boost/smart_ptr/shared_ptr.hpp
#ifndef BOOST_SMART_PTR_SHARED_PTR_HPP_INCLUDED
#define BOOST_SMART_PTR_SHARED_PTR_HPP_INCLUDED
//
// shared_ptr.hpp
//
// (C) Copyright Greg Colvin and Beman Dawes 1998, 1999.
// Copyright (c) 2001-2008 Peter Dimov
//
// 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)
//
// See http://www.boost.org/libs/smart_ptr/ for documentation.
//
#include <boost/smart_ptr/detail/shared_count.hpp>
#include <boost/smart_ptr/detail/sp_convertible.hpp>
#include <boost/smart_ptr/detail/sp_disable_deprecated.hpp>
#include <boost/smart_ptr/detail/sp_noexcept.hpp>
#include <boost/core/checked_delete.hpp>
#include <boost/throw_exception.hpp>
#include <boost/assert.hpp>
#include <boost/config.hpp>
#include <boost/config/workaround.hpp>
#if !defined(BOOST_SP_NO_ATOMIC_ACCESS)
#include <boost/smart_ptr/detail/spinlock_pool.hpp>
#endif
#include <algorithm> // for std::swap
#include <functional> // for std::less
#include <typeinfo> // for std::bad_cast
#include <cstddef> // for std::size_t
#include <memory> // for std::auto_ptr
#include <iosfwd> // for std::basic_ostream
#if defined( BOOST_SP_DISABLE_DEPRECATED )
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
#endif
namespace boost
{
template<class T> class shared_ptr;
template<class T> class weak_ptr;
template<class T> class enable_shared_from_this;
class enable_shared_from_raw;
namespace movelib
{
template< class T, class D > class unique_ptr;
} // namespace movelib
namespace detail
{
// sp_element, element_type
template< class T > struct sp_element
{
typedef T type;
};
template< class T > struct sp_element< T[] >
{
typedef T type;
};
template< class T, std::size_t N > struct sp_element< T[N] >
{
typedef T type;
};
// sp_dereference, return type of operator*
template< class T > struct sp_dereference
{
typedef T & type;
};
template<> struct sp_dereference< void >
{
typedef void type;
};
template<> struct sp_dereference< void const >
{
typedef void type;
};
template<> struct sp_dereference< void volatile >
{
typedef void type;
};
template<> struct sp_dereference< void const volatile >
{
typedef void type;
};
template< class T > struct sp_dereference< T[] >
{
typedef void type;
};
template< class T, std::size_t N > struct sp_dereference< T[N] >
{
typedef void type;
};
// sp_member_access, return type of operator->
template< class T > struct sp_member_access
{
typedef T * type;
};
template< class T > struct sp_member_access< T[] >
{
typedef void type;
};
template< class T, std::size_t N > struct sp_member_access< T[N] >
{
typedef void type;
};
// sp_array_access, return type of operator[]
template< class T > struct sp_array_access
{
typedef void type;
};
template< class T > struct sp_array_access< T[] >
{
typedef T & type;
};
template< class T, std::size_t N > struct sp_array_access< T[N] >
{
typedef T & type;
};
// sp_extent, for operator[] index check
template< class T > struct sp_extent
{
enum _vt { value = 0 };
};
template< class T, std::size_t N > struct sp_extent< T[N] >
{
enum _vt { value = N };
};
// enable_shared_from_this support
template< class X, class Y, class T > inline void sp_enable_shared_from_this( boost::shared_ptr<X> const * ppx, Y const * py, boost::enable_shared_from_this< T > const * pe )
{
if( pe != 0 )
{
pe->_internal_accept_owner( ppx, const_cast< Y* >( py ) );
}
}
template< class X, class Y > inline void sp_enable_shared_from_this( boost::shared_ptr<X> * ppx, Y const * py, boost::enable_shared_from_raw const * pe );
#ifdef _MANAGED
// Avoid C4793, ... causes native code generation
struct sp_any_pointer
{
template<class T> sp_any_pointer( T* ) {}
};
inline void sp_enable_shared_from_this( sp_any_pointer, sp_any_pointer, sp_any_pointer )
{
}
#else // _MANAGED
inline void sp_enable_shared_from_this( ... )
{
}
#endif // _MANAGED
// sp_assert_convertible
template< class Y, class T > inline void sp_assert_convertible() noexcept
{
static_assert( sp_convertible< Y, T >::value, "incompatible pointer type" );
}
// pointer constructor helper
template< class T, class Y > inline void sp_pointer_construct( boost::shared_ptr< T > * ppx, Y * p, boost::detail::shared_count & pn )
{
boost::detail::shared_count( p ).swap( pn );
boost::detail::sp_enable_shared_from_this( ppx, p, p );
}
template< class T, class Y > inline void sp_pointer_construct( boost::shared_ptr< T[] > * /*ppx*/, Y * p, boost::detail::shared_count & pn )
{
sp_assert_convertible< Y[], T[] >();
boost::detail::shared_count( p, boost::checked_array_deleter< T >() ).swap( pn );
}
template< class T, std::size_t N, class Y > inline void sp_pointer_construct( boost::shared_ptr< T[N] > * /*ppx*/, Y * p, boost::detail::shared_count & pn )
{
sp_assert_convertible< Y[N], T[N] >();
boost::detail::shared_count( p, boost::checked_array_deleter< T >() ).swap( pn );
}
// deleter constructor helper
template< class T, class Y > inline void sp_deleter_construct( boost::shared_ptr< T > * ppx, Y * p )
{
boost::detail::sp_enable_shared_from_this( ppx, p, p );
}
template< class T, class Y > inline void sp_deleter_construct( boost::shared_ptr< T[] > * /*ppx*/, Y * /*p*/ )
{
sp_assert_convertible< Y[], T[] >();
}
template< class T, std::size_t N, class Y > inline void sp_deleter_construct( boost::shared_ptr< T[N] > * /*ppx*/, Y * /*p*/ )
{
sp_assert_convertible< Y[N], T[N] >();
}
struct sp_internal_constructor_tag
{
};
} // namespace detail
//
// shared_ptr
//
// An enhanced relative of scoped_ptr with reference counted copy semantics.
// The object pointed to is deleted when the last shared_ptr pointing to it
// is destroyed or reset.
//
template<class T> class shared_ptr
{
private:
// Borland 5.5.1 specific workaround
typedef shared_ptr<T> this_type;
public:
typedef typename boost::detail::sp_element< T >::type element_type;
constexpr shared_ptr() noexcept : px( 0 ), pn()
{
}
constexpr shared_ptr( std::nullptr_t ) noexcept : px( 0 ), pn()
{
}
constexpr shared_ptr( boost::detail::sp_internal_constructor_tag, element_type * px_, boost::detail::shared_count const & pn_ ) noexcept : px( px_ ), pn( pn_ )
{
}
constexpr shared_ptr( boost::detail::sp_internal_constructor_tag, element_type * px_, boost::detail::shared_count && pn_ ) noexcept : px( px_ ), pn( std::move( pn_ ) )
{
}
template<class Y>
explicit shared_ptr( Y * p ): px( p ), pn() // Y must be complete
{
boost::detail::sp_pointer_construct( this, p, pn );
}
//
// Requirements: D's copy/move constructors must not throw
//
// shared_ptr will release p by calling d(p)
//
template<class Y, class D> shared_ptr( Y * p, D d ): px( p ), pn( p, static_cast< D&& >( d ) )
{
boost::detail::sp_deleter_construct( this, p );
}
template<class D> shared_ptr( std::nullptr_t p, D d ): px( p ), pn( p, static_cast< D&& >( d ) )
{
}
// As above, but with allocator. A's copy constructor shall not throw.
template<class Y, class D, class A> shared_ptr( Y * p, D d, A a ): px( p ), pn( p, static_cast< D&& >( d ), a )
{
boost::detail::sp_deleter_construct( this, p );
}
template<class D, class A> shared_ptr( std::nullptr_t p, D d, A a ): px( p ), pn( p, static_cast< D&& >( d ), a )
{
}
// generated copy constructor, destructor are fine...
// ... except in C++0x, move disables the implicit copy
shared_ptr( shared_ptr const & r ) noexcept : px( r.px ), pn( r.pn )
{
}
template<class Y>
explicit shared_ptr( weak_ptr<Y> const & r ): pn( r.pn ) // may throw
{
boost::detail::sp_assert_convertible< Y, T >();
// it is now safe to copy r.px, as pn(r.pn) did not throw
px = r.px;
}
template<class Y>
shared_ptr( weak_ptr<Y> const & r, boost::detail::sp_nothrow_tag )
noexcept : px( 0 ), pn( r.pn, boost::detail::sp_nothrow_tag() )
{
if( !pn.empty() )
{
px = r.px;
}
}
template<class Y>
shared_ptr( shared_ptr<Y> const & r, typename boost::detail::sp_enable_if_convertible<Y,T>::type = boost::detail::sp_empty() )
noexcept : px( r.px ), pn( r.pn )
{
boost::detail::sp_assert_convertible< Y, T >();
}
// aliasing
template< class Y >
shared_ptr( shared_ptr<Y> const & r, element_type * p ) noexcept : px( p ), pn( r.pn )
{
}
#ifndef BOOST_NO_AUTO_PTR
template<class Y>
explicit shared_ptr( std::auto_ptr<Y> & r ): px(r.get()), pn()
{
boost::detail::sp_assert_convertible< Y, T >();
Y * tmp = r.get();
pn = boost::detail::shared_count( r );
boost::detail::sp_deleter_construct( this, tmp );
}
template<class Y>
shared_ptr( std::auto_ptr<Y> && r ): px(r.get()), pn()
{
boost::detail::sp_assert_convertible< Y, T >();
Y * tmp = r.get();
pn = boost::detail::shared_count( r );
boost::detail::sp_deleter_construct( this, tmp );
}
#endif // BOOST_NO_AUTO_PTR
template< class Y, class D >
shared_ptr( std::unique_ptr< Y, D > && r ): px( r.get() ), pn()
{
boost::detail::sp_assert_convertible< Y, T >();
typename std::unique_ptr< Y, D >::pointer tmp = r.get();
if( tmp != 0 )
{
pn = boost::detail::shared_count( r );
boost::detail::sp_deleter_construct( this, tmp );
}
}
template< class Y, class D >
shared_ptr( boost::movelib::unique_ptr< Y, D > r ): px( r.get() ), pn()
{
boost::detail::sp_assert_convertible< Y, T >();
typename boost::movelib::unique_ptr< Y, D >::pointer tmp = r.get();
if( tmp != 0 )
{
pn = boost::detail::shared_count( r );
boost::detail::sp_deleter_construct( this, tmp );
}
}
// assignment
shared_ptr & operator=( shared_ptr const & r ) noexcept
{
this_type(r).swap(*this);
return *this;
}
template<class Y>
shared_ptr & operator=(shared_ptr<Y> const & r) noexcept
{
this_type(r).swap(*this);
return *this;
}
#ifndef BOOST_NO_AUTO_PTR
template<class Y>
shared_ptr & operator=( std::auto_ptr<Y> & r )
{
this_type( r ).swap( *this );
return *this;
}
template<class Y>
shared_ptr & operator=( std::auto_ptr<Y> && r )
{
this_type( static_cast< std::auto_ptr<Y> && >( r ) ).swap( *this );
return *this;
}
#endif // BOOST_NO_AUTO_PTR
template<class Y, class D>
shared_ptr & operator=( std::unique_ptr<Y, D> && r )
{
this_type( static_cast< std::unique_ptr<Y, D> && >( r ) ).swap(*this);
return *this;
}
template<class Y, class D>
shared_ptr & operator=( boost::movelib::unique_ptr<Y, D> r )
{
// this_type( static_cast< unique_ptr<Y, D> && >( r ) ).swap( *this );
boost::detail::sp_assert_convertible< Y, T >();
typename boost::movelib::unique_ptr< Y, D >::pointer p = r.get();
shared_ptr tmp;
if( p != 0 )
{
tmp.px = p;
tmp.pn = boost::detail::shared_count( r );
boost::detail::sp_deleter_construct( &tmp, p );
}
tmp.swap( *this );
return *this;
}
// Move support
shared_ptr( shared_ptr && r ) noexcept : px( r.px ), pn( static_cast< boost::detail::shared_count && >( r.pn ) )
{
r.px = 0;
}
template<class Y>
shared_ptr( shared_ptr<Y> && r, typename boost::detail::sp_enable_if_convertible<Y,T>::type = boost::detail::sp_empty() )
noexcept : px( r.px ), pn( static_cast< boost::detail::shared_count && >( r.pn ) )
{
boost::detail::sp_assert_convertible< Y, T >();
r.px = 0;
}
shared_ptr & operator=( shared_ptr && r ) noexcept
{
this_type( static_cast< shared_ptr && >( r ) ).swap( *this );
return *this;
}
template<class Y>
shared_ptr & operator=( shared_ptr<Y> && r ) noexcept
{
this_type( static_cast< shared_ptr<Y> && >( r ) ).swap( *this );
return *this;
}
// aliasing move
template<class Y>
shared_ptr( shared_ptr<Y> && r, element_type * p ) noexcept : px( p ), pn()
{
pn.swap( r.pn );
r.px = 0;
}
shared_ptr & operator=( std::nullptr_t ) noexcept
{
this_type().swap(*this);
return *this;
}
void reset() noexcept
{
this_type().swap(*this);
}
template<class Y> void reset( Y * p ) // Y must be complete
{
BOOST_ASSERT( p == 0 || p != px ); // catch self-reset errors
this_type( p ).swap( *this );
}
template<class Y, class D> void reset( Y * p, D d )
{
this_type( p, static_cast< D&& >( d ) ).swap( *this );
}
template<class Y, class D, class A> void reset( Y * p, D d, A a )
{
this_type( p, static_cast< D&& >( d ), a ).swap( *this );
}
template<class Y> void reset( shared_ptr<Y> const & r, element_type * p ) noexcept
{
this_type( r, p ).swap( *this );
}
template<class Y> void reset( shared_ptr<Y> && r, element_type * p ) noexcept
{
this_type( static_cast< shared_ptr<Y> && >( r ), p ).swap( *this );
}
typename boost::detail::sp_dereference< T >::type operator* () const BOOST_SP_NOEXCEPT_WITH_ASSERT
{
BOOST_ASSERT( px != 0 );
return *px;
}
typename boost::detail::sp_member_access< T >::type operator-> () const BOOST_SP_NOEXCEPT_WITH_ASSERT
{
BOOST_ASSERT( px != 0 );
return px;
}
typename boost::detail::sp_array_access< T >::type operator[] ( std::ptrdiff_t i ) const BOOST_SP_NOEXCEPT_WITH_ASSERT
{
BOOST_ASSERT( px != 0 );
BOOST_ASSERT( i >= 0 && ( i < boost::detail::sp_extent< T >::value || boost::detail::sp_extent< T >::value == 0 ) );
return static_cast< typename boost::detail::sp_array_access< T >::type >( px[ i ] );
}
element_type * get() const noexcept
{
return px;
}
explicit operator bool () const noexcept
{
return px != 0;
}
bool unique() const noexcept
{
return pn.unique();
}
long use_count() const noexcept
{
return pn.use_count();
}
void swap( shared_ptr & other ) noexcept
{
std::swap(px, other.px);
pn.swap(other.pn);
}
template<class Y> bool owner_before( shared_ptr<Y> const & rhs ) const noexcept
{
return pn < rhs.pn;
}
template<class Y> bool owner_before( weak_ptr<Y> const & rhs ) const noexcept
{
return pn < rhs.pn;
}
template<class Y> bool owner_equals( shared_ptr<Y> const & rhs ) const noexcept
{
return pn == rhs.pn;
}
template<class Y> bool owner_equals( weak_ptr<Y> const & rhs ) const noexcept
{
return pn == rhs.pn;
}
std::size_t owner_hash_value() const noexcept
{
return pn.hash_value();
}
void * _internal_get_deleter( boost::detail::sp_typeinfo_ const & ti ) const noexcept
{
return pn.get_deleter( ti );
}
void * _internal_get_local_deleter( boost::detail::sp_typeinfo_ const & ti ) const noexcept
{
return pn.get_local_deleter( ti );
}
void * _internal_get_untyped_deleter() const noexcept
{
return pn.get_untyped_deleter();
}
bool _internal_equiv( shared_ptr const & r ) const noexcept
{
return px == r.px && pn == r.pn;
}
boost::detail::shared_count _internal_count() const noexcept
{
return pn;
}
private:
template<class Y> friend class shared_ptr;
template<class Y> friend class weak_ptr;
element_type * px; // contained pointer
boost::detail::shared_count pn; // reference counter
}; // shared_ptr
template<class T, class U> inline bool operator==(shared_ptr<T> const & a, shared_ptr<U> const & b) noexcept
{
return a.get() == b.get();
}
template<class T, class U> inline bool operator!=(shared_ptr<T> const & a, shared_ptr<U> const & b) noexcept
{
return a.get() != b.get();
}
template<class T> inline bool operator==( shared_ptr<T> const & p, std::nullptr_t ) noexcept
{
return p.get() == 0;
}
template<class T> inline bool operator==( std::nullptr_t, shared_ptr<T> const & p ) noexcept
{
return p.get() == 0;
}
template<class T> inline bool operator!=( shared_ptr<T> const & p, std::nullptr_t ) noexcept
{
return p.get() != 0;
}
template<class T> inline bool operator!=( std::nullptr_t, shared_ptr<T> const & p ) noexcept
{
return p.get() != 0;
}
template<class T, class U> inline bool operator<(shared_ptr<T> const & a, shared_ptr<U> const & b) noexcept
{
return a.owner_before( b );
}
template<class T> inline void swap(shared_ptr<T> & a, shared_ptr<T> & b) noexcept
{
a.swap(b);
}
template<class T, class U> shared_ptr<T> static_pointer_cast( shared_ptr<U> const & r ) noexcept
{
(void) static_cast< T* >( static_cast< U* >( 0 ) );
typedef typename shared_ptr<T>::element_type E;
E * p = static_cast< E* >( r.get() );
return shared_ptr<T>( r, p );
}
template<class T, class U> shared_ptr<T> const_pointer_cast( shared_ptr<U> const & r ) noexcept
{
(void) const_cast< T* >( static_cast< U* >( 0 ) );
typedef typename shared_ptr<T>::element_type E;
E * p = const_cast< E* >( r.get() );
return shared_ptr<T>( r, p );
}
template<class T, class U> shared_ptr<T> dynamic_pointer_cast( shared_ptr<U> const & r ) noexcept
{
(void) dynamic_cast< T* >( static_cast< U* >( 0 ) );
typedef typename shared_ptr<T>::element_type E;
E * p = dynamic_cast< E* >( r.get() );
return p? shared_ptr<T>( r, p ): shared_ptr<T>();
}
template<class T, class U> shared_ptr<T> reinterpret_pointer_cast( shared_ptr<U> const & r ) noexcept
{
(void) reinterpret_cast< T* >( static_cast< U* >( 0 ) );
typedef typename shared_ptr<T>::element_type E;
E * p = reinterpret_cast< E* >( r.get() );
return shared_ptr<T>( r, p );
}
template<class T, class U> shared_ptr<T> static_pointer_cast( shared_ptr<U> && r ) noexcept
{
(void) static_cast< T* >( static_cast< U* >( 0 ) );
typedef typename shared_ptr<T>::element_type E;
E * p = static_cast< E* >( r.get() );
return shared_ptr<T>( std::move(r), p );
}
template<class T, class U> shared_ptr<T> const_pointer_cast( shared_ptr<U> && r ) noexcept
{
(void) const_cast< T* >( static_cast< U* >( 0 ) );
typedef typename shared_ptr<T>::element_type E;
E * p = const_cast< E* >( r.get() );
return shared_ptr<T>( std::move(r), p );
}
template<class T, class U> shared_ptr<T> dynamic_pointer_cast( shared_ptr<U> && r ) noexcept
{
(void) dynamic_cast< T* >( static_cast< U* >( 0 ) );
typedef typename shared_ptr<T>::element_type E;
E * p = dynamic_cast< E* >( r.get() );
return p? shared_ptr<T>( std::move(r), p ): shared_ptr<T>();
}
template<class T, class U> shared_ptr<T> reinterpret_pointer_cast( shared_ptr<U> && r ) noexcept
{
(void) reinterpret_cast< T* >( static_cast< U* >( 0 ) );
typedef typename shared_ptr<T>::element_type E;
E * p = reinterpret_cast< E* >( r.get() );
return shared_ptr<T>( std::move(r), p );
}
// get_pointer() enables boost::mem_fn to recognize shared_ptr
template<class T> inline typename shared_ptr<T>::element_type * get_pointer(shared_ptr<T> const & p) noexcept
{
return p.get();
}
// operator<<
template<class Y> std::ostream & operator<< (std::ostream & os, shared_ptr<Y> const & p)
{
os << p.get();
return os;
}
// get_deleter
namespace detail
{
template<class D, class T> D * basic_get_deleter( shared_ptr<T> const & p ) noexcept
{
return static_cast<D *>( p._internal_get_deleter(BOOST_SP_TYPEID_(D)) );
}
template<class D, class T> D * basic_get_local_deleter( D *, shared_ptr<T> const & p ) noexcept;
template<class D, class T> D const * basic_get_local_deleter( D const *, shared_ptr<T> const & p ) noexcept;
class esft2_deleter_wrapper
{
private:
shared_ptr<void const volatile> deleter_;
public:
esft2_deleter_wrapper() noexcept
{
}
template< class T > void set_deleter( shared_ptr<T> const & deleter ) noexcept
{
deleter_ = deleter;
}
template<typename D> D* get_deleter() const noexcept
{
return boost::detail::basic_get_deleter<D>( deleter_ );
}
template< class T> void operator()( T* ) BOOST_SP_NOEXCEPT_WITH_ASSERT
{
BOOST_ASSERT( deleter_.use_count() <= 1 );
deleter_.reset();
}
};
} // namespace detail
template<class D, class T> D * get_deleter( shared_ptr<T> const & p ) noexcept
{
D * d = boost::detail::basic_get_deleter<D>( p );
if( d == 0 )
{
d = boost::detail::basic_get_local_deleter( d, p );
}
if( d == 0 )
{
boost::detail::esft2_deleter_wrapper *del_wrapper = boost::detail::basic_get_deleter<boost::detail::esft2_deleter_wrapper>(p);
// The following get_deleter method call is fully qualified because
// older versions of gcc (2.95, 3.2.3) fail to compile it when written del_wrapper->get_deleter<D>()
if(del_wrapper) d = del_wrapper->::boost::detail::esft2_deleter_wrapper::get_deleter<D>();
}
return d;
}
// atomic access
#if !defined(BOOST_SP_NO_ATOMIC_ACCESS)
template<class T> inline bool atomic_is_lock_free( shared_ptr<T> const * /*p*/ ) noexcept
{
return false;
}
template<class T> shared_ptr<T> atomic_load( shared_ptr<T> const * p ) noexcept
{
boost::detail::spinlock_pool<2>::scoped_lock lock( p );
return *p;
}
template<class T, class M> inline shared_ptr<T> atomic_load_explicit( shared_ptr<T> const * p, /*memory_order mo*/ M ) noexcept
{
return atomic_load( p );
}
template<class T> void atomic_store( shared_ptr<T> * p, shared_ptr<T> r ) noexcept
{
boost::detail::spinlock_pool<2>::scoped_lock lock( p );
p->swap( r );
}
template<class T, class M> inline void atomic_store_explicit( shared_ptr<T> * p, shared_ptr<T> r, /*memory_order mo*/ M ) noexcept
{
atomic_store( p, r ); // std::move( r )
}
template<class T> shared_ptr<T> atomic_exchange( shared_ptr<T> * p, shared_ptr<T> r ) noexcept
{
boost::detail::spinlock & sp = boost::detail::spinlock_pool<2>::spinlock_for( p );
sp.lock();
p->swap( r );
sp.unlock();
return r; // return std::move( r )
}
template<class T, class M> shared_ptr<T> inline atomic_exchange_explicit( shared_ptr<T> * p, shared_ptr<T> r, /*memory_order mo*/ M ) noexcept
{
return atomic_exchange( p, r ); // std::move( r )
}
template<class T> bool atomic_compare_exchange( shared_ptr<T> * p, shared_ptr<T> * v, shared_ptr<T> w ) noexcept
{
boost::detail::spinlock & sp = boost::detail::spinlock_pool<2>::spinlock_for( p );
sp.lock();
if( p->_internal_equiv( *v ) )
{
p->swap( w );
sp.unlock();
return true;
}
else
{
shared_ptr<T> tmp( *p );
sp.unlock();
tmp.swap( *v );
return false;
}
}
template<class T, class M> inline bool atomic_compare_exchange_explicit( shared_ptr<T> * p, shared_ptr<T> * v, shared_ptr<T> w, /*memory_order success*/ M, /*memory_order failure*/ M ) noexcept
{
return atomic_compare_exchange( p, v, w ); // std::move( w )
}
#endif // !defined(BOOST_SP_NO_ATOMIC_ACCESS)
// hash_value
template< class T > struct hash;
template< class T > std::size_t hash_value( boost::shared_ptr<T> const & p ) noexcept
{
return boost::hash< typename boost::shared_ptr<T>::element_type* >()( p.get() );
}
} // namespace boost
// std::hash
namespace std
{
template<class T> struct hash< ::boost::shared_ptr<T> >
{
std::size_t operator()( ::boost::shared_ptr<T> const & p ) const noexcept
{
return std::hash< typename ::boost::shared_ptr<T>::element_type* >()( p.get() );
}
};
} // namespace std
#include <boost/smart_ptr/detail/local_sp_deleter.hpp>
namespace boost
{
namespace detail
{
template<class D, class T> D * basic_get_local_deleter( D *, shared_ptr<T> const & p ) noexcept
{
return static_cast<D *>( p._internal_get_local_deleter( BOOST_SP_TYPEID_(local_sp_deleter<D>) ) );
}
template<class D, class T> D const * basic_get_local_deleter( D const *, shared_ptr<T> const & p ) noexcept
{
return static_cast<D *>( p._internal_get_local_deleter( BOOST_SP_TYPEID_(local_sp_deleter<D>) ) );
}
} // namespace detail
#if defined(__cpp_deduction_guides)
template<class T> shared_ptr( weak_ptr<T> ) -> shared_ptr<T>;
template<class T, class D> shared_ptr( std::unique_ptr<T, D> ) -> shared_ptr<T>;
#endif
} // namespace boost
#if defined( BOOST_SP_DISABLE_DEPRECATED )
#pragma GCC diagnostic pop
#endif
#endif // #ifndef BOOST_SMART_PTR_SHARED_PTR_HPP_INCLUDED