boost/boost/coroutine/detail/symmetric_coroutine_object.hpp - nest-cam/4320010/boost - Git at Google


 //          Copyright Oliver Kowalke 2009.
 // 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_COROUTINES_DETAIL_SYMMETRIC_COROUTINE_OBJECT_H
 #define BOOST_COROUTINES_DETAIL_SYMMETRIC_COROUTINE_OBJECT_H

 #include <boost/assert.hpp>
 #include <boost/config.hpp>
 #include <boost/move/move.hpp>

 #include <boost/coroutine/detail/config.hpp>
 #include <boost/coroutine/detail/flags.hpp>
 #include <boost/coroutine/detail/symmetric_coroutine_impl.hpp>
 #include <boost/coroutine/detail/symmetric_coroutine_yield.hpp>
 #include <boost/coroutine/exceptions.hpp>
 #include <boost/coroutine/stack_context.hpp>

 #ifdef BOOST_HAS_ABI_HEADERS
 #  include BOOST_ABI_PREFIX
 #endif

 namespace boost {
 namespace coroutines {

 struct stack_context;

 namespace detail {

 template< typename R, typename Fn, typename StackAllocator >
 class symmetric_coroutine_object : public symmetric_coroutine_impl< R >
 {
 private:
     typedef symmetric_coroutine_impl< R >                       impl_t;
     typedef symmetric_coroutine_object< R, Fn, StackAllocator > obj_t;

     Fn                  fn_;
     stack_context       stack_ctx_;
     StackAllocator      stack_alloc_;

     static void deallocate_( obj_t * obj)
     {
         stack_context stack_ctx( obj->stack_ctx_);
         StackAllocator stack_alloc( obj->stack_alloc_);
         obj->unwind_stack();
         obj->~obj_t();
         stack_alloc.deallocate( stack_ctx);
     }

 public:
 #ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
     symmetric_coroutine_object( Fn fn, attributes const& attrs,
                                 stack_context const& stack_ctx,
                                 stack_context const& internal_stack_ctx,
                                 StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
         impl_t( internal_stack_ctx,
                 stack_unwind == attrs.do_unwind,
                 fpu_preserved == attrs.preserve_fpu),
         fn_( fn),
         stack_ctx_( stack_ctx),
         stack_alloc_( stack_alloc)
     {}
 #endif

     symmetric_coroutine_object( BOOST_RV_REF( Fn) fn, attributes const& attrs,
                                 stack_context const& stack_ctx,
                                 stack_context const& internal_stack_ctx,
                                 StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
         impl_t( internal_stack_ctx,
                 stack_unwind == attrs.do_unwind,
                 fpu_preserved == attrs.preserve_fpu),
 #ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
         fn_( fn),
 #else
         fn_( boost::forward< Fn >( fn) ),
 #endif
         stack_ctx_( stack_ctx),
         stack_alloc_( stack_alloc)
     {}

     void run( R * r) BOOST_NOEXCEPT
     {
         BOOST_ASSERT( ! impl_t::unwind_requested() );

         impl_t::flags_ |= flag_started;
         impl_t::flags_ |= flag_running;
         try
         {
             symmetric_coroutine_yield< R > yc( this, r);
             fn_( yc);
         }
         catch ( forced_unwind const&)
         {}
         catch (...)
         { std::terminate(); }

         impl_t::flags_ |= flag_complete;
         impl_t::flags_ &= ~flag_running;
         typename impl_t::param_type to;
         impl_t::callee_.jump(
             impl_t::caller_,
             reinterpret_cast< intptr_t >( & to),
             impl_t::preserve_fpu() );
         BOOST_ASSERT_MSG( false, "coroutine is complete");
     }

     void destroy()
     { deallocate_( this); }
 };

 template< typename R, typename Fn, typename StackAllocator >
 class symmetric_coroutine_object< R &, Fn, StackAllocator > : public symmetric_coroutine_impl< R & >
 {
 private:
     typedef symmetric_coroutine_impl< R & >                         impl_t;
     typedef symmetric_coroutine_object< R &, Fn, StackAllocator >   obj_t;

     Fn                  fn_;
     stack_context       stack_ctx_;
     StackAllocator      stack_alloc_;

     static void deallocate_( obj_t * obj)
     {
         stack_context stack_ctx( obj->stack_ctx_);
         StackAllocator stack_alloc( obj->stack_alloc_);
         obj->unwind_stack();
         obj->~obj_t();
         stack_alloc.deallocate( stack_ctx);
     }

 public:
 #ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
     symmetric_coroutine_object( Fn fn, attributes const& attrs,
                                 stack_context const& stack_ctx,
                                 stack_context const& internal_stack_ctx,
                                 StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
         impl_t( internal_stack_ctx,
                 stack_unwind == attrs.do_unwind,
                 fpu_preserved == attrs.preserve_fpu),
         fn_( fn),
         stack_ctx_( stack_ctx),
         stack_alloc_( stack_alloc)
     {}
 #endif

     symmetric_coroutine_object( BOOST_RV_REF( Fn) fn, attributes const& attrs,
                                 stack_context const& stack_ctx,
                                 stack_context const& internal_stack_ctx,
                                 StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
         impl_t( internal_stack_ctx,
                 stack_unwind == attrs.do_unwind,
                 fpu_preserved == attrs.preserve_fpu),
 #ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
         fn_( fn),
 #else
         fn_( boost::forward< Fn >( fn) ),
 #endif
         stack_ctx_( stack_ctx),
         stack_alloc_( stack_alloc)
     {}

     void run( R * r) BOOST_NOEXCEPT
     {
         BOOST_ASSERT( ! impl_t::unwind_requested() );

         impl_t::flags_ |= flag_started;
         impl_t::flags_ |= flag_running;
         try
         {
             symmetric_coroutine_yield< R & > yc( this, r);
             fn_( yc);
         }
         catch ( forced_unwind const&)
         {}
         catch (...)
         { std::terminate(); }

         impl_t::flags_ |= flag_complete;
         impl_t::flags_ &= ~flag_running;
         typename impl_t::param_type to;
         impl_t::callee_.jump(
             impl_t::caller_,
             reinterpret_cast< intptr_t >( & to),
             impl_t::preserve_fpu() );
         BOOST_ASSERT_MSG( false, "coroutine is complete");
     }

     void destroy()
     { deallocate_( this); }
 };

 template< typename Fn, typename StackAllocator >
 class symmetric_coroutine_object< void, Fn, StackAllocator > : public symmetric_coroutine_impl< void >
 {
 private:
     typedef symmetric_coroutine_impl< void >                        impl_t;
     typedef symmetric_coroutine_object< void, Fn, StackAllocator >  obj_t;

     Fn                  fn_;
     stack_context       stack_ctx_;
     StackAllocator      stack_alloc_;

     static void deallocate_( obj_t * obj)
     {
         stack_context stack_ctx( obj->stack_ctx_);
         StackAllocator stack_alloc( obj->stack_alloc_);
         obj->unwind_stack();
         obj->~obj_t();
         stack_alloc.deallocate( stack_ctx);
     }

 public:
 #ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
     symmetric_coroutine_object( Fn fn, attributes const& attrs,
                                 stack_context const& stack_ctx,
                                 stack_context const& internal_stack_ctx,
                                 StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
         impl_t( internal_stack_ctx,
                 stack_unwind == attrs.do_unwind,
                 fpu_preserved == attrs.preserve_fpu),
         fn_( fn),
         stack_ctx_( stack_ctx),
         stack_alloc_( stack_alloc)
     {}
 #endif

     symmetric_coroutine_object( BOOST_RV_REF( Fn) fn, attributes const& attrs,
                                 stack_context const& stack_ctx,
                                 stack_context const& internal_stack_ctx,
                                 StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
         impl_t( internal_stack_ctx,
                 stack_unwind == attrs.do_unwind,
                 fpu_preserved == attrs.preserve_fpu),
 #ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
         fn_( fn),
 #else
         fn_( boost::forward< Fn >( fn) ),
 #endif
         stack_ctx_( stack_ctx),
         stack_alloc_( stack_alloc)
     {}

     void run() BOOST_NOEXCEPT
     {
         BOOST_ASSERT( ! impl_t::unwind_requested() );

         impl_t::flags_ |= flag_started;
         impl_t::flags_ |= flag_running;
         try
         {
             symmetric_coroutine_yield< void > yc( this);
             fn_( yc);
         }
         catch ( forced_unwind const&)
         {}
         catch (...)
         { std::terminate(); }

         impl_t::flags_ |= flag_complete;
         impl_t::flags_ &= ~flag_running;
         typename impl_t::param_type to;
         impl_t::callee_.jump(
             impl_t::caller_,
             reinterpret_cast< intptr_t >( & to),
             impl_t::preserve_fpu() );
         BOOST_ASSERT_MSG( false, "coroutine is complete");
     }

     void destroy()
     { deallocate_( this); }
 };

 }}}

 #ifdef BOOST_HAS_ABI_HEADERS
 #  include BOOST_ABI_SUFFIX
 #endif

 #endif // BOOST_COROUTINES_DETAIL_SYMMETRIC_COROUTINE_OBJECT_H

	// Copyright Oliver Kowalke 2009.
	// 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_COROUTINES_DETAIL_SYMMETRIC_COROUTINE_OBJECT_H
	#define BOOST_COROUTINES_DETAIL_SYMMETRIC_COROUTINE_OBJECT_H

	#include <boost/assert.hpp>
	#include <boost/config.hpp>
	#include <boost/move/move.hpp>

	#include <boost/coroutine/detail/config.hpp>
	#include <boost/coroutine/detail/flags.hpp>
	#include <boost/coroutine/detail/symmetric_coroutine_impl.hpp>
	#include <boost/coroutine/detail/symmetric_coroutine_yield.hpp>
	#include <boost/coroutine/exceptions.hpp>
	#include <boost/coroutine/stack_context.hpp>

	#ifdef BOOST_HAS_ABI_HEADERS
	# include BOOST_ABI_PREFIX
	#endif

	namespace boost {
	namespace coroutines {

	struct stack_context;

	namespace detail {

	template< typename R, typename Fn, typename StackAllocator >
	class symmetric_coroutine_object : public symmetric_coroutine_impl< R >
	{
	private:
	typedef symmetric_coroutine_impl< R > impl_t;
	typedef symmetric_coroutine_object< R, Fn, StackAllocator > obj_t;

	Fn fn_;
	stack_context stack_ctx_;
	StackAllocator stack_alloc_;

	static void deallocate_( obj_t * obj)
	{
	stack_context stack_ctx( obj->stack_ctx_);
	StackAllocator stack_alloc( obj->stack_alloc_);
	obj->unwind_stack();
	obj->~obj_t();
	stack_alloc.deallocate( stack_ctx);
	}

	public:
	#ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
	symmetric_coroutine_object( Fn fn, attributes const& attrs,
	stack_context const& stack_ctx,
	stack_context const& internal_stack_ctx,
	StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
	impl_t( internal_stack_ctx,
	stack_unwind == attrs.do_unwind,
	fpu_preserved == attrs.preserve_fpu),
	fn_( fn),
	stack_ctx_( stack_ctx),
	stack_alloc_( stack_alloc)
	{}
	#endif

	symmetric_coroutine_object( BOOST_RV_REF( Fn) fn, attributes const& attrs,
	stack_context const& stack_ctx,
	stack_context const& internal_stack_ctx,
	StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
	impl_t( internal_stack_ctx,
	stack_unwind == attrs.do_unwind,
	fpu_preserved == attrs.preserve_fpu),
	#ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
	fn_( fn),
	#else
	fn_( boost::forward< Fn >( fn) ),
	#endif
	stack_ctx_( stack_ctx),
	stack_alloc_( stack_alloc)
	{}

	void run( R * r) BOOST_NOEXCEPT
	{
	BOOST_ASSERT( ! impl_t::unwind_requested() );

	impl_t::flags_ \|= flag_started;
	impl_t::flags_ \|= flag_running;
	try
	{
	symmetric_coroutine_yield< R > yc( this, r);
	fn_( yc);
	}
	catch ( forced_unwind const&)
	{}
	catch (...)
	{ std::terminate(); }

	impl_t::flags_ \|= flag_complete;
	impl_t::flags_ &= ~flag_running;
	typename impl_t::param_type to;
	impl_t::callee_.jump(
	impl_t::caller_,
	reinterpret_cast< intptr_t >( & to),
	impl_t::preserve_fpu() );
	BOOST_ASSERT_MSG( false, "coroutine is complete");
	}

	void destroy()
	{ deallocate_( this); }
	};

	template< typename R, typename Fn, typename StackAllocator >
	class symmetric_coroutine_object< R &, Fn, StackAllocator > : public symmetric_coroutine_impl< R & >
	{
	private:
	typedef symmetric_coroutine_impl< R & > impl_t;
	typedef symmetric_coroutine_object< R &, Fn, StackAllocator > obj_t;

	Fn fn_;
	stack_context stack_ctx_;
	StackAllocator stack_alloc_;

	static void deallocate_( obj_t * obj)
	{
	stack_context stack_ctx( obj->stack_ctx_);
	StackAllocator stack_alloc( obj->stack_alloc_);
	obj->unwind_stack();
	obj->~obj_t();
	stack_alloc.deallocate( stack_ctx);
	}

	public:
	#ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
	symmetric_coroutine_object( Fn fn, attributes const& attrs,
	stack_context const& stack_ctx,
	stack_context const& internal_stack_ctx,
	StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
	impl_t( internal_stack_ctx,
	stack_unwind == attrs.do_unwind,
	fpu_preserved == attrs.preserve_fpu),
	fn_( fn),
	stack_ctx_( stack_ctx),
	stack_alloc_( stack_alloc)
	{}
	#endif

	symmetric_coroutine_object( BOOST_RV_REF( Fn) fn, attributes const& attrs,
	stack_context const& stack_ctx,
	stack_context const& internal_stack_ctx,
	StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
	impl_t( internal_stack_ctx,
	stack_unwind == attrs.do_unwind,
	fpu_preserved == attrs.preserve_fpu),
	#ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
	fn_( fn),
	#else
	fn_( boost::forward< Fn >( fn) ),
	#endif
	stack_ctx_( stack_ctx),
	stack_alloc_( stack_alloc)
	{}

	void run( R * r) BOOST_NOEXCEPT
	{
	BOOST_ASSERT( ! impl_t::unwind_requested() );

	impl_t::flags_ \|= flag_started;
	impl_t::flags_ \|= flag_running;
	try
	{
	symmetric_coroutine_yield< R & > yc( this, r);
	fn_( yc);
	}
	catch ( forced_unwind const&)
	{}
	catch (...)
	{ std::terminate(); }

	impl_t::flags_ \|= flag_complete;
	impl_t::flags_ &= ~flag_running;
	typename impl_t::param_type to;
	impl_t::callee_.jump(
	impl_t::caller_,
	reinterpret_cast< intptr_t >( & to),
	impl_t::preserve_fpu() );
	BOOST_ASSERT_MSG( false, "coroutine is complete");
	}

	void destroy()
	{ deallocate_( this); }
	};

	template< typename Fn, typename StackAllocator >
	class symmetric_coroutine_object< void, Fn, StackAllocator > : public symmetric_coroutine_impl< void >
	{
	private:
	typedef symmetric_coroutine_impl< void > impl_t;
	typedef symmetric_coroutine_object< void, Fn, StackAllocator > obj_t;

	Fn fn_;
	stack_context stack_ctx_;
	StackAllocator stack_alloc_;

	static void deallocate_( obj_t * obj)
	{
	stack_context stack_ctx( obj->stack_ctx_);
	StackAllocator stack_alloc( obj->stack_alloc_);
	obj->unwind_stack();
	obj->~obj_t();
	stack_alloc.deallocate( stack_ctx);
	}

	public:
	#ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
	symmetric_coroutine_object( Fn fn, attributes const& attrs,
	stack_context const& stack_ctx,
	stack_context const& internal_stack_ctx,
	StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
	impl_t( internal_stack_ctx,
	stack_unwind == attrs.do_unwind,
	fpu_preserved == attrs.preserve_fpu),
	fn_( fn),
	stack_ctx_( stack_ctx),
	stack_alloc_( stack_alloc)
	{}
	#endif

	symmetric_coroutine_object( BOOST_RV_REF( Fn) fn, attributes const& attrs,
	stack_context const& stack_ctx,
	stack_context const& internal_stack_ctx,
	StackAllocator const& stack_alloc) BOOST_NOEXCEPT :
	impl_t( internal_stack_ctx,
	stack_unwind == attrs.do_unwind,
	fpu_preserved == attrs.preserve_fpu),
	#ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
	fn_( fn),
	#else
	fn_( boost::forward< Fn >( fn) ),
	#endif
	stack_ctx_( stack_ctx),
	stack_alloc_( stack_alloc)
	{}

	void run() BOOST_NOEXCEPT
	{
	BOOST_ASSERT( ! impl_t::unwind_requested() );

	impl_t::flags_ \|= flag_started;
	impl_t::flags_ \|= flag_running;
	try
	{
	symmetric_coroutine_yield< void > yc( this);
	fn_( yc);
	}
	catch ( forced_unwind const&)
	{}
	catch (...)
	{ std::terminate(); }

	impl_t::flags_ \|= flag_complete;
	impl_t::flags_ &= ~flag_running;
	typename impl_t::param_type to;
	impl_t::callee_.jump(
	impl_t::caller_,
	reinterpret_cast< intptr_t >( & to),
	impl_t::preserve_fpu() );
	BOOST_ASSERT_MSG( false, "coroutine is complete");
	}

	void destroy()
	{ deallocate_( this); }
	};

	}}}

	#ifdef BOOST_HAS_ABI_HEADERS
	# include BOOST_ABI_SUFFIX
	#endif

	#endif // BOOST_COROUTINES_DETAIL_SYMMETRIC_COROUTINE_OBJECT_H