/* -*- 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 namespace oox { using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::xml::sax; namespace { const sal_Int32 XSTRING_ENCCHAR_LEN = 7; bool lclAddHexDigit( sal_Unicode& orcChar, sal_Unicode cDigit, int nBitShift ) { if( ('0' <= cDigit) && (cDigit <= '9') ) { orcChar |= ((cDigit - '0') << nBitShift); return true; } if( ('a' <= cDigit) && (cDigit <= 'f') ) { orcChar |= ((cDigit - 'a' + 10) << nBitShift); return true; } if( ('A' <= cDigit) && (cDigit <= 'F') ) { orcChar |= ((cDigit - 'A' + 10) << nBitShift); return true; } return false; } sal_Unicode lclGetXChar( const sal_Unicode*& rpcStr, const sal_Unicode* pcEnd ) { sal_Unicode cChar = 0; if( (pcEnd - rpcStr >= XSTRING_ENCCHAR_LEN) && (rpcStr[ 0 ] == '_') && (rpcStr[ 1 ] == 'x') && (rpcStr[ 6 ] == '_') && lclAddHexDigit( cChar, rpcStr[ 2 ], 12 ) && lclAddHexDigit( cChar, rpcStr[ 3 ], 8 ) && lclAddHexDigit( cChar, rpcStr[ 4 ], 4 ) && lclAddHexDigit( cChar, rpcStr[ 5 ], 0 ) ) { rpcStr += XSTRING_ENCCHAR_LEN; return cChar; } return *rpcStr++; } } // namespace sal_Int32 AttributeConversion::decodeToken( const OUString& rValue ) { return TokenMap::getTokenFromUnicode( rValue ); } OUString AttributeConversion::decodeXString( const OUString& rValue ) { // string shorter than one encoded character - no need to decode if( rValue.getLength() < XSTRING_ENCCHAR_LEN ) return rValue; OUStringBuffer aBuffer; const sal_Unicode* pcStr = rValue.getStr(); const sal_Unicode* pcEnd = pcStr + rValue.getLength(); while( pcStr < pcEnd ) aBuffer.append( lclGetXChar( pcStr, pcEnd ) ); return aBuffer.makeStringAndClear(); } sal_Int32 AttributeConversion::decodeInteger( const OUString& rValue ) { return rValue.toInt32(); } sal_uInt32 AttributeConversion::decodeUnsigned( const OUString& rValue ) { return getLimitedValue< sal_uInt32, sal_Int64 >( rValue.toInt64(), 0, SAL_MAX_UINT32 ); } sal_Int64 AttributeConversion::decodeHyper( const OUString& rValue ) { return rValue.toInt64(); } sal_Int32 AttributeConversion::decodeIntegerHex( const OUString& rValue ) { // It looks like all Office Open XML attributes containing hexadecimal // values are based on xsd:hexBinary and so use an unsigned representation: return static_cast< sal_Int32 >(rValue.toUInt32( 16 )); //TODO: Change this function to return sal_uInt32 and get rid of the // cast, but that will have a ripple effect } AttributeList::AttributeList( const Reference< XFastAttributeList >& rxAttribs ) : mxAttribs( rxAttribs ), mpAttribList( nullptr ) { OSL_ENSURE( mxAttribs.is(), "AttributeList::AttributeList - missing attribute list interface" ); } sax_fastparser::FastAttributeList *AttributeList::getAttribList() const { if( mpAttribList == nullptr ) { mpAttribList = sax_fastparser::FastAttributeList::castToFastAttributeList( mxAttribs ); } return mpAttribList; } bool AttributeList::hasAttribute( sal_Int32 nAttrToken ) const { return mxAttribs->hasAttribute( nAttrToken ); } // optional return values ----------------------------------------------------- OptValue< sal_Int32 > AttributeList::getToken( sal_Int32 nAttrToken ) const { sal_Int32 nToken = mxAttribs->getOptionalValueToken( nAttrToken, XML_TOKEN_INVALID ); return OptValue< sal_Int32 >( nToken != XML_TOKEN_INVALID, nToken ); } OptValue< OUString > AttributeList::getString( sal_Int32 nAttrToken ) const { // check if the attribute exists (empty string may be different to missing attribute) if( mxAttribs->hasAttribute( nAttrToken ) ) return OptValue< OUString >( mxAttribs->getOptionalValue( nAttrToken ) ); return OptValue< OUString >(); } OptValue< OUString > AttributeList::getXString( sal_Int32 nAttrToken ) const { // check if the attribute exists (empty string may be different to missing attribute) if( mxAttribs->hasAttribute( nAttrToken ) ) return OptValue< OUString >( AttributeConversion::decodeXString( mxAttribs->getOptionalValue( nAttrToken ) ) ); return OptValue< OUString >(); } OptValue< double > AttributeList::getDouble( sal_Int32 nAttrToken ) const { double nValue; bool bValid = getAttribList()->getAsDouble( nAttrToken, nValue ); return OptValue< double >( bValid, nValue ); } OptValue< sal_Int32 > AttributeList::getInteger( sal_Int32 nAttrToken ) const { sal_Int32 nValue; bool bValid = getAttribList()->getAsInteger( nAttrToken, nValue ); return OptValue< sal_Int32 >( bValid, nValue ); } OptValue< sal_uInt32 > AttributeList::getUnsigned( sal_Int32 nAttrToken ) const { OUString aValue = mxAttribs->getOptionalValue( nAttrToken ); bool bValid = !aValue.isEmpty(); return OptValue< sal_uInt32 >( bValid, AttributeConversion::decodeUnsigned( aValue ) ); } OptValue< sal_Int64 > AttributeList::getHyper( sal_Int32 nAttrToken ) const { OUString aValue = mxAttribs->getOptionalValue( nAttrToken ); bool bValid = !aValue.isEmpty(); return OptValue< sal_Int64 >( bValid, bValid ? AttributeConversion::decodeHyper( aValue ) : 0 ); } OptValue< sal_Int32 > AttributeList::getIntegerHex( sal_Int32 nAttrToken ) const { OUString aValue = mxAttribs->getOptionalValue( nAttrToken ); bool bValid = !aValue.isEmpty(); return OptValue< sal_Int32 >( bValid, bValid ? AttributeConversion::decodeIntegerHex( aValue ) : 0 ); } OptValue< bool > AttributeList::getBool( sal_Int32 nAttrToken ) const { const char *pAttr; // catch the common cases as quickly as possible first bool bHasAttr = getAttribList()->getAsChar( nAttrToken, pAttr ); if( !bHasAttr ) return OptValue< bool >(); if( !strcmp( pAttr, "false" ) ) return OptValue< bool >( false ); if( !strcmp( pAttr, "true" ) ) return OptValue< bool >( true ); // now for all the crazy stuff // boolean attributes may be "t", "f", "true", "false", "on", "off", "1", or "0" switch( getToken( nAttrToken, XML_TOKEN_INVALID ) ) { case XML_t: return OptValue< bool >( true ); // used in VML case XML_true: return OptValue< bool >( true ); case XML_on: return OptValue< bool >( true ); case XML_f: return OptValue< bool >( false ); // used in VML case XML_false: return OptValue< bool >( false ); case XML_off: return OptValue< bool >( false ); } OptValue< sal_Int32 > onValue = getInteger( nAttrToken ); return OptValue< bool >( onValue.has(), onValue.get() != 0 ); } OptValue< util::DateTime > AttributeList::getDateTime( sal_Int32 nAttrToken ) const { OUString aValue = mxAttribs->getOptionalValue( nAttrToken ); util::DateTime aDateTime; bool bValid = (aValue.getLength() == 19) && (aValue[ 4 ] == '-') && (aValue[ 7 ] == '-') && (aValue[ 10 ] == 'T') && (aValue[ 13 ] == ':') && (aValue[ 16 ] == ':'); if( bValid ) { aDateTime.Year = static_cast< sal_uInt16 >( aValue.copy( 0, 4 ).toInt32() ); aDateTime.Month = static_cast< sal_uInt16 >( aValue.copy( 5, 2 ).toInt32() ); aDateTime.Day = static_cast< sal_uInt16 >( aValue.copy( 8, 2 ).toInt32() ); aDateTime.Hours = static_cast< sal_uInt16 >( aValue.copy( 11, 2 ).toInt32() ); aDateTime.Minutes = static_cast< sal_uInt16 >( aValue.copy( 14, 2 ).toInt32() ); aDateTime.Seconds = static_cast< sal_uInt16 >( aValue.copy( 17, 2 ).toInt32() ); } return OptValue< util::DateTime >( bValid, aDateTime ); } // defaulted return values ---------------------------------------------------- sal_Int32 AttributeList::getToken( sal_Int32 nAttrToken, sal_Int32 nDefault ) const { return mxAttribs->getOptionalValueToken( nAttrToken, nDefault ); } OUString AttributeList::getString( sal_Int32 nAttrToken, const OUString& rDefault ) const { // try to avoid slow exception throw/catch if we can if (rDefault.isEmpty()) return mxAttribs->getOptionalValue( nAttrToken ); try { return mxAttribs->getValue( nAttrToken ); } catch( Exception& ) { } return rDefault; } OUString AttributeList::getXString( sal_Int32 nAttrToken, const OUString& rDefault ) const { return getXString( nAttrToken ).get( rDefault ); } const char* AttributeList::getChar( sal_Int32 nAttrToken ) const { const char* p = nullptr; bool bValid = getAttribList()->getAsChar(nAttrToken, p); if (!bValid) p = nullptr; return p; } double AttributeList::getDouble( sal_Int32 nAttrToken, double fDefault ) const { return getDouble( nAttrToken ).get( fDefault ); } sal_Int32 AttributeList::getInteger( sal_Int32 nAttrToken, sal_Int32 nDefault ) const { return getInteger( nAttrToken ).get( nDefault ); } sal_uInt32 AttributeList::getUnsigned( sal_Int32 nAttrToken, sal_uInt32 nDefault ) const { return getUnsigned( nAttrToken ).get( nDefault ); } sal_Int64 AttributeList::getHyper( sal_Int32 nAttrToken, sal_Int64 nDefault ) const { return getHyper( nAttrToken ).get( nDefault ); } sal_Int32 AttributeList::getIntegerHex( sal_Int32 nAttrToken, sal_Int32 nDefault ) const { return getIntegerHex( nAttrToken ).get( nDefault ); } sal_uInt32 AttributeList::getUnsignedHex( sal_Int32 nAttrToken, sal_uInt32 nDefault ) const { return getIntegerHex( nAttrToken ).get( nDefault ); } bool AttributeList::getBool( sal_Int32 nAttrToken, bool bDefault ) const { return getBool( nAttrToken ).get( bDefault ); } util::DateTime AttributeList::getDateTime( sal_Int32 nAttrToken, const util::DateTime& rDefault ) const { return getDateTime( nAttrToken ).get( rDefault ); } } // namespace oox /* vim:set shiftwidth=4 softtabstop=4 expandtab: */