AOO410/main/svx/workben/msview/xmlconfig.cxx - openoffice - Git at Google

 /**************************************************************
  *
  * 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
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  *
  *************************************************************/


 // MARKER(update_precomp.py): autogen include statement, do not remove
 #include "precompiled_svx.hxx"
 #include <com/sun/star/xml/sax/XDocumentHandler.hpp>
 #include <com/sun/star/xml/sax/InputSource.hpp>
 #include <com/sun/star/xml/sax/XParser.hpp>
 #include <com/sun/star/xml/sax/SAXParseException.hpp>
 #include <com/sun/star/io/IOException.hpp>
 #include <cppuhelper/implbase1.hxx>
 #include <comphelper/processfactory.hxx>
 #include <unotools/ucbstreamhelper.hxx>
 #include <unotools/streamwrap.hxx>
 #include <tools/debug.hxx>
 #include "comphelper/anytostring.hxx"
 #include "cppuhelper/exc_hlp.hxx"
 #include "rtl/ref.hxx"

 #include <svx/msdffimp.hxx>

 #include "xmlconfig.hxx"

 #include <stdio.h>
 #include <ctype.h>
 #include <stack>

 using ::rtl::OUString;
 using ::com::sun::star::io::XInputStream;
 using ::com::sun::star::io::IOException;

 using namespace ::com::sun::star::uno;
 using namespace ::com::sun::star::xml::sax;

 ///////////////////////////////////////////////////////////////////////

 AtomConfigMap gAtomConfigMap;

 ///////////////////////////////////////////////////////////////////////

 class ConfigHandler : public ::cppu::WeakAggImplHelper1<XDocumentHandler>
 {
 public:
 	// XDocumentHandler
 	virtual void SAL_CALL startDocument(void) throw( SAXException, RuntimeException );
 	virtual void SAL_CALL endDocument(void) throw( SAXException, RuntimeException );
 	virtual void SAL_CALL startElement(const OUString& aName, const Reference< XAttributeList > & xAttribs) throw( SAXException, RuntimeException );
 	virtual void SAL_CALL endElement(const OUString& aName) throw( SAXException, RuntimeException );
 	virtual void SAL_CALL characters(const OUString& aChars) throw( SAXException, RuntimeException );
 	virtual void SAL_CALL ignorableWhitespace(const OUString& aWhitespaces) throw( SAXException, RuntimeException );
 	virtual void SAL_CALL processingInstruction(const OUString& aTarget, const OUString& aData) throw( SAXException, RuntimeException );
 	virtual void SAL_CALL setDocumentLocator(const Reference< XLocator > & xLocator) throw( SAXException, RuntimeException );

 private:
 	void errorThrow( const OUString& rErrorMessage ) throw (SAXException );
 	ElementConfigType parseType( const OUString& rErrorMessage ) throw ( SAXException );
 	void addElement( ElementConfigPtr& rElementConfig ) throw ( SAXException );
 	OUString getAttribute( const Reference< XAttributeList > & xAttribs, const sal_Char* pName ) throw( SAXException );

 	ElementConfigPtr importAtomConfig( const Reference< XAttributeList > & xAttribs, bool bIsContainer ) throw( SAXException );
 	ElementConfigPtr importElementConfig( const Reference< XAttributeList > & xAttribs ) throw( SAXException );
 	ElementConfigPtr importSwitchConfig( const Reference< XAttributeList > & xAttribs ) throw( SAXException );
 	ElementConfigPtr importCaseConfig( const Reference< XAttributeList > & xAttribs ) throw( SAXException );
 	ElementConfigPtr importValueElementConfig( const Reference< XAttributeList > & xAttribs ) throw( SAXException );

 	std::stack< ElementConfigPtr > maElementStack;
 };

 void ConfigHandler::errorThrow( const OUString& rErrorMessage ) throw (SAXException )
 {
 	Reference< XInterface > aContext;
 	Any aWrappedException;
     throw SAXException(rErrorMessage, aContext, aWrappedException);
 }

 ElementConfigType ConfigHandler::parseType( const OUString& sType ) throw (SAXException )
 {
 	if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("uint") ) )
 	{
 		return ECT_UINT;
 	}
 	else if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("byte") ) )
 	{
 		return ECT_BYTE;
 	}
 	else if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("unistring") ) )
 	{
 		return ECT_UNISTRING;
 	}
 	else if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("float") ) )
 	{
 		return ETC_FLOAT;
 	}
 	else if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("hexdump") ) )
 	{
 	}
 	else
 	{
 		OUString aMessage( RTL_CONSTASCII_USTRINGPARAM( "unknown type: " ) );
 		aMessage += sType;
 		errorThrow( aMessage );
 	}

 	return ECT_HEXDUMP;
 }

 void ConfigHandler::addElement( ElementConfigPtr& rElementConfig ) throw ( SAXException )
 {
 	ElementConfigContainer* pParent = dynamic_cast< ElementConfigContainer* >( maElementStack.top().get() );

 	if( !pParent )
 		errorThrow( OUString( RTL_CONSTASCII_USTRINGPARAM( "illegal parent for element" ) ) );


 	pParent->addElementConfig( rElementConfig );
 }

 OUString ConfigHandler::getAttribute( const Reference< XAttributeList > & xAttribs, const sal_Char* pName ) throw( SAXException )
 {
 	OUString aName( OUString::createFromAscii( pName ) );

 	const sal_Int16 nAttrCount = xAttribs.is() ? xAttribs->getLength() : 0;
 	sal_Int16 i;
 	for(i=0; i < nAttrCount; i++)
 	{
 		if( xAttribs->getNameByIndex( i ) == aName )
 			return xAttribs->getValueByIndex( i );
 	}

 	OUString aMessage( RTL_CONSTASCII_USTRINGPARAM( "missing required attribute: ") );
 	aMessage += aName;
 	errorThrow( aMessage );

 	return OUString();
 }

 void SAL_CALL ConfigHandler::startDocument(void) throw( SAXException, RuntimeException )
 {
 }

 void SAL_CALL ConfigHandler::endDocument(void) throw( SAXException, RuntimeException )
 {
 }

 void SAL_CALL ConfigHandler::startElement(const OUString& aName, const Reference< XAttributeList > & xAttribs) throw( SAXException, RuntimeException )
 {
 	ElementConfigPtr pElement;

 	if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "config" ) ) )
 	{
 		return;
 	}

 	if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "container" ) ) )
 	{
 		pElement = importAtomConfig( xAttribs, true );
 	}
 	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "atom" ) ) )
 	{
 		pElement = importAtomConfig( xAttribs, false );
 	}
 	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "element" ) ) )
 	{
 		pElement = importElementConfig( xAttribs );
 	}
 	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "value" ) ) )
 	{
 		pElement = importValueElementConfig( xAttribs );
 	}
 	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "switch" ) ) )
 	{
 		pElement = importSwitchConfig( xAttribs );
 	}
 	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "case" ) ) )
 	{
 		pElement = importCaseConfig( xAttribs );
 	}

 	if( !pElement.get() )
 	{
 		OUString aMessage( OUString( RTL_CONSTASCII_USTRINGPARAM("unknown config element: ")) );
 		aMessage += aName;
 		errorThrow( aMessage  );
 	}

 	maElementStack.push( pElement );
 }

 sal_Int32 toInt( const OUString& rText )
 {
 	if( rText.compareToAscii("0x",2) == 0)
 	{
 		sal_Int32 nValue = 0;
 		const sal_Unicode *p = rText;
 		p += 2;
 		sal_Int32 nLength = rText.getLength() - 2;
 		while( (nLength--) > 0 )
 		{
 			nValue <<= 4;
 			if( *p >= '0' && *p <= '9' )
 			{
 				nValue += *p - '0';
 			}
 			else if( *p >= 'a' && *p <= 'f' )
 			{
 				nValue += *p - ('a' - 10);
 			}
 			else if( *p >= 'A' && *p <= 'F' )
 			{
 				nValue += *p - ('A' - 10 );
 			}
 			p++;
 		}

 		return nValue;
 	}
 	else
 	{
 		return rText.toInt32();
 	}
 }

 ElementConfigPtr ConfigHandler::importAtomConfig( const Reference< XAttributeList > & xAttribs, bool bIsContainer ) throw (SAXException)
 {
 	if( !maElementStack.empty() )
 		errorThrow( OUString( RTL_CONSTASCII_USTRINGPARAM("atom elements must be root" ) ) );

 	ElementConfigPtr aPtr( new AtomConfig( getAttribute(xAttribs,"name"), bIsContainer ) );
 	gAtomConfigMap[ (UINT16)toInt(getAttribute(xAttribs,"id"))] = aPtr;
 	return aPtr;
 }

 ElementConfigPtr ConfigHandler::importElementConfig( const Reference< XAttributeList > & xAttribs ) throw (SAXException)
 {
 	ElementConfigType nType = parseType( getAttribute( xAttribs, "type" ) );
 	ElementConfigPtr pElementConfig( new ElementConfigContainer( getAttribute( xAttribs, "name" ), nType ) );
 	addElement( pElementConfig );
 	return pElementConfig;
 }

 ElementConfigPtr ConfigHandler::importValueElementConfig( const Reference< XAttributeList > & xAttribs ) throw (SAXException)
 {
 	ElementConfigPtr pElementConfig( new ElementValueConfig( getAttribute( xAttribs, "name" ), getAttribute( xAttribs, "value" ) ) );
 	addElement( pElementConfig );
 	return pElementConfig;
 }

 ElementConfigPtr ConfigHandler::importSwitchConfig( const Reference< XAttributeList > & xAttribs ) throw (SAXException)
 {
 	ElementConfigType nType = parseType( getAttribute( xAttribs, "type" ) );
 	ElementConfigPtr pElementConfig( new SwitchElementConfig( nType ) );
 	addElement( pElementConfig );
 	return pElementConfig;
 }

 ElementConfigPtr ConfigHandler::importCaseConfig( const Reference< XAttributeList > & xAttribs ) throw (SAXException)
 {
 	ElementConfigPtr pElementConfig( new CaseElementConfig( getAttribute( xAttribs, "value" ) ) );
 	addElement( pElementConfig );
 	return pElementConfig;
 }

 void SAL_CALL ConfigHandler::endElement(const OUString& aName) throw( SAXException, RuntimeException )
 {
 	if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "config" ) ) )
 	{
 		return;
 	}

 	maElementStack.pop();
 }

 void SAL_CALL ConfigHandler::characters(const OUString& aChars) throw( SAXException, RuntimeException )
 {
 }

 void SAL_CALL ConfigHandler::ignorableWhitespace(const OUString& aWhitespaces) throw( SAXException, RuntimeException )
 {
 }

 void SAL_CALL ConfigHandler::processingInstruction(const OUString& aTarget, const OUString& aData) throw( SAXException, RuntimeException )
 {
 }

 void SAL_CALL ConfigHandler::setDocumentLocator(const Reference< XLocator > & xLocator) throw( SAXException, RuntimeException )
 {
 }

 void load_config( const OUString& rPath )
 {
 	try
 	{
 		// create stream
 		SvStream*	pIStm = ::utl::UcbStreamHelper::CreateStream( rPath, STREAM_READ );
 		Reference<XInputStream> xInputStream( new utl::OInputStreamWrapper( pIStm, sal_True ) );

 		// prepare ParserInputSrouce
 		InputSource aParserInput;
 		aParserInput.sSystemId = rPath;
 		aParserInput.aInputStream = xInputStream;

 		// get parser
 		Reference< XParser > xParser(
 			comphelper::getProcessServiceFactory()->createInstance(
 				OUString::createFromAscii("com.sun.star.xml.sax.Parser") ),
 			UNO_QUERY_THROW );

 		// get filter
 		ConfigHandler* pConfigHandler = new ConfigHandler();
 		Reference< XDocumentHandler > xFilter( pConfigHandler );

 		// connect parser and filter
 		xParser->setDocumentHandler( xFilter );

 		// finally, parser the stream
 		xParser->parseStream( aParserInput );
 	}
 	catch( Exception& r )
 	{
 		DBG_ERROR(
 			(rtl::OString("load_config(), "
                      "exception caught: ") +
              rtl::OUStringToOString(
                  comphelper::anyToString( cppu::getCaughtException() ),
                  RTL_TEXTENCODING_UTF8 )).getStr() );

 		(void)r;
 	}
 }

 ///////////////////////////////////////////////////////////////////////

 rtl::OUString ElementConfig::format( SvStream& rStream, sal_Size& nLength ) const
 {
 	OUString aRet;
 	if( maName.getLength() )
 	{
 		aRet += maName;
 		aRet += OUString( RTL_CONSTASCII_USTRINGPARAM( " = " ) );
 	}

 	switch( mnType )
 	{
 	case ECT_BYTE:		aRet += dump_byte( rStream, nLength ); break;
 	case ECT_UINT:		aRet += dump_uint( rStream, nLength ); break;
 	case ECT_UNISTRING:	aRet += dump_unistring( rStream, nLength ); break;
 	case ETC_FLOAT:		aRet += dump_float( rStream, nLength ); break;
 	case ECT_HEXDUMP:
 	default:			aRet += dump_hex( rStream, nLength ); break;
 	}

 	return aRet;
 }

 rtl::OUString ElementConfig::dump_hex( SvStream& rStream, sal_Size& nLength )
 {
 	char buffer[128];
 	OUString aOut, aEmpty;
 	OUString aHex, aAscii;
 	sal_Char c;
 	int nRow = 0;
 	while( nLength && (rStream.GetError() == 0) )
 	{
 		rStream >> c;
 		nLength--;

 		unsigned int i = c;
 		i &= 0xff;
 		sprintf( buffer, "%02x ", i );
 		aHex += OUString::createFromAscii( buffer );

 		if( !isprint( c ) )
 			c = '.';

 		aAscii += OUString( (sal_Unicode) c );
 		nRow++;

 		if( (nRow == 16) || (nLength==0) )
 		{
 			while( aHex.getLength() < (16*3) )
 				aHex += OUString( RTL_CONSTASCII_USTRINGPARAM(" ") );
 			aOut += aHex;
 			aOut += aAscii;
 			aOut += OUString( RTL_CONSTASCII_USTRINGPARAM( "\n\r" ) );
 			aHex = aEmpty;
 			aAscii = aEmpty;
 			nRow = 0;
 		}
 	}

 	aOut += aHex;
 	aOut += aAscii;

 	return aOut;
 }

 rtl::OUString ElementConfig::dump_byte( SvStream& rStream, sal_Size& nLength )
 {
 	OUString aRet;
 	if( nLength >= sizeof(sal_Char) )
 	{
 		sal_Char c;
 		rStream >> c;

 		char buffer[128];
 		sprintf( buffer, "%u", (int)c );
 		aRet += OUString::createFromAscii( buffer );
 		nLength -= sizeof(sal_Char);
 	}

 	return aRet;
 }

 rtl::OUString ElementConfig::dump_uint( SvStream& rStream, sal_Size& nLength )
 {
 	OUString aRet;
 	if( nLength >= sizeof( sal_uInt32 ) )
 	{
 		sal_uInt32 c;
 		rStream >> c;

 		char buffer[128];
 		sprintf( buffer, "%u", c );
 		aRet += OUString::createFromAscii( buffer );
 		nLength-= sizeof( sal_uInt32 );
 	}

 	return aRet;
 }

 rtl::OUString ElementConfig::dump_unistring( SvStream& rStream, sal_Size& nLength )
 {
 	String aString;
 	SvxMSDffManager::MSDFFReadZString( rStream, aString, nLength, sal_True );
 	nLength = 0;
 	return aString;
 }

 rtl::OUString ElementConfig::dump_float( SvStream& rStream, sal_Size& nLength )
 {
 	OUString aRet;
 	if( nLength >= sizeof( float ) )
 	{
 		float c;
 		rStream >> c;

 		char buffer[128];
 		sprintf( buffer, "%g", (double)c );
 		aRet += OUString::createFromAscii( buffer );
 		nLength-= sizeof( float );
 	}

 	return aRet;
 }

 ///////////////////////////////////////////////////////////////////////

 rtl::OUString ElementConfigContainer::format( SvStream& rStream, sal_Size& nLength ) const
 {
 	OUString aRet;

 	if( getType() == ETC_CONTAINER )
 	{

 		ElementConfigList::const_iterator aIter( maElementConfigList.begin() );
 		const ElementConfigList::const_iterator aEnd( maElementConfigList.end() );
 		while( (aIter != aEnd) && (nLength > 0) )
 		{
 			aRet += (*aIter++)->format( rStream, nLength );
 			if( (aIter != aEnd) || (nLength != 0) )
 				aRet += OUString( RTL_CONSTASCII_USTRINGPARAM( "\n\r" ) );
 		}

 		if( nLength )
 			aRet += ElementConfig::dump_hex( rStream, nLength );
 	}
 	else
 	{
 		aRet = getName();
 		if( aRet.getLength() )
 			aRet += OUString( RTL_CONSTASCII_USTRINGPARAM( " = " ) );

 		OUString aValue;
 		switch( getType() )
 		{
 		case ECT_BYTE:		aValue = dump_byte( rStream, nLength ); break;
 		case ECT_UINT:		aValue = dump_uint( rStream, nLength ); break;
 		case ECT_UNISTRING:	aValue = dump_unistring( rStream, nLength ); break;
 		case ETC_FLOAT:		aValue = dump_float( rStream, nLength ); break;
 		case ECT_HEXDUMP:
 		default:			aValue = dump_hex( rStream, nLength ); break;
 		}

 		if( aValue.getLength() )
 		{
 			if( !maElementConfigList.empty() )
 			{
 				ElementConfigList::const_iterator aIter( maElementConfigList.begin() );
 				const ElementConfigList::const_iterator aEnd( maElementConfigList.end() );
 				while( (aIter != aEnd) && (nLength > 0) )
 				{
 					ElementValueConfig* pValue = dynamic_cast< ElementValueConfig* >( (*aIter++).get() );
 					if( pValue && pValue->getValue() == aValue )
 					{
 						aValue = pValue->getName();
 						break;
 					}
 				}
 			}
 		}
 		else
 		{
 			aValue = OUString( RTL_CONSTASCII_USTRINGPARAM("<empty!?>") );
 		}

 		aRet += aValue;
 	}

 	return aRet;
 }

 ///////////////////////////////////////////////////////////////////////

 rtl::OUString SwitchElementConfig::format( SvStream& rStream, sal_Size& nLength ) const
 {
 	OUString aValue;

 	switch( getType() )
 	{
 	case ECT_BYTE:			aValue = dump_byte( rStream, nLength );	break;
 	case ECT_UINT:			aValue = dump_uint( rStream, nLength ); break;
 	case ETC_FLOAT:			aValue = dump_float( rStream, nLength ); break;
 	case ECT_UNISTRING:		aValue = dump_unistring( rStream, nLength ); break;
 	}

 	if( aValue.getLength()  )
 	{
 		ElementConfigList::const_iterator aIter( maElementConfigList.begin() );
 		const ElementConfigList::const_iterator aEnd( maElementConfigList.end() );
 		while( (aIter != aEnd) && (nLength > 0) )
 		{
 			CaseElementConfig* pCase = dynamic_cast< CaseElementConfig* >( (*aIter++).get() );
 			if( pCase && pCase->getValue() == aValue )
 				return pCase->format( rStream, nLength );
 		}
 	}

 	return ElementConfig::dump_hex( rStream, nLength );
 }
	/**************************************************************
	*
	* 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
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*
	*************************************************************/




	// MARKER(update_precomp.py): autogen include statement, do not remove
	#include "precompiled_svx.hxx"
	#include <com/sun/star/xml/sax/XDocumentHandler.hpp>
	#include <com/sun/star/xml/sax/InputSource.hpp>
	#include <com/sun/star/xml/sax/XParser.hpp>
	#include <com/sun/star/xml/sax/SAXParseException.hpp>
	#include <com/sun/star/io/IOException.hpp>
	#include <cppuhelper/implbase1.hxx>
	#include <comphelper/processfactory.hxx>
	#include <unotools/ucbstreamhelper.hxx>
	#include <unotools/streamwrap.hxx>
	#include <tools/debug.hxx>
	#include "comphelper/anytostring.hxx"
	#include "cppuhelper/exc_hlp.hxx"
	#include "rtl/ref.hxx"

	#include <svx/msdffimp.hxx>

	#include "xmlconfig.hxx"

	#include <stdio.h>
	#include <ctype.h>
	#include <stack>

	using ::rtl::OUString;
	using ::com::sun::star::io::XInputStream;
	using ::com::sun::star::io::IOException;

	using namespace ::com::sun::star::uno;
	using namespace ::com::sun::star::xml::sax;

	///////////////////////////////////////////////////////////////////////

	AtomConfigMap gAtomConfigMap;

	///////////////////////////////////////////////////////////////////////

	class ConfigHandler : public ::cppu::WeakAggImplHelper1<XDocumentHandler>
	{
	public:
	// XDocumentHandler
	virtual void SAL_CALL startDocument(void) throw( SAXException, RuntimeException );
	virtual void SAL_CALL endDocument(void) throw( SAXException, RuntimeException );
	virtual void SAL_CALL startElement(const OUString& aName, const Reference< XAttributeList > & xAttribs) throw( SAXException, RuntimeException );
	virtual void SAL_CALL endElement(const OUString& aName) throw( SAXException, RuntimeException );
	virtual void SAL_CALL characters(const OUString& aChars) throw( SAXException, RuntimeException );
	virtual void SAL_CALL ignorableWhitespace(const OUString& aWhitespaces) throw( SAXException, RuntimeException );
	virtual void SAL_CALL processingInstruction(const OUString& aTarget, const OUString& aData) throw( SAXException, RuntimeException );
	virtual void SAL_CALL setDocumentLocator(const Reference< XLocator > & xLocator) throw( SAXException, RuntimeException );

	private:
	void errorThrow( const OUString& rErrorMessage ) throw (SAXException );
	ElementConfigType parseType( const OUString& rErrorMessage ) throw ( SAXException );
	void addElement( ElementConfigPtr& rElementConfig ) throw ( SAXException );
	OUString getAttribute( const Reference< XAttributeList > & xAttribs, const sal_Char* pName ) throw( SAXException );

	ElementConfigPtr importAtomConfig( const Reference< XAttributeList > & xAttribs, bool bIsContainer ) throw( SAXException );
	ElementConfigPtr importElementConfig( const Reference< XAttributeList > & xAttribs ) throw( SAXException );
	ElementConfigPtr importSwitchConfig( const Reference< XAttributeList > & xAttribs ) throw( SAXException );
	ElementConfigPtr importCaseConfig( const Reference< XAttributeList > & xAttribs ) throw( SAXException );
	ElementConfigPtr importValueElementConfig( const Reference< XAttributeList > & xAttribs ) throw( SAXException );

	std::stack< ElementConfigPtr > maElementStack;
	};

	void ConfigHandler::errorThrow( const OUString& rErrorMessage ) throw (SAXException )
	{
	Reference< XInterface > aContext;
	Any aWrappedException;
	throw SAXException(rErrorMessage, aContext, aWrappedException);
	}

	ElementConfigType ConfigHandler::parseType( const OUString& sType ) throw (SAXException )
	{
	if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("uint") ) )
	{
	return ECT_UINT;
	}
	else if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("byte") ) )
	{
	return ECT_BYTE;
	}
	else if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("unistring") ) )
	{
	return ECT_UNISTRING;
	}
	else if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("float") ) )
	{
	return ETC_FLOAT;
	}
	else if( sType.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM("hexdump") ) )
	{
	}
	else
	{
	OUString aMessage( RTL_CONSTASCII_USTRINGPARAM( "unknown type: " ) );
	aMessage += sType;
	errorThrow( aMessage );
	}

	return ECT_HEXDUMP;
	}

	void ConfigHandler::addElement( ElementConfigPtr& rElementConfig ) throw ( SAXException )
	{
	ElementConfigContainer* pParent = dynamic_cast< ElementConfigContainer* >( maElementStack.top().get() );

	if( !pParent )
	errorThrow( OUString( RTL_CONSTASCII_USTRINGPARAM( "illegal parent for element" ) ) );


	pParent->addElementConfig( rElementConfig );
	}

	OUString ConfigHandler::getAttribute( const Reference< XAttributeList > & xAttribs, const sal_Char* pName ) throw( SAXException )
	{
	OUString aName( OUString::createFromAscii( pName ) );

	const sal_Int16 nAttrCount = xAttribs.is() ? xAttribs->getLength() : 0;
	sal_Int16 i;
	for(i=0; i < nAttrCount; i++)
	{
	if( xAttribs->getNameByIndex( i ) == aName )
	return xAttribs->getValueByIndex( i );
	}

	OUString aMessage( RTL_CONSTASCII_USTRINGPARAM( "missing required attribute: ") );
	aMessage += aName;
	errorThrow( aMessage );

	return OUString();
	}

	void SAL_CALL ConfigHandler::startDocument(void) throw( SAXException, RuntimeException )
	{
	}

	void SAL_CALL ConfigHandler::endDocument(void) throw( SAXException, RuntimeException )
	{
	}

	void SAL_CALL ConfigHandler::startElement(const OUString& aName, const Reference< XAttributeList > & xAttribs) throw( SAXException, RuntimeException )
	{
	ElementConfigPtr pElement;

	if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "config" ) ) )
	{
	return;
	}

	if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "container" ) ) )
	{
	pElement = importAtomConfig( xAttribs, true );
	}
	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "atom" ) ) )
	{
	pElement = importAtomConfig( xAttribs, false );
	}
	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "element" ) ) )
	{
	pElement = importElementConfig( xAttribs );
	}
	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "value" ) ) )
	{
	pElement = importValueElementConfig( xAttribs );
	}
	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "switch" ) ) )
	{
	pElement = importSwitchConfig( xAttribs );
	}
	else if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "case" ) ) )
	{
	pElement = importCaseConfig( xAttribs );
	}

	if( !pElement.get() )
	{
	OUString aMessage( OUString( RTL_CONSTASCII_USTRINGPARAM("unknown config element: ")) );
	aMessage += aName;
	errorThrow( aMessage );
	}

	maElementStack.push( pElement );
	}

	sal_Int32 toInt( const OUString& rText )
	{
	if( rText.compareToAscii("0x",2) == 0)
	{
	sal_Int32 nValue = 0;
	const sal_Unicode *p = rText;
	p += 2;
	sal_Int32 nLength = rText.getLength() - 2;
	while( (nLength--) > 0 )
	{
	nValue <<= 4;
	if( p >= '0' && p <= '9' )
	{
	nValue += *p - '0';
	}
	else if( p >= 'a' && p <= 'f' )
	{
	nValue += *p - ('a' - 10);
	}
	else if( p >= 'A' && p <= 'F' )
	{
	nValue += *p - ('A' - 10 );
	}
	p++;
	}

	return nValue;
	}
	else
	{
	return rText.toInt32();
	}
	}

	ElementConfigPtr ConfigHandler::importAtomConfig( const Reference< XAttributeList > & xAttribs, bool bIsContainer ) throw (SAXException)
	{
	if( !maElementStack.empty() )
	errorThrow( OUString( RTL_CONSTASCII_USTRINGPARAM("atom elements must be root" ) ) );

	ElementConfigPtr aPtr( new AtomConfig( getAttribute(xAttribs,"name"), bIsContainer ) );
	gAtomConfigMap[ (UINT16)toInt(getAttribute(xAttribs,"id"))] = aPtr;
	return aPtr;
	}

	ElementConfigPtr ConfigHandler::importElementConfig( const Reference< XAttributeList > & xAttribs ) throw (SAXException)
	{
	ElementConfigType nType = parseType( getAttribute( xAttribs, "type" ) );
	ElementConfigPtr pElementConfig( new ElementConfigContainer( getAttribute( xAttribs, "name" ), nType ) );
	addElement( pElementConfig );
	return pElementConfig;
	}

	ElementConfigPtr ConfigHandler::importValueElementConfig( const Reference< XAttributeList > & xAttribs ) throw (SAXException)
	{
	ElementConfigPtr pElementConfig( new ElementValueConfig( getAttribute( xAttribs, "name" ), getAttribute( xAttribs, "value" ) ) );
	addElement( pElementConfig );
	return pElementConfig;
	}

	ElementConfigPtr ConfigHandler::importSwitchConfig( const Reference< XAttributeList > & xAttribs ) throw (SAXException)
	{
	ElementConfigType nType = parseType( getAttribute( xAttribs, "type" ) );
	ElementConfigPtr pElementConfig( new SwitchElementConfig( nType ) );
	addElement( pElementConfig );
	return pElementConfig;
	}

	ElementConfigPtr ConfigHandler::importCaseConfig( const Reference< XAttributeList > & xAttribs ) throw (SAXException)
	{
	ElementConfigPtr pElementConfig( new CaseElementConfig( getAttribute( xAttribs, "value" ) ) );
	addElement( pElementConfig );
	return pElementConfig;
	}

	void SAL_CALL ConfigHandler::endElement(const OUString& aName) throw( SAXException, RuntimeException )
	{
	if( aName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM( "config" ) ) )
	{
	return;
	}

	maElementStack.pop();
	}

	void SAL_CALL ConfigHandler::characters(const OUString& aChars) throw( SAXException, RuntimeException )
	{
	}

	void SAL_CALL ConfigHandler::ignorableWhitespace(const OUString& aWhitespaces) throw( SAXException, RuntimeException )
	{
	}

	void SAL_CALL ConfigHandler::processingInstruction(const OUString& aTarget, const OUString& aData) throw( SAXException, RuntimeException )
	{
	}

	void SAL_CALL ConfigHandler::setDocumentLocator(const Reference< XLocator > & xLocator) throw( SAXException, RuntimeException )
	{
	}

	void load_config( const OUString& rPath )
	{
	try
	{
	// create stream
	SvStream* pIStm = ::utl::UcbStreamHelper::CreateStream( rPath, STREAM_READ );
	Reference<XInputStream> xInputStream( new utl::OInputStreamWrapper( pIStm, sal_True ) );

	// prepare ParserInputSrouce
	InputSource aParserInput;
	aParserInput.sSystemId = rPath;
	aParserInput.aInputStream = xInputStream;

	// get parser
	Reference< XParser > xParser(
	comphelper::getProcessServiceFactory()->createInstance(
	OUString::createFromAscii("com.sun.star.xml.sax.Parser") ),
	UNO_QUERY_THROW );

	// get filter
	ConfigHandler* pConfigHandler = new ConfigHandler();
	Reference< XDocumentHandler > xFilter( pConfigHandler );

	// connect parser and filter
	xParser->setDocumentHandler( xFilter );

	// finally, parser the stream
	xParser->parseStream( aParserInput );
	}
	catch( Exception& r )
	{
	DBG_ERROR(
	(rtl::OString("load_config(), "
	"exception caught: ") +
	rtl::OUStringToOString(
	comphelper::anyToString( cppu::getCaughtException() ),
	RTL_TEXTENCODING_UTF8 )).getStr() );

	(void)r;
	}
	}

	///////////////////////////////////////////////////////////////////////

	rtl::OUString ElementConfig::format( SvStream& rStream, sal_Size& nLength ) const
	{
	OUString aRet;
	if( maName.getLength() )
	{
	aRet += maName;
	aRet += OUString( RTL_CONSTASCII_USTRINGPARAM( " = " ) );
	}

	switch( mnType )
	{
	case ECT_BYTE: aRet += dump_byte( rStream, nLength ); break;
	case ECT_UINT: aRet += dump_uint( rStream, nLength ); break;
	case ECT_UNISTRING: aRet += dump_unistring( rStream, nLength ); break;
	case ETC_FLOAT: aRet += dump_float( rStream, nLength ); break;
	case ECT_HEXDUMP:
	default: aRet += dump_hex( rStream, nLength ); break;
	}

	return aRet;
	}

	rtl::OUString ElementConfig::dump_hex( SvStream& rStream, sal_Size& nLength )
	{
	char buffer[128];
	OUString aOut, aEmpty;
	OUString aHex, aAscii;
	sal_Char c;
	int nRow = 0;
	while( nLength && (rStream.GetError() == 0) )
	{
	rStream >> c;
	nLength--;

	unsigned int i = c;
	i &= 0xff;
	sprintf( buffer, "%02x ", i );
	aHex += OUString::createFromAscii( buffer );

	if( !isprint( c ) )
	c = '.';

	aAscii += OUString( (sal_Unicode) c );
	nRow++;

	if( (nRow == 16) \|\| (nLength==0) )
	{
	while( aHex.getLength() < (16*3) )
	aHex += OUString( RTL_CONSTASCII_USTRINGPARAM(" ") );
	aOut += aHex;
	aOut += aAscii;
	aOut += OUString( RTL_CONSTASCII_USTRINGPARAM( "\n\r" ) );
	aHex = aEmpty;
	aAscii = aEmpty;
	nRow = 0;
	}
	}

	aOut += aHex;
	aOut += aAscii;

	return aOut;
	}

	rtl::OUString ElementConfig::dump_byte( SvStream& rStream, sal_Size& nLength )
	{
	OUString aRet;
	if( nLength >= sizeof(sal_Char) )
	{
	sal_Char c;
	rStream >> c;

	char buffer[128];
	sprintf( buffer, "%u", (int)c );
	aRet += OUString::createFromAscii( buffer );
	nLength -= sizeof(sal_Char);
	}

	return aRet;
	}

	rtl::OUString ElementConfig::dump_uint( SvStream& rStream, sal_Size& nLength )
	{
	OUString aRet;
	if( nLength >= sizeof( sal_uInt32 ) )
	{
	sal_uInt32 c;
	rStream >> c;

	char buffer[128];
	sprintf( buffer, "%u", c );
	aRet += OUString::createFromAscii( buffer );
	nLength-= sizeof( sal_uInt32 );
	}

	return aRet;
	}

	rtl::OUString ElementConfig::dump_unistring( SvStream& rStream, sal_Size& nLength )
	{
	String aString;
	SvxMSDffManager::MSDFFReadZString( rStream, aString, nLength, sal_True );
	nLength = 0;
	return aString;
	}

	rtl::OUString ElementConfig::dump_float( SvStream& rStream, sal_Size& nLength )
	{
	OUString aRet;
	if( nLength >= sizeof( float ) )
	{
	float c;
	rStream >> c;

	char buffer[128];
	sprintf( buffer, "%g", (double)c );
	aRet += OUString::createFromAscii( buffer );
	nLength-= sizeof( float );
	}

	return aRet;
	}

	///////////////////////////////////////////////////////////////////////

	rtl::OUString ElementConfigContainer::format( SvStream& rStream, sal_Size& nLength ) const
	{
	OUString aRet;

	if( getType() == ETC_CONTAINER )
	{

	ElementConfigList::const_iterator aIter( maElementConfigList.begin() );
	const ElementConfigList::const_iterator aEnd( maElementConfigList.end() );
	while( (aIter != aEnd) && (nLength > 0) )
	{
	aRet += (*aIter++)->format( rStream, nLength );
	if( (aIter != aEnd) \|\| (nLength != 0) )
	aRet += OUString( RTL_CONSTASCII_USTRINGPARAM( "\n\r" ) );
	}

	if( nLength )
	aRet += ElementConfig::dump_hex( rStream, nLength );
	}
	else
	{
	aRet = getName();
	if( aRet.getLength() )
	aRet += OUString( RTL_CONSTASCII_USTRINGPARAM( " = " ) );

	OUString aValue;
	switch( getType() )
	{
	case ECT_BYTE: aValue = dump_byte( rStream, nLength ); break;
	case ECT_UINT: aValue = dump_uint( rStream, nLength ); break;
	case ECT_UNISTRING: aValue = dump_unistring( rStream, nLength ); break;
	case ETC_FLOAT: aValue = dump_float( rStream, nLength ); break;
	case ECT_HEXDUMP:
	default: aValue = dump_hex( rStream, nLength ); break;
	}

	if( aValue.getLength() )
	{
	if( !maElementConfigList.empty() )
	{
	ElementConfigList::const_iterator aIter( maElementConfigList.begin() );
	const ElementConfigList::const_iterator aEnd( maElementConfigList.end() );
	while( (aIter != aEnd) && (nLength > 0) )
	{
	ElementValueConfig* pValue = dynamic_cast< ElementValueConfig* >( (*aIter++).get() );
	if( pValue && pValue->getValue() == aValue )
	{
	aValue = pValue->getName();
	break;
	}
	}
	}
	}
	else
	{
	aValue = OUString( RTL_CONSTASCII_USTRINGPARAM("<empty!?>") );
	}

	aRet += aValue;
	}

	return aRet;
	}

	///////////////////////////////////////////////////////////////////////

	rtl::OUString SwitchElementConfig::format( SvStream& rStream, sal_Size& nLength ) const
	{
	OUString aValue;

	switch( getType() )
	{
	case ECT_BYTE: aValue = dump_byte( rStream, nLength ); break;
	case ECT_UINT: aValue = dump_uint( rStream, nLength ); break;
	case ETC_FLOAT: aValue = dump_float( rStream, nLength ); break;
	case ECT_UNISTRING: aValue = dump_unistring( rStream, nLength ); break;
	}

	if( aValue.getLength() )
	{
	ElementConfigList::const_iterator aIter( maElementConfigList.begin() );
	const ElementConfigList::const_iterator aEnd( maElementConfigList.end() );
	while( (aIter != aEnd) && (nLength > 0) )
	{
	CaseElementConfig* pCase = dynamic_cast< CaseElementConfig* >( (*aIter++).get() );
	if( pCase && pCase->getValue() == aValue )
	return pCase->format( rStream, nLength );
	}
	}

	return ElementConfig::dump_hex( rStream, nLength );
	}