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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 .
*/
#ifndef INCLUDED_SW_SOURCE_CORE_INC_SWCACHE_HXX
#define INCLUDED_SW_SOURCE_CORE_INC_SWCACHE_HXX
/**
* Here, we manage pointers in a simple PtrArray to objects.
* These objects are created (using new) in cache access classes; they are
* destroyed by the cache.
*
* One can access these objects by array index or by searching in the array.
* If you access it by index, managing the index is the responsibility of
* the cache user.
*
* The cached objects are derived from the base class SwCacheObj.
* In it, the cache objects are doubly-linked which allows for the use of
* an LRU algorithm.
*
* The LRU algorithm can be changed in the base class, by setting a virtual
* First Pointer. It can be set to the first real one plus an offset.
* By doing so we can protect the start area of the cache and make sure we
* don't mess up the cache during some special operations.
* E.g.: the Idle Handler should not destroy the cache for the visible area.
*
* The cache can be grown and shrunk in size.
* E.g.: The cache for FormatInfo is grown for every new Shell and shrunk
* when destroying them.
*/
#include <memory>
#include <vector>
#include <rtl/string.hxx>
class SwCacheObj;
class SwCache
{
std::vector<std::unique_ptr<SwCacheObj>> m_aCacheObjects;
std::vector<sal_uInt16> m_aFreePositions; /// Free positions for the Insert if the maximum has not been reached
/// Every time an object is deregistered, its position is added here
SwCacheObj *m_pRealFirst; /// _ALWAYS_ the real first LRU
SwCacheObj *m_pFirst; /// The virtual first
SwCacheObj *m_pLast;
sal_uInt16 m_nCurMax; // Maximum of accepted objects
void DeleteObj( SwCacheObj *pObj );
#ifdef DBG_UTIL
OString m_aName;
long m_nAppend; /// number of entries appended
long m_nInsertFree; /// number of entries inserted on freed position
long m_nReplace; /// number of LRU replacements
long m_nGetSuccess;
long m_nGetFail;
long m_nToTop; /// number of reordering (LRU)
long m_nDelete; /// number of explicit deletes
long m_nGetSeek; /// number of gets without index
long m_nAverageSeekCnt; /// number of seeks for all gets without index
long m_nFlushCnt; /// number of flush calls
long m_nFlushedObjects;
long m_nIncreaseMax; /// number of cache size increases
long m_nDecreaseMax; /// number of cache size decreases
void Check();
#endif
public:
// Only add sal_uInt8!!!
#ifdef DBG_UTIL
SwCache( const sal_uInt16 nInitSize, const OString &rNm );
#else
SwCache( const sal_uInt16 nInitSize );
#endif
/// The dtor will free all objects still in the vector
~SwCache();
void Flush();
//bToTop == false -> No LRU resorting!
SwCacheObj *Get( const void *pOwner, const bool bToTop = true );
SwCacheObj *Get( const void *pOwner, const sal_uInt16 nIndex,
const bool bToTop = true );
void ToTop( SwCacheObj *pObj );
bool Insert(SwCacheObj *pNew, bool isDuplicateOwnerAllowed);
void Delete(const void * pOwner, sal_uInt16 nIndex);
void Delete( const void *pOwner );
void SetLRUOfst( const sal_uInt16 nOfst ); /// nOfst determines how many are not to be touched
void ResetLRUOfst() { m_pFirst = m_pRealFirst; }
void IncreaseMax( const sal_uInt16 nAdd );
void DecreaseMax( const sal_uInt16 nSub );
sal_uInt16 GetCurMax() const { return m_nCurMax; }
SwCacheObj *First() { return m_pRealFirst; }
static inline SwCacheObj *Next( SwCacheObj *pCacheObj);
SwCacheObj* operator[](sal_uInt16 nIndex) { return m_aCacheObjects[nIndex].get(); }
sal_uInt16 size() { return m_aCacheObjects.size(); }
};
/// Try to prevent visible SwParaPortions from being deleted.
class SwSaveSetLRUOfst
{
public:
SwSaveSetLRUOfst();
~SwSaveSetLRUOfst();
};
/**
* The Cache object base class
* Users of the Cache must derive a class from the SwCacheObj and store
* their payload there
*/
class SwCacheObj
{
friend class SwCache; /// Can do everything
SwCacheObj *m_pNext; /// For the LRU chaining
SwCacheObj *m_pPrev;
sal_uInt16 m_nCachePos; /// Position in the Cache array
sal_uInt8 m_nLock;
SwCacheObj *GetNext() { return m_pNext; }
SwCacheObj *GetPrev() { return m_pPrev; }
void SetNext( SwCacheObj *pNew ) { m_pNext = pNew; }
void SetPrev( SwCacheObj *pNew ) { m_pPrev = pNew; }
void SetCachePos(const sal_uInt16 nNew)
{
if (m_nCachePos != nNew)
{
m_nCachePos = nNew;
UpdateCachePos();
}
}
virtual void UpdateCachePos() { }
protected:
const void *m_pOwner;
public:
SwCacheObj( const void *pOwner );
virtual ~SwCacheObj();
const void *GetOwner() const { return m_pOwner; }
inline bool IsOwner( const void *pNew ) const;
sal_uInt16 GetCachePos() const { return m_nCachePos; }
bool IsLocked() const { return 0 != m_nLock; }
#ifdef DBG_UTIL
void Lock();
void Unlock();
#else
void Lock() { ++m_nLock; }
void Unlock() { --m_nLock; }
#endif
};
/**
* Access class for the Cache
*
* The Cache object is created in the ctor.
* If the Cache does not return one, the member is set to 0 and one is
* created on the Get() and added to the Cache (if possible).
* Cache users must derive a class from SwCacheAccess in order to
* guarantee type safety. The base class should always be called for the
* Get(). A derived Get() should only ever guarantee type safety.
* Cache objects are always locked for the instance's life time.
*/
class SwCacheAccess
{
SwCache &m_rCache;
void Get_(bool isDuplicateOwnerAllowed);
protected:
SwCacheObj *m_pObj;
const void *m_pOwner; /// Can be use in NewObj
virtual SwCacheObj *NewObj() = 0;
inline SwCacheObj *Get(bool isDuplicateOwnerAllowed);
inline SwCacheAccess( SwCache &rCache, const void *pOwner, bool bSeek );
inline SwCacheAccess( SwCache &rCache, const void* nCacheId, const sal_uInt16 nIndex );
public:
virtual ~SwCacheAccess();
};
inline bool SwCacheObj::IsOwner( const void *pNew ) const
{
return m_pOwner && m_pOwner == pNew;
}
inline SwCacheObj *SwCache::Next( SwCacheObj *pCacheObj)
{
if ( pCacheObj )
return pCacheObj->GetNext();
else
return nullptr;
}
inline SwCacheAccess::SwCacheAccess( SwCache &rC, const void *pOwn, bool bSeek ) :
m_rCache( rC ),
m_pObj( nullptr ),
m_pOwner( pOwn )
{
if ( bSeek && m_pOwner )
{
m_pObj = m_rCache.Get( m_pOwner );
if (m_pObj)
m_pObj->Lock();
}
}
inline SwCacheAccess::SwCacheAccess( SwCache &rC, const void* nCacheId,
const sal_uInt16 nIndex ) :
m_rCache( rC ),
m_pObj( nullptr ),
m_pOwner( nCacheId )
{
if ( m_pOwner )
{
m_pObj = m_rCache.Get( m_pOwner, nIndex );
if (m_pObj)
m_pObj->Lock();
}
}
inline SwCacheObj *SwCacheAccess::Get(bool const isDuplicateOwnerAllowed = true)
{
if ( !m_pObj )
Get_(isDuplicateOwnerAllowed);
return m_pObj;
}
#endif
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