// Copyright Oliver Kowalke 2014. // 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_COROUTINES2_DETAIL_PUSH_CONTROL_BLOCK_IPP #define BOOST_COROUTINES2_DETAIL_PUSH_CONTROL_BLOCK_IPP #include #include #include #include #include #include #include #include #include #ifdef BOOST_HAS_ABI_HEADERS # include BOOST_ABI_PREFIX #endif namespace boost { namespace coroutines2 { namespace detail { // push_coroutine< T > template< typename T > void push_coroutine< T >::control_block::destroy( control_block * cb) noexcept { boost::context::continuation c = std::move( cb->c); // destroy control structure cb->~control_block(); // destroy coroutine's stack cb->state |= state_t::destroy; c.resume(); } template< typename T > template< typename StackAllocator, typename Fn > push_coroutine< T >::control_block::control_block( context::preallocated palloc, StackAllocator salloc, Fn && fn) : c{}, other{ nullptr }, state{ state_t::unwind }, except{} { #if defined(BOOST_NO_CXX14_GENERIC_LAMBDAS) c = boost::context::callcc( std::allocator_arg, palloc, salloc, wrap( [this](typename std::decay< Fn >::type & fn_,boost::context::continuation && c) mutable { // create synthesized pull_coroutine< T > typename pull_coroutine< T >::control_block synthesized_cb{ this, c }; pull_coroutine< T > synthesized{ & synthesized_cb }; other = & synthesized_cb; other->c = other->c.resume(); // set transferred value if ( other->c.data_available() ) { synthesized_cb.set( other->c.template get_data< T >() ); } else { synthesized_cb.reset(); } if ( state_t::none == ( state & state_t::destroy) ) { try { auto fn = std::move( fn_); // call coroutine-fn with synthesized pull_coroutine as argument fn( synthesized); } catch ( boost::context::detail::forced_unwind const&) { throw; } catch (...) { // store other exceptions in exception-pointer except = std::current_exception(); } } // set termination flags state |= state_t::complete; // jump back return other->c.resume(); }, std::forward< Fn >( fn) ) ); #else c = boost::context::callcc( std::allocator_arg, palloc, salloc, [this,fn_=std::forward< Fn >( fn)](boost::context::continuation && c) mutable { // create synthesized pull_coroutine< T > typename pull_coroutine< T >::control_block synthesized_cb{ this, c }; pull_coroutine< T > synthesized{ & synthesized_cb }; other = & synthesized_cb; other->c = other->c.resume(); // set transferred value if ( other->c.data_available() ) { synthesized_cb.set( other->c.template get_data< T >() ); } else { synthesized_cb.reset(); } if ( state_t::none == ( state & state_t::destroy) ) { try { auto fn = std::move( fn_); // call coroutine-fn with synthesized pull_coroutine as argument fn( synthesized); } catch ( boost::context::detail::forced_unwind const&) { throw; } catch (...) { // store other exceptions in exception-pointer except = std::current_exception(); } } // set termination flags state |= state_t::complete; // jump back return other->c.resume(); }); #endif } template< typename T > push_coroutine< T >::control_block::control_block( typename pull_coroutine< T >::control_block * cb, boost::context::continuation & c_) noexcept : c{ std::move( c_) }, other{ cb }, state{ state_t::none }, except{} { } template< typename T > void push_coroutine< T >::control_block::deallocate() noexcept { if ( state_t::none != ( state & state_t::unwind) ) { destroy( this); } } template< typename T > void push_coroutine< T >::control_block::resume( T const& data) { // pass an pointer to other context c = c.resume( data); if ( except) { std::rethrow_exception( except); } } template< typename T > void push_coroutine< T >::control_block::resume( T && data) { // pass an pointer to other context c = c.resume( std::move( data) ); if ( except) { std::rethrow_exception( except); } } template< typename T > bool push_coroutine< T >::control_block::valid() const noexcept { return state_t::none == ( state & state_t::complete ); } // push_coroutine< T & > template< typename T > void push_coroutine< T & >::control_block::destroy( control_block * cb) noexcept { boost::context::continuation c = std::move( cb->c); // destroy control structure cb->~control_block(); // destroy coroutine's stack cb->state |= state_t::destroy; c.resume(); } template< typename T > template< typename StackAllocator, typename Fn > push_coroutine< T & >::control_block::control_block( context::preallocated palloc, StackAllocator salloc, Fn && fn) : c{}, other{ nullptr }, state{ state_t::unwind }, except{} { #if defined(BOOST_NO_CXX14_GENERIC_LAMBDAS) c = boost::context::callcc( std::allocator_arg, palloc, salloc, wrap( [this](typename std::decay< Fn >::type & fn_,boost::context::continuation && c) mutable { // create synthesized pull_coroutine< T & > typename pull_coroutine< T & >::control_block synthesized_cb{ this, c }; pull_coroutine< T & > synthesized{ & synthesized_cb }; other = & synthesized_cb; other->c = other->c.resume(); // set transferred value if ( other->c.data_available() ) { synthesized_cb.set( other->c.template get_data< T & >() ); } else { synthesized_cb.reset(); } if ( state_t::none == ( state & state_t::destroy) ) { try { auto fn = std::move( fn_); // call coroutine-fn with synthesized pull_coroutine as argument fn( synthesized); } catch ( boost::context::detail::forced_unwind const&) { throw; } catch (...) { // store other exceptions in exception-pointer except = std::current_exception(); } } // set termination flags state |= state_t::complete; // jump back return other->c.resume(); }, std::forward< Fn >( fn) ) ); #else c = boost::context::callcc( std::allocator_arg, palloc, salloc, [this,fn_=std::forward< Fn >( fn)](boost::context::continuation && c) mutable { // create synthesized pull_coroutine< T & > typename pull_coroutine< T & >::control_block synthesized_cb{ this, c }; pull_coroutine< T & > synthesized{ & synthesized_cb }; other = & synthesized_cb; other->c = other->c.resume(); // set transferred value if ( other->c.data_available() ) { synthesized_cb.set( other->c.template get_data< T & >() ); } else { synthesized_cb.reset(); } if ( state_t::none == ( state & state_t::destroy) ) { try { auto fn = std::move( fn_); // call coroutine-fn with synthesized pull_coroutine as argument fn( synthesized); } catch ( boost::context::detail::forced_unwind const&) { throw; } catch (...) { // store other exceptions in exception-pointer except = std::current_exception(); } } // set termination flags state |= state_t::complete; // jump back return other->c.resume(); }); #endif } template< typename T > push_coroutine< T & >::control_block::control_block( typename pull_coroutine< T & >::control_block * cb, boost::context::continuation & c_) noexcept : c{ std::move( c_) }, other{ cb }, state{ state_t::none }, except{} { } template< typename T > void push_coroutine< T & >::control_block::deallocate() noexcept { if ( state_t::none != ( state & state_t::unwind) ) { destroy( this); } } template< typename T > void push_coroutine< T & >::control_block::resume( T & t) { // pass an pointer to other context c = c.resume( std::ref( t) ); if ( except) { std::rethrow_exception( except); } } template< typename T > bool push_coroutine< T & >::control_block::valid() const noexcept { return state_t::none == ( state & state_t::complete ); } // push_coroutine< void > inline void push_coroutine< void >::control_block::destroy( control_block * cb) noexcept { boost::context::continuation c = std::move( cb->c); // destroy control structure cb->~control_block(); // destroy coroutine's stack cb->state |= state_t::destroy; c.resume(); } template< typename StackAllocator, typename Fn > push_coroutine< void >::control_block::control_block( context::preallocated palloc, StackAllocator salloc, Fn && fn) : c{}, other{ nullptr }, state{ state_t::unwind }, except{} { #if defined(BOOST_NO_CXX14_GENERIC_LAMBDAS) c = boost::context::callcc( std::allocator_arg, palloc, salloc, wrap( [this](typename std::decay< Fn >::type & fn_,boost::context::continuation && c) mutable { // create synthesized pull_coroutine< void > typename pull_coroutine< void >::control_block synthesized_cb{ this, c }; pull_coroutine< void > synthesized{ & synthesized_cb }; other = & synthesized_cb; other->c = other->c.resume(); if ( state_t::none == ( state & state_t::destroy) ) { try { auto fn = std::move( fn_); // call coroutine-fn with synthesized pull_coroutine as argument fn( synthesized); } catch ( boost::context::detail::forced_unwind const&) { throw; } catch (...) { // store other exceptions in exception-pointer except = std::current_exception(); } } // set termination flags state |= state_t::complete; // jump back return other->c.resume(); }, std::forward< Fn >( fn) ) ); #else c = boost::context::callcc( std::allocator_arg, palloc, salloc, [this,fn_=std::forward< Fn >( fn)](boost::context::continuation && c) mutable { // create synthesized pull_coroutine< void > typename pull_coroutine< void >::control_block synthesized_cb{ this, c}; pull_coroutine< void > synthesized{ & synthesized_cb }; other = & synthesized_cb; other->c = other->c.resume(); if ( state_t::none == ( state & state_t::destroy) ) { try { auto fn = std::move( fn_); // call coroutine-fn with synthesized pull_coroutine as argument fn( synthesized); } catch ( boost::context::detail::forced_unwind const&) { throw; } catch (...) { // store other exceptions in exception-pointer except = std::current_exception(); } } // set termination flags state |= state_t::complete; // jump back return other->c.resume(); }); #endif } inline push_coroutine< void >::control_block::control_block( pull_coroutine< void >::control_block * cb, boost::context::continuation & c_) noexcept : c{ std::move( c_) }, other{ cb }, state{ state_t::none }, except{} { } inline void push_coroutine< void >::control_block::deallocate() noexcept { if ( state_t::none != ( state & state_t::unwind) ) { destroy( this); } } inline void push_coroutine< void >::control_block::resume() { c = c.resume(); if ( except) { std::rethrow_exception( except); } } inline bool push_coroutine< void >::control_block::valid() const noexcept { return state_t::none == ( state & state_t::complete ); } }}} #ifdef BOOST_HAS_ABI_HEADERS # include BOOST_ABI_SUFFIX #endif #endif // BOOST_COROUTINES2_DETAIL_PUSH_CONTROL_BLOCK_IPP