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489 lines
18 KiB
C++
489 lines
18 KiB
C++
// Copyright (C) 2000, 2001 Stephen Cleary
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// Copyright (C) 2010 Paul A. Bristow added Doxygen comments.
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//
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// Distributed under the Boost Software License, Version 1.0. (See
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// accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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//
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// See http://www.boost.org for updates, documentation, and revision history.
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#ifndef BOOST_POOL_ALLOC_HPP
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#define BOOST_POOL_ALLOC_HPP
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/*!
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\file
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\brief C++ Standard Library compatible pool-based allocators.
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\details This header provides two template types -
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\ref pool_allocator and \ref fast_pool_allocator -
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that can be used for fast and efficient memory allocation
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in conjunction with the C++ Standard Library containers.
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These types both satisfy the Standard Allocator requirements [20.1.5]
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and the additional requirements in [20.1.5/4],
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so they can be used with either Standard or user-supplied containers.
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In addition, the fast_pool_allocator also provides an additional allocation
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and an additional deallocation function:
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<table>
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<tr><th>Expression</th><th>Return Type</th><th>Semantic Equivalence<th></tr>
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<tr><td><tt>PoolAlloc::allocate()</tt></td><td><tt>T *</tt></td><td><tt>PoolAlloc::allocate(1)</tt></tr>
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<tr><td><tt>PoolAlloc::deallocate(p)</tt></td><td>void</tt></td><td><tt>PoolAlloc::deallocate(p, 1)</tt></tr>
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</table>
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The typedef user_allocator publishes the value of the UserAllocator template parameter.
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<b>Notes</b>
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If the allocation functions run out of memory, they will throw <tt>std::bad_alloc</tt>.
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The underlying Pool type used by the allocators is accessible through the Singleton Pool Interface.
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The identifying tag used for pool_allocator is pool_allocator_tag,
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and the tag used for fast_pool_allocator is fast_pool_allocator_tag.
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All template parameters of the allocators (including implementation-specific ones)
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determine the type of the underlying Pool,
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with the exception of the first parameter T, whose size is used instead.
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Since the size of T is used to determine the type of the underlying Pool,
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each allocator for different types of the same size will share the same underlying pool.
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The tag class prevents pools from being shared between pool_allocator and fast_pool_allocator.
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For example, on a system where
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<tt>sizeof(int) == sizeof(void *)</tt>, <tt>pool_allocator<int></tt> and <tt>pool_allocator<void *></tt>
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will both allocate/deallocate from/to the same pool.
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If there is only one thread running before main() starts and after main() ends,
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then both allocators are completely thread-safe.
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<b>Compiler and STL Notes</b>
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A number of common STL libraries contain bugs in their using of allocators.
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Specifically, they pass null pointers to the deallocate function,
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which is explicitly forbidden by the Standard [20.1.5 Table 32].
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PoolAlloc will work around these libraries if it detects them;
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currently, workarounds are in place for:
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Borland C++ (Builder and command-line compiler)
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with default (RogueWave) library, ver. 5 and earlier,
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STLport (with any compiler), ver. 4.0 and earlier.
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*/
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// std::numeric_limits
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#include <boost/limits.hpp>
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// new, std::bad_alloc
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#include <new>
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#include <boost/throw_exception.hpp>
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#include <boost/pool/poolfwd.hpp>
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// boost::singleton_pool
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#include <boost/pool/singleton_pool.hpp>
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#include <boost/detail/workaround.hpp>
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#ifdef BOOST_POOL_INSTRUMENT
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#include <iostream>
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#include <iomanip>
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#endif
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// The following code will be put into Boost.Config in a later revision
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#if defined(_RWSTD_VER) || defined(__SGI_STL_PORT) || \
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BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x582))
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#define BOOST_NO_PROPER_STL_DEALLOCATE
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#endif
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namespace boost {
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#ifdef BOOST_POOL_INSTRUMENT
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template <bool b>
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struct debug_info
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{
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static unsigned allocated;
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};
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template <bool b>
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unsigned debug_info<b>::allocated = 0;
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#endif
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//! Simple tag type used by pool_allocator as an argument to the
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//! underlying singleton_pool.
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struct pool_allocator_tag
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{
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};
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/*! \brief A C++ Standard Library conforming allocator, based on an underlying pool.
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Template parameters for pool_allocator are defined as follows:
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<b>T</b> Type of object to allocate/deallocate.
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<b>UserAllocator</B>. Defines the method that the underlying Pool will use to allocate memory from the system. See
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<a href="boost_pool/pool/pooling.html#boost_pool.pool.pooling.user_allocator">User Allocators</a> for details.
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<b>Mutex</b> Allows the user to determine the type of synchronization to be used on the underlying singleton_pool.
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<b>NextSize</b> The value of this parameter is passed to the underlying singleton_pool when it is created.
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<b>MaxSize</b> Limit on the maximum size used.
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\attention
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The underlying singleton_pool used by the this allocator
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constructs a pool instance that
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<b>is never freed</b>. This means that memory allocated
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by the allocator can be still used after main() has
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completed, but may mean that some memory checking programs
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will complain about leaks.
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*/
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template <typename T,
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typename UserAllocator,
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typename Mutex,
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unsigned NextSize,
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unsigned MaxSize >
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class pool_allocator
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{
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public:
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typedef T value_type; //!< value_type of template parameter T.
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typedef UserAllocator user_allocator; //!< allocator that defines the method that the underlying Pool will use to allocate memory from the system.
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typedef Mutex mutex; //!< typedef mutex publishes the value of the template parameter Mutex.
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BOOST_STATIC_CONSTANT(unsigned, next_size = NextSize); //!< next_size publishes the values of the template parameter NextSize.
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typedef value_type * pointer; //!<
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typedef const value_type * const_pointer;
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typedef value_type & reference;
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typedef const value_type & const_reference;
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typedef typename pool<UserAllocator>::size_type size_type;
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typedef typename pool<UserAllocator>::difference_type difference_type;
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//! \brief Nested class rebind allows for transformation from
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//! pool_allocator<T> to pool_allocator<U>.
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//!
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//! Nested class rebind allows for transformation from
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//! pool_allocator<T> to pool_allocator<U> via the member
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//! typedef other.
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template <typename U>
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struct rebind
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{ //
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typedef pool_allocator<U, UserAllocator, Mutex, NextSize, MaxSize> other;
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};
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public:
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pool_allocator()
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{ /*! Results in default construction of the underlying singleton_pool IFF an
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instance of this allocator is constructed during global initialization (
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required to ensure construction of singleton_pool IFF an
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instance of this allocator is constructed during global
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initialization. See ticket #2359 for a complete explanation at
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http://svn.boost.org/trac/boost/ticket/2359) .
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*/
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singleton_pool<pool_allocator_tag, sizeof(T), UserAllocator, Mutex,
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NextSize, MaxSize>::is_from(0);
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}
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// default copy constructor.
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// default assignment operator.
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// not explicit, mimicking std::allocator [20.4.1]
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template <typename U>
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pool_allocator(const pool_allocator<U, UserAllocator, Mutex, NextSize, MaxSize> &)
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{ /*! Results in the default construction of the underlying singleton_pool, this
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is required to ensure construction of singleton_pool IFF an
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instance of this allocator is constructed during global
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initialization. See ticket #2359 for a complete explanation
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at http://svn.boost.org/trac/boost/ticket/2359 .
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*/
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singleton_pool<pool_allocator_tag, sizeof(T), UserAllocator, Mutex,
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NextSize, MaxSize>::is_from(0);
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}
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// default destructor
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static pointer address(reference r)
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{ return &r; }
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static const_pointer address(const_reference s)
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{ return &s; }
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static size_type max_size()
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{ return (std::numeric_limits<size_type>::max)(); }
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static void construct(const pointer ptr, const value_type & t)
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{ new (ptr) T(t); }
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static void destroy(const pointer ptr)
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{
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ptr->~T();
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(void) ptr; // avoid unused variable warning.
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}
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bool operator==(const pool_allocator &) const
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{ return true; }
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bool operator!=(const pool_allocator &) const
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{ return false; }
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static pointer allocate(const size_type n)
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{
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#ifdef BOOST_POOL_INSTRUMENT
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debug_info<true>::allocated += n * sizeof(T);
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std::cout << "Allocating " << n << " * " << sizeof(T) << " bytes...\n"
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"Total allocated is now " << debug_info<true>::allocated << std::endl;
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#endif
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const pointer ret = static_cast<pointer>(
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singleton_pool<pool_allocator_tag, sizeof(T), UserAllocator, Mutex,
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NextSize, MaxSize>::ordered_malloc(n) );
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if ((ret == 0) && n)
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boost::throw_exception(std::bad_alloc());
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return ret;
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}
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static pointer allocate(const size_type n, const void * const)
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{ //! allocate n bytes
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//! \param n bytes to allocate.
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//! \param unused.
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return allocate(n);
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}
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static void deallocate(const pointer ptr, const size_type n)
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{ //! Deallocate n bytes from ptr
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//! \param ptr location to deallocate from.
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//! \param n number of bytes to deallocate.
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#ifdef BOOST_POOL_INSTRUMENT
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debug_info<true>::allocated -= n * sizeof(T);
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std::cout << "Deallocating " << n << " * " << sizeof(T) << " bytes...\n"
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"Total allocated is now " << debug_info<true>::allocated << std::endl;
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#endif
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#ifdef BOOST_NO_PROPER_STL_DEALLOCATE
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if (ptr == 0 || n == 0)
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return;
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#endif
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singleton_pool<pool_allocator_tag, sizeof(T), UserAllocator, Mutex,
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NextSize, MaxSize>::ordered_free(ptr, n);
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}
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};
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/*! \brief Specialization of pool_allocator<void>.
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Specialization of pool_allocator for type void: required by the standard to make this a conforming allocator type.
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*/
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template<
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typename UserAllocator,
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typename Mutex,
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unsigned NextSize,
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unsigned MaxSize>
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class pool_allocator<void, UserAllocator, Mutex, NextSize, MaxSize>
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{
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public:
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typedef void* pointer;
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typedef const void* const_pointer;
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typedef void value_type;
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//! \brief Nested class rebind allows for transformation from
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//! pool_allocator<T> to pool_allocator<U>.
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//!
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//! Nested class rebind allows for transformation from
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//! pool_allocator<T> to pool_allocator<U> via the member
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//! typedef other.
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template <class U>
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struct rebind
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{
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typedef pool_allocator<U, UserAllocator, Mutex, NextSize, MaxSize> other;
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};
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};
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//! Simple tag type used by fast_pool_allocator as a template parameter to the underlying singleton_pool.
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struct fast_pool_allocator_tag
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{
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};
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/*! \brief A C++ Standard Library conforming allocator geared towards allocating single chunks.
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While class template <tt>pool_allocator</tt> is a more general-purpose solution geared towards
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efficiently servicing requests for any number of contiguous chunks,
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<tt>fast_pool_allocator</tt> is also a general-purpose solution,
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but is geared towards efficiently servicing requests for one chunk at a time;
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it will work for contiguous chunks, but not as well as <tt>pool_allocator</tt>.
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If you are seriously concerned about performance,
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use <tt>fast_pool_allocator</tt> when dealing with containers such as <tt>std::list</tt>,
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and use <tt>pool_allocator</tt> when dealing with containers such as <tt>std::vector</tt>.
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The template parameters are defined as follows:
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<b>T</b> Type of object to allocate/deallocate.
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<b>UserAllocator</b>. Defines the method that the underlying Pool will use to allocate memory from the system.
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See <a href="boost_pool/pool/pooling.html#boost_pool.pool.pooling.user_allocator">User Allocators</a> for details.
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<b>Mutex</b> Allows the user to determine the type of synchronization to be used on the underlying <tt>singleton_pool</tt>.
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<b>NextSize</b> The value of this parameter is passed to the underlying Pool when it is created.
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<b>MaxSize</b> Limit on the maximum size used.
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\attention
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The underlying singleton_pool used by the this allocator
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constructs a pool instance that
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<b>is never freed</b>. This means that memory allocated
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by the allocator can be still used after main() has
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completed, but may mean that some memory checking programs
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will complain about leaks.
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*/
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template <typename T,
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typename UserAllocator,
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typename Mutex,
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unsigned NextSize,
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unsigned MaxSize >
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class fast_pool_allocator
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{
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public:
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typedef T value_type;
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typedef UserAllocator user_allocator;
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typedef Mutex mutex;
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BOOST_STATIC_CONSTANT(unsigned, next_size = NextSize);
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typedef value_type * pointer;
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typedef const value_type * const_pointer;
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typedef value_type & reference;
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typedef const value_type & const_reference;
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typedef typename pool<UserAllocator>::size_type size_type;
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typedef typename pool<UserAllocator>::difference_type difference_type;
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//! \brief Nested class rebind allows for transformation from
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//! fast_pool_allocator<T> to fast_pool_allocator<U>.
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//!
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//! Nested class rebind allows for transformation from
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//! fast_pool_allocator<T> to fast_pool_allocator<U> via the member
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//! typedef other.
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template <typename U>
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struct rebind
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{
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typedef fast_pool_allocator<U, UserAllocator, Mutex, NextSize, MaxSize> other;
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};
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public:
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fast_pool_allocator()
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{
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//! Ensures construction of the underlying singleton_pool IFF an
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//! instance of this allocator is constructed during global
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//! initialization. See ticket #2359 for a complete explanation
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//! at http://svn.boost.org/trac/boost/ticket/2359 .
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singleton_pool<fast_pool_allocator_tag, sizeof(T),
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UserAllocator, Mutex, NextSize, MaxSize>::is_from(0);
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}
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// Default copy constructor used.
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// Default assignment operator used.
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// Not explicit, mimicking std::allocator [20.4.1]
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template <typename U>
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fast_pool_allocator(
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const fast_pool_allocator<U, UserAllocator, Mutex, NextSize, MaxSize> &)
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{
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//! Ensures construction of the underlying singleton_pool IFF an
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//! instance of this allocator is constructed during global
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//! initialization. See ticket #2359 for a complete explanation
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//! at http://svn.boost.org/trac/boost/ticket/2359 .
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singleton_pool<fast_pool_allocator_tag, sizeof(T),
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UserAllocator, Mutex, NextSize, MaxSize>::is_from(0);
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}
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// Default destructor used.
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static pointer address(reference r)
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{
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return &r;
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}
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static const_pointer address(const_reference s)
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{ return &s; }
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static size_type max_size()
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{ return (std::numeric_limits<size_type>::max)(); }
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void construct(const pointer ptr, const value_type & t)
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{ new (ptr) T(t); }
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void destroy(const pointer ptr)
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{ //! Destroy ptr using destructor.
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ptr->~T();
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(void) ptr; // Avoid unused variable warning.
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}
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bool operator==(const fast_pool_allocator &) const
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{ return true; }
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bool operator!=(const fast_pool_allocator &) const
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{ return false; }
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static pointer allocate(const size_type n)
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{
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const pointer ret = (n == 1) ?
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static_cast<pointer>(
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(singleton_pool<fast_pool_allocator_tag, sizeof(T),
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UserAllocator, Mutex, NextSize, MaxSize>::malloc)() ) :
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static_cast<pointer>(
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singleton_pool<fast_pool_allocator_tag, sizeof(T),
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UserAllocator, Mutex, NextSize, MaxSize>::ordered_malloc(n) );
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if (ret == 0)
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boost::throw_exception(std::bad_alloc());
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return ret;
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}
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static pointer allocate(const size_type n, const void * const)
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{ //! Allocate memory .
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return allocate(n);
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}
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static pointer allocate()
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{ //! Allocate memory.
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const pointer ret = static_cast<pointer>(
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(singleton_pool<fast_pool_allocator_tag, sizeof(T),
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UserAllocator, Mutex, NextSize, MaxSize>::malloc)() );
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if (ret == 0)
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boost::throw_exception(std::bad_alloc());
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return ret;
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}
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static void deallocate(const pointer ptr, const size_type n)
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{ //! Deallocate memory.
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#ifdef BOOST_NO_PROPER_STL_DEALLOCATE
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if (ptr == 0 || n == 0)
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return;
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#endif
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if (n == 1)
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(singleton_pool<fast_pool_allocator_tag, sizeof(T),
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UserAllocator, Mutex, NextSize, MaxSize>::free)(ptr);
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else
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(singleton_pool<fast_pool_allocator_tag, sizeof(T),
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UserAllocator, Mutex, NextSize, MaxSize>::free)(ptr, n);
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}
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static void deallocate(const pointer ptr)
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{ //! deallocate/free
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(singleton_pool<fast_pool_allocator_tag, sizeof(T),
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UserAllocator, Mutex, NextSize, MaxSize>::free)(ptr);
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}
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};
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/*! \brief Specialization of fast_pool_allocator<void>.
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Specialization of fast_pool_allocator<void> required to make the allocator standard-conforming.
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*/
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template<
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typename UserAllocator,
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typename Mutex,
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unsigned NextSize,
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unsigned MaxSize >
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class fast_pool_allocator<void, UserAllocator, Mutex, NextSize, MaxSize>
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{
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public:
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typedef void* pointer;
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typedef const void* const_pointer;
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typedef void value_type;
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//! \brief Nested class rebind allows for transformation from
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//! fast_pool_allocator<T> to fast_pool_allocator<U>.
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//!
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//! Nested class rebind allows for transformation from
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//! fast_pool_allocator<T> to fast_pool_allocator<U> via the member
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//! typedef other.
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template <class U> struct rebind
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{
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typedef fast_pool_allocator<U, UserAllocator, Mutex, NextSize, MaxSize> other;
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};
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};
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} // namespace boost
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#endif
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