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e52f14efaa53b496599b51fb064a933183731fca
libreoffice/sw/source/core/doc/docnum.cxx
László Németh d665e05824 fdo#71645 remove footnote numbers in cross-references 
Change-Id: Ic3780e4389e450d8c7a69d2f0f2a6a7f81b8906e
2013-11-20 07:57:57 +01:00

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/* -*- 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 <hintids.hxx>
#include <rtl/random.h>
#include <tools/resid.hxx>
#include <editeng/lrspitem.hxx>
#include <ftninfo.hxx>
#include <ftnidx.hxx>
#include <doc.hxx>
#include <IDocumentUndoRedo.hxx>
#include <pam.hxx>
#include <ndtxt.hxx>
#include <doctxm.hxx>
#include <poolfmt.hxx>
#include <UndoCore.hxx>
#include <UndoRedline.hxx>
#include <UndoNumbering.hxx>
#include <swundo.hxx>
#include <SwUndoFmt.hxx>
#include <rolbck.hxx>
#include <paratr.hxx>
#include <docary.hxx>
#include <mvsave.hxx>
#include <txtfrm.hxx>
#include <pamtyp.hxx>
#include <redline.hxx>
#include <comcore.hrc>
#include <editeng/adjustitem.hxx>
#include <editeng/frmdiritem.hxx>
#include <frmatr.hxx>
#include <SwStyleNameMapper.hxx>
#include <SwNodeNum.hxx>
#include <list.hxx>
#include <listfunc.hxx>
#include <switerator.hxx>
#include <comphelper/string.hxx>
#include <map>
namespace {
static void lcl_ResetIndentAttrs(SwDoc *pDoc, const SwPaM &rPam, sal_uInt16 marker )
{
std::set<sal_uInt16> aResetAttrsArray;
aResetAttrsArray.insert( marker );
// #i114929#
// On a selection setup a corresponding Point-and-Mark in order to get
// the indentation attribute reset on all paragraphs touched by the selection
if ( rPam.HasMark() &&
rPam.End()->nNode.GetNode().GetTxtNode() )
{
SwPaM aPam( rPam.Start()->nNode,
rPam.End()->nNode );
aPam.Start()->nContent = 0;
aPam.End()->nContent = rPam.End()->nNode.GetNode().GetTxtNode()->Len();
pDoc->ResetAttrs( aPam, false, aResetAttrsArray );
}
else
{
pDoc->ResetAttrs( rPam, false, aResetAttrsArray );
}
}
}
#include <stdlib.h>
inline sal_uInt8 GetUpperLvlChg( sal_uInt8 nCurLvl, sal_uInt8 nLevel, sal_uInt16 nMask )
{
if( 1 < nLevel )
{
if( nCurLvl + 1 >= nLevel )
nCurLvl -= nLevel - 1;
else
nCurLvl = 0;
}
return static_cast<sal_uInt8>((nMask - 1) & ~(( 1 << nCurLvl ) - 1));
}
void SwDoc::SetOutlineNumRule( const SwNumRule& rRule )
{
if( mpOutlineRule )
(*mpOutlineRule) = rRule;
else
{
mpOutlineRule = new SwNumRule( rRule );
AddNumRule(mpOutlineRule); // #i36749#
}
mpOutlineRule->SetRuleType( OUTLINE_RULE );
mpOutlineRule->SetName(SwNumRule::GetOutlineRuleName(), *this);
// assure that the outline numbering rule is an automatic rule
mpOutlineRule->SetAutoRule( sal_True );
// test whether the optional CharFormats are defined in this Document
mpOutlineRule->CheckCharFmts( this );
// notify text nodes, which are registered at the outline style, about the
// changed outline style
SwNumRule::tTxtNodeList aTxtNodeList;
mpOutlineRule->GetTxtNodeList( aTxtNodeList );
for ( SwNumRule::tTxtNodeList::iterator aIter = aTxtNodeList.begin();
aIter != aTxtNodeList.end(); ++aIter )
{
SwTxtNode* pTxtNd = *aIter;
pTxtNd->NumRuleChgd();
// assure that list level corresponds to outline level
if ( pTxtNd->GetTxtColl()->IsAssignedToListLevelOfOutlineStyle() &&
pTxtNd->GetAttrListLevel() != pTxtNd->GetTxtColl()->GetAssignedOutlineStyleLevel() )
{
pTxtNd->SetAttrListLevel( pTxtNd->GetTxtColl()->GetAssignedOutlineStyleLevel() );
}
}
PropagateOutlineRule();
mpOutlineRule->SetInvalidRule(sal_True);
UpdateNumRule();
// update if we have foot notes && numbering by chapter
if( !GetFtnIdxs().empty() && FTNNUM_CHAPTER == GetFtnInfo().eNum )
GetFtnIdxs().UpdateAllFtn();
UpdateExpFlds(NULL, true);
SetModified();
}
void SwDoc::PropagateOutlineRule()
{
for (sal_uInt16 n = 0; n < mpTxtFmtCollTbl->size(); n++)
{
SwTxtFmtColl *pColl = (*mpTxtFmtCollTbl)[n];
if(pColl->IsAssignedToListLevelOfOutlineStyle())
{
// Check only the list style, which is set at the paragraph style
const SwNumRuleItem & rCollRuleItem = pColl->GetNumRule( sal_False );
// Check on document setting OUTLINE_LEVEL_YIELDS_OUTLINE_RULE no longer needed.
if ( rCollRuleItem.GetValue().isEmpty() )
{
SwNumRule * pMyOutlineRule = GetOutlineNumRule();
if (pMyOutlineRule)
{
SwNumRuleItem aNumItem( pMyOutlineRule->GetName() );
pColl->SetFmtAttr(aNumItem);
}
}
}
}
}
// Increase/Decrease
bool SwDoc::OutlineUpDown( const SwPaM& rPam, short nOffset )
{
if( GetNodes().GetOutLineNds().empty() || !nOffset )
return false;
// calculate the range
const SwOutlineNodes& rOutlNds = GetNodes().GetOutLineNds();
const SwNodePtr pSttNd = (SwNodePtr)&rPam.Start()->nNode.GetNode();
const SwNodePtr pEndNd = (SwNodePtr)&rPam.End()->nNode.GetNode();
sal_uInt16 nSttPos, nEndPos;
if( !rOutlNds.Seek_Entry( pSttNd, &nSttPos ) &&
!nSttPos-- )
// we're not in an "Outline section"
return false;
if( rOutlNds.Seek_Entry( pEndNd, &nEndPos ) )
++nEndPos;
// We now have the wanted range in the OutlineNodes array,
// so check now if we're not invalidating sublevels
// (stepping over the limits)
sal_uInt16 n;
// Here we go:
// 1. Create the style array:
SwTxtFmtColl* aCollArr[ MAXLEVEL ];
memset( aCollArr, 0, sizeof( SwTxtFmtColl* ) * MAXLEVEL );
for( n = 0; n < mpTxtFmtCollTbl->size(); ++n )
{
if((*mpTxtFmtCollTbl)[ n ]->IsAssignedToListLevelOfOutlineStyle())
{
const int nLevel = (*mpTxtFmtCollTbl)[ n ]->GetAssignedOutlineStyleLevel();
aCollArr[ nLevel ] = (*mpTxtFmtCollTbl)[ n ];
}
}
/* Find the last occupied level (backward). */
for (n = MAXLEVEL - 1; n > 0; n--)
{
if (aCollArr[n] != 0)
break;
}
/* If an occupied level is found, choose next level (which IS
unoccupied) until a valid level is found. If no occupied level
was found n is 0 and aCollArr[0] is 0. In this case no demoting
is possible. */
if (aCollArr[n] != 0)
{
while (n < MAXLEVEL - 1)
{
n++;
SwTxtFmtColl *aTmpColl =
GetTxtCollFromPool(static_cast<sal_uInt16>(RES_POOLCOLL_HEADLINE1 + n));
if( aTmpColl->IsAssignedToListLevelOfOutlineStyle() &&
aTmpColl->GetAssignedOutlineStyleLevel() == n )
{
aCollArr[n] = aTmpColl;
break;
}
}
}
/* Find the first occupied level (forward). */
for (n = 0; n < MAXLEVEL - 1; n++)
{
if (aCollArr[n] != 0)
break;
}
/* If an occupied level is found, choose previous level (which IS
unoccupied) until a valid level is found. If no occupied level
was found n is MAXLEVEL - 1 and aCollArr[MAXLEVEL - 1] is 0. In
this case no demoting is possible. */
if (aCollArr[n] != 0)
{
while (n > 0)
{
n--;
SwTxtFmtColl *aTmpColl =
GetTxtCollFromPool(static_cast<sal_uInt16>(RES_POOLCOLL_HEADLINE1 + n));
if( aTmpColl->IsAssignedToListLevelOfOutlineStyle() &&
aTmpColl->GetAssignedOutlineStyleLevel() == n )
{
aCollArr[n] = aTmpColl;
break;
}
}
}
/* --> #i13747#
Build a move table that states from which level to which other level
an outline will be moved.
the move table:
aMoveArr[n] = m: replace aCollArr[n] with aCollArr[m]
*/
int aMoveArr[MAXLEVEL];
int nStep; // step size for searching in aCollArr: -1 or 1
int nNum; // amount of steps for stepping in aCollArr
if (nOffset < 0)
{
nStep = -1;
nNum = -nOffset;
}
else
{
nStep = 1;
nNum = nOffset;
}
/* traverse aCollArr */
for (n = 0; n < MAXLEVEL; n++)
{
/* If outline level n has an assigned paragraph style step
nNum steps forwards (nStep == 1) or backwards (nStep ==
-1). One step is to go to the next non-null entry in
aCollArr in the selected direction. If nNum steps were
possible write the index of the entry found to aCollArr[n],
i.e. outline level n will be replaced by outline level
aCollArr[n].
If outline level n has no assigned paragraph style
aMoveArr[n] is set to -1.
*/
if (aCollArr[n] != NULL)
{
sal_uInt16 m = n;
int nCount = nNum;
while (nCount > 0 && m + nStep >= 0 && m + nStep < MAXLEVEL)
{
m = static_cast<sal_uInt16>(m + nStep);
if (aCollArr[m] != NULL)
nCount--;
}
if (nCount == 0)
aMoveArr[n] = m;
else
aMoveArr[n] = -1;
}
else
aMoveArr[n] = -1;
}
/* If moving of the outline levels is applicable, i.e. for all
outline levels occuring in the document there has to be a valid
target outline level implied by aMoveArr. */
bool bMoveApplicable = true;
for (n = nSttPos; n < nEndPos; n++)
{
SwTxtNode* pTxtNd = rOutlNds[ n ]->GetTxtNode();
SwTxtFmtColl* pColl = pTxtNd->GetTxtColl();
if( pColl->IsAssignedToListLevelOfOutlineStyle() )
{
const int nLevel = pColl->GetAssignedOutlineStyleLevel();
if (aMoveArr[nLevel] == -1)
bMoveApplicable = false;
}
// Check on outline level attribute of text node, if text node is
// not an outline via a to outline style assigned paragraph style.
else
{
const int nNewOutlineLevel = pTxtNd->GetAttrOutlineLevel() + nOffset;
if ( nNewOutlineLevel < 1 || nNewOutlineLevel > MAXLEVEL )
{
bMoveApplicable = false;
}
}
}
if (! bMoveApplicable )
return false;
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().StartUndo(UNDO_OUTLINE_LR, NULL);
SwUndo *const pUndoOLR( new SwUndoOutlineLeftRight( rPam, nOffset ) );
GetIDocumentUndoRedo().AppendUndo(pUndoOLR);
}
// 2. Apply the new style to all Nodes
n = nSttPos;
while( n < nEndPos)
{
SwTxtNode* pTxtNd = rOutlNds[ n ]->GetTxtNode();
SwTxtFmtColl* pColl = pTxtNd->GetTxtColl();
if( pColl->IsAssignedToListLevelOfOutlineStyle() )
{
const int nLevel = pColl->GetAssignedOutlineStyleLevel();
OSL_ENSURE(aMoveArr[nLevel] >= 0,
"move table: current TxtColl not found when building table!");
if (nLevel < MAXLEVEL && aMoveArr[nLevel] >= 0)
{
pColl = aCollArr[ aMoveArr[nLevel] ];
if (pColl != NULL)
pColl = (SwTxtFmtColl*)pTxtNd->ChgFmtColl( pColl );
}
}
else if( pTxtNd->GetAttrOutlineLevel() > 0)
{
int nLevel = pTxtNd->GetAttrOutlineLevel() + nOffset;
if( 0 <= nLevel && nLevel <= MAXLEVEL)
pTxtNd->SetAttrOutlineLevel( nLevel );
}
n++;
// Undo ???
}
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().EndUndo(UNDO_OUTLINE_LR, NULL);
}
ChkCondColls();
SetModified();
return true;
}
// Move up/down
bool SwDoc::MoveOutlinePara( const SwPaM& rPam, short nOffset )
{
// Do not move to special sections in the nodes array
const SwPosition& rStt = *rPam.Start(),
& rEnd = &rStt == rPam.GetPoint() ? *rPam.GetMark()
: *rPam.GetPoint();
if( GetNodes().GetOutLineNds().empty() || !nOffset ||
(rStt.nNode.GetIndex() < GetNodes().GetEndOfExtras().GetIndex()) ||
(rEnd.nNode.GetIndex() < GetNodes().GetEndOfExtras().GetIndex()))
{
return false;
}
sal_uInt16 nAktPos = 0;
SwNodeIndex aSttRg( rStt.nNode ), aEndRg( rEnd.nNode );
int nOutLineLevel = MAXLEVEL;
SwNode* pSrch = &aSttRg.GetNode();
if( pSrch->IsTxtNode())
nOutLineLevel = static_cast<sal_uInt8>(((SwTxtNode*)pSrch)->GetAttrOutlineLevel()-1);
SwNode* pEndSrch = &aEndRg.GetNode();
if( !GetNodes().GetOutLineNds().Seek_Entry( pSrch, &nAktPos ) )
{
if( !nAktPos )
return false; // Promoting or demoting before the first outline => no.
if( --nAktPos )
aSttRg = *GetNodes().GetOutLineNds()[ nAktPos ];
else if( 0 > nOffset )
return false; // Promoting at the top of document?!
else
aSttRg = *GetNodes().GetEndOfContent().StartOfSectionNode();
}
sal_uInt16 nTmpPos = 0;
// If the given range ends at an outlined text node we have to decide if it has to be a part of
// the moving range or not. Normally it will be a sub outline of our chapter
// and has to be moved, too. But if the chapter ends with a table(or a section end),
// the next text node will be choosen and this could be the next outline of the same level.
// The criteria has to be the outline level: sub level => incorporate, same/higher level => no.
if( GetNodes().GetOutLineNds().Seek_Entry( pEndSrch, &nTmpPos ) )
{
if( !pEndSrch->IsTxtNode() || pEndSrch == pSrch ||
nOutLineLevel < ((SwTxtNode*)pEndSrch)->GetAttrOutlineLevel()-1 )
++nTmpPos; // For sub outlines only!
}
aEndRg = nTmpPos < GetNodes().GetOutLineNds().size()
? *GetNodes().GetOutLineNds()[ nTmpPos ]
: GetNodes().GetEndOfContent();
if( nOffset >= 0 )
nAktPos = nTmpPos;
if( aEndRg == aSttRg )
{
OSL_FAIL( "Moving outlines: Surprising selection" );
++aEndRg;
}
const SwNode* pNd;
// The following code corrects the range to handle sections (start/end nodes)
// The range will be extended if the least node before the range is a start node
// which ends inside the range => The complete section will be moved.
// The range will be shrinked if the last position is a start node.
// The range will be shrinked if the last node is an end node which starts before the range.
aSttRg--;
while( aSttRg.GetNode().IsStartNode() )
{
pNd = aSttRg.GetNode().EndOfSectionNode();
if( pNd->GetIndex() >= aEndRg.GetIndex() )
break;
aSttRg--;
}
++aSttRg;
aEndRg--;
while( aEndRg.GetNode().IsStartNode() )
aEndRg--;
while( aEndRg.GetNode().IsEndNode() )
{
pNd = aEndRg.GetNode().StartOfSectionNode();
if( pNd->GetIndex() >= aSttRg.GetIndex() )
break;
aEndRg--;
}
++aEndRg;
// calculation of the new position
if( nOffset < 0 && nAktPos < sal_uInt16(-nOffset) )
pNd = GetNodes().GetEndOfContent().StartOfSectionNode();
else if( nAktPos + nOffset >= (sal_uInt16)GetNodes().GetOutLineNds().size() )
pNd = &GetNodes().GetEndOfContent();
else
pNd = GetNodes().GetOutLineNds()[ nAktPos + nOffset ];
sal_uLong nNewPos = pNd->GetIndex();
// And now a correction of the insert position if necessary...
SwNodeIndex aInsertPos( *pNd, -1 );
while( aInsertPos.GetNode().IsStartNode() )
{
// Just before the insert position starts a section:
// when I'm moving forward I do not want to enter the section,
// when I'm moving backward I want to stay in the section if I'm already a part of,
// I want to stay outside if I was outside before.
if( nOffset < 0 )
{
pNd = aInsertPos.GetNode().EndOfSectionNode();
if( pNd->GetIndex() >= aEndRg.GetIndex() )
break;
}
aInsertPos--;
--nNewPos;
}
if( nOffset >= 0 )
{
// When just before the insert position a section ends, it is okay when I'm moving backward
// because I want to stay outside the section.
// When moving forward I've to check if I started inside or outside the section
// because I don't want to enter of leave such a section
while( aInsertPos.GetNode().IsEndNode() )
{
pNd = aInsertPos.GetNode().StartOfSectionNode();
if( pNd->GetIndex() >= aSttRg.GetIndex() )
break;
aInsertPos--;
--nNewPos;
}
}
// We do not want to move into tables (at the moment)
++aInsertPos;
pNd = &aInsertPos.GetNode();
if( pNd->IsTableNode() )
pNd = pNd->StartOfSectionNode();
if( pNd->FindTableNode() )
return false;
OSL_ENSURE( aSttRg.GetIndex() > nNewPos || nNewPos >= aEndRg.GetIndex(),
"Position lies within Move range" );
// If a Position inside the special nodes array sections was calculated,
// set it to document start instead.
// Sections or Tables at the document start will be pushed backwards.
nNewPos = std::max( nNewPos, GetNodes().GetEndOfExtras().GetIndex() + 2 );
long nOffs = nNewPos - ( 0 < nOffset ? aEndRg.GetIndex() : aSttRg.GetIndex());
SwPaM aPam( aSttRg, aEndRg, 0, -1 );
return MoveParagraph( aPam, nOffs, true );
}
static sal_uInt16 lcl_FindOutlineName( const SwNodes& rNds, const OUString& rName,
bool bExact )
{
sal_uInt16 nSavePos = USHRT_MAX;
const SwOutlineNodes& rOutlNds = rNds.GetOutLineNds();
for( sal_uInt16 n = 0; n < rOutlNds.size(); ++n )
{
SwTxtNode* pTxtNd = rOutlNds[ n ]->GetTxtNode();
OUString sTxt( pTxtNd->GetExpandTxt() );
if (sTxt == rName)
{
// Found "exact", set Pos to the Node
nSavePos = n;
break;
}
else if( !bExact && USHRT_MAX == nSavePos && sTxt.startsWith(rName) )
{
// maybe we just found the text's first part
nSavePos = n;
}
}
return nSavePos;
}
static sal_uInt16 lcl_FindOutlineNum( const SwNodes& rNds, OUString& rName )
{
// Valid numbers are (always just offsets!):
// ([Number]+\.)+ (as a regular expression!)
// (Number follwed by a period, with 5 repetitions)
// i.e.: "1.1.", "1.", "1.1.1."
sal_Int32 nPos = 0;
OUString sNum = rName.getToken( 0, '.', nPos );
if( -1 == nPos )
return USHRT_MAX; // invalid number!
sal_uInt16 nLevelVal[ MAXLEVEL ]; // numbers of all levels
memset( nLevelVal, 0, MAXLEVEL * sizeof( nLevelVal[0] ));
sal_uInt8 nLevel = 0;
OUString sName( rName );
while( -1 != nPos )
{
sal_uInt16 nVal = 0;
sal_Unicode c;
for( sal_uInt16 n = 0; n < sNum.getLength(); ++n )
if( '0' <= ( c = sNum[ n ]) && c <= '9' )
{
nVal *= 10; nVal += c - '0';
}
else if( nLevel )
break; // "almost" valid number
else
return USHRT_MAX; // invalid number!
if( MAXLEVEL > nLevel )
nLevelVal[ nLevel++ ] = nVal;
sName = sName.copy( nPos );
nPos = 0;
sNum = sName.getToken( 0, '.', nPos );
// #i4533# without this check all parts delimited by a dot are treated as outline numbers
if(!comphelper::string::isdigitAsciiString(sNum))
nPos = -1;
}
rName = sName; // that's the follow-up text
// read all levels, so search the document for this outline
const SwOutlineNodes& rOutlNds = rNds.GetOutLineNds();
// Without OutlineNodes searching doesn't pay off
// and we save a crash
if( rOutlNds.empty() )
return USHRT_MAX;
SwTxtNode* pNd;
nPos = 0;
// search in the existing outline nodes for the required outline num array
for( ; nPos < (sal_Int32) rOutlNds.size(); ++nPos )
{
pNd = rOutlNds[ nPos ]->GetTxtNode();
const int nLvl = pNd->GetAttrOutlineLevel()-1;
if( nLvl == nLevel - 1)
{
// #i51089#, #i68289#
// Assure, that text node has the correct numbering level. Otherwise,
// its number vector will not fit to the searched level.
if ( pNd->GetNum() &&
pNd->GetActualListLevel() == ( nLevel - 1 ) )
{
const SwNodeNum & rNdNum = *(pNd->GetNum());
SwNumberTree::tNumberVector aLevelVal = rNdNum.GetNumberVector();
// now compare with the one searched for
bool bEqual = true;
for( sal_uInt8 n = 0; (n < nLevel) && bEqual; ++n )
{
bEqual = aLevelVal[n] == nLevelVal[n];
}
if(bEqual)
{
break;
}
}
else
{
// A text node, which has an outline paragraph style applied and
// has as hard attribute 'no numbering' set, has an outline level,
// but no numbering tree node. Thus, consider this situation in
// the assertion condition.
OSL_ENSURE( !pNd->GetNumRule(),
"<lcl_FindOutlineNum(..)> - text node with outline level and numbering rule, but without numbering tree node. This is a serious defect -> inform OD" );
}
}
}
if( nPos >= (sal_Int32) rOutlNds.size() )
nPos = USHRT_MAX;
return nPos;
}
// Add this bullet point:
// A Name can contain a Number and/or the Text.
//
// First, we try to find the correct Entry via the Number.
// If it exists, we compare the Text, to see if it's the right one.
// If that's not the case, we search again via the Text. If it is
// found, we got the right entry. Or else we use the one found by
// searching for the Number.
// If we don't have a Number, we search via the Text only.
bool SwDoc::GotoOutline( SwPosition& rPos, const OUString& rName ) const
{
if( !rName.isEmpty() )
{
const SwOutlineNodes& rOutlNds = GetNodes().GetOutLineNds();
// 1. step: via the Number:
OUString sName( rName );
sal_uInt16 nFndPos = ::lcl_FindOutlineNum( GetNodes(), sName );
if( USHRT_MAX != nFndPos )
{
SwTxtNode* pNd = rOutlNds[ nFndPos ]->GetTxtNode();
OUString sExpandedText = pNd->GetExpandTxt();
//#i4533# leading numbers followed by a dot have been remove while
//searching for the outline position
//to compensate this they must be removed from the paragraphs text content, too
sal_Int32 nPos = 0;
OUString sTempNum;
while(!sExpandedText.isEmpty() && !(sTempNum = sExpandedText.getToken(0, '.', nPos)).isEmpty() &&
-1 != nPos &&
comphelper::string::isdigitAsciiString(sTempNum))
{
sExpandedText = sExpandedText.copy(nPos);
nPos = 0;
}
if( sExpandedText != sName )
{
sal_uInt16 nTmp = ::lcl_FindOutlineName( GetNodes(), sName, true );
if( USHRT_MAX != nTmp ) // found via the Name
{
nFndPos = nTmp;
pNd = rOutlNds[ nFndPos ]->GetTxtNode();
}
}
rPos.nNode = *pNd;
rPos.nContent.Assign( pNd, 0 );
return true;
}
nFndPos = ::lcl_FindOutlineName( GetNodes(), rName, false );
if( USHRT_MAX != nFndPos )
{
SwTxtNode* pNd = rOutlNds[ nFndPos ]->GetTxtNode();
rPos.nNode = *pNd;
rPos.nContent.Assign( pNd, 0 );
return true;
}
// #i68289# additional search on hyperlink URL without its outline numbering part
if ( sName != rName )
{
nFndPos = ::lcl_FindOutlineName( GetNodes(), sName, false );
if( USHRT_MAX != nFndPos )
{
SwTxtNode* pNd = rOutlNds[ nFndPos ]->GetTxtNode();
rPos.nNode = *pNd;
rPos.nContent.Assign( pNd, 0 );
return true;
}
}
}
return false;
}
static void lcl_ChgNumRule( SwDoc& rDoc, const SwNumRule& rRule )
{
SwNumRule* pOld = rDoc.FindNumRulePtr( rRule.GetName() );
OSL_ENSURE( pOld, "we cannot proceed without the old NumRule" );
sal_uInt16 nChgFmtLevel = 0, nMask = 1;
sal_uInt8 n;
for( n = 0; n < MAXLEVEL; ++n, nMask <<= 1 )
{
const SwNumFmt& rOldFmt = pOld->Get( n ),
& rNewFmt = rRule.Get( n );
if( rOldFmt != rNewFmt )
{
nChgFmtLevel |= nMask;
}
else if( SVX_NUM_NUMBER_NONE > rNewFmt.GetNumberingType() && 1 < rNewFmt.GetIncludeUpperLevels() &&
0 != (nChgFmtLevel & GetUpperLvlChg( n, rNewFmt.GetIncludeUpperLevels(),nMask )) )
nChgFmtLevel |= nMask;
}
if( !nChgFmtLevel ) // Nothing has been changed?
{
const bool bInvalidateNumRule( pOld->IsContinusNum() != rRule.IsContinusNum() );
pOld->CheckCharFmts( &rDoc );
pOld->SetContinusNum( rRule.IsContinusNum() );
if ( bInvalidateNumRule )
{
pOld->SetInvalidRule(sal_True);
}
return ;
}
SwNumRule::tTxtNodeList aTxtNodeList;
pOld->GetTxtNodeList( aTxtNodeList );
sal_uInt8 nLvl( 0 );
for ( SwNumRule::tTxtNodeList::iterator aIter = aTxtNodeList.begin();
aIter != aTxtNodeList.end(); ++aIter )
{
SwTxtNode* pTxtNd = *aIter;
nLvl = static_cast<sal_uInt8>(pTxtNd->GetActualListLevel());
if( nLvl < MAXLEVEL )
{
if( nChgFmtLevel & ( 1 << nLvl ))
{
pTxtNd->NumRuleChgd();
}
}
}
for( n = 0; n < MAXLEVEL; ++n )
if( nChgFmtLevel & ( 1 << n ))
pOld->Set( n, rRule.GetNumFmt( n ));
pOld->CheckCharFmts( &rDoc );
pOld->SetInvalidRule(sal_True);
pOld->SetContinusNum( rRule.IsContinusNum() );
rDoc.UpdateNumRule();
}
void SwDoc::SetNumRule( const SwPaM& rPam,
const SwNumRule& rRule,
const bool bCreateNewList,
const OUString sContinuedListId,
bool bSetItem,
const bool bResetIndentAttrs )
{
SwUndoInsNum * pUndo = NULL;
if (GetIDocumentUndoRedo().DoesUndo())
{
// Start/End for attributes!
GetIDocumentUndoRedo().StartUndo( UNDO_INSNUM, NULL );
pUndo = new SwUndoInsNum( rPam, rRule );
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
SwNumRule * pNew = FindNumRulePtr( rRule.GetName() );
bool bUpdateRule = false;
if( !pNew )
{
pNew = (*mpNumRuleTbl)[ MakeNumRule( rRule.GetName(), &rRule ) ];
}
else if (rRule != *pNew)
{
bUpdateRule = true;
}
if (bUpdateRule)
{
if( pUndo )
{
pUndo->SaveOldNumRule( *pNew );
::lcl_ChgNumRule( *this, rRule );
pUndo->SetLRSpaceEndPos();
}
else
{
::lcl_ChgNumRule( *this, rRule );
}
}
if ( bSetItem )
{
if ( bCreateNewList )
{
OUString sListId;
if ( !bUpdateRule )
{
// apply list id of list, which has been created for the new list style
sListId = pNew->GetDefaultListId();
}
else
{
// create new list and apply its list id
SwList* pNewList = createList( OUString(), pNew->GetName() );
OSL_ENSURE( pNewList,
"<SwDoc::SetNumRule(..)> - could not create new list. Serious defect -> please inform OD." );
sListId = pNewList->GetListId();
}
InsertPoolItem( rPam, SfxStringItem( RES_PARATR_LIST_ID, sListId ), 0 );
}
else if ( !sContinuedListId.isEmpty() )
{
// apply given list id
InsertPoolItem( rPam, SfxStringItem( RES_PARATR_LIST_ID, sContinuedListId ), 0 );
}
}
if ( ! rPam.HasMark())
{
SwTxtNode * pTxtNd = rPam.GetPoint()->nNode.GetNode().GetTxtNode();
// consider case that the PaM doesn't denote a text node - e.g. it denotes a graphic node
if ( pTxtNd )
{
SwNumRule * pRule = pTxtNd->GetNumRule();
if (pRule && pRule->GetName() == pNew->GetName())
{
bSetItem = false;
if ( !pTxtNd->IsInList() )
{
pTxtNd->AddToList();
}
}
// Only clear numbering attribute at text node, if at paragraph
// style the new numbering rule is found.
else if ( !pRule )
{
SwTxtFmtColl* pColl = pTxtNd->GetTxtColl();
if ( pColl )
{
SwNumRule* pCollRule = FindNumRulePtr(pColl->GetNumRule().GetValue());
if ( pCollRule && pCollRule->GetName() == pNew->GetName() )
{
pTxtNd->ResetAttr( RES_PARATR_NUMRULE );
bSetItem = false;
}
}
}
}
}
if ( bSetItem )
{
InsertPoolItem( rPam, SwNumRuleItem( pNew->GetName() ), 0 );
}
if ( bResetIndentAttrs &&
pNew && pNew->Get( 0 ).GetPositionAndSpaceMode() == SvxNumberFormat::LABEL_ALIGNMENT )
{
::lcl_ResetIndentAttrs(this, rPam, RES_LR_SPACE);
}
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().EndUndo( UNDO_INSNUM, NULL );
}
SetModified();
}
void SwDoc::SetCounted(const SwPaM & rPam, bool bCounted)
{
if ( bCounted )
{
::lcl_ResetIndentAttrs(this, rPam, RES_PARATR_LIST_ISCOUNTED);
}
else
{
InsertPoolItem( rPam, SfxBoolItem( RES_PARATR_LIST_ISCOUNTED, sal_False ), 0 );
}
}
void SwDoc::SetNumRuleStart( const SwPosition& rPos, sal_Bool bFlag )
{
SwTxtNode* pTxtNd = rPos.nNode.GetNode().GetTxtNode();
if (pTxtNd)
{
const SwNumRule* pRule = pTxtNd->GetNumRule();
if( pRule && !bFlag != !pTxtNd->IsListRestart())
{
if (GetIDocumentUndoRedo().DoesUndo())
{
SwUndo *const pUndo( new SwUndoNumRuleStart(rPos, bFlag) );
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
pTxtNd->SetListRestart(bFlag ? true : false);
SetModified();
}
}
}
void SwDoc::SetNodeNumStart( const SwPosition& rPos, sal_uInt16 nStt )
{
SwTxtNode* pTxtNd = rPos.nNode.GetNode().GetTxtNode();
if (pTxtNd)
{
if ( !pTxtNd->HasAttrListRestartValue() ||
pTxtNd->GetAttrListRestartValue() != nStt )
{
if (GetIDocumentUndoRedo().DoesUndo())
{
SwUndo *const pUndo( new SwUndoNumRuleStart(rPos, nStt) );
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
pTxtNd->SetAttrListRestartValue( nStt );
SetModified();
}
}
}
// We can only delete if the Rule is unused!
bool SwDoc::DelNumRule( const OUString& rName, bool bBroadcast )
{
sal_uInt16 nPos = FindNumRule( rName );
if (nPos == USHRT_MAX)
return false;
if ( (*mpNumRuleTbl)[ nPos ] == GetOutlineNumRule() )
{
OSL_FAIL( "<SwDoc::DelNumRule(..)> - No deletion of outline list style. This is serious defect - please inform OD" );
return false;
}
if( !IsUsed( *(*mpNumRuleTbl)[ nPos ] ))
{
if (GetIDocumentUndoRedo().DoesUndo())
{
SwUndo * pUndo =
new SwUndoNumruleDelete(*(*mpNumRuleTbl)[nPos], this);
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
if (bBroadcast)
BroadcastStyleOperation(rName, SFX_STYLE_FAMILY_PSEUDO,
SFX_STYLESHEET_ERASED);
deleteListForListStyle( rName );
{
// delete further list, which have the deleted list style as default list style
std::vector< SwList* > aListsForDeletion;
tHashMapForLists::iterator aListIter = maLists.begin();
while ( aListIter != maLists.end() )
{
SwList* pList = (*aListIter).second;
if ( pList->GetDefaultListStyleName() == rName )
{
aListsForDeletion.push_back( pList );
}
++aListIter;
}
while ( !aListsForDeletion.empty() )
{
SwList* pList = aListsForDeletion.back();
aListsForDeletion.pop_back();
deleteList( pList->GetListId() );
}
}
// #i34097# DeleteAndDestroy deletes rName if
// rName is directly taken from the numrule.
const OUString aTmpName( rName );
delete (*mpNumRuleTbl)[ nPos ];
mpNumRuleTbl->erase( mpNumRuleTbl->begin() + nPos );
maNumRuleMap.erase(aTmpName);
SetModified();
return true;
}
return false;
}
void SwDoc::ChgNumRuleFmts( const SwNumRule& rRule )
{
SwNumRule* pRule = FindNumRulePtr( rRule.GetName() );
if( pRule )
{
SwUndoInsNum* pUndo = 0;
if (GetIDocumentUndoRedo().DoesUndo())
{
pUndo = new SwUndoInsNum( *pRule, rRule );
pUndo->GetHistory();
GetIDocumentUndoRedo().AppendUndo( pUndo );
}
::lcl_ChgNumRule( *this, rRule );
if( pUndo )
pUndo->SetLRSpaceEndPos();
SetModified();
}
}
bool SwDoc::RenameNumRule(const OUString & rOldName, const OUString & rNewName,
bool bBroadcast)
{
bool bResult = false;
SwNumRule * pNumRule = FindNumRulePtr(rOldName);
if (pNumRule)
{
if (GetIDocumentUndoRedo().DoesUndo())
{
SwUndo * pUndo = new SwUndoNumruleRename(rOldName, rNewName, this);
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
SwNumRule::tTxtNodeList aTxtNodeList;
pNumRule->GetTxtNodeList( aTxtNodeList );
pNumRule->SetName( rNewName, *this );
SwNumRuleItem aItem(rNewName);
for ( SwNumRule::tTxtNodeList::iterator aIter = aTxtNodeList.begin();
aIter != aTxtNodeList.end(); ++aIter )
{
SwTxtNode * pTxtNd = *aIter;
pTxtNd->SetAttr(aItem);
}
bResult = true;
if (bBroadcast)
BroadcastStyleOperation(rOldName, SFX_STYLE_FAMILY_PSEUDO,
SFX_STYLESHEET_MODIFIED);
}
return bResult;
}
void SwDoc::StopNumRuleAnimations( OutputDevice* pOut )
{
for( sal_uInt16 n = GetNumRuleTbl().size(); n; )
{
SwNumRule::tTxtNodeList aTxtNodeList;
GetNumRuleTbl()[ --n ]->GetTxtNodeList( aTxtNodeList );
for ( SwNumRule::tTxtNodeList::iterator aTxtNodeIter = aTxtNodeList.begin();
aTxtNodeIter != aTxtNodeList.end(); ++aTxtNodeIter )
{
SwTxtNode* pTNd = *aTxtNodeIter;
SwIterator<SwTxtFrm,SwTxtNode> aIter(*pTNd);
for(SwTxtFrm* pFrm = aIter.First(); pFrm; pFrm = aIter.Next() )
if( pFrm->HasAnimation() )
pFrm->StopAnimation( pOut );
}
}
}
bool SwDoc::ReplaceNumRule( const SwPosition& rPos,
const OUString& rOldRule, const OUString& rNewRule )
{
bool bRet = false;
SwNumRule *pOldRule = FindNumRulePtr( rOldRule ),
*pNewRule = FindNumRulePtr( rNewRule );
if( pOldRule && pNewRule && pOldRule != pNewRule )
{
SwUndoInsNum* pUndo = 0;
if (GetIDocumentUndoRedo().DoesUndo())
{
// Start/End for attributes!
GetIDocumentUndoRedo().StartUndo( UNDO_START, NULL );
pUndo = new SwUndoInsNum( rPos, *pNewRule, rOldRule );
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
SwNumRule::tTxtNodeList aTxtNodeList;
pOldRule->GetTxtNodeList( aTxtNodeList );
if ( aTxtNodeList.size() > 0 )
{
SwRegHistory aRegH( pUndo ? pUndo->GetHistory() : 0 );
sal_uInt16 nChgFmtLevel = 0;
for( sal_uInt8 n = 0; n < MAXLEVEL; ++n )
{
const SwNumFmt& rOldFmt = pOldRule->Get( n ),
& rNewFmt = pNewRule->Get( n );
if( rOldFmt.GetAbsLSpace() != rNewFmt.GetAbsLSpace() ||
rOldFmt.GetFirstLineOffset() != rNewFmt.GetFirstLineOffset() )
nChgFmtLevel |= ( 1 << n );
}
const SwTxtNode* pGivenTxtNode = rPos.nNode.GetNode().GetTxtNode();
SwNumRuleItem aRule( rNewRule );
for ( SwNumRule::tTxtNodeList::iterator aIter = aTxtNodeList.begin();
aIter != aTxtNodeList.end(); ++aIter )
{
SwTxtNode* pTxtNd = *aIter;
if ( pGivenTxtNode &&
pGivenTxtNode->GetListId() == pTxtNd->GetListId() )
{
aRegH.RegisterInModify( pTxtNd, *pTxtNd );
pTxtNd->SetAttr( aRule );
pTxtNd->NumRuleChgd();
}
}
GetIDocumentUndoRedo().EndUndo( UNDO_END, NULL );
SetModified();
bRet = true;
}
}
return bRet;
}
namespace
{
struct ListStyleData
{
SwNumRule* pReplaceNumRule;
bool bCreateNewList;
OUString sListId;
ListStyleData()
: pReplaceNumRule( 0 ),
bCreateNewList( false ),
sListId()
{}
};
}
void SwDoc::MakeUniqueNumRules(const SwPaM & rPaM)
{
OSL_ENSURE( rPaM.GetDoc() == this, "need same doc" );
::std::map<SwNumRule *, ListStyleData> aMyNumRuleMap;
sal_uLong nStt = rPaM.Start()->nNode.GetIndex();
sal_uLong nEnd = rPaM.End()->nNode.GetIndex();
bool bFirst = true;
for (sal_uLong n = nStt; n <= nEnd; n++)
{
SwTxtNode * pCNd = GetNodes()[n]->GetTxtNode();
if (pCNd)
{
SwNumRule * pRule = pCNd->GetNumRule();
if (pRule && pRule->IsAutoRule() && ! pRule->IsOutlineRule())
{
ListStyleData aListStyleData = aMyNumRuleMap[pRule];
if ( aListStyleData.pReplaceNumRule == 0 )
{
if (bFirst)
{
SwPosition aPos(*pCNd);
aListStyleData.pReplaceNumRule =
const_cast<SwNumRule *>
(SearchNumRule( aPos, false, pCNd->HasNumber(),
false, 0,
aListStyleData.sListId, true ));
}
if ( aListStyleData.pReplaceNumRule == 0 )
{
aListStyleData.pReplaceNumRule = new SwNumRule(*pRule);
aListStyleData.pReplaceNumRule->SetName(
GetUniqueNumRuleName(), *this );
aListStyleData.bCreateNewList = true;
}
aMyNumRuleMap[pRule] = aListStyleData;
}
SwPaM aPam(*pCNd);
SetNumRule( aPam, *aListStyleData.pReplaceNumRule,
aListStyleData.bCreateNewList,
aListStyleData.sListId );
if ( aListStyleData.bCreateNewList )
{
aListStyleData.bCreateNewList = false;
aListStyleData.sListId = pCNd->GetListId();
aMyNumRuleMap[pRule] = aListStyleData;
}
bFirst = false;
}
}
}
}
bool SwDoc::NoNum( const SwPaM& rPam )
{
bool bRet = SplitNode( *rPam.GetPoint(), false );
// Do we actually use Numbering at all?
if( bRet )
{
// Set NoNum and Upate
const SwNodeIndex& rIdx = rPam.GetPoint()->nNode;
SwTxtNode* pNd = rIdx.GetNode().GetTxtNode();
const SwNumRule* pRule = pNd->GetNumRule();
if( pRule )
{
pNd->SetCountedInList(false);
SetModified();
}
else
bRet = false; // no Numbering or just always sal_True?
}
return bRet;
}
void SwDoc::DelNumRules( const SwPaM& rPam )
{
sal_uLong nStt = rPam.GetPoint()->nNode.GetIndex(),
nEnd = rPam.GetMark()->nNode.GetIndex();
if( nStt > nEnd )
{
sal_uLong nTmp = nStt; nStt = nEnd; nEnd = nTmp;
}
SwUndoDelNum* pUndo;
if (GetIDocumentUndoRedo().DoesUndo())
{
pUndo = new SwUndoDelNum( rPam );
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
else
pUndo = 0;
SwRegHistory aRegH( pUndo ? pUndo->GetHistory() : 0 );
SwNumRuleItem aEmptyRule( aEmptyOUStr );
const SwNode* pOutlNd = 0;
for( ; nStt <= nEnd; ++nStt )
{
SwTxtNode* pTNd = GetNodes()[ nStt ]->GetTxtNode();
SwNumRule* pNumRuleOfTxtNode = pTNd ? pTNd->GetNumRule() : 0;
if ( pTNd && pNumRuleOfTxtNode )
{
// recognize changes of attribute for undo
aRegH.RegisterInModify( pTNd, *pTNd );
if( pUndo )
pUndo->AddNode( *pTNd, sal_False );
// directly set list style attribute is reset, otherwise empty
// list style is applied
const SfxItemSet* pAttrSet = pTNd->GetpSwAttrSet();
if ( pAttrSet &&
pAttrSet->GetItemState( RES_PARATR_NUMRULE, sal_False ) == SFX_ITEM_SET )
pTNd->ResetAttr( RES_PARATR_NUMRULE );
else
pTNd->SetAttr( aEmptyRule );
pTNd->ResetAttr( RES_PARATR_LIST_ID );
pTNd->ResetAttr( RES_PARATR_LIST_LEVEL );
pTNd->ResetAttr( RES_PARATR_LIST_ISRESTART );
pTNd->ResetAttr( RES_PARATR_LIST_RESTARTVALUE );
pTNd->ResetAttr( RES_PARATR_LIST_ISCOUNTED );
if( RES_CONDTXTFMTCOLL == pTNd->GetFmtColl()->Which() )
{
pTNd->ChkCondColl();
}
else if( !pOutlNd &&
static_cast<SwTxtFmtColl*>(pTNd->GetFmtColl())->IsAssignedToListLevelOfOutlineStyle() )
{
pOutlNd = pTNd;
}
}
}
// Finally, update all
UpdateNumRule();
if( pOutlNd )
GetNodes().UpdtOutlineIdx( *pOutlNd );
}
void SwDoc::InvalidateNumRules()
{
for (sal_uInt16 n = 0; n < mpNumRuleTbl->size(); ++n)
(*mpNumRuleTbl)[n]->SetInvalidRule(sal_True);
}
// To the next/preceding Bullet at the same Level
static bool lcl_IsNumOk( sal_uInt8 nSrchNum, sal_uInt8& rLower, sal_uInt8& rUpper,
bool bOverUpper, sal_uInt8 nNumber )
{
OSL_ENSURE( nNumber < MAXLEVEL,
"<lcl_IsNumOk(..)> - misusage of method" );
bool bRet = false;
{
if( bOverUpper ? nSrchNum == nNumber : nSrchNum >= nNumber )
bRet = true;
else if( nNumber > rLower )
rLower = nNumber;
else if( nNumber < rUpper )
rUpper = nNumber;
}
return bRet;
}
static bool lcl_IsValidPrevNextNumNode( const SwNodeIndex& rIdx )
{
bool bRet = false;
const SwNode& rNd = rIdx.GetNode();
switch( rNd.GetNodeType() )
{
case ND_ENDNODE:
bRet = SwTableBoxStartNode == rNd.StartOfSectionNode()->GetStartNodeType() ||
rNd.StartOfSectionNode()->IsSectionNode();
break;
case ND_STARTNODE:
bRet = SwTableBoxStartNode == ((SwStartNode&)rNd).GetStartNodeType();
break;
case ND_SECTIONNODE: // that one's valid, so proceed
bRet = true;
break;
}
return bRet;
}
static bool lcl_GotoNextPrevNum( SwPosition& rPos, bool bNext,
bool bOverUpper, sal_uInt8* pUpper, sal_uInt8* pLower )
{
const SwTxtNode* pNd = rPos.nNode.GetNode().GetTxtNode();
const SwNumRule* pRule;
if( !pNd || 0 == ( pRule = pNd->GetNumRule()))
return false;
sal_uInt8 nSrchNum = static_cast<sal_uInt8>(pNd->GetActualListLevel());
SwNodeIndex aIdx( rPos.nNode );
if( ! pNd->IsCountedInList() )
{
// If NO_NUMLEVEL is switched on, we search the preceding Node with Numbering
bool bError = false;
do {
aIdx--;
if( aIdx.GetNode().IsTxtNode() )
{
pNd = aIdx.GetNode().GetTxtNode();
pRule = pNd->GetNumRule();
sal_uInt8 nTmpNum;
if( pRule )
{
nTmpNum = static_cast<sal_uInt8>(pNd->GetActualListLevel());
if( !( ! pNd->IsCountedInList() &&
(nTmpNum >= nSrchNum )) )
break; // found it!
}
else
bError = true;
}
else
bError = !lcl_IsValidPrevNextNumNode( aIdx );
} while( !bError );
if( bError )
return false;
}
sal_uInt8 nLower = nSrchNum, nUpper = nSrchNum;
bool bRet = false;
const SwTxtNode* pLast;
if( bNext )
aIdx++, pLast = pNd;
else
aIdx--, pLast = 0;
while( bNext ? ( aIdx.GetIndex() < aIdx.GetNodes().Count() - 1 )
: aIdx.GetIndex() )
{
if( aIdx.GetNode().IsTxtNode() )
{
pNd = aIdx.GetNode().GetTxtNode();
pRule = pNd->GetNumRule();
if( pRule )
{
if( ::lcl_IsNumOk( nSrchNum, nLower, nUpper, bOverUpper,
static_cast<sal_uInt8>(pNd->GetActualListLevel()) ))
{
rPos.nNode = aIdx;
rPos.nContent.Assign( (SwTxtNode*)pNd, 0 );
bRet = true;
break;
}
else
pLast = pNd;
}
else
break;
}
else if( !lcl_IsValidPrevNextNumNode( aIdx ))
break;
if( bNext )
++aIdx;
else
aIdx--;
}
if( !bRet && !bOverUpper && pLast ) // do not iterate over higher numbers, but still to the end
{
if( bNext )
{
rPos.nNode = aIdx;
if( aIdx.GetNode().IsCntntNode() )
rPos.nContent.Assign( aIdx.GetNode().GetCntntNode(), 0 );
}
else
{
rPos.nNode.Assign( *pLast );
rPos.nContent.Assign( (SwTxtNode*)pLast, 0 );
}
bRet = true;
}
if( bRet )
{
if( pUpper )
*pUpper = nUpper;
if( pLower )
*pLower = nLower;
}
return bRet;
}
bool SwDoc::GotoNextNum( SwPosition& rPos, bool bOverUpper,
sal_uInt8* pUpper, sal_uInt8* pLower )
{
return ::lcl_GotoNextPrevNum( rPos, true, bOverUpper, pUpper, pLower );
}
const SwNumRule * SwDoc::SearchNumRule(const SwPosition & rPos,
const bool bForward,
const bool bNum,
const bool bOutline,
int nNonEmptyAllowed,
OUString& sListId,
const bool bInvestigateStartNode)
{
const SwNumRule * pResult = NULL;
SwTxtNode * pTxtNd = rPos.nNode.GetNode().GetTxtNode();
SwNode * pStartFromNode = pTxtNd;
if (pTxtNd)
{
SwNodeIndex aIdx(rPos.nNode);
// - the start node has also been investigated, if requested.
const SwNode * pNode = NULL;
do
{
if ( !bInvestigateStartNode )
{
if (bForward)
++aIdx;
else
aIdx--;
}
if (aIdx.GetNode().IsTxtNode())
{
pTxtNd = aIdx.GetNode().GetTxtNode();
const SwNumRule * pNumRule = pTxtNd->GetNumRule();
if (pNumRule)
{
if ( ( pNumRule->IsOutlineRule() == ( bOutline ? sal_True : sal_False ) ) &&
( ( bNum && pNumRule->Get(0).IsEnumeration()) ||
( !bNum && pNumRule->Get(0).IsItemize() ) ) ) // #i22362#, #i29560#
{
pResult = pTxtNd->GetNumRule();
// provide also the list id, to which the text node belongs.
sListId = pTxtNd->GetListId();
}
break;
}
else if (pTxtNd->Len() > 0 || NULL != pTxtNd->GetNumRule())
{
if (nNonEmptyAllowed == 0)
break;
nNonEmptyAllowed--;
if (nNonEmptyAllowed < 0)
nNonEmptyAllowed = -1;
}
}
if ( bInvestigateStartNode )
{
if (bForward)
++aIdx;
else
aIdx--;
}
pNode = &aIdx.GetNode();
}
while (!(pNode == GetNodes().DocumentSectionStartNode(pStartFromNode) ||
pNode == GetNodes().DocumentSectionEndNode(pStartFromNode)));
}
return pResult;
}
bool SwDoc::GotoPrevNum( SwPosition& rPos, bool bOverUpper,
sal_uInt8* pUpper, sal_uInt8* pLower )
{
return ::lcl_GotoNextPrevNum( rPos, false, bOverUpper, pUpper, pLower );
}
bool SwDoc::NumUpDown( const SwPaM& rPam, bool bDown )
{
sal_uLong nStt = rPam.GetPoint()->nNode.GetIndex(),
nEnd = rPam.GetMark()->nNode.GetIndex();
if( nStt > nEnd )
{
sal_uLong nTmp = nStt; nStt = nEnd; nEnd = nTmp;
}
// -> outline nodes are promoted or demoted differently
bool bOnlyOutline = true;
bool bOnlyNonOutline = true;
for (sal_uLong n = nStt; n <= nEnd; n++)
{
SwTxtNode * pTxtNd = GetNodes()[n]->GetTxtNode();
if (pTxtNd)
{
SwNumRule * pRule = pTxtNd->GetNumRule();
if (pRule)
{
if (pRule->IsOutlineRule())
bOnlyNonOutline = false;
else
bOnlyOutline = false;
}
}
}
bool bRet = true;
sal_Int8 nDiff = bDown ? 1 : -1;
if (bOnlyOutline)
bRet = OutlineUpDown(rPam, nDiff);
else if (bOnlyNonOutline)
{
/* #i24560#
Only promote or demote if all selected paragraphs are
promotable resp. demotable.
*/
for (sal_uLong nTmp = nStt; nTmp <= nEnd; ++nTmp)
{
SwTxtNode* pTNd = GetNodes()[ nTmp ]->GetTxtNode();
// Make code robust: consider case that the node doesn't denote a
// text node.
if ( pTNd )
{
SwNumRule * pRule = pTNd->GetNumRule();
if (pRule)
{
sal_uInt8 nLevel = static_cast<sal_uInt8>(pTNd->GetActualListLevel());
if( (-1 == nDiff && 0 >= nLevel) ||
(1 == nDiff && MAXLEVEL - 1 <= nLevel))
bRet = false;
}
}
}
if( bRet )
{
if (GetIDocumentUndoRedo().DoesUndo())
{
SwUndo *const pUndo( new SwUndoNumUpDown(rPam, nDiff) );
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
for(sal_uLong nTmp = nStt; nTmp <= nEnd; ++nTmp )
{
SwTxtNode* pTNd = GetNodes()[ nTmp ]->GetTxtNode();
if( pTNd)
{
SwNumRule * pRule = pTNd->GetNumRule();
if (pRule)
{
sal_uInt8 nLevel = static_cast<sal_uInt8>(pTNd->GetActualListLevel());
nLevel = nLevel + nDiff;
pTNd->SetAttrListLevel(nLevel);
}
}
}
ChkCondColls();
SetModified();
}
}
return bRet;
}
bool SwDoc::MoveParagraph( const SwPaM& rPam, long nOffset, bool bIsOutlMv )
{
const SwPosition *pStt = rPam.Start(), *pEnd = rPam.End();
sal_uLong nStIdx = pStt->nNode.GetIndex();
sal_uLong nEndIdx = pEnd->nNode.GetIndex();
// Here are some sophisticated checks whether the wished PaM will be moved or not.
// For moving outlines (bIsOutlMv) I've already done some checks, so here are two different
// checks...
SwNode *pTmp1;
SwNode *pTmp2;
if( bIsOutlMv )
{
// For moving chapters (outline) the following reason will deny the move:
// if a start node is inside the moved range and its end node outside or vice versa.
// If a start node is the first moved paragraph, its end node has to be within the moved
// range, too (e.g. as last node).
// If an end node is the last node of the moved range, its start node has to be a part of
// the moved section, too.
pTmp1 = GetNodes()[ nStIdx ];
if( pTmp1->IsStartNode() )
{ // First is a start node
pTmp2 = pTmp1->EndOfSectionNode();
if( pTmp2->GetIndex() > nEndIdx )
return false; // Its end node is behind the moved range
}
pTmp1 = pTmp1->StartOfSectionNode()->EndOfSectionNode();
if( pTmp1->GetIndex() <= nEndIdx )
return false; // End node inside but start node before moved range => no.
pTmp1 = GetNodes()[ nEndIdx ];
if( pTmp1->IsEndNode() )
{ // The last one is an end node
pTmp1 = pTmp1->StartOfSectionNode();
if( pTmp1->GetIndex() < nStIdx )
return false; // Its start node is before the moved range.
}
pTmp1 = pTmp1->StartOfSectionNode();
if( pTmp1->GetIndex() >= nStIdx )
return false; // A start node which ends behind the moved range => no.
}
sal_uLong nInStIdx, nInEndIdx;
long nOffs = nOffset;
if( nOffset > 0 )
{
nInEndIdx = nEndIdx;
nEndIdx += nOffset;
++nOffs;
}
else
{
// Impossible to move to negative index
if( sal_uLong(abs( nOffset )) > nStIdx)
return false;
nInEndIdx = nStIdx - 1;
nStIdx += nOffset;
}
nInStIdx = nInEndIdx + 1;
// The following paragraphs shall be swapped:
// Swap [ nStIdx, nInEndIdx ] with [ nInStIdx, nEndIdx ]
if( nEndIdx >= GetNodes().GetEndOfContent().GetIndex() )
return false;
if( !bIsOutlMv )
{ // And here the restrictions for moving paragraphs other than chapters (outlines)
// The plan is to exchange [nStIdx,nInEndIdx] and [nStartIdx,nEndIdx]
// It will checked if the both "start" nodes as well as the both "end" notes belongs to
// the same start-end-section. This is more restrictive than the conditions checked above.
// E.g. a paragraph will not escape from a section or be inserted to another section.
pTmp1 = GetNodes()[ nStIdx ]->StartOfSectionNode();
pTmp2 = GetNodes()[ nInStIdx ]->StartOfSectionNode();
if( pTmp1 != pTmp2 )
return false; // "start" nodes in different sections
pTmp1 = GetNodes()[ nEndIdx ];
bool bIsEndNode = pTmp1->IsEndNode();
if( !pTmp1->IsStartNode() )
{
pTmp1 = pTmp1->StartOfSectionNode();
if( bIsEndNode ) // For end nodes the first start node is of course inside the range,
pTmp1 = pTmp1->StartOfSectionNode(); // I've to check the start node of the start node.
}
pTmp1 = pTmp1->EndOfSectionNode();
pTmp2 = GetNodes()[ nInEndIdx ];
if( !pTmp2->IsStartNode() )
{
bIsEndNode = pTmp2->IsEndNode();
pTmp2 = pTmp2->StartOfSectionNode();
if( bIsEndNode )
pTmp2 = pTmp2->StartOfSectionNode();
}
pTmp2 = pTmp2->EndOfSectionNode();
if( pTmp1 != pTmp2 )
return false; // The "end" notes are in different sections
}
// Test for Redlining - Can the Selection be moved at all, actually?
if( !IsIgnoreRedline() )
{
sal_uInt16 nRedlPos = GetRedlinePos( pStt->nNode.GetNode(), nsRedlineType_t::REDLINE_DELETE );
if( USHRT_MAX != nRedlPos )
{
SwPosition aStPos( *pStt ), aEndPos( *pEnd );
aStPos.nContent = 0;
SwCntntNode* pCNd = pEnd->nNode.GetNode().GetCntntNode();
aEndPos.nContent = pCNd ? pCNd->Len() : 1;
bool bCheckDel = true;
// There is a some Redline Delete Object for the range
for( ; nRedlPos < GetRedlineTbl().size(); ++nRedlPos )
{
const SwRedline* pTmp = GetRedlineTbl()[ nRedlPos ];
if( !bCheckDel || nsRedlineType_t::REDLINE_DELETE == pTmp->GetType() )
{
const SwPosition *pRStt = pTmp->Start(), *pREnd = pTmp->End();
switch( ComparePosition( *pRStt, *pREnd, aStPos, aEndPos ))
{
case POS_COLLIDE_START:
case POS_BEHIND: // Pos1 comes after Pos2
nRedlPos = GetRedlineTbl().size();
break;
case POS_COLLIDE_END:
case POS_BEFORE: // Pos1 comes before Pos2
break;
case POS_INSIDE: // Pos1 is completely inside Pos2
// that's valid, but check all following for overlapping
bCheckDel = false;
break;
case POS_OUTSIDE: // Pos2 is completely inside Pos1
case POS_EQUAL: // Pos1 is equal to Pos2
case POS_OVERLAP_BEFORE: // Pos1 overlaps Pos2 in the beginning
case POS_OVERLAP_BEHIND: // Pos1 overlaps Pos2 at the end
return false;
}
}
}
}
}
{
// Send DataChanged before moving. We then can detect
// which objects are still in the range.
// After the move they could come before/after the
// Position.
SwDataChanged aTmp( rPam );
}
SwNodeIndex aIdx( nOffset > 0 ? pEnd->nNode : pStt->nNode, nOffs );
SwNodeRange aMvRg( pStt->nNode, 0, pEnd->nNode, +1 );
SwRedline* pOwnRedl = 0;
if( IsRedlineOn() )
{
// If the range is completely in the own Redline, we can move it!
sal_uInt16 nRedlPos = GetRedlinePos( pStt->nNode.GetNode(), nsRedlineType_t::REDLINE_INSERT );
if( USHRT_MAX != nRedlPos )
{
SwRedline* pTmp = GetRedlineTbl()[ nRedlPos ];
const SwPosition *pRStt = pTmp->Start(), *pREnd = pTmp->End();
SwRedline aTmpRedl( nsRedlineType_t::REDLINE_INSERT, rPam );
const SwCntntNode* pCEndNd = pEnd->nNode.GetNode().GetCntntNode();
// Is completely in the range and is the own Redline too?
if( aTmpRedl.IsOwnRedline( *pTmp ) &&
(pRStt->nNode < pStt->nNode ||
(pRStt->nNode == pStt->nNode && !pRStt->nContent.GetIndex()) ) &&
(pEnd->nNode < pREnd->nNode ||
(pEnd->nNode == pREnd->nNode &&
pCEndNd ? pREnd->nContent.GetIndex() == pCEndNd->Len()
: !pREnd->nContent.GetIndex() )) )
{
pOwnRedl = pTmp;
if( nRedlPos + 1 < (sal_uInt16)GetRedlineTbl().size() )
{
pTmp = GetRedlineTbl()[ nRedlPos+1 ];
if( *pTmp->Start() == *pREnd )
// then don't!
pOwnRedl = 0;
}
if( pOwnRedl &&
!( pRStt->nNode <= aIdx && aIdx <= pREnd->nNode ))
{
// it's not in itself, so don't move it
pOwnRedl = 0;
}
}
}
if( !pOwnRedl )
{
GetIDocumentUndoRedo().StartUndo( UNDO_START, NULL );
// First the Insert, then the Delete
SwPosition aInsPos( aIdx );
aInsPos.nContent.Assign( aIdx.GetNode().GetCntntNode(), 0 );
SwPaM aPam( pStt->nNode, aMvRg.aEnd );
SwPaM& rOrigPam = (SwPaM&)rPam;
rOrigPam.DeleteMark();
rOrigPam.GetPoint()->nNode = aIdx.GetIndex() - 1;
bool bDelLastPara = !aInsPos.nNode.GetNode().IsCntntNode();
/* When copying to a non-content node Copy will
insert a paragraph before that node and insert before
that inserted node. Copy creates an SwUndoInserts that
does not cover the extra paragraph. Thus we insert the
extra paragraph ourselves, _with_ correct undo
information. */
if (bDelLastPara)
{
/* aInsPos points to the non-content node. Move it to
the previous content node. */
SwPaM aInsPam(aInsPos);
const bool bMoved = aInsPam.Move(fnMoveBackward);
OSL_ENSURE(bMoved, "No content node found!");
if (bMoved)
{
/* Append the new node after the content node
found. The new position to insert the moved
paragraph at is before the inserted
paragraph. */
AppendTxtNode(*aInsPam.GetPoint());
aInsPos = *aInsPam.GetPoint();
}
}
CopyRange( aPam, aInsPos, false );
if( bDelLastPara )
{
// We need to remove the last empty Node again
aIdx = aInsPos.nNode;
SwCntntNode* pCNd = GetNodes().GoPrevious( &aInsPos.nNode );
aInsPos.nContent.Assign( pCNd, pCNd ? pCNd->Len() : 0 );
// All, that are in the to-be-deleted Node, need to be
// moved to the next Node
SwPosition* pPos;
for( sal_uInt16 n = 0; n < GetRedlineTbl().size(); ++n )
{
SwRedline* pTmp = GetRedlineTbl()[ n ];
if( ( pPos = &pTmp->GetBound(sal_True))->nNode == aIdx )
{
pPos->nNode++;
pPos->nContent.Assign( pPos->nNode.GetNode().GetCntntNode(),0);
}
if( ( pPos = &pTmp->GetBound(sal_False))->nNode == aIdx )
{
pPos->nNode++;
pPos->nContent.Assign( pPos->nNode.GetNode().GetCntntNode(),0);
}
}
CorrRel( aIdx, aInsPos, 0, sal_False );
pCNd->JoinNext();
}
rOrigPam.GetPoint()->nNode++;
rOrigPam.GetPoint()->nContent.Assign( rOrigPam.GetCntntNode(), 0 );
RedlineMode_t eOld = GetRedlineMode();
checkRedlining(eOld);
if (GetIDocumentUndoRedo().DoesUndo())
{
// Still NEEDS to be optimized (even after 14 years)
SetRedlineMode(
(RedlineMode_t)(nsRedlineMode_t::REDLINE_ON | nsRedlineMode_t::REDLINE_SHOW_INSERT | nsRedlineMode_t::REDLINE_SHOW_DELETE));
SwUndo *const pUndo(new SwUndoRedlineDelete(aPam, UNDO_DELETE));
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
SwRedline* pNewRedline = new SwRedline( nsRedlineType_t::REDLINE_DELETE, aPam );
// prevent assertion from aPam's target being deleted
// (Alternatively, one could just let aPam go out of scope, but
// that requires touching a lot of code.)
aPam.GetBound(sal_True).nContent.Assign( NULL, 0 );
aPam.GetBound(sal_False).nContent.Assign( NULL, 0 );
AppendRedline( pNewRedline, true );
// Still NEEDS to be optimized!
SetRedlineMode( eOld );
GetIDocumentUndoRedo().EndUndo( UNDO_END, NULL );
SetModified();
return true;
}
}
if( !pOwnRedl && !IsIgnoreRedline() && !GetRedlineTbl().empty() )
{
SwPaM aTemp(aIdx);
SplitRedline(aTemp);
}
sal_uLong nRedlSttNd(0), nRedlEndNd(0);
if( pOwnRedl )
{
const SwPosition *pRStt = pOwnRedl->Start(), *pREnd = pOwnRedl->End();
nRedlSttNd = pRStt->nNode.GetIndex();
nRedlEndNd = pREnd->nNode.GetIndex();
}
SwUndoMoveNum* pUndo = 0;
sal_uLong nMoved = 0;
if (GetIDocumentUndoRedo().DoesUndo())
{
pUndo = new SwUndoMoveNum( rPam, nOffset, bIsOutlMv );
nMoved = rPam.End()->nNode.GetIndex() - rPam.Start()->nNode.GetIndex() + 1;
}
MoveNodeRange( aMvRg, aIdx, DOC_MOVEREDLINES );
if( pUndo )
{
// i57907: Under circumstances (sections at the end of a chapter)
// the rPam.Start() is not moved to the new position.
// But aIdx should be at the new end position and as long as the
// number of moved paragraphs is nMoved, I know, where the new
// position is.
pUndo->SetStartNode( aIdx.GetIndex() - nMoved );
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
if( pOwnRedl )
{
SwPosition *pRStt = pOwnRedl->Start(), *pREnd = pOwnRedl->End();
if( pRStt->nNode.GetIndex() != nRedlSttNd )
{
pRStt->nNode = nRedlSttNd;
pRStt->nContent.Assign( pRStt->nNode.GetNode().GetCntntNode(),0);
}
if( pREnd->nNode.GetIndex() != nRedlEndNd )
{
pREnd->nNode = nRedlEndNd;
SwCntntNode* pCNd = pREnd->nNode.GetNode().GetCntntNode();
pREnd->nContent.Assign( pCNd, pCNd ? pCNd->Len() : 0 );
}
}
SetModified();
return true;
}
bool SwDoc::NumOrNoNum( const SwNodeIndex& rIdx, sal_Bool bDel )
{
bool bResult = false;
SwTxtNode * pTxtNd = rIdx.GetNode().GetTxtNode();
if (pTxtNd && pTxtNd->GetNumRule() != NULL &&
(pTxtNd->HasNumber() || pTxtNd->HasBullet()))
{
if ( !pTxtNd->IsCountedInList() == !bDel)
{
sal_Bool bOldNum = bDel;
sal_Bool bNewNum = bDel ? sal_False : sal_True;
pTxtNd->SetCountedInList(bNewNum ? true : false);
SetModified();
bResult = true;
if (GetIDocumentUndoRedo().DoesUndo())
{
SwUndoNumOrNoNum * pUndo =
new SwUndoNumOrNoNum(rIdx, bOldNum, bNewNum);
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
}
else if (bDel && pTxtNd->GetNumRule(sal_False) &&
pTxtNd->GetActualListLevel() >= 0 &&
pTxtNd->GetActualListLevel() < MAXLEVEL)
{
SwPaM aPam(*pTxtNd);
DelNumRules(aPam);
bResult = true;
}
}
return bResult;
}
SwNumRule* SwDoc::GetCurrNumRule( const SwPosition& rPos ) const
{
SwNumRule* pRet = 0;
SwTxtNode* pTNd = rPos.nNode.GetNode().GetTxtNode();
if( pTNd )
{
pRet = pTNd->GetNumRule();
}
return pRet;
}
sal_uInt16 SwDoc::FindNumRule( const OUString& rName ) const
{
for( sal_uInt16 n = mpNumRuleTbl->size(); n; )
if( (*mpNumRuleTbl)[ --n ]->GetName() == rName )
return n;
return USHRT_MAX;
}
SwNumRule* SwDoc::FindNumRulePtr( const OUString& rName ) const
{
SwNumRule * pResult = 0;
pResult = maNumRuleMap[rName];
if ( !pResult )
{
for (sal_uInt16 n = 0; n < mpNumRuleTbl->size(); ++n)
{
if ((*mpNumRuleTbl)[n]->GetName() == rName)
{
pResult = (*mpNumRuleTbl)[n];
break;
}
}
}
return pResult;
}
void SwDoc::AddNumRule(SwNumRule * pRule)
{
if ((SAL_MAX_UINT16 - 1) <= mpNumRuleTbl->size())
{
OSL_ENSURE(false, "SwDoc::AddNumRule: table full.");
abort(); // this should never happen on real documents
}
mpNumRuleTbl->push_back(pRule);
maNumRuleMap[pRule->GetName()] = pRule;
pRule->SetNumRuleMap(&maNumRuleMap);
createListForListStyle( pRule->GetName() );
}
sal_uInt16 SwDoc::MakeNumRule( const OUString &rName,
const SwNumRule* pCpy,
bool bBroadcast,
const SvxNumberFormat::SvxNumPositionAndSpaceMode eDefaultNumberFormatPositionAndSpaceMode )
{
SwNumRule* pNew;
if( pCpy )
{
pNew = new SwNumRule( *pCpy );
pNew->SetName( GetUniqueNumRuleName( &rName ), *this );
if( pNew->GetName() != rName )
{
pNew->SetPoolFmtId( USHRT_MAX );
pNew->SetPoolHelpId( USHRT_MAX );
pNew->SetPoolHlpFileId( UCHAR_MAX );
pNew->SetDefaultListId( OUString() );
}
pNew->CheckCharFmts( this );
}
else
{
pNew = new SwNumRule( GetUniqueNumRuleName( &rName ),
eDefaultNumberFormatPositionAndSpaceMode );
}
sal_uInt16 nRet = mpNumRuleTbl->size();
AddNumRule(pNew);
if (GetIDocumentUndoRedo().DoesUndo())
{
SwUndo * pUndo = new SwUndoNumruleCreate(pNew, this);
GetIDocumentUndoRedo().AppendUndo(pUndo);
}
if (bBroadcast)
BroadcastStyleOperation(pNew->GetName(), SFX_STYLE_FAMILY_PSEUDO,
SFX_STYLESHEET_CREATED);
return nRet;
}
OUString SwDoc::GetUniqueNumRuleName( const OUString* pChkStr, bool bAutoNum ) const
{
OUString aName;
if( bAutoNum )
{
static bool bHack = (getenv("LIBO_ONEWAY_STABLE_ODF_EXPORT") != NULL);
if (bHack)
{
static sal_Int64 nIdCounter = SAL_CONST_INT64(8000000000);
aName = OUString::number(nIdCounter++);
}
else
{
static rtlRandomPool s_RandomPool( rtl_random_createPool() );
sal_Int64 n;
rtl_random_getBytes( s_RandomPool, &n, sizeof(n) );
aName = OUString::number( (n < 0 ? -n : n) );
}
if( pChkStr && pChkStr->isEmpty() )
pChkStr = 0;
}
else if( pChkStr && !pChkStr->isEmpty() )
aName = *pChkStr;
else
{
pChkStr = 0;
aName = SW_RESSTR( STR_NUMRULE_DEFNAME );
}
sal_uInt16 nNum(0), nTmp, nFlagSize = ( mpNumRuleTbl->size() / 8 ) +2;
sal_uInt8* pSetFlags = new sal_uInt8[ nFlagSize ];
memset( pSetFlags, 0, nFlagSize );
sal_Int32 nNmLen = aName.getLength();
if( !bAutoNum && pChkStr )
{
while( nNmLen-- && '0' <= aName[nNmLen] && aName[nNmLen] <= '9' )
; //nop
if( ++nNmLen < aName.getLength() )
{
aName = aName.copy(0, nNmLen );
pChkStr = 0;
}
}
const SwNumRule* pNumRule;
sal_uInt16 n;
for( n = 0; n < mpNumRuleTbl->size(); ++n )
if( 0 != ( pNumRule = (*mpNumRuleTbl)[ n ] ) )
{
const OUString sNm = pNumRule->GetName();
if( sNm.startsWith( aName ) )
{
// Determine Number and set the Flag
nNum = (sal_uInt16)sNm.copy( nNmLen ).toInt32();
if( nNum-- && nNum < mpNumRuleTbl->size() )
pSetFlags[ nNum / 8 ] |= (0x01 << ( nNum & 0x07 ));
}
if( pChkStr && *pChkStr==sNm )
pChkStr = 0;
}
if( !pChkStr )
{
// All Numbers have been flagged accordingly, so identify the right Number
nNum = mpNumRuleTbl->size();
for( n = 0; n < nFlagSize; ++n )
if( 0xff != ( nTmp = pSetFlags[ n ] ))
{
// identify the Number
nNum = n * 8;
while( nTmp & 1 )
++nNum, nTmp >>= 1;
break;
}
}
delete [] pSetFlags;
if( pChkStr && !pChkStr->isEmpty() )
return *pChkStr;
return aName + OUString::number( ++nNum );
}
void SwDoc::UpdateNumRule()
{
const SwNumRuleTbl& rNmTbl = GetNumRuleTbl();
for( sal_uInt16 n = 0; n < rNmTbl.size(); ++n )
if( rNmTbl[ n ]->IsInvalidRule() )
rNmTbl[ n ]->Validate();
}
void SwDoc::MarkListLevel( const OUString& sListId,
const int nListLevel,
const bool bValue )
{
SwList* pList = getListByName( sListId );
if ( pList )
{
MarkListLevel( *pList, nListLevel, bValue );
}
}
void SwDoc::MarkListLevel( SwList& rList,
const int nListLevel,
const bool bValue )
{
// Set new marked list level and notify all affected nodes of the changed mark.
rList.MarkListLevel( nListLevel, bValue );
}
bool SwDoc::IsFirstOfNumRule(SwPosition & rPos)
{
bool bResult = false;
SwTxtNode * pTxtNode = rPos.nNode.GetNode().GetTxtNode();
if (pTxtNode)
{
SwNumRule * pNumRule = pTxtNode->GetNumRule();
if (pNumRule)
bResult = pTxtNode->IsFirstOfNumRule();
}
return bResult;
}
// implementation for interface <IDocumentListItems>
bool SwDoc::lessThanNodeNum::operator()( const SwNodeNum* pNodeNumOne,
const SwNodeNum* pNodeNumTwo ) const
{
return pNodeNumOne->LessThan( *pNodeNumTwo );
}
void SwDoc::addListItem( const SwNodeNum& rNodeNum )
{
if ( mpListItemsList == 0 )
{
return;
}
const bool bAlreadyInserted(
mpListItemsList->find( &rNodeNum ) != mpListItemsList->end() );
OSL_ENSURE( !bAlreadyInserted,
"<SwDoc::InsertListItem(..)> - <SwNodeNum> instance already registered as numbered item!" );
if ( !bAlreadyInserted )
{
mpListItemsList->insert( &rNodeNum );
}
}
void SwDoc::removeListItem( const SwNodeNum& rNodeNum )
{
if ( mpListItemsList == 0 )
{
return;
}
const tImplSortedNodeNumList::size_type nDeleted = mpListItemsList->erase( &rNodeNum );
if ( nDeleted > 1 )
{
OSL_FAIL( "<SwDoc::RemoveListItem(..)> - <SwNodeNum> was registered more than once as numbered item!" );
}
}
OUString SwDoc::getListItemText( const SwNodeNum& rNodeNum,
const bool bWithNumber,
const bool bWithSpacesForLevel ) const
{
return rNodeNum.GetTxtNode()
? rNodeNum.GetTxtNode()->GetExpandTxt( 0, -1, bWithNumber,
bWithNumber, bWithSpacesForLevel )
: OUString();
}
void SwDoc::getListItems( tSortedNodeNumList& orNodeNumList ) const
{
orNodeNumList.clear();
orNodeNumList.reserve( mpListItemsList->size() );
tImplSortedNodeNumList::iterator aIter;
tImplSortedNodeNumList::iterator aEndIter = mpListItemsList->end();
for ( aIter = mpListItemsList->begin(); aIter != aEndIter; ++aIter )
{
orNodeNumList.push_back( (*aIter) );
}
}
void SwDoc::getNumItems( tSortedNodeNumList& orNodeNumList ) const
{
orNodeNumList.clear();
orNodeNumList.reserve( mpListItemsList->size() );
tImplSortedNodeNumList::iterator aIter;
tImplSortedNodeNumList::iterator aEndIter = mpListItemsList->end();
for ( aIter = mpListItemsList->begin(); aIter != aEndIter; ++aIter )
{
const SwNodeNum* pNodeNum = (*aIter);
if ( pNodeNum->IsCounted() &&
pNodeNum->GetTxtNode() && pNodeNum->GetTxtNode()->HasNumber() )
{
orNodeNumList.push_back( pNodeNum );
}
}
}
// implementation for interface <IDocumentOutlineNodes>
sal_Int32 SwDoc::getOutlineNodesCount() const
{
return GetNodes().GetOutLineNds().size();
}
int SwDoc::getOutlineLevel( const sal_Int32 nIdx ) const
{
return GetNodes().GetOutLineNds()[ static_cast<sal_uInt16>(nIdx) ]->
GetTxtNode()->GetAttrOutlineLevel()-1;
}
OUString SwDoc::getOutlineText( const sal_Int32 nIdx,
const bool bWithNumber,
const bool bWithSpacesForLevel,
const bool bWithFtn ) const
{
return GetNodes().GetOutLineNds()[ static_cast<sal_uInt16>(nIdx) ]->
GetTxtNode()->GetExpandTxt( 0, -1, bWithNumber,
bWithNumber, bWithSpacesForLevel, bWithFtn );
}
SwTxtNode* SwDoc::getOutlineNode( const sal_Int32 nIdx ) const
{
return GetNodes().GetOutLineNds()[ static_cast<sal_uInt16>(nIdx) ]->GetTxtNode();
}
void SwDoc::getOutlineNodes( IDocumentOutlineNodes::tSortedOutlineNodeList& orOutlineNodeList ) const
{
orOutlineNodeList.clear();
orOutlineNodeList.reserve( getOutlineNodesCount() );
const sal_uInt16 nOutlCount( static_cast<sal_uInt16>(getOutlineNodesCount()) );
for ( sal_uInt16 i = 0; i < nOutlCount; ++i )
{
orOutlineNodeList.push_back(
GetNodes().GetOutLineNds()[i]->GetTxtNode() );
}
}
// implementation of interface IDocumentListsAccess
SwList* SwDoc::createList( const OUString& rListId,
const OUString& sDefaultListStyleName )
{
OUString sListId = rListId;
if ( sListId.isEmpty() )
{
sListId = listfunc::CreateUniqueListId( *this );
}
if ( getListByName( sListId ) )
{
OSL_FAIL( "<SwDoc::createList(..)> - provided list id already used. Serious defect -> please inform OD." );
return 0;
}
SwNumRule* pDefaultNumRuleForNewList = FindNumRulePtr( sDefaultListStyleName );
if ( !pDefaultNumRuleForNewList )
{
OSL_FAIL( "<SwDoc::createList(..)> - for provided default list style name no list style is found. Serious defect -> please inform OD." );
return 0;
}
SwList* pNewList = new SwList( sListId, *pDefaultNumRuleForNewList, GetNodes() );
maLists[sListId] = pNewList;
return pNewList;
}
void SwDoc::deleteList( const OUString& sListId )
{
SwList* pList = getListByName( sListId );
if ( pList )
{
maLists.erase( sListId );
delete pList;
}
}
SwList* SwDoc::getListByName( const OUString& sListId ) const
{
SwList* pList = 0;
boost::unordered_map< OUString, SwList*, OUStringHash >::const_iterator
aListIter = maLists.find( sListId );
if ( aListIter != maLists.end() )
{
pList = (*aListIter).second;
}
return pList;
}
SwList* SwDoc::createListForListStyle( const OUString& sListStyleName )
{
if ( sListStyleName.isEmpty() )
{
OSL_FAIL( "<SwDoc::createListForListStyle(..)> - no list style name provided. Serious defect -> please inform OD." );
return 0;
}
if ( getListForListStyle( sListStyleName ) )
{
OSL_FAIL( "<SwDoc::createListForListStyle(..)> - a list for the provided list style name already exists. Serious defect -> please inform OD." );
return 0;
}
SwNumRule* pNumRule = FindNumRulePtr( sListStyleName );
if ( !pNumRule )
{
OSL_FAIL( "<SwDoc::createListForListStyle(..)> - for provided list style name no list style is found. Serious defect -> please inform OD." );
return 0;
}
OUString sListId( pNumRule->GetDefaultListId() ); // can be empty String
if ( getListByName( sListId ) )
{
sListId = OUString();
}
SwList* pNewList = createList( sListId, sListStyleName );
maListStyleLists[sListStyleName] = pNewList;
pNumRule->SetDefaultListId( pNewList->GetListId() );
return pNewList;
}
SwList* SwDoc::getListForListStyle( const OUString& sListStyleName ) const
{
SwList* pList = 0;
boost::unordered_map< OUString, SwList*, OUStringHash >::const_iterator
aListIter = maListStyleLists.find( sListStyleName );
if ( aListIter != maListStyleLists.end() )
{
pList = (*aListIter).second;
}
return pList;
}
void SwDoc::deleteListForListStyle( const OUString& sListStyleName )
{
OUString sListId;
{
SwList* pList = getListForListStyle( sListStyleName );
OSL_ENSURE( pList,
"<SwDoc::deleteListForListStyle(..)> - misusage of method: no list found for given list style name" );
if ( pList )
{
sListId = pList->GetListId();
}
}
if ( !sListId.isEmpty() )
{
maListStyleLists.erase( sListStyleName );
deleteList( sListId );
}
}
void SwDoc::trackChangeOfListStyleName( const OUString& sListStyleName,
const OUString& sNewListStyleName )
{
SwList* pList = getListForListStyle( sListStyleName );
OSL_ENSURE( pList,
"<SwDoc::changeOfListStyleName(..)> - misusage of method: no list found for given list style name" );
if ( pList != 0 )
{
maListStyleLists.erase( sListStyleName );
maListStyleLists[sNewListStyleName] = pList;
}
}
namespace listfunc
{
const OUString MakeListIdUnique( const SwDoc& rDoc,
const OUString aSuggestedUniqueListId )
{
long nHitCount = 0;
OUString aTmpStr = aSuggestedUniqueListId;
while ( rDoc.getListByName( aTmpStr ) )
{
++nHitCount;
aTmpStr = aSuggestedUniqueListId;
aTmpStr += OUString::number( nHitCount );
}
return aTmpStr;
}
const OUString CreateUniqueListId( const SwDoc& rDoc )
{
static bool bHack = (getenv("LIBO_ONEWAY_STABLE_ODF_EXPORT") != NULL);
if (bHack)
{
static sal_Int64 nIdCounter = SAL_CONST_INT64(7000000000);
return MakeListIdUnique( rDoc, OUString( "list" + OUString::number(nIdCounter++) ) );
}
else
{
// #i92478#
OUString aNewListId( "list" );
// #o12311627#
static rtlRandomPool s_RandomPool( rtl_random_createPool() );
sal_Int64 n;
rtl_random_getBytes( s_RandomPool, &n, sizeof(n) );
aNewListId += OUString::number( (n < 0 ? -n : n) );
return MakeListIdUnique( rDoc, aNewListId );
}
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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