#ifndef BOOST_SMART_PTR_DETAIL_SP_COUNTED_BASE_GCC_SPARC_HPP_INCLUDED #define BOOST_SMART_PTR_DETAIL_SP_COUNTED_BASE_GCC_SPARC_HPP_INCLUDED // MS compatible compilers support #pragma once #if defined(_MSC_VER) && (_MSC_VER >= 1020) # pragma once #endif // detail/sp_counted_base_gcc_sparc.hpp - g++ on Sparc V8+ // // Copyright (c) 2006 Piotr Wyderski // Copyright (c) 2006 Tomas Puverle // Copyright (c) 2006 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 // // Thanks to Michael van der Westhuizen #include #include #include #include // int32_t #if defined(BOOST_SP_REPORT_IMPLEMENTATION) #include BOOST_PRAGMA_MESSAGE("Using g++/Sparc sp_counted_base") #endif BOOST_SP_OBSOLETE() namespace boost { namespace detail { inline int32_t compare_and_swap( int32_t * dest_, int32_t compare_, int32_t swap_ ) { __asm__ __volatile__( "cas [%1], %2, %0" : "+r" (swap_) : "r" (dest_), "r" (compare_) : "memory" ); return swap_; } inline int32_t atomic_fetch_and_add( int32_t * pw, int32_t dv ) { // long r = *pw; // *pw += dv; // return r; for( ;; ) { int32_t r = *pw; if( __builtin_expect((compare_and_swap(pw, r, r + dv) == r), 1) ) { return r; } } } inline void atomic_increment( int32_t * pw ) { atomic_fetch_and_add( pw, 1 ); } inline int32_t atomic_decrement( int32_t * pw ) { return atomic_fetch_and_add( pw, -1 ); } inline int32_t atomic_conditional_increment( int32_t * pw ) { // long r = *pw; // if( r != 0 ) ++*pw; // return r; for( ;; ) { int32_t r = *pw; if( r == 0 ) { return r; } if( __builtin_expect( ( compare_and_swap( pw, r, r + 1 ) == r ), 1 ) ) { return r; } } } class BOOST_SYMBOL_VISIBLE sp_counted_base { private: sp_counted_base( sp_counted_base const & ); sp_counted_base & operator= ( sp_counted_base const & ); int32_t use_count_; // #shared int32_t weak_count_; // #weak + (#shared != 0) public: sp_counted_base(): use_count_( 1 ), weak_count_( 1 ) { } virtual ~sp_counted_base() // nothrow { } // dispose() is called when use_count_ drops to zero, to release // the resources managed by *this. virtual void dispose() = 0; // nothrow // destroy() is called when weak_count_ drops to zero. virtual void destroy() // nothrow { delete this; } virtual void * get_deleter( sp_typeinfo_ const & ti ) = 0; virtual void * get_local_deleter( sp_typeinfo_ const & ti ) = 0; virtual void * get_untyped_deleter() = 0; void add_ref_copy() { atomic_increment( &use_count_ ); } bool add_ref_lock() // true on success { return atomic_conditional_increment( &use_count_ ) != 0; } void release() // nothrow { if( atomic_decrement( &use_count_ ) == 1 ) { dispose(); weak_release(); } } void weak_add_ref() // nothrow { atomic_increment( &weak_count_ ); } void weak_release() // nothrow { if( atomic_decrement( &weak_count_ ) == 1 ) { destroy(); } } long use_count() const // nothrow { return const_cast< int32_t const volatile & >( use_count_ ); } }; } // namespace detail } // namespace boost #endif // #ifndef BOOST_SMART_PTR_DETAIL_SP_COUNTED_BASE_GCC_SPARC_HPP_INCLUDED