/* -*- 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 /** * Ctor for a SfxItemSet with exactly the Which Ranges, which are known to * the supplied SfxItemPool. * * For Sfx programmers: an SfxItemSet constructed in this way cannot * contain any Items with SlotIds as Which values. * * Don't create ItemSets with full range before FreezeIdRanges()! */ SfxItemSet::SfxItemSet(SfxItemPool& rPool) : m_pPool(&rPool), m_pParent(nullptr), m_ppItems(new SfxPoolItem const *[svl::detail::CountRanges(rPool.GetFrozenIdRanges())]{}), m_pWhichRanges(rPool.GetFrozenIdRanges()), m_nCount(0), m_bItemsFixed(false) { assert(svl::detail::validRanges2(m_pWhichRanges)); } SfxItemSet::SfxItemSet( SfxItemPool& rPool, SfxAllItemSetFlag ) : m_pPool(&rPool) , m_pParent(nullptr) , m_ppItems(nullptr) , m_nCount(0) , m_bItemsFixed(false) { } /** special constructor for SfxItemSetFixed */ SfxItemSet::SfxItemSet( SfxItemPool& rPool, WhichRangesContainer&& ranges, SfxPoolItem const ** ppItems ) : m_pPool(&rPool) , m_pParent(nullptr) , m_ppItems(ppItems) , m_pWhichRanges(std::move(ranges)) , m_nCount(0) , m_bItemsFixed(true) { assert(ppItems); assert(m_pWhichRanges.size() > 0); assert(svl::detail::validRanges2(m_pWhichRanges)); } SfxItemSet::SfxItemSet(SfxItemPool& pool, WhichRangesContainer wids) : m_pPool(&pool), m_pParent(nullptr), m_ppItems(new SfxPoolItem const *[svl::detail::CountRanges(wids)]{}), m_pWhichRanges(std::move(wids)), m_nCount(0), m_bItemsFixed(false) { assert(svl::detail::CountRanges(m_pWhichRanges) != 0); assert(svl::detail::validRanges2(m_pWhichRanges)); } SfxItemSet::SfxItemSet( const SfxItemSet& rASet ) : m_pPool( rASet.m_pPool ) , m_pParent( rASet.m_pParent ) , m_pWhichRanges( rASet.m_pWhichRanges ) , m_nCount( rASet.m_nCount ) , m_bItemsFixed(false) { if (rASet.m_pWhichRanges.empty()) { m_ppItems = nullptr; return; } auto nCnt = svl::detail::CountRanges(m_pWhichRanges); m_ppItems = new const SfxPoolItem* [nCnt] {}; // Copy attributes SfxPoolItem const** ppDst = m_ppItems; SfxPoolItem const** ppSrc = rASet.m_ppItems; for( sal_uInt16 n = nCnt; n; --n, ++ppDst, ++ppSrc ) if ( nullptr == *ppSrc || // Current Default? IsInvalidItem(*ppSrc) || // DontCare? IsStaticDefaultItem(*ppSrc) ) // Defaults that are not to be pooled? // Just copy the pointer *ppDst = *ppSrc; else if (m_pPool->IsItemPoolable( **ppSrc )) { // Just copy the pointer and increase RefCount *ppDst = *ppSrc; (*ppDst)->AddRef(); } else if ( !(*ppSrc)->Which() ) *ppDst = (*ppSrc)->Clone(); else // !IsPoolable() => assign via Pool *ppDst = &m_pPool->Put( **ppSrc ); assert(svl::detail::validRanges2(m_pWhichRanges)); } SfxItemSet::SfxItemSet(SfxItemSet&& rASet) noexcept : m_pPool( rASet.m_pPool ) , m_pParent( rASet.m_pParent ) , m_ppItems( rASet.m_ppItems ) , m_pWhichRanges( std::move(rASet.m_pWhichRanges) ) , m_nCount( rASet.m_nCount ) , m_bItemsFixed(false) { if (rASet.m_bItemsFixed) { // have to make a copy int noItems = svl::detail::CountRanges(m_pWhichRanges); m_ppItems = new const SfxPoolItem* [noItems]; std::copy(rASet.m_ppItems, rASet.m_ppItems + noItems, m_ppItems); } else // taking over ownership rASet.m_ppItems = nullptr; rASet.m_pPool = nullptr; rASet.m_pParent = nullptr; rASet.m_nCount = 0; assert(svl::detail::validRanges2(m_pWhichRanges)); } SfxItemSet::~SfxItemSet() { if (!m_pWhichRanges.empty()) // might be nullptr if we have been moved-from { if( Count() ) { sal_uInt16 nCount = TotalCount(); SfxPoolItem const** ppFnd = m_ppItems; for( sal_uInt16 nCnt = nCount; nCnt; --nCnt, ++ppFnd ) if( *ppFnd && !IsInvalidItem(*ppFnd) ) { if( !(*ppFnd)->Which() ) delete *ppFnd; else { // Still multiple references present, so just alter the RefCount if ( 1 < (*ppFnd)->GetRefCount() && !IsDefaultItem(*ppFnd) ) (*ppFnd)->ReleaseRef(); else if ( !IsDefaultItem(*ppFnd) ) // Delete from Pool m_pPool->Remove( **ppFnd ); } } } } if (!m_bItemsFixed) delete[] m_ppItems; m_pWhichRanges.reset(); // for invariant-testing } /** * Delete single Items or all Items (nWhich == 0) */ sal_uInt16 SfxItemSet::ClearItem( sal_uInt16 nWhich ) { if( !Count() ) return 0; if( nWhich ) return ClearSingleItemImpl(nWhich, std::nullopt); else return ClearAllItemsImpl(); } sal_uInt16 SfxItemSet::ClearSingleItemImpl( sal_uInt16 nWhich, std::optional oItemOffsetHint ) { sal_uInt16 nDel = 0; SfxPoolItem const** pFoundOne = nullptr; if (oItemOffsetHint) { pFoundOne = m_ppItems + *oItemOffsetHint; assert(!*pFoundOne || IsInvalidItem(*pFoundOne) || (*pFoundOne)->IsVoidItem() || (*pFoundOne)->Which() == nWhich); } else { SfxPoolItem const** ppFnd = m_ppItems; for (const WhichPair& rPair : m_pWhichRanges) { // Within this range? if( rPair.first <= nWhich && nWhich <= rPair.second ) { // Actually set? ppFnd += nWhich - rPair.first; pFoundOne = ppFnd; // found => break break; } ppFnd += rPair.second - rPair.first + 1; } } if (pFoundOne && *pFoundOne) { // Due to the assertions in the sub calls, we need to do the following --m_nCount; const SfxPoolItem *pItemToClear = *pFoundOne; *pFoundOne = nullptr; if ( !IsInvalidItem(pItemToClear) ) { if (SfxItemPool::IsWhich(nWhich)) { const SfxPoolItem& rNew = m_pParent ? m_pParent->Get( nWhich ) : m_pPool->GetDefaultItem( nWhich ); Changed( *pItemToClear, rNew ); } if ( pItemToClear->Which() ) m_pPool->Remove( *pItemToClear ); } ++nDel; } return nDel; } sal_uInt16 SfxItemSet::ClearAllItemsImpl() { sal_uInt16 nDel = m_nCount; SfxPoolItem const** ppFnd = m_ppItems; for (const WhichPair& rPair : m_pWhichRanges) { for( sal_uInt16 nWhich = rPair.first; nWhich <= rPair.second; ++nWhich, ++ppFnd ) { if( !*ppFnd ) continue; // Due to the assertions in the sub calls, we need to do this --m_nCount; const SfxPoolItem *pItemToClear = *ppFnd; *ppFnd = nullptr; if ( IsInvalidItem(pItemToClear) ) continue; if (SfxItemPool::IsWhich(nWhich)) { const SfxPoolItem& rNew = m_pParent ? m_pParent->Get( nWhich ) : m_pPool->GetDefaultItem( nWhich ); Changed( *pItemToClear, rNew ); } // #i32448# // Take care of disabled items, too. if (!pItemToClear->m_nWhich) { // item is disabled, delete it delete pItemToClear; } else { // remove item from pool m_pPool->Remove( *pItemToClear ); } } } return nDel; } void SfxItemSet::ClearInvalidItems() { SfxPoolItem const** ppFnd = m_ppItems; for (const WhichPair& rPair : m_pWhichRanges) { for( sal_uInt16 nWhich = rPair.first; nWhich <= rPair.second; ++nWhich, ++ppFnd ) if( IsInvalidItem(*ppFnd) ) { *ppFnd = nullptr; --m_nCount; } } } void SfxItemSet::InvalidateAllItems() { assert( !m_nCount && "There are still Items set" ); m_nCount = TotalCount(); memset(static_cast(m_ppItems), -1, m_nCount * sizeof(SfxPoolItem*)); } SfxItemState SfxItemSet::GetItemState( sal_uInt16 nWhich, bool bSrchInParent, const SfxPoolItem **ppItem ) const { return GetItemStateImpl(nWhich, bSrchInParent, ppItem, std::nullopt); } SfxItemState SfxItemSet::GetItemStateImpl( sal_uInt16 nWhich, bool bSrchInParent, const SfxPoolItem **ppItem, std::optional oItemsOffsetHint) const { // Find the range in which the Which is located const SfxItemSet* pCurrentSet = this; SfxItemState eRet = SfxItemState::UNKNOWN; do { SfxPoolItem const** pFoundOne = nullptr; if (oItemsOffsetHint) { pFoundOne = pCurrentSet->m_ppItems + *oItemsOffsetHint; assert(!*pFoundOne || IsInvalidItem(*pFoundOne) || (*pFoundOne)->IsVoidItem() || (*pFoundOne)->Which() == nWhich); oItemsOffsetHint.reset(); // in case we need to search parent } else { SfxPoolItem const** ppFnd = pCurrentSet->m_ppItems; for (const WhichPair& rPair : pCurrentSet->m_pWhichRanges) { if ( rPair.first <= nWhich && nWhich <= rPair.second ) { // Within this range pFoundOne = ppFnd + nWhich - rPair.first; break; } ppFnd += rPair.second - rPair.first + 1; } } if (pFoundOne) { if ( !*pFoundOne ) { eRet = SfxItemState::DEFAULT; if( !bSrchInParent ) return eRet; // Not present // Keep searching in the parents! } else { if ( IsInvalidItem(*pFoundOne) ) // Different ones are present return SfxItemState::DONTCARE; if ( (*pFoundOne)->IsVoidItem() ) return SfxItemState::DISABLED; if (ppItem) { *ppItem = *pFoundOne; } return SfxItemState::SET; } } if (!bSrchInParent) break; pCurrentSet = pCurrentSet->m_pParent; } while (nullptr != pCurrentSet); return eRet; } bool SfxItemSet::HasItem(sal_uInt16 nWhich, const SfxPoolItem** ppItem) const { bool bRet = SfxItemState::SET == GetItemState(nWhich, true, ppItem); if (!bRet && ppItem) *ppItem = nullptr; return bRet; } const SfxPoolItem* SfxItemSet::PutImpl( const SfxPoolItem& rItem, sal_uInt16 nWhich, bool bPassingOwnership ) { if ( !nWhich ) { assert(!bPassingOwnership); return nullptr; //FIXME: Only because of Outliner bug } SfxPoolItem const** ppFnd = m_ppItems; for (const WhichPair& rPair : m_pWhichRanges) { if( rPair.first <= nWhich && nWhich <= rPair.second ) { // Within this range ppFnd += nWhich - rPair.first; if( *ppFnd ) // Already one present { // Same Item already present? if ( *ppFnd == &rItem ) { assert(!bPassingOwnership); return nullptr; } // Will 'dontcare' or 'disabled' be overwritten with some real value? if ( rItem.Which() && ( IsInvalidItem(*ppFnd) || !(*ppFnd)->Which() ) ) { auto const old = *ppFnd; *ppFnd = &m_pPool->PutImpl( rItem, nWhich, bPassingOwnership ); if (!IsInvalidItem(old)) { assert(old->Which() == 0); delete old; } return *ppFnd; } // Turns into disabled? if( !rItem.Which() ) { if (IsInvalidItem(*ppFnd) || (*ppFnd)->Which() != 0) { *ppFnd = rItem.Clone(m_pPool); } if (bPassingOwnership) delete &rItem; return nullptr; } else { // Same value already present? if ( rItem == **ppFnd ) { if (bPassingOwnership) delete &rItem; return nullptr; } // Add the new one, remove the old one const SfxPoolItem& rNew = m_pPool->PutImpl( rItem, nWhich, bPassingOwnership ); const SfxPoolItem* pOld = *ppFnd; *ppFnd = &rNew; if (SfxItemPool::IsWhich(nWhich)) Changed( *pOld, rNew ); m_pPool->Remove( *pOld ); } } else { ++m_nCount; if( !rItem.Which() ) { *ppFnd = rItem.Clone(m_pPool); if (bPassingOwnership) delete &rItem; } else { const SfxPoolItem& rNew = m_pPool->PutImpl( rItem, nWhich, bPassingOwnership ); *ppFnd = &rNew; if (SfxItemPool::IsWhich(nWhich)) { const SfxPoolItem& rOld = m_pParent ? m_pParent->Get( nWhich ) : m_pPool->GetDefaultItem( nWhich ); Changed( rOld, rNew ); } } } SAL_WARN_IF(!bPassingOwnership && m_pPool->IsItemPoolable(nWhich) && dynamic_cast( &rItem ) == nullptr && **ppFnd != rItem, "svl.items", "putted Item unequal, with ID/pos " << nWhich ); return *ppFnd; } ppFnd += rPair.second - rPair.first + 1; } if (bPassingOwnership) delete &rItem; return nullptr; } bool SfxItemSet::Put( const SfxItemSet& rSet, bool bInvalidAsDefault ) { bool bRet = false; if( rSet.Count() ) { SfxPoolItem const** ppFnd = rSet.m_ppItems; for (const WhichPair& rPair : rSet.m_pWhichRanges) { for ( sal_uInt16 nWhich = rPair.first; nWhich <= rPair.second; ++nWhich, ++ppFnd ) if( *ppFnd ) { if ( IsInvalidItem( *ppFnd ) ) { if ( bInvalidAsDefault ) bRet |= 0 != ClearItem( nWhich ); // FIXME: Caused a SEGFAULT on non Windows-platforms: // bRet |= 0 != Put( rSet.GetPool()->GetDefaultItem(nWhich), nWhich ); else InvalidateItem( nWhich ); } else bRet |= nullptr != Put( **ppFnd, nWhich ); } } } return bRet; } /** * This method takes the Items from the 'rSet' and adds to '*this'. * Which ranges in '*this' that are non-existent in 'rSet' will not * be altered. The Which range of '*this' is also not changed. * * Items set in 'rSet' are also set in '*this'. * Default (0 pointer) and Invalid (-1 pointer) Items are processed * according to their parameter 'eDontCareAs' and 'eDefaultAs': * * SfxItemState::SET: Hard set to the default of the Pool * SfxItemState::DEFAULT: Deleted (0 pointer) * SfxItemState::DONTCARE: Invalid (-1 pointer) * * NB: All other values for 'eDontCareAs' and 'eDefaultAs' are invalid */ void SfxItemSet::PutExtended ( const SfxItemSet& rSet, // Source of the Items to be put SfxItemState eDontCareAs, // What will happen to the DontCare Items SfxItemState eDefaultAs // What will happen to the Default Items ) { // don't "optimize" with "if( rSet.Count()" because of dont-care + defaults SfxPoolItem const** ppFnd = rSet.m_ppItems; for (const WhichPair& rPair : rSet.m_pWhichRanges) { for ( sal_uInt16 nWhich = rPair.first; nWhich <= rPair.second; ++nWhich, ++ppFnd ) if( *ppFnd ) { if ( IsInvalidItem( *ppFnd ) ) { // Item is DontCare: switch ( eDontCareAs ) { case SfxItemState::SET: Put( rSet.GetPool()->GetDefaultItem(nWhich), nWhich ); break; case SfxItemState::DEFAULT: ClearItem( nWhich ); break; case SfxItemState::DONTCARE: InvalidateItem( nWhich ); break; default: assert(!"invalid Argument for eDontCareAs"); } } else // Item is set: Put( **ppFnd, nWhich ); } else { // Item is default: switch ( eDefaultAs ) { case SfxItemState::SET: Put( rSet.GetPool()->GetDefaultItem(nWhich), nWhich ); break; case SfxItemState::DEFAULT: ClearItem( nWhich ); break; case SfxItemState::DONTCARE: InvalidateItem( nWhich ); break; default: assert(!"invalid Argument for eDefaultAs"); } } } } /** * Expands the ranges of settable items by 'nFrom' to 'nTo'. Keeps state of * items which are new ranges too. */ void SfxItemSet::MergeRange( sal_uInt16 nFrom, sal_uInt16 nTo ) { // special case: exactly one sal_uInt16 which is already included? if (nFrom == nTo) if (SfxItemState eItemState = GetItemState(nFrom, false); eItemState == SfxItemState::DEFAULT || eItemState == SfxItemState::SET) return; auto pNewRanges = m_pWhichRanges.MergeRange(nFrom, nTo); RecreateRanges_Impl(pNewRanges); m_pWhichRanges = std::move(pNewRanges); } /** * Modifies the ranges of settable items. Keeps state of items which * are new ranges too. */ void SfxItemSet::SetRanges( const WhichRangesContainer& pNewRanges ) { // Identical Ranges? if (m_pWhichRanges == pNewRanges) return; assert(svl::detail::validRanges2(pNewRanges)); RecreateRanges_Impl(pNewRanges); m_pWhichRanges = pNewRanges; } void SfxItemSet::SetRanges( WhichRangesContainer&& pNewRanges ) { // Identical Ranges? if (m_pWhichRanges == pNewRanges) return; assert(svl::detail::validRanges2(pNewRanges)); RecreateRanges_Impl(pNewRanges); m_pWhichRanges = std::move(pNewRanges); } void SfxItemSet::RecreateRanges_Impl(const WhichRangesContainer& pNewRanges) { // create new item-array (by iterating through all new ranges) const auto nSize = svl::detail::CountRanges(pNewRanges); SfxPoolItem const** aNewItems = new const SfxPoolItem* [ nSize ]; sal_uInt16 nNewCount = 0; if (m_nCount == 0) memset( aNewItems, 0, nSize * sizeof( SfxPoolItem* ) ); else { sal_uInt16 n = 0; for ( auto const & pRange : pNewRanges ) { // iterate through all ids in the range for ( sal_uInt16 nWID = pRange.first; nWID <= pRange.second; ++nWID, ++n ) { // direct move of pointer (not via pool) SfxItemState eState = GetItemState( nWID, false, aNewItems+n ); if ( SfxItemState::SET == eState ) { // increment new item count and possibly increment ref count ++nNewCount; aNewItems[n]->AddRef(); } else if ( SfxItemState::DISABLED == eState ) { // put "disabled" item ++nNewCount; aNewItems[n] = new SfxVoidItem(0); } else if ( SfxItemState::DONTCARE == eState ) { ++nNewCount; aNewItems[n] = INVALID_POOL_ITEM; } else { // default aNewItems[n] = nullptr; } } } // free old items sal_uInt16 nOldTotalCount = TotalCount(); for ( sal_uInt16 nItem = 0; nItem < nOldTotalCount; ++nItem ) { const SfxPoolItem *pItem = m_ppItems[nItem]; if ( pItem && !IsInvalidItem(pItem) && pItem->Which() ) m_pPool->Remove(*pItem); } } // replace old items-array and ranges if (m_bItemsFixed) m_bItemsFixed = false; else delete[] m_ppItems; m_ppItems = aNewItems; m_nCount = nNewCount; } /** * The SfxItemSet takes over exactly those SfxPoolItems that are * set in rSet and are in their own Which range. All others are removed. * The SfxItemPool is retained, such that SfxPoolItems that have been * taken over, are moved from the rSet's SfxItemPool to the SfxItemPool * of *this. * * SfxPoolItems in rSet, for which holds 'IsInvalidItem() == true' are * taken over as invalid items. * * @return bool true * SfxPoolItems have been taken over * * false * No SfxPoolItems have been taken over, because * e.g. the Which ranges of SfxItemSets are not intersecting * or the intersection does not contain SfxPoolItems that are * set in rSet */ bool SfxItemSet::Set ( const SfxItemSet& rSet, /* The SfxItemSet, whose SfxPoolItems are to been taken over */ bool bDeep /* true (default) The SfxPoolItems from the parents that may be present in rSet, are also taken over into this SfxPoolItemSet false The SfxPoolItems from the parents of rSet are not taken into account */ ) { bool bRet = false; if (m_nCount) ClearItem(); if ( bDeep ) { SfxWhichIter aIter1(*this); SfxWhichIter aIter2(rSet); sal_uInt16 nWhich1 = aIter1.FirstWhich(); sal_uInt16 nWhich2 = aIter2.FirstWhich(); for (;;) { if (!nWhich1 || !nWhich2) break; if (nWhich1 > nWhich2) { nWhich2 = aIter2.NextWhich(); continue; } if (nWhich1 < nWhich2) { nWhich1 = aIter1.NextWhich(); continue; } const SfxPoolItem* pItem; if( SfxItemState::SET == aIter2.GetItemState( true, &pItem ) ) bRet |= nullptr != Put( *pItem, pItem->Which() ); nWhich1 = aIter1.NextWhich(); nWhich2 = aIter2.NextWhich(); } } else bRet = Put(rSet, false); return bRet; } const SfxPoolItem* SfxItemSet::GetItem(sal_uInt16 nId, bool bSearchInParent) const { // Convert to WhichId sal_uInt16 nWhich = GetPool()->GetWhich(nId); // Is the Item set or 'bDeep == true' available? const SfxPoolItem *pItem = nullptr; SfxItemState eState = GetItemState(nWhich, bSearchInParent, &pItem); if (bSearchInParent && SfxItemState::DEFAULT == eState && SfxItemPool::IsWhich(nWhich)) { pItem = &m_pPool->GetDefaultItem(nWhich); } return pItem; } const SfxPoolItem& SfxItemSet::Get( sal_uInt16 nWhich, bool bSrchInParent) const { // Search the Range in which the Which is located in: const SfxItemSet* pCurrentSet = this; do { if( pCurrentSet->Count() ) { SfxPoolItem const** ppFnd = pCurrentSet->m_ppItems; for (auto const & pPtr : pCurrentSet->m_pWhichRanges) { if( pPtr.first <= nWhich && nWhich <= pPtr.second ) { // In this Range ppFnd += nWhich - pPtr.first; if( *ppFnd ) { if( IsInvalidItem(*ppFnd) ) { //FIXME: The following code is duplicated further down assert(m_pPool); //!((SfxAllItemSet *)this)->aDefault.SetWhich(nWhich); //!return aDefault; return m_pPool->GetDefaultItem( nWhich ); } #ifdef DBG_UTIL const SfxPoolItem *pItem = *ppFnd; if ( pItem->IsVoidItem() || !pItem->Which() ) SAL_INFO("svl.items", "SFX_WARNING: Getting disabled Item"); #endif return **ppFnd; } break; // Continue with Parent } ppFnd += pPtr.second - pPtr.first + 1; } } //TODO: Search until end of Range: What are we supposed to do now? To the Parent or Default?? // if( !*pPtr ) // Until the end of the search Range? // break; if (!bSrchInParent) break; pCurrentSet = pCurrentSet->m_pParent; } while (nullptr != pCurrentSet); // Get the Default from the Pool and return assert(m_pPool); return m_pPool->GetDefaultItem( nWhich ); } /** * Notification callback */ void SfxItemSet::Changed( const SfxPoolItem&, const SfxPoolItem& ) { } sal_uInt16 SfxItemSet::TotalCount() const { return svl::detail::CountRanges(m_pWhichRanges); } /** * Only retain the Items that are also present in rSet * (nevermind their value). */ void SfxItemSet::Intersect( const SfxItemSet& rSet ) { assert(m_pPool && "Not implemented without Pool"); if( !Count() ) // None set? return; // Delete all Items not contained in rSet if( !rSet.Count() ) { ClearItem(); // Delete everything return; } // If the Ranges are identical, we can easily process it if( m_pWhichRanges == rSet.m_pWhichRanges ) { sal_uInt16 nSize = TotalCount(); SfxPoolItem const** ppFnd1 = m_ppItems; SfxPoolItem const** ppFnd2 = rSet.m_ppItems; for( ; nSize; --nSize, ++ppFnd1, ++ppFnd2 ) if( *ppFnd1 && !*ppFnd2 ) { // Delete from Pool if( !IsInvalidItem( *ppFnd1 ) ) { sal_uInt16 nWhich = (*ppFnd1)->Which(); if (SfxItemPool::IsWhich(nWhich)) { const SfxPoolItem& rNew = m_pParent ? m_pParent->Get( nWhich ) : m_pPool->GetDefaultItem( nWhich ); Changed( **ppFnd1, rNew ); } m_pPool->Remove( **ppFnd1 ); } *ppFnd1 = nullptr; --m_nCount; } } else { SfxWhichIter aIter( *this ); sal_uInt16 nWhich = aIter.FirstWhich(); while ( nWhich ) { if( SfxItemState::UNKNOWN == rSet.GetItemState( nWhich, false ) ) aIter.ClearItem(); // Delete nWhich = aIter.NextWhich(); } } } void SfxItemSet::Differentiate( const SfxItemSet& rSet ) { if( !Count() || !rSet.Count() )// None set? return; // If the Ranges are identical, we can easily process it if( m_pWhichRanges == rSet.m_pWhichRanges ) { sal_uInt16 nSize = TotalCount(); SfxPoolItem const** ppFnd1 = m_ppItems; SfxPoolItem const** ppFnd2 = rSet.m_ppItems; for( ; nSize; --nSize, ++ppFnd1, ++ppFnd2 ) if( *ppFnd1 && *ppFnd2 ) { // Delete from Pool if( !IsInvalidItem( *ppFnd1 ) ) { sal_uInt16 nWhich = (*ppFnd1)->Which(); if (SfxItemPool::IsWhich(nWhich)) { const SfxPoolItem& rNew = m_pParent ? m_pParent->Get( nWhich ) : m_pPool->GetDefaultItem( nWhich ); Changed( **ppFnd1, rNew ); } m_pPool->Remove( **ppFnd1 ); } *ppFnd1 = nullptr; --m_nCount; } } else { SfxWhichIter aIter( *this ); sal_uInt16 nWhich = aIter.FirstWhich(); while ( nWhich ) { if( SfxItemState::SET == rSet.GetItemState( nWhich, false ) ) aIter.ClearItem(); // Delete nWhich = aIter.NextWhich(); } } } /** * Decision table for MergeValue(s) * * Principles: * 1. If the Which value in the 1st set is "unknown", there's never any action * 2. If the Which value in the 2nd set is "unknown", it's made the "default" * 3. For comparisons the values of the "default" Items are take into account * * 1st Item 2nd Item Values bIgnoreDefs Remove Assign Add * * set set == sal_False - - - * default set == sal_False - - - * dontcare set == sal_False - - - * unknown set == sal_False - - - * set default == sal_False - - - * default default == sal_False - - - * dontcare default == sal_False - - - * unknown default == sal_False - - - * set dontcare == sal_False 1st Item -1 - * default dontcare == sal_False - -1 - * dontcare dontcare == sal_False - - - * unknown dontcare == sal_False - - - * set unknown == sal_False 1st Item -1 - * default unknown == sal_False - - - * dontcare unknown == sal_False - - - * unknown unknown == sal_False - - - * * set set != sal_False 1st Item -1 - * default set != sal_False - -1 - * dontcare set != sal_False - - - * unknown set != sal_False - - - * set default != sal_False 1st Item -1 - * default default != sal_False - - - * dontcare default != sal_False - - - * unknown default != sal_False - - - * set dontcare != sal_False 1st Item -1 - * default dontcare != sal_False - -1 - * dontcare dontcare != sal_False - - - * unknown dontcare != sal_False - - - * set unknown != sal_False 1st Item -1 - * default unknown != sal_False - - - * dontcare unknown != sal_False - - - * unknown unknown != sal_False - - - * * set set == sal_True - - - * default set == sal_True - 2nd Item 2nd Item * dontcare set == sal_True - - - * unknown set == sal_True - - - * set default == sal_True - - - * default default == sal_True - - - * dontcare default == sal_True - - - * unknown default == sal_True - - - * set dontcare == sal_True - - - * default dontcare == sal_True - -1 - * dontcare dontcare == sal_True - - - * unknown dontcare == sal_True - - - * set unknown == sal_True - - - * default unknown == sal_True - - - * dontcare unknown == sal_True - - - * unknown unknown == sal_True - - - * * set set != sal_True 1st Item -1 - * default set != sal_True - 2nd Item 2nd Item * dontcare set != sal_True - - - * unknown set != sal_True - - - * set default != sal_True - - - * default default != sal_True - - - * dontcare default != sal_True - - - * unknown default != sal_True - - - * set dontcare != sal_True 1st Item -1 - * default dontcare != sal_True - -1 - * dontcare dontcare != sal_True - - - * unknown dontcare != sal_True - - - * set unknown != sal_True - - - * default unknown != sal_True - - - * dontcare unknown != sal_True - - - * unknown unknown != sal_True - - - */ static void MergeItem_Impl( SfxItemPool *_pPool, sal_uInt16 &rCount, const SfxPoolItem **ppFnd1, const SfxPoolItem *pFnd2, bool bIgnoreDefaults ) { assert(ppFnd1 != nullptr && "Merging to 0-Item"); // 1st Item is Default? if ( !*ppFnd1 ) { if ( IsInvalidItem(pFnd2) ) // Decision table: default, dontcare, doesn't matter, doesn't matter *ppFnd1 = INVALID_POOL_ITEM; else if ( pFnd2 && !bIgnoreDefaults && _pPool->GetDefaultItem(pFnd2->Which()) != *pFnd2 ) // Decision table: default, set, !=, sal_False *ppFnd1 = INVALID_POOL_ITEM; else if ( pFnd2 && bIgnoreDefaults ) // Decision table: default, set, doesn't matter, sal_True *ppFnd1 = &_pPool->Put( *pFnd2 ); if ( *ppFnd1 ) ++rCount; } // 1st Item set? else if ( !IsInvalidItem(*ppFnd1) ) { if ( !pFnd2 ) { // 2nd Item is Default if ( !bIgnoreDefaults && **ppFnd1 != _pPool->GetDefaultItem((*ppFnd1)->Which()) ) { // Decision table: set, default, !=, sal_False _pPool->Remove( **ppFnd1 ); *ppFnd1 = INVALID_POOL_ITEM; } } else if ( IsInvalidItem(pFnd2) ) { // 2nd Item is dontcare if ( !bIgnoreDefaults || **ppFnd1 != _pPool->GetDefaultItem( (*ppFnd1)->Which()) ) { // Decision table: set, dontcare, doesn't matter, sal_False // or: set, dontcare, !=, sal_True _pPool->Remove( **ppFnd1 ); *ppFnd1 = INVALID_POOL_ITEM; } } else { // 2nd Item is set if ( **ppFnd1 != *pFnd2 ) { // Decision table: set, set, !=, doesn't matter _pPool->Remove( **ppFnd1 ); *ppFnd1 = INVALID_POOL_ITEM; } } } } void SfxItemSet::MergeValues( const SfxItemSet& rSet ) { // WARNING! When making changes/fixing bugs, always update the table above!! assert( GetPool() == rSet.GetPool() && "MergeValues with different Pools" ); // If the Ranges match, they are easier to process! if( m_pWhichRanges == rSet.m_pWhichRanges ) { sal_uInt16 nSize = TotalCount(); SfxPoolItem const** ppFnd1 = m_ppItems; SfxPoolItem const** ppFnd2 = rSet.m_ppItems; for( ; nSize; --nSize, ++ppFnd1, ++ppFnd2 ) MergeItem_Impl(m_pPool, m_nCount, ppFnd1, *ppFnd2, false/*bIgnoreDefaults*/); } else { SfxWhichIter aIter( rSet ); sal_uInt16 nWhich; while( 0 != ( nWhich = aIter.NextWhich() ) ) { const SfxPoolItem* pItem = nullptr; (void)aIter.GetItemState( true, &pItem ); if( !pItem ) { // Not set, so default MergeValue( rSet.GetPool()->GetDefaultItem( nWhich ) ); } else if( IsInvalidItem( pItem ) ) // don't care InvalidateItem( nWhich ); else MergeValue( *pItem ); } } } void SfxItemSet::MergeValue( const SfxPoolItem& rAttr, bool bIgnoreDefaults ) { SfxPoolItem const** ppFnd = m_ppItems; const sal_uInt16 nWhich = rAttr.Which(); for( auto const & pPtr : m_pWhichRanges ) { // In this Range?? if( pPtr.first <= nWhich && nWhich <= pPtr.second ) { ppFnd += nWhich - pPtr.first; MergeItem_Impl(m_pPool, m_nCount, ppFnd, &rAttr, bIgnoreDefaults); break; } ppFnd += pPtr.second - pPtr.first + 1; } } void SfxItemSet::InvalidateItem( sal_uInt16 nWhich ) { SfxPoolItem const** ppFnd = m_ppItems; for( auto const & pPtr : m_pWhichRanges ) { if( pPtr.first <= nWhich && nWhich <= pPtr.second ) { // In this Range? ppFnd += nWhich - pPtr.first; if( *ppFnd ) // Set for me { if( !IsInvalidItem(*ppFnd) ) { m_pPool->Remove( **ppFnd ); *ppFnd = INVALID_POOL_ITEM; } } else { *ppFnd = INVALID_POOL_ITEM; ++m_nCount; } break; } ppFnd += pPtr.second - pPtr.first + 1; } } sal_uInt16 SfxItemSet::GetWhichByPos( sal_uInt16 nPos ) const { sal_uInt16 n = 0; for( auto const & pPtr : m_pWhichRanges ) { n = ( pPtr.second - pPtr.first ) + 1; if( nPos < n ) return pPtr.first + nPos; nPos = nPos - n; } assert(false); return 0; } bool SfxItemSet::operator==(const SfxItemSet &rCmp) const { return Equals( rCmp, true); } bool SfxItemSet::Equals(const SfxItemSet &rCmp, bool bComparePool) const { // Values we can get quickly need to be the same const bool bDifferentPools = (m_pPool != rCmp.m_pPool); if ( (bComparePool && m_pParent != rCmp.m_pParent) || (bComparePool && bDifferentPools) || Count() != rCmp.Count() ) return false; // If we reach here and bDifferentPools==true that means bComparePool==false. // Counting Ranges takes longer; they also need to be the same, however sal_uInt16 nCount1 = TotalCount(); sal_uInt16 nCount2 = rCmp.TotalCount(); if ( nCount1 != nCount2 ) return false; // Are the Ranges themselves unequal? for (sal_Int32 i = 0; i < m_pWhichRanges.size(); ++i) { if (m_pWhichRanges[i] != rCmp.m_pWhichRanges[i]) { // We must use the slow method then SfxWhichIter aIter( *this ); for ( sal_uInt16 nWh = aIter.FirstWhich(); nWh; nWh = aIter.NextWhich() ) { // If the pointer of the poolable Items are unequal, the Items must match const SfxPoolItem *pItem1 = nullptr, *pItem2 = nullptr; if ( GetItemState( nWh, false, &pItem1 ) != rCmp.GetItemState( nWh, false, &pItem2 ) || ( pItem1 != pItem2 && ( !pItem1 || IsInvalidItem(pItem1) || (m_pPool->IsItemPoolable(*pItem1) && *pItem1 != *pItem2 ) ) ) ) return false; } return true; } } // Are all pointers the same? if (0 == memcmp( m_ppItems, rCmp.m_ppItems, nCount1 * sizeof(m_ppItems[0]) )) return true; // We need to compare each one separately then const SfxPoolItem **ppItem1 = m_ppItems; const SfxPoolItem **ppItem2 = rCmp.m_ppItems; for ( sal_uInt16 nPos = 0; nPos < nCount1; ++nPos ) { // If the pointers of the poolable Items are not the same, the Items // must match if ( *ppItem1 != *ppItem2 && ( ( !*ppItem1 || !*ppItem2 ) || ( IsInvalidItem(*ppItem1) || IsInvalidItem(*ppItem2) ) || (!bDifferentPools && m_pPool->IsItemPoolable(**ppItem1)) || **ppItem1 != **ppItem2 ) ) return false; ++ppItem1; ++ppItem2; } return true; } std::unique_ptr SfxItemSet::Clone(bool bItems, SfxItemPool *pToPool ) const { if (pToPool && pToPool != m_pPool) { std::unique_ptr pNewSet(new SfxItemSet(*pToPool, m_pWhichRanges)); if ( bItems ) { SfxWhichIter aIter(*pNewSet); sal_uInt16 nWhich = aIter.FirstWhich(); while ( nWhich ) { const SfxPoolItem* pItem; if ( SfxItemState::SET == GetItemState( nWhich, false, &pItem ) ) pNewSet->Put( *pItem, pItem->Which() ); nWhich = aIter.NextWhich(); } } return pNewSet; } else return std::unique_ptr(bItems ? new SfxItemSet(*this) : new SfxItemSet(*m_pPool, m_pWhichRanges)); } SfxItemSet SfxItemSet::CloneAsValue(bool bItems, SfxItemPool *pToPool ) const { // if you are trying to clone, then the thing you are cloning is polymorphic, which means // it cannot be cloned as a value assert((typeid(*this) == typeid(SfxItemSet)) && "cannot call this on a subclass of SfxItemSet"); if (pToPool && pToPool != m_pPool) { SfxItemSet aNewSet(*pToPool, m_pWhichRanges); if ( bItems ) { SfxWhichIter aIter(aNewSet); sal_uInt16 nWhich = aIter.FirstWhich(); while ( nWhich ) { const SfxPoolItem* pItem; if ( SfxItemState::SET == GetItemState( nWhich, false, &pItem ) ) aNewSet.Put( *pItem, pItem->Which() ); nWhich = aIter.NextWhich(); } } return aNewSet; } else return bItems ? *this : SfxItemSet(*m_pPool, m_pWhichRanges); } void SfxItemSet::PutDirect(const SfxPoolItem &rItem) { SfxPoolItem const** ppFnd = m_ppItems; const sal_uInt16 nWhich = rItem.Which(); #ifdef DBG_UTIL IsPoolDefaultItem(&rItem) || m_pPool->CheckItemInPool(&rItem); // Only cause assertion in the callees #endif for( auto const & pPtr : m_pWhichRanges) { if( pPtr.first <= nWhich && nWhich <= pPtr.second ) { // In this Range? ppFnd += nWhich - pPtr.first; const SfxPoolItem* pOld = *ppFnd; if( pOld ) // One already present { if( rItem == **ppFnd ) return; // Already present! m_pPool->Remove( *pOld ); } else ++m_nCount; // Add the new one if( IsPoolDefaultItem(&rItem) ) *ppFnd = &m_pPool->Put( rItem ); else { *ppFnd = &rItem; if( !IsStaticDefaultItem( &rItem ) ) rItem.AddRef(); } return; } ppFnd += pPtr.second - pPtr.first + 1; } } void SfxItemSet::dumpAsXml(xmlTextWriterPtr pWriter) const { (void)xmlTextWriterStartElement(pWriter, BAD_CAST("SfxItemSet")); SfxItemIter aIter(*this); for (const SfxPoolItem* pItem = aIter.GetCurItem(); pItem; pItem = aIter.NextItem()) { if (IsInvalidItem(pItem)) { (void)xmlTextWriterStartElement(pWriter, BAD_CAST("invalid")); (void)xmlTextWriterEndElement(pWriter); } else { pItem->dumpAsXml(pWriter); } } (void)xmlTextWriterEndElement(pWriter); } // ----------------------------------------------- class SfxAllItemSet SfxAllItemSet::SfxAllItemSet( SfxItemPool &rPool ) : SfxItemSet(rPool, SfxAllItemSetFlag::Flag) { } SfxAllItemSet::SfxAllItemSet(const SfxItemSet &rCopy) : SfxItemSet(rCopy) { } /** * Explicitly define this ctor to avoid auto-generation by the compiler. * The compiler does not take the ctor with the 'const SfxItemSet&'! */ SfxAllItemSet::SfxAllItemSet(const SfxAllItemSet &rCopy) : SfxItemSet(rCopy) { } /** * Putting with automatic extension of the WhichId with the ID of the Item. */ const SfxPoolItem* SfxAllItemSet::PutImpl( const SfxPoolItem& rItem, sal_uInt16 nWhich, bool bPassingOwnership ) { MergeRange(nWhich, nWhich); return SfxItemSet::PutImpl(rItem, nWhich, bPassingOwnership); } /** * Disable Item * Using a VoidItem with Which value 0 */ void SfxItemSet::DisableItem(sal_uInt16 nWhich) { Put( SfxVoidItem(0), nWhich ); } std::unique_ptr SfxAllItemSet::Clone(bool bItems, SfxItemPool *pToPool ) const { if (pToPool && pToPool != m_pPool) { std::unique_ptr pNewSet(new SfxAllItemSet( *pToPool )); if ( bItems ) pNewSet->Set( *this ); return pNewSet; } else return std::unique_ptr(bItems ? new SfxAllItemSet(*this) : new SfxAllItemSet(*m_pPool)); } WhichRangesContainer::WhichRangesContainer( const WhichPair* wids, sal_Int32 nSize ) { auto p = new WhichPair[nSize]; for (int i=0; i aRangesTable(new WhichPair[nOldCount+1]); int aRangesTableSize = 0; bool bAdded = false; for (const auto& rPair : *this) { if (!bAdded && rPair.first >= nFrom) { // insert new range, keep ranges sorted aRangesTable[aRangesTableSize++] = { nFrom, nTo }; bAdded = true; } // insert current range aRangesTable[aRangesTableSize++] = rPair; } if (!bAdded) aRangesTable[aRangesTableSize++] = { nFrom, nTo }; // true if ranges overlap or adjoin, false if ranges are separate auto needMerge = [](WhichPair lhs, WhichPair rhs) { return (lhs.first - 1) <= rhs.second && (rhs.first - 1) <= lhs.second; }; auto it = aRangesTable.get(); auto endIt = aRangesTable.get() + aRangesTableSize; // we have at least one range at this point for (;;) { auto itNext = std::next(it); if (itNext == endIt) break; // check if neighbouring ranges overlap or adjoin if (needMerge(*it, *itNext)) { // lower bounds are sorted, implies: it->first = min(it[0].first, it[1].first) it->second = std::max(it->second, itNext->second); // remove next element std::move(std::next(itNext), endIt, itNext); --aRangesTableSize; endIt = aRangesTable.get() + aRangesTableSize; } else ++it; } return WhichRangesContainer(std::move(aRangesTable), aRangesTableSize); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */