// -*- C++ -*- // Copyright (C) 2007-2021 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the terms // of the GNU General Public License as published by the Free Software // Foundation; either version 3, or (at your option) any later // version. // This library is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // Under Section 7 of GPL version 3, you are granted additional // permissions described in the GCC Runtime Library Exception, version // 3.1, as published by the Free Software Foundation. // You should have received a copy of the GNU General Public License and // a copy of the GCC Runtime Library Exception along with this program; // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see // . /** @file parallel/losertree.h * @brief Many generic loser tree variants. * This file is a GNU parallel extension to the Standard C++ Library. */ // Written by Johannes Singler. #ifndef _GLIBCXX_PARALLEL_LOSERTREE_H #define _GLIBCXX_PARALLEL_LOSERTREE_H 1 #include #include #include #include namespace __gnu_parallel { /** * @brief Guarded loser/tournament tree. * * The smallest element is at the top. * * Guarding is done explicitly through one flag _M_sup per element, * inf is not needed due to a better initialization routine. This * is a well-performing variant. * * @param _Tp the element type * @param _Compare the comparator to use, defaults to std::less<_Tp> */ template class _LoserTreeBase { protected: /** @brief Internal representation of a _LoserTree element. */ struct _Loser { /** @brief flag, true iff this is a "maximum" __sentinel. */ bool _M_sup; /** @brief __index of the __source __sequence. */ int _M_source; /** @brief _M_key of the element in the _LoserTree. */ _Tp _M_key; }; unsigned int _M_ik, _M_k, _M_offset; /** log_2{_M_k} */ unsigned int _M_log_k; /** @brief _LoserTree __elements. */ _Loser* _M_losers; /** @brief _Compare to use. */ _Compare _M_comp; /** * @brief State flag that determines whether the _LoserTree is empty. * * Only used for building the _LoserTree. */ bool _M_first_insert; public: /** * @brief The constructor. * * @param __k The number of sequences to merge. * @param __comp The comparator to use. */ _LoserTreeBase(unsigned int __k, _Compare __comp) : _M_comp(__comp) { _M_ik = __k; // Compute log_2{_M_k} for the _Loser Tree _M_log_k = __rd_log2(_M_ik - 1) + 1; // Next greater power of 2. _M_k = 1 << _M_log_k; _M_offset = _M_k; // Avoid default-constructing _M_losers[]._M_key _M_losers = static_cast<_Loser*>(::operator new(2 * _M_k * sizeof(_Loser))); for (unsigned int __i = _M_ik - 1; __i < _M_k; ++__i) _M_losers[__i + _M_k]._M_sup = true; _M_first_insert = true; } /** * @brief The destructor. */ ~_LoserTreeBase() { for (unsigned int __i = 0; __i < (2 * _M_k); ++__i) _M_losers[__i].~_Loser(); ::operator delete(_M_losers); } /** * @brief Initializes the sequence "_M_source" with the element "__key". * * @param __key the element to insert * @param __source __index of the __source __sequence * @param __sup flag that determines whether the value to insert is an * explicit __supremum. */ void __insert_start(const _Tp& __key, int __source, bool __sup) { unsigned int __pos = _M_k + __source; if (_M_first_insert) { // Construct all keys, so we can easily destruct them. for (unsigned int __i = 0; __i < (2 * _M_k); ++__i) ::new(&(_M_losers[__i]._M_key)) _Tp(__key); _M_first_insert = false; } else _M_losers[__pos]._M_key = __key; _M_losers[__pos]._M_sup = __sup; _M_losers[__pos]._M_source = __source; } /** * @return the index of the sequence with the smallest element. */ int __get_min_source() { return _M_losers[0]._M_source; } }; /** * @brief Stable _LoserTree variant. * * Provides the stable implementations of insert_start, __init_winner, * __init and __delete_min_insert. * * Unstable variant is done using partial specialisation below. */ template class _LoserTree : public _LoserTreeBase<_Tp, _Compare> { typedef _LoserTreeBase<_Tp, _Compare> _Base; using _Base::_M_k; using _Base::_M_comp; using _Base::_M_losers; using _Base::_M_first_insert; public: _LoserTree(unsigned int __k, _Compare __comp) : _Base::_LoserTreeBase(__k, __comp) { } unsigned int __init_winner(unsigned int __root) { if (__root >= _M_k) return __root; else { unsigned int __left = __init_winner(2 * __root); unsigned int __right = __init_winner(2 * __root + 1); if (_M_losers[__right]._M_sup || (!_M_losers[__left]._M_sup && !_M_comp(_M_losers[__right]._M_key, _M_losers[__left]._M_key))) { // Left one is less or equal. _M_losers[__root] = _M_losers[__right]; return __left; } else { // Right one is less. _M_losers[__root] = _M_losers[__left]; return __right; } } } void __init() { _M_losers[0] = _M_losers[__init_winner(1)]; } /** * @brief Delete the smallest element and insert a new element from * the previously smallest element's sequence. * * This implementation is stable. */ // Do not pass a const reference since __key will be used as // local variable. void __delete_min_insert(_Tp __key, bool __sup) { using std::swap; #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif int __source = _M_losers[0]._M_source; for (unsigned int __pos = (_M_k + __source) / 2; __pos > 0; __pos /= 2) { // The smaller one gets promoted, ties are broken by _M_source. if ((__sup && (!_M_losers[__pos]._M_sup || _M_losers[__pos]._M_source < __source)) || (!__sup && !_M_losers[__pos]._M_sup && ((_M_comp(_M_losers[__pos]._M_key, __key)) || (!_M_comp(__key, _M_losers[__pos]._M_key) && _M_losers[__pos]._M_source < __source)))) { // The other one is smaller. std::swap(_M_losers[__pos]._M_sup, __sup); std::swap(_M_losers[__pos]._M_source, __source); swap(_M_losers[__pos]._M_key, __key); } } _M_losers[0]._M_sup = __sup; _M_losers[0]._M_source = __source; _M_losers[0]._M_key = __key; } }; /** * @brief Unstable _LoserTree variant. * * Stability (non-stable here) is selected with partial specialization. */ template class _LoserTree : public _LoserTreeBase<_Tp, _Compare> { typedef _LoserTreeBase<_Tp, _Compare> _Base; using _Base::_M_log_k; using _Base::_M_k; using _Base::_M_comp; using _Base::_M_losers; using _Base::_M_first_insert; public: _LoserTree(unsigned int __k, _Compare __comp) : _Base::_LoserTreeBase(__k, __comp) { } /** * Computes the winner of the competition at position "__root". * * Called recursively (starting at 0) to build the initial tree. * * @param __root __index of the "game" to start. */ unsigned int __init_winner(unsigned int __root) { if (__root >= _M_k) return __root; else { unsigned int __left = __init_winner(2 * __root); unsigned int __right = __init_winner(2 * __root + 1); if (_M_losers[__right]._M_sup || (!_M_losers[__left]._M_sup && !_M_comp(_M_losers[__right]._M_key, _M_losers[__left]._M_key))) { // Left one is less or equal. _M_losers[__root] = _M_losers[__right]; return __left; } else { // Right one is less. _M_losers[__root] = _M_losers[__left]; return __right; } } } void __init() { _M_losers[0] = _M_losers[__init_winner(1)]; } /** * Delete the _M_key smallest element and insert the element __key * instead. * * @param __key the _M_key to insert * @param __sup true iff __key is an explicitly marked supremum */ // Do not pass a const reference since __key will be used as local // variable. void __delete_min_insert(_Tp __key, bool __sup) { using std::swap; #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif int __source = _M_losers[0]._M_source; for (unsigned int __pos = (_M_k + __source) / 2; __pos > 0; __pos /= 2) { // The smaller one gets promoted. if (__sup || (!_M_losers[__pos]._M_sup && _M_comp(_M_losers[__pos]._M_key, __key))) { // The other one is smaller. std::swap(_M_losers[__pos]._M_sup, __sup); std::swap(_M_losers[__pos]._M_source, __source); swap(_M_losers[__pos]._M_key, __key); } } _M_losers[0]._M_sup = __sup; _M_losers[0]._M_source = __source; _M_losers[0]._M_key = __key; } }; /** * @brief Base class of _Loser Tree implementation using pointers. */ template class _LoserTreePointerBase { protected: /** @brief Internal representation of _LoserTree __elements. */ struct _Loser { bool _M_sup; int _M_source; const _Tp* _M_keyp; }; unsigned int _M_ik, _M_k, _M_offset; _Loser* _M_losers; _Compare _M_comp; public: _LoserTreePointerBase(unsigned int __k, _Compare __comp = std::less<_Tp>()) : _M_comp(__comp) { _M_ik = __k; // Next greater power of 2. _M_k = 1 << (__rd_log2(_M_ik - 1) + 1); _M_offset = _M_k; _M_losers = new _Loser[_M_k * 2]; for (unsigned int __i = _M_ik - 1; __i < _M_k; __i++) _M_losers[__i + _M_k]._M_sup = true; } ~_LoserTreePointerBase() { delete[] _M_losers; } int __get_min_source() { return _M_losers[0]._M_source; } void __insert_start(const _Tp& __key, int __source, bool __sup) { unsigned int __pos = _M_k + __source; _M_losers[__pos]._M_sup = __sup; _M_losers[__pos]._M_source = __source; _M_losers[__pos]._M_keyp = &__key; } }; /** * @brief Stable _LoserTree implementation. * * The unstable variant is implemented using partial instantiation below. */ template class _LoserTreePointer : public _LoserTreePointerBase<_Tp, _Compare> { typedef _LoserTreePointerBase<_Tp, _Compare> _Base; using _Base::_M_k; using _Base::_M_comp; using _Base::_M_losers; public: _LoserTreePointer(unsigned int __k, _Compare __comp = std::less<_Tp>()) : _Base::_LoserTreePointerBase(__k, __comp) { } unsigned int __init_winner(unsigned int __root) { if (__root >= _M_k) return __root; else { unsigned int __left = __init_winner(2 * __root); unsigned int __right = __init_winner(2 * __root + 1); if (_M_losers[__right]._M_sup || (!_M_losers[__left]._M_sup && !_M_comp(*_M_losers[__right]._M_keyp, *_M_losers[__left]._M_keyp))) { // Left one is less or equal. _M_losers[__root] = _M_losers[__right]; return __left; } else { // Right one is less. _M_losers[__root] = _M_losers[__left]; return __right; } } } void __init() { _M_losers[0] = _M_losers[__init_winner(1)]; } void __delete_min_insert(const _Tp& __key, bool __sup) { #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif const _Tp* __keyp = &__key; int __source = _M_losers[0]._M_source; for (unsigned int __pos = (_M_k + __source) / 2; __pos > 0; __pos /= 2) { // The smaller one gets promoted, ties are broken by __source. if ((__sup && (!_M_losers[__pos]._M_sup || _M_losers[__pos]._M_source < __source)) || (!__sup && !_M_losers[__pos]._M_sup && ((_M_comp(*_M_losers[__pos]._M_keyp, *__keyp)) || (!_M_comp(*__keyp, *_M_losers[__pos]._M_keyp) && _M_losers[__pos]._M_source < __source)))) { // The other one is smaller. std::swap(_M_losers[__pos]._M_sup, __sup); std::swap(_M_losers[__pos]._M_source, __source); std::swap(_M_losers[__pos]._M_keyp, __keyp); } } _M_losers[0]._M_sup = __sup; _M_losers[0]._M_source = __source; _M_losers[0]._M_keyp = __keyp; } }; /** * @brief Unstable _LoserTree implementation. * * The stable variant is above. */ template class _LoserTreePointer : public _LoserTreePointerBase<_Tp, _Compare> { typedef _LoserTreePointerBase<_Tp, _Compare> _Base; using _Base::_M_k; using _Base::_M_comp; using _Base::_M_losers; public: _LoserTreePointer(unsigned int __k, _Compare __comp = std::less<_Tp>()) : _Base::_LoserTreePointerBase(__k, __comp) { } unsigned int __init_winner(unsigned int __root) { if (__root >= _M_k) return __root; else { unsigned int __left = __init_winner(2 * __root); unsigned int __right = __init_winner(2 * __root + 1); if (_M_losers[__right]._M_sup || (!_M_losers[__left]._M_sup && !_M_comp(*_M_losers[__right]._M_keyp, *_M_losers[__left]._M_keyp))) { // Left one is less or equal. _M_losers[__root] = _M_losers[__right]; return __left; } else { // Right one is less. _M_losers[__root] = _M_losers[__left]; return __right; } } } void __init() { _M_losers[0] = _M_losers[__init_winner(1)]; } void __delete_min_insert(const _Tp& __key, bool __sup) { #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif const _Tp* __keyp = &__key; int __source = _M_losers[0]._M_source; for (unsigned int __pos = (_M_k + __source) / 2; __pos > 0; __pos /= 2) { // The smaller one gets promoted. if (__sup || (!_M_losers[__pos]._M_sup && _M_comp(*_M_losers[__pos]._M_keyp, *__keyp))) { // The other one is smaller. std::swap(_M_losers[__pos]._M_sup, __sup); std::swap(_M_losers[__pos]._M_source, __source); std::swap(_M_losers[__pos]._M_keyp, __keyp); } } _M_losers[0]._M_sup = __sup; _M_losers[0]._M_source = __source; _M_losers[0]._M_keyp = __keyp; } }; /** @brief Base class for unguarded _LoserTree implementation. * * The whole element is copied into the tree structure. * * No guarding is done, therefore not a single input sequence must * run empty. Unused __sequence heads are marked with a sentinel which * is > all elements that are to be merged. * * This is a very fast variant. */ template class _LoserTreeUnguardedBase { protected: struct _Loser { int _M_source; _Tp _M_key; }; unsigned int _M_ik, _M_k, _M_offset; _Loser* _M_losers; _Compare _M_comp; public: _LoserTreeUnguardedBase(unsigned int __k, const _Tp& __sentinel, _Compare __comp = std::less<_Tp>()) : _M_comp(__comp) { _M_ik = __k; // Next greater power of 2. _M_k = 1 << (__rd_log2(_M_ik - 1) + 1); _M_offset = _M_k; // Avoid default-constructing _M_losers[]._M_key _M_losers = static_cast<_Loser*>(::operator new(2 * _M_k * sizeof(_Loser))); for (unsigned int __i = 0; __i < _M_k; ++__i) { ::new(&(_M_losers[__i]._M_key)) _Tp(__sentinel); _M_losers[__i]._M_source = -1; } for (unsigned int __i = _M_k + _M_ik - 1; __i < (2 * _M_k); ++__i) { ::new(&(_M_losers[__i]._M_key)) _Tp(__sentinel); _M_losers[__i]._M_source = -1; } } ~_LoserTreeUnguardedBase() { for (unsigned int __i = 0; __i < (2 * _M_k); ++__i) _M_losers[__i].~_Loser(); ::operator delete(_M_losers); } int __get_min_source() { #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif return _M_losers[0]._M_source; } void __insert_start(const _Tp& __key, int __source, bool) { unsigned int __pos = _M_k + __source; ::new(&(_M_losers[__pos]._M_key)) _Tp(__key); _M_losers[__pos]._M_source = __source; } }; /** * @brief Stable implementation of unguarded _LoserTree. * * Unstable variant is selected below with partial specialization. */ template class _LoserTreeUnguarded : public _LoserTreeUnguardedBase<_Tp, _Compare> { typedef _LoserTreeUnguardedBase<_Tp, _Compare> _Base; using _Base::_M_k; using _Base::_M_comp; using _Base::_M_losers; public: _LoserTreeUnguarded(unsigned int __k, const _Tp& __sentinel, _Compare __comp = std::less<_Tp>()) : _Base::_LoserTreeUnguardedBase(__k, __sentinel, __comp) { } unsigned int __init_winner(unsigned int __root) { if (__root >= _M_k) return __root; else { unsigned int __left = __init_winner(2 * __root); unsigned int __right = __init_winner(2 * __root + 1); if (!_M_comp(_M_losers[__right]._M_key, _M_losers[__left]._M_key)) { // Left one is less or equal. _M_losers[__root] = _M_losers[__right]; return __left; } else { // Right one is less. _M_losers[__root] = _M_losers[__left]; return __right; } } } void __init() { _M_losers[0] = _M_losers[__init_winner(1)]; #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top at the beginning // (0 sequences!) _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif } // Do not pass a const reference since __key will be used as // local variable. void __delete_min_insert(_Tp __key, bool) { using std::swap; #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif int __source = _M_losers[0]._M_source; for (unsigned int __pos = (_M_k + __source) / 2; __pos > 0; __pos /= 2) { // The smaller one gets promoted, ties are broken by _M_source. if (_M_comp(_M_losers[__pos]._M_key, __key) || (!_M_comp(__key, _M_losers[__pos]._M_key) && _M_losers[__pos]._M_source < __source)) { // The other one is smaller. std::swap(_M_losers[__pos]._M_source, __source); swap(_M_losers[__pos]._M_key, __key); } } _M_losers[0]._M_source = __source; _M_losers[0]._M_key = __key; } }; /** * @brief Non-Stable implementation of unguarded _LoserTree. * * Stable implementation is above. */ template class _LoserTreeUnguarded : public _LoserTreeUnguardedBase<_Tp, _Compare> { typedef _LoserTreeUnguardedBase<_Tp, _Compare> _Base; using _Base::_M_k; using _Base::_M_comp; using _Base::_M_losers; public: _LoserTreeUnguarded(unsigned int __k, const _Tp& __sentinel, _Compare __comp = std::less<_Tp>()) : _Base::_LoserTreeUnguardedBase(__k, __sentinel, __comp) { } unsigned int __init_winner(unsigned int __root) { if (__root >= _M_k) return __root; else { unsigned int __left = __init_winner(2 * __root); unsigned int __right = __init_winner(2 * __root + 1); #if _GLIBCXX_PARALLEL_ASSERTIONS // If __left one is sentinel then __right one must be, too. if (_M_losers[__left]._M_source == -1) _GLIBCXX_PARALLEL_ASSERT(_M_losers[__right]._M_source == -1); #endif if (!_M_comp(_M_losers[__right]._M_key, _M_losers[__left]._M_key)) { // Left one is less or equal. _M_losers[__root] = _M_losers[__right]; return __left; } else { // Right one is less. _M_losers[__root] = _M_losers[__left]; return __right; } } } void __init() { _M_losers[0] = _M_losers[__init_winner(1)]; #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top at the beginning // (0 sequences!) _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif } // Do not pass a const reference since __key will be used as // local variable. void __delete_min_insert(_Tp __key, bool) { using std::swap; #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif int __source = _M_losers[0]._M_source; for (unsigned int __pos = (_M_k + __source) / 2; __pos > 0; __pos /= 2) { // The smaller one gets promoted. if (_M_comp(_M_losers[__pos]._M_key, __key)) { // The other one is smaller. std::swap(_M_losers[__pos]._M_source, __source); swap(_M_losers[__pos]._M_key, __key); } } _M_losers[0]._M_source = __source; _M_losers[0]._M_key = __key; } }; /** @brief Unguarded loser tree, keeping only pointers to the * elements in the tree structure. * * No guarding is done, therefore not a single input sequence must * run empty. This is a very fast variant. */ template class _LoserTreePointerUnguardedBase { protected: struct _Loser { int _M_source; const _Tp* _M_keyp; }; unsigned int _M_ik, _M_k, _M_offset; _Loser* _M_losers; _Compare _M_comp; public: _LoserTreePointerUnguardedBase(unsigned int __k, const _Tp& __sentinel, _Compare __comp = std::less<_Tp>()) : _M_comp(__comp) { _M_ik = __k; // Next greater power of 2. _M_k = 1 << (__rd_log2(_M_ik - 1) + 1); _M_offset = _M_k; // Avoid default-constructing _M_losers[]._M_key _M_losers = new _Loser[2 * _M_k]; for (unsigned int __i = _M_k + _M_ik - 1; __i < (2 * _M_k); ++__i) { _M_losers[__i]._M_keyp = &__sentinel; _M_losers[__i]._M_source = -1; } } ~_LoserTreePointerUnguardedBase() { delete[] _M_losers; } int __get_min_source() { #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif return _M_losers[0]._M_source; } void __insert_start(const _Tp& __key, int __source, bool) { unsigned int __pos = _M_k + __source; _M_losers[__pos]._M_keyp = &__key; _M_losers[__pos]._M_source = __source; } }; /** * @brief Stable unguarded _LoserTree variant storing pointers. * * Unstable variant is implemented below using partial specialization. */ template class _LoserTreePointerUnguarded : public _LoserTreePointerUnguardedBase<_Tp, _Compare> { typedef _LoserTreePointerUnguardedBase<_Tp, _Compare> _Base; using _Base::_M_k; using _Base::_M_comp; using _Base::_M_losers; public: _LoserTreePointerUnguarded(unsigned int __k, const _Tp& __sentinel, _Compare __comp = std::less<_Tp>()) : _Base::_LoserTreePointerUnguardedBase(__k, __sentinel, __comp) { } unsigned int __init_winner(unsigned int __root) { if (__root >= _M_k) return __root; else { unsigned int __left = __init_winner(2 * __root); unsigned int __right = __init_winner(2 * __root + 1); if (!_M_comp(*_M_losers[__right]._M_keyp, *_M_losers[__left]._M_keyp)) { // Left one is less or equal. _M_losers[__root] = _M_losers[__right]; return __left; } else { // Right one is less. _M_losers[__root] = _M_losers[__left]; return __right; } } } void __init() { _M_losers[0] = _M_losers[__init_winner(1)]; #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top at the beginning // (0 sequences!) _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif } void __delete_min_insert(const _Tp& __key, bool __sup) { #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif const _Tp* __keyp = &__key; int __source = _M_losers[0]._M_source; for (unsigned int __pos = (_M_k + __source) / 2; __pos > 0; __pos /= 2) { // The smaller one gets promoted, ties are broken by _M_source. if (_M_comp(*_M_losers[__pos]._M_keyp, *__keyp) || (!_M_comp(*__keyp, *_M_losers[__pos]._M_keyp) && _M_losers[__pos]._M_source < __source)) { // The other one is smaller. std::swap(_M_losers[__pos]._M_source, __source); std::swap(_M_losers[__pos]._M_keyp, __keyp); } } _M_losers[0]._M_source = __source; _M_losers[0]._M_keyp = __keyp; } }; /** * @brief Unstable unguarded _LoserTree variant storing pointers. * * Stable variant is above. */ template class _LoserTreePointerUnguarded : public _LoserTreePointerUnguardedBase<_Tp, _Compare> { typedef _LoserTreePointerUnguardedBase<_Tp, _Compare> _Base; using _Base::_M_k; using _Base::_M_comp; using _Base::_M_losers; public: _LoserTreePointerUnguarded(unsigned int __k, const _Tp& __sentinel, _Compare __comp = std::less<_Tp>()) : _Base::_LoserTreePointerUnguardedBase(__k, __sentinel, __comp) { } unsigned int __init_winner(unsigned int __root) { if (__root >= _M_k) return __root; else { unsigned int __left = __init_winner(2 * __root); unsigned int __right = __init_winner(2 * __root + 1); #if _GLIBCXX_PARALLEL_ASSERTIONS // If __left one is sentinel then __right one must be, too. if (_M_losers[__left]._M_source == -1) _GLIBCXX_PARALLEL_ASSERT(_M_losers[__right]._M_source == -1); #endif if (!_M_comp(*_M_losers[__right]._M_keyp, *_M_losers[__left]._M_keyp)) { // Left one is less or equal. _M_losers[__root] = _M_losers[__right]; return __left; } else { // Right one is less. _M_losers[__root] = _M_losers[__left]; return __right; } } } void __init() { _M_losers[0] = _M_losers[__init_winner(1)]; #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top at the beginning // (0 sequences!) _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif } void __delete_min_insert(const _Tp& __key, bool __sup) { #if _GLIBCXX_PARALLEL_ASSERTIONS // no dummy sequence can ever be at the top! _GLIBCXX_PARALLEL_ASSERT(_M_losers[0]._M_source != -1); #endif const _Tp* __keyp = &__key; int __source = _M_losers[0]._M_source; for (unsigned int __pos = (_M_k + __source) / 2; __pos > 0; __pos /= 2) { // The smaller one gets promoted. if (_M_comp(*(_M_losers[__pos]._M_keyp), *__keyp)) { // The other one is smaller. std::swap(_M_losers[__pos]._M_source, __source); std::swap(_M_losers[__pos]._M_keyp, __keyp); } } _M_losers[0]._M_source = __source; _M_losers[0]._M_keyp = __keyp; } }; } // namespace __gnu_parallel #endif /* _GLIBCXX_PARALLEL_LOSERTREE_H */