/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
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* 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 .
*/
#ifndef INCLUDED_SW_INC_DOCARY_HXX
#define INCLUDED_SW_INC_DOCARY_HXX
#include <vector>
#include <type_traits>
#include <o3tl/sorted_vector.hxx>
#include "fmtcol.hxx"
#include "frmfmt.hxx"
#include "section.hxx"
#include "tox.hxx"
#include "numrule.hxx"
#include "fldbas.hxx"
class SwRangeRedline;
class SwExtraRedline;
class SwOLENode;
class SwTable;
class SwTableLine;
class SwTableBox;
struct SwPosition;
enum class RedlineType : sal_uInt16;
/** provides some methods for generic operations on lists that contain SwFormat* subclasses. */
class SW_DLLPUBLIC SwFormatsBase
{
public:
virtual size_t GetFormatCount() const = 0;
virtual SwFormat* GetFormat(size_t idx) const = 0;
virtual ~SwFormatsBase();
// default linear search implementation, some subclasses will override with a more efficient search
virtual SwFormat* FindFormatByName(const OUString& rName) const;
SwFormatsBase() = default;
SwFormatsBase(SwFormatsBase const &) = default;
SwFormatsBase(SwFormatsBase &&) = default;
SwFormatsBase & operator =(SwFormatsBase const &) = default;
SwFormatsBase & operator =(SwFormatsBase &&) = default;
};
template<typename Value>
class SwVectorModifyBase
{
public:
typedef typename std::vector<Value>::iterator iterator;
typedef typename std::vector<Value>::const_iterator const_iterator;
typedef typename std::vector<Value>::size_type size_type;
typedef typename std::vector<Value>::value_type value_type;
protected:
enum class DestructorPolicy {
KeepElements,
FreeElements,
};
private:
typename std::vector<Value> mvVals;
const DestructorPolicy mPolicy;
protected:
// default destructor deletes all contained elements
SwVectorModifyBase(DestructorPolicy policy = DestructorPolicy::FreeElements)
: mPolicy(policy) {}
public:
bool empty() const { return mvVals.empty(); }
Value const& front() const { return mvVals.front(); }
size_t size() const { return mvVals.size(); }
iterator begin() { return mvVals.begin(); }
const_iterator begin() const { return mvVals.begin(); }
iterator end() { return mvVals.end(); }
const_iterator end() const { return mvVals.end(); }
void clear() { mvVals.clear(); }
iterator erase(iterator aIt) { return mvVals.erase(aIt); }
iterator erase(iterator aFirst, iterator aLast) { return mvVals.erase(aFirst, aLast); }
iterator insert(iterator aIt, Value const& rVal) { return mvVals.insert(aIt, rVal); }
template<typename TInputIterator>
void insert(iterator aIt, TInputIterator aFirst, TInputIterator aLast)
{
mvVals.insert(aIt, aFirst, aLast);
}
void push_back(Value const& rVal) { mvVals.push_back(rVal); }
void reserve(size_type nSize) { mvVals.reserve(nSize); }
Value const& at(size_type nPos) const { return mvVals.at(nPos); }
Value const& operator[](size_type nPos) const { return mvVals[nPos]; }
Value& operator[](size_type nPos) { return mvVals[nPos]; }
// free any remaining child objects based on mPolicy
virtual ~SwVectorModifyBase()
{
if (mPolicy == DestructorPolicy::FreeElements)
for(const_iterator it = begin(); it != end(); ++it)
delete *it;
}
//TODO: These functions are apparently brittle (but the copy functions are actually used by the
// code; the move functions will be implicitly-defined as deleted anyway) and should probably
// only be used with DestructorPolicy::KeepELements:
SwVectorModifyBase(SwVectorModifyBase const &) = default;
SwVectorModifyBase(SwVectorModifyBase &&) = default;
SwVectorModifyBase & operator =(SwVectorModifyBase const &) = default;
SwVectorModifyBase & operator =(SwVectorModifyBase &&) = default;
void DeleteAndDestroy(int aStartIdx, int aEndIdx)
{
if (aEndIdx < aStartIdx)
return;
for (const_iterator it = begin() + aStartIdx;
it != begin() + aEndIdx; ++it)
delete *it;
erase( begin() + aStartIdx, begin() + aEndIdx);
}
size_t GetPos(Value const& p) const
{
const_iterator const it = std::find(begin(), end(), p);
return it == end() ? SIZE_MAX : it - begin();
}
/// check that given format is still alive (i.e. contained here)
bool IsAlive(typename std::remove_pointer<Value>::type const*const p) const
{ return std::find(begin(), end(), p) != end(); }
static void dumpAsXml(xmlTextWriterPtr /*pWriter*/) {};
};
template<typename Value>
class SwFormatsModifyBase : public SwVectorModifyBase<Value>, public SwFormatsBase
{
protected:
SwFormatsModifyBase(typename SwVectorModifyBase<Value>::DestructorPolicy
policy = SwVectorModifyBase<Value>::DestructorPolicy::FreeElements)
: SwVectorModifyBase<Value>(policy) {}
public:
virtual size_t GetFormatCount() const override
{ return SwVectorModifyBase<Value>::size(); }
virtual Value GetFormat(size_t idx) const override
{ return SwVectorModifyBase<Value>::operator[](idx); }
size_t GetPos(const SwFormat *p) const
{ return SwVectorModifyBase<Value>::GetPos( static_cast<Value>( const_cast<SwFormat*>( p ) ) ); }
// Override return type to reduce casting
virtual Value FindFormatByName(const OUString& rName) const override
{ return static_cast<Value>(SwFormatsBase::FindFormatByName(rName)); }
};
class SwGrfFormatColls final : public SwFormatsModifyBase<SwGrfFormatColl*>
{
public:
SwGrfFormatColls() : SwFormatsModifyBase( DestructorPolicy::KeepElements ) {}
};
/// Unsorted, undeleting SwFrameFormat vector
class SwFrameFormatsV final : public SwFormatsModifyBase<SwFrameFormat*>
{
public:
SwFrameFormatsV() : SwFormatsModifyBase( DestructorPolicy::KeepElements ) {}
};
class SwTextFormatColls final : public SwFormatsModifyBase<SwTextFormatColl*>
{
public:
SwTextFormatColls() : SwFormatsModifyBase( DestructorPolicy::KeepElements ) {}
void dumpAsXml(xmlTextWriterPtr pWriter) const;
};
/// Array of Undo-history.
class SwSectionFormats final : public SwFormatsModifyBase<SwSectionFormat*>
{
public:
void dumpAsXml(xmlTextWriterPtr pWriter) const;
};
class SwFieldTypes : public std::vector<std::unique_ptr<SwFieldType>> {
public:
void dumpAsXml(xmlTextWriterPtr pWriter) const;
};
class SwTOXTypes : public std::vector<std::unique_ptr<SwTOXType>> {};
class SwNumRuleTable final : public SwVectorModifyBase<SwNumRule*> {
public:
void dumpAsXml(xmlTextWriterPtr pWriter) const;
};
struct CompareSwRedlineTable
{
bool operator()(SwRangeRedline* const &lhs, SwRangeRedline* const &rhs) const;
};
// Notification type for notifying about redlines to LOK clients
enum class RedlineNotification { Add, Remove, Modify };
class SwRedlineTable
{
public:
typedef o3tl::sorted_vector<SwRangeRedline*, CompareSwRedlineTable,
o3tl::find_partialorder_ptrequals> vector_type;
typedef vector_type::size_type size_type;
static constexpr size_type npos = SAL_MAX_INT32;
private:
vector_type maVector;
/// Sometimes we load bad data, and we need to know if we can use
/// fast binary search, or if we have to fall back to a linear search
bool m_bHasOverlappingElements = false;
public:
~SwRedlineTable();
bool Contains(const SwRangeRedline* p) const { return maVector.find(const_cast<SwRangeRedline*>(p)) != maVector.end(); }
size_type GetPos(const SwRangeRedline* p) const;
bool Insert(SwRangeRedline*& p);
bool Insert(SwRangeRedline*& p, size_type& rInsPos);
bool InsertWithValidRanges(SwRangeRedline*& p, size_type* pInsPos = nullptr);
bool HasOverlappingElements() const { return m_bHasOverlappingElements; }
void Remove( size_type nPos );
void Remove( const SwRangeRedline* p );
void DeleteAndDestroy(size_type nPos);
void DeleteAndDestroyAll();
void dumpAsXml(xmlTextWriterPtr pWriter) const;
size_type FindNextOfSeqNo( size_type nSttPos ) const;
size_type FindPrevOfSeqNo( size_type nSttPos ) const;
/** Search next or previous Redline with the same Seq. No.
Search can be restricted via Lookahead.
Using 0 makes search the whole array. */
size_type FindNextSeqNo( sal_uInt16 nSeqNo, size_type nSttPos ) const;
size_type FindPrevSeqNo( sal_uInt16 nSeqNo, size_type nSttPos ) const;
/**
Find the redline at the given position.
@param tableIndex position in SwRedlineTable to start searching at, will be updated with the index of the returned
redline (or the next redline after the given position if not found)
@param next true: redline starts at position and ends after, false: redline starts before position and ends at or after
*/
const SwRangeRedline* FindAtPosition( const SwPosition& startPosition, size_type& tableIndex, bool next = true ) const;
// is there a redline with the same text content from the same author (near the redline),
// but with the opposite type (Insert or Delete). It's used to recognize tracked text moving.
bool isMoved(size_type tableIndex) const;
bool empty() const { return maVector.empty(); }
size_type size() const { return maVector.size(); }
SwRangeRedline* operator[]( size_type idx ) const { return maVector[idx]; }
vector_type::const_iterator begin() const { return maVector.begin(); }
vector_type::const_iterator end() const { return maVector.end(); }
void Resort() { maVector.Resort(); }
// Notifies all LOK clients when redlines are added/modified/removed
static void LOKRedlineNotification(RedlineNotification eType, SwRangeRedline* pRedline);
private:
void CheckOverlapping(vector_type::const_iterator it);
};
/// Table that holds 'extra' redlines, such as 'table row insert/delete', 'paragraph moves' etc...
class SwExtraRedlineTable
{
private:
std::vector<SwExtraRedline*> m_aExtraRedlines;
public:
~SwExtraRedlineTable();
void Insert( SwExtraRedline* p );
void DeleteAndDestroy( sal_uInt16 nPos);
void DeleteAndDestroyAll();
void dumpAsXml(xmlTextWriterPtr pWriter) const;
sal_uInt16 GetSize() const { return m_aExtraRedlines.size(); }
SwExtraRedline* GetRedline( sal_uInt16 uIndex ) const { return m_aExtraRedlines.operator[]( uIndex ); }
SW_DLLPUBLIC bool DeleteAllTableRedlines( SwDoc& rDoc, const SwTable& rTable, bool bSaveInUndo, RedlineType nRedlineTypeToDelete );
bool DeleteTableRowRedline ( SwDoc* pDoc, const SwTableLine& rTableLine, bool bSaveInUndo, RedlineType nRedlineTypeToDelete );
bool DeleteTableCellRedline( SwDoc* pDoc, const SwTableBox& rTableBox, bool bSaveInUndo, RedlineType nRedlineTypeToDelete );
};
typedef std::vector<SwOLENode*> SwOLENodes;
#endif // INCLUDED_SW_INC_DOCARY_HXX
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