#ifndef BOOST_LEAF_CAPTURE_HPP_INCLUDED #define BOOST_LEAF_CAPTURE_HPP_INCLUDED /// Copyright (c) 2018-2021 Emil Dotchevski and Reverge Studios, Inc. /// 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_LEAF_ENABLE_WARNINGS /// # if defined(_MSC_VER) /// # pragma warning(push,1) /// # elif defined(__clang__) /// # pragma clang system_header /// # elif (__GNUC__*100+__GNUC_MINOR__>301) /// # pragma GCC system_header /// # endif /// #endif /// #include #include namespace boost { namespace leaf { namespace leaf_detail { template ::value> struct is_result_tag; template struct is_result_tag { }; template struct is_result_tag { }; } #ifdef BOOST_LEAF_NO_EXCEPTIONS namespace leaf_detail { template inline decltype(std::declval()(std::forward(std::declval ())...)) capture_impl(is_result_tag, context_ptr && ctx, F && f, A... a) noexcept { auto active_context = activate_context(*ctx); return std::forward(f)(std::forward (a)...); } template inline decltype(std::declval()(std::forward (std::declval ())...)) capture_impl(is_result_tag, context_ptr && ctx, F && f, A... a) noexcept { auto active_context = activate_context(*ctx); if( auto r = std::forward(f)(std::forward (a)...) ) return r; else { ctx->captured_id_ = r.error(); return std::move(ctx); } } template inline decltype(std::declval().get()) future_get_impl(is_result_tag, Future & fut) noexcept { return fut.get(); } template inline decltype(std::declval().get()) future_get_impl(is_result_tag, Future & fut) noexcept { if( auto r = fut.get() ) return r; else return error_id(r.error()); // unloads } } #else namespace leaf_detail { class capturing_exception: public std::exception { std::exception_ptr ex_; context_ptr ctx_; public: capturing_exception(std::exception_ptr && ex, context_ptr && ctx) noexcept: ex_(std::move(ex)), ctx_(std::move(ctx)) { BOOST_LEAF_ASSERT(ex_); BOOST_LEAF_ASSERT(ctx_); BOOST_LEAF_ASSERT(ctx_->captured_id_); } [[noreturn]] void unload_and_rethrow_original_exception() const { BOOST_LEAF_ASSERT(ctx_->captured_id_); auto active_context = activate_context(*ctx_); id_factory<>::current_id = ctx_->captured_id_.value(); std::rethrow_exception(ex_); } template void print( std::basic_ostream & os ) const { ctx_->print(os); } }; template inline decltype(std::declval()(std::forward (std::declval ())...)) capture_impl(is_result_tag, context_ptr && ctx, F && f, A... a) { auto active_context = activate_context(*ctx); error_monitor cur_err; try { return std::forward(f)(std::forward (a)...); } catch( capturing_exception const & ) { throw; } catch( exception_base const & e ) { ctx->captured_id_ = e.get_error_id(); throw_exception( capturing_exception(std::current_exception(), std::move(ctx)) ); } catch(...) { ctx->captured_id_ = cur_err.assigned_error_id(); throw_exception( capturing_exception(std::current_exception(), std::move(ctx)) ); } } template inline decltype(std::declval()(std::forward (std::declval ())...)) capture_impl(is_result_tag, context_ptr && ctx, F && f, A... a) { auto active_context = activate_context(*ctx); error_monitor cur_err; try { if( auto && r = std::forward(f)(std::forward (a)...) ) return std::move(r); else { ctx->captured_id_ = r.error(); return std::move(ctx); } } catch( capturing_exception const & ) { throw; } catch( exception_base const & e ) { ctx->captured_id_ = e.get_error_id(); throw_exception( capturing_exception(std::current_exception(), std::move(ctx)) ); } catch(...) { ctx->captured_id_ = cur_err.assigned_error_id(); throw_exception( capturing_exception(std::current_exception(), std::move(ctx)) ); } } template inline decltype(std::declval().get()) future_get_impl(is_result_tag, Future & fut ) { try { return fut.get(); } catch( capturing_exception const & cap ) { cap.unload_and_rethrow_original_exception(); } } template inline decltype(std::declval().get()) future_get_impl(is_result_tag, Future & fut ) { try { if( auto r = fut.get() ) return r; else return error_id(r.error()); // unloads } catch( capturing_exception const & cap ) { cap.unload_and_rethrow_original_exception(); } } } #endif template inline decltype(std::declval()(std::forward (std::declval ())...)) capture(context_ptr && ctx, F && f, A... a) { using namespace leaf_detail; return capture_impl(is_result_tag()(std::forward (std::declval ())...))>(), std::move(ctx), std::forward(f), std::forward (a)...); } template inline decltype(std::declval().get()) future_get( Future & fut ) { using namespace leaf_detail; return future_get_impl(is_result_tag().get())>(), fut); } //////////////////////////////////////// #ifndef BOOST_LEAF_NO_EXCEPTIONS template class result; namespace leaf_detail { inline error_id catch_exceptions_helper( std::exception const & ex, leaf_detail_mp11::mp_list<> ) { return leaf::new_error(std::current_exception()); } template inline error_id catch_exceptions_helper( std::exception const & ex, leaf_detail_mp11::mp_list ) { if( Ex1 const * p = dynamic_cast(&ex) ) return catch_exceptions_helper(ex, leaf_detail_mp11::mp_list{ }).load(*p); else return catch_exceptions_helper(ex, leaf_detail_mp11::mp_list{ }); } template struct deduce_exception_to_result_return_type_impl { using type = result; }; template struct deduce_exception_to_result_return_type_impl> { using type = result; }; template using deduce_exception_to_result_return_type = typename deduce_exception_to_result_return_type_impl::type; } template inline leaf_detail::deduce_exception_to_result_return_type> exception_to_result( F && f ) noexcept { try { return std::forward(f)(); } catch( std::exception const & ex ) { return leaf_detail::catch_exceptions_helper(ex, leaf_detail_mp11::mp_list()); } catch(...) { return leaf::new_error(std::current_exception()); } } #endif } } #if defined(_MSC_VER) && !defined(BOOST_LEAF_ENABLE_WARNINGS) /// #pragma warning(pop) /// #endif /// #endif