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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 .
*/
#pragma once
#include <sal/config.h>
#include <cassert>
#include <cstddef>
#include <memory>
#include <optional>
#include <utility>
#include <svl/svldllapi.h>
#include <svl/poolitem.hxx>
#include <svl/typedwhich.hxx>
#include <svl/whichranges.hxx>
class SfxItemPool;
class SAL_WARN_UNUSED SVL_DLLPUBLIC SfxItemSet
{
friend class SfxItemIter;
friend class SfxWhichIter;
SfxItemPool* m_pPool; ///< pool that stores the items
const SfxItemSet* m_pParent; ///< derivation
SfxPoolItem const** m_ppItems; ///< pointer to array of items, we allocate and free this unless m_bItemsFixed==true
WhichRangesContainer m_pWhichRanges; ///< array of Which Ranges
sal_uInt16 m_nCount; ///< number of items
bool m_bItemsFixed; ///< true if this is a SfxItemSetFixed object
friend class SfxItemPoolCache;
friend class SfxAllItemSet;
private:
SVL_DLLPRIVATE void RecreateRanges_Impl(const WhichRangesContainer& pNewRanges);
SfxItemSet( SfxItemPool & pool, const WhichRangesContainer& wids, std::size_t items );
public:
SfxPoolItem const** GetItems_Impl() const { return m_ppItems; }
private:
const SfxItemSet& operator=(const SfxItemSet &) = delete;
protected:
// Notification-Callback
virtual void Changed( const SfxPoolItem& rOld, const SfxPoolItem& rNew );
void PutDirect(const SfxPoolItem &rItem);
virtual const SfxPoolItem* PutImpl( const SfxPoolItem&, sal_uInt16 nWhich, bool bPassingOwnership );
/** special constructor for SfxAllItemSet */
enum class SfxAllItemSetFlag { Flag };
SfxItemSet( SfxItemPool&, SfxAllItemSetFlag );
/** special constructor for SfxItemSetFixed */
SfxItemSet( SfxItemPool&, WhichRangesContainer&& ranges, SfxPoolItem const ** ppItems );
public:
SfxItemSet( const SfxItemSet& );
SfxItemSet( SfxItemSet&& ) noexcept;
SfxItemSet( SfxItemPool& );
SfxItemSet( SfxItemPool&, const WhichRangesContainer& ranges );
SfxItemSet( SfxItemPool&, WhichRangesContainer&& ranges );
SfxItemSet( SfxItemPool& rPool, sal_uInt16 nWhichStart, sal_uInt16 nWhichEnd )
: SfxItemSet(rPool, WhichRangesContainer(nWhichStart, nWhichEnd)) {}
template<sal_uInt16... WIDs>
SfxItemSet(SfxItemPool& pool, svl::Items_t<WIDs...> wids)
: SfxItemSet(pool, WhichRangesContainer(wids)) {}
virtual ~SfxItemSet();
virtual std::unique_ptr<SfxItemSet> Clone(bool bItems = true, SfxItemPool *pToPool = nullptr) const;
/** note that this only works if you know for sure that you are dealing with an SfxItemSet
and not one of it's subclasses. */
SfxItemSet CloneAsValue(bool bItems = true, SfxItemPool *pToPool = nullptr) const;
// Get number of items
sal_uInt16 Count() const { return m_nCount; }
sal_uInt16 TotalCount() const;
const SfxPoolItem& Get( sal_uInt16 nWhich, bool bSrchInParent = true ) const;
template<class T>
const T& Get( TypedWhichId<T> nWhich, bool bSrchInParent = true ) const
{
return static_cast<const T&>(Get(sal_uInt16(nWhich), bSrchInParent));
}
/** This method eases accessing single Items in the SfxItemSet.
@param nId SlotId or the Item's WhichId
@param bSearchInParent also search in parent ItemSets
@returns 0 if the ItemSet does not contain an Item with the Id 'nWhich'
*/
const SfxPoolItem* GetItem(sal_uInt16 nWhich, bool bSearchInParent = true) const;
/// Templatized version of GetItem() to directly return the correct type.
template<class T> const T* GetItem(sal_uInt16 nWhich, bool bSearchInParent = true) const
{
const SfxPoolItem* pItem = GetItem(nWhich, bSearchInParent);
const T* pCastedItem = dynamic_cast<const T*>(pItem);
assert(!pItem || pCastedItem); // if it exists, must have the correct type
return pCastedItem;
}
template<class T> const T* GetItem( TypedWhichId<T> nWhich, bool bSearchInParent = true ) const
{
return GetItem<T>(sal_uInt16(nWhich), bSearchInParent);
}
/// Templatized static version of GetItem() to directly return the correct type if the SfxItemSet is available.
template<class T> static const T* GetItem(const SfxItemSet* pItemSet, sal_uInt16 nWhich, bool bSearchInParent)
{
if (pItemSet)
return pItemSet->GetItem<T>(nWhich, bSearchInParent);
return nullptr;
}
template <class T>
static const T* GetItem(const SfxItemSet* pItemSet, TypedWhichId<T> nWhich,
bool bSearchInParent)
{
return GetItem<T>(pItemSet, static_cast<sal_uInt16>(nWhich), bSearchInParent);
}
sal_uInt16 GetWhichByPos(sal_uInt16 nPos) const;
SfxItemState GetItemState( sal_uInt16 nWhich,
bool bSrchInParent = true,
const SfxPoolItem **ppItem = nullptr ) const;
template <class T>
SfxItemState GetItemState( TypedWhichId<T> nWhich,
bool bSrchInParent = true,
const T **ppItem = nullptr ) const
{ return GetItemState(sal_uInt16(nWhich), bSrchInParent, reinterpret_cast<SfxPoolItem const**>(ppItem)); }
/// Templatized version of GetItemState() to directly return the correct type.
template<class T>
const T * GetItemIfSet( TypedWhichId<T> nWhich,
bool bSrchInParent = true ) const
{
const SfxPoolItem * pItem = nullptr;
if( SfxItemState::SET == GetItemState(sal_uInt16(nWhich), bSrchInParent, &pItem) )
return static_cast<const T*>(pItem);
return nullptr;
}
bool HasItem(sal_uInt16 nWhich, const SfxPoolItem** ppItem = nullptr) const;
template<class T>
bool HasItem(TypedWhichId<T> nWhich, const T** ppItem = nullptr) const
{ return HasItem(sal_uInt16(nWhich), reinterpret_cast<const SfxPoolItem**>(ppItem)); }
void DisableItem(sal_uInt16 nWhich);
void InvalidateItem( sal_uInt16 nWhich );
sal_uInt16 ClearItem( sal_uInt16 nWhich = 0);
void ClearInvalidItems();
void InvalidateAllItems(); // HACK(via nWhich = 0) ???
inline void SetParent( const SfxItemSet* pNew );
// add, delete items, work on items
public:
const SfxPoolItem* Put( const SfxPoolItem& rItem, sal_uInt16 nWhich )
{ return PutImpl(rItem, nWhich, /*bPassingOwnership*/false); }
const SfxPoolItem* Put( std::unique_ptr<SfxPoolItem> xItem, sal_uInt16 nWhich )
{ return PutImpl(*xItem.release(), nWhich, /*bPassingOwnership*/true); }
const SfxPoolItem* Put( const SfxPoolItem& rItem )
{ return Put(rItem, rItem.Which()); }
const SfxPoolItem* Put( std::unique_ptr<SfxPoolItem> xItem )
{ auto nWhich = xItem->Which(); return Put(std::move(xItem), nWhich); }
bool Put( const SfxItemSet&,
bool bInvalidAsDefault = true );
void PutExtended( const SfxItemSet&,
SfxItemState eDontCareAs,
SfxItemState eDefaultAs );
bool Set( const SfxItemSet&, bool bDeep = true );
void Intersect( const SfxItemSet& rSet );
void MergeValues( const SfxItemSet& rSet );
void Differentiate( const SfxItemSet& rSet );
void MergeValue( const SfxPoolItem& rItem, bool bOverwriteDefaults = false );
SfxItemPool* GetPool() const { return m_pPool; }
const WhichRangesContainer & GetRanges() const { return m_pWhichRanges; }
void SetRanges( const WhichRangesContainer& );
void SetRanges( WhichRangesContainer&& );
void MergeRange( sal_uInt16 nFrom, sal_uInt16 nTo );
const SfxItemSet* GetParent() const { return m_pParent; }
bool operator==(const SfxItemSet &) const;
/** Compare possibly ignoring SfxItemPool pointer.
This can be used to compare the content of two SfxItemSet even if they
don't share the same pool. EditTextObject::Equals(...,false) uses this
which is needed in ScGlobal::EETextObjEqual() for
ScPageHFItem::operator==()
@param bComparePool
if <FALSE/> ignore SfxItemPool pointer,
if <TRUE/> compare also SfxItemPool pointer (identical to operator==())
*/
bool Equals(const SfxItemSet &, bool bComparePool) const;
void dumpAsXml(xmlTextWriterPtr pWriter) const;
private:
sal_uInt16 ClearSingleItemImpl( sal_uInt16 nWhich, std::optional<sal_uInt16> oItemOffsetHint );
sal_uInt16 ClearAllItemsImpl();
SfxItemState GetItemStateImpl( sal_uInt16 nWhich,
bool bSrchInParent,
const SfxPoolItem **ppItem,
std::optional<sal_uInt16> oItemsOffsetHint) const;
};
inline void SfxItemSet::SetParent( const SfxItemSet* pNew )
{
m_pParent = pNew;
}
class SVL_DLLPUBLIC SfxAllItemSet final : public SfxItemSet
// Handles all Ranges. Ranges are automatically modified by putting items.
{
public:
SfxAllItemSet( SfxItemPool &rPool );
SfxAllItemSet( const SfxItemSet & );
SfxAllItemSet( const SfxAllItemSet & );
virtual std::unique_ptr<SfxItemSet> Clone( bool bItems = true, SfxItemPool *pToPool = nullptr ) const override;
private:
virtual const SfxPoolItem* PutImpl( const SfxPoolItem&, sal_uInt16 nWhich, bool bPassingOwnership ) override;
};
namespace svl::detail
{
/**
* Determines the number of sal_uInt16s in a container of pairs of
* sal_uInt16s, each representing a range of sal_uInt16s, and total capacity of the ranges.
*/
template <sal_uInt16 WID1, sal_uInt16 WID2, sal_uInt16... Rest>
static constexpr sal_uInt16 CountRanges1()
{
sal_uInt16 nCapacity = rangeSize(WID1, WID2);
if constexpr (sizeof...(Rest) > 0)
nCapacity += CountRanges1<Rest...>();
return nCapacity;
}}
// Allocate the items array inside the object, to reduce allocation cost.
//
template<sal_uInt16... WIDs>
class SfxItemSetFixed : public SfxItemSet
{
public:
SfxItemSetFixed( SfxItemPool& rPool)
: SfxItemSet(rPool, WhichRangesContainer(svl::Items_t<WIDs...>{}), m_aItems) {}
private:
static constexpr sal_uInt16 NITEMS = svl::detail::CountRanges1<WIDs...>();
const SfxPoolItem* m_aItems[NITEMS] = {};
};
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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