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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-15 05:54:39 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-15 05:54:39 +0000 |
commit | 267c6f2ac71f92999e969232431ba04678e7437e (patch) | |
tree | 358c9467650e1d0a1d7227a21dac2e3d08b622b2 /sc/inc/mtvfunctions.hxx | |
parent | Initial commit. (diff) | |
download | libreoffice-267c6f2ac71f92999e969232431ba04678e7437e.tar.xz libreoffice-267c6f2ac71f92999e969232431ba04678e7437e.zip |
Adding upstream version 4:24.2.0.upstream/4%24.2.0
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'sc/inc/mtvfunctions.hxx')
-rw-r--r-- | sc/inc/mtvfunctions.hxx | 557 |
1 files changed, 557 insertions, 0 deletions
diff --git a/sc/inc/mtvfunctions.hxx b/sc/inc/mtvfunctions.hxx new file mode 100644 index 0000000000..9fe394faff --- /dev/null +++ b/sc/inc/mtvfunctions.hxx @@ -0,0 +1,557 @@ +/* -*- 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/. + */ + +#pragma once + +#include <cstdlib> +#include <mdds/multi_type_vector/types.hpp> + +namespace sc { + +template<typename SizeT, typename Ret = bool> +struct FuncElseNoOp +{ + Ret operator() (mdds::mtv::element_t, SizeT, SizeT) const + { + return Ret(); + } +}; + +template<typename FuncElem, typename Elem> +struct FuncNotElem +{ + FuncElem& func; + FuncNotElem(FuncElem& f) : func(f) {} + bool operator() (size_t s, Elem elem) const + { + return !func(s, elem); + } +}; + +/** + * Generic algorithm to parse blocks of multi_type_vector either partially + * or fully. + */ +template<typename StoreT, typename Func> +typename StoreT::const_iterator +ParseBlock( + const typename StoreT::const_iterator& itPos, const StoreT& rStore, Func& rFunc, + typename StoreT::size_type nStart, typename StoreT::size_type nEnd) +{ + typedef std::pair<typename StoreT::const_iterator, typename StoreT::size_type> PositionType; + + PositionType aPos = rStore.position(itPos, nStart); + typename StoreT::const_iterator it = aPos.first; + typename StoreT::size_type nOffset = aPos.second; + typename StoreT::size_type nDataSize = 0; + typename StoreT::size_type nTopRow = nStart; + + for (; it != rStore.end() && nTopRow <= nEnd; ++it, nOffset = 0, nTopRow += nDataSize) + { + bool bLastBlock = false; + nDataSize = it->size - nOffset; + if (nTopRow + nDataSize - 1 > nEnd) + { + // Truncate the block. + nDataSize = nEnd - nTopRow + 1; + bLastBlock = true; + } + + rFunc(*it, nOffset, nDataSize); + + if (bLastBlock) + break; + } + + return it; +} + +/** + * Non-const variant of the above function. TODO: Find a way to merge these + * two in an elegant way. + */ +template<typename StoreT, typename Func> +typename StoreT::iterator +ProcessBlock(const typename StoreT::iterator& itPos, StoreT& rStore, Func& rFunc, typename StoreT::size_type nStart, typename StoreT::size_type nEnd) +{ + typedef std::pair<typename StoreT::iterator, typename StoreT::size_type> PositionType; + + PositionType aPos = rStore.position(itPos, nStart); + typename StoreT::iterator it = aPos.first; + typename StoreT::size_type nOffset = aPos.second; + typename StoreT::size_type nDataSize = 0; + typename StoreT::size_type nCurRow = nStart; + + for (; it != rStore.end() && nCurRow <= nEnd; ++it, nOffset = 0, nCurRow += nDataSize) + { + bool bLastBlock = false; + nDataSize = it->size - nOffset; + if (nCurRow + nDataSize - 1 > nEnd) + { + // Truncate the block. + nDataSize = nEnd - nCurRow + 1; + bLastBlock = true; + } + + rFunc(*it, nOffset, nDataSize); + + if (bLastBlock) + break; + } + + return it; +} + +template<typename BlkT, typename ItrT, typename NodeT, typename FuncElem> +void EachElem(NodeT& rNode, size_t nOffset, size_t nDataSize, FuncElem& rFuncElem) +{ + ItrT it = BlkT::begin(*rNode.data); + std::advance(it, nOffset); + ItrT itEnd = it; + std::advance(itEnd, nDataSize); + size_t nRow = rNode.position + nOffset; + for (; it != itEnd; ++it, ++nRow) + rFuncElem(nRow, *it); +} + +template<typename BlkT, typename ItrT, typename NodeT, typename FuncElem> +void EachElem(NodeT& rNode, FuncElem& rFuncElem) +{ + auto it = BlkT::begin(*rNode.data); + auto itEnd = BlkT::end(*rNode.data); + size_t nRow = rNode.position; + for (; it != itEnd; ++it, ++nRow) + rFuncElem(nRow, *it); +} + +template<typename BlkT, typename ItrT, typename NodeT, typename FuncElem> +void EachElemReverse(NodeT& rNode, FuncElem& rFuncElem) +{ + auto it = BlkT::rbegin(*rNode.data); + auto itEnd = BlkT::rend(*rNode.data); + size_t nRow = rNode.position; + for (; it != itEnd; ++it, ++nRow) + rFuncElem(nRow, *it); +} + +template<typename BlkT, typename StoreT, typename FuncElem> +std::pair<typename StoreT::const_iterator, size_t> +CheckElem( + const StoreT& rStore, const typename StoreT::const_iterator& it, size_t nOffset, size_t nDataSize, + FuncElem& rFuncElem) +{ + typedef std::pair<typename StoreT::const_iterator, size_t> PositionType; + + typename BlkT::const_iterator itData = BlkT::begin(*it->data); + std::advance(itData, nOffset); + typename BlkT::const_iterator itDataEnd = itData; + std::advance(itDataEnd, nDataSize); + size_t nTopRow = it->position + nOffset; + size_t nRow = nTopRow; + for (; itData != itDataEnd; ++itData, ++nRow) + { + if (rFuncElem(nRow, *itData)) + return PositionType(it, nRow - it->position); + } + + return PositionType(rStore.end(), 0); +} + +template<typename StoreT, typename BlkT, typename FuncElem, typename FuncElse> +void ParseElements1(const StoreT& rStore, FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typename StoreT::size_type nTopRow = 0, nDataSize = 0; + typename StoreT::const_iterator it = rStore.begin(), itEnd = rStore.end(); + for (; it != itEnd; ++it, nTopRow += nDataSize) + { + nDataSize = it->size; + if (it->type != BlkT::block_type) + { + rFuncElse(it->type, nTopRow, nDataSize); + continue; + } + + EachElem<BlkT, typename BlkT::const_iterator>(*it, rFuncElem); + } +} + +template<typename StoreT, typename BlkT, typename FuncElem, typename FuncElse> +typename StoreT::const_iterator +ParseElements1( + const typename StoreT::const_iterator& itPos, const StoreT& rStore, + typename StoreT::size_type nStart, typename StoreT::size_type nEnd, + FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typedef std::pair<typename StoreT::const_iterator, typename StoreT::size_type> PositionType; + + PositionType aPos = rStore.position(itPos, nStart); + typename StoreT::const_iterator it = aPos.first; + typename StoreT::size_type nOffset = aPos.second; + typename StoreT::size_type nDataSize = 0; + typename StoreT::size_type nTopRow = nStart; + + for (; it != rStore.end() && nTopRow <= nEnd; ++it, nOffset = 0, nTopRow += nDataSize) + { + bool bLastBlock = false; + nDataSize = it->size - nOffset; + if (nTopRow + nDataSize - 1 > nEnd) + { + // Truncate the block. + nDataSize = nEnd - nTopRow + 1; + bLastBlock = true; + } + + if (it->type == BlkT::block_type) + EachElem<BlkT, typename BlkT::const_iterator>(*it, nOffset, nDataSize, rFuncElem); + else + rFuncElse(it->type, nTopRow, nDataSize); + + if (bLastBlock) + break; + } + + return it; +}; + +template<typename StoreT, typename Blk1, typename Blk2, typename FuncElem, typename FuncElse> +typename StoreT::const_iterator +ParseElements2( + const typename StoreT::const_iterator& itPos, const StoreT& rStore, typename StoreT::size_type nStart, typename StoreT::size_type nEnd, + FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typedef std::pair<typename StoreT::const_iterator, typename StoreT::size_type> PositionType; + + PositionType aPos = rStore.position(itPos, nStart); + typename StoreT::const_iterator it = aPos.first; + typename StoreT::size_type nOffset = aPos.second; + typename StoreT::size_type nDataSize = 0; + typename StoreT::size_type nTopRow = nStart; + + for (; it != rStore.end() && nTopRow <= nEnd; ++it, nOffset = 0, nTopRow += nDataSize) + { + bool bLastBlock = false; + nDataSize = it->size - nOffset; + if (nTopRow + nDataSize - 1 > nEnd) + { + // Truncate the block. + nDataSize = nEnd - nTopRow + 1; + bLastBlock = true; + } + + switch (it->type) + { + case Blk1::block_type: + EachElem<Blk1, typename Blk1::const_iterator>(*it, nOffset, nDataSize, rFuncElem); + break; + case Blk2::block_type: + EachElem<Blk2, typename Blk2::const_iterator>(*it, nOffset, nDataSize, rFuncElem); + break; + default: + rFuncElse(it->type, nTopRow, nDataSize); + } + + if (bLastBlock) + break; + } + + return it; +} + +template<typename StoreT, typename Blk1, typename Blk2, typename Blk3, typename Blk4, typename FuncElem, typename FuncElse> +typename StoreT::const_iterator +ParseElements4( + const typename StoreT::const_iterator& itPos, const StoreT& rStore, typename StoreT::size_type nStart, typename StoreT::size_type nEnd, + FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typedef std::pair<typename StoreT::const_iterator, typename StoreT::size_type> PositionType; + + PositionType aPos = rStore.position(itPos, nStart); + typename StoreT::const_iterator it = aPos.first; + typename StoreT::size_type nOffset = aPos.second; + typename StoreT::size_type nDataSize = 0; + typename StoreT::size_type nTopRow = nStart; + + for (; it != rStore.end() && nTopRow <= nEnd; ++it, nOffset = 0, nTopRow += nDataSize) + { + bool bLastBlock = false; + nDataSize = it->size - nOffset; + if (nTopRow + nDataSize - 1 > nEnd) + { + // Truncate the block. + nDataSize = nEnd - nTopRow + 1; + bLastBlock = true; + } + + switch (it->type) + { + case Blk1::block_type: + EachElem<Blk1, typename Blk1::const_iterator>(*it, nOffset, nDataSize, rFuncElem); + break; + case Blk2::block_type: + EachElem<Blk2, typename Blk2::const_iterator>(*it, nOffset, nDataSize, rFuncElem); + break; + case Blk3::block_type: + EachElem<Blk3, typename Blk3::const_iterator>(*it, nOffset, nDataSize, rFuncElem); + break; + case Blk4::block_type: + EachElem<Blk4, typename Blk4::const_iterator>(*it, nOffset, nDataSize, rFuncElem); + break; + default: + rFuncElse(it->type, nTopRow, nDataSize); + } + + if (bLastBlock) + break; + } + + return it; +} + +template<typename StoreT, typename BlkT, typename FuncElem, typename FuncElse> +void ProcessElements1(StoreT& rStore, FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typename StoreT::size_type nTopRow = 0, nDataSize = 0; + typename StoreT::iterator it = rStore.begin(), itEnd = rStore.end(); + for (; it != itEnd; ++it, nTopRow += nDataSize) + { + nDataSize = it->size; + if (it->type != BlkT::block_type) + { + rFuncElse(it->type, nTopRow, nDataSize); + continue; + } + + EachElem<BlkT, typename BlkT::iterator>(*it, rFuncElem); + } +} + +/** + * This variant specifies start and end positions. + */ +template<typename StoreT, typename BlkT, typename FuncElem, typename FuncElse> +typename StoreT::iterator +ProcessElements1( + const typename StoreT::iterator& itPos, StoreT& rStore, + typename StoreT::size_type nStart, typename StoreT::size_type nEnd, + FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typedef std::pair<typename StoreT::iterator, typename StoreT::size_type> PositionType; + + PositionType aPos = rStore.position(itPos, nStart); + typename StoreT::iterator it = aPos.first; + typename StoreT::size_type nOffset = aPos.second; + typename StoreT::size_type nDataSize = 0; + typename StoreT::size_type nTopRow = nStart; + + for (; it != rStore.end() && nTopRow <= nEnd; ++it, nOffset = 0, nTopRow += nDataSize) + { + bool bLastBlock = false; + nDataSize = it->size - nOffset; + if (nTopRow + nDataSize - 1 > nEnd) + { + // Truncate the block. + nDataSize = nEnd - nTopRow + 1; + bLastBlock = true; + } + + if (it->type == BlkT::block_type) + EachElem<BlkT, typename BlkT::iterator>(*it, nOffset, nDataSize, rFuncElem); + else + rFuncElse(it->type, nTopRow, nDataSize); + + if (bLastBlock) + break; + } + + return it; +}; + +template<typename StoreT, typename Blk1, typename Blk2, typename FuncElem, typename FuncElse> +void ProcessElements2(StoreT& rStore, FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typename StoreT::size_type nTopRow = 0, nDataSize = 0; + typename StoreT::iterator it = rStore.begin(), itEnd = rStore.end(); + for (; it != itEnd; ++it, nTopRow += nDataSize) + { + nDataSize = it->size; + switch (it->type) + { + case Blk1::block_type: + EachElem<Blk1, typename Blk1::iterator>(*it, rFuncElem); + break; + case Blk2::block_type: + EachElem<Blk2, typename Blk2::iterator>(*it, rFuncElem); + break; + default: + rFuncElse(it->type, nTopRow, nDataSize); + } + } +} + +template<typename StoreT, typename Blk1, typename Blk2, typename FuncElem, typename FuncElse> +void ProcessElements2Reverse(StoreT& rStore, FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typename StoreT::size_type nTopRow = 0, nDataSize = 0; + typename StoreT::iterator it = rStore.begin(), itEnd = rStore.end(); + for (; it != itEnd; ++it, nTopRow += nDataSize) + { + nDataSize = it->size; + switch (it->type) + { + case Blk1::block_type: + EachElemReverse<Blk1, typename Blk1::iterator>(*it, rFuncElem); + break; + case Blk2::block_type: + EachElemReverse<Blk2, typename Blk2::iterator>(*it, rFuncElem); + break; + default: + rFuncElse(it->type, nTopRow, nDataSize); + } + } +} + +template<typename StoreT, typename Blk1, typename FuncElem, typename FuncElse> +std::pair<typename StoreT::const_iterator, typename StoreT::size_type> +FindElement1( + const StoreT& rStore, typename StoreT::size_type nStart, typename StoreT::size_type nEnd, + FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typedef std::pair<typename StoreT::const_iterator, typename StoreT::size_type> PositionType; + typedef std::pair<typename StoreT::size_type, bool> ElseRetType; + + PositionType aPos = rStore.position(nStart); + typename StoreT::const_iterator it = aPos.first; + typename StoreT::size_type nOffset = aPos.second; + typename StoreT::size_type nDataSize = 0; + typename StoreT::size_type nTopRow = nStart; + + for (; it != rStore.end() && nTopRow <= nEnd; ++it, nOffset = 0, nTopRow += nDataSize) + { + bool bLastBlock = false; + nDataSize = it->size - nOffset; + if (nTopRow + nDataSize - 1 > nEnd) + { + // Truncate the block. + nDataSize = nEnd - nTopRow + 1; + bLastBlock = true; + } + + switch (it->type) + { + case Blk1::block_type: + { + PositionType aRet = CheckElem<Blk1>(rStore, it, nOffset, nDataSize, rFuncElem); + if (aRet.first != rStore.end()) + return aRet; + } + break; + default: + { + ElseRetType aRet = rFuncElse(it->type, nTopRow, nDataSize); + if (aRet.second) + return PositionType(it, aRet.first); + } + } + + if (bLastBlock) + break; + } + + return PositionType(rStore.end(), 0); +} + +template<typename StoreT, typename Blk1, typename Blk2, typename FuncElem, typename FuncElse> +std::pair<typename StoreT::const_iterator, typename StoreT::size_type> +FindElement2( + const StoreT& rStore, typename StoreT::size_type nStart, typename StoreT::size_type nEnd, + FuncElem& rFuncElem, FuncElse& rFuncElse) +{ + typedef std::pair<typename StoreT::const_iterator, typename StoreT::size_type> PositionType; + typedef std::pair<typename StoreT::size_type, bool> ElseRetType; + + PositionType aPos = rStore.position(nStart); + typename StoreT::const_iterator it = aPos.first; + typename StoreT::size_type nOffset = aPos.second; + typename StoreT::size_type nDataSize = 0; + typename StoreT::size_type nTopRow = nStart; + + for (; it != rStore.end() && nTopRow <= nEnd; ++it, nOffset = 0, nTopRow += nDataSize) + { + bool bLastBlock = false; + nDataSize = it->size - nOffset; + if (nTopRow + nDataSize - 1 > nEnd) + { + // Truncate the block. + nDataSize = nEnd - nTopRow + 1; + bLastBlock = true; + } + + switch (it->type) + { + case Blk1::block_type: + { + PositionType aRet = CheckElem<Blk1>(rStore, it, nOffset, nDataSize, rFuncElem); + if (aRet.first != rStore.end()) + return aRet; + } + break; + case Blk2::block_type: + { + PositionType aRet = CheckElem<Blk2>(rStore, it, nOffset, nDataSize, rFuncElem); + if (aRet.first != rStore.end()) + return aRet; + } + break; + default: + { + ElseRetType aRet = rFuncElse(*it, nOffset, nDataSize); + if (aRet.second) + return PositionType(it, aRet.first); + } + } + + if (bLastBlock) + break; + } + + return PositionType(rStore.end(), 0); +} + +// Efficiently set all elements for which the predicate returns true as empty. +template<typename Blk1, typename StoreT, typename FuncElem> +void SetElementsToEmpty1( + StoreT& rStore, FuncElem& rFuncElem) +{ + typedef std::pair<typename StoreT::const_iterator, typename StoreT::size_type> PositionType; + + for (typename StoreT::iterator it = rStore.begin(); it != rStore.end(); ++it) + { + if (it->type == Blk1::block_type) + { + PositionType firstToEmpty = CheckElem<Blk1>(rStore, it, 0, it->size, rFuncElem); + if (firstToEmpty.first != rStore.end()) + { + typename StoreT::size_type nFirstOffset = firstToEmpty.second; + typename StoreT::size_type nRemainingDataSize = it->size - nFirstOffset; + FuncNotElem<FuncElem, typename Blk1::value_type> notFuncElem(rFuncElem); + PositionType lastToEmpty = CheckElem<Blk1>(rStore, it, nFirstOffset, nRemainingDataSize, + notFuncElem); + typename StoreT::size_type nLastOffset = lastToEmpty.first != rStore.end() + ? lastToEmpty.second - 1 : it->size - 1; + it = rStore.set_empty(it, it->position + nFirstOffset, it->position + nLastOffset); + // The returned iterator points to the empty elements block. + assert(it->type == sc::element_type_empty); + } + } + } +} + +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |