From 9a2a524f1e311853d08050be2dcdddc09ac7759a Mon Sep 17 00:00:00 2001 From: Daniel Wilhelm Date: Fri, 18 Apr 2014 17:01:29 +0200 Subject: 3.0 --- shared/loki/Allocator.h | 153 ++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 153 insertions(+) create mode 100644 shared/loki/Allocator.h (limited to 'shared/loki/Allocator.h') diff --git a/shared/loki/Allocator.h b/shared/loki/Allocator.h new file mode 100644 index 00000000..a79ee061 --- /dev/null +++ b/shared/loki/Allocator.h @@ -0,0 +1,153 @@ +//////////////////////////////////////////////////////////////////////////////// +// The Loki Library +// Copyright (c) 2008 by Rich Sposato +// +// Permission to use, copy, modify, distribute and sell this software for any +// purpose is hereby granted without fee, provided that the above copyright +// notice appear in all copies and that both that copyright notice and this +// permission notice appear in supporting documentation. +// The author makes no representations about the +// suitability of this software for any purpose. It is provided "as is" +// without express or implied warranty. +//////////////////////////////////////////////////////////////////////////////// + +#ifndef LOKI_ALLOCATOR_HPP_INCLUDED +#define LOKI_ALLOCATOR_HPP_INCLUDED + +// $Id: Allocator.h 896 2008-08-08 22:20:05Z syntheticpp $ + +// Requires project to be compiled with loki/src/SmallObj.cpp and loki/src/Singleton.cpp + +#include + + +namespace Loki +{ + + +//----------------------------------------------------------------------------- + +/** @class LokiAllocator + Adapts Loki's Small-Object Allocator for STL container classes. + This class provides all the functionality required for STL allocators, but + uses Loki's Small-Object Allocator to perform actual memory operations. + Implementation comes from a post in Loki forums (by Rasmus Ekman?). + */ +template +< + typename Type, + typename AllocT = Loki::AllocatorSingleton<> +> +class LokiAllocator +{ +public: + + typedef ::std::size_t size_type; + typedef ::std::ptrdiff_t difference_type; + typedef Type * pointer; + typedef const Type * const_pointer; + typedef Type & reference; + typedef const Type & const_reference; + typedef Type value_type; + + /// Default constructor does nothing. + inline LokiAllocator( void ) throw() { } + + /// Copy constructor does nothing. + inline LokiAllocator( const LokiAllocator & ) throw() { } + + /// Type converting allocator constructor does nothing. + template < typename Type1 > + inline LokiAllocator( const LokiAllocator< Type1 > & ) throw() { } + + /// Destructor does nothing. + inline ~LokiAllocator() throw() { } + + /// Convert an allocator to an allocator . + template < typename Type1 > + struct rebind + { + typedef LokiAllocator< Type1 > other; + }; + + /// Return address of reference to mutable element. + pointer address( reference elem ) const { return &elem; } + + /// Return address of reference to const element. + const_pointer address( const_reference elem ) const { return &elem; } + + /** Allocate an array of count elements. Warning! The true parameter in + the call to Allocate means this function can throw exceptions. This is + better than not throwing, and returning a null pointer in case the caller + assumes the return value is not null. + @param count # of elements in array. + @param hint Place where caller thinks allocation should occur. + @return Pointer to block of memory. + */ + pointer allocate( size_type count, const void * hint = 0 ) + { + (void)hint; // Ignore the hint. + void * p = AllocT::Instance().Allocate( count * sizeof( Type ), true ); + return reinterpret_cast< pointer >( p ); + } + + /// Ask allocator to release memory at pointer with size bytes. + void deallocate( pointer p, size_type size ) + { + AllocT::Instance().Deallocate( p, size * sizeof( Type ) ); + } + + /// Calculate max # of elements allocator can handle. + size_type max_size( void ) const throw() + { + // A good optimizer will see these calculations always produce the same + // value and optimize this function away completely. + const size_type max_bytes = size_type( -1 ); + const size_type bytes = max_bytes / sizeof( Type ); + return bytes; + } + + /// Construct an element at the pointer. + void construct( pointer p, const Type & value ) + { + // A call to global placement new forces a call to copy constructor. + ::new( p ) Type( value ); + } + + /// Destruct the object at pointer. + void destroy( pointer p ) + { + // If the Type has no destructor, then some compilers complain about + // an unreferenced parameter, so use the void cast trick to prevent + // spurious warnings. + (void)p; + p->~Type(); + } + +}; + +//----------------------------------------------------------------------------- + +/** All equality operators return true since LokiAllocator is basically a + monostate design pattern, so all instances of it are identical. + */ +template < typename Type > +inline bool operator == ( const LokiAllocator< Type > &, const LokiAllocator< Type > & ) +{ + return true; +} + +/** All inequality operators return false since LokiAllocator is basically a + monostate design pattern, so all instances of it are identical. + */ +template < typename Type > +inline bool operator != ( const LokiAllocator< Type > & , const LokiAllocator< Type > & ) +{ + return false; +} + +//----------------------------------------------------------------------------- + +} // namespace Loki + +#endif // LOKI_ALLOCATOR_INCLUDED -- cgit