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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 <editeng/txtrange.hxx>
#include <math.h>
#include <tools/poly.hxx>
#include <tools/debug.hxx>
#include <basegfx/polygon/b2dpolygon.hxx>
#include <basegfx/polygon/b2dpolypolygon.hxx>
#include <vector>
TextRanger::TextRanger( const basegfx::B2DPolyPolygon& rPolyPolygon,
const basegfx::B2DPolyPolygon* pLinePolyPolygon,
sal_uInt16 nCacheSz, sal_uInt16 nLft, sal_uInt16 nRght,
bool bSimpl, bool bInnr, bool bVert ) :
maPolyPolygon( rPolyPolygon.count() ),
nCacheSize( nCacheSz ),
nRight( nRght ),
nLeft( nLft ),
nUpper( 0 ),
nLower( 0 ),
nPointCount( 0 ),
bSimple( bSimpl ),
bInner( bInnr ),
bVertical( bVert )
{
sal_uInt32 nCount(rPolyPolygon.count());
for(sal_uInt32 i(0); i < nCount; i++)
{
const basegfx::B2DPolygon aCandidate(rPolyPolygon.getB2DPolygon(i).getDefaultAdaptiveSubdivision());
nPointCount += aCandidate.count();
maPolyPolygon.Insert( tools::Polygon(aCandidate), static_cast<sal_uInt16>(i) );
}
if( pLinePolyPolygon )
{
nCount = pLinePolyPolygon->count();
mpLinePolyPolygon = tools::PolyPolygon(nCount);
for(sal_uInt32 i(0); i < nCount; i++)
{
const basegfx::B2DPolygon aCandidate(pLinePolyPolygon->getB2DPolygon(i).getDefaultAdaptiveSubdivision());
nPointCount += aCandidate.count();
mpLinePolyPolygon->Insert( tools::Polygon(aCandidate), static_cast<sal_uInt16>(i) );
}
}
else
mpLinePolyPolygon.reset();
}
TextRanger::~TextRanger()
{
mRangeCache.clear();
}
/* TextRanger::SetVertical(..)
If there's is a change in the writing direction,
the cache has to be cleared.
*/
void TextRanger::SetVertical( bool bNew )
{
if( IsVertical() != bNew )
{
bVertical = bNew;
mRangeCache.clear();
}
}
namespace {
//! SvxBoundArgs is used to perform temporary calculations on a range array.
//! Temporary instances are created in TextRanger::GetTextRanges()
class SvxBoundArgs
{
std::vector<bool> aBoolArr;
std::deque<tools::Long>* pLongArr;
TextRanger *pTextRanger;
tools::Long nMin;
tools::Long nMax;
tools::Long nTop;
tools::Long nBottom;
tools::Long nUpDiff;
tools::Long nLowDiff;
tools::Long nUpper;
tools::Long nLower;
tools::Long nStart;
tools::Long nEnd;
sal_uInt16 nCut;
sal_uInt16 nLast;
sal_uInt16 nNext;
sal_uInt8 nAct;
sal_uInt8 nFirst;
bool bClosed : 1;
bool bInner : 1;
bool bMultiple : 1;
bool bConcat : 1;
bool bRotate : 1;
void NoteRange( bool bToggle );
tools::Long Cut( tools::Long nY, const Point& rPt1, const Point& rPt2 );
void Add();
void NoteFarPoint_( tools::Long nPx, tools::Long nPyDiff, tools::Long nDiff );
void NoteFarPoint( tools::Long nPx, tools::Long nPyDiff, tools::Long nDiff )
{ if( nDiff ) NoteFarPoint_( nPx, nPyDiff, nDiff ); }
tools::Long CalcMax( const Point& rPt1, const Point& rPt2, tools::Long nRange, tools::Long nFar );
void CheckCut( const Point& rLst, const Point& rNxt );
tools::Long A( const Point& rP ) const { return bRotate ? rP.Y() : rP.X(); }
tools::Long B( const Point& rP ) const { return bRotate ? rP.X() : rP.Y(); }
public:
SvxBoundArgs( TextRanger* pRanger, std::deque<tools::Long>* pLong, const Range& rRange );
void NotePoint( const tools::Long nA ) { NoteMargin( nA - nStart, nA + nEnd ); }
void NoteMargin( const tools::Long nL, const tools::Long nR )
{ if( nMin > nL ) nMin = nL; if( nMax < nR ) nMax = nR; }
sal_uInt16 Area( const Point& rPt );
void NoteUpLow( tools::Long nA, const sal_uInt8 nArea );
void Calc( const tools::PolyPolygon& rPoly );
void Concat( const tools::PolyPolygon* pPoly );
// inlines
void NoteLast() { if( bMultiple ) NoteRange( nAct == nFirst ); }
void SetConcat( const bool bNew ){ bConcat = bNew; }
bool IsConcat() const { return bConcat; }
};
}
SvxBoundArgs::SvxBoundArgs( TextRanger* pRanger, std::deque<tools::Long>* pLong,
const Range& rRange )
: pLongArr(pLong)
, pTextRanger(pRanger)
, nMin(0)
, nMax(0)
, nTop(rRange.Min())
, nBottom(rRange.Max())
, nCut(0)
, nLast(0)
, nNext(0)
, nAct(0)
, nFirst(0)
, bClosed(false)
, bInner(pRanger->IsInner())
, bMultiple(bInner || !pRanger->IsSimple())
, bConcat(false)
, bRotate(pRanger->IsVertical())
{
if( bRotate )
{
nStart = pRanger->GetUpper();
nEnd = pRanger->GetLower();
nLowDiff = pRanger->GetLeft();
nUpDiff = pRanger->GetRight();
}
else
{
nStart = pRanger->GetLeft();
nEnd = pRanger->GetRight();
nLowDiff = pRanger->GetUpper();
nUpDiff = pRanger->GetLower();
}
nUpper = nTop - nUpDiff;
nLower = nBottom + nLowDiff;
pLongArr->clear();
}
tools::Long SvxBoundArgs::CalcMax( const Point& rPt1, const Point& rPt2,
tools::Long nRange, tools::Long nFarRange )
{
double nDa = Cut( nRange, rPt1, rPt2 ) - Cut( nFarRange, rPt1, rPt2 );
double nB;
if( nDa < 0 )
{
nDa = -nDa;
nB = nEnd;
}
else
nB = nStart;
nB *= nB;
nB += nDa * nDa;
nB = sqrt( nB );
if (nB == 0) // avoid div / 0
return 0;
nB = nRange + nDa * ( nFarRange - nRange ) / nB;
bool bNote;
if( nB < B(rPt2) )
bNote = nB > B(rPt1);
else
bNote = nB < B(rPt1);
if( bNote )
return( tools::Long( nB ) );
return 0;
}
void SvxBoundArgs::CheckCut( const Point& rLst, const Point& rNxt )
{
if( nCut & 1 )
NotePoint( Cut( nBottom, rLst, rNxt ) );
if( nCut & 2 )
NotePoint( Cut( nTop, rLst, rNxt ) );
if( rLst.X() == rNxt.X() || rLst.Y() == rNxt.Y() )
return;
tools::Long nYps;
if( nLowDiff && ( ( nCut & 1 ) || nLast == 1 || nNext == 1 ) )
{
nYps = CalcMax( rLst, rNxt, nBottom, nLower );
if( nYps )
NoteFarPoint_( Cut( nYps, rLst, rNxt ), nLower-nYps, nLowDiff );
}
if( nUpDiff && ( ( nCut & 2 ) || nLast == 2 || nNext == 2 ) )
{
nYps = CalcMax( rLst, rNxt, nTop, nUpper );
if( nYps )
NoteFarPoint_( Cut( nYps, rLst, rNxt ), nYps-nUpper, nUpDiff );
}
}
void SvxBoundArgs::NoteFarPoint_( tools::Long nPa, tools::Long nPbDiff, tools::Long nDiff )
{
tools::Long nTmpA;
double nQuot = 2 * nDiff - nPbDiff;
nQuot *= nPbDiff;
nQuot = sqrt( nQuot );
nQuot /= nDiff;
nTmpA = nPa - tools::Long( nStart * nQuot );
nPbDiff = nPa + tools::Long( nEnd * nQuot );
NoteMargin( nTmpA, nPbDiff );
}
void SvxBoundArgs::NoteRange( bool bToggle )
{
DBG_ASSERT( nMax >= nMin || bInner, "NoteRange: Min > Max?");
if( nMax < nMin )
return;
if( !bClosed )
bToggle = false;
sal_uInt16 nIdx = 0;
sal_uInt16 nCount = pLongArr->size();
DBG_ASSERT( nCount == 2 * aBoolArr.size(), "NoteRange: Incompatible Sizes" );
while( nIdx < nCount && (*pLongArr)[ nIdx ] < nMin )
++nIdx;
bool bOdd = (nIdx % 2) != 0;
// No overlap with existing intervals?
if( nIdx == nCount || ( !bOdd && nMax < (*pLongArr)[ nIdx ] ) )
{ // Then a new one is inserted ...
pLongArr->insert( pLongArr->begin() + nIdx, nMin );
pLongArr->insert( pLongArr->begin() + nIdx + 1, nMax );
aBoolArr.insert( aBoolArr.begin() + (nIdx/2), bToggle );
}
else
{ // expand an existing interval ...
sal_uInt16 nMaxIdx = nIdx;
// If we end up on a left interval boundary, it must be reduced to nMin.
if( bOdd )
--nIdx;
else
(*pLongArr)[ nIdx ] = nMin;
while( nMaxIdx < nCount && (*pLongArr)[ nMaxIdx ] < nMax )
++nMaxIdx;
DBG_ASSERT( nMaxIdx > nIdx || nMin == nMax, "NoteRange: Funny Situation." );
if( nMaxIdx )
--nMaxIdx;
if( nMaxIdx < nIdx )
nMaxIdx = nIdx;
// If we end up on a right interval boundary, it must be raised to nMax.
if( nMaxIdx % 2 )
(*pLongArr)[ nMaxIdx-- ] = nMax;
// Possible merge of intervals.
sal_uInt16 nDiff = nMaxIdx - nIdx;
nMaxIdx = nIdx / 2; // From here on is nMaxIdx the Index in BoolArray.
if( nDiff )
{
pLongArr->erase( pLongArr->begin() + nIdx + 1, pLongArr->begin() + nIdx + 1 + nDiff );
nDiff /= 2;
sal_uInt16 nStop = nMaxIdx + nDiff;
for( sal_uInt16 i = nMaxIdx; i < nStop; ++i )
bToggle ^= aBoolArr[ i ];
aBoolArr.erase( aBoolArr.begin() + nMaxIdx, aBoolArr.begin() + (nMaxIdx + nDiff) );
}
DBG_ASSERT( nMaxIdx < aBoolArr.size(), "NoteRange: Too much deleted" );
aBoolArr[ nMaxIdx ] = aBoolArr[ nMaxIdx ] != bToggle;
}
}
void SvxBoundArgs::Calc( const tools::PolyPolygon& rPoly )
{
sal_uInt16 nCount;
nAct = 0;
for( sal_uInt16 i = 0; i < rPoly.Count(); ++i )
{
const tools::Polygon& rPol = rPoly[ i ];
nCount = rPol.GetSize();
if( nCount )
{
const Point& rNull = rPol[ 0 ];
bClosed = IsConcat() || ( rNull == rPol[ nCount - 1 ] );
nLast = Area( rNull );
if( nLast & 12 )
{
nFirst = 3;
if( bMultiple )
nAct = 0;
}
else
{
// The first point of the polygon is within the line.
if( nLast )
{
if( bMultiple || !nAct )
{
nMin = USHRT_MAX;
nMax = 0;
}
if( nLast & 1 )
NoteFarPoint( A(rNull), nLower - B(rNull), nLowDiff );
else
NoteFarPoint( A(rNull), B(rNull) - nUpper, nUpDiff );
}
else
{
if( bMultiple || !nAct )
{
nMin = A(rNull);
nMax = nMin + nEnd;
nMin -= nStart;
}
else
NotePoint( A(rNull) );
}
nFirst = 0; // leaving the line in which direction?
nAct = 3; // we are within the line at the moment.
}
if( nCount > 1 )
{
sal_uInt16 nIdx = 1;
while( true )
{
const Point& rLast = rPol[ nIdx - 1 ];
if( nIdx == nCount )
nIdx = 0;
const Point& rNext = rPol[ nIdx ];
nNext = Area( rNext );
nCut = nNext ^ nLast;
sal_uInt16 nOldAct = nAct;
if( nAct )
CheckCut( rLast, rNext );
if( nCut & 4 )
{
NoteUpLow( Cut( nLower, rLast, rNext ), 2 );
if( nAct && nAct != nOldAct )
{
nOldAct = nAct;
CheckCut( rLast, rNext );
}
}
if( nCut & 8 )
{
NoteUpLow( Cut( nUpper, rLast, rNext ), 1 );
if( nAct && nAct != nOldAct )
CheckCut( rLast, rNext );
}
if( !nIdx )
{
if( !( nNext & 12 ) )
NoteLast();
break;
}
if( !( nNext & 12 ) )
{
if( !nNext )
NotePoint( A(rNext) );
else if( nNext & 1 )
NoteFarPoint( A(rNext), nLower-B(rNext), nLowDiff );
else
NoteFarPoint( A(rNext), B(rNext)-nUpper, nUpDiff );
}
nLast = nNext;
if( ++nIdx == nCount && !bClosed )
{
if( !( nNext & 12 ) )
NoteLast();
break;
}
}
}
if( bMultiple && IsConcat() )
{
Add();
nAct = 0;
}
}
}
if( !bMultiple )
{
DBG_ASSERT( pLongArr->empty(), "I said: Simple!" );
if( nAct )
{
if( bInner )
{
tools::Long nTmpMin = nMin + 2 * nStart;
tools::Long nTmpMax = nMax - 2 * nEnd;
if( nTmpMin <= nTmpMax )
{
pLongArr->push_front(nTmpMax);
pLongArr->push_front(nTmpMin);
}
}
else
{
pLongArr->push_front(nMax);
pLongArr->push_front(nMin);
}
}
}
else if( !IsConcat() )
Add();
}
void SvxBoundArgs::Add()
{
size_t nCount = aBoolArr.size();
if( nCount && ( !bInner || !pTextRanger->IsSimple() ) )
{
bool bDelete = aBoolArr.front();
if( bInner )
bDelete = !bDelete;
sal_uInt16 nLongIdx = 1;
for( size_t nBoolIdx = 1; nBoolIdx < nCount; ++nBoolIdx )
{
if( bDelete )
{
sal_uInt16 next = 2;
while( nBoolIdx < nCount && !aBoolArr[ nBoolIdx++ ] &&
(!bInner || nBoolIdx < nCount ) )
next += 2;
pLongArr->erase( pLongArr->begin() + nLongIdx, pLongArr->begin() + nLongIdx + next );
next /= 2;
nBoolIdx = nBoolIdx - next;
nCount = nCount - next;
aBoolArr.erase( aBoolArr.begin() + nBoolIdx, aBoolArr.begin() + (nBoolIdx + next) );
if( nBoolIdx )
aBoolArr[ nBoolIdx - 1 ] = false;
#if OSL_DEBUG_LEVEL > 1
else
++next;
#endif
}
bDelete = nBoolIdx < nCount && aBoolArr[ nBoolIdx ];
nLongIdx += 2;
DBG_ASSERT( nLongIdx == 2*nBoolIdx+1, "BoundArgs: Array-Idx Confusion" );
DBG_ASSERT( aBoolArr.size()*2 == pLongArr->size(),
"BoundArgs: Array-Count: Confusion" );
}
}
if( pLongArr->empty() )
return;
if( !bInner )
return;
pLongArr->pop_front();
pLongArr->pop_back();
// Here the line is held inside a large rectangle for "simple"
// contour wrap. Currently (April 1999) the EditEngine evaluates
// only the first rectangle. If it one day is able to output a line
// in several parts, it may be advisable to delete the following lines.
if( pTextRanger->IsSimple() && pLongArr->size() > 2 )
pLongArr->erase( pLongArr->begin() + 1, pLongArr->end() - 1 );
}
void SvxBoundArgs::Concat( const tools::PolyPolygon* pPoly )
{
SetConcat( true );
DBG_ASSERT( pPoly, "Nothing to do?" );
std::deque<tools::Long>* pOld = pLongArr;
pLongArr = new std::deque<tools::Long>;
aBoolArr.clear();
bInner = false;
Calc( *pPoly ); // Note that this updates pLongArr, which is why we swapped it out earlier.
std::deque<tools::Long>::size_type nCount = pLongArr->size();
std::deque<tools::Long>::size_type nIdx = 0;
std::deque<tools::Long>::size_type i = 0;
bool bSubtract = pTextRanger->IsInner();
while( i < nCount )
{
std::deque<tools::Long>::size_type nOldCount = pOld->size();
if( nIdx == nOldCount )
{ // Reached the end of the old Array...
if( !bSubtract )
pOld->insert( pOld->begin() + nIdx, pLongArr->begin() + i, pLongArr->end() );
break;
}
tools::Long nLeft = (*pLongArr)[ i++ ];
tools::Long nRight = (*pLongArr)[ i++ ];
std::deque<tools::Long>::size_type nLeftPos = nIdx + 1;
while( nLeftPos < nOldCount && nLeft > (*pOld)[ nLeftPos ] )
nLeftPos += 2;
if( nLeftPos >= nOldCount )
{ // The current interval belongs to the end of the old array ...
if( !bSubtract )
pOld->insert( pOld->begin() + nOldCount, pLongArr->begin() + i - 2, pLongArr->end() );
break;
}
std::deque<tools::Long>::size_type nRightPos = nLeftPos - 1;
while( nRightPos < nOldCount && nRight >= (*pOld)[ nRightPos ] )
nRightPos += 2;
if( nRightPos < nLeftPos )
{ // The current interval belongs between two old intervals
if( !bSubtract )
pOld->insert( pOld->begin() + nRightPos, pLongArr->begin() + i - 2, pLongArr->begin() + i );
}
else if( bSubtract ) // Subtract, if necessary separate
{
const tools::Long nOld = (*pOld)[nLeftPos - 1];
if (nLeft > nOld)
{ // Now we split the left part...
if( nLeft - 1 > nOld )
{
pOld->insert( pOld->begin() + nLeftPos - 1, nOld );
pOld->insert( pOld->begin() + nLeftPos, nLeft - 1 );
nLeftPos += 2;
nRightPos += 2;
}
}
if( nRightPos - nLeftPos > 1 )
pOld->erase( pOld->begin() + nLeftPos, pOld->begin() + nRightPos - 1 );
if (++nRight >= (*pOld)[nLeftPos])
pOld->erase( pOld->begin() + nLeftPos - 1, pOld->begin() + nLeftPos + 1 );
else
(*pOld)[ nLeftPos - 1 ] = nRight;
}
else // Merge
{
if( nLeft < (*pOld)[ nLeftPos - 1 ] )
(*pOld)[ nLeftPos - 1 ] = nLeft;
if( nRight > (*pOld)[ nRightPos - 1 ] )
(*pOld)[ nRightPos - 1 ] = nRight;
if( nRightPos - nLeftPos > 1 )
pOld->erase( pOld->begin() + nLeftPos, pOld->begin() + nRightPos - 1 );
}
nIdx = nLeftPos - 1;
}
delete pLongArr;
}
/*************************************************************************
* SvxBoundArgs::Area returns the area in which the point is located.
* 0 = within the line
* 1 = below, but within the upper edge
* 2 = above, but within the lower edge
* 5 = below the upper edge
*10 = above the lower edge
*************************************************************************/
sal_uInt16 SvxBoundArgs::Area( const Point& rPt )
{
tools::Long nB = B( rPt );
if( nB >= nBottom )
{
if( nB >= nLower )
return 5;
return 1;
}
if( nB <= nTop )
{
if( nB <= nUpper )
return 10;
return 2;
}
return 0;
}
/*************************************************************************
* lcl_Cut calculates the X-Coordinate of the distance (Pt1-Pt2) at the
* Y-Coordinate nY.
* It is assumed that the one of the points are located above and the other
* one below the Y-Coordinate.
*************************************************************************/
tools::Long SvxBoundArgs::Cut( tools::Long nB, const Point& rPt1, const Point& rPt2 )
{
if( pTextRanger->IsVertical() )
{
double nQuot = nB - rPt1.X();
nQuot /= ( rPt2.X() - rPt1.X() );
nQuot *= ( rPt2.Y() - rPt1.Y() );
return tools::Long( rPt1.Y() + nQuot );
}
double nQuot = nB - rPt1.Y();
nQuot /= ( rPt2.Y() - rPt1.Y() );
nQuot *= ( rPt2.X() - rPt1.X() );
return tools::Long( rPt1.X() + nQuot );
}
void SvxBoundArgs::NoteUpLow( tools::Long nA, const sal_uInt8 nArea )
{
if( nAct )
{
NoteMargin( nA, nA );
if( bMultiple )
{
NoteRange( nArea != nAct );
nAct = 0;
}
if( !nFirst )
nFirst = nArea;
}
else
{
nAct = nArea;
nMin = nA;
nMax = nA;
}
}
std::deque<tools::Long>* TextRanger::GetTextRanges( const Range& rRange )
{
DBG_ASSERT( rRange.Min() || rRange.Max(), "Zero-Range not allowed, Bye Bye" );
//Can we find the result we need in the cache?
for (auto & elem : mRangeCache)
{
if (elem.range == rRange)
return &(elem.results);
}
//Calculate a new result
RangeCacheItem rngCache(rRange);
SvxBoundArgs aArg( this, &(rngCache.results), rRange );
aArg.Calc( maPolyPolygon );
if( mpLinePolyPolygon )
aArg.Concat( &*mpLinePolyPolygon );
//Add new result to the cache
mRangeCache.push_back(std::move(rngCache));
if (mRangeCache.size() > nCacheSize)
mRangeCache.pop_front();
return &(mRangeCache.back().results);
}
const tools::Rectangle& TextRanger::GetBoundRect_() const
{
DBG_ASSERT( !mxBound, "Don't call twice." );
mxBound = maPolyPolygon.GetBoundRect();
return *mxBound;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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