNode() { if( m_pChildList ) { RemoveAndDeleteAllChildren(); delete m_pChildList; } m_pChildList = NULL; } XMLParentNode::XMLParentNode( const XMLParentNode& rObj) : XMLChildNode( rObj ) { if( rObj.m_pChildList ) { m_pChildList=new XMLChildNodeList(); for ( size_t i = 0; i < rObj.m_pChildList->size(); i++ ) { XMLChildNode* pNode = (*rObj.m_pChildList)[ i ]; if( pNode != NULL) { switch(pNode->GetNodeType()) { case XML_NODE_TYPE_ELEMENT: AddChild( new XMLElement( *static_cast(pNode) ) ); break; case XML_NODE_TYPE_DATA: AddChild( new XMLData ( *static_cast (pNode) ) ); break; case XML_NODE_TYPE_COMMENT: AddChild( new XMLComment( *static_cast(pNode) ) ); break; case XML_NODE_TYPE_DEFAULT: AddChild( new XMLDefault( *static_cast(pNode) ) ); break; default: fprintf(stdout,"XMLParentNode::XMLParentNode( const XMLParentNode& rObj) strange obj"); } } } } else m_pChildList = NULL; } XMLParentNode& XMLParentNode::operator=(const XMLParentNode& rObj) { if(this!=&rObj) { XMLChildNode::operator=(rObj); if( m_pChildList ) { RemoveAndDeleteAllChildren(); delete m_pChildList; m_pChildList = NULL; } if( rObj.m_pChildList ) { m_pChildList=new XMLChildNodeList(); for ( size_t i = 0; i < rObj.m_pChildList->size(); i++ ) AddChild( (*rObj.m_pChildList)[ i ] ); } else m_pChildList = NULL; } return *this; } void XMLParentNode::AddChild( XMLChildNode *pChild ) { if ( !m_pChildList ) m_pChildList = new XMLChildNodeList(); m_pChildList->push_back( pChild ); } void XMLParentNode::RemoveAndDeleteAllChildren() { if ( m_pChildList ) { for ( size_t i = 0; i < m_pChildList->size(); i++ ) delete (*m_pChildList)[ i ]; m_pChildList->clear(); } } // class XMLFile void XMLFile::Write( OString const &aFilename ) { std::ofstream s( aFilename.getStr(), std::ios_base::out | std::ios_base::trunc); if (!s.is_open()) { std::cerr << "Error: helpex cannot create file " << aFilename.getStr() << '\n'; std::exit(EXIT_FAILURE); } Write(s); s.close(); } bool XMLFile::Write( ofstream &rStream , XMLNode *pCur ) { if ( !pCur ) Write( rStream, this ); else { switch( pCur->GetNodeType()) { case XML_NODE_TYPE_FILE: { if( GetChildList()) for ( size_t i = 0; i < GetChildList()->size(); i++ ) Write( rStream, (*GetChildList())[ i ] ); } break; case XML_NODE_TYPE_ELEMENT: { XMLElement *pElement = static_cast(pCur); rStream << "<"; rStream << pElement->GetName().getStr(); if ( pElement->GetAttributeList()) for ( size_t j = 0; j < pElement->GetAttributeList()->size(); j++ ) { rStream << " "; OString sData( (*pElement->GetAttributeList())[ j ]->GetName() ); rStream << XMLUtil::QuotHTML( sData ).getStr(); rStream << "=\""; sData = (*pElement->GetAttributeList())[ j ]->GetValue(); rStream << XMLUtil::QuotHTML( sData ).getStr(); rStream << "\""; } if ( !pElement->GetChildList()) rStream << "/>"; else { rStream << ">"; for ( size_t k = 0; k < pElement->GetChildList()->size(); k++ ) Write( rStream, (*pElement->GetChildList())[ k ] ); rStream << "GetName().getStr(); rStream << ">"; } } break; case XML_NODE_TYPE_DATA: { OString sData( static_cast(pCur)->GetData()); rStream << XMLUtil::QuotHTML( sData ).getStr(); } break; case XML_NODE_TYPE_COMMENT: { const XMLComment *pComment = static_cast(pCur); rStream << ""; } break; case XML_NODE_TYPE_DEFAULT: { const XMLDefault *pDefault = static_cast(pCur); rStream << pDefault->GetDefault().getStr(); } break; } } return true; } void XMLFile::Print( XMLNode *pCur, sal_uInt16 nLevel ) { if ( !pCur ) Print( this ); else { switch( pCur->GetNodeType()) { case XML_NODE_TYPE_FILE: { if( GetChildList()) for ( size_t i = 0; i < GetChildList()->size(); i++ ) Print( (*GetChildList())[ i ] ); } break; case XML_NODE_TYPE_ELEMENT: { XMLElement *pElement = static_cast(pCur); fprintf( stdout, "<%s", pElement->GetName().getStr()); if ( pElement->GetAttributeList()) { for (size_t j = 0; j < pElement->GetAttributeList()->size(); ++j) { const OString aAttrName((*pElement->GetAttributeList())[j]->GetName()); if (!aAttrName.equalsIgnoreAsciiCase(XML_LANG)) { fprintf( stdout, " %s=\"%s\"", aAttrName.getStr(), (*pElement->GetAttributeList())[ j ]->GetValue().getStr()); } } } if ( !pElement->GetChildList()) fprintf( stdout, "/>" ); else { fprintf( stdout, ">" ); for ( size_t k = 0; k < pElement->GetChildList()->size(); k++ ) Print( (*pElement->GetChildList())[ k ], nLevel + 1 ); fprintf( stdout, "", pElement->GetName().getStr()); } } break; case XML_NODE_TYPE_DATA: { const XMLData *pData = static_cast(pCur); fprintf( stdout, "%s", pData->GetData().getStr()); } break; case XML_NODE_TYPE_COMMENT: { const XMLComment *pComment = static_cast(pCur); fprintf( stdout, "", pComment->GetComment().getStr()); } break; case XML_NODE_TYPE_DEFAULT: { const XMLDefault *pDefault = static_cast(pCur); fprintf( stdout, "%s", pDefault->GetDefault().getStr()); } break; } } } XMLFile::~XMLFile() { if( m_pXMLStrings != NULL ) { XMLHashMap::iterator pos = m_pXMLStrings->begin(); for( ; pos != m_pXMLStrings->end() ; ++pos ) { delete pos->second; // Check and delete content also ? } delete m_pXMLStrings; m_pXMLStrings = NULL; } } XMLFile::XMLFile( const OString &rFileName ) // the file name, empty if created from memory stream : XMLParentNode( NULL ) , m_sFileName( rFileName ) , m_pXMLStrings( NULL ) { m_aNodes_localize.insert( TagMap::value_type(OString("bookmark") , sal_True) ); m_aNodes_localize.insert( TagMap::value_type(OString("variable") , sal_True) ); m_aNodes_localize.insert( TagMap::value_type(OString("paragraph") , sal_True) ); m_aNodes_localize.insert( TagMap::value_type(OString("alt") , sal_True) ); m_aNodes_localize.insert( TagMap::value_type(OString("caption") , sal_True) ); m_aNodes_localize.insert( TagMap::value_type(OString("title") , sal_True) ); m_aNodes_localize.insert( TagMap::value_type(OString("link") , sal_True) ); } void XMLFile::Extract( XMLFile *pCur ) { if( m_pXMLStrings ) delete m_pXMLStrings; // Elements ? m_pXMLStrings = new XMLHashMap(); if ( !pCur ) SearchL10NElements( this ); else { if( pCur->GetNodeType() == XML_NODE_TYPE_FILE ) { SearchL10NElements(pCur); } } } void XMLFile::InsertL10NElement( XMLElement* pElement ) { OString sId, sLanguage(""); LangHashMap* pElem; if( pElement->GetAttributeList() != NULL ) { for ( size_t j = 0; j < pElement->GetAttributeList()->size(); j++ ) { const OString sTempStr((*pElement->GetAttributeList())[ j ]->GetName()); // Get the "id" Attribute if (sTempStr == ID) { sId = (*pElement->GetAttributeList())[ j ]->GetValue(); } // Get the "xml-lang" Attribute if (sTempStr == XML_LANG) { sLanguage = (*pElement->GetAttributeList())[j]->GetValue(); } } } else { fprintf(stdout,"XMLFile::InsertL10NElement: No AttributeList found"); fprintf(stdout,"++++++++++++++++++++++++++++++++++++++++++++++++++"); Print( pElement , 0 ); fprintf(stdout,"++++++++++++++++++++++++++++++++++++++++++++++++++"); } XMLHashMap::iterator pos = m_pXMLStrings->find( sId ); if( pos == m_pXMLStrings->end() ) // No instanze , create new one { pElem = new LangHashMap(); (*pElem)[ sLanguage ]=pElement; m_pXMLStrings->insert( XMLHashMap::value_type( sId , pElem ) ); m_vOrder.push_back( sId ); } else // Already there { pElem=pos->second; if ( (*pElem)[ sLanguage ] ) { fprintf(stdout,"Error: Duplicated entry. ID = %s LANG = %s in File %s\n", sId.getStr(), sLanguage.getStr(), m_sFileName.getStr() ); exit( -1 ); } (*pElem)[ sLanguage ]=pElement; } } XMLFile::XMLFile( const XMLFile& rObj ) : XMLParentNode( rObj ) , m_sFileName( rObj.m_sFileName ) , m_pXMLStrings( 0 ) { if( this != &rObj ) { m_aNodes_localize = rObj.m_aNodes_localize; m_vOrder = rObj.m_vOrder; } } XMLFile& XMLFile::operator=(const XMLFile& rObj) { if( this != &rObj ) { XMLParentNode::operator=(rObj); m_aNodes_localize = rObj.m_aNodes_localize; m_vOrder = rObj.m_vOrder; if( m_pXMLStrings ) delete m_pXMLStrings; if( rObj.m_pXMLStrings ) { m_pXMLStrings = new XMLHashMap(); for( XMLHashMap::iterator pos = rObj.m_pXMLStrings->begin() ; pos != rObj.m_pXMLStrings->end() ; ++pos ) { LangHashMap* pElem=pos->second; LangHashMap* pNewelem = new LangHashMap(); for(LangHashMap::iterator pos2=pElem->begin(); pos2!=pElem->end();++pos2) { (*pNewelem)[ pos2->first ] = new XMLElement( *pos2->second ); } (*m_pXMLStrings)[ pos->first ] = pNewelem; } } } return *this; } void XMLFile::SearchL10NElements( XMLChildNode *pCur, int nPos ) { bool bInsert = true; if ( !pCur ) SearchL10NElements( this ); else { switch( pCur->GetNodeType()) { case XML_NODE_TYPE_FILE: { XMLChildNode* pElement; if( GetChildList()) { for ( size_t i = 0; i < GetChildList()->size(); i++ ) { pElement = (*GetChildList())[ i ]; if( pElement->GetNodeType() == XML_NODE_TYPE_ELEMENT ) SearchL10NElements( pElement , i); } } } break; case XML_NODE_TYPE_ELEMENT: { XMLElement *pElement = static_cast(pCur); const OString sName(pElement->GetName().toAsciiLowerCase()); OString sLanguage, sTmpStrVal, sOldref; if ( pElement->GetAttributeList()) { for ( size_t j = 0 , cnt = pElement->GetAttributeList()->size(); j < cnt && bInsert; ++j ) { const OString sTmpStr = (*pElement->GetAttributeList())[j]->GetName(); if (sTmpStr == ID) { sTmpStrVal=(*pElement->GetAttributeList())[ j ]->GetValue(); } if (sTmpStr == "localize") { bInsert=false; } if (sTmpStr == XML_LANG) // Get the "xml-lang" Attribute { sLanguage=(*pElement->GetAttributeList())[ j ]->GetValue(); } if (sTmpStr == OLDREF) // Get the "oldref" Attribute { sOldref=(*pElement->GetAttributeList())[ j ]->GetValue(); } } pElement->SetLanguageId( sLanguage ); pElement->SetId( sTmpStrVal ); pElement->SetOldRef( sOldref ); pElement->SetPos( nPos ); } if ( bInsert && ( m_aNodes_localize.find( sName ) != m_aNodes_localize.end() ) ) InsertL10NElement(pElement); else if ( bInsert && pElement->GetChildList() ) { for ( size_t k = 0; k < pElement->GetChildList()->size(); k++ ) SearchL10NElements( (*pElement->GetChildList())[ k ], k); } } break; case XML_NODE_TYPE_DATA: break; case XML_NODE_TYPE_COMMENT: break; case XML_NODE_TYPE_DEFAULT: break; } } } bool XMLFile::CheckExportStatus( XMLParentNode *pCur ) { static bool bStatusExport = true; bool bInsert = true; if ( !pCur ) CheckExportStatus( this ); else { switch( pCur->GetNodeType()) { case XML_NODE_TYPE_FILE: { if( GetChildList()) { for ( size_t i = 0; i < GetChildList()->size(); i++ ) { XMLParentNode* pElement = static_cast((*GetChildList())[ i ]); if( pElement->GetNodeType() == XML_NODE_TYPE_ELEMENT ) CheckExportStatus( pElement );//, i); } } } break; case XML_NODE_TYPE_ELEMENT: { XMLElement *pElement = static_cast(pCur); if (pElement->GetName().equalsIgnoreAsciiCase("TOPIC")) { if ( pElement->GetAttributeList()) { for (size_t j = 0 , cnt = pElement->GetAttributeList()->size(); j < cnt && bInsert; ++j) { const OString tmpStr((*pElement->GetAttributeList())[j]->GetName()); if (tmpStr.equalsIgnoreAsciiCase("STATUS")) { const OString tmpStrVal((*pElement->GetAttributeList())[j]->GetValue()); if (!tmpStrVal.equalsIgnoreAsciiCase("PUBLISH") && !tmpStrVal.equalsIgnoreAsciiCase("DEPRECATED")) { bStatusExport = false; } } } } } else if ( pElement->GetChildList() ) { for (size_t k = 0; k < pElement->GetChildList()->size(); ++k) CheckExportStatus( static_cast((*pElement->GetChildList())[k]) ); } } break; } } return bStatusExport; } XMLElement::XMLElement( const OString &rName, // the element name XMLParentNode *pParent // parent node of this element ) : XMLParentNode( pParent ) , m_sElementName( rName ) , m_pAttributes( NULL ) , m_sProject(OString()) , m_sFilename(OString()) , m_sId(OString()) , m_sOldRef(OString()) , m_sResourceType(OString()) , m_sLanguageId(OString()) , m_nPos(0) { } XMLElement::XMLElement(const XMLElement& rObj) : XMLParentNode( rObj ) , m_sElementName( rObj.m_sElementName ) , m_pAttributes( 0 ) , m_sProject( rObj.m_sProject ) , m_sFilename( rObj.m_sFilename ) , m_sId( rObj.m_sId ) , m_sOldRef( rObj.m_sOldRef ) , m_sResourceType( rObj.m_sResourceType ) , m_sLanguageId( rObj.m_sLanguageId ) , m_nPos( rObj.m_nPos ) { if ( rObj.m_pAttributes ) { m_pAttributes = new XMLAttributeList(); for ( size_t i = 0; i < rObj.m_pAttributes->size(); i++ ) AddAttribute( (*rObj.m_pAttributes)[ i ]->GetName(), (*rObj.m_pAttributes)[ i ]->GetValue() ); } } XMLElement& XMLElement::operator=(const XMLElement& rObj) { if( this !=& rObj ) { XMLParentNode::operator=(rObj); m_sElementName = rObj.m_sElementName; m_sProject = rObj.m_sProject; m_sFilename = rObj.m_sFilename; m_sId = rObj.m_sId; m_sOldRef = rObj.m_sOldRef; m_sResourceType = rObj.m_sResourceType; m_sLanguageId = rObj.m_sLanguageId; m_nPos = rObj.m_nPos; if ( m_pAttributes ) { for ( size_t i = 0; i < m_pAttributes->size(); i++ ) delete (*m_pAttributes)[ i ]; delete m_pAttributes; } if ( rObj.m_pAttributes ) { m_pAttributes = new XMLAttributeList(); for ( size_t i = 0; i < rObj.m_pAttributes->size(); i++ ) AddAttribute( (*rObj.m_pAttributes)[ i ]->GetName(), (*rObj.m_pAttributes)[ i ]->GetValue() ); } } return *this; } void XMLElement::AddAttribute( const OString &rAttribute, const OString &rValue ) { if ( !m_pAttributes ) m_pAttributes = new XMLAttributeList(); m_pAttributes->push_back( new XMLAttribute( rAttribute, rValue ) ); } void XMLElement::ChangeLanguageTag( const OString &rValue ) { SetLanguageId(rValue); if ( m_pAttributes ) { for (size_t i = 0; i < m_pAttributes->size(); ++i) { if ( (*m_pAttributes)[ i ]->GetName() == "xml-lang" ) (*m_pAttributes)[ i ]->setValue(rValue); } } XMLChildNodeList* pCList = GetChildList(); if( pCList ) { for ( size_t i = 0; i < pCList->size(); i++ ) { XMLChildNode* pNode = (*pCList)[ i ]; if( pNode && pNode->GetNodeType() == XML_NODE_TYPE_ELEMENT ) { XMLElement* pElem = static_cast< XMLElement* >(pNode); pElem->ChangeLanguageTag( rValue ); pElem->SetLanguageId(rValue); pElem = NULL; pNode = NULL; } } pCList = NULL; } } XMLElement::~XMLElement() { if ( m_pAttributes ) { for ( size_t i = 0; i < m_pAttributes->size(); i++ ) delete (*m_pAttributes)[ i ]; delete m_pAttributes; m_pAttributes = NULL; } } OString XMLElement::ToOString() { OStringBuffer sBuffer; Print(this,sBuffer,true); return sBuffer.makeStringAndClear(); } void XMLElement::Print(XMLNode *pCur, OStringBuffer& rBuffer, bool bRootelement ) const { if( pCur ) { if( bRootelement ) { XMLElement *pElement = static_cast(pCur); if ( pElement->GetAttributeList()) { if ( pElement->GetChildList()) { for ( size_t k = 0; k < pElement->GetChildList()->size(); k++ ) { XMLChildNode* pTmp = (*pElement->GetChildList())[ k ]; Print( pTmp, rBuffer , false); } } } } else { switch( pCur->GetNodeType()) { case XML_NODE_TYPE_ELEMENT: { XMLElement *pElement = static_cast(pCur); if( !pElement->GetName().equalsIgnoreAsciiCase("comment") ) { rBuffer.append( "<" ); rBuffer.append( pElement->GetName() ); if ( pElement->GetAttributeList()) { for ( size_t j = 0; j < pElement->GetAttributeList()->size(); j++ ) { const OString aAttrName( (*pElement->GetAttributeList())[ j ]->GetName() ); if( !aAttrName.equalsIgnoreAsciiCase( "xml-lang" ) ) { rBuffer.append( " " + aAttrName + "=\"" + (*pElement->GetAttributeList())[ j ]->GetValue() + "\"" ); } } } if ( !pElement->GetChildList()) rBuffer.append( "/>" ); else { rBuffer.append( ">" ); for ( size_t k = 0; k < pElement->GetChildList()->size(); k++ ) { XMLChildNode* pTmp = (*pElement->GetChildList())[ k ]; Print( pTmp, rBuffer , false); } rBuffer.append( "GetName() + ">" ); } } } break; case XML_NODE_TYPE_DATA: { const XMLData *pData = static_cast(pCur); rBuffer.append( pData->GetData() ); } break; case XML_NODE_TYPE_COMMENT: { const XMLComment *pComment = static_cast(pCur); rBuffer.append( "" ); } break; case XML_NODE_TYPE_DEFAULT: { const XMLDefault *pDefault = static_cast(pCur); rBuffer.append( pDefault->GetDefault() ); } break; } } } else { fprintf(stdout,"\n#+------Error: NULL Pointer in XMLELement::Print------+#\n"); return; } } // class SimpleXMLParser namespace { static OUString lcl_pathnameToAbsoluteUrl(const OString& rPathname) { OUString sPath = OStringToOUString(rPathname, RTL_TEXTENCODING_UTF8 ); OUString sUrl; if (osl::FileBase::getFileURLFromSystemPath(sPath, sUrl) != osl::FileBase::E_None) { std::cerr << "Error: Cannot convert input pathname to URL\n"; std::exit(EXIT_FAILURE); } OUString sCwd; if (osl_getProcessWorkingDir(&sCwd.pData) != osl_Process_E_None) { std::cerr << "Error: Cannot determine cwd\n"; std::exit(EXIT_FAILURE); } if (osl::FileBase::getAbsoluteFileURL(sCwd, sUrl, sUrl) != osl::FileBase::E_None) { std::cerr << "Error: Cannot convert input URL to absolute URL\n"; std::exit(EXIT_FAILURE); } return sUrl; } } SimpleXMLParser::SimpleXMLParser() : m_pXMLFile(NULL) , m_pCurNode(NULL) , m_pCurData(NULL) { m_aParser = XML_ParserCreate( NULL ); XML_SetUserData( m_aParser, this ); XML_SetElementHandler( m_aParser, (XML_StartElementHandler) StartElementHandler, (XML_EndElementHandler) EndElementHandler ); XML_SetCharacterDataHandler( m_aParser, (XML_CharacterDataHandler) CharacterDataHandler ); XML_SetCommentHandler( m_aParser, (XML_CommentHandler) CommentHandler ); XML_SetDefaultHandler( m_aParser, (XML_DefaultHandler) DefaultHandler ); } SimpleXMLParser::~SimpleXMLParser() { XML_ParserFree( m_aParser ); } void SimpleXMLParser::StartElementHandler( void *userData, const XML_Char *name, const XML_Char **atts ) { static_cast(userData)->StartElement( name, atts ); } void SimpleXMLParser::EndElementHandler( void *userData, const XML_Char *name ) { static_cast(userData)->EndElement( name ); } void SimpleXMLParser::CharacterDataHandler( void *userData, const XML_Char *s, int len ) { static_cast(userData)->CharacterData( s, len ); } void SimpleXMLParser::CommentHandler( void *userData, const XML_Char *data ) { static_cast(userData)->Comment( data ); } void SimpleXMLParser::DefaultHandler( void *userData, const XML_Char *s, int len ) { static_cast(userData)->Default( s, len ); } void SimpleXMLParser::StartElement( const XML_Char *name, const XML_Char **atts ) { XMLElement *pElement = new XMLElement( OString(name), ( XMLParentNode * ) m_pCurNode ); m_pCurNode = pElement; m_pCurData = NULL; int i = 0; while( atts[i] ) { pElement->AddAttribute( atts[ i ], atts[ i + 1 ] ); i += 2; } } void SimpleXMLParser::EndElement( const XML_Char * /*name*/ ) { m_pCurNode = m_pCurNode->GetParent(); m_pCurData = NULL; } void SimpleXMLParser::CharacterData( const XML_Char *s, int len ) { if ( !m_pCurData ) { OString x( s, len ); m_pCurData = new XMLData( helper::UnQuotHTML(x) , m_pCurNode ); } else { OString x( s, len ); m_pCurData->AddData( helper::UnQuotHTML(x) ); } } void SimpleXMLParser::Comment( const XML_Char *data ) { m_pCurData = NULL; new XMLComment( OString( data ), m_pCurNode ); } void SimpleXMLParser::Default( const XML_Char *s, int len ) { m_pCurData = NULL; new XMLDefault(OString( s, len ), m_pCurNode ); } XMLFile *SimpleXMLParser::Execute( const OString &rFileName, XMLFile* pXMLFileIn ) { m_aErrorInformation.m_eCode = XML_ERROR_NONE; m_aErrorInformation.m_nLine = 0; m_aErrorInformation.m_nColumn = 0; m_aErrorInformation.m_sMessage = "ERROR: Unable to open file "; m_aErrorInformation.m_sMessage += rFileName; OUString aFileURL(lcl_pathnameToAbsoluteUrl(rFileName)); oslFileHandle h; if (osl_openFile(aFileURL.pData, &h, osl_File_OpenFlag_Read) != osl_File_E_None) { return 0; } sal_uInt64 s; oslFileError e = osl_getFileSize(h, &s); void * p = NULL; if (e == osl_File_E_None) { e = osl_mapFile(h, &p, s, 0, 0); } if (e != osl_File_E_None) { osl_closeFile(h); return 0; } m_pXMLFile = pXMLFileIn; m_pXMLFile->SetName( rFileName ); m_pCurNode = m_pXMLFile; m_pCurData = NULL; m_aErrorInformation.m_eCode = XML_ERROR_NONE; m_aErrorInformation.m_nLine = 0; m_aErrorInformation.m_nColumn = 0; if ( !m_pXMLFile->GetName().isEmpty()) { m_aErrorInformation.m_sMessage = "File " + m_pXMLFile->GetName() + " parsed successfully"; } else m_aErrorInformation.m_sMessage = "XML-File parsed successfully"; if (!XML_Parse(m_aParser, static_cast< char * >(p), s, true)) { m_aErrorInformation.m_eCode = XML_GetErrorCode( m_aParser ); m_aErrorInformation.m_nLine = XML_GetErrorLineNumber( m_aParser ); m_aErrorInformation.m_nColumn = XML_GetErrorColumnNumber( m_aParser ); m_aErrorInformation.m_sMessage = "ERROR: "; if ( !m_pXMLFile->GetName().isEmpty()) m_aErrorInformation.m_sMessage += m_pXMLFile->GetName(); else m_aErrorInformation.m_sMessage += OString( "XML-File ("); m_aErrorInformation.m_sMessage += OString::number(sal::static_int_cast< sal_Int64 >(m_aErrorInformation.m_nLine)) + "," + OString::number(sal::static_int_cast< sal_Int64 >(m_aErrorInformation.m_nColumn)) + "): "; switch (m_aErrorInformation.m_eCode) { case XML_ERROR_NO_MEMORY: m_aErrorInformation.m_sMessage += "No memory"; break; case XML_ERROR_SYNTAX: m_aErrorInformation.m_sMessage += "Syntax"; break; case XML_ERROR_NO_ELEMENTS: m_aErrorInformation.m_sMessage += "No elements"; break; case XML_ERROR_INVALID_TOKEN: m_aErrorInformation.m_sMessage += "Invalid token"; break; case XML_ERROR_UNCLOSED_TOKEN: m_aErrorInformation.m_sMessage += "Unclosed token"; break; case XML_ERROR_PARTIAL_CHAR: m_aErrorInformation.m_sMessage += "Partial char"; break; case XML_ERROR_TAG_MISMATCH: m_aErrorInformation.m_sMessage += "Tag mismatch"; break; case XML_ERROR_DUPLICATE_ATTRIBUTE: m_aErrorInformation.m_sMessage += "Dublicat attribute"; break; case XML_ERROR_JUNK_AFTER_DOC_ELEMENT: m_aErrorInformation.m_sMessage += "Junk after doc element"; break; case XML_ERROR_PARAM_ENTITY_REF: m_aErrorInformation.m_sMessage += "Param entity ref"; break; case XML_ERROR_UNDEFINED_ENTITY: m_aErrorInformation.m_sMessage += "Undefined entity"; break; case XML_ERROR_RECURSIVE_ENTITY_REF: m_aErrorInformation.m_sMessage += "Recursive entity ref"; break; case XML_ERROR_ASYNC_ENTITY: m_aErrorInformation.m_sMessage += "Async_entity"; break; case XML_ERROR_BAD_CHAR_REF: m_aErrorInformation.m_sMessage += "Bad char ref"; break; case XML_ERROR_BINARY_ENTITY_REF: m_aErrorInformation.m_sMessage += "Binary entity"; break; case XML_ERROR_ATTRIBUTE_EXTERNAL_ENTITY_REF: m_aErrorInformation.m_sMessage += "Attribute external entity ref"; break; case XML_ERROR_MISPLACED_XML_PI: m_aErrorInformation.m_sMessage += "Misplaced xml pi"; break; case XML_ERROR_UNKNOWN_ENCODING: m_aErrorInformation.m_sMessage += "Unknown encoding"; break; case XML_ERROR_INCORRECT_ENCODING: m_aErrorInformation.m_sMessage += "Incorrect encoding"; break; case XML_ERROR_UNCLOSED_CDATA_SECTION: m_aErrorInformation.m_sMessage += "Unclosed cdata section"; break; case XML_ERROR_EXTERNAL_ENTITY_HANDLING: m_aErrorInformation.m_sMessage += "External entity handling"; break; case XML_ERROR_NOT_STANDALONE: m_aErrorInformation.m_sMessage += "Not standalone"; break; case XML_ERROR_NONE: break; default: break; } delete m_pXMLFile; m_pXMLFile = NULL; } osl_unmapMappedFile(h, p, s); osl_closeFile(h); return m_pXMLFile; } namespace { static icu::UnicodeString lcl_QuotRange( const icu::UnicodeString& rString, const sal_Int32 nStart, const sal_Int32 nEnd, bool bInsideTag = false ) { icu::UnicodeString sReturn; assert( nStart < nEnd ); assert( nStart >= 0 ); assert( nEnd <= rString.length() ); for (sal_Int32 i = nStart; i < nEnd; ++i) { switch (rString[i]) { case '<': sReturn.append("<"); break; case '>': sReturn.append(">"); break; case '"': if( !bInsideTag ) sReturn.append("""); else sReturn.append(rString[i]); break; case '&': if (rString.startsWith("&", i, 5)) sReturn.append('&'); else sReturn.append("&"); break; default: sReturn.append(rString[i]); break; } } return sReturn; } static bool lcl_isTag( const icu::UnicodeString& rString ) { static const int nSize = 13; static const icu::UnicodeString vTags[nSize] = { "ahelp", "link", "item", "emph", "defaultinline", "switchinline", "caseinline", "variable", "bookmark_value", "image", "embedvar", "alt", "sup" }; for( int nIndex = 0; nIndex < nSize; ++nIndex ) { if( rString.startsWith("<" + vTags[nIndex]) || rString == "" ) return true; } return rString == "
" || rString ==""; } } /// anonymous namespace OString XMLUtil::QuotHTML( const OString &rString ) { if( rString.trim().isEmpty() ) return rString; UErrorCode nIcuErr = U_ZERO_ERROR; static const sal_uInt32 nSearchFlags = UREGEX_DOTALL | UREGEX_CASE_INSENSITIVE; static const OUString sPattern( "<[/]\?\?[a-z_-]+?(?:| +[a-z]+?=\".*?\") *[/]\?\?>"); static const UnicodeString sSearchPat( reinterpret_cast(sPattern.getStr()), sPattern.getLength() ); const OUString sOUSource = OStringToOUString(rString, RTL_TEXTENCODING_UTF8); icu::UnicodeString sSource( reinterpret_cast( sOUSource.getStr()), sOUSource.getLength() ); RegexMatcher aRegexMatcher( sSearchPat, nSearchFlags, nIcuErr ); aRegexMatcher.reset( sSource ); icu::UnicodeString sReturn; int32_t nEndPos = 0; int32_t nStartPos = 0; while( aRegexMatcher.find(nStartPos, nIcuErr) && nIcuErr == U_ZERO_ERROR ) { nStartPos = aRegexMatcher.start(nIcuErr); if ( nEndPos < nStartPos ) sReturn.append(lcl_QuotRange(sSource, nEndPos, nStartPos)); nEndPos = aRegexMatcher.end(nIcuErr); icu::UnicodeString sMatch = aRegexMatcher.group(nIcuErr); if( lcl_isTag(sMatch) ) { sReturn.append("<"); sReturn.append(lcl_QuotRange(sSource, nStartPos+1, nEndPos-1, true)); sReturn.append(">"); } else sReturn.append(lcl_QuotRange(sSource, nStartPos, nEndPos)); ++nStartPos; } if( nEndPos < sSource.length() ) sReturn.append(lcl_QuotRange(sSource, nEndPos, sSource.length())); sReturn.append('\0'); return OUStringToOString( OUString(reinterpret_cast(sReturn.getBuffer())), RTL_TEXTENCODING_UTF8); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */