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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*************************************************************************
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* Copyright 2000, 2010 Oracle and/or its affiliates.
*
* OpenOffice.org - a multi-platform office productivity suite
*
* This file is part of OpenOffice.org.
*
* OpenOffice.org is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 3
* only, as published by the Free Software Foundation.
*
* OpenOffice.org is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License version 3 for more details
* (a copy is included in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU Lesser General Public License
* version 3 along with OpenOffice.org. If not, see
* <http://www.openoffice.org/license.html>
* for a copy of the LGPLv3 License.
*
************************************************************************/
// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_unotools.hxx"
#include <unotools/atom.hxx>
using namespace utl;
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::util;
#define NMSP_UTIL ::com::sun::star::util
AtomProvider::AtomProvider()
{
m_nAtoms = 1;
}
AtomProvider::~AtomProvider()
{
}
int AtomProvider::getAtom( const ::rtl::OUString& rString, sal_Bool bCreate )
{
::boost::unordered_map< ::rtl::OUString, int, ::rtl::OUStringHash >::iterator it = m_aAtomMap.find( rString );
if( it != m_aAtomMap.end() )
return it->second;
if( ! bCreate )
return INVALID_ATOM;
m_aAtomMap[ rString ] = m_nAtoms;
m_aStringMap[ m_nAtoms ] = rString;
m_nAtoms++;
return m_nAtoms-1;
}
void AtomProvider::getAll( ::std::list< ::utl::AtomDescription >& atoms )
{
atoms.clear();
::boost::unordered_map< ::rtl::OUString, int, ::rtl::OUStringHash >::const_iterator it = m_aAtomMap.begin();
::utl::AtomDescription aDesc;
while( it != m_aAtomMap.end() )
{
aDesc.atom = it->second;
aDesc.description = it->first;
atoms.push_back( aDesc );
++it;
}
}
void AtomProvider::getRecent( int atom, ::std::list< ::utl::AtomDescription >& atoms )
{
atoms.clear();
::boost::unordered_map< ::rtl::OUString, int, ::rtl::OUStringHash >::const_iterator it = m_aAtomMap.begin();
::utl::AtomDescription aDesc;
while( it != m_aAtomMap.end() )
{
if( it->second > atom )
{
aDesc.atom = it->second;
aDesc.description = it->first;
atoms.push_back( aDesc );
}
++it;
}
}
const ::rtl::OUString& AtomProvider::getString( int nAtom ) const
{
static ::rtl::OUString aEmpty;
::boost::unordered_map< int, ::rtl::OUString, ::std::hash< int > >::const_iterator it = m_aStringMap.find( nAtom );
return it == m_aStringMap.end() ? aEmpty : it->second;
}
void AtomProvider::overrideAtom( int atom, const ::rtl::OUString& description )
{
m_aAtomMap[ description ] = atom;
m_aStringMap[ atom ] = description;
if( m_nAtoms <= atom )
m_nAtoms=atom+1;
}
sal_Bool AtomProvider::hasAtom( int atom ) const
{
return m_aStringMap.find( atom ) != m_aStringMap.end() ? sal_True : sal_False;
}
// -----------------------------------------------------------------------
MultiAtomProvider::MultiAtomProvider()
{
}
MultiAtomProvider::~MultiAtomProvider()
{
for( ::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::iterator it = m_aAtomLists.begin(); it != m_aAtomLists.end(); ++it )
delete it->second;
}
sal_Bool MultiAtomProvider::insertAtomClass( int atomClass )
{
::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::iterator it =
m_aAtomLists.find( atomClass );
if( it != m_aAtomLists.end() )
return sal_False;
m_aAtomLists[ atomClass ] = new AtomProvider();
return sal_True;
}
int MultiAtomProvider::getAtom( int atomClass, const ::rtl::OUString& rString, sal_Bool bCreate )
{
::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::iterator it =
m_aAtomLists.find( atomClass );
if( it != m_aAtomLists.end() )
return it->second->getAtom( rString, bCreate );
if( bCreate )
{
AtomProvider* pNewClass;
m_aAtomLists[ atomClass ] = pNewClass = new AtomProvider();
return pNewClass->getAtom( rString, bCreate );
}
return INVALID_ATOM;
}
int MultiAtomProvider::getLastAtom( int atomClass ) const
{
::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::const_iterator it =
m_aAtomLists.find( atomClass );
return it != m_aAtomLists.end() ? it->second->getLastAtom() : INVALID_ATOM;
}
void MultiAtomProvider::getRecent( int atomClass, int atom, ::std::list< ::utl::AtomDescription >& atoms )
{
::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::const_iterator it =
m_aAtomLists.find( atomClass );
if( it != m_aAtomLists.end() )
it->second->getRecent( atom, atoms );
else
atoms.clear();
}
const ::rtl::OUString& MultiAtomProvider::getString( int atomClass, int atom ) const
{
::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::const_iterator it =
m_aAtomLists.find( atomClass );
if( it != m_aAtomLists.end() )
return it->second->getString( atom );
static ::rtl::OUString aEmpty;
return aEmpty;
}
sal_Bool MultiAtomProvider::hasAtom( int atomClass, int atom ) const
{
::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::const_iterator it = m_aAtomLists.find( atomClass );
return it != m_aAtomLists.end() ? it->second->hasAtom( atom ) : sal_False;
}
void MultiAtomProvider::getClass( int atomClass, ::std::list< ::utl::AtomDescription >& atoms) const
{
::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::const_iterator it = m_aAtomLists.find( atomClass );
if( it != m_aAtomLists.end() )
it->second->getAll( atoms );
else
atoms.clear();
}
void MultiAtomProvider::overrideAtom( int atomClass, int atom, const ::rtl::OUString& description )
{
::boost::unordered_map< int, AtomProvider*, ::std::hash< int > >::const_iterator it = m_aAtomLists.find( atomClass );
if( it == m_aAtomLists.end() )
m_aAtomLists[ atomClass ] = new AtomProvider();
m_aAtomLists[ atomClass ]->overrideAtom( atom, description );
}
// -----------------------------------------------------------------------
AtomServer::AtomServer()
{
}
AtomServer::~AtomServer()
{
}
sal_Int32 AtomServer::getAtom( sal_Int32 atomClass, const ::rtl::OUString& description, sal_Bool create ) throw()
{
::osl::Guard< ::osl::Mutex > guard( m_aMutex );
return m_aProvider.getAtom( atomClass, description, create );
}
Sequence< Sequence< NMSP_UTIL::AtomDescription > > AtomServer::getClasses( const Sequence< sal_Int32 >& atomClasses ) throw()
{
::osl::Guard< ::osl::Mutex > guard( m_aMutex );
Sequence< Sequence< NMSP_UTIL::AtomDescription > > aRet( atomClasses.getLength() );
for( int i = 0; i < atomClasses.getLength(); i++ )
{
aRet.getArray()[i] = getClass( atomClasses.getConstArray()[i] );
}
return aRet;
}
Sequence< NMSP_UTIL::AtomDescription > AtomServer::getClass( sal_Int32 atomClass ) throw()
{
::osl::Guard< ::osl::Mutex > guard( m_aMutex );
::std::list< ::utl::AtomDescription > atoms;
m_aProvider.getClass( atomClass, atoms );
Sequence< NMSP_UTIL::AtomDescription > aRet( atoms.size() );
for( int i = aRet.getLength()-1; i >= 0; i-- )
{
aRet.getArray()[i].atom = atoms.back().atom;
aRet.getArray()[i].description = atoms.back().description;
atoms.pop_back();
}
return aRet;
}
Sequence< NMSP_UTIL::AtomDescription > AtomServer::getRecentAtoms( sal_Int32 atomClass, sal_Int32 atom ) throw()
{
::osl::Guard< ::osl::Mutex > guard( m_aMutex );
::std::list< ::utl::AtomDescription > atoms;
m_aProvider.getRecent( atomClass, atom, atoms );
Sequence< NMSP_UTIL::AtomDescription > aRet( atoms.size() );
for( int i = aRet.getLength()-1; i >= 0; i-- )
{
aRet.getArray()[i].atom = atoms.back().atom;
aRet.getArray()[i].description = atoms.back().description;
atoms.pop_back();
}
return aRet;
}
Sequence< ::rtl::OUString > AtomServer::getAtomDescriptions( const Sequence< AtomClassRequest >& atoms ) throw()
{
::osl::Guard< ::osl::Mutex > guard( m_aMutex );
int nStrings = 0, i;
for( i = 0; i < atoms.getLength(); i++ )
nStrings += atoms.getConstArray()[ i ].atoms.getLength();
Sequence< ::rtl::OUString > aRet( nStrings );
for( i = 0, nStrings = 0; i < atoms.getLength(); i++ )
{
const AtomClassRequest& rRequest = atoms.getConstArray()[i];
for( int n = 0; n < rRequest.atoms.getLength(); n++ )
aRet.getArray()[ nStrings++ ] = m_aProvider.getString( rRequest.atomClass, rRequest.atoms.getConstArray()[ n ] );
}
return aRet;
}
// -----------------------------------------------------------------------
AtomClient::AtomClient( const Reference< XAtomServer >& xServer ) :
m_xServer( xServer )
{
}
AtomClient::~AtomClient()
{
}
int AtomClient::getAtom( int atomClass, const ::rtl::OUString& description, sal_Bool bCreate )
{
int nAtom = m_aProvider.getAtom( atomClass, description, sal_False );
if( nAtom == INVALID_ATOM && bCreate )
{
try
{
nAtom = m_xServer->getAtom( atomClass, description, bCreate );
}
catch( RuntimeException& )
{
return INVALID_ATOM;
}
if( nAtom != INVALID_ATOM )
m_aProvider.overrideAtom( atomClass, nAtom, description );
}
return nAtom;
}
const ::rtl::OUString& AtomClient::getString( int atomClass, int atom )
{
static ::rtl::OUString aEmpty;
if( ! m_aProvider.hasAtom( atomClass, atom ) )
{
Sequence< NMSP_UTIL::AtomDescription > aSeq;
try
{
aSeq = m_xServer->getRecentAtoms( atomClass, m_aProvider.getLastAtom( atomClass ) );
}
catch( RuntimeException& )
{
return aEmpty;
}
const NMSP_UTIL::AtomDescription* pDescriptions = aSeq.getConstArray();
for( int i = 0; i < aSeq.getLength(); i++ )
m_aProvider.overrideAtom( atomClass,
pDescriptions[i].atom,
pDescriptions[i].description
);
if( ! m_aProvider.hasAtom( atomClass, atom ) )
{
// holes may occur by the above procedure!
Sequence< AtomClassRequest > aReq( 1 );
aReq.getArray()[0].atomClass = atomClass;
aReq.getArray()[0].atoms.realloc( 1 );
aReq.getArray()[0].atoms.getArray()[0] = atom;
Sequence< ::rtl::OUString > aRet;
try
{
aRet = m_xServer->getAtomDescriptions( aReq );
}
catch( RuntimeException& )
{
return aEmpty;
}
if( aRet.getLength() == 1 )
m_aProvider.overrideAtom( atomClass, atom, aRet.getConstArray()[0] );
}
}
return m_aProvider.getString( atomClass, atom );
}
void AtomClient::updateAtomClasses( const Sequence< sal_Int32 >& atomClasses )
{
Sequence< Sequence< NMSP_UTIL::AtomDescription > > aUpdate;
try
{
aUpdate = m_xServer->getClasses( atomClasses );
}
catch( RuntimeException& )
{
return;
}
for( int i = 0; i < atomClasses.getLength(); i++ )
{
int nClass = atomClasses.getConstArray()[i];
const Sequence< NMSP_UTIL::AtomDescription >& rClass = aUpdate.getConstArray()[i];
const NMSP_UTIL::AtomDescription* pDesc = rClass.getConstArray();
for( int n = 0; n < rClass.getLength(); n++, pDesc++ )
m_aProvider.overrideAtom( nClass, pDesc->atom, pDesc->description );
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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