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- // Copyright (C) 2008-2013 Tim Blechmann
- //
- // Distributed under the Boost Software License, Version 1.0. (See
- // accompanying file LICENSE_1_0.txt or copy at
- // http://www.boost.org/LICENSE_1_0.txt)
- #ifndef BOOST_LOCKFREE_STACK_HPP_INCLUDED
- #define BOOST_LOCKFREE_STACK_HPP_INCLUDED
- #include <boost/assert.hpp>
- #include <boost/checked_delete.hpp>
- #include <boost/core/allocator_access.hpp>
- #include <boost/core/no_exceptions_support.hpp>
- #include <boost/integer_traits.hpp>
- #include <boost/static_assert.hpp>
- #include <boost/tuple/tuple.hpp>
- #include <boost/type_traits/is_copy_constructible.hpp>
- #include <boost/lockfree/detail/atomic.hpp>
- #include <boost/lockfree/detail/copy_payload.hpp>
- #include <boost/lockfree/detail/freelist.hpp>
- #include <boost/lockfree/detail/parameter.hpp>
- #include <boost/lockfree/detail/tagged_ptr.hpp>
- #include <boost/lockfree/lockfree_forward.hpp>
- #ifdef BOOST_HAS_PRAGMA_ONCE
- #pragma once
- #endif
- namespace boost {
- namespace lockfree {
- namespace detail {
- typedef parameter::parameters<boost::parameter::optional<tag::allocator>,
- boost::parameter::optional<tag::capacity>
- > stack_signature;
- }
- /** The stack class provides a multi-writer/multi-reader stack, pushing and popping is lock-free,
- * construction/destruction has to be synchronized. It uses a freelist for memory management,
- * freed nodes are pushed to the freelist and not returned to the OS before the stack is destroyed.
- *
- * \b Policies:
- *
- * - \c boost::lockfree::fixed_sized<>, defaults to \c boost::lockfree::fixed_sized<false> <br>
- * Can be used to completely disable dynamic memory allocations during push in order to ensure lockfree behavior.<br>
- * If the data structure is configured as fixed-sized, the internal nodes are stored inside an array and they are addressed
- * by array indexing. This limits the possible size of the stack to the number of elements that can be addressed by the index
- * type (usually 2**16-2), but on platforms that lack double-width compare-and-exchange instructions, this is the best way
- * to achieve lock-freedom.
- *
- * - \c boost::lockfree::capacity<>, optional <br>
- * If this template argument is passed to the options, the size of the stack is set at compile-time. <br>
- * It this option implies \c fixed_sized<true>
- *
- * - \c boost::lockfree::allocator<>, defaults to \c boost::lockfree::allocator<std::allocator<void>> <br>
- * Specifies the allocator that is used for the internal freelist
- *
- * \b Requirements:
- * - T must have a copy constructor
- * */
- #ifdef BOOST_NO_CXX11_VARIADIC_TEMPLATES
- template <typename T, class A0, class A1, class A2>
- #else
- template <typename T, typename ...Options>
- #endif
- class stack
- {
- private:
- #ifndef BOOST_DOXYGEN_INVOKED
- BOOST_STATIC_ASSERT(boost::is_copy_constructible<T>::value);
- #ifdef BOOST_NO_CXX11_VARIADIC_TEMPLATES
- typedef typename detail::stack_signature::bind<A0, A1, A2>::type bound_args;
- #else
- typedef typename detail::stack_signature::bind<Options...>::type bound_args;
- #endif
- static const bool has_capacity = detail::extract_capacity<bound_args>::has_capacity;
- static const size_t capacity = detail::extract_capacity<bound_args>::capacity;
- static const bool fixed_sized = detail::extract_fixed_sized<bound_args>::value;
- static const bool node_based = !(has_capacity || fixed_sized);
- static const bool compile_time_sized = has_capacity;
- struct node
- {
- node(T const & val):
- v(val)
- {}
- typedef typename detail::select_tagged_handle<node, node_based>::handle_type handle_t;
- handle_t next;
- const T v;
- };
- typedef typename detail::extract_allocator<bound_args, node>::type node_allocator;
- typedef typename detail::select_freelist<node, node_allocator, compile_time_sized, fixed_sized, capacity>::type pool_t;
- typedef typename pool_t::tagged_node_handle tagged_node_handle;
- // check compile-time capacity
- BOOST_STATIC_ASSERT((mpl::if_c<has_capacity,
- mpl::bool_<capacity - 1 < boost::integer_traits<boost::uint16_t>::const_max>,
- mpl::true_
- >::type::value));
- struct implementation_defined
- {
- typedef node_allocator allocator;
- typedef std::size_t size_type;
- };
- #endif
- BOOST_DELETED_FUNCTION(stack(stack const&))
- BOOST_DELETED_FUNCTION(stack& operator= (stack const&))
- public:
- typedef T value_type;
- typedef typename implementation_defined::allocator allocator;
- typedef typename implementation_defined::size_type size_type;
- /**
- * \return true, if implementation is lock-free.
- *
- * \warning It only checks, if the top stack node and the freelist can be modified in a lock-free manner.
- * On most platforms, the whole implementation is lock-free, if this is true. Using c++0x-style atomics,
- * there is no possibility to provide a completely accurate implementation, because one would need to test
- * every internal node, which is impossible if further nodes will be allocated from the operating system.
- *
- * */
- bool is_lock_free (void) const
- {
- return tos.is_lock_free() && pool.is_lock_free();
- }
- /** Construct a fixed-sized stack
- *
- * \pre Must specify a capacity<> argument
- * */
- stack(void):
- pool(node_allocator(), capacity)
- {
- // Don't use BOOST_STATIC_ASSERT() here since it will be evaluated when compiling
- // this function and this function may be compiled even when it isn't being used.
- BOOST_ASSERT(has_capacity);
- initialize();
- }
- /** Construct a fixed-sized stack with a custom allocator
- *
- * \pre Must specify a capacity<> argument
- * */
- template <typename U>
- explicit stack(typename boost::allocator_rebind<node_allocator, U>::type const & alloc):
- pool(alloc, capacity)
- {
- BOOST_STATIC_ASSERT(has_capacity);
- initialize();
- }
- /** Construct a fixed-sized stack with a custom allocator
- *
- * \pre Must specify a capacity<> argument
- * */
- explicit stack(allocator const & alloc):
- pool(alloc, capacity)
- {
- // Don't use BOOST_STATIC_ASSERT() here since it will be evaluated when compiling
- // this function and this function may be compiled even when it isn't being used.
- BOOST_ASSERT(has_capacity);
- initialize();
- }
- /** Construct a variable-sized stack
- *
- * Allocate n nodes initially for the freelist
- *
- * \pre Must \b not specify a capacity<> argument
- * */
- explicit stack(size_type n):
- pool(node_allocator(), n)
- {
- // Don't use BOOST_STATIC_ASSERT() here since it will be evaluated when compiling
- // this function and this function may be compiled even when it isn't being used.
- BOOST_ASSERT(!has_capacity);
- initialize();
- }
- /** Construct a variable-sized stack with a custom allocator
- *
- * Allocate n nodes initially for the freelist
- *
- * \pre Must \b not specify a capacity<> argument
- * */
- template <typename U>
- stack(size_type n, typename boost::allocator_rebind<node_allocator, U>::type const & alloc):
- pool(alloc, n)
- {
- BOOST_STATIC_ASSERT(!has_capacity);
- initialize();
- }
- /** Allocate n nodes for freelist
- *
- * \pre only valid if no capacity<> argument given
- * \note thread-safe, may block if memory allocator blocks
- *
- * */
- void reserve(size_type n)
- {
- // Don't use BOOST_STATIC_ASSERT() here since it will be evaluated when compiling
- // this function and this function may be compiled even when it isn't being used.
- BOOST_ASSERT(!has_capacity);
- pool.template reserve<true>(n);
- }
- /** Allocate n nodes for freelist
- *
- * \pre only valid if no capacity<> argument given
- * \note not thread-safe, may block if memory allocator blocks
- *
- * */
- void reserve_unsafe(size_type n)
- {
- // Don't use BOOST_STATIC_ASSERT() here since it will be evaluated when compiling
- // this function and this function may be compiled even when it isn't being used.
- BOOST_ASSERT(!has_capacity);
- pool.template reserve<false>(n);
- }
- /** Destroys stack, free all nodes from freelist.
- *
- * \note not thread-safe
- *
- * */
- ~stack(void)
- {
- detail::consume_noop consume_functor;
- (void)consume_all(consume_functor);
- }
- private:
- #ifndef BOOST_DOXYGEN_INVOKED
- void initialize(void)
- {
- tos.store(tagged_node_handle(pool.null_handle(), 0));
- }
- void link_nodes_atomic(node * new_top_node, node * end_node)
- {
- tagged_node_handle old_tos = tos.load(detail::memory_order_relaxed);
- for (;;) {
- tagged_node_handle new_tos (pool.get_handle(new_top_node), old_tos.get_tag());
- end_node->next = pool.get_handle(old_tos);
- if (tos.compare_exchange_weak(old_tos, new_tos))
- break;
- }
- }
- void link_nodes_unsafe(node * new_top_node, node * end_node)
- {
- tagged_node_handle old_tos = tos.load(detail::memory_order_relaxed);
- tagged_node_handle new_tos (pool.get_handle(new_top_node), old_tos.get_tag());
- end_node->next = pool.get_handle(old_tos);
- tos.store(new_tos, memory_order_relaxed);
- }
- template <bool Threadsafe, bool Bounded, typename ConstIterator>
- tuple<node*, node*> prepare_node_list(ConstIterator begin, ConstIterator end, ConstIterator & ret)
- {
- ConstIterator it = begin;
- node * end_node = pool.template construct<Threadsafe, Bounded>(*it++);
- if (end_node == NULL) {
- ret = begin;
- return make_tuple<node*, node*>(NULL, NULL);
- }
- node * new_top_node = end_node;
- end_node->next = NULL;
- BOOST_TRY {
- /* link nodes */
- for (; it != end; ++it) {
- node * newnode = pool.template construct<Threadsafe, Bounded>(*it);
- if (newnode == NULL)
- break;
- newnode->next = new_top_node;
- new_top_node = newnode;
- }
- } BOOST_CATCH (...) {
- for (node * current_node = new_top_node; current_node != NULL;) {
- node * next = current_node->next;
- pool.template destruct<Threadsafe>(current_node);
- current_node = next;
- }
- BOOST_RETHROW;
- }
- BOOST_CATCH_END
- ret = it;
- return make_tuple(new_top_node, end_node);
- }
- #endif
- public:
- /** Pushes object t to the stack.
- *
- * \post object will be pushed to the stack, if internal node can be allocated
- * \returns true, if the push operation is successful.
- *
- * \note Thread-safe. If internal memory pool is exhausted and the memory pool is not fixed-sized, a new node will be allocated
- * from the OS. This may not be lock-free.
- * \throws if memory allocator throws
- * */
- bool push(T const & v)
- {
- return do_push<false>(v);
- }
- /** Pushes object t to the stack.
- *
- * \post object will be pushed to the stack, if internal node can be allocated
- * \returns true, if the push operation is successful.
- *
- * \note Thread-safe and non-blocking. If internal memory pool is exhausted, the push operation will fail
- * */
- bool bounded_push(T const & v)
- {
- return do_push<true>(v);
- }
- #ifndef BOOST_DOXYGEN_INVOKED
- private:
- template <bool Bounded>
- bool do_push(T const & v)
- {
- node * newnode = pool.template construct<true, Bounded>(v);
- if (newnode == 0)
- return false;
- link_nodes_atomic(newnode, newnode);
- return true;
- }
- template <bool Bounded, typename ConstIterator>
- ConstIterator do_push(ConstIterator begin, ConstIterator end)
- {
- node * new_top_node;
- node * end_node;
- ConstIterator ret;
- tie(new_top_node, end_node) = prepare_node_list<true, Bounded>(begin, end, ret);
- if (new_top_node)
- link_nodes_atomic(new_top_node, end_node);
- return ret;
- }
- public:
- #endif
- /** Pushes as many objects from the range [begin, end) as freelist node can be allocated.
- *
- * \return iterator to the first element, which has not been pushed
- *
- * \note Operation is applied atomically
- * \note Thread-safe. If internal memory pool is exhausted and the memory pool is not fixed-sized, a new node will be allocated
- * from the OS. This may not be lock-free.
- * \throws if memory allocator throws
- */
- template <typename ConstIterator>
- ConstIterator push(ConstIterator begin, ConstIterator end)
- {
- return do_push<false, ConstIterator>(begin, end);
- }
- /** Pushes as many objects from the range [begin, end) as freelist node can be allocated.
- *
- * \return iterator to the first element, which has not been pushed
- *
- * \note Operation is applied atomically
- * \note Thread-safe and non-blocking. If internal memory pool is exhausted, the push operation will fail
- * \throws if memory allocator throws
- */
- template <typename ConstIterator>
- ConstIterator bounded_push(ConstIterator begin, ConstIterator end)
- {
- return do_push<true, ConstIterator>(begin, end);
- }
- /** Pushes object t to the stack.
- *
- * \post object will be pushed to the stack, if internal node can be allocated
- * \returns true, if the push operation is successful.
- *
- * \note Not thread-safe. If internal memory pool is exhausted and the memory pool is not fixed-sized, a new node will be allocated
- * from the OS. This may not be lock-free.
- * \throws if memory allocator throws
- * */
- bool unsynchronized_push(T const & v)
- {
- node * newnode = pool.template construct<false, false>(v);
- if (newnode == 0)
- return false;
- link_nodes_unsafe(newnode, newnode);
- return true;
- }
- /** Pushes as many objects from the range [begin, end) as freelist node can be allocated.
- *
- * \return iterator to the first element, which has not been pushed
- *
- * \note Not thread-safe. If internal memory pool is exhausted and the memory pool is not fixed-sized, a new node will be allocated
- * from the OS. This may not be lock-free.
- * \throws if memory allocator throws
- */
- template <typename ConstIterator>
- ConstIterator unsynchronized_push(ConstIterator begin, ConstIterator end)
- {
- node * new_top_node;
- node * end_node;
- ConstIterator ret;
- tie(new_top_node, end_node) = prepare_node_list<false, false>(begin, end, ret);
- if (new_top_node)
- link_nodes_unsafe(new_top_node, end_node);
- return ret;
- }
- /** Pops object from stack.
- *
- * \post if pop operation is successful, object will be copied to ret.
- * \returns true, if the pop operation is successful, false if stack was empty.
- *
- * \note Thread-safe and non-blocking
- *
- * */
- bool pop(T & ret)
- {
- return pop<T>(ret);
- }
- /** Pops object from stack.
- *
- * \pre type T must be convertible to U
- * \post if pop operation is successful, object will be copied to ret.
- * \returns true, if the pop operation is successful, false if stack was empty.
- *
- * \note Thread-safe and non-blocking
- *
- * */
- template <typename U>
- bool pop(U & ret)
- {
- BOOST_STATIC_ASSERT((boost::is_convertible<T, U>::value));
- detail::consume_via_copy<U> consumer(ret);
- return consume_one(consumer);
- }
- /** Pops object from stack.
- *
- * \post if pop operation is successful, object will be copied to ret.
- * \returns true, if the pop operation is successful, false if stack was empty.
- *
- * \note Not thread-safe, but non-blocking
- *
- * */
- bool unsynchronized_pop(T & ret)
- {
- return unsynchronized_pop<T>(ret);
- }
- /** Pops object from stack.
- *
- * \pre type T must be convertible to U
- * \post if pop operation is successful, object will be copied to ret.
- * \returns true, if the pop operation is successful, false if stack was empty.
- *
- * \note Not thread-safe, but non-blocking
- *
- * */
- template <typename U>
- bool unsynchronized_pop(U & ret)
- {
- BOOST_STATIC_ASSERT((boost::is_convertible<T, U>::value));
- tagged_node_handle old_tos = tos.load(detail::memory_order_relaxed);
- node * old_tos_pointer = pool.get_pointer(old_tos);
- if (!pool.get_pointer(old_tos))
- return false;
- node * new_tos_ptr = pool.get_pointer(old_tos_pointer->next);
- tagged_node_handle new_tos(pool.get_handle(new_tos_ptr), old_tos.get_next_tag());
- tos.store(new_tos, memory_order_relaxed);
- detail::copy_payload(old_tos_pointer->v, ret);
- pool.template destruct<false>(old_tos);
- return true;
- }
- /** consumes one element via a functor
- *
- * pops one element from the stack and applies the functor on this object
- *
- * \returns true, if one element was consumed
- *
- * \note Thread-safe and non-blocking, if functor is thread-safe and non-blocking
- * */
- template <typename Functor>
- bool consume_one(Functor & f)
- {
- tagged_node_handle old_tos = tos.load(detail::memory_order_consume);
- for (;;) {
- node * old_tos_pointer = pool.get_pointer(old_tos);
- if (!old_tos_pointer)
- return false;
- tagged_node_handle new_tos(old_tos_pointer->next, old_tos.get_next_tag());
- if (tos.compare_exchange_weak(old_tos, new_tos)) {
- f(old_tos_pointer->v);
- pool.template destruct<true>(old_tos);
- return true;
- }
- }
- }
- /// \copydoc boost::lockfree::stack::consume_one(Functor & rhs)
- template <typename Functor>
- bool consume_one(Functor const & f)
- {
- tagged_node_handle old_tos = tos.load(detail::memory_order_consume);
- for (;;) {
- node * old_tos_pointer = pool.get_pointer(old_tos);
- if (!old_tos_pointer)
- return false;
- tagged_node_handle new_tos(old_tos_pointer->next, old_tos.get_next_tag());
- if (tos.compare_exchange_weak(old_tos, new_tos)) {
- f(old_tos_pointer->v);
- pool.template destruct<true>(old_tos);
- return true;
- }
- }
- }
- /** consumes all elements via a functor
- *
- * sequentially pops all elements from the stack and applies the functor on each object
- *
- * \returns number of elements that are consumed
- *
- * \note Thread-safe and non-blocking, if functor is thread-safe and non-blocking
- * */
- template <typename Functor>
- size_t consume_all(Functor & f)
- {
- size_t element_count = 0;
- while (consume_one(f))
- element_count += 1;
- return element_count;
- }
- /// \copydoc boost::lockfree::stack::consume_all(Functor & rhs)
- template <typename Functor>
- size_t consume_all(Functor const & f)
- {
- size_t element_count = 0;
- while (consume_one(f))
- element_count += 1;
- return element_count;
- }
- /** consumes all elements via a functor
- *
- * atomically pops all elements from the stack and applies the functor on each object
- *
- * \returns number of elements that are consumed
- *
- * \note Thread-safe and non-blocking, if functor is thread-safe and non-blocking
- * */
- template <typename Functor>
- size_t consume_all_atomic(Functor & f)
- {
- size_t element_count = 0;
- tagged_node_handle old_tos = tos.load(detail::memory_order_consume);
- for (;;) {
- node * old_tos_pointer = pool.get_pointer(old_tos);
- if (!old_tos_pointer)
- return 0;
- tagged_node_handle new_tos(pool.null_handle(), old_tos.get_next_tag());
- if (tos.compare_exchange_weak(old_tos, new_tos))
- break;
- }
- tagged_node_handle nodes_to_consume = old_tos;
- for(;;) {
- node * node_pointer = pool.get_pointer(nodes_to_consume);
- f(node_pointer->v);
- element_count += 1;
- node * next_node = pool.get_pointer(node_pointer->next);
- if (!next_node) {
- pool.template destruct<true>(nodes_to_consume);
- break;
- }
- tagged_node_handle next(pool.get_handle(next_node), nodes_to_consume.get_next_tag());
- pool.template destruct<true>(nodes_to_consume);
- nodes_to_consume = next;
- }
- return element_count;
- }
- /// \copydoc boost::lockfree::stack::consume_all_atomic(Functor & rhs)
- template <typename Functor>
- size_t consume_all_atomic(Functor const & f)
- {
- size_t element_count = 0;
- tagged_node_handle old_tos = tos.load(detail::memory_order_consume);
- for (;;) {
- node * old_tos_pointer = pool.get_pointer(old_tos);
- if (!old_tos_pointer)
- return 0;
- tagged_node_handle new_tos(pool.null_handle(), old_tos.get_next_tag());
- if (tos.compare_exchange_weak(old_tos, new_tos))
- break;
- }
- tagged_node_handle nodes_to_consume = old_tos;
- for(;;) {
- node * node_pointer = pool.get_pointer(nodes_to_consume);
- f(node_pointer->v);
- element_count += 1;
- node * next_node = pool.get_pointer(node_pointer->next);
- if (!next_node) {
- pool.template destruct<true>(nodes_to_consume);
- break;
- }
- tagged_node_handle next(pool.get_handle(next_node), nodes_to_consume.get_next_tag());
- pool.template destruct<true>(nodes_to_consume);
- nodes_to_consume = next;
- }
- return element_count;
- }
- /** consumes all elements via a functor
- *
- * atomically pops all elements from the stack and applies the functor on each object in reversed order
- *
- * \returns number of elements that are consumed
- *
- * \note Thread-safe and non-blocking, if functor is thread-safe and non-blocking
- * */
- template <typename Functor>
- size_t consume_all_atomic_reversed(Functor & f)
- {
- size_t element_count = 0;
- tagged_node_handle old_tos = tos.load(detail::memory_order_consume);
- for (;;) {
- node * old_tos_pointer = pool.get_pointer(old_tos);
- if (!old_tos_pointer)
- return 0;
- tagged_node_handle new_tos(pool.null_handle(), old_tos.get_next_tag());
- if (tos.compare_exchange_weak(old_tos, new_tos))
- break;
- }
- tagged_node_handle nodes_to_consume = old_tos;
- node * last_node_pointer = NULL;
- tagged_node_handle nodes_in_reversed_order;
- for(;;) {
- node * node_pointer = pool.get_pointer(nodes_to_consume);
- node * next_node = pool.get_pointer(node_pointer->next);
- node_pointer->next = pool.get_handle(last_node_pointer);
- last_node_pointer = node_pointer;
- if (!next_node) {
- nodes_in_reversed_order = nodes_to_consume;
- break;
- }
- tagged_node_handle next(pool.get_handle(next_node), nodes_to_consume.get_next_tag());
- nodes_to_consume = next;
- }
- for(;;) {
- node * node_pointer = pool.get_pointer(nodes_in_reversed_order);
- f(node_pointer->v);
- element_count += 1;
- node * next_node = pool.get_pointer(node_pointer->next);
- if (!next_node) {
- pool.template destruct<true>(nodes_in_reversed_order);
- break;
- }
- tagged_node_handle next(pool.get_handle(next_node), nodes_in_reversed_order.get_next_tag());
- pool.template destruct<true>(nodes_in_reversed_order);
- nodes_in_reversed_order = next;
- }
- return element_count;
- }
- /// \copydoc boost::lockfree::stack::consume_all_atomic_reversed(Functor & rhs)
- template <typename Functor>
- size_t consume_all_atomic_reversed(Functor const & f)
- {
- size_t element_count = 0;
- tagged_node_handle old_tos = tos.load(detail::memory_order_consume);
- for (;;) {
- node * old_tos_pointer = pool.get_pointer(old_tos);
- if (!old_tos_pointer)
- return 0;
- tagged_node_handle new_tos(pool.null_handle(), old_tos.get_next_tag());
- if (tos.compare_exchange_weak(old_tos, new_tos))
- break;
- }
- tagged_node_handle nodes_to_consume = old_tos;
- node * last_node_pointer = NULL;
- tagged_node_handle nodes_in_reversed_order;
- for(;;) {
- node * node_pointer = pool.get_pointer(nodes_to_consume);
- node * next_node = pool.get_pointer(node_pointer->next);
- node_pointer->next = pool.get_handle(last_node_pointer);
- last_node_pointer = node_pointer;
- if (!next_node) {
- nodes_in_reversed_order = nodes_to_consume;
- break;
- }
- tagged_node_handle next(pool.get_handle(next_node), nodes_to_consume.get_next_tag());
- nodes_to_consume = next;
- }
- for(;;) {
- node * node_pointer = pool.get_pointer(nodes_in_reversed_order);
- f(node_pointer->v);
- element_count += 1;
- node * next_node = pool.get_pointer(node_pointer->next);
- if (!next_node) {
- pool.template destruct<true>(nodes_in_reversed_order);
- break;
- }
- tagged_node_handle next(pool.get_handle(next_node), nodes_in_reversed_order.get_next_tag());
- pool.template destruct<true>(nodes_in_reversed_order);
- nodes_in_reversed_order = next;
- }
- return element_count;
- }
- /**
- * \return true, if stack is empty.
- *
- * \note It only guarantees that at some point during the execution of the function the stack has been empty.
- * It is rarely practical to use this value in program logic, because the stack can be modified by other threads.
- * */
- bool empty(void) const
- {
- return pool.get_pointer(tos.load()) == NULL;
- }
- private:
- #ifndef BOOST_DOXYGEN_INVOKED
- detail::atomic<tagged_node_handle> tos;
- static const int padding_size = BOOST_LOCKFREE_CACHELINE_BYTES - sizeof(tagged_node_handle);
- char padding[padding_size];
- pool_t pool;
- #endif
- };
- } /* namespace lockfree */
- } /* namespace boost */
- #endif /* BOOST_LOCKFREE_STACK_HPP_INCLUDED */
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