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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 <editeng/boxitem.hxx>
#include <editeng/brushitem.hxx>
#include <editeng/frmdiritem.hxx>
#include <fesh.hxx>
#include <fmtornt.hxx>
#include <fmtfsize.hxx>
#include <fmtrowsplt.hxx>
#include <tabcol.hxx>
#include <frmatr.hxx>
#include <cellfrm.hxx>
#include <tabfrm.hxx>
#include <cntfrm.hxx>
#include <txtfrm.hxx>
#include <svx/svxids.hrc>
#include <doc.hxx>
#include <IDocumentUndoRedo.hxx>
#include <IDocumentState.hxx>
#include <IDocumentLayoutAccess.hxx>
#include <pam.hxx>
#include <swcrsr.hxx>
#include <viscrs.hxx>
#include <swtable.hxx>
#include <htmltbl.hxx>
#include <tblsel.hxx>
#include <swtblfmt.hxx>
#include <ndindex.hxx>
#include <undobj.hxx>
#include <calbck.hxx>
#include <UndoTable.hxx>
#include <o3tl/enumrange.hxx>
#include <o3tl/safeint.hxx>
using ::editeng::SvxBorderLine;
using namespace ::com::sun::star;
// See swtable.cxx too
#define COLFUZZY 20L
static bool IsSame( long nA, long nB ) { return std::abs(nA-nB) <= COLFUZZY; }
namespace {
// SwTableLine::ChgFrameFormat may delete old format which doesn't have writer listeners anymore.
// This may invalidate my pointers, and lead to use-after-free. For this reason, I register myself
// as a writer listener for the old format here, and take care to delete formats without listeners
// in my own dtor.
class SwTableFormatCmp : public SwClient
{
public:
SwTableFormatCmp( SwFrameFormat *pOld, SwFrameFormat *pNew, sal_Int16 nType );
~SwTableFormatCmp() override;
static SwFrameFormat* FindNewFormat(std::vector<std::unique_ptr<SwTableFormatCmp>>& rArr,
SwFrameFormat const* pOld, sal_Int16 nType);
private:
SwFrameFormat *pOld, *pNew;
sal_Int16 nType;
};
}
SwTableFormatCmp::SwTableFormatCmp( SwFrameFormat *pO, SwFrameFormat *pN, sal_Int16 nT )
: pOld ( pO ), pNew ( pN ), nType( nT )
{
if (pOld)
pOld->Add(this);
}
SwTableFormatCmp::~SwTableFormatCmp()
{
if (pOld)
{
pOld->Remove(this);
if (!pOld->HasWriterListeners())
delete pOld;
}
}
// static
SwFrameFormat* SwTableFormatCmp::FindNewFormat(std::vector<std::unique_ptr<SwTableFormatCmp>>& rArr,
SwFrameFormat const* pOld, sal_Int16 nType)
{
for (const auto& pCmp : rArr)
{
if ( pCmp->pOld == pOld && pCmp->nType == nType )
return pCmp->pNew;
}
return nullptr;
}
static void lcl_GetStartEndCell( const SwCursor& rCursor,
SwLayoutFrame *&prStart, SwLayoutFrame *&prEnd )
{
OSL_ENSURE( rCursor.GetContentNode() && rCursor.GetContentNode( false ),
"Tab selection not at ContentNode" );
Point aPtPos, aMkPos;
const SwShellCursor* pShCursor = dynamic_cast<const SwShellCursor*>(&rCursor);
if( pShCursor )
{
aPtPos = pShCursor->GetPtPos();
aMkPos = pShCursor->GetMkPos();
}
// Robust:
SwContentNode* pPointNd = rCursor.GetContentNode();
SwContentNode* pMarkNd = rCursor.GetContentNode(false);
std::pair<Point, bool> tmp(aPtPos, true);
SwFrame *const pPointFrame = pPointNd ? pPointNd->getLayoutFrame(pPointNd->GetDoc()->getIDocumentLayoutAccess().GetCurrentLayout(), nullptr, &tmp) : nullptr;
tmp.first = aMkPos;
SwFrame *const pMarkFrame = pMarkNd ? pMarkNd->getLayoutFrame(pMarkNd->GetDoc()->getIDocumentLayoutAccess().GetCurrentLayout(), nullptr, &tmp) : nullptr;
prStart = pPointFrame ? pPointFrame->GetUpper() : nullptr;
prEnd = pMarkFrame ? pMarkFrame->GetUpper() : nullptr;
}
static bool lcl_GetBoxSel( const SwCursor& rCursor, SwSelBoxes& rBoxes,
bool bAllCursor = false )
{
const SwTableCursor* pTableCursor =
dynamic_cast<const SwTableCursor*>(&rCursor);
if( pTableCursor )
::GetTableSelCrs( *pTableCursor, rBoxes );
else
{
const SwPaM *pCurPam = &rCursor, *pSttPam = pCurPam;
do {
const SwNode* pNd = pCurPam->GetNode().FindTableBoxStartNode();
if( pNd )
{
SwTableBox* pBox = const_cast<SwTableBox*>(pNd->FindTableNode()->GetTable().
GetTableBox( pNd->GetIndex() ));
rBoxes.insert( pBox );
}
} while( bAllCursor &&
pSttPam != ( pCurPam = pCurPam->GetNext()) );
}
return !rBoxes.empty();
}
static void InsertLine( std::vector<SwTableLine*>& rLineArr, SwTableLine* pLine )
{
if( rLineArr.end() == std::find( rLineArr.begin(), rLineArr.end(), pLine ) )
rLineArr.push_back( pLine );
}
static bool lcl_IsAnLower( const SwTableLine *pLine, const SwTableLine *pAssumed )
{
const SwTableLine *pTmp = pAssumed->GetUpper() ?
pAssumed->GetUpper()->GetUpper() : nullptr;
while ( pTmp )
{
if ( pTmp == pLine )
return true;
pTmp = pTmp->GetUpper() ? pTmp->GetUpper()->GetUpper() : nullptr;
}
return false;
}
namespace {
struct LinesAndTable
{
std::vector<SwTableLine*> &m_rLines;
const SwTable &m_rTable;
bool m_bInsertLines;
LinesAndTable(std::vector<SwTableLine*> &rL, const SwTable &rTable) :
m_rLines(rL), m_rTable(rTable), m_bInsertLines(true) {}
};
}
static bool FindLine_( FndLine_ & rLine, LinesAndTable* pPara );
static bool FindBox_( FndBox_ & rBox, LinesAndTable* pPara )
{
if (!rBox.GetLines().empty())
{
pPara->m_bInsertLines = true;
for (auto const& rpFndLine : rBox.GetLines())
{
FindLine_(*rpFndLine, pPara);
}
if (pPara->m_bInsertLines)
{
const SwTableLines &rLines = (rBox.GetBox())
? rBox.GetBox()->GetTabLines()
: pPara->m_rTable.GetTabLines();
if (rBox.GetLines().size() == rLines.size())
{
for ( auto pLine : rLines )
::InsertLine(pPara->m_rLines, pLine);
}
else
pPara->m_bInsertLines = false;
}
}
else if (rBox.GetBox())
{
::InsertLine(pPara->m_rLines, rBox.GetBox()->GetUpper());
}
return true;
}
bool FindLine_( FndLine_& rLine, LinesAndTable* pPara )
{
for (auto const& it : rLine.GetBoxes())
{
FindBox_(*it, pPara);
}
return true;
}
static void lcl_CollectLines( std::vector<SwTableLine*> &rArr, const SwCursor& rCursor, bool bRemoveLines )
{
// Collect the selected Boxes first
SwSelBoxes aBoxes;
if( !::lcl_GetBoxSel( rCursor, aBoxes ))
return ;
// Copy the selected structure
const SwTable &rTable = aBoxes[0]->GetSttNd()->FindTableNode()->GetTable();
LinesAndTable aPara( rArr, rTable );
FndBox_ aFndBox( nullptr, nullptr );
{
FndPara aTmpPara( aBoxes, &aFndBox );
ForEach_FndLineCopyCol( const_cast<SwTableLines&>(rTable.GetTabLines()), &aTmpPara );
}
// Collect the Lines which only contain selected Boxes
::FindBox_(aFndBox, &aPara);
// Remove lines, that have a common superordinate row.
// (Not for row split)
if ( bRemoveLines )
{
for ( std::vector<SwTableLine*>::size_type i = 0; i < rArr.size(); ++i )
{
SwTableLine *pUpLine = rArr[i];
for ( std::vector<SwTableLine*>::size_type k = 0; k < rArr.size(); ++k )
{
if ( k != i && ::lcl_IsAnLower( pUpLine, rArr[k] ) )
{
rArr.erase( rArr.begin() + k );
if ( k <= i )
--i;
--k;
}
}
}
}
}
static void lcl_ProcessRowAttr(std::vector<std::unique_ptr<SwTableFormatCmp>>& rFormatCmp,
SwTableLine* pLine, const SfxPoolItem& rNew)
{
SwFrameFormat *pNewFormat;
if ( nullptr != (pNewFormat = SwTableFormatCmp::FindNewFormat( rFormatCmp, pLine->GetFrameFormat(), 0 )))
pLine->ChgFrameFormat( static_cast<SwTableLineFormat*>(pNewFormat) );
else
{
SwFrameFormat *pOld = pLine->GetFrameFormat();
SwFrameFormat *pNew = pLine->ClaimFrameFormat();
pNew->SetFormatAttr( rNew );
rFormatCmp.push_back(std::make_unique<SwTableFormatCmp>(pOld, pNew, 0));
}
}
static void lcl_ProcessBoxSize(std::vector<std::unique_ptr<SwTableFormatCmp>>& rFormatCmp,
SwTableBox* pBox, const SwFormatFrameSize& rNew);
static void lcl_ProcessRowSize(std::vector<std::unique_ptr<SwTableFormatCmp>>& rFormatCmp,
SwTableLine* pLine, const SwFormatFrameSize& rNew)
{
lcl_ProcessRowAttr( rFormatCmp, pLine, rNew );
SwTableBoxes &rBoxes = pLine->GetTabBoxes();
for ( auto pBox : rBoxes )
::lcl_ProcessBoxSize( rFormatCmp, pBox, rNew );
}
static void lcl_ProcessBoxSize(std::vector<std::unique_ptr<SwTableFormatCmp>>& rFormatCmp,
SwTableBox* pBox, const SwFormatFrameSize& rNew)
{
SwTableLines &rLines = pBox->GetTabLines();
if ( !rLines.empty() )
{
SwFormatFrameSize aSz( rNew );
aSz.SetHeight( rNew.GetHeight() ? rNew.GetHeight() / rLines.size() : 0 );
for ( auto pLine : rLines )
::lcl_ProcessRowSize( rFormatCmp, pLine, aSz );
}
}
void SwDoc::SetRowSplit( const SwCursor& rCursor, const SwFormatRowSplit &rNew )
{
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
if( pTableNd )
{
std::vector<SwTableLine*> aRowArr; // For Lines collecting
::lcl_CollectLines( aRowArr, rCursor, false );
if( !aRowArr.empty() )
{
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().AppendUndo(std::make_unique<SwUndoAttrTable>(*pTableNd));
}
std::vector<std::unique_ptr<SwTableFormatCmp>> aFormatCmp;
aFormatCmp.reserve( std::max( 255, static_cast<int>(aRowArr.size()) ) );
for( auto pLn : aRowArr )
::lcl_ProcessRowAttr( aFormatCmp, pLn, rNew );
getIDocumentState().SetModified();
}
}
}
std::unique_ptr<SwFormatRowSplit> SwDoc::GetRowSplit( const SwCursor& rCursor )
{
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
if( !pTableNd )
return nullptr;
std::vector<SwTableLine*> aRowArr; // For Lines collecting
::lcl_CollectLines( aRowArr, rCursor, false );
if( aRowArr.empty() )
return nullptr;
SwFormatRowSplit* pSz = &const_cast<SwFormatRowSplit&>(aRowArr[0]->GetFrameFormat()->GetRowSplit());
for ( auto pLn : aRowArr )
{
if ( pSz->GetValue() != pLn->GetFrameFormat()->GetRowSplit().GetValue() )
{
return nullptr;
}
}
return std::make_unique<SwFormatRowSplit>( *pSz );
}
/* Class: SwDoc
* Methods: SetRowHeight(), GetRowHeight()
*
* The line height is calculated from the Selection.
* Starting with every Cell within the Selection, all Cells are iterated
* through in an upwards fashion.
*
* The topmost Line gets the requested value, all Lines below it get
* a respective value that is calculated from the relation of the old and
* new size of the topmost Line in the lower line's own size.
*
* All changed Lines may get an own FrameFormat.
* Of course we can only touch every Line once.
*/
void SwDoc::SetRowHeight( const SwCursor& rCursor, const SwFormatFrameSize &rNew )
{
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
if( pTableNd )
{
std::vector<SwTableLine*> aRowArr; // For Lines collecting
::lcl_CollectLines( aRowArr, rCursor, true );
if( !aRowArr.empty() )
{
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().AppendUndo(std::make_unique<SwUndoAttrTable>(*pTableNd));
}
std::vector<std::unique_ptr<SwTableFormatCmp>> aFormatCmp;
aFormatCmp.reserve( std::max( 255, static_cast<int>(aRowArr.size()) ) );
for ( auto pLn : aRowArr )
::lcl_ProcessRowSize( aFormatCmp, pLn, rNew );
getIDocumentState().SetModified();
}
}
}
std::unique_ptr<SwFormatFrameSize> SwDoc::GetRowHeight( const SwCursor& rCursor )
{
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
if( !pTableNd )
return nullptr;
std::vector<SwTableLine*> aRowArr; // For Lines collecting
::lcl_CollectLines( aRowArr, rCursor, true );
if( aRowArr.empty() )
return nullptr;
SwFormatFrameSize* pSz = &const_cast<SwFormatFrameSize&>(aRowArr[0]->GetFrameFormat()->GetFrameSize());
for ( auto pLn : aRowArr )
{
if ( *pSz != pLn->GetFrameFormat()->GetFrameSize() )
return nullptr;
}
return std::make_unique<SwFormatFrameSize>( *pSz );
}
bool SwDoc::BalanceRowHeight( const SwCursor& rCursor, bool bTstOnly, const bool bOptimize )
{
bool bRet = false;
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
if( pTableNd )
{
std::vector<SwTableLine*> aRowArr; // For Lines collecting
::lcl_CollectLines( aRowArr, rCursor, true );
if( 1 < aRowArr.size() )
{
if( !bTstOnly )
{
long nHeight = 0;
sal_Int32 nTotalHeight = 0;
for ( auto pLn : aRowArr )
{
SwIterator<SwFrame,SwFormat> aIter( *pLn->GetFrameFormat() );
SwFrame* pFrame = aIter.First();
while ( pFrame )
{
nHeight = std::max( nHeight, pFrame->getFrameArea().Height() );
pFrame = aIter.Next();
}
nTotalHeight += nHeight;
}
if ( bOptimize )
nHeight = nTotalHeight / aRowArr.size();
SwFormatFrameSize aNew( SwFrameSize::Minimum, 0, nHeight );
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().AppendUndo(
std::make_unique<SwUndoAttrTable>(*pTableNd));
}
std::vector<std::unique_ptr<SwTableFormatCmp>> aFormatCmp;
aFormatCmp.reserve( std::max( 255, static_cast<int>(aRowArr.size()) ) );
for( auto pLn : aRowArr )
::lcl_ProcessRowSize( aFormatCmp, pLn, aNew );
getIDocumentState().SetModified();
}
bRet = true;
}
}
return bRet;
}
void SwDoc::SetRowBackground( const SwCursor& rCursor, const SvxBrushItem &rNew )
{
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
if( pTableNd )
{
std::vector<SwTableLine*> aRowArr; // For Lines collecting
::lcl_CollectLines( aRowArr, rCursor, true );
if( !aRowArr.empty() )
{
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().AppendUndo(std::make_unique<SwUndoAttrTable>(*pTableNd));
}
std::vector<std::unique_ptr<SwTableFormatCmp>> aFormatCmp;
aFormatCmp.reserve( std::max( 255, static_cast<int>(aRowArr.size()) ) );
for( auto pLn : aRowArr )
::lcl_ProcessRowAttr( aFormatCmp, pLn, rNew );
getIDocumentState().SetModified();
}
}
}
bool SwDoc::GetRowBackground( const SwCursor& rCursor, std::unique_ptr<SvxBrushItem>& rToFill )
{
bool bRet = false;
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
if( pTableNd )
{
std::vector<SwTableLine*> aRowArr; // For Lines collecting
::lcl_CollectLines( aRowArr, rCursor, true );
if( !aRowArr.empty() )
{
rToFill = aRowArr[0]->GetFrameFormat()->makeBackgroundBrushItem();
bRet = true;
for ( std::vector<SwTableLine*>::size_type i = 1; i < aRowArr.size(); ++i )
{
std::unique_ptr<SvxBrushItem> aAlternative(aRowArr[i]->GetFrameFormat()->makeBackgroundBrushItem());
if ( rToFill && aAlternative && *rToFill != *aAlternative )
{
bRet = false;
break;
}
}
}
}
return bRet;
}
static void InsertCell( std::vector<SwCellFrame*>& rCellArr, SwCellFrame* pCellFrame )
{
if( rCellArr.end() == std::find( rCellArr.begin(), rCellArr.end(), pCellFrame ) )
rCellArr.push_back( pCellFrame );
}
static void lcl_CollectCells( std::vector<SwCellFrame*> &rArr, const SwRect &rUnion,
SwTabFrame *pTab )
{
SwLayoutFrame *pCell = pTab->FirstCell();
do
{
// If the Cell contains a CellFrame, we need to use it
// in order to get to the Cell
while ( !pCell->IsCellFrame() )
pCell = pCell->GetUpper();
OSL_ENSURE( pCell, "Frame is not a Cell" );
if ( rUnion.IsOver( pCell->getFrameArea() ) )
::InsertCell( rArr, static_cast<SwCellFrame*>(pCell) );
// Make sure the Cell is left (Areas)
SwLayoutFrame *pTmp = pCell;
do
{ pTmp = pTmp->GetNextLayoutLeaf();
} while ( pCell->IsAnLower( pTmp ) );
pCell = pTmp;
} while( pCell && pTab->IsAnLower( pCell ) );
}
void SwDoc::SetTabBorders( const SwCursor& rCursor, const SfxItemSet& rSet )
{
SwContentNode* pCntNd = rCursor.GetPoint()->nNode.GetNode().GetContentNode();
SwTableNode* pTableNd = pCntNd ? pCntNd->FindTableNode() : nullptr;
if( !pTableNd )
return ;
SwLayoutFrame *pStart, *pEnd;
::lcl_GetStartEndCell( rCursor, pStart, pEnd );
SwSelUnions aUnions;
::MakeSelUnions( aUnions, pStart, pEnd );
if( aUnions.empty() )
return;
SwTable& rTable = pTableNd->GetTable();
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().AppendUndo( std::make_unique<SwUndoAttrTable>(*pTableNd) );
}
std::vector<std::unique_ptr<SwTableFormatCmp>> aFormatCmp;
aFormatCmp.reserve( 255 );
const SvxBoxItem* pSetBox;
const SvxBoxInfoItem *pSetBoxInfo;
const SvxBorderLine* pLeft = nullptr;
const SvxBorderLine* pRight = nullptr;
const SvxBorderLine* pTop = nullptr;
const SvxBorderLine* pBottom = nullptr;
const SvxBorderLine* pHori = nullptr;
const SvxBorderLine* pVert = nullptr;
bool bHoriValid = true, bVertValid = true,
bTopValid = true, bBottomValid = true,
bLeftValid = true, bRightValid = true;
// The Flags in the BoxInfo Item decide whether a BorderLine is valid!
if( SfxItemState::SET == rSet.GetItemState( SID_ATTR_BORDER_INNER, false,
reinterpret_cast<const SfxPoolItem**>(&pSetBoxInfo)) )
{
pHori = pSetBoxInfo->GetHori();
pVert = pSetBoxInfo->GetVert();
bHoriValid = pSetBoxInfo->IsValid(SvxBoxInfoItemValidFlags::HORI);
bVertValid = pSetBoxInfo->IsValid(SvxBoxInfoItemValidFlags::VERT);
// Do we want to evaluate these?
bTopValid = pSetBoxInfo->IsValid(SvxBoxInfoItemValidFlags::TOP);
bBottomValid = pSetBoxInfo->IsValid(SvxBoxInfoItemValidFlags::BOTTOM);
bLeftValid = pSetBoxInfo->IsValid(SvxBoxInfoItemValidFlags::LEFT);
bRightValid = pSetBoxInfo->IsValid(SvxBoxInfoItemValidFlags::RIGHT);
}
if( SfxItemState::SET == rSet.GetItemState( RES_BOX, false,
reinterpret_cast<const SfxPoolItem**>(&pSetBox)) )
{
pLeft = pSetBox->GetLeft();
pRight = pSetBox->GetRight();
pTop = pSetBox->GetTop();
pBottom = pSetBox->GetBottom();
}
else
{
// Not set, thus not valid values
bTopValid = bBottomValid = bLeftValid = bRightValid = false;
pSetBox = nullptr;
}
bool bFirst = true;
for ( SwSelUnions::size_type i = 0; i < aUnions.size(); ++i )
{
SwSelUnion *pUnion = &aUnions[i];
SwTabFrame *pTab = pUnion->GetTable();
const SwRect &rUnion = pUnion->GetUnion();
const bool bLast = (i == aUnions.size() - 1);
std::vector<SwCellFrame*> aCellArr;
aCellArr.reserve( 255 );
::lcl_CollectCells( aCellArr, pUnion->GetUnion(), pTab );
// All Cell Borders that match the UnionRect or extend it are
// Outer Borders. All others are Inner Borders.
// New: The Outer Borders can, depending on whether it's a
// Start/Middle/Follow Table (for Selection via FollowTabs),
// also not be Outer Borders.
// Outer Borders are set on the left, right, at the top and at the bottom.
// Inner Borders are only set at the top and on the left.
for ( auto pCell : aCellArr )
{
const bool bVert = pTab->IsVertical();
const bool bRTL = pTab->IsRightToLeft();
bool bTopOver, bLeftOver, bRightOver, bBottomOver;
if ( bVert )
{
bTopOver = pCell->getFrameArea().Right() >= rUnion.Right();
bLeftOver = pCell->getFrameArea().Top() <= rUnion.Top();
bRightOver = pCell->getFrameArea().Bottom() >= rUnion.Bottom();
bBottomOver = pCell->getFrameArea().Left() <= rUnion.Left();
}
else
{
bTopOver = pCell->getFrameArea().Top() <= rUnion.Top();
bLeftOver = pCell->getFrameArea().Left() <= rUnion.Left();
bRightOver = pCell->getFrameArea().Right() >= rUnion.Right();
bBottomOver = pCell->getFrameArea().Bottom() >= rUnion.Bottom();
}
if ( bRTL )
{
bool bTmp = bRightOver;
bRightOver = bLeftOver;
bLeftOver = bTmp;
}
// Do not set anything by default in HeadlineRepeats
if ( pTab->IsFollow() &&
( pTab->IsInHeadline( *pCell ) ||
// Same holds for follow flow rows
pCell->IsInFollowFlowRow() ) )
continue;
SvxBoxItem aBox( pCell->GetFormat()->GetBox() );
sal_Int16 nType = 0;
// Top Border
if( bTopValid )
{
if ( bFirst && bTopOver )
{
aBox.SetLine( pTop, SvxBoxItemLine::TOP );
nType |= 0x0001;
}
else if ( bHoriValid )
{
aBox.SetLine( nullptr, SvxBoxItemLine::TOP );
nType |= 0x0002;
}
}
// Fix fdo#62470 correct the input for RTL table
if (bRTL)
{
if( bLeftOver && bRightOver)
{
if ( bLeftValid )
{
aBox.SetLine( pLeft, SvxBoxItemLine::RIGHT );
nType |= 0x0010;
}
if ( bRightValid )
{
aBox.SetLine( pRight, SvxBoxItemLine::LEFT );
nType |= 0x0004;
}
}
else
{
if ( bLeftValid )
{
aBox.SetLine( bRightOver ? pLeft : nullptr, SvxBoxItemLine::RIGHT );
if (bVertValid)
nType |= 0x0020;
else
nType |= 0x0010;
}
if ( bLeftOver )
{
if ( bRightValid )
{
aBox.SetLine( pRight, SvxBoxItemLine::LEFT );
nType |= 0x0004;
}
}
else if ( bVertValid )
{
aBox.SetLine( pVert, SvxBoxItemLine::LEFT );
nType |= 0x0008;
}
}
}
else
{
// Left Border
if ( bLeftOver )
{
if( bLeftValid )
{
aBox.SetLine( pLeft, SvxBoxItemLine::LEFT );
nType |= 0x0004;
}
}
else if( bVertValid )
{
aBox.SetLine( pVert, SvxBoxItemLine::LEFT );
nType |= 0x0008;
}
// Right Border
if( bRightValid )
{
if ( bRightOver )
{
aBox.SetLine( pRight, SvxBoxItemLine::RIGHT );
nType |= 0x0010;
}
else if ( bVertValid )
{
aBox.SetLine( nullptr, SvxBoxItemLine::RIGHT );
nType |= 0x0020;
}
}
}
// Bottom Border
if ( bLast && bBottomOver )
{
if( bBottomValid )
{
aBox.SetLine( pBottom, SvxBoxItemLine::BOTTOM );
nType |= 0x0040;
}
}
else if( bHoriValid )
{
aBox.SetLine( pHori, SvxBoxItemLine::BOTTOM );
nType |= 0x0080;
}
if( pSetBox )
{
for( SvxBoxItemLine k : o3tl::enumrange<SvxBoxItemLine>() )
aBox.SetDistance( pSetBox->GetDistance( k ), k );
}
SwTableBox *pBox = const_cast<SwTableBox*>(pCell->GetTabBox());
SwFrameFormat *pNewFormat;
if ( nullptr != (pNewFormat = SwTableFormatCmp::FindNewFormat( aFormatCmp, pBox->GetFrameFormat(), nType )))
pBox->ChgFrameFormat( static_cast<SwTableBoxFormat*>(pNewFormat) );
else
{
SwFrameFormat *pOld = pBox->GetFrameFormat();
SwFrameFormat *pNew = pBox->ClaimFrameFormat();
pNew->SetFormatAttr( aBox );
aFormatCmp.push_back(std::make_unique<SwTableFormatCmp>(pOld, pNew, nType));
}
}
bFirst = false;
}
SwHTMLTableLayout *pTableLayout = rTable.GetHTMLTableLayout();
if( pTableLayout )
{
SwContentFrame* pFrame = rCursor.GetContentNode()->getLayoutFrame( rCursor.GetContentNode()->GetDoc()->getIDocumentLayoutAccess().GetCurrentLayout() );
SwTabFrame* pTabFrame = pFrame->ImplFindTabFrame();
pTableLayout->BordersChanged(
pTableLayout->GetBrowseWidthByTabFrame( *pTabFrame ) );
}
::ClearFEShellTabCols(*this, nullptr);
getIDocumentState().SetModified();
}
static void lcl_SetLineStyle( SvxBorderLine *pToSet,
const Color *pColor, const SvxBorderLine *pBorderLine)
{
if ( pBorderLine )
{
if ( !pColor )
{
Color aTmp( pToSet->GetColor() );
*pToSet = *pBorderLine;
pToSet->SetColor( aTmp );
}
else
*pToSet = *pBorderLine;
}
if ( pColor )
pToSet->SetColor( *pColor );
}
void SwDoc::SetTabLineStyle( const SwCursor& rCursor,
const Color* pColor, bool bSetLine,
const SvxBorderLine* pBorderLine )
{
SwContentNode* pCntNd = rCursor.GetPoint()->nNode.GetNode().GetContentNode();
SwTableNode* pTableNd = pCntNd ? pCntNd->FindTableNode() : nullptr;
if( !pTableNd )
return ;
SwLayoutFrame *pStart, *pEnd;
::lcl_GetStartEndCell( rCursor, pStart, pEnd );
SwSelUnions aUnions;
::MakeSelUnions( aUnions, pStart, pEnd );
if( !aUnions.empty() )
{
SwTable& rTable = pTableNd->GetTable();
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().AppendUndo(std::make_unique<SwUndoAttrTable>(*pTableNd));
}
for( auto &rU : aUnions )
{
SwSelUnion *pUnion = &rU;
SwTabFrame *pTab = pUnion->GetTable();
std::vector<SwCellFrame*> aCellArr;
aCellArr.reserve( 255 );
::lcl_CollectCells( aCellArr, pUnion->GetUnion(), pTab );
for ( auto pCell : aCellArr )
{
// Do not set anything by default in HeadlineRepeats
if ( pTab->IsFollow() && pTab->IsInHeadline( *pCell ) )
continue;
const_cast<SwTableBox*>(pCell->GetTabBox())->ClaimFrameFormat();
SwFrameFormat *pFormat = pCell->GetFormat();
std::unique_ptr<SvxBoxItem> aBox(pFormat->GetBox().Clone());
if ( !pBorderLine && bSetLine )
{
aBox.reset(::GetDfltAttr(RES_BOX)->Clone());
}
else
{
if ( aBox->GetTop() )
::lcl_SetLineStyle( const_cast<SvxBorderLine*>(aBox->GetTop()),
pColor, pBorderLine );
if ( aBox->GetBottom() )
::lcl_SetLineStyle( const_cast<SvxBorderLine*>(aBox->GetBottom()),
pColor, pBorderLine );
if ( aBox->GetLeft() )
::lcl_SetLineStyle( const_cast<SvxBorderLine*>(aBox->GetLeft()),
pColor, pBorderLine );
if ( aBox->GetRight() )
::lcl_SetLineStyle( const_cast<SvxBorderLine*>(aBox->GetRight()),
pColor, pBorderLine );
}
pFormat->SetFormatAttr( *aBox );
}
}
SwHTMLTableLayout *pTableLayout = rTable.GetHTMLTableLayout();
if( pTableLayout )
{
SwContentFrame* pFrame = rCursor.GetContentNode()->getLayoutFrame( rCursor.GetContentNode()->GetDoc()->getIDocumentLayoutAccess().GetCurrentLayout() );
SwTabFrame* pTabFrame = pFrame->ImplFindTabFrame();
pTableLayout->BordersChanged(
pTableLayout->GetBrowseWidthByTabFrame( *pTabFrame ) );
}
::ClearFEShellTabCols(*this, nullptr);
getIDocumentState().SetModified();
}
}
void SwDoc::GetTabBorders( const SwCursor& rCursor, SfxItemSet& rSet )
{
SwContentNode* pCntNd = rCursor.GetPoint()->nNode.GetNode().GetContentNode();
SwTableNode* pTableNd = pCntNd ? pCntNd->FindTableNode() : nullptr;
if( !pTableNd )
return ;
SwLayoutFrame *pStart, *pEnd;
::lcl_GetStartEndCell( rCursor, pStart, pEnd );
SwSelUnions aUnions;
::MakeSelUnions( aUnions, pStart, pEnd );
if( !aUnions.empty() )
{
SvxBoxItem aSetBox ( rSet.Get(RES_BOX ) );
SvxBoxInfoItem aSetBoxInfo( rSet.Get(SID_ATTR_BORDER_INNER) );
bool bTopSet = false,
bBottomSet = false,
bLeftSet = false,
bRightSet = false,
bHoriSet = false,
bVertSet = false,
bDistanceSet = false,
bRTLTab = false;
aSetBoxInfo.ResetFlags();
for ( SwSelUnions::size_type i = 0; i < aUnions.size(); ++i )
{
SwSelUnion *pUnion = &aUnions[i];
const SwTabFrame *pTab = pUnion->GetTable();
const SwRect &rUnion = pUnion->GetUnion();
const bool bFirst = i == 0;
const bool bLast = (i == aUnions.size() - 1);
std::vector<SwCellFrame*> aCellArr;
aCellArr.reserve(255);
::lcl_CollectCells( aCellArr, rUnion, const_cast<SwTabFrame*>(pTab) );
for ( auto pCell : aCellArr )
{
const bool bVert = pTab->IsVertical();
const bool bRTL = bRTLTab = pTab->IsRightToLeft();
bool bTopOver, bLeftOver, bRightOver, bBottomOver;
if ( bVert )
{
bTopOver = pCell->getFrameArea().Right() >= rUnion.Right();
bLeftOver = pCell->getFrameArea().Top() <= rUnion.Top();
bRightOver = pCell->getFrameArea().Bottom() >= rUnion.Bottom();
bBottomOver = pCell->getFrameArea().Left() <= rUnion.Left();
}
else
{
bTopOver = pCell->getFrameArea().Top() <= rUnion.Top();
bLeftOver = pCell->getFrameArea().Left() <= rUnion.Left();
bRightOver = pCell->getFrameArea().Right() >= rUnion.Right();
bBottomOver = pCell->getFrameArea().Bottom() >= rUnion.Bottom();
}
if ( bRTL )
{
bool bTmp = bRightOver;
bRightOver = bLeftOver;
bLeftOver = bTmp;
}
const SwFrameFormat *pFormat = pCell->GetFormat();
const SvxBoxItem &rBox = pFormat->GetBox();
// Top Border
if ( bFirst && bTopOver )
{
if (aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::TOP))
{
if ( !bTopSet )
{ bTopSet = true;
aSetBox.SetLine( rBox.GetTop(), SvxBoxItemLine::TOP );
}
else if ((aSetBox.GetTop() && rBox.GetTop() &&
(*aSetBox.GetTop() != *rBox.GetTop())) ||
((!aSetBox.GetTop()) != (!rBox.GetTop()))) // != expression is true, if one and only one of the two pointers is !0
{
aSetBoxInfo.SetValid(SvxBoxInfoItemValidFlags::TOP, false );
aSetBox.SetLine( nullptr, SvxBoxItemLine::TOP );
}
}
}
// Left Border
if ( bLeftOver )
{
if (aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::LEFT))
{
if ( !bLeftSet )
{ bLeftSet = true;
aSetBox.SetLine( rBox.GetLeft(), SvxBoxItemLine::LEFT );
}
else if ((aSetBox.GetLeft() && rBox.GetLeft() &&
(*aSetBox.GetLeft() != *rBox.GetLeft())) ||
((!aSetBox.GetLeft()) != (!rBox.GetLeft())))
{
aSetBoxInfo.SetValid(SvxBoxInfoItemValidFlags::LEFT, false );
aSetBox.SetLine( nullptr, SvxBoxItemLine::LEFT );
}
}
}
else
{
if (aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::VERT))
{
if ( !bVertSet )
{ bVertSet = true;
aSetBoxInfo.SetLine( rBox.GetLeft(), SvxBoxInfoItemLine::VERT );
}
else if ((aSetBoxInfo.GetVert() && rBox.GetLeft() &&
(*aSetBoxInfo.GetVert() != *rBox.GetLeft())) ||
((!aSetBoxInfo.GetVert()) != (!rBox.GetLeft())))
{ aSetBoxInfo.SetValid( SvxBoxInfoItemValidFlags::VERT, false );
aSetBoxInfo.SetLine( nullptr, SvxBoxInfoItemLine::VERT );
}
}
}
// Right Border
if ( aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::RIGHT) && bRightOver )
{
if ( !bRightSet )
{ bRightSet = true;
aSetBox.SetLine( rBox.GetRight(), SvxBoxItemLine::RIGHT );
}
else if ((aSetBox.GetRight() && rBox.GetRight() &&
(*aSetBox.GetRight() != *rBox.GetRight())) ||
(!aSetBox.GetRight() != !rBox.GetRight()))
{ aSetBoxInfo.SetValid( SvxBoxInfoItemValidFlags::RIGHT, false );
aSetBox.SetLine( nullptr, SvxBoxItemLine::RIGHT );
}
}
// Bottom Border
if ( bLast && bBottomOver )
{
if ( aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::BOTTOM) )
{
if ( !bBottomSet )
{ bBottomSet = true;
aSetBox.SetLine( rBox.GetBottom(), SvxBoxItemLine::BOTTOM );
}
else if ((aSetBox.GetBottom() && rBox.GetBottom() &&
(*aSetBox.GetBottom() != *rBox.GetBottom())) ||
(!aSetBox.GetBottom() != !rBox.GetBottom()))
{ aSetBoxInfo.SetValid( SvxBoxInfoItemValidFlags::BOTTOM, false );
aSetBox.SetLine( nullptr, SvxBoxItemLine::BOTTOM );
}
}
}
// In all Lines, except for the last one, the horizontal Line
// is taken from the Bottom Line.
else
{
if (aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::HORI))
{
if ( !bHoriSet )
{ bHoriSet = true;
aSetBoxInfo.SetLine( rBox.GetBottom(), SvxBoxInfoItemLine::HORI );
}
else if ((aSetBoxInfo.GetHori() && rBox.GetBottom() &&
(*aSetBoxInfo.GetHori() != *rBox.GetBottom())) ||
((!aSetBoxInfo.GetHori()) != (!rBox.GetBottom())))
{
aSetBoxInfo.SetValid( SvxBoxInfoItemValidFlags::HORI, false );
aSetBoxInfo.SetLine( nullptr, SvxBoxInfoItemLine::HORI );
}
}
}
// Distance to text
if (aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::DISTANCE))
{
if( !bDistanceSet ) // Set on first iteration
{
bDistanceSet = true;
for( SvxBoxItemLine k : o3tl::enumrange<SvxBoxItemLine>() )
aSetBox.SetDistance( rBox.GetDistance( k ), k );
}
else
{
for( SvxBoxItemLine k : o3tl::enumrange<SvxBoxItemLine>() )
if( aSetBox.GetDistance( k ) !=
rBox.GetDistance( k ) )
{
aSetBoxInfo.SetValid( SvxBoxInfoItemValidFlags::DISTANCE, false );
aSetBox.SetAllDistances(0);
break;
}
}
}
}
}
// fdo#62470 fix the reading for table format.
if ( bRTLTab )
{
SvxBoxItem aTempBox ( rSet.Get(RES_BOX ) );
SvxBoxInfoItem aTempBoxInfo( rSet.Get(SID_ATTR_BORDER_INNER) );
aTempBox.SetLine( aSetBox.GetRight(), SvxBoxItemLine::RIGHT);
aSetBox.SetLine( aSetBox.GetLeft(), SvxBoxItemLine::RIGHT);
aSetBox.SetLine( aTempBox.GetRight(), SvxBoxItemLine::LEFT);
aTempBoxInfo.SetValid( SvxBoxInfoItemValidFlags::LEFT, aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::LEFT) );
aSetBoxInfo.SetValid( SvxBoxInfoItemValidFlags::LEFT, aSetBoxInfo.IsValid(SvxBoxInfoItemValidFlags::RIGHT) );
aSetBoxInfo.SetValid( SvxBoxInfoItemValidFlags::RIGHT, aTempBoxInfo.IsValid(SvxBoxInfoItemValidFlags::LEFT) );
}
rSet.Put( aSetBox );
rSet.Put( aSetBoxInfo );
}
}
void SwDoc::SetBoxAttr( const SwCursor& rCursor, const SfxPoolItem &rNew )
{
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
SwSelBoxes aBoxes;
if( pTableNd && ::lcl_GetBoxSel( rCursor, aBoxes, true ) )
{
SwTable& rTable = pTableNd->GetTable();
if (GetIDocumentUndoRedo().DoesUndo())
{
GetIDocumentUndoRedo().AppendUndo( std::make_unique<SwUndoAttrTable>(*pTableNd) );
}
std::vector<std::unique_ptr<SwTableFormatCmp>> aFormatCmp;
aFormatCmp.reserve(std::max<size_t>(255, aBoxes.size()));
for (size_t i = 0; i < aBoxes.size(); ++i)
{
SwTableBox *pBox = aBoxes[i];
SwFrameFormat *pNewFormat;
if ( nullptr != (pNewFormat = SwTableFormatCmp::FindNewFormat( aFormatCmp, pBox->GetFrameFormat(), 0 )))
pBox->ChgFrameFormat( static_cast<SwTableBoxFormat*>(pNewFormat) );
else
{
SwFrameFormat *pOld = pBox->GetFrameFormat();
SwFrameFormat *pNew = pBox->ClaimFrameFormat();
pNew->SetFormatAttr( rNew );
aFormatCmp.push_back(std::make_unique<SwTableFormatCmp>(pOld, pNew, 0));
}
pBox->SetDirectFormatting(true);
}
SwHTMLTableLayout *pTableLayout = rTable.GetHTMLTableLayout();
if( pTableLayout )
{
SwContentFrame* pFrame = rCursor.GetContentNode()->getLayoutFrame( rCursor.GetContentNode()->GetDoc()->getIDocumentLayoutAccess().GetCurrentLayout() );
SwTabFrame* pTabFrame = pFrame->ImplFindTabFrame();
pTableLayout->Resize(
pTableLayout->GetBrowseWidthByTabFrame( *pTabFrame ), true );
}
getIDocumentState().SetModified();
}
}
bool SwDoc::GetBoxAttr( const SwCursor& rCursor, std::unique_ptr<SfxPoolItem>& rToFill )
{
bool bRet = false;
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
SwSelBoxes aBoxes;
if( pTableNd && lcl_GetBoxSel( rCursor, aBoxes ))
{
bRet = true;
bool bOneFound = false;
const sal_uInt16 nWhich = rToFill->Which();
for (size_t i = 0; i < aBoxes.size(); ++i)
{
switch ( nWhich )
{
case RES_BACKGROUND:
{
std::unique_ptr<SvxBrushItem> xBack =
aBoxes[i]->GetFrameFormat()->makeBackgroundBrushItem();
if( !bOneFound )
{
rToFill = std::move(xBack);
bOneFound = true;
}
else if( *rToFill != *xBack )
bRet = false;
}
break;
case RES_FRAMEDIR:
{
const SvxFrameDirectionItem& rDir =
aBoxes[i]->GetFrameFormat()->GetFrameDir();
if( !bOneFound )
{
rToFill.reset(rDir.Clone());
bOneFound = true;
}
else if( rToFill && *rToFill != rDir )
bRet = false;
}
break;
case RES_VERT_ORIENT:
{
const SwFormatVertOrient& rOrient =
aBoxes[i]->GetFrameFormat()->GetVertOrient();
if( !bOneFound )
{
rToFill.reset(rOrient.Clone());
bOneFound = true;
}
else if( rToFill && *rToFill != rOrient )
bRet = false;
}
break;
}
if ( !bRet )
break;
}
}
return bRet;
}
void SwDoc::SetBoxAlign( const SwCursor& rCursor, sal_uInt16 nAlign )
{
OSL_ENSURE( nAlign == text::VertOrientation::NONE ||
nAlign == text::VertOrientation::CENTER ||
nAlign == text::VertOrientation::BOTTOM, "Wrong alignment" );
SwFormatVertOrient aVertOri( 0, nAlign );
SetBoxAttr( rCursor, aVertOri );
}
sal_uInt16 SwDoc::GetBoxAlign( const SwCursor& rCursor )
{
sal_uInt16 nAlign = USHRT_MAX;
SwTableNode* pTableNd = rCursor.GetPoint()->nNode.GetNode().FindTableNode();
SwSelBoxes aBoxes;
if( pTableNd && ::lcl_GetBoxSel( rCursor, aBoxes ))
{
for (size_t i = 0; i < aBoxes.size(); ++i)
{
const SwFormatVertOrient &rOri =
aBoxes[i]->GetFrameFormat()->GetVertOrient();
if( USHRT_MAX == nAlign )
nAlign = static_cast<sal_uInt16>(rOri.GetVertOrient());
else if( rOri.GetVertOrient() != nAlign )
{
nAlign = USHRT_MAX;
break;
}
}
}
return nAlign;
}
static sal_uInt16 lcl_CalcCellFit( const SwLayoutFrame *pCell )
{
SwTwips nRet = 0;
const SwFrame *pFrame = pCell->Lower(); // The whole Line
SwRectFnSet aRectFnSet(pCell);
while ( pFrame )
{
const SwTwips nAdd = aRectFnSet.GetWidth(pFrame->getFrameArea()) -
aRectFnSet.GetWidth(pFrame->getFramePrintArea());
// pFrame does not necessarily have to be a SwTextFrame!
const SwTwips nCalcFitToContent = pFrame->IsTextFrame() ?
const_cast<SwTextFrame*>(static_cast<const SwTextFrame*>(pFrame))->CalcFitToContent() :
aRectFnSet.GetWidth(pFrame->getFramePrintArea());
nRet = std::max( nRet, nCalcFitToContent + nAdd );
pFrame = pFrame->GetNext();
}
// Surrounding border as well as left and Right Border also need to be respected
nRet += aRectFnSet.GetWidth(pCell->getFrameArea()) -
aRectFnSet.GetWidth(pCell->getFramePrintArea());
// To compensate for the accuracy of calculation later on in SwTable::SetTabCols
// we keep adding up a little.
nRet += COLFUZZY;
return static_cast<sal_uInt16>(std::max( long(MINLAY), nRet ));
}
/* The Line is within the Selection but not outlined by the TabCols.
*
* That means that the Line has been "split" by other Cells due to the
* two-dimensional representation used. Thus, we have to distribute the cell's
* default or minimum value amongst the Cell it has been split by.
*
* First, we collect the Columns (not the Column separators) which overlap
* with the Cell. We then distribute the desired value according to the
* amount of overlapping amongst the Cells.
*
* A Cell's default value stays the same if it already has a larger value than
* the desired one. It's overwritten if it's smaller.
*/
static void lcl_CalcSubColValues( std::vector<sal_uInt16> &rToFill, const SwTabCols &rCols,
const SwLayoutFrame *pCell, const SwLayoutFrame *pTab,
bool bWishValues )
{
const sal_uInt16 nWish = bWishValues ?
::lcl_CalcCellFit( pCell ) :
MINLAY + sal_uInt16(pCell->getFrameArea().Width() - pCell->getFramePrintArea().Width());
SwRectFnSet aRectFnSet(pTab);
for ( size_t i = 0 ; i <= rCols.Count(); ++i )
{
long nColLeft = i == 0 ? rCols.GetLeft() : rCols[i-1];
long nColRight = i == rCols.Count() ? rCols.GetRight() : rCols[i];
nColLeft += rCols.GetLeftMin();
nColRight += rCols.GetLeftMin();
// Adapt values to the proportions of the Table (Follows)
if ( rCols.GetLeftMin() != aRectFnSet.GetLeft(pTab->getFrameArea()) )
{
const long nDiff = aRectFnSet.GetLeft(pTab->getFrameArea()) - rCols.GetLeftMin();
nColLeft += nDiff;
nColRight += nDiff;
}
const long nCellLeft = aRectFnSet.GetLeft(pCell->getFrameArea());
const long nCellRight = aRectFnSet.GetRight(pCell->getFrameArea());
// Calculate overlapping value
long nWidth = 0;
if ( nColLeft <= nCellLeft && nColRight >= (nCellLeft+COLFUZZY) )
nWidth = nColRight - nCellLeft;
else if ( nColLeft <= (nCellRight-COLFUZZY) && nColRight >= nCellRight )
nWidth = nCellRight - nColLeft;
else if ( nColLeft >= nCellLeft && nColRight <= nCellRight )
nWidth = nColRight - nColLeft;
if ( nWidth && pCell->getFrameArea().Width() )
{
long nTmp = nWidth * nWish / pCell->getFrameArea().Width();
if ( o3tl::make_unsigned(nTmp) > rToFill[i] )
rToFill[i] = sal_uInt16(nTmp);
}
}
}
/**
* Retrieves new values to set the TabCols.
*
* We do not iterate over the TabCols' entries, but over the gaps that describe Cells.
* We set TabCol entries for which we did not calculate Cells to 0.
*
* @param bWishValues == true: We calculate the desired value of all affected
* Cells for the current Selection/current Cell.
* If more Cells are within a Column, the highest
* desired value is returned.
* We set TabCol entries for which we did not calculate
* Cells to 0.
*
* @param bWishValues == false: The Selection is expanded vertically.
* We calculate the minimum value for every
* Column in the TabCols that intersects with the
* Selection.
*/
static void lcl_CalcColValues( std::vector<sal_uInt16> &rToFill, const SwTabCols &rCols,
const SwLayoutFrame *pStart, const SwLayoutFrame *pEnd,
bool bWishValues )
{
SwSelUnions aUnions;
::MakeSelUnions( aUnions, pStart, pEnd,
bWishValues ? SwTableSearchType::NONE : SwTableSearchType::Col );
for ( auto &rU : aUnions )
{
SwSelUnion *pSelUnion = &rU;
const SwTabFrame *pTab = pSelUnion->GetTable();
const SwRect &rUnion = pSelUnion->GetUnion();
SwRectFnSet aRectFnSet(pTab);
bool bRTL = pTab->IsRightToLeft();
const SwLayoutFrame *pCell = pTab->FirstCell();
if (!pCell)
continue;
do
{
if ( pCell->IsCellFrame() && pCell->FindTabFrame() == pTab && ::IsFrameInTableSel( rUnion, pCell ) )
{
const long nCLeft = aRectFnSet.GetLeft(pCell->getFrameArea());
const long nCRight = aRectFnSet.GetRight(pCell->getFrameArea());
bool bNotInCols = true;
for ( size_t i = 0; i <= rCols.Count(); ++i )
{
sal_uInt16 nFit = rToFill[i];
long nColLeft = i == 0 ? rCols.GetLeft() : rCols[i-1];
long nColRight = i == rCols.Count() ? rCols.GetRight() : rCols[i];
if ( bRTL )
{
long nTmpRight = nColRight;
nColRight = rCols.GetRight() - nColLeft;
nColLeft = rCols.GetRight() - nTmpRight;
}
nColLeft += rCols.GetLeftMin();
nColRight += rCols.GetLeftMin();
// Adapt values to the proportions of the Table (Follows)
long nLeftA = nColLeft;
long nRightA = nColRight;
if ( rCols.GetLeftMin() != sal_uInt16(aRectFnSet.GetLeft(pTab->getFrameArea())) )
{
const long nDiff = aRectFnSet.GetLeft(pTab->getFrameArea()) - rCols.GetLeftMin();
nLeftA += nDiff;
nRightA += nDiff;
}
// We don't want to take a too close look
if ( ::IsSame(nCLeft, nLeftA) && ::IsSame(nCRight, nRightA))
{
bNotInCols = false;
if ( bWishValues )
{
const sal_uInt16 nWish = ::lcl_CalcCellFit( pCell );
if ( nWish > nFit )
nFit = nWish;
}
else
{ const sal_uInt16 nMin = MINLAY + sal_uInt16(pCell->getFrameArea().Width() -
pCell->getFramePrintArea().Width());
if ( !nFit || nMin < nFit )
nFit = nMin;
}
if ( rToFill[i] < nFit )
rToFill[i] = nFit;
}
}
if ( bNotInCols )
::lcl_CalcSubColValues( rToFill, rCols, pCell, pTab, bWishValues );
}
do {
pCell = pCell->GetNextLayoutLeaf();
} while( pCell && pCell->getFrameArea().Width() == 0 );
} while ( pCell && pTab->IsAnLower( pCell ) );
}
}
void SwDoc::AdjustCellWidth( const SwCursor& rCursor,
const bool bBalance,
const bool bNoShrink )
{
// Check whether the current Cursor has it's Point/Mark in a Table
SwContentNode* pCntNd = rCursor.GetPoint()->nNode.GetNode().GetContentNode();
SwTableNode* pTableNd = pCntNd ? pCntNd->FindTableNode() : nullptr;
if( !pTableNd )
return ;
SwLayoutFrame *pStart, *pEnd;
::lcl_GetStartEndCell( rCursor, pStart, pEnd );
// Collect TabCols; we reset the Table with them
SwFrame* pBoxFrame = pStart;
while( pBoxFrame && !pBoxFrame->IsCellFrame() )
pBoxFrame = pBoxFrame->GetUpper();
if ( !pBoxFrame )
return; // Robust
SwTabCols aTabCols;
GetTabCols( aTabCols, static_cast<SwCellFrame*>(pBoxFrame) );
if ( ! aTabCols.Count() )
return;
std::vector<sal_uInt16> aWish(aTabCols.Count() + 1);
std::vector<sal_uInt16> aMins(aTabCols.Count() + 1);
::lcl_CalcColValues( aWish, aTabCols, pStart, pEnd, /*bWishValues=*/true );
// It's more robust if we calculate the minimum values for the whole Table
const SwTabFrame *pTab = pStart->ImplFindTabFrame();
pStart = const_cast<SwLayoutFrame*>(static_cast<SwLayoutFrame const *>(pTab->FirstCell()));
pEnd = const_cast<SwLayoutFrame*>(pTab->FindLastContentOrTable()->GetUpper());
while( !pEnd->IsCellFrame() )
pEnd = pEnd->GetUpper();
::lcl_CalcColValues( aMins, aTabCols, pStart, pEnd, /*bWishValues=*/false );
sal_uInt16 nSelectedWidth = 0, nCols = 0;
float fTotalWish = 0;
if ( bBalance || bNoShrink )
{
// Find the combined size of the selected columns
for ( size_t i = 0; i <= aTabCols.Count(); ++i )
{
if ( aWish[i] )
{
if ( i == 0 )
nSelectedWidth += aTabCols[i] - aTabCols.GetLeft();
else if ( i == aTabCols.Count() )
nSelectedWidth += aTabCols.GetRight() - aTabCols[i-1];
else
nSelectedWidth += aTabCols[i] - aTabCols[i-1];
++nCols;
}
fTotalWish += aWish[i];
}
const sal_uInt16 nEqualWidth = nSelectedWidth / nCols;
// bBalance: Distribute the width evenly
for (sal_uInt16 & rn : aWish)
if ( rn && bBalance )
rn = nEqualWidth;
}
const long nOldRight = aTabCols.GetRight();
// In order to make the implementation easier, but still use the available
// space properly, we do this twice.
// The problem: The first column is getting wider, the others get slimmer
// only afterwards.
// The first column's desired width would be discarded as it would cause
// the Table's width to exceed the maximum width.
const sal_uInt16 nEqualWidth = (aTabCols.GetRight() - aTabCols.GetLeft()) / (aTabCols.Count() + 1);
const sal_Int16 nTablePadding = nSelectedWidth - fTotalWish;
for ( int k = 0; k < 2; ++k )
{
for ( size_t i = 0; i <= aTabCols.Count(); ++i )
{
// bNoShrink: distribute excess space proportionately on pass 2.
if ( bNoShrink && k && nTablePadding > 0 && fTotalWish > 0 )
aWish[i] += round( aWish[i] / fTotalWish * nTablePadding );
// First pass is primarily a shrink pass. Give all columns a chance
// to grow by requesting the maximum width as "balanced".
// Second pass is a first-come, first-served chance to max out.
int nDiff = k ? aWish[i] : std::min(aWish[i], nEqualWidth);
if ( nDiff )
{
int nMin = aMins[i];
if ( nMin > nDiff )
nDiff = nMin;
if ( i == 0 )
{
if( aTabCols.Count() )
nDiff -= aTabCols[0] - aTabCols.GetLeft();
else
nDiff -= aTabCols.GetRight() - aTabCols.GetLeft();
}
else if ( i == aTabCols.Count() )
nDiff -= aTabCols.GetRight() - aTabCols[i-1];
else
nDiff -= aTabCols[i] - aTabCols[i-1];
long nTabRight = aTabCols.GetRight() + nDiff;
// If the Table would become too wide, we restrict the
// adjusted amount to the allowed maximum.
if ( !bBalance && nTabRight > aTabCols.GetRightMax() )
{
const long nTmpD = nTabRight - aTabCols.GetRightMax();
nDiff -= nTmpD;
nTabRight -= nTmpD;
}
for ( size_t i2 = i; i2 < aTabCols.Count(); ++i2 )
aTabCols[i2] += nDiff;
aTabCols.SetRight( nTabRight );
}
}
}
const long nNewRight = aTabCols.GetRight();
SwFrameFormat *pFormat = pTableNd->GetTable().GetFrameFormat();
const sal_Int16 nOriHori = pFormat->GetHoriOrient().GetHoriOrient();
// We can leave the "real" work to the SwTable now
SetTabCols( aTabCols, false, static_cast<SwCellFrame*>(pBoxFrame) );
// Alignment might have been changed in SetTabCols; restore old value
const SwFormatHoriOrient &rHori = pFormat->GetHoriOrient();
SwFormatHoriOrient aHori( rHori );
if ( aHori.GetHoriOrient() != nOriHori )
{
aHori.SetHoriOrient( nOriHori );
pFormat->SetFormatAttr( aHori );
}
// We switch to left-adjusted for automatic width
// We adjust the right border for Border attributes
if( !bBalance && nNewRight < nOldRight )
{
if( aHori.GetHoriOrient() == text::HoriOrientation::FULL )
{
aHori.SetHoriOrient( text::HoriOrientation::LEFT );
pFormat->SetFormatAttr( aHori );
}
}
getIDocumentState().SetModified();
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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