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f8009e83c0bd60d7d9c755a8ce0e40c2f96035f2
libreoffice/sw/source/core/access/acctable.cxx
Vladimir Glazounov f8009e83c0 #65293# corrected typo
2002-04-19 11:59:38 +00:00

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/*************************************************************************
*
* $RCSfile: acctable.cxx,v $
*
* $Revision: 1.3 $
*
* last change: $Author: vg $ $Date: 2002-04-19 12:59:38 $
*
* The Contents of this file are made available subject to the terms of
* either of the following licenses
*
* - GNU Lesser General Public License Version 2.1
* - Sun Industry Standards Source License Version 1.1
*
* Sun Microsystems Inc., October, 2000
*
* GNU Lesser General Public License Version 2.1
* =============================================
* Copyright 2000 by Sun Microsystems, Inc.
* 901 San Antonio Road, Palo Alto, CA 94303, USA
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software Foundation.
*
* This library 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 for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*
*
* Sun Industry Standards Source License Version 1.1
* =================================================
* The contents of this file are subject to the Sun Industry Standards
* Source License Version 1.1 (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.openoffice.org/license.html.
*
* Software provided under this License is provided on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING,
* WITHOUT LIMITATION, WARRANTIES THAT THE SOFTWARE IS FREE OF DEFECTS,
* MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE, OR NON-INFRINGING.
* See the License for the specific provisions governing your rights and
* obligations concerning the Software.
*
* The Initial Developer of the Original Code is: Sun Microsystems, Inc.
*
* Copyright: 2000 by Sun Microsystems, Inc.
*
* All Rights Reserved.
*
* Contributor(s): _______________________________________
*
*
************************************************************************/
#ifdef PRECOMPILED
#include "core_pch.hxx"
#endif
#pragma hdrstop
#ifndef _VOS_MUTEX_HXX_ //autogen
#include <vos/mutex.hxx>
#endif
#ifndef _RTL_USTRBUF_HXX_
#include <rtl/ustrbuf.hxx>
#endif
#include <list>
#include <set>
#ifndef _DRAFTS_COM_SUN_STAR_ACCESSIBILITY_ACCESSIBLEROLE_HPP_
#include <drafts/com/sun/star/accessibility/AccessibleRole.hpp>
#endif
#ifndef _DRAFTS_COM_SUN_STAR_ACCESSIBILITY_ACCESSIBLESTATETYPE_HPP_
#include <drafts/com/sun/star/accessibility/AccessibleStateType.hpp>
#endif
#ifndef _DRAFTS_COM_SUN_STAR_ACCESSIBILITY_ACCESSIBLEEVENTID_HPP_
#include <drafts/com/sun/star/accessibility/AccessibleEventId.hpp>
#endif
#ifndef _DRAFTS_COM_SUN_STAR_ACCESSIBILITY_ACCESSIBLETABLEMODELCHANGE_HPP_
#include <drafts/com/sun/star/accessibility/AccessibleTableModelChange.hpp>
#endif
#ifndef _DRAFTS_COM_SUN_STAR_ACCESSIBILITY_ACCESSIBLETABLEMODELCHANGETYPE_HPP_
#include <drafts/com/sun/star/accessibility/AccessibleTableModelChangeType.hpp>
#endif
#ifndef _UTL_ACCESSIBLESTATESETHELPER_HXX_
#include <unotools/accessiblestatesethelper.hxx>
#endif
#ifndef _COM_SUN_STAR_UNO_RUNTIMEEXCEPTION_HPP_
#include <com/sun/star/uno/RuntimeException.hpp>
#endif
#ifndef _SV_SVAPP_HXX //autogen
#include <vcl/svapp.hxx>
#endif
#ifndef _FRMFMT_HXX
#include <frmfmt.hxx>
#endif
#ifndef _TABFRM_HXX
#include <tabfrm.hxx>
#endif
#ifndef _SWTABLE_HXX
#include <swtable.hxx>
#endif
#ifndef _CRSRSH_HXX
#include "crsrsh.hxx"
#endif
#ifndef _VISCRS_HXX
#include "viscrs.hxx"
#endif
#ifndef _ACCFRMOBJSLIST_HXX
#include <accfrmobjslist.hxx>
#endif
#ifndef _ACCMAP_HXX
#include "accmap.hxx"
#endif
#ifndef _ACCESS_HRC
#include "access.hrc"
#endif
#ifndef _ACCTABLE_HXX
#include <acctable.hxx>
#endif
using namespace ::com::sun::star::lang;
using namespace ::com::sun::star::uno;
using namespace ::drafts::com::sun::star::accessibility;
using namespace ::rtl;
const sal_Char sServiceName[] = "com.sun.star.table.AccessibleTableView";
const sal_Char sImplementationName[] = "SwAccessibleTable";
class SwAccessibleTableEvent_Impl
{
const SwFrm *mpFrm;
sal_Int32 mnRow;
sal_Int32 mnColumn;
sal_Int32 mnRowExtent;
sal_Int32 mnColumnExtent;
public:
inline SwAccessibleTableEvent_Impl( const SwFrm *pFrm,
sal_Int32 nRow, sal_Int32 nColumn,
sal_Int32 nRowExtent,
sal_Int32 nColumnExtent );
const SwFrm *GetFrm() const { return mpFrm; }
const sal_Int32 GetRow() const { return mnRow; }
const sal_Int32 GetColumn() const { return mnColumn; }
const sal_Int32 GetRowExtent() const { return mnRowExtent; }
const sal_Int32 GetColumnExtent() const { return mnColumnExtent; }
};
inline SwAccessibleTableEvent_Impl::SwAccessibleTableEvent_Impl(
const SwFrm *pFrm,
sal_Int32 nRow, sal_Int32 nColumn,
sal_Int32 nRowExtent,
sal_Int32 nColumnExtent ) :
mpFrm( pFrm ), mnRow( nRow ), mnColumn( nColumn ),
mnRowExtent( nRowExtent ), mnColumnExtent( nColumnExtent )
{
}
typedef ::std::list < SwAccessibleTableEvent_Impl > _SwAccessibleTableEventList_Impl;
class SwAccessibleTableEventList_Impl : public _SwAccessibleTableEventList_Impl
{
public:
SwAccessibleTableEventList_Impl() : _SwAccessibleTableEventList_Impl() {}
};
//------------------------------------------------------------------------------
typedef ::std::less < sal_Int32 > Int32Less_Impl;
typedef ::std::set < sal_Int32, Int32Less_Impl > Int32Set_Impl;
class SwAccTableSelHander_Impl
{
public:
virtual void Unselect( sal_Int32 nRowOrCol, sal_Int32 nExt ) = 0;
};
//------------------------------------------------------------------------------
class SwAccessibleTableData_Impl
{
Int32Set_Impl maRows;
Int32Set_Impl maColumns;
Point maTabFrmPos;
const SwTabFrm *mpTabFrm;
void CollectData( const Point& rPos, const SwFrm *pFrm );
sal_Bool FindCell( const Point& rPos, const SwFrm *pFrm ,
sal_Bool bExact, const SwFrm *& rFrm ) const;
void GetSelection( const Point& rTabPos, const SwRect& rArea,
const SwSelBoxes& rSelBoxes, const SwFrm *pFrm,
SwAccTableSelHander_Impl& rSelHdl,
sal_Bool bColumns ) const;
public:
SwAccessibleTableData_Impl( const SwTabFrm *pTabFrm );
const Int32Set_Impl& GetRows() const { return maRows; }
const Int32Set_Impl& GetColumns() const { return maColumns; }
inline Int32Set_Impl::const_iterator GetRowIter( sal_Int32 nRow ) const;
inline Int32Set_Impl::const_iterator GetColumnIter( sal_Int32 nCol ) const;
const SwFrm *GetCell( sal_Int32 nRow, sal_Int32 nColumn, sal_Bool bExact,
SwAccessibleTable *pThis ) const
throw(IndexOutOfBoundsException );
const SwFrm *GetCellAtPos( sal_Int32 nLeft, sal_Int32 nTop,
sal_Bool bExact ) const;
inline sal_Int32 GetRowCount() const;
inline sal_Int32 GetColumnCount() const;
void GetSelection( sal_Int32 nStart, sal_Int32 nEnd,
const SwSelBoxes& rSelBoxes,
SwAccTableSelHander_Impl& rSelHdl,
sal_Bool bColumns ) const;
void CheckRowAndCol( sal_Int32 nRow, sal_Int32 nCol,
SwAccessibleTable *pThis ) const
throw(IndexOutOfBoundsException );
void GetRowColumnAndExtent( const SwRect& rBox,
sal_Int32& rRow, sal_Int32& rColumn,
sal_Int32& rRowExtend,
sal_Int32& rColumnExtend );
const Point& GetTablePos() const { return maTabFrmPos; }
void SetTablePos( const Point& rPos ) { maTabFrmPos = rPos; }
};
void SwAccessibleTableData_Impl::CollectData( const Point& rPos,
const SwFrm *pFrm )
{
const SwFrmOrObjSList aList( pFrm );
SwFrmOrObjSList::const_iterator aIter( aList.begin() );
SwFrmOrObjSList::const_iterator aEndIter( aList.end() );
while( aIter != aEndIter )
{
const SwFrmOrObj& rLower = *aIter;
const SwFrm *pLower = rLower.GetSwFrm();
if( pLower )
{
if( pLower->IsRowFrm() )
{
maRows.insert( pLower->Frm().Top() - rPos.Y() );
CollectData( rPos, pLower );
}
else if( pLower->IsCellFrm() && rLower.IsAccessible() )
{
maColumns.insert( pLower->Frm().Left() - rPos.X() );
}
else
{
CollectData( rPos, pLower );
}
}
++aIter;
}
}
sal_Bool SwAccessibleTableData_Impl::FindCell(
const Point& rPos, const SwFrm *pFrm, sal_Bool bExact,
const SwFrm *& rRet ) const
{
sal_Bool bFound = sal_False;
const SwFrmOrObjSList aList( pFrm );
SwFrmOrObjSList::const_iterator aIter( aList.begin() );
SwFrmOrObjSList::const_iterator aEndIter( aList.end() );
while( !bFound && aIter != aEndIter )
{
const SwFrmOrObj& rLower = *aIter;
const SwFrm *pLower = rLower.GetSwFrm();
ASSERT( pLower, "child should be a frame" );
if( pLower )
{
if( rLower.IsAccessible() )
{
ASSERT( pLower->IsCellFrm(), "lower is not a cell frame" );
const SwRect& rFrm = pLower->Frm();
if( rFrm.Right() >= rPos.X() && rFrm.Bottom() >= rPos.Y() )
{
// We have found the cell
ASSERT( rFrm.Left() <= rPos.X() && rFrm.Top() <= rPos.Y(),
"find frame moved to far!" );
bFound = sal_True;
if( !bExact ||
(rFrm.Top() == rPos.Y() && rFrm.Left() == rPos.Y() ) )
{
rRet = pLower;
}
}
}
else
{
bFound = FindCell( rPos, pLower, bExact, rRet );
}
}
++aIter;
}
return bFound;
}
void SwAccessibleTableData_Impl::GetSelection(
const Point& rTabPos,
const SwRect& rArea,
const SwSelBoxes& rSelBoxes,
const SwFrm *pFrm,
SwAccTableSelHander_Impl& rSelHdl,
sal_Bool bColumns ) const
{
const SwFrmOrObjSList aList( pFrm );
SwFrmOrObjSList::const_iterator aIter( aList.begin() );
SwFrmOrObjSList::const_iterator aEndIter( aList.end() );
while( aIter != aEndIter )
{
const SwFrmOrObj& rLower = *aIter;
const SwFrm *pLower = rLower.GetSwFrm();
ASSERT( pLower, "child should be a frame" );
const SwRect& rBox = rLower.GetBox();
if( pLower && rBox.IsOver( rArea ) )
{
if( rLower.IsAccessible() )
{
ASSERT( pLower->IsCellFrm(), "lower is not a cell frame" );
const SwCellFrm *pCFrm =
static_cast < const SwCellFrm * >( pLower );
SwTableBox *pBox =
const_cast< SwTableBox *>( pCFrm->GetTabBox() ); //SVPtrArr!
if( !rSelBoxes.Seek_Entry( pBox ) )
{
const Int32Set_Impl rRowsOrCols =
bColumns ? maColumns : maRows;
sal_Int32 nPos = bColumns ? (rBox.Left() - rTabPos.X())
: (rBox.Top() - rTabPos.Y());
Int32Set_Impl::const_iterator aSttRowOrCol(
rRowsOrCols.lower_bound( nPos ) );
sal_Int32 nRowOrCol =
static_cast< sal_Int32 >( ::std::distance(
rRowsOrCols.begin(), aSttRowOrCol ) );
nPos = bColumns ? (rBox.Right() - rTabPos.X())
: (rBox.Bottom() - rTabPos.Y());
Int32Set_Impl::const_iterator aEndRowOrCol(
rRowsOrCols.upper_bound( nPos ) );
sal_Int32 nExt =
static_cast< sal_Int32 >( ::std::distance(
aSttRowOrCol, aEndRowOrCol ) );
rSelHdl.Unselect( nRowOrCol, nExt );
}
}
else
{
GetSelection( rTabPos, rArea, rSelBoxes, pLower, rSelHdl,
bColumns );
}
}
++aIter;
}
}
const SwFrm *SwAccessibleTableData_Impl::GetCell(
sal_Int32 nRow, sal_Int32 nColumn, sal_Bool bExact,
SwAccessibleTable *pThis ) const
throw(IndexOutOfBoundsException )
{
CheckRowAndCol( nRow, nColumn, pThis );
Int32Set_Impl::const_iterator aSttCol( GetColumnIter( nColumn ) );
Int32Set_Impl::const_iterator aSttRow( GetRowIter( nRow ) );
const SwFrm *pCellFrm = GetCellAtPos( *aSttCol, *aSttRow, sal_False );
return pCellFrm;
}
void SwAccessibleTableData_Impl::GetSelection(
sal_Int32 nStart, sal_Int32 nEnd,
const SwSelBoxes& rSelBoxes,
SwAccTableSelHander_Impl& rSelHdl,
sal_Bool bColumns ) const
{
SwRect aArea( mpTabFrm->Frm() );
Point aPos( aArea.Pos() );
const Int32Set_Impl& rRowsOrColumns = bColumns ? maColumns : maRows;
if( nStart > 0 )
{
Int32Set_Impl::const_iterator aStt( rRowsOrColumns.begin() );
::std::advance( aStt,
static_cast< Int32Set_Impl::difference_type >( nStart ) );
if( bColumns )
aArea.Left( *aStt + aPos.X() );
else
aArea.Top( *aStt + aPos.Y() );
}
if( nEnd < static_cast< sal_Int32 >( rRowsOrColumns.size() ) )
{
Int32Set_Impl::const_iterator aEnd( rRowsOrColumns.begin() );
::std::advance( aEnd,
static_cast< Int32Set_Impl::difference_type >( nEnd ) );
if( bColumns )
aArea.Right( *aEnd + aPos.X() - 1 );
else
aArea.Bottom( *aEnd + aPos.Y() - 1 );
}
GetSelection( aPos, aArea, rSelBoxes, mpTabFrm, rSelHdl, bColumns );
}
const SwFrm *SwAccessibleTableData_Impl::GetCellAtPos(
sal_Int32 nLeft, sal_Int32 nTop, sal_Bool bExact ) const
{
Point aPos( mpTabFrm->Frm().Pos() );
aPos.Move( nLeft, nTop );
const SwFrm *pRet = 0;
FindCell( aPos, mpTabFrm, bExact, pRet );
return pRet;
}
inline sal_Int32 SwAccessibleTableData_Impl::GetRowCount() const
{
return static_cast< sal_Int32 >( maRows.size() );
}
inline sal_Int32 SwAccessibleTableData_Impl::GetColumnCount() const
{
return static_cast< sal_Int32 >( maColumns.size() );
}
SwAccessibleTableData_Impl::SwAccessibleTableData_Impl(
const SwTabFrm *pTabFrm ) :
mpTabFrm( pTabFrm ),
maTabFrmPos( pTabFrm->Frm().Pos() )
{
CollectData( mpTabFrm->Frm().Pos(), mpTabFrm );
}
inline Int32Set_Impl::const_iterator SwAccessibleTableData_Impl::GetRowIter(
sal_Int32 nRow ) const
{
Int32Set_Impl::const_iterator aCol( GetRows().begin() );
if( nRow > 0 )
{
::std::advance( aCol,
static_cast< Int32Set_Impl::difference_type >( nRow ) );
}
return aCol;
}
inline Int32Set_Impl::const_iterator SwAccessibleTableData_Impl::GetColumnIter(
sal_Int32 nColumn ) const
{
Int32Set_Impl::const_iterator aCol = GetColumns().begin();
if( nColumn > 0 )
{
::std::advance( aCol,
static_cast< Int32Set_Impl::difference_type >( nColumn ) );
}
return aCol;
}
void SwAccessibleTableData_Impl::CheckRowAndCol(
sal_Int32 nRow, sal_Int32 nCol, SwAccessibleTable *pThis ) const
throw(IndexOutOfBoundsException )
{
if( ( nRow < 0 || nRow >= static_cast< sal_Int32 >( maRows.size() ) ) ||
( nCol < 0 || nCol >= static_cast< sal_Int32 >( maColumns.size() ) ) )
{
Reference < XAccessibleTable > xThis( pThis );
IndexOutOfBoundsException aExcept(
OUString( RTL_CONSTASCII_USTRINGPARAM(
"row or column index out of range") ),
xThis );
throw aExcept;
}
}
void SwAccessibleTableData_Impl::GetRowColumnAndExtent(
const SwRect& rBox,
sal_Int32& rRow, sal_Int32& rColumn,
sal_Int32& rRowExtent, sal_Int32& rColumnExtent )
{
Int32Set_Impl::const_iterator aStt(
maRows.lower_bound( rBox.Top() - maTabFrmPos.Y() ) );
Int32Set_Impl::const_iterator aEnd(
maRows.upper_bound( rBox.Bottom() - maTabFrmPos.Y() ) );
rRow =
static_cast< sal_Int32 >( ::std::distance( maRows.begin(), aStt ) );
rRowExtent =
static_cast< sal_Int32 >( ::std::distance( aStt, aEnd ) );
aStt = maColumns.lower_bound( rBox.Left() - maTabFrmPos.X() );
aEnd = maColumns.upper_bound( rBox.Right() - maTabFrmPos.X() );
rColumn =
static_cast< sal_Int32 >( ::std::distance( maColumns.begin(), aStt ) );
rColumnExtent =
static_cast< sal_Int32 >( ::std::distance( aStt, aEnd ) );
}
//------------------------------------------------------------------------------
class SwAccSingleTableSelHander_Impl : public SwAccTableSelHander_Impl
{
sal_Bool bSelected;
public:
inline SwAccSingleTableSelHander_Impl();
inline sal_Bool IsSelected() const { return bSelected; }
virtual void Unselect( sal_Int32, sal_Int32 );
};
inline SwAccSingleTableSelHander_Impl::SwAccSingleTableSelHander_Impl() :
bSelected( sal_True )
{
}
void SwAccSingleTableSelHander_Impl::Unselect( sal_Int32, sal_Int32 )
{
bSelected = sal_False;
}
//------------------------------------------------------------------------------
class SwAccAllTableSelHander_Impl : public SwAccTableSelHander_Impl
{
::std::vector< sal_Bool > aSelected;
sal_Int32 nCount;
public:
inline SwAccAllTableSelHander_Impl( sal_Int32 nSize );
Sequence < sal_Int32 > GetSelSequence();
virtual void Unselect( sal_Int32 nRowOrCol, sal_Int32 nExt );
};
inline SwAccAllTableSelHander_Impl::SwAccAllTableSelHander_Impl( sal_Int32 nSize ) :
aSelected( nSize, sal_True ),
nCount( nSize )
{
}
Sequence < sal_Int32 > SwAccAllTableSelHander_Impl::GetSelSequence()
{
ASSERT( nCount >= 0, "underflow" );
Sequence < sal_Int32 > aRet( nCount );
sal_Int32 *pRet = aRet.getArray();
sal_Int32 nPos = 0;
size_t nSize = aSelected.size();
for( size_t i=0; i < nSize && nPos < nCount; i++ )
{
if( aSelected[i] )
{
*pRet++ = i;
nPos++;
}
}
ASSERT( nPos == nCount, "count is wrong" );
return aRet;
}
void SwAccAllTableSelHander_Impl::Unselect( sal_Int32 nRowOrCol,
sal_Int32 nExt )
{
ASSERT( static_cast< size_t >( nRowOrCol ) < aSelected.size(),
"index to large" );
ASSERT( static_cast< size_t >( nRowOrCol+nExt ) <= aSelected.size(),
"extent to large" );
while( nExt )
{
if( aSelected[static_cast< size_t >( nRowOrCol )] )
{
aSelected[static_cast< size_t >( nRowOrCol )] = sal_False;
nCount--;
}
nExt--;
nRowOrCol++;
}
}
//------------------------------------------------------------------------------
const SwSelBoxes *SwAccessibleTable::GetSelBoxes() const
{
const SwSelBoxes *pSelBoxes = 0;
const ViewShell *pVSh = GetMap()->GetShell();
if( pVSh && pVSh->ISA( SwCrsrShell ) )
{
const SwCrsrShell *pCSh = static_cast< const SwCrsrShell * >( pVSh );
if( pCSh->IsTableMode() )
{
pSelBoxes = &pCSh->GetTableCrsr()->GetBoxes();
}
}
return pSelBoxes;
}
void SwAccessibleTable::AppendEvent( const SwFrm *pFrm, const SwRect& rBox )
{
sal_Int32 nRow, nCol, nRowExt, nColExt;
mpTableData->GetRowColumnAndExtent( rBox, nRow, nCol, nRowExt, nColExt );
if( !mpEvents )
mpEvents = new SwAccessibleTableEventList_Impl;
SwAccessibleTableEvent_Impl aEvent( pFrm, nRow, nCol, nRowExt, nColExt );
mpEvents->push_back( aEvent );
}
void SwAccessibleTable::FireTableChangeEvent(
const SwAccessibleTableData_Impl *pTableData )
{
if( !pTableData )
pTableData = &GetTableData();
AccessibleTableModelChange aModelChange;
aModelChange.Type = AccessibleTableModelChangeType::UPDATE;
aModelChange.FirstRow = 0;
aModelChange.LastRow = pTableData->GetRowCount() - 1;
aModelChange.FirstColumn = 0;
aModelChange.LastColumn = pTableData->GetColumnCount() - 1;
AccessibleEventObject aEvent;
aEvent.EventId = AccessibleEventId::ACCESSIBLE_TABLE_MODEL_CHANGED;
aEvent.NewValue <<= aModelChange;
FireAccessibleEvent( aEvent );
}
void SwAccessibleTable::GetStates(
::utl::AccessibleStateSetHelper& rStateSet )
{
SwAccessibleContext::GetStates( rStateSet );
}
SwAccessibleTable::SwAccessibleTable(
SwAccessibleMap *pMap,
const SwTabFrm *pTabFrm ) :
SwAccessibleContext( pMap, AccessibleRole::TABLE, pTabFrm ),
mpTableData( 0 ),
mpEvents( 0 )
{
vos::OGuard aGuard(Application::GetSolarMutex());
const String& rName = pTabFrm->GetFmt()->GetName();
OUStringBuffer aBuffer( rName.Len() + 4 );
aBuffer.append( OUString(rName) );
aBuffer.append( static_cast<sal_Unicode>( '-' ) );
aBuffer.append( static_cast<sal_Int32>( pTabFrm->GetPhyPageNum() ) );
SetName( aBuffer.makeStringAndClear() );
}
SwAccessibleTable::~SwAccessibleTable()
{
vos::OGuard aGuard(Application::GetSolarMutex());
delete mpTableData;
ASSERT( !mpEvents, "events are existing" );
delete mpEvents;
}
Any SwAccessibleTable::queryInterface( const Type& rType )
throw (RuntimeException)
{
Any aRet;
if ( rType == ::getCppuType((Reference<XAccessibleTable> *)0) )
{
// Reference<XAccessibleTable> xThis( this );
// aRet <<= xThis;
}
else
{
aRet = SwAccessibleContext::queryInterface(rType);
}
return aRet;
}
void SwAccessibleTable::UpdateTableData()
{
const SwTabFrm* pTabFrm = static_cast<const SwTabFrm*>( GetFrm() );
delete mpTableData;
mpTableData = new SwAccessibleTableData_Impl( pTabFrm );
delete mpEvents;
mpEvents = 0;
}
void SwAccessibleTable::ClearTableData()
{
delete mpTableData;
mpTableData = 0;
delete mpEvents;
mpEvents = 0;
}
OUString SAL_CALL SwAccessibleTable::getAccessibleDescription (void)
throw (::com::sun::star::uno::RuntimeException)
{
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleContext )
OUString sArg1( static_cast< const SwTabFrm * >( GetFrm() )
->GetFmt()->GetName() );
OUString sArg2( GetFormattedPageNumber() );
return GetResource( STR_ACCESS_TABLE_DESC, &sArg1, &sArg2 );
}
sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleRowCount()
throw (RuntimeException)
{
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
return GetTableData().GetRowCount();
}
sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleColumnCount( )
throw (RuntimeException)
{
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
return GetTableData().GetColumnCount();
}
OUString SAL_CALL SwAccessibleTable::getAccessibleRowDescription(
sal_Int32 nRow )
throw (IndexOutOfBoundsException, RuntimeException)
{
// TODO: Is there any reasonable we can do here?
OUString sDesc;
return sDesc;
}
OUString SAL_CALL SwAccessibleTable::getAccessibleColumnDescription(
sal_Int32 nColumn )
throw (IndexOutOfBoundsException, RuntimeException)
{
// TODO: Is there any reasonable we can do here?
OUString sDesc;
return sDesc;
}
sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleRowExtentAt(
sal_Int32 nRow, sal_Int32 nColumn )
throw (IndexOutOfBoundsException, RuntimeException)
{
sal_Int32 nExtend = -1;
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
GetTableData().CheckRowAndCol( nRow, nColumn, this );
Int32Set_Impl::const_iterator aSttCol(
GetTableData().GetColumnIter( nColumn ) );
Int32Set_Impl::const_iterator aSttRow(
GetTableData().GetRowIter( nRow ) );
const SwFrm *pCellFrm = GetTableData().GetCellAtPos( *aSttCol, *aSttRow,
sal_False );
if( pCellFrm )
{
sal_Int32 nBottom = pCellFrm->Frm().Bottom();
nBottom -= GetFrm()->Frm().Top();
Int32Set_Impl::const_iterator aEndRow(
GetTableData().GetRows().upper_bound( nBottom ) );
nExtend =
static_cast< sal_Int32 >( ::std::distance( aSttRow, aEndRow ) );
}
return nExtend;
}
sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleColumnExtentAt(
sal_Int32 nRow, sal_Int32 nColumn )
throw (IndexOutOfBoundsException, RuntimeException)
{
sal_Int32 nExtend = -1;
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
GetTableData().CheckRowAndCol( nRow, nColumn, this );
Int32Set_Impl::const_iterator aSttCol(
GetTableData().GetColumnIter( nColumn ) );
Int32Set_Impl::const_iterator aSttRow(
GetTableData().GetRowIter( nRow ) );
const SwFrm *pCellFrm = GetTableData().GetCellAtPos( *aSttCol, *aSttRow,
sal_False );
if( pCellFrm )
{
sal_Int32 nRight = pCellFrm->Frm().Right();
nRight -= GetFrm()->Frm().Left();
Int32Set_Impl::const_iterator aEndCol(
GetTableData().GetColumns().upper_bound( nRight ) );
nExtend =
static_cast< sal_Int32 >( ::std::distance( aSttCol, aEndCol ) );
}
return nExtend;
}
Reference< XAccessibleTable > SAL_CALL
SwAccessibleTable::getAccessibleRowHeaders( )
throw (RuntimeException)
{
// Column headers aren't supported
Reference< XAccessibleTable > xRet;
return xRet;
}
Reference< XAccessibleTable > SAL_CALL
SwAccessibleTable::getAccessibleColumnHeaders( )
throw (RuntimeException)
{
// TODO Column headers aren't supported, arent they?
Reference< XAccessibleTable > xRet;
return xRet;
}
Sequence< sal_Int32 > SAL_CALL SwAccessibleTable::getSelectedAccessibleRows()
throw (RuntimeException)
{
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
const SwSelBoxes *pSelBoxes = GetSelBoxes();
if( pSelBoxes )
{
sal_Int32 nRows = GetTableData().GetRowCount();
SwAccAllTableSelHander_Impl aSelRows( nRows );
GetTableData().GetSelection( 0, nRows, *pSelBoxes, aSelRows,
sal_False );
return aSelRows.GetSelSequence();
}
else
{
Sequence< sal_Int32 > aRet( 0 );
return aRet;
}
}
Sequence< sal_Int32 > SAL_CALL SwAccessibleTable::getSelectedAccessibleColumns()
throw (RuntimeException)
{
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
const SwSelBoxes *pSelBoxes = GetSelBoxes();
if( pSelBoxes )
{
sal_Int32 nCols = GetTableData().GetColumnCount();
SwAccAllTableSelHander_Impl aSelCols( nCols );
GetTableData().GetSelection( 0, nCols, *pSelBoxes, aSelCols, sal_True );
return aSelCols.GetSelSequence();
}
else
{
Sequence< sal_Int32 > aRet( 0 );
return aRet;
}
}
sal_Bool SAL_CALL SwAccessibleTable::isAccessibleRowSelected( sal_Int32 nRow )
throw (IndexOutOfBoundsException, RuntimeException)
{
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
GetTableData().CheckRowAndCol( nRow, 0, this );
sal_Bool bRet;
const SwSelBoxes *pSelBoxes = GetSelBoxes();
if( pSelBoxes )
{
SwAccSingleTableSelHander_Impl aSelRow;
GetTableData().GetSelection( nRow, nRow+1, *pSelBoxes, aSelRow,
sal_False );
bRet = aSelRow.IsSelected();
}
else
{
bRet = sal_False;
}
return bRet;
}
sal_Bool SAL_CALL SwAccessibleTable::isAccessibleColumnSelected(
sal_Int32 nColumn )
throw (IndexOutOfBoundsException, RuntimeException)
{
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
GetTableData().CheckRowAndCol( 0, nColumn, this );
sal_Bool bRet;
const SwSelBoxes *pSelBoxes = GetSelBoxes();
if( pSelBoxes )
{
SwAccSingleTableSelHander_Impl aSelCol;
GetTableData().GetSelection( nColumn, nColumn+1, *pSelBoxes, aSelCol,
sal_True );
bRet = aSelCol.IsSelected();
}
else
{
bRet = sal_False;
}
return bRet;
}
Reference< XAccessible > SAL_CALL SwAccessibleTable::getAccessibleCellAt(
sal_Int32 nRow, sal_Int32 nColumn )
throw (IndexOutOfBoundsException, RuntimeException)
{
Reference< XAccessible > xRet;
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
const SwFrm *pCellFrm =
GetTableData().GetCell( nRow, nColumn, sal_False, this );
if( pCellFrm )
xRet = GetMap()->GetContext( pCellFrm, sal_True );
return xRet;
}
Reference< XAccessible > SAL_CALL SwAccessibleTable::getAccessibleCaption()
throw (RuntimeException)
{
// captions aren't supported
Reference< XAccessible > xRet;
return xRet;
}
Reference< XAccessible > SAL_CALL SwAccessibleTable::getAccessibleSummary()
throw (RuntimeException)
{
// summaries aren't supported
Reference< XAccessible > xRet;
return xRet;
}
sal_Bool SAL_CALL SwAccessibleTable::isAccessibleSelected(
sal_Int32 nRow, sal_Int32 nColumn )
throw (IndexOutOfBoundsException, RuntimeException)
{
sal_Bool bRet = sal_False;
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
const SwFrm *pFrm =
GetTableData().GetCell( nRow, nColumn, sal_False, this );
if( pFrm && pFrm->IsCellFrm() )
{
const SwSelBoxes *pSelBoxes = GetSelBoxes();
if( pSelBoxes )
{
const SwCellFrm *pCFrm = static_cast < const SwCellFrm * >( pFrm );
SwTableBox *pBox =
const_cast< SwTableBox *>( pCFrm->GetTabBox() ); //SVPtrArr!
bRet = pSelBoxes->Seek_Entry( pBox );
}
}
return bRet;
}
sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleIndex(
sal_Int32 nRow, sal_Int32 nColumn )
throw (IndexOutOfBoundsException, RuntimeException)
{
sal_Int32 nRet = -1;
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
SwFrmOrObj aCell( GetTableData().GetCell( nRow, nColumn, sal_False, this ));
if( aCell.IsValid() )
nRet = GetChildIndex( aCell );
return nRet;
}
sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleRow( sal_Int32 nChildIndex )
throw (IndexOutOfBoundsException, RuntimeException)
{
sal_Int32 nRet = -1;
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
SwFrmOrObj aCell( GetChild( nChildIndex ) );
if( aCell.GetSwFrm() )
{
sal_Int32 nTop = aCell.GetSwFrm()->Frm().Top();
nTop -= GetFrm()->Frm().Top();
Int32Set_Impl::const_iterator aRow(
GetTableData().GetRows().lower_bound( nTop ) );
nRet = static_cast< sal_Int32 >( ::std::distance(
GetTableData().GetRows().begin(), aRow ) );
}
return nRet;
}
sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleColumn(
sal_Int32 nChildIndex )
throw (IndexOutOfBoundsException, RuntimeException)
{
sal_Int32 nRet = -1;
vos::OGuard aGuard(Application::GetSolarMutex());
CHECK_FOR_DEFUNC( XAccessibleTable )
SwFrmOrObj aCell( GetChild( nChildIndex ) );
if( aCell.GetSwFrm() )
{
sal_Int32 nLeft = aCell.GetSwFrm()->Frm().Left();
nLeft -= GetFrm()->Frm().Left();
Int32Set_Impl::const_iterator aCol(
GetTableData().GetColumns().lower_bound( nLeft ) );
nRet = static_cast< sal_Int32 >( ::std::distance(
GetTableData().GetColumns().begin(), aCol ) );
}
return nRet;
}
OUString SAL_CALL SwAccessibleTable::getImplementationName()
throw( RuntimeException )
{
return OUString(RTL_CONSTASCII_USTRINGPARAM(sImplementationName));
}
sal_Bool SAL_CALL SwAccessibleTable::supportsService(
const ::rtl::OUString& sTestServiceName)
throw (::com::sun::star::uno::RuntimeException)
{
return sTestServiceName.equalsAsciiL( sServiceName, sizeof(sServiceName)-1 );
}
Sequence< OUString > SAL_CALL SwAccessibleTable::getSupportedServiceNames()
throw( ::com::sun::star::uno::RuntimeException )
{
Sequence< OUString > aRet(1);
OUString* pArray = aRet.getArray();
pArray[0] = OUString( RTL_CONSTASCII_USTRINGPARAM(sServiceName) );
return aRet;
}
void SwAccessibleTable::InvalidatePosOrSize( const SwRect& rOldBox )
{
vos::OGuard aGuard(Application::GetSolarMutex());
if( HasTableData() )
{
GetTableData().SetTablePos( GetFrm()->Frm().Pos() );
const SwTabFrm* pTabFrm = static_cast<const SwTabFrm*>( GetFrm() );
SwAccessibleTableData_Impl *pOldTableData = mpTableData;
if( mpEvents )
{
mpTableData = new SwAccessibleTableData_Impl( pTabFrm );
sal_Bool bFireEvent = sal_False;
SwAccessibleTableEventList_Impl::const_iterator aIter( mpEvents->begin() );
SwAccessibleTableEventList_Impl::const_iterator aEndIter( mpEvents->end() );
while( !bFireEvent && aIter != aEndIter )
{
const SwAccessibleTableEvent_Impl& rEvent = *aIter;
if( rEvent.GetFrm() && rEvent.GetRowExtent() > 0 &&
rEvent.GetColumnExtent() > 0 )
{
// the frame did extist before.
sal_Int32 nRow, nCol, nRowExt, nColExt;
mpTableData->GetRowColumnAndExtent(
rEvent.GetFrm()->Frm(), nRow, nCol, nRowExt, nColExt );
if( nRow != rEvent.GetRow() || nCol != rEvent.GetColumn() ||
nRowExt != rEvent.GetRowExtent() ||
nColExt != rEvent.GetColumnExtent() )
{
bFireEvent = sal_True;
}
}
else
{
// in any other case currently change the whole model.
bFireEvent = sal_True;
}
++aIter;
}
if( bFireEvent )
FireTableChangeEvent( pOldTableData );
delete mpEvents;
mpEvents = 0;
}
else
{
mpTableData = 0;
}
delete pOldTableData;
}
SwAccessibleContext::InvalidatePosOrSize( rOldBox );
}
void SwAccessibleTable::DisposeChild( const SwFrm *pFrm,
sal_Bool bRecursive )
{
vos::OGuard aGuard(Application::GetSolarMutex());
if( HasTableData() )
{
if( GetMap()->GetShell()->ActionPend() )
{
AppendDisposeEvent( pFrm );
}
else
{
const SwTabFrm* pTabFrm = static_cast<const SwTabFrm*>( GetFrm() );
SwAccessibleTableData_Impl *pOldTableData = mpTableData;
mpTableData = new SwAccessibleTableData_Impl( pTabFrm );
FireTableChangeEvent( pOldTableData );
delete pOldTableData;
}
}
// There are two reason why this method has been called. The first one
// is there is no context for pFrm. The method is them called by
// the map, and we have to call our superclass.
// The other situation is that we have been call by a call to get notified
// about its change. We then must not call the superclass
Reference< XAccessible > xAcc( GetMap()->GetContext( pFrm, sal_False ) );
if( !xAcc.is() )
SwAccessibleContext::DisposeChild( pFrm, bRecursive );
}
void SwAccessibleTable::InvalidateChildPosOrSize( const SwFrm *pFrm,
const SwRect& rOldBox )
{
vos::OGuard aGuard(Application::GetSolarMutex());
if( HasTableData() )
{
if( GetMap()->GetShell()->ActionPend() )
{
AppendPosOrSizeEvent( pFrm, rOldBox );
}
else
{
const SwTabFrm* pTabFrm = static_cast<const SwTabFrm*>( GetFrm() );
SwAccessibleTableData_Impl *pOldTableData = mpTableData;
mpTableData = new SwAccessibleTableData_Impl( pTabFrm );
FireTableChangeEvent( pOldTableData );
delete pOldTableData;
}
}
// There are two reason why this method has been called. The first one
// is there is no context for pFrm. The method is them called by
// the map, and we have to call our superclass.
// The other situation is that we have been call by a call to get notified
// about its change. We then must not call the superclass
Reference< XAccessible > xAcc( GetMap()->GetContext( pFrm, sal_False ) );
if( !xAcc.is() )
SwAccessibleContext::InvalidateChildPosOrSize( pFrm, rOldBox );
}
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