//---------------------------------------------------------------------------- /// @file deque_cnc.hpp /// @brief This file contains the implementation of the several types of /// recursive fastmutex for read and write /// /// @author Copyright (c) 2010 2015 Francisco José Tapia (fjtapia@gmail.com )\n /// Distributed under the Boost Software License, Version 1.0.\n /// ( See accompanyingfile LICENSE_1_0.txt or copy at /// http://www.boost.org/LICENSE_1_0.txt ) /// @version 0.1 /// /// @remarks //----------------------------------------------------------------------------- #ifndef __TOOLS_DEQUE_CNC_HPP #define __TOOLS_DEQUE_CNC_HPP #include #include #include namespace sort { namespace tools { //########################################################################### // ## // ################################################################ ## // # # ## // # C L A S S # ## // # S T A C K _ C N C # ## // # # ## // ################################################################ ## // ## //########################################################################### // //--------------------------------------------------------------------------- /// @class deque_cnc /// @brief This class is a concurrent stack controled by a spin_lock /// @remarks //--------------------------------------------------------------------------- template > class deque_cnc { public: //----------------------------------------------------------------------- // D E F I N I T I O N S //----------------------------------------------------------------------- typedef std::deque deque_t; typedef typename deque_t::size_type size_type; typedef typename deque_t::difference_type difference_type; typedef typename deque_t::value_type value_type; typedef typename deque_t::pointer pointer; typedef typename deque_t::const_pointer const_pointer; typedef typename deque_t::reference reference; typedef typename deque_t::const_reference const_reference; typedef typename deque_t::allocator_type allocator_type; protected: //------------------------------------------------------------------------ // VARIABLES //------------------------------------------------------------------------ deque_t dq; mutable spinlock spl; public: // //----------------------------------------------------------------------- // C O N S T R U C T O R S A N D D E S T R U C T O R //----------------------------------------------------------------------- // //----------------------------------------------------------------------- // function : deque_cnc /// @brief constructor //---------------------------------------------------------------------- explicit inline deque_cnc(void): dq() { }; // //---------------------------------------------------------------------- // function : deque_cnc /// @brief constructor /// @param [in] ALLC : Allocator //---------------------------------------------------------------------- explicit inline deque_cnc(const Allocator &ALLC): dq(ALLC){ }; // //---------------------------------------------------------------------- // function : ~deque_cnc /// @brief Destructor //---------------------------------------------------------------------- virtual ~deque_cnc(void){ dq.clear(); }; // //---------------------------------------------------------------------- // function : clear /// @brief Delete all the elements of the deque_cnc. //---------------------------------------------------------------------- void clear(void) { std::lock_guard < spinlock > S(spl); dq.clear(); }; // //------------------------------------------------------------------------ // function : swap /// @brief swap the data between the two deque_cnc /// @param [in] A : deque_cnc to swap /// @return none //----------------------------------------------------------------------- void swap(deque_cnc & A) noexcept { if (this == &A) return; std::lock_guard < spinlock > S(spl); dq.swap(A.dq); }; // //----------------------------------------------------------------------- // S I Z E , M A X _ S I Z E , R E S I Z E // C A P A C I T Y , E M P T Y , R E S E R V E //----------------------------------------------------------------------- // //------------------------------------------------------------------------ // function : size /// @brief return the number of elements in the deque_cnc /// @return number of elements in the deque_cnc //------------------------------------------------------------------------ size_type size(void) const noexcept { std::lock_guard < spinlock > S(spl); return dq.size(); }; // //------------------------------------------------------------------------ // function :max_size /// @brief return the maximun size of the container /// @return maximun size of the container //------------------------------------------------------------------------ size_type max_size(void) const noexcept { std::lock_guard < spinlock > S(spl); return (dq.max_size()); }; // //------------------------------------------------------------------------- // function : shrink_to_fit /// @brief resize the current vector size and change to size.\n /// If sz is smaller than the current size, delete elements to end\n /// If sz is greater than the current size, insert elements to the /// end with the value c /// @param [in] sz : new size of the deque_cnc after the resize /// @param [in] c : Value to insert if sz is greather than the current size /// @return none //------------------------------------------------------------------------ void shrink_to_fit() { std::lock_guard < spinlock > S(spl); dq.shrink_to_fit(); }; // //------------------------------------------------------------------------ // function : empty /// @brief indicate if the map is empty /// @return true if the map is empty, false in any other case //------------------------------------------------------------------------ bool empty(void) const noexcept { std::lock_guard < spinlock > S(spl); return (dq.empty()); }; //--------------------------------------------------------------------------- // function : push_back /// @brief Insert one element in the back of the container /// @param [in] D : value to insert. Can ve a value, a reference or an /// rvalue //--------------------------------------------------------------------------- void push_back(const value_type & D) { std::lock_guard < spinlock > S(spl); dq.push_back(D); }; //------------------------------------------------------------------------ // function : emplace_back /// @brief Insert one element in the back of the container /// @param [in] args :group of arguments for to build the object to insert //------------------------------------------------------------------------- template void emplace_back(Args && ... args) { std::lock_guard < spinlock > S(spl); dq.emplace_back(std::forward (args) ...); }; //------------------------------------------------------------------------ // function : push_back /// @brief Insert one element in the back of the container /// @param [in] D : deque to insert in the actual deque, inserting a copy /// of the elements /// @return reference to the deque after the insertion //------------------------------------------------------------------------ template deque_cnc & push_back(const std::deque & D) { std::lock_guard < spinlock > S(spl); for (size_type i = 0; i < D.size(); ++i) dq.push_back(D[i]); return *this; }; //------------------------------------------------------------------------ // function : push_back /// @brief Insert one element in the back of the container /// @param [in] D : deque to insert in the actual deque, inserting a move /// of the elements /// @return reference to the deque after the insertion //------------------------------------------------------------------------ deque_cnc & push_back(std::deque && D) { std::lock_guard < spinlock > S(spl); for (size_type i = 0; i < D.size(); ++i) dq.emplace_back(std::move(D[i])); return *this; }; // //------------------------------------------------------------------------ // function :pop_back /// @brief erase the last element of the container //----------------------------------------------------------------------- void pop_back(void) { std::lock_guard < spinlock > S(spl); dq.pop_back(); }; // //------------------------------------------------------------------------ // function :pop_copy_back /// @brief erase the last element and return a copy over P /// @param [out] P : reference to a variable where copy the element /// @return code of the operation /// true - Element erased /// false - Empty tree //------------------------------------------------------------------------ bool pop_copy_back(value_type & P) { //-------------------------- begin ----------------------------- std::lock_guard < spinlock > S(spl); if (dq.size() == 0) return false; P = dq.back(); dq.pop_back(); return true; }; // //------------------------------------------------------------------------ // function :pop_move_back /// @brief erase the last element and move over P /// @param [out] P : reference to a variable where move the element /// @return code of the operation /// true - Element erased /// false - Empty tree //------------------------------------------------------------------------ bool pop_move_back(value_type & P) { //-------------------------- begin ----------------------------- std::lock_guard < spinlock > S(spl); if (dq.size() == 0) return false; P = std::move(dq.back()); dq.pop_back(); return true; }; //------------------------------------------------------------------------ // function : push_front /// @brief Insert one copy of the element in the front of the container /// @param [in] D : value to insert //------------------------------------------------------------------------ void push_front(const value_type & D) { std::lock_guard < spinlock > S(spl); dq.push_front(D); }; //------------------------------------------------------------------------ // function : emplace_front /// @brief Insert one element in the front of the container /// @param [in] args :group of arguments for to build the object to insert //------------------------------------------------------------------------- template void emplace_front(Args && ... args) { std::lock_guard < spinlock > S(spl); dq.emplace_front(std::forward (args) ...); }; //------------------------------------------------------------------------ // function : push_front /// @brief Insert a copy of the elements of the deque V1 in the front /// of the container /// @param [in] V1 : deque with the elements to insert /// @return reference to the deque after the insertion //------------------------------------------------------------------------ template deque_cnc & push_front(const std::deque & V1) { std::lock_guard < spinlock > S(spl); for (size_type i = 0; i < V1.size(); ++i) dq.push_front(V1[i]); return *this; }; //----------------------------------------------------------------------- // function : push_front /// @brief Insert a move of the elements of the deque V1 in the front /// of the container /// @param [in] V1 : deque with the elements to insert /// @return reference to the deque after the insertion //----------------------------------------------------------------------- deque_cnc & push_front(std::deque && V1) { std::lock_guard < spinlock > S(spl); for (size_type i = 0; i < V1.size(); ++i) dq.emplace_front(std::move(V1[i])); return *this; }; // //----------------------------------------------------------------------- // function :pop_front /// @brief erase the first element of the container //----------------------------------------------------------------------- void pop_front(void) { std::lock_guard < spinlock > S(spl); dq.pop_front(); }; // //----------------------------------------------------------------------- // function :pop_copy_front /// @brief erase the first element of the tree and return a copy over P /// @param [out] P : reference to a variable where copy the element /// @return code of the operation /// true- Element erased /// false - Empty tree //----------------------------------------------------------------------- bool pop_copy_front(value_type & P) { //-------------------------- begin ----------------------------- std::lock_guard < spinlock > S(spl); if (dq.size() == 0) return false; P = dq.front(); dq.pop_front(); return true; }; // //------------------------------------------------------------------------ // function :pop_move_front /// @brief erase the first element of the tree and return a move over P /// @param [out] P : reference to a variable where move the element /// @return code of the operation /// true- Element erased /// false - Empty tree //------------------------------------------------------------------------ bool pop_move_front(value_type & P) { //-------------------------- begin ----------------------------- std::lock_guard < spinlock > S(spl); if (dq.size() == 0) return false; P = std::move(dq.front()); dq.pop_front(); return true; }; }; // end class deque_cnc //*************************************************************************** };// end namespace tools };// end namespace sort //*************************************************************************** #endif