/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using std::vector; namespace { class SwCompareLine { const SwNode& m_rNode; public: explicit SwCompareLine( const SwNode& rNd ) : m_rNode( rNd ) {} sal_uLong GetHashValue() const; bool Compare( const SwCompareLine& rLine ) const; static sal_uLong GetTextNodeHashValue( const SwTextNode& rNd, sal_uLong nVal ); static bool CompareNode( const SwNode& rDstNd, const SwNode& rSrcNd ); static bool CompareTextNd( const SwTextNode& rDstNd, const SwTextNode& rSrcNd ); bool ChangesInLine( const SwCompareLine& rLine, std::unique_ptr& rpInsRing, std::unique_ptr& rpDelRing ) const; const SwNode& GetNode() const { return m_rNode; } const SwNode& GetEndNode() const; // for debugging OUString GetText() const; }; class CompareData { protected: SwDoc& m_rDoc; private: std::unique_ptr m_pIndex; std::unique_ptr m_pChangedFlag; std::unique_ptr m_pInsertRing, m_pDelRing; static sal_uLong PrevIdx( const SwNode* pNd ); static sal_uLong NextIdx( const SwNode* pNd ); vector< SwCompareLine* > m_aLines; bool m_bRecordDiff; // Truncate beginning and end and add all others to the LinesArray void CheckRanges( CompareData& ); virtual const SwNode& GetEndOfContent() = 0; public: CompareData(SwDoc& rD, bool bRecordDiff) : m_rDoc( rD ) , m_bRecordDiff(bRecordDiff) { } virtual ~CompareData(); // Are there differences? bool HasDiffs( const CompareData& rData ) const; // Triggers the comparison and creation of two documents void CompareLines( CompareData& rData ); // Display the differences - calls the methods ShowInsert and ShowDelete. // These are passed the start and end line number. // Displaying the actually content is to be handled by the subclass! sal_uLong ShowDiffs( const CompareData& rData ); void ShowInsert( sal_uLong nStt, sal_uLong nEnd ); void ShowDelete( const CompareData& rData, sal_uLong nStt, sal_uLong nEnd, sal_uLong nInsPos ); void CheckForChangesInLine( const CompareData& rData, sal_uLong nStt, sal_uLong nEnd, sal_uLong nThisStt, sal_uLong nThisEnd ); // Set non-ambiguous index for a line. Same lines have the same index, even in the other CompareData! void SetIndex( size_t nLine, size_t nIndex ); size_t GetIndex( size_t nLine ) const { return nLine < m_aLines.size() ? m_pIndex[ nLine ] : 0; } // Set/get of a line has changed void SetChanged( size_t nLine, bool bFlag = true ); bool GetChanged( size_t nLine ) const { return (m_pChangedFlag && nLine < m_aLines.size()) && m_pChangedFlag[ nLine ]; } size_t GetLineCount() const { return m_aLines.size(); } const SwCompareLine* GetLine( size_t nLine ) const { return m_aLines[ nLine ]; } void InsertLine( SwCompareLine* pLine ) { m_aLines.push_back( pLine ); } void SetRedlinesToDoc( bool bUseDocInfo ); }; class CompareMainText : public CompareData { public: CompareMainText(SwDoc &rD, bool bRecordDiff) : CompareData(rD, bRecordDiff) { } virtual const SwNode& GetEndOfContent() override { return m_rDoc.GetNodes().GetEndOfContent(); } }; class CompareFrameFormatText : public CompareData { const SwNodeIndex &m_rIndex; public: CompareFrameFormatText(SwDoc &rD, const SwNodeIndex &rIndex) : CompareData(rD, true/*bRecordDiff*/) , m_rIndex(rIndex) { } virtual const SwNode& GetEndOfContent() override { return *m_rIndex.GetNode().EndOfSectionNode(); } }; class Hash { struct HashData { sal_uLong nNext, nHash; const SwCompareLine* pLine; HashData() : nNext( 0 ), nHash( 0 ), pLine(nullptr) {} }; std::unique_ptr m_pHashArr; std::unique_ptr m_pDataArr; sal_uLong m_nCount, m_nPrime; public: explicit Hash( sal_uLong nSize ); void CalcHashValue( CompareData& rData ); sal_uLong GetCount() const { return m_nCount; } }; class Compare { public: class MovedData { std::unique_ptr m_pIndex; std::unique_ptr m_pLineNum; sal_uLong m_nCount; public: MovedData( CompareData& rData, const char* pDiscard ); sal_uLong GetIndex( sal_uLong n ) const { return m_pIndex[ n ]; } sal_uLong GetLineNum( sal_uLong n ) const { return m_pLineNum[ n ]; } sal_uLong GetCount() const { return m_nCount; } }; private: /// Look for the moved lines class CompareSequence { CompareData &m_rData1, &m_rData2; const MovedData &m_rMoved1, &m_rMoved2; std::unique_ptr m_pMemory; long *m_pFDiag, *m_pBDiag; void Compare( sal_uLong nStt1, sal_uLong nEnd1, sal_uLong nStt2, sal_uLong nEnd2 ); sal_uLong CheckDiag( sal_uLong nStt1, sal_uLong nEnd1, sal_uLong nStt2, sal_uLong nEnd2, sal_uLong* pCost ); public: CompareSequence( CompareData& rD1, CompareData& rD2, const MovedData& rMD1, const MovedData& rMD2 ); }; static void CountDifference( const CompareData& rData, sal_uLong* pCounts ); static void SetDiscard( const CompareData& rData, char* pDiscard, const sal_uLong* pCounts ); static void CheckDiscard( sal_uLong nLen, char* pDiscard ); static void ShiftBoundaries( CompareData& rData1, CompareData& rData2 ); public: Compare( sal_uLong nDiff, CompareData& rData1, CompareData& rData2 ); }; class ArrayComparator { public: virtual bool Compare( int nIdx1, int nIdx2 ) const = 0; virtual int GetLen1() const = 0; virtual int GetLen2() const = 0; virtual ~ArrayComparator() {} }; /// Consider two lines equal if similar enough (e.g. look like different /// versions of the same paragraph) class LineArrayComparator : public ArrayComparator { private: int m_nLen1, m_nLen2; const CompareData &m_rData1, &m_rData2; int m_nFirst1, m_nFirst2; public: LineArrayComparator( const CompareData &rD1, const CompareData &rD2, int nStt1, int nEnd1, int nStt2, int nEnd2 ); virtual bool Compare( int nIdx1, int nIdx2 ) const override; virtual int GetLen1() const override { return m_nLen1; } virtual int GetLen2() const override { return m_nLen2; } }; class WordArrayComparator : public ArrayComparator { private: const SwTextNode *m_pTextNode1, *m_pTextNode2; std::unique_ptr m_pPos1, m_pPos2; int m_nCount1, m_nCount2; // number of words static void CalcPositions( int *pPos, const SwTextNode *pTextNd, int &nCnt ); public: WordArrayComparator( const SwTextNode *pNode1, const SwTextNode *pNode2 ); virtual bool Compare( int nIdx1, int nIdx2 ) const override; virtual int GetLen1() const override { return m_nCount1; } virtual int GetLen2() const override { return m_nCount2; } int GetCharSequence( const int *pWordLcs1, const int *pWordLcs2, int *pSubseq1, int *pSubseq2, int nLcsLen ); }; class CharArrayComparator : public ArrayComparator { private: const SwTextNode *m_pTextNode1, *m_pTextNode2; public: CharArrayComparator( const SwTextNode *pNode1, const SwTextNode *pNode2 ) : m_pTextNode1( pNode1 ), m_pTextNode2( pNode2 ) { } virtual bool Compare( int nIdx1, int nIdx2 ) const override; virtual int GetLen1() const override { return m_pTextNode1->GetText().getLength(); } virtual int GetLen2() const override { return m_pTextNode2->GetText().getLength(); } }; /// Options set in Tools->Options->Writer->Comparison struct CmpOptionsContainer { SwCompareMode eCmpMode; int nIgnoreLen; bool bUseRsid; }; } static CmpOptionsContainer CmpOptions; namespace { class CommonSubseq { private: std::unique_ptr m_pData; protected: ArrayComparator &m_rComparator; CommonSubseq( ArrayComparator &rComparator, int nMaxSize ) : m_rComparator( rComparator ) { m_pData.reset( new int[ nMaxSize ] ); } int FindLCS( int *pLcs1, int *pLcs2, int nStt1, int nEnd1, int nStt2, int nEnd2 ); public: static int IgnoreIsolatedPieces( int *pLcs1, int *pLcs2, int nLen1, int nLen2, int nLcsLen, int nPieceLen ); }; /// Use Hirschberg's algorithm to find LCS in linear space class LgstCommonSubseq: public CommonSubseq { private: static const int CUTOFF = 1<<20; // Stop recursion at this value std::unique_ptr m_pL1, m_pL2; std::unique_ptr m_pBuff1, m_pBuff2; void FindL( int *pL, int nStt1, int nEnd1, int nStt2, int nEnd2 ); int HirschbergLCS( int *pLcs1, int *pLcs2, int nStt1, int nEnd1, int nStt2, int nEnd2 ); public: explicit LgstCommonSubseq( ArrayComparator &rComparator ); int Find( int *pSubseq1, int *pSubseq2 ); }; /// Find a common subsequence in linear time class FastCommonSubseq: private CommonSubseq { private: static const int CUTOFF = 2056; int FindFastCS( int *pSeq1, int *pSeq2, int nStt1, int nEnd1, int nStt2, int nEnd2 ); public: explicit FastCommonSubseq( ArrayComparator &rComparator ) : CommonSubseq( rComparator, CUTOFF ) { } int Find( int *pSubseq1, int *pSubseq2 ) { return FindFastCS( pSubseq1, pSubseq2, 0, m_rComparator.GetLen1(), 0, m_rComparator.GetLen2() ); } }; } CompareData::~CompareData() { if( m_pDelRing ) { while( m_pDelRing->GetNext() != m_pDelRing.get() ) delete m_pDelRing->GetNext(); m_pDelRing.reset(); } if( m_pInsertRing ) { while( m_pInsertRing->GetNext() != m_pInsertRing.get() ) delete m_pInsertRing->GetNext(); m_pInsertRing.reset(); } } void CompareData::SetIndex( size_t nLine, size_t nIndex ) { if( !m_pIndex ) { m_pIndex.reset( new size_t[ m_aLines.size() ] ); memset( m_pIndex.get(), 0, m_aLines.size() * sizeof( size_t ) ); } if( nLine < m_aLines.size() ) m_pIndex[ nLine ] = nIndex; } void CompareData::SetChanged( size_t nLine, bool bFlag ) { if( !m_pChangedFlag ) { m_pChangedFlag.reset( new bool[ m_aLines.size() +1 ] ); memset( m_pChangedFlag.get(), 0, (m_aLines.size() +1) * sizeof( bool ) ); } if( nLine < m_aLines.size() ) m_pChangedFlag[ nLine ] = bFlag; } void CompareData::CompareLines( CompareData& rData ) { CheckRanges( rData ); sal_uLong nDifferent; { Hash aH( GetLineCount() + rData.GetLineCount() + 1 ); aH.CalcHashValue( *this ); aH.CalcHashValue( rData ); nDifferent = aH.GetCount(); } { Compare aComp( nDifferent, *this, rData ); } } sal_uLong CompareData::ShowDiffs( const CompareData& rData ) { sal_uLong nLen1 = rData.GetLineCount(), nLen2 = GetLineCount(); sal_uLong nStt1 = 0, nStt2 = 0; sal_uLong nCnt = 0; while( nStt1 < nLen1 || nStt2 < nLen2 ) { if( rData.GetChanged( nStt1 ) || GetChanged( nStt2 ) ) { // Find a region of different lines between two pairs of identical // lines. sal_uLong nSav1 = nStt1, nSav2 = nStt2; while( nStt1 < nLen1 && rData.GetChanged( nStt1 )) ++nStt1; while( nStt2 < nLen2 && GetChanged( nStt2 )) ++nStt2; if (m_bRecordDiff) { // Check if there are changed lines (only slightly different) and // compare them in detail. CheckForChangesInLine( rData, nSav1, nStt1, nSav2, nStt2 ); } ++nCnt; } ++nStt1; ++nStt2; } return nCnt; } bool CompareData::HasDiffs( const CompareData& rData ) const { bool bRet = false; sal_uLong nLen1 = rData.GetLineCount(), nLen2 = GetLineCount(); sal_uLong nStt1 = 0, nStt2 = 0; while( nStt1 < nLen1 || nStt2 < nLen2 ) { if( rData.GetChanged( nStt1 ) || GetChanged( nStt2 ) ) { bRet = true; break; } ++nStt1; ++nStt2; } return bRet; } Hash::Hash( sal_uLong nSize ) : m_nCount(1) { static const sal_uLong primes[] = { 509, 1021, 2039, 4093, 8191, 16381, 32749, 65521, 131071, 262139, 524287, 1048573, 2097143, 4194301, 8388593, 16777213, 33554393, 67108859, /* Preposterously large . . . */ 134217689, 268435399, 536870909, 1073741789, 2147483647, 0 }; int i; m_pDataArr.reset( new HashData[ nSize ] ); m_pDataArr[0].nNext = 0; m_pDataArr[0].nHash = 0; m_pDataArr[0].pLine = nullptr; m_nPrime = primes[0]; for( i = 0; primes[i] < nSize / 3; i++) if( !primes[i] ) { m_pHashArr = nullptr; return; } m_nPrime = primes[ i ]; m_pHashArr.reset( new sal_uLong[ m_nPrime ] ); memset( m_pHashArr.get(), 0, m_nPrime * sizeof( sal_uLong ) ); } void Hash::CalcHashValue( CompareData& rData ) { if( m_pHashArr ) { for( size_t n = 0; n < rData.GetLineCount(); ++n ) { const SwCompareLine* pLine = rData.GetLine( n ); OSL_ENSURE( pLine, "where is the line?" ); sal_uLong nH = pLine->GetHashValue(); sal_uLong* pFound = &m_pHashArr[ nH % m_nPrime ]; size_t i; for( i = *pFound; ; i = m_pDataArr[i].nNext ) if( !i ) { i = m_nCount++; m_pDataArr[i].nNext = *pFound; m_pDataArr[i].nHash = nH; m_pDataArr[i].pLine = pLine; *pFound = i; break; } else if( m_pDataArr[i].nHash == nH && m_pDataArr[i].pLine->Compare( *pLine )) break; rData.SetIndex( n, i ); } } } Compare::Compare( sal_uLong nDiff, CompareData& rData1, CompareData& rData2 ) { std::unique_ptr pMD1, pMD2; // Look for the differing lines { std::unique_ptr pDiscard1( new char[ rData1.GetLineCount() ] ); std::unique_ptr pDiscard2( new char[ rData2.GetLineCount() ] ); std::unique_ptr pCount1(new sal_uLong[ nDiff ]); std::unique_ptr pCount2(new sal_uLong[ nDiff ]); memset( pCount1.get(), 0, nDiff * sizeof( sal_uLong )); memset( pCount2.get(), 0, nDiff * sizeof( sal_uLong )); // find indices in CompareData which have been assigned multiple times CountDifference( rData1, pCount1.get() ); CountDifference( rData2, pCount2.get() ); // All which occur only once now have either been inserted or deleted. // All which are also contained in the other one have been moved. SetDiscard( rData1, pDiscard1.get(), pCount2.get() ); SetDiscard( rData2, pDiscard2.get(), pCount1.get() ); CheckDiscard( rData1.GetLineCount(), pDiscard1.get() ); CheckDiscard( rData2.GetLineCount(), pDiscard2.get() ); pMD1.reset(new MovedData( rData1, pDiscard1.get() )); pMD2.reset(new MovedData( rData2, pDiscard2.get() )); } { CompareSequence aTmp( rData1, rData2, *pMD1, *pMD2 ); } ShiftBoundaries( rData1, rData2 ); } void Compare::CountDifference( const CompareData& rData, sal_uLong* pCounts ) { sal_uLong nLen = rData.GetLineCount(); for( sal_uLong n = 0; n < nLen; ++n ) { sal_uLong nIdx = rData.GetIndex( n ); ++pCounts[ nIdx ]; } } void Compare::SetDiscard( const CompareData& rData, char* pDiscard, const sal_uLong* pCounts ) { const sal_uLong nLen = rData.GetLineCount(); // calculate Max with respect to the line count sal_uLong nMax = 5; for( sal_uLong n = nLen / 64; ( n = n >> 2 ) > 0; ) nMax <<= 1; for( sal_uLong n = 0; n < nLen; ++n ) { sal_uLong nIdx = rData.GetIndex( n ); if( nIdx ) { nIdx = pCounts[ nIdx ]; pDiscard[ n ] = !nIdx ? 1 : nIdx > nMax ? 2 : 0; } else pDiscard[ n ] = 0; } } void Compare::CheckDiscard( sal_uLong nLen, char* pDiscard ) { for( sal_uLong n = 0; n < nLen; ++n ) { if( 2 == pDiscard[ n ] ) pDiscard[n] = 0; else if( pDiscard[ n ] ) { sal_uLong j; sal_uLong length; sal_uLong provisional = 0; /* Find end of this run of discardable lines. Count how many are provisionally discardable. */ for (j = n; j < nLen; j++) { if( !pDiscard[j] ) break; if( 2 == pDiscard[j] ) ++provisional; } /* Cancel provisional discards at end, and shrink the run. */ while( j > n && 2 == pDiscard[j - 1] ) { pDiscard[ --j ] = 0; --provisional; } /* Now we have the length of a run of discardable lines whose first and last are not provisional. */ length = j - n; /* If 1/4 of the lines in the run are provisional, cancel discarding of all provisional lines in the run. */ if (provisional * 4 > length) { while (j > n) if (pDiscard[--j] == 2) pDiscard[j] = 0; } else { sal_uLong consec; sal_uLong minimum = 1; sal_uLong tem = length / 4; /* MINIMUM is approximate square root of LENGTH/4. A subrun of two or more provisionals can stand when LENGTH is at least 16. A subrun of 4 or more can stand when LENGTH >= 64. */ while ((tem = tem >> 2) > 0) minimum *= 2; minimum++; /* Cancel any subrun of MINIMUM or more provisionals within the larger run. */ for (j = 0, consec = 0; j < length; j++) if (pDiscard[n + j] != 2) consec = 0; else if (minimum == ++consec) /* Back up to start of subrun, to cancel it all. */ j -= consec; else if (minimum < consec) pDiscard[n + j] = 0; /* Scan from beginning of run until we find 3 or more nonprovisionals in a row or until the first nonprovisional at least 8 lines in. Until that point, cancel any provisionals. */ for (j = 0, consec = 0; j < length; j++) { if (j >= 8 && pDiscard[n + j] == 1) break; if (pDiscard[n + j] == 2) { consec = 0; pDiscard[n + j] = 0; } else if (pDiscard[n + j] == 0) consec = 0; else consec++; if (consec == 3) break; } /* I advances to the last line of the run. */ n += length - 1; /* Same thing, from end. */ for (j = 0, consec = 0; j < length; j++) { if (j >= 8 && pDiscard[n - j] == 1) break; if (pDiscard[n - j] == 2) { consec = 0; pDiscard[n - j] = 0; } else if (pDiscard[n - j] == 0) consec = 0; else consec++; if (consec == 3) break; } } } } } Compare::MovedData::MovedData( CompareData& rData, const char* pDiscard ) : m_nCount( 0 ) { sal_uLong nLen = rData.GetLineCount(); sal_uLong n; for( n = 0; n < nLen; ++n ) if( pDiscard[ n ] ) rData.SetChanged( n ); else ++m_nCount; if( m_nCount ) { m_pIndex.reset( new sal_uLong[ m_nCount ] ); m_pLineNum.reset( new sal_uLong[ m_nCount ] ); for( n = 0, m_nCount = 0; n < nLen; ++n ) if( !pDiscard[ n ] ) { m_pIndex[ m_nCount ] = rData.GetIndex( n ); m_pLineNum[ m_nCount++ ] = n; } } } /// Find the differing lines Compare::CompareSequence::CompareSequence( CompareData& rD1, CompareData& rD2, const MovedData& rMD1, const MovedData& rMD2 ) : m_rData1( rD1 ), m_rData2( rD2 ), m_rMoved1( rMD1 ), m_rMoved2( rMD2 ) { sal_uLong nSize = rMD1.GetCount() + rMD2.GetCount() + 3; m_pMemory.reset( new long[ nSize * 2 ] ); m_pFDiag = m_pMemory.get() + ( rMD2.GetCount() + 1 ); m_pBDiag = m_pMemory.get() + ( nSize + rMD2.GetCount() + 1 ); Compare( 0, rMD1.GetCount(), 0, rMD2.GetCount() ); } void Compare::CompareSequence::Compare( sal_uLong nStt1, sal_uLong nEnd1, sal_uLong nStt2, sal_uLong nEnd2 ) { /* Slide down the bottom initial diagonal. */ while( nStt1 < nEnd1 && nStt2 < nEnd2 && m_rMoved1.GetIndex( nStt1 ) == m_rMoved2.GetIndex( nStt2 )) { ++nStt1; ++nStt2; } /* Slide up the top initial diagonal. */ while( nEnd1 > nStt1 && nEnd2 > nStt2 && m_rMoved1.GetIndex( nEnd1 - 1 ) == m_rMoved2.GetIndex( nEnd2 - 1 )) { --nEnd1; --nEnd2; } /* Handle simple cases. */ if( nStt1 == nEnd1 ) while( nStt2 < nEnd2 ) m_rData2.SetChanged( m_rMoved2.GetLineNum( nStt2++ )); else if (nStt2 == nEnd2) while (nStt1 < nEnd1) m_rData1.SetChanged( m_rMoved1.GetLineNum( nStt1++ )); else { sal_uLong c, d, b; /* Find a point of correspondence in the middle of the files. */ d = CheckDiag( nStt1, nEnd1, nStt2, nEnd2, &c ); b = m_pBDiag[ d ]; if( 1 != c ) { /* Use that point to split this problem into two subproblems. */ Compare( nStt1, b, nStt2, b - d ); /* This used to use f instead of b, but that is incorrect! It is not necessarily the case that diagonal d has a snake from b to f. */ Compare( b, nEnd1, b - d, nEnd2 ); } } } sal_uLong Compare::CompareSequence::CheckDiag( sal_uLong nStt1, sal_uLong nEnd1, sal_uLong nStt2, sal_uLong nEnd2, sal_uLong* pCost ) { const long dmin = nStt1 - nEnd2; /* Minimum valid diagonal. */ const long dmax = nEnd1 - nStt2; /* Maximum valid diagonal. */ const long fmid = nStt1 - nStt2; /* Center diagonal of top-down search. */ const long bmid = nEnd1 - nEnd2; /* Center diagonal of bottom-up search. */ long fmin = fmid, fmax = fmid; /* Limits of top-down search. */ long bmin = bmid, bmax = bmid; /* Limits of bottom-up search. */ long c; /* Cost. */ long odd = (fmid - bmid) & 1; /* True if southeast corner is on an odd diagonal with respect to the northwest. */ m_pFDiag[fmid] = nStt1; m_pBDiag[bmid] = nEnd1; for (c = 1;; ++c) { long d; /* Active diagonal. */ /* Extend the top-down search by an edit step in each diagonal. */ if (fmin > dmin) m_pFDiag[--fmin - 1] = -1; else ++fmin; if (fmax < dmax) m_pFDiag[++fmax + 1] = -1; else --fmax; for (d = fmax; d >= fmin; d -= 2) { long x, y, tlo = m_pFDiag[d - 1], thi = m_pFDiag[d + 1]; if (tlo >= thi) x = tlo + 1; else x = thi; y = x - d; while( o3tl::make_unsigned(x) < nEnd1 && o3tl::make_unsigned(y) < nEnd2 && m_rMoved1.GetIndex( x ) == m_rMoved2.GetIndex( y )) { ++x; ++y; } m_pFDiag[d] = x; if( odd && bmin <= d && d <= bmax && m_pBDiag[d] <= m_pFDiag[d] ) { *pCost = 2 * c - 1; return d; } } /* Similar extend the bottom-up search. */ if (bmin > dmin) m_pBDiag[--bmin - 1] = INT_MAX; else ++bmin; if (bmax < dmax) m_pBDiag[++bmax + 1] = INT_MAX; else --bmax; for (d = bmax; d >= bmin; d -= 2) { long x, y, tlo = m_pBDiag[d - 1], thi = m_pBDiag[d + 1]; if (tlo < thi) x = tlo; else x = thi - 1; y = x - d; while( o3tl::make_unsigned(x) > nStt1 && o3tl::make_unsigned(y) > nStt2 && m_rMoved1.GetIndex( x - 1 ) == m_rMoved2.GetIndex( y - 1 )) { --x; --y; } m_pBDiag[d] = x; if (!odd && fmin <= d && d <= fmax && m_pBDiag[d] <= m_pFDiag[d]) { *pCost = 2 * c; return d; } } } } namespace { void lcl_ShiftBoundariesOneway( CompareData* const pData, CompareData const * const pOtherData) { sal_uLong i = 0; sal_uLong j = 0; sal_uLong i_end = pData->GetLineCount(); sal_uLong preceding = ULONG_MAX; sal_uLong other_preceding = ULONG_MAX; while (true) { sal_uLong start, other_start; /* Scan forwards to find beginning of another run of changes. Also keep track of the corresponding point in the other file. */ while( i < i_end && !pData->GetChanged( i ) ) { while( pOtherData->GetChanged( j++ )) /* Non-corresponding lines in the other file will count as the preceding batch of changes. */ other_preceding = j; i++; } if (i == i_end) break; start = i; other_start = j; while (true) { /* Now find the end of this run of changes. */ while( pData->GetChanged( ++i )) ; /* If the first changed line matches the following unchanged one, and this run does not follow right after a previous run, and there are no lines deleted from the other file here, then classify the first changed line as unchanged and the following line as changed in its place. */ /* You might ask, how could this run follow right after another? Only because the previous run was shifted here. */ if( i != i_end && pData->GetIndex( start ) == pData->GetIndex( i ) && !pOtherData->GetChanged( j ) && !( start == preceding || other_start == other_preceding )) { pData->SetChanged( start++, false ); pData->SetChanged( i ); /* Since one line-that-matches is now before this run instead of after, we must advance in the other file to keep in sync. */ ++j; } else break; } preceding = i; other_preceding = j; } } } void Compare::ShiftBoundaries( CompareData& rData1, CompareData& rData2 ) { lcl_ShiftBoundariesOneway(&rData1, &rData2); lcl_ShiftBoundariesOneway(&rData2, &rData1); } sal_uLong SwCompareLine::GetHashValue() const { sal_uLong nRet = 0; switch( m_rNode.GetNodeType() ) { case SwNodeType::Text: nRet = GetTextNodeHashValue( *m_rNode.GetTextNode(), nRet ); break; case SwNodeType::Table: { const SwNode* pEndNd = m_rNode.EndOfSectionNode(); SwNodeIndex aIdx( m_rNode ); while( &aIdx.GetNode() != pEndNd ) { if( aIdx.GetNode().IsTextNode() ) nRet = GetTextNodeHashValue( *aIdx.GetNode().GetTextNode(), nRet ); ++aIdx; } } break; case SwNodeType::Section: { OUString sStr( GetText() ); for( sal_Int32 n = 0; n < sStr.getLength(); ++n ) nRet = (nRet << 1) + sStr[ n ]; } break; case SwNodeType::Grf: case SwNodeType::Ole: // Fixed ID? Should never occur ... break; default: break; } return nRet; } const SwNode& SwCompareLine::GetEndNode() const { const SwNode* pNd = &m_rNode; switch( m_rNode.GetNodeType() ) { case SwNodeType::Table: pNd = m_rNode.EndOfSectionNode(); break; case SwNodeType::Section: { const SwSectionNode& rSNd = static_cast(m_rNode); const SwSection& rSect = rSNd.GetSection(); if( SectionType::Content != rSect.GetType() || rSect.IsProtect() ) pNd = m_rNode.EndOfSectionNode(); } break; default: break; } return *pNd; } bool SwCompareLine::Compare( const SwCompareLine& rLine ) const { return CompareNode( m_rNode, rLine.m_rNode ); } namespace { OUString SimpleTableToText(const SwNode &rNode) { OUStringBuffer sRet; const SwNode* pEndNd = rNode.EndOfSectionNode(); SwNodeIndex aIdx( rNode ); while (&aIdx.GetNode() != pEndNd) { if (aIdx.GetNode().IsTextNode()) { if (sRet.getLength()) { sRet.append( '\n' ); } sRet.append( aIdx.GetNode().GetTextNode()->GetExpandText(nullptr) ); } ++aIdx; } return sRet.makeStringAndClear(); } } bool SwCompareLine::CompareNode( const SwNode& rDstNd, const SwNode& rSrcNd ) { if( rSrcNd.GetNodeType() != rDstNd.GetNodeType() ) return false; bool bRet = false; switch( rDstNd.GetNodeType() ) { case SwNodeType::Text: bRet = CompareTextNd( *rDstNd.GetTextNode(), *rSrcNd.GetTextNode() ) && ( !CmpOptions.bUseRsid || rDstNd.GetTextNode()->CompareParRsid( *rSrcNd.GetTextNode() ) ); break; case SwNodeType::Table: { const SwTableNode& rTSrcNd = static_cast(rSrcNd); const SwTableNode& rTDstNd = static_cast(rDstNd); bRet = ( rTSrcNd.EndOfSectionIndex() - rTSrcNd.GetIndex() ) == ( rTDstNd.EndOfSectionIndex() - rTDstNd.GetIndex() ); // --> #i107826#: compare actual table content if (bRet) { bRet = (SimpleTableToText(rSrcNd) == SimpleTableToText(rDstNd)); } } break; case SwNodeType::Section: { const SwSectionNode& rSSrcNd = static_cast(rSrcNd), & rSDstNd = static_cast(rDstNd); const SwSection& rSrcSect = rSSrcNd.GetSection(), & rDstSect = rSDstNd.GetSection(); SectionType eSrcSectType = rSrcSect.GetType(), eDstSectType = rDstSect.GetType(); switch( eSrcSectType ) { case SectionType::Content: bRet = SectionType::Content == eDstSectType && rSrcSect.IsProtect() == rDstSect.IsProtect(); if( bRet && rSrcSect.IsProtect() ) { // the only have they both the same size bRet = ( rSSrcNd.EndOfSectionIndex() - rSSrcNd.GetIndex() ) == ( rSDstNd.EndOfSectionIndex() - rSDstNd.GetIndex() ); } break; case SectionType::ToxHeader: case SectionType::ToxContent: if( SectionType::ToxHeader == eDstSectType || SectionType::ToxContent == eDstSectType ) { // the same type of TOX? const SwTOXBase* pSrcTOX = rSrcSect.GetTOXBase(); const SwTOXBase* pDstTOX = rDstSect.GetTOXBase(); bRet = pSrcTOX && pDstTOX && pSrcTOX->GetType() == pDstTOX->GetType() && pSrcTOX->GetTitle() == pDstTOX->GetTitle() && pSrcTOX->GetTypeName() == pDstTOX->GetTypeName() ; } break; case SectionType::DdeLink: case SectionType::FileLink: bRet = eSrcSectType == eDstSectType && rSrcSect.GetLinkFileName() == rDstSect.GetLinkFileName(); break; } } break; case SwNodeType::End: bRet = rSrcNd.StartOfSectionNode()->GetNodeType() == rDstNd.StartOfSectionNode()->GetNodeType(); // --> #i107826#: compare actual table content if (bRet && rSrcNd.StartOfSectionNode()->GetNodeType() == SwNodeType::Table) { bRet = CompareNode( *rSrcNd.StartOfSectionNode(), *rDstNd.StartOfSectionNode()); } break; default: break; } return bRet; } OUString SwCompareLine::GetText() const { OUString sRet; switch( m_rNode.GetNodeType() ) { case SwNodeType::Text: sRet = m_rNode.GetTextNode()->GetExpandText(nullptr); break; case SwNodeType::Table: { sRet = "Tabelle: " + SimpleTableToText(m_rNode); } break; case SwNodeType::Section: { sRet = "Section - Node:"; const SwSectionNode& rSNd = static_cast(m_rNode); const SwSection& rSect = rSNd.GetSection(); switch( rSect.GetType() ) { case SectionType::Content: if( rSect.IsProtect() ) sRet += OUString::number( rSNd.EndOfSectionIndex() - rSNd.GetIndex() ); break; case SectionType::ToxHeader: case SectionType::ToxContent: { const SwTOXBase* pTOX = rSect.GetTOXBase(); if( pTOX ) sRet += pTOX->GetTitle() + pTOX->GetTypeName() + OUString::number(pTOX->GetType()); } break; case SectionType::DdeLink: case SectionType::FileLink: sRet += rSect.GetLinkFileName(); break; } } break; case SwNodeType::Grf: sRet = "Grafik - Node:"; break; case SwNodeType::Ole: sRet = "OLE - Node:"; break; default: break; } return sRet; } sal_uLong SwCompareLine::GetTextNodeHashValue( const SwTextNode& rNd, sal_uLong nVal ) { OUString sStr( rNd.GetExpandText(nullptr) ); for( sal_Int32 n = 0; n < sStr.getLength(); ++n ) nVal = (nVal << 1 ) + sStr[ n ]; return nVal; } bool SwCompareLine::CompareTextNd( const SwTextNode& rDstNd, const SwTextNode& rSrcNd ) { bool bRet = false; // Very simple at first if( rDstNd.GetText() == rSrcNd.GetText() ) { // The text is the same, but are the "special attributes" (0xFF) also the same? bRet = true; } return bRet; } bool SwCompareLine::ChangesInLine( const SwCompareLine& rLine, std::unique_ptr& rpInsRing, std::unique_ptr& rpDelRing ) const { bool bRet = false; // Only compare textnodes if( SwNodeType::Text == m_rNode.GetNodeType() && SwNodeType::Text == rLine.GetNode().GetNodeType() ) { SwTextNode& rDstNd = *const_cast(m_rNode.GetTextNode()); const SwTextNode& rSrcNd = *rLine.GetNode().GetTextNode(); SwDoc* pDstDoc = rDstNd.GetDoc(); int nLcsLen = 0; int nDstLen = rDstNd.GetText().getLength(); int nSrcLen = rSrcNd.GetText().getLength(); int nMinLen = std::min( nDstLen , nSrcLen ); int nAvgLen = ( nDstLen + nSrcLen )/2; std::vector aLcsDst( nMinLen + 1 ); std::vector aLcsSrc( nMinLen + 1 ); if( CmpOptions.eCmpMode == SwCompareMode::ByWord ) { std::vector aTmpLcsDst( nMinLen + 1 ); std::vector aTmpLcsSrc( nMinLen + 1 ); WordArrayComparator aCmp( &rDstNd, &rSrcNd ); LgstCommonSubseq aSeq( aCmp ); nLcsLen = aSeq.Find( aTmpLcsDst.data(), aTmpLcsSrc.data() ); if( CmpOptions.nIgnoreLen ) { nLcsLen = CommonSubseq::IgnoreIsolatedPieces( aTmpLcsDst.data(), aTmpLcsSrc.data(), aCmp.GetLen1(), aCmp.GetLen2(), nLcsLen, CmpOptions.nIgnoreLen ); } nLcsLen = aCmp.GetCharSequence( aTmpLcsDst.data(), aTmpLcsSrc.data(), aLcsDst.data(), aLcsSrc.data(), nLcsLen ); } else { CharArrayComparator aCmp( &rDstNd, &rSrcNd ); LgstCommonSubseq aSeq( aCmp ); nLcsLen = aSeq.Find( aLcsDst.data(), aLcsSrc.data() ); if( CmpOptions.nIgnoreLen ) { nLcsLen = CommonSubseq::IgnoreIsolatedPieces( aLcsDst.data(), aLcsSrc.data(), nDstLen, nSrcLen, nLcsLen, CmpOptions.nIgnoreLen ); } } // find the sum of the squares of the continuous substrings int nSqSum = 0; int nCnt = 1; for( int i = 0; i < nLcsLen; i++ ) { if( i != nLcsLen - 1 && aLcsDst[i] + 1 == aLcsDst[i + 1] && aLcsSrc[i] + 1 == aLcsSrc[i + 1] ) { nCnt++; } else { nSqSum += nCnt*nCnt; nCnt = 1; } } // Don't compare if there aren't enough similarities if ( nAvgLen >= 8 && nSqSum*32 < nAvgLen*nAvgLen ) { return false; } // Show the differences int nSkip = 0; for( int i = 0; i <= nLcsLen; i++ ) { int nDstFrom = i ? (aLcsDst[i - 1] + 1) : 0; int nDstTo = ( i == nLcsLen ) ? nDstLen : aLcsDst[i]; int nSrcFrom = i ? (aLcsSrc[i - 1] + 1) : 0; int nSrcTo = ( i == nLcsLen ) ? nSrcLen : aLcsSrc[i]; SwPaM aPam( rDstNd, nDstTo + nSkip ); if ( nDstFrom < nDstTo ) { SwPaM* pTmp = new SwPaM( *aPam.GetPoint(), rpInsRing.get() ); if( !rpInsRing ) rpInsRing.reset(pTmp); pTmp->SetMark(); pTmp->GetMark()->nContent = nDstFrom + nSkip; } if ( nSrcFrom < nSrcTo ) { bool bUndo = pDstDoc->GetIDocumentUndoRedo().DoesUndo(); pDstDoc->GetIDocumentUndoRedo().DoUndo( false ); SwPaM aCpyPam( rSrcNd, nSrcFrom ); aCpyPam.SetMark(); aCpyPam.GetPoint()->nContent = nSrcTo; aCpyPam.GetDoc()->getIDocumentContentOperations().CopyRange( aCpyPam, *aPam.GetPoint(), SwCopyFlags::CheckPosInFly); pDstDoc->GetIDocumentUndoRedo().DoUndo( bUndo ); SwPaM* pTmp = new SwPaM( *aPam.GetPoint(), rpDelRing.get() ); if( !rpDelRing ) rpDelRing.reset(pTmp); pTmp->SetMark(); pTmp->GetMark()->nContent = nDstTo + nSkip; nSkip += nSrcTo - nSrcFrom; if( rpInsRing ) { SwPaM* pCorr = rpInsRing->GetPrev(); if( *pCorr->GetPoint() == *pTmp->GetPoint() ) *pCorr->GetPoint() = *pTmp->GetMark(); } } } bRet = true; } return bRet; } sal_uLong CompareData::NextIdx( const SwNode* pNd ) { if( pNd->IsStartNode() ) { if( pNd->IsTableNode() ) pNd = pNd->EndOfSectionNode(); else { const SwSectionNode* pSNd = pNd->GetSectionNode(); if( pSNd && ( SectionType::Content != pSNd->GetSection().GetType() || pSNd->GetSection().IsProtect() ) ) pNd = pNd->EndOfSectionNode(); } } return pNd->GetIndex() + 1; } sal_uLong CompareData::PrevIdx( const SwNode* pNd ) { if( pNd->IsEndNode() ) { if( pNd->StartOfSectionNode()->IsTableNode() ) pNd = pNd->StartOfSectionNode(); else { const SwSectionNode* pSNd = pNd->StartOfSectionNode()->GetSectionNode(); if( pSNd && ( SectionType::Content != pSNd->GetSection().GetType() || pSNd->GetSection().IsProtect() ) ) pNd = pNd->StartOfSectionNode(); } } return pNd->GetIndex() - 1; } void CompareData::CheckRanges( CompareData& rData ) { const SwNodes& rSrcNds = rData.m_rDoc.GetNodes(); const SwNodes& rDstNds = m_rDoc.GetNodes(); const SwNode& rSrcEndNd = rData.GetEndOfContent(); const SwNode& rDstEndNd = GetEndOfContent(); sal_uLong nSrcSttIdx = NextIdx( rSrcEndNd.StartOfSectionNode() ); sal_uLong nSrcEndIdx = rSrcEndNd.GetIndex(); sal_uLong nDstSttIdx = NextIdx( rDstEndNd.StartOfSectionNode() ); sal_uLong nDstEndIdx = rDstEndNd.GetIndex(); while( nSrcSttIdx < nSrcEndIdx && nDstSttIdx < nDstEndIdx ) { const SwNode* pSrcNd = rSrcNds[ nSrcSttIdx ]; const SwNode* pDstNd = rDstNds[ nDstSttIdx ]; if( !SwCompareLine::CompareNode( *pSrcNd, *pDstNd )) break; nSrcSttIdx = NextIdx( pSrcNd ); nDstSttIdx = NextIdx( pDstNd ); } nSrcEndIdx = PrevIdx( &rSrcEndNd ); nDstEndIdx = PrevIdx( &rDstEndNd ); while( nSrcSttIdx < nSrcEndIdx && nDstSttIdx < nDstEndIdx ) { const SwNode* pSrcNd = rSrcNds[ nSrcEndIdx ]; const SwNode* pDstNd = rDstNds[ nDstEndIdx ]; if( !SwCompareLine::CompareNode( *pSrcNd, *pDstNd )) break; nSrcEndIdx = PrevIdx( pSrcNd ); nDstEndIdx = PrevIdx( pDstNd ); } while( nSrcSttIdx <= nSrcEndIdx ) { const SwNode* pNd = rSrcNds[ nSrcSttIdx ]; rData.InsertLine( new SwCompareLine( *pNd ) ); nSrcSttIdx = NextIdx( pNd ); } while( nDstSttIdx <= nDstEndIdx ) { const SwNode* pNd = rDstNds[ nDstSttIdx ]; InsertLine( new SwCompareLine( *pNd ) ); nDstSttIdx = NextIdx( pNd ); } } void CompareData::ShowInsert( sal_uLong nStt, sal_uLong nEnd ) { SwPaM* pTmp = new SwPaM( GetLine( nStt )->GetNode(), 0, GetLine( nEnd-1 )->GetEndNode(), 0, m_pInsertRing.get() ); if( !m_pInsertRing ) m_pInsertRing.reset( pTmp ); // #i65201#: These SwPaMs are calculated smaller than needed, see comment below } void CompareData::ShowDelete( const CompareData& rData, sal_uLong nStt, sal_uLong nEnd, sal_uLong nInsPos ) { SwNodeRange aRg( rData.GetLine( nStt )->GetNode(), 0, rData.GetLine( nEnd-1 )->GetEndNode(), 1 ); sal_uInt16 nOffset = 0; const SwCompareLine* pLine = nullptr; if( nInsPos >= 1 ) { if( GetLineCount() == nInsPos ) { pLine = GetLine( nInsPos-1 ); nOffset = 1; } else pLine = GetLine( nInsPos ); } const SwNode* pLineNd; if( pLine ) { if( nOffset ) pLineNd = &pLine->GetEndNode(); else pLineNd = &pLine->GetNode(); } else { pLineNd = &GetEndOfContent(); nOffset = 0; } SwNodeIndex aInsPos( *pLineNd, nOffset ); SwNodeIndex aSavePos( aInsPos, -1 ); rData.m_rDoc.GetDocumentContentOperationsManager().CopyWithFlyInFly(aRg, aInsPos); m_rDoc.getIDocumentState().SetModified(); ++aSavePos; // #i65201#: These SwPaMs are calculated when the (old) delete-redlines are hidden, // they will be inserted when the delete-redlines are shown again. // To avoid unwanted insertions of delete-redlines into these new redlines, what happens // especially at the end of the document, I reduce the SwPaM by one node. // Before the new redlines are inserted, they have to expand again. SwPaM* pTmp = new SwPaM( aSavePos.GetNode(), aInsPos.GetNode(), 0, -1, m_pDelRing.get() ); if( !m_pDelRing ) m_pDelRing.reset(pTmp); if( m_pInsertRing ) { SwPaM* pCorr = m_pInsertRing->GetPrev(); if( *pCorr->GetPoint() == *pTmp->GetPoint() ) { SwNodeIndex aTmpPos( pTmp->GetMark()->nNode, -1 ); *pCorr->GetPoint() = SwPosition( aTmpPos ); } } } void CompareData::CheckForChangesInLine( const CompareData& rData, sal_uLong nStt, sal_uLong nEnd, sal_uLong nThisStt, sal_uLong nThisEnd ) { LineArrayComparator aCmp( *this, rData, nThisStt, nThisEnd, nStt, nEnd ); int nMinLen = std::min( aCmp.GetLen1(), aCmp.GetLen2() ); std::unique_ptr pLcsDst(new int[ nMinLen ]); std::unique_ptr pLcsSrc(new int[ nMinLen ]); FastCommonSubseq subseq( aCmp ); int nLcsLen = subseq.Find( pLcsDst.get(), pLcsSrc.get() ); for (int i = 0; i <= nLcsLen; i++) { // Beginning of inserted lines (inclusive) int nDstFrom = i ? pLcsDst[i - 1] + 1 : 0; // End of inserted lines (exclusive) int nDstTo = ( i == nLcsLen ) ? aCmp.GetLen1() : pLcsDst[i]; // Beginning of deleted lines (inclusive) int nSrcFrom = i ? pLcsSrc[i - 1] + 1 : 0; // End of deleted lines (exclusive) int nSrcTo = ( i == nLcsLen ) ? aCmp.GetLen2() : pLcsSrc[i]; if( i ) { const SwCompareLine* pDstLn = GetLine( nThisStt + nDstFrom - 1 ); const SwCompareLine* pSrcLn = rData.GetLine( nStt + nSrcFrom - 1 ); // Show differences in detail for lines that // were matched as only slightly different if( !pDstLn->ChangesInLine( *pSrcLn, m_pInsertRing, m_pDelRing ) ) { ShowInsert( nThisStt + nDstFrom - 1, nThisStt + nDstFrom ); ShowDelete( rData, nStt + nSrcFrom - 1, nStt + nSrcFrom, nThisStt + nDstFrom ); } } // Lines missing from source are inserted if( nDstFrom != nDstTo ) { ShowInsert( nThisStt + nDstFrom, nThisStt + nDstTo ); } // Lines missing from destination are deleted if( nSrcFrom != nSrcTo ) { ShowDelete( rData, nStt + nSrcFrom, nStt + nSrcTo, nThisStt + nDstTo ); } } } void CompareData::SetRedlinesToDoc( bool bUseDocInfo ) { SwPaM* pTmp = m_pDelRing.get(); // get the Author / TimeStamp from the "other" document info std::size_t nAuthor = m_rDoc.getIDocumentRedlineAccess().GetRedlineAuthor(); DateTime aTimeStamp( DateTime::SYSTEM ); SwDocShell *pDocShell(m_rDoc.GetDocShell()); OSL_ENSURE(pDocShell, "no SwDocShell"); if (pDocShell) { uno::Reference xDPS( pDocShell->GetModel(), uno::UNO_QUERY_THROW); uno::Reference xDocProps( xDPS->getDocumentProperties()); OSL_ENSURE(xDocProps.is(), "Doc has no DocumentProperties"); if( bUseDocInfo && xDocProps.is() ) { OUString aTmp( 1 == xDocProps->getEditingCycles() ? xDocProps->getAuthor() : xDocProps->getModifiedBy() ); util::DateTime uDT( 1 == xDocProps->getEditingCycles() ? xDocProps->getCreationDate() : xDocProps->getModificationDate() ); if( !aTmp.isEmpty() ) { nAuthor = m_rDoc.getIDocumentRedlineAccess().InsertRedlineAuthor( aTmp ); aTimeStamp = DateTime(uDT); } } } if( pTmp ) { SwRedlineData aRedlnData( RedlineType::Delete, nAuthor, aTimeStamp, OUString(), nullptr ); do { // #i65201#: Expand again, see comment above. if( pTmp->GetPoint()->nContent == 0 ) { ++pTmp->GetPoint()->nNode; pTmp->GetPoint()->nContent.Assign( pTmp->GetContentNode(), 0 ); } // #i101009# // prevent redlines that end on structural end node if (& GetEndOfContent() == & pTmp->GetPoint()->nNode.GetNode()) { --pTmp->GetPoint()->nNode; SwContentNode *const pContentNode( pTmp->GetContentNode() ); pTmp->GetPoint()->nContent.Assign( pContentNode, pContentNode ? pContentNode->Len() : 0 ); // tdf#106218 try to avoid losing a paragraph break here: if (pTmp->GetMark()->nContent == 0) { SwNodeIndex const prev(pTmp->GetMark()->nNode, -1); if (prev.GetNode().IsTextNode()) { *pTmp->GetMark() = SwPosition( *prev.GetNode().GetTextNode(), prev.GetNode().GetTextNode()->Len()); } } } m_rDoc.getIDocumentRedlineAccess().DeleteRedline( *pTmp, false, RedlineType::Any ); if (m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::make_unique( *pTmp, false )); } m_rDoc.getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline( aRedlnData, *pTmp ), true ); } while( m_pDelRing.get() != ( pTmp = pTmp->GetNext()) ); } pTmp = m_pInsertRing.get(); if( pTmp ) { do { if( pTmp->GetPoint()->nContent == 0 ) { ++pTmp->GetPoint()->nNode; pTmp->GetPoint()->nContent.Assign( pTmp->GetContentNode(), 0 ); } // #i101009# // prevent redlines that end on structural end node if (& GetEndOfContent() == & pTmp->GetPoint()->nNode.GetNode()) { --pTmp->GetPoint()->nNode; SwContentNode *const pContentNode( pTmp->GetContentNode() ); pTmp->GetPoint()->nContent.Assign( pContentNode, pContentNode ? pContentNode->Len() : 0 ); // tdf#106218 try to avoid losing a paragraph break here: if (pTmp->GetMark()->nContent == 0) { SwNodeIndex const prev(pTmp->GetMark()->nNode, -1); if (prev.GetNode().IsTextNode()) { *pTmp->GetMark() = SwPosition( *prev.GetNode().GetTextNode(), prev.GetNode().GetTextNode()->Len()); } } } } while( m_pInsertRing.get() != ( pTmp = pTmp->GetNext()) ); SwRedlineData aRedlnData( RedlineType::Insert, nAuthor, aTimeStamp, OUString(), nullptr ); // combine consecutive if( pTmp->GetNext() != m_pInsertRing.get() ) { do { SwPosition& rSttEnd = *pTmp->End(), & rEndStt = *pTmp->GetNext()->Start(); const SwContentNode* pCNd; if( rSttEnd == rEndStt || (!rEndStt.nContent.GetIndex() && rEndStt.nNode.GetIndex() - 1 == rSttEnd.nNode.GetIndex() && nullptr != ( pCNd = rSttEnd.nNode.GetNode().GetContentNode() ) && rSttEnd.nContent.GetIndex() == pCNd->Len())) { if( pTmp->GetNext() == m_pInsertRing.get() ) { // are consecutive, so combine rEndStt = *pTmp->Start(); delete pTmp; pTmp = m_pInsertRing.get(); } else { // are consecutive, so combine rSttEnd = *pTmp->GetNext()->End(); delete pTmp->GetNext(); } } else pTmp = pTmp->GetNext(); } while( m_pInsertRing.get() != pTmp ); } do { if (IDocumentRedlineAccess::AppendResult::APPENDED == m_rDoc.getIDocumentRedlineAccess().AppendRedline( new SwRangeRedline(aRedlnData, *pTmp), true) && m_rDoc.GetIDocumentUndoRedo().DoesUndo()) { m_rDoc.GetIDocumentUndoRedo().AppendUndo( std::make_unique( *pTmp, true )); } } while( m_pInsertRing.get() != ( pTmp = pTmp->GetNext()) ); } } typedef std::shared_ptr CompareDataPtr; typedef std::pair CompareDataPtrPair; typedef std::vector Comparators; namespace { Comparators buildComparators(SwDoc &rSrcDoc, SwDoc &rDestDoc) { Comparators aComparisons; //compare main text aComparisons.emplace_back(std::make_shared(rSrcDoc, true), std::make_shared(rDestDoc, true)); //if we have the same number of frames then try to compare within them const SwFrameFormats *pSrcFrameFormats = rSrcDoc.GetSpzFrameFormats(); const SwFrameFormats *pDestFrameFormats = rDestDoc.GetSpzFrameFormats(); if (pSrcFrameFormats->size() == pDestFrameFormats->size()) { for (size_t i = 0; i < pSrcFrameFormats->size(); ++i) { const SwFrameFormat& rSrcFormat = *(*pSrcFrameFormats)[i]; const SwFrameFormat& rDestFormat = *(*pDestFrameFormats)[i]; const SwNodeIndex* pSrcIdx = rSrcFormat.GetContent().GetContentIdx(); const SwNodeIndex* pDestIdx = rDestFormat.GetContent().GetContentIdx(); if (!pSrcIdx && !pDestIdx) continue; if (!pSrcIdx || !pDestIdx) break; const SwNode* pSrcNode = pSrcIdx->GetNode().EndOfSectionNode(); const SwNode* pDestNode = pDestIdx->GetNode().EndOfSectionNode(); if (!pSrcNode && !pDestNode) continue; if (!pSrcNode || !pDestNode) break; if (pSrcIdx->GetNodes()[pSrcIdx->GetIndex() + 1]->IsNoTextNode() || pDestIdx->GetNodes()[pDestIdx->GetIndex() + 1]->IsNoTextNode()) { continue; // tdf#125660 don't redline GrfNode/OLENode } aComparisons.emplace_back(std::make_shared(rSrcDoc, *pSrcIdx), std::make_shared(rDestDoc, *pDestIdx)); } } return aComparisons; } } // Returns (the difference count?) if something is different long SwDoc::CompareDoc( const SwDoc& rDoc ) { if( &rDoc == this ) return 0; long nRet = 0; // Get comparison options CmpOptions.eCmpMode = SW_MOD()->GetCompareMode(); if( CmpOptions.eCmpMode == SwCompareMode::Auto ) { if( getRsidRoot() == rDoc.getRsidRoot() ) { CmpOptions.eCmpMode = SwCompareMode::ByChar; CmpOptions.bUseRsid = true; CmpOptions.nIgnoreLen = 2; } else { CmpOptions.eCmpMode = SwCompareMode::ByWord; CmpOptions.bUseRsid = false; CmpOptions.nIgnoreLen = 3; } } else { CmpOptions.bUseRsid = getRsidRoot() == rDoc.getRsidRoot() && SW_MOD()->IsUseRsid(); CmpOptions.nIgnoreLen = SW_MOD()->IsIgnorePieces() ? SW_MOD()->GetPieceLen() : 0; } GetIDocumentUndoRedo().StartUndo(SwUndoId::EMPTY, nullptr); bool bDocWasModified = getIDocumentState().IsModified(); SwDoc& rSrcDoc = const_cast(rDoc); bool bSrcModified = rSrcDoc.getIDocumentState().IsModified(); RedlineFlags eSrcRedlMode = rSrcDoc.getIDocumentRedlineAccess().GetRedlineFlags(); rSrcDoc.getIDocumentRedlineAccess().SetRedlineFlags( RedlineFlags::ShowInsert ); getIDocumentRedlineAccess().SetRedlineFlags(RedlineFlags::On | RedlineFlags::ShowInsert); Comparators aComparisons(buildComparators(rSrcDoc, *this)); for (auto& a : aComparisons) { CompareData& rD0 = *a.first; CompareData& rD1 = *a.second; rD1.CompareLines( rD0 ); nRet |= rD1.ShowDiffs( rD0 ); } if( nRet ) { getIDocumentRedlineAccess().SetRedlineFlags(RedlineFlags::On | RedlineFlags::ShowInsert | RedlineFlags::ShowDelete); for (auto& a : aComparisons) { CompareData& rD1 = *a.second; rD1.SetRedlinesToDoc( !bDocWasModified ); } getIDocumentState().SetModified(); } rSrcDoc.getIDocumentRedlineAccess().SetRedlineFlags( eSrcRedlMode ); getIDocumentRedlineAccess().SetRedlineFlags(RedlineFlags::ShowInsert | RedlineFlags::ShowDelete); if( !bSrcModified ) rSrcDoc.getIDocumentState().ResetModified(); GetIDocumentUndoRedo().EndUndo(SwUndoId::EMPTY, nullptr); return nRet; } namespace { struct SaveMergeRedline { const SwRangeRedline* pSrcRedl; SwRangeRedline* pDestRedl; SaveMergeRedline( const SwNode& rDstNd, const SwRangeRedline& rSrcRedl); sal_uInt16 InsertRedline(SwPaM* pLastDestRedline); }; } SaveMergeRedline::SaveMergeRedline( const SwNode& rDstNd, const SwRangeRedline& rSrcRedl) : pSrcRedl( &rSrcRedl ) { SwPosition aPos( rDstNd ); const SwPosition* pStt = rSrcRedl.Start(); if( rDstNd.IsContentNode() ) aPos.nContent.Assign( const_cast(static_cast(&rDstNd)), pStt->nContent.GetIndex() ); pDestRedl = new SwRangeRedline( rSrcRedl.GetRedlineData(), aPos ); if( RedlineType::Delete == pDestRedl->GetType() ) { // mark the area as deleted const SwPosition* pEnd = pStt == rSrcRedl.GetPoint() ? rSrcRedl.GetMark() : rSrcRedl.GetPoint(); pDestRedl->SetMark(); pDestRedl->GetPoint()->nNode += pEnd->nNode.GetIndex() - pStt->nNode.GetIndex(); pDestRedl->GetPoint()->nContent.Assign( pDestRedl->GetContentNode(), pEnd->nContent.GetIndex() ); } } sal_uInt16 SaveMergeRedline::InsertRedline(SwPaM* pLastDestRedline) { sal_uInt16 nIns = 0; SwDoc* pDoc = pDestRedl->GetDoc(); if( RedlineType::Insert == pDestRedl->GetType() ) { // the part was inserted so copy it from the SourceDoc ::sw::UndoGuard const undoGuard(pDoc->GetIDocumentUndoRedo()); SwNodeIndex aSaveNd( pDestRedl->GetPoint()->nNode, -1 ); const sal_Int32 nSaveCnt = pDestRedl->GetPoint()->nContent.GetIndex(); RedlineFlags eOld = pDoc->getIDocumentRedlineAccess().GetRedlineFlags(); pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern(eOld | RedlineFlags::Ignore); pSrcRedl->GetDoc()->getIDocumentContentOperations().CopyRange( *const_cast(static_cast(pSrcRedl)), *pDestRedl->GetPoint(), SwCopyFlags::CheckPosInFly); pDoc->getIDocumentRedlineAccess().SetRedlineFlags_intern( eOld ); pDestRedl->SetMark(); ++aSaveNd; pDestRedl->GetMark()->nNode = aSaveNd; pDestRedl->GetMark()->nContent.Assign( aSaveNd.GetNode().GetContentNode(), nSaveCnt ); if( pLastDestRedline && *pLastDestRedline->GetPoint() == *pDestRedl->GetPoint() ) *pLastDestRedline->GetPoint() = *pDestRedl->GetMark(); } else { //JP 21.09.98: Bug 55909 // If there already is a deleted or inserted one at the same position, we have to split it! SwPosition* pDStt = pDestRedl->GetMark(), * pDEnd = pDestRedl->GetPoint(); SwRedlineTable::size_type n = 0; // find the first redline for StartPos if( !pDoc->getIDocumentRedlineAccess().GetRedline( *pDStt, &n ) && n ) --n; const SwRedlineTable& rRedlineTable = pDoc->getIDocumentRedlineAccess().GetRedlineTable(); for( ; n < rRedlineTable.size(); ++n ) { SwRangeRedline* pRedl = rRedlineTable[ n ]; SwPosition* pRStt = pRedl->Start(), * pREnd = pRStt == pRedl->GetPoint() ? pRedl->GetMark() : pRedl->GetPoint(); if( RedlineType::Delete == pRedl->GetType() || RedlineType::Insert == pRedl->GetType() ) { SwComparePosition eCmpPos = ComparePosition( *pDStt, *pDEnd, *pRStt, *pREnd ); switch( eCmpPos ) { case SwComparePosition::CollideStart: case SwComparePosition::Behind: break; case SwComparePosition::Inside: case SwComparePosition::Equal: delete pDestRedl; pDestRedl = nullptr; [[fallthrough]]; case SwComparePosition::CollideEnd: case SwComparePosition::Before: n = rRedlineTable.size(); break; case SwComparePosition::Outside: assert(pDestRedl && "is this actually impossible"); if (pDestRedl) { SwRangeRedline* pCpyRedl = new SwRangeRedline( pDestRedl->GetRedlineData(), *pDStt ); pCpyRedl->SetMark(); *pCpyRedl->GetPoint() = *pRStt; std::unique_ptr pUndo; if (pDoc->GetIDocumentUndoRedo().DoesUndo()) pUndo.reset(new SwUndoCompDoc( *pCpyRedl )); // now modify doc: append redline, undo (and count) pDoc->getIDocumentRedlineAccess().AppendRedline( pCpyRedl, true ); if( pUndo ) { pDoc->GetIDocumentUndoRedo().AppendUndo(std::move(pUndo)); } ++nIns; *pDStt = *pREnd; // we should start over now n = SwRedlineTable::npos; } break; case SwComparePosition::OverlapBefore: *pDEnd = *pRStt; break; case SwComparePosition::OverlapBehind: *pDStt = *pREnd; break; } } else if( *pDEnd <= *pRStt ) break; } } if( pDestRedl ) { std::unique_ptr pUndo; if (pDoc->GetIDocumentUndoRedo().DoesUndo()) pUndo.reset(new SwUndoCompDoc( *pDestRedl )); // now modify doc: append redline, undo (and count) IDocumentRedlineAccess::AppendResult const result( pDoc->getIDocumentRedlineAccess().AppendRedline(pDestRedl, true)); if( pUndo ) { pDoc->GetIDocumentUndoRedo().AppendUndo( std::move(pUndo) ); } ++nIns; // if AppendRedline has deleted our redline, we may not keep a // reference to it if (IDocumentRedlineAccess::AppendResult::APPENDED != result) pDestRedl = nullptr; } return nIns; } /// Merge two documents long SwDoc::MergeDoc( const SwDoc& rDoc ) { if( &rDoc == this ) return 0; long nRet = 0; GetIDocumentUndoRedo().StartUndo(SwUndoId::EMPTY, nullptr); SwDoc& rSrcDoc = const_cast(rDoc); bool bSrcModified = rSrcDoc.getIDocumentState().IsModified(); RedlineFlags eSrcRedlMode = rSrcDoc.getIDocumentRedlineAccess().GetRedlineFlags(); rSrcDoc.getIDocumentRedlineAccess().SetRedlineFlags( RedlineFlags::ShowDelete ); getIDocumentRedlineAccess().SetRedlineFlags( RedlineFlags::ShowDelete ); CompareMainText aD0(rSrcDoc, false); CompareMainText aD1(*this, false); aD1.CompareLines( aD0 ); if( !aD1.HasDiffs( aD0 ) ) { // we want to get all redlines from the SourceDoc // look for all insert redlines from the SourceDoc and determine their position in the DestDoc std::vector vRedlines; const SwRedlineTable& rSrcRedlTable = rSrcDoc.getIDocumentRedlineAccess().GetRedlineTable(); sal_uLong nEndOfExtra = rSrcDoc.GetNodes().GetEndOfExtras().GetIndex(); sal_uLong nMyEndOfExtra = GetNodes().GetEndOfExtras().GetIndex(); for(const SwRangeRedline* pRedl : rSrcRedlTable) { sal_uLong nNd = pRedl->GetPoint()->nNode.GetIndex(); RedlineType eType = pRedl->GetType(); if( nEndOfExtra < nNd && ( RedlineType::Insert == eType || RedlineType::Delete == eType )) { const SwNode* pDstNd = GetNodes()[ nMyEndOfExtra + nNd - nEndOfExtra ]; // Found the position. // Then we also have to insert the redline to the line in the DestDoc. vRedlines.emplace_back(*pDstNd, *pRedl); } } if( !vRedlines.empty() ) { // Carry over all into DestDoc rSrcDoc.getIDocumentRedlineAccess().SetRedlineFlags(RedlineFlags::ShowInsert | RedlineFlags::ShowDelete); getIDocumentRedlineAccess().SetRedlineFlags( RedlineFlags::On | RedlineFlags::ShowInsert | RedlineFlags::ShowDelete); SwPaM* pLastDestRedline(nullptr); for(SaveMergeRedline& rRedline: vRedlines) { nRet += rRedline.InsertRedline(pLastDestRedline); pLastDestRedline = rRedline.pDestRedl; } } } rSrcDoc.getIDocumentRedlineAccess().SetRedlineFlags( eSrcRedlMode ); if( !bSrcModified ) rSrcDoc.getIDocumentState().ResetModified(); getIDocumentRedlineAccess().SetRedlineFlags(RedlineFlags::ShowInsert | RedlineFlags::ShowDelete); GetIDocumentUndoRedo().EndUndo(SwUndoId::EMPTY, nullptr); return nRet; } LineArrayComparator::LineArrayComparator( const CompareData &rD1, const CompareData &rD2, int nStt1, int nEnd1, int nStt2, int nEnd2 ) : m_rData1( rD1 ), m_rData2( rD2 ), m_nFirst1( nStt1 ), m_nFirst2( nStt2 ) { m_nLen1 = nEnd1 - nStt1; m_nLen2 = nEnd2 - nStt2; } bool LineArrayComparator::Compare( int nIdx1, int nIdx2 ) const { if( nIdx1 < 0 || nIdx2 < 0 || nIdx1 >= m_nLen1 || nIdx2 >= m_nLen2 ) { OSL_ENSURE( false, "Index out of range!" ); return false; } const SwTextNode *pTextNd1 = m_rData1.GetLine( m_nFirst1 + nIdx1 )->GetNode().GetTextNode(); const SwTextNode *pTextNd2 = m_rData2.GetLine( m_nFirst2 + nIdx2 )->GetNode().GetTextNode(); if( !pTextNd1 || !pTextNd2 || ( CmpOptions.bUseRsid && !pTextNd1->CompareParRsid( *pTextNd2 ) ) ) { return false; } const sal_Int32 nPar1Len = pTextNd1->Len(); const sal_Int32 nPar2Len = pTextNd2->Len(); if( std::min( nPar1Len, nPar2Len ) * 3 < std::max( nPar1Len, nPar2Len ) ) { return false; } sal_Int32 nBorderLen = ( nPar1Len + nPar2Len )/16; if( nBorderLen < 3 ) { nBorderLen = std::min( 3, std::min( nPar1Len, nPar2Len ) ); } std::set aHashes; unsigned nHash = 0; unsigned nMul = 251; unsigned nPow = 1; sal_Int32 i; for( i = 0; i < nBorderLen - 1; i++ ) { nPow *= nMul; } for( i = 0; i < nBorderLen; i++ ) { nHash = nHash*nMul + pTextNd1->GetText()[i]; } aHashes.insert( nHash ); for( ; i < nPar1Len; i++ ) { nHash = nHash - nPow*pTextNd1->GetText()[ i - nBorderLen ]; nHash = nHash*nMul + pTextNd1->GetText()[ i ]; aHashes.insert( nHash ); } nHash = 0; for( i = 0; i < nBorderLen; i++ ) { nHash = nHash*nMul + pTextNd2->GetText()[ i ]; } if( aHashes.find( nHash ) != aHashes.end() ) { return true; } for( ; i < nPar2Len; i++ ) { nHash = nHash - nPow*pTextNd2->GetText()[ i - nBorderLen ]; nHash = nHash*nMul + pTextNd2->GetText()[ i ]; if( aHashes.find( nHash ) != aHashes.end() ) { return true; } } return false; } bool CharArrayComparator::Compare( int nIdx1, int nIdx2 ) const { if( nIdx1 < 0 || nIdx2 < 0 || nIdx1 >= GetLen1() || nIdx2 >= GetLen2() ) { OSL_ENSURE( false, "Index out of range!" ); return false; } return ( !CmpOptions.bUseRsid || m_pTextNode1->CompareRsid( *m_pTextNode2, nIdx1 + 1, nIdx2 + 1 ) ) && m_pTextNode1->GetText()[ nIdx1 ] == m_pTextNode2->GetText()[ nIdx2 ]; } WordArrayComparator::WordArrayComparator( const SwTextNode *pNode1, const SwTextNode *pNode2 ) : m_pTextNode1( pNode1 ), m_pTextNode2( pNode2 ) { m_pPos1.reset( new int[ m_pTextNode1->GetText().getLength() + 1 ] ); m_pPos2.reset( new int[ m_pTextNode2->GetText().getLength() + 1 ] ); CalcPositions( m_pPos1.get(), m_pTextNode1, m_nCount1 ); CalcPositions( m_pPos2.get(), m_pTextNode2, m_nCount2 ); } bool WordArrayComparator::Compare( int nIdx1, int nIdx2 ) const { int nLen = m_pPos1[ nIdx1 + 1 ] - m_pPos1[ nIdx1 ]; if( nLen != m_pPos2[ nIdx2 + 1 ] - m_pPos2[ nIdx2 ] ) { return false; } for( int i = 0; i < nLen; i++) { if( m_pTextNode1->GetText()[ m_pPos1[ nIdx1 ] + i ] != m_pTextNode2->GetText()[ m_pPos2[ nIdx2 ] + i ] || ( CmpOptions.bUseRsid && !m_pTextNode1->CompareRsid( *m_pTextNode2, m_pPos1[ nIdx1 ] + i, m_pPos2[ nIdx2 ] + i ) ) ) { return false; } } return true; } int WordArrayComparator::GetCharSequence( const int *pWordLcs1, const int *pWordLcs2, int *pSubseq1, int *pSubseq2, int nLcsLen ) { int nLen = 0; for( int i = 0; i < nLcsLen; i++ ) { // Check for hash collisions if( m_pPos1[ pWordLcs1[i] + 1 ] - m_pPos1[ pWordLcs1[i] ] != m_pPos2[ pWordLcs2[i] + 1 ] - m_pPos2[ pWordLcs2[i] ] ) { continue; } for( int j = 0; j < m_pPos1[pWordLcs1[i]+1] - m_pPos1[pWordLcs1[i]]; j++) { pSubseq1[ nLen ] = m_pPos1[ pWordLcs1[i] ] + j; pSubseq2[ nLen ] = m_pPos2[ pWordLcs2[i] ] + j; if( m_pTextNode1->GetText()[ m_pPos1[ pWordLcs1[i] ] + j ] != m_pTextNode2->GetText()[ m_pPos2[ pWordLcs2[i] ] + j ] ) { nLen -= j; break; } nLen++; } } return nLen; } void WordArrayComparator::CalcPositions( int *pPos, const SwTextNode *pTextNd, int &nCnt ) { nCnt = -1; for (int i = 0; i <= pTextNd->GetText().getLength(); ++i) { if (i == 0 || i == pTextNd->GetText().getLength() || !rtl::isAsciiAlphanumeric( pTextNd->GetText()[ i - 1 ]) || !rtl::isAsciiAlphanumeric( pTextNd->GetText()[ i ])) { // Begin new word nCnt++; pPos[ nCnt ] = i; } } } int CommonSubseq::FindLCS( int *pLcs1, int *pLcs2, int nStt1, int nEnd1, int nStt2, int nEnd2 ) { int nLen1 = nEnd1 ? nEnd1 - nStt1 : m_rComparator.GetLen1(); int nLen2 = nEnd2 ? nEnd2 - nStt2 : m_rComparator.GetLen2(); assert( nLen1 >= 0 ); assert( nLen2 >= 0 ); std::unique_ptr pLcs( new int*[ nLen1 + 1 ] ); pLcs[ 0 ] = m_pData.get(); for( int i = 1; i < nLen1 + 1; i++ ) pLcs[ i ] = pLcs[ i - 1 ] + nLen2 + 1; for( int i = 0; i <= nLen1; i++ ) pLcs[i][0] = 0; for( int j = 0; j <= nLen2; j++ ) pLcs[0][j] = 0; // Find lcs for( int i = 1; i <= nLen1; i++ ) { for( int j = 1; j <= nLen2; j++ ) { if( m_rComparator.Compare( nStt1 + i - 1, nStt2 + j - 1 ) ) pLcs[i][j] = pLcs[i - 1][j - 1] + 1; else pLcs[i][j] = std::max( pLcs[i][j - 1], pLcs[i - 1][j] ); } } int nLcsLen = pLcs[ nLen1 ][ nLen2 ]; // Recover the lcs in the two sequences if( pLcs1 && pLcs2 ) { int nIdx1 = nLen1; int nIdx2 = nLen2; int nIdx = nLcsLen - 1; while( nIdx1 > 0 && nIdx2 > 0 ) { if( pLcs[ nIdx1 ][ nIdx2 ] == pLcs[ nIdx1 - 1 ][ nIdx2 ] ) nIdx1--; else if( pLcs[ nIdx1 ][ nIdx2 ] == pLcs[ nIdx1 ][ nIdx2 - 1 ] ) nIdx2--; else { nIdx1--; nIdx2--; pLcs1[ nIdx ] = nIdx1 + nStt1; pLcs2[ nIdx ] = nIdx2 + nStt2; nIdx--; } } } return nLcsLen; } int CommonSubseq::IgnoreIsolatedPieces( int *pLcs1, int *pLcs2, int nLen1, int nLen2, int nLcsLen, int nPieceLen ) { if( !nLcsLen ) { return 0; } int nNext = 0; // Don't ignore text at the beginning of the paragraphs if( pLcs1[ 0 ] == 0 && pLcs2[ 0 ] == 0 ) { while( nNext < nLcsLen - 1 && pLcs1[ nNext ] + 1 == pLcs1[ nNext + 1 ] && pLcs2[ nNext ] + 1 == pLcs2[ nNext + 1 ] ) { nNext++; } nNext++; } int nCnt = 1; for( int i = nNext; i < nLcsLen; i++ ) { if( i != nLcsLen - 1 && pLcs1[ i ] + 1 == pLcs1[ i + 1 ] && pLcs2[ i ] + 1 == pLcs2[ i + 1 ] ) { nCnt++; } else { if( nCnt > nPieceLen // Don't ignore text at the end of the paragraphs || ( i == nLcsLen - 1 && pLcs1[i] == nLen1 - 1 && pLcs2[i] == nLen2 - 1 )) { for( int j = i + 1 - nCnt; j <= i; j++ ) { pLcs2[ nNext ] = pLcs2[ j ]; pLcs1[ nNext ] = pLcs1[ j ]; nNext++; } } nCnt = 1; } } return nNext; } LgstCommonSubseq::LgstCommonSubseq( ArrayComparator &rComparator ) : CommonSubseq( rComparator, CUTOFF ) { m_pBuff1.reset( new int[ rComparator.GetLen2() + 1 ] ); m_pBuff2.reset( new int[ rComparator.GetLen2() + 1 ] ); m_pL1.reset( new int[ rComparator.GetLen2() + 1 ] ); m_pL2.reset( new int[ rComparator.GetLen2() + 1 ] ); } void LgstCommonSubseq::FindL( int *pL, int nStt1, int nEnd1, int nStt2, int nEnd2 ) { int nLen1 = nEnd1 ? nEnd1 - nStt1 : m_rComparator.GetLen1(); int nLen2 = nEnd2 ? nEnd2 - nStt2 : m_rComparator.GetLen2(); int *currL = m_pBuff1.get(); int *prevL = m_pBuff2.get(); // Avoid memory corruption if( nLen2 > m_rComparator.GetLen2() ) { assert( false ); return; } memset( m_pBuff1.get(), 0, sizeof( m_pBuff1[0] ) * ( nLen2 + 1 ) ); memset( m_pBuff2.get(), 0, sizeof( m_pBuff2[0] ) * ( nLen2 + 1 ) ); // Find lcs for( int i = 1; i <= nLen1; i++ ) { for( int j = 1; j <= nLen2; j++ ) { if( m_rComparator.Compare( nStt1 + i - 1, nStt2 + j - 1 ) ) currL[j] = prevL[j - 1] + 1; else currL[j] = std::max( currL[j - 1], prevL[j] ); } int *tmp = currL; currL = prevL; prevL = tmp; } memcpy( pL, prevL, ( nLen2 + 1 ) * sizeof( *prevL ) ); } int LgstCommonSubseq::HirschbergLCS( int *pLcs1, int *pLcs2, int nStt1, int nEnd1, int nStt2, int nEnd2 ) { static int nLen1; static int nLen2; nLen1 = nEnd1 - nStt1; nLen2 = nEnd2 - nStt2; if( ( nLen1 + 1 ) * ( nLen2 + 1 ) <= CUTOFF ) { if( !nLen1 || !nLen2 ) { return 0; } return FindLCS(pLcs1, pLcs2, nStt1, nEnd1, nStt2, nEnd2); } int nMid = nLen1/2; FindL( m_pL1.get(), nStt1, nStt1 + nMid, nStt2, nEnd2 ); FindL( m_pL2.get(), nStt1 + nMid, nEnd1, nStt2, nEnd2 ); int nMaxPos = 0; static int nMaxVal; nMaxVal = -1; static int i; for( i = 0; i <= nLen2; i++ ) { if( m_pL1[i] + ( m_pL2[nLen2] - m_pL2[i] ) > nMaxVal ) { nMaxPos = i; nMaxVal = m_pL1[i]+( m_pL2[nLen2] - m_pL2[i] ); } } int nRet = HirschbergLCS( pLcs1, pLcs2, nStt1, nStt1 + nMid, nStt2, nStt2 + nMaxPos ); nRet += HirschbergLCS( pLcs1 + nRet, pLcs2 + nRet, nStt1 + nMid, nEnd1, nStt2 + nMaxPos, nEnd2 ); return nRet; } int LgstCommonSubseq::Find( int *pSubseq1, int *pSubseq2 ) { int nStt = 0; int nCutEnd = 0; int nEnd1 = m_rComparator.GetLen1(); int nEnd2 = m_rComparator.GetLen2(); // Check for corresponding lines in the beginning of the sequences while( nStt < nEnd1 && nStt < nEnd2 && m_rComparator.Compare( nStt, nStt ) ) { pSubseq1[ nStt ] = nStt; pSubseq2[ nStt ] = nStt; nStt++; } pSubseq1 += nStt; pSubseq2 += nStt; // Check for corresponding lines in the end of the sequences while( nStt < nEnd1 && nStt < nEnd2 && m_rComparator.Compare( nEnd1 - 1, nEnd2 - 1 ) ) { nCutEnd++; nEnd1--; nEnd2--; } int nLen = HirschbergLCS( pSubseq1, pSubseq2, nStt, nEnd1, nStt, nEnd2 ); for( int i = 0; i < nCutEnd; i++ ) { pSubseq1[ nLen + i ] = nEnd1 + i; pSubseq2[ nLen + i ] = nEnd2 + i; } return nStt + nLen + nCutEnd; } int FastCommonSubseq::FindFastCS( int *pSeq1, int *pSeq2, int nStt1, int nEnd1, int nStt2, int nEnd2 ) { int nCutBeg = 0; int nCutEnd = 0; // Check for corresponding lines in the beginning of the sequences while( nStt1 < nEnd1 && nStt2 < nEnd2 && m_rComparator.Compare( nStt1, nStt2 ) ) { pSeq1[ nCutBeg ] = nStt1++; pSeq2[ nCutBeg ] = nStt2++; nCutBeg++; } pSeq1 += nCutBeg; pSeq2 += nCutBeg; // Check for corresponding lines in the end of the sequences while( nStt1 < nEnd1 && nStt2 < nEnd2 && m_rComparator.Compare( nEnd1 - 1, nEnd2 - 1 ) ) { nCutEnd++; nEnd1--; nEnd2--; } int nLen1 = nEnd1 - nStt1; int nLen2 = nEnd2 - nStt2; // Return if a sequence is empty if( nLen1 <= 0 || nLen2 <= 0 ) { for( int i = 0; i < nCutEnd; i++ ) { pSeq1[ i ] = nEnd1 + i; pSeq2[ i ] = nEnd2 + i; } return nCutBeg + nCutEnd; } // Cut to LCS for small values if( nLen1 < 3 || nLen2 < 3 || ( nLen1 + 1 ) * ( nLen2 + 1 ) <= CUTOFF ) { int nLcsLen = FindLCS( pSeq1, pSeq2, nStt1, nEnd1, nStt2, nEnd2); for( int i = 0; i < nCutEnd; i++ ) { pSeq1[ nLcsLen + i ] = nEnd1 + i; pSeq2[ nLcsLen + i ] = nEnd2 + i; } return nCutBeg + nLcsLen + nCutEnd; } int nMid1 = nLen1/2; int nMid2 = nLen2/2; int nRad; int nPos1 = -1, nPos2 = -1; // Find a point of correspondence in the middle of the sequences for( nRad = 0; nRad*nRad < std::min( nMid1, nMid2 ); nRad++ ) { // Search to the left and to the right of the middle of the first sequence for( int i = nMid1 - nRad; i <= nMid1 + nRad; i++ ) { if( m_rComparator.Compare( nStt1 + i, nStt2 + nMid2 - nRad ) ) { nPos1 = nStt1 + i; nPos2 = nStt2 + nMid2 - nRad; break; } if( m_rComparator.Compare( nStt1 + i, nStt2 + nMid2 + nRad ) ) { nPos1 = nStt1 + i; nPos2 = nStt2 + nMid2 - nRad; break; } } // Search to the left and to the right of the middle of the second sequence for( int i = nMid2 - nRad; i <= nMid2 + nRad; i++ ) { if( m_rComparator.Compare( nStt2 + nMid2 - nRad, nStt2 + i ) ) { nPos2 = nStt2 + i; nPos1 = nStt1 + nMid1 - nRad; break; } if( m_rComparator.Compare( nStt2 + nMid2 - nRad, nStt2 + i ) ) { nPos2 = nStt2 + i; nPos1 = nStt1 + nMid1 - nRad; break; } } } // return if no point of correspondence found if( nPos1 == -1 ) { for( int i = 0; i < nCutEnd; i++ ) { pSeq1[ i ] = nEnd1 + i; pSeq2[ i ] = nEnd2 + i; } return nCutBeg + nCutEnd; } // Run the same on the sequences to the left of the correspondence point int nLen = FindFastCS( pSeq1, pSeq2, nStt1, nPos1, nStt2, nPos2 ); pSeq1[ nLen ] = nPos1; pSeq2[ nLen ] = nPos2; // Run the same on the sequences to the right of the correspondence point nLen += FindFastCS( pSeq1 + nLen + 1, pSeq2 + nLen + 1, nPos1 + 1, nEnd1, nPos2 + 1, nEnd2 ) + 1; for( int i = 0; i < nCutEnd; i++ ) { pSeq1[ nLen + i ] = nEnd1 + i; pSeq2[ nLen + i ] = nEnd2 + i; } return nLen + nCutBeg + nCutEnd; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */