// // any_executor.cpp // ~~~~~~~~~~~~~~~~ // // Copyright (c) 2003-2021 Christopher M. Kohlhoff (chris at kohlhoff dot com) // // 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) // // Disable autolinking for unit tests. #if !defined(BOOST_ALL_NO_LIB) #define BOOST_ALL_NO_LIB 1 #endif // !defined(BOOST_ALL_NO_LIB) // Test that header file is self-contained. #include #include #include #include "../unit_test.hpp" #if defined(BOOST_ASIO_HAS_BOOST_BIND) # include #else // defined(BOOST_ASIO_HAS_BOOST_BIND) # include #endif // defined(BOOST_ASIO_HAS_BOOST_BIND) using namespace boost::asio; #if defined(BOOST_ASIO_HAS_BOOST_BIND) namespace bindns = boost; #else // defined(BOOST_ASIO_HAS_BOOST_BIND) namespace bindns = std; #endif struct fat_executor { fat_executor(int id) : id_(id) { std::memset(data_, 0, sizeof(data_)); } template void execute(const F&) const { } std::size_t query(execution::occupancy_t) const { return 1; } friend bool operator==(const fat_executor& a, const fat_executor& b) BOOST_ASIO_NOEXCEPT { return a.id_ == b.id_; } friend bool operator!=(const fat_executor& a, const fat_executor& b) BOOST_ASIO_NOEXCEPT { return a.id_ != b.id_; } int id_; unsigned char data_[1024]; }; namespace boost { namespace asio { namespace traits { #if !defined(BOOST_ASIO_HAS_DEDUCED_EXECUTE_MEMBER_TRAIT) template struct execute_member { BOOST_ASIO_STATIC_CONSTEXPR(bool, is_valid = true); BOOST_ASIO_STATIC_CONSTEXPR(bool, is_noexcept = true); typedef void result_type; }; #endif // !defined(BOOST_ASIO_HAS_DEDUCED_EXECUTE_MEMBER_TRAIT) #if !defined(BOOST_ASIO_HAS_DEDUCED_QUERY_MEMBER_TRAIT) template <> struct query_member { BOOST_ASIO_STATIC_CONSTEXPR(bool, is_valid = true); BOOST_ASIO_STATIC_CONSTEXPR(bool, is_noexcept = false); typedef std::size_t result_type; }; #endif // !defined(BOOST_ASIO_HAS_DEDUCED_QUERY_MEMBER_TRAIT) #if !defined(BOOST_ASIO_HAS_DEDUCED_EQUALITY_COMPARABLE_TRAIT) template <> struct equality_comparable { BOOST_ASIO_STATIC_CONSTEXPR(bool, is_valid = true); BOOST_ASIO_STATIC_CONSTEXPR(bool, is_noexcept = true); }; #endif // !defined(BOOST_ASIO_HAS_DEDUCED_EQUALITY_COMPARABLE_TRAIT) } // namespace traits } // namespace asio } // namespace boost void increment(int* count) { ++(*count); } void any_executor_construction_test() { typedef execution::any_executor<> ex_no_props_t; typedef execution::any_executor< execution::blocking_t > ex_one_prop_t; typedef execution::any_executor< execution::blocking_t, execution::occupancy_t > ex_two_props_t; thread_pool pool(1); boost::asio::nullptr_t null_ptr = boost::asio::nullptr_t(); ex_two_props_t ex_two_props_1; BOOST_ASIO_CHECK(ex_two_props_1.target() == 0); BOOST_ASIO_CHECK(ex_two_props_1 == null_ptr); ex_two_props_t ex_two_props_2(null_ptr); BOOST_ASIO_CHECK(ex_two_props_2.target() == 0); BOOST_ASIO_CHECK(ex_two_props_2 == null_ptr); BOOST_ASIO_CHECK(ex_two_props_2 == ex_two_props_1); ex_two_props_t ex_two_props_3(pool.executor()); BOOST_ASIO_CHECK(ex_two_props_3.target() != 0); BOOST_ASIO_CHECK(ex_two_props_3 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_3 != ex_two_props_1); ex_two_props_t ex_two_props_4(ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_4.target() == 0); BOOST_ASIO_CHECK(ex_two_props_4 == null_ptr); BOOST_ASIO_CHECK(ex_two_props_4 == ex_two_props_1); ex_two_props_t ex_two_props_5(ex_two_props_3); BOOST_ASIO_CHECK(ex_two_props_5.target() != 0); BOOST_ASIO_CHECK(ex_two_props_5 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_5 == ex_two_props_3); ex_two_props_t ex_two_props_6 = fat_executor(1); BOOST_ASIO_CHECK(ex_two_props_6.target() != 0); BOOST_ASIO_CHECK(ex_two_props_6 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_6 != ex_two_props_1); ex_two_props_t ex_two_props_7 = fat_executor(1); BOOST_ASIO_CHECK(ex_two_props_7.target() != 0); BOOST_ASIO_CHECK(ex_two_props_7 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_7 != ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_7 == ex_two_props_6); ex_two_props_t ex_two_props_8 = fat_executor(2); BOOST_ASIO_CHECK(ex_two_props_8.target() != 0); BOOST_ASIO_CHECK(ex_two_props_8 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_8 != ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_8 != ex_two_props_6); BOOST_ASIO_CHECK(ex_two_props_8 != ex_two_props_7); ex_two_props_t ex_two_props_9(ex_two_props_6); BOOST_ASIO_CHECK(ex_two_props_9.target() != 0); BOOST_ASIO_CHECK(ex_two_props_9 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_9 != ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_9 == ex_two_props_6); BOOST_ASIO_CHECK(ex_two_props_9 == ex_two_props_7); BOOST_ASIO_CHECK(ex_two_props_9 != ex_two_props_8); #if defined(BOOST_ASIO_HAS_MOVE) ex_two_props_t ex_two_props_10(std::move(ex_two_props_1)); BOOST_ASIO_CHECK(ex_two_props_10.target() == 0); BOOST_ASIO_CHECK(ex_two_props_10 == null_ptr); BOOST_ASIO_CHECK(ex_two_props_1.target() == 0); BOOST_ASIO_CHECK(ex_two_props_1 == null_ptr); ex_two_props_t ex_two_props_11(std::move(ex_two_props_3)); BOOST_ASIO_CHECK(ex_two_props_11.target() != 0); BOOST_ASIO_CHECK(ex_two_props_11 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_3.target() == 0); BOOST_ASIO_CHECK(ex_two_props_3 == null_ptr); BOOST_ASIO_CHECK(ex_two_props_11 == ex_two_props_5); ex_two_props_t ex_two_props_12(std::move(ex_two_props_7)); BOOST_ASIO_CHECK(ex_two_props_12.target() != 0); BOOST_ASIO_CHECK(ex_two_props_12 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_7.target() == 0); BOOST_ASIO_CHECK(ex_two_props_7 == null_ptr); BOOST_ASIO_CHECK(ex_two_props_12 == ex_two_props_6); BOOST_ASIO_CHECK(ex_two_props_12 != ex_two_props_8); #endif // defined(BOOST_ASIO_HAS_MOVE) ex_one_prop_t ex_one_prop_1; BOOST_ASIO_CHECK(ex_one_prop_1.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_1 == null_ptr); ex_one_prop_t ex_one_prop_2(null_ptr); BOOST_ASIO_CHECK(ex_one_prop_2.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_2 == null_ptr); BOOST_ASIO_CHECK(ex_one_prop_2 == ex_one_prop_1); ex_one_prop_t ex_one_prop_3(pool.executor()); BOOST_ASIO_CHECK(ex_one_prop_3.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_3 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_3 != ex_one_prop_1); ex_one_prop_t ex_one_prop_4(ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_4.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_4 == null_ptr); BOOST_ASIO_CHECK(ex_one_prop_4 == ex_one_prop_1); ex_one_prop_t ex_one_prop_5(ex_one_prop_3); BOOST_ASIO_CHECK(ex_one_prop_5.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_5 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_5 == ex_one_prop_3); ex_one_prop_t ex_one_prop_6 = fat_executor(1); BOOST_ASIO_CHECK(ex_one_prop_6.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_6 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_6 != ex_one_prop_1); ex_one_prop_t ex_one_prop_7 = fat_executor(1); BOOST_ASIO_CHECK(ex_one_prop_7.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_7 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_7 != ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_7 == ex_one_prop_6); ex_one_prop_t ex_one_prop_8 = fat_executor(2); BOOST_ASIO_CHECK(ex_one_prop_8.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_8 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_8 != ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_8 != ex_one_prop_6); BOOST_ASIO_CHECK(ex_one_prop_8 != ex_one_prop_7); ex_one_prop_t ex_one_prop_9(ex_one_prop_6); BOOST_ASIO_CHECK(ex_one_prop_9.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_9 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_9 != ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_9 == ex_one_prop_6); BOOST_ASIO_CHECK(ex_one_prop_9 == ex_one_prop_7); BOOST_ASIO_CHECK(ex_one_prop_9 != ex_one_prop_8); #if defined(BOOST_ASIO_HAS_MOVE) ex_one_prop_t ex_one_prop_10(std::move(ex_one_prop_1)); BOOST_ASIO_CHECK(ex_one_prop_10.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_10 == null_ptr); BOOST_ASIO_CHECK(ex_one_prop_1.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_1 == null_ptr); ex_one_prop_t ex_one_prop_11(std::move(ex_one_prop_3)); BOOST_ASIO_CHECK(ex_one_prop_11.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_11 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_3.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_3 == null_ptr); BOOST_ASIO_CHECK(ex_one_prop_11 == ex_one_prop_5); ex_one_prop_t ex_one_prop_12(std::move(ex_one_prop_7)); BOOST_ASIO_CHECK(ex_one_prop_12.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_12 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_7.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_7 == null_ptr); BOOST_ASIO_CHECK(ex_one_prop_12 == ex_one_prop_6); BOOST_ASIO_CHECK(ex_one_prop_12 != ex_one_prop_8); #endif // defined(BOOST_ASIO_HAS_MOVE) ex_one_prop_t ex_one_prop_13(ex_two_props_1); BOOST_ASIO_CHECK(ex_one_prop_13.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_13 == null_ptr); ex_one_prop_t ex_one_prop_14(ex_two_props_5); BOOST_ASIO_CHECK(ex_one_prop_14.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_14 != null_ptr); ex_one_prop_t ex_one_prop_15(ex_two_props_9); BOOST_ASIO_CHECK(ex_one_prop_15.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_15 != null_ptr); ex_no_props_t ex_no_props_1; BOOST_ASIO_CHECK(ex_no_props_1.target() == 0); BOOST_ASIO_CHECK(ex_no_props_1 == null_ptr); ex_no_props_t ex_no_props_2(null_ptr); BOOST_ASIO_CHECK(ex_no_props_2.target() == 0); BOOST_ASIO_CHECK(ex_no_props_2 == null_ptr); BOOST_ASIO_CHECK(ex_no_props_2 == ex_no_props_1); ex_no_props_t ex_no_props_3(pool.executor()); BOOST_ASIO_CHECK(ex_no_props_3.target() != 0); BOOST_ASIO_CHECK(ex_no_props_3 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_3 != ex_no_props_1); ex_no_props_t ex_no_props_4(ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_4.target() == 0); BOOST_ASIO_CHECK(ex_no_props_4 == null_ptr); BOOST_ASIO_CHECK(ex_no_props_4 == ex_no_props_1); ex_no_props_t ex_no_props_5(ex_no_props_3); BOOST_ASIO_CHECK(ex_no_props_5.target() != 0); BOOST_ASIO_CHECK(ex_no_props_5 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_5 == ex_no_props_3); ex_no_props_t ex_no_props_6 = fat_executor(1); BOOST_ASIO_CHECK(ex_no_props_6.target() != 0); BOOST_ASIO_CHECK(ex_no_props_6 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_6 != ex_no_props_1); ex_no_props_t ex_no_props_7 = fat_executor(1); BOOST_ASIO_CHECK(ex_no_props_7.target() != 0); BOOST_ASIO_CHECK(ex_no_props_7 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_7 != ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_7 == ex_no_props_6); ex_no_props_t ex_no_props_8 = fat_executor(2); BOOST_ASIO_CHECK(ex_no_props_8.target() != 0); BOOST_ASIO_CHECK(ex_no_props_8 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_8 != ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_8 != ex_no_props_6); BOOST_ASIO_CHECK(ex_no_props_8 != ex_no_props_7); ex_no_props_t ex_no_props_9(ex_no_props_6); BOOST_ASIO_CHECK(ex_no_props_9.target() != 0); BOOST_ASIO_CHECK(ex_no_props_9 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_9 != ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_9 == ex_no_props_6); BOOST_ASIO_CHECK(ex_no_props_9 == ex_no_props_7); BOOST_ASIO_CHECK(ex_no_props_9 != ex_no_props_8); #if defined(BOOST_ASIO_HAS_MOVE) ex_no_props_t ex_no_props_10(std::move(ex_no_props_1)); BOOST_ASIO_CHECK(ex_no_props_10.target() == 0); BOOST_ASIO_CHECK(ex_no_props_10 == null_ptr); BOOST_ASIO_CHECK(ex_no_props_1.target() == 0); BOOST_ASIO_CHECK(ex_no_props_1 == null_ptr); ex_no_props_t ex_no_props_11(std::move(ex_no_props_3)); BOOST_ASIO_CHECK(ex_no_props_11.target() != 0); BOOST_ASIO_CHECK(ex_no_props_11 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_3.target() == 0); BOOST_ASIO_CHECK(ex_no_props_3 == null_ptr); BOOST_ASIO_CHECK(ex_no_props_11 == ex_no_props_5); ex_no_props_t ex_no_props_12(std::move(ex_no_props_7)); BOOST_ASIO_CHECK(ex_no_props_12.target() != 0); BOOST_ASIO_CHECK(ex_no_props_12 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_7.target() == 0); BOOST_ASIO_CHECK(ex_no_props_7 == null_ptr); BOOST_ASIO_CHECK(ex_no_props_12 == ex_no_props_6); BOOST_ASIO_CHECK(ex_no_props_12 != ex_no_props_8); #endif // defined(BOOST_ASIO_HAS_MOVE) ex_no_props_t ex_no_props_13(ex_two_props_1); BOOST_ASIO_CHECK(ex_no_props_13.target() == 0); BOOST_ASIO_CHECK(ex_no_props_13 == null_ptr); ex_no_props_t ex_no_props_14(ex_two_props_5); BOOST_ASIO_CHECK(ex_no_props_14.target() != 0); BOOST_ASIO_CHECK(ex_no_props_14 != null_ptr); ex_no_props_t ex_no_props_15(ex_two_props_9); BOOST_ASIO_CHECK(ex_no_props_15.target() != 0); BOOST_ASIO_CHECK(ex_no_props_15 != null_ptr); ex_no_props_t ex_no_props_16(ex_one_prop_1); BOOST_ASIO_CHECK(ex_no_props_16.target() == 0); BOOST_ASIO_CHECK(ex_no_props_16 == null_ptr); ex_no_props_t ex_no_props_17(ex_one_prop_5); BOOST_ASIO_CHECK(ex_no_props_17.target() != 0); BOOST_ASIO_CHECK(ex_no_props_17 != null_ptr); ex_no_props_t ex_no_props_18(ex_one_prop_9); BOOST_ASIO_CHECK(ex_no_props_18.target() != 0); BOOST_ASIO_CHECK(ex_no_props_18 != null_ptr); } void any_executor_assignment_test() { typedef execution::any_executor<> ex_no_props_t; typedef execution::any_executor< execution::blocking_t > ex_one_prop_t; typedef execution::any_executor< execution::blocking_t, execution::occupancy_t > ex_two_props_t; thread_pool pool(1); boost::asio::nullptr_t null_ptr = boost::asio::nullptr_t(); ex_two_props_t ex_two_props_1; ex_two_props_t ex_two_props_2; ex_two_props_2 = null_ptr; BOOST_ASIO_CHECK(ex_two_props_2.target() == 0); ex_two_props_t ex_two_props_3; ex_two_props_3 = pool.executor(); BOOST_ASIO_CHECK(ex_two_props_3.target() != 0); ex_two_props_t ex_two_props_4; ex_two_props_4 = ex_two_props_1; BOOST_ASIO_CHECK(ex_two_props_4.target() == 0); BOOST_ASIO_CHECK(ex_two_props_4 == ex_two_props_1); ex_two_props_4 = ex_two_props_3; BOOST_ASIO_CHECK(ex_two_props_4.target() != 0); BOOST_ASIO_CHECK(ex_two_props_4 == ex_two_props_3); ex_two_props_t ex_two_props_5; ex_two_props_5 = fat_executor(1); BOOST_ASIO_CHECK(ex_two_props_5.target() != 0); BOOST_ASIO_CHECK(ex_two_props_5 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_5 != ex_two_props_1); ex_two_props_t ex_two_props_6; ex_two_props_6 = fat_executor(1); BOOST_ASIO_CHECK(ex_two_props_6.target() != 0); BOOST_ASIO_CHECK(ex_two_props_6 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_6 != ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_6 == ex_two_props_5); ex_two_props_6 = fat_executor(2); BOOST_ASIO_CHECK(ex_two_props_6.target() != 0); BOOST_ASIO_CHECK(ex_two_props_6 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_6 != ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_6 != ex_two_props_5); ex_two_props_t ex_two_props_7; ex_two_props_7 = ex_two_props_5; BOOST_ASIO_CHECK(ex_two_props_7.target() != 0); BOOST_ASIO_CHECK(ex_two_props_7 != null_ptr); BOOST_ASIO_CHECK(ex_two_props_7 != ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_7 == ex_two_props_5); BOOST_ASIO_CHECK(ex_two_props_7 != ex_two_props_6); #if defined(BOOST_ASIO_HAS_MOVE) ex_two_props_t ex_two_props_8; ex_two_props_8 = std::move(ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_8.target() == 0); BOOST_ASIO_CHECK(ex_two_props_1.target() == 0); ex_two_props_8 = std::move(ex_two_props_3); BOOST_ASIO_CHECK(ex_two_props_8.target() != 0); BOOST_ASIO_CHECK(ex_two_props_3.target() == 0); BOOST_ASIO_CHECK(ex_two_props_8 == ex_two_props_4); ex_two_props_8 = std::move(ex_two_props_5); BOOST_ASIO_CHECK(ex_two_props_8.target() != 0); BOOST_ASIO_CHECK(ex_two_props_5.target() == 0); BOOST_ASIO_CHECK(ex_two_props_8 == ex_two_props_7); #endif // defined(BOOST_ASIO_HAS_MOVE) ex_one_prop_t ex_one_prop_1; ex_one_prop_t ex_one_prop_2; ex_one_prop_2 = null_ptr; BOOST_ASIO_CHECK(ex_one_prop_2.target() == 0); ex_one_prop_t ex_one_prop_3; ex_one_prop_3 = pool.executor(); BOOST_ASIO_CHECK(ex_one_prop_3.target() != 0); ex_one_prop_t ex_one_prop_4; ex_one_prop_4 = ex_one_prop_1; BOOST_ASIO_CHECK(ex_one_prop_4.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_4 == ex_one_prop_1); ex_one_prop_4 = ex_one_prop_3; BOOST_ASIO_CHECK(ex_one_prop_4.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_4 == ex_one_prop_3); ex_one_prop_t ex_one_prop_5; ex_one_prop_5 = fat_executor(1); BOOST_ASIO_CHECK(ex_one_prop_5.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_5 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_5 != ex_one_prop_1); ex_one_prop_t ex_one_prop_6; ex_one_prop_6 = fat_executor(1); BOOST_ASIO_CHECK(ex_one_prop_6.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_6 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_6 != ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_6 == ex_one_prop_5); ex_one_prop_6 = fat_executor(2); BOOST_ASIO_CHECK(ex_one_prop_6.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_6 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_6 != ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_6 != ex_one_prop_5); ex_one_prop_t ex_one_prop_7; ex_one_prop_7 = ex_one_prop_5; BOOST_ASIO_CHECK(ex_one_prop_7.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_7 != null_ptr); BOOST_ASIO_CHECK(ex_one_prop_7 != ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_7 == ex_one_prop_5); BOOST_ASIO_CHECK(ex_one_prop_7 != ex_one_prop_6); #if defined(BOOST_ASIO_HAS_MOVE) ex_one_prop_t ex_one_prop_8; ex_one_prop_8 = std::move(ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_8.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_1.target() == 0); ex_one_prop_8 = std::move(ex_one_prop_3); BOOST_ASIO_CHECK(ex_one_prop_8.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_3.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_8 == ex_one_prop_4); ex_one_prop_8 = std::move(ex_one_prop_5); BOOST_ASIO_CHECK(ex_one_prop_8.target() != 0); BOOST_ASIO_CHECK(ex_one_prop_5.target() == 0); BOOST_ASIO_CHECK(ex_one_prop_8 == ex_one_prop_7); #endif // defined(BOOST_ASIO_HAS_MOVE) ex_one_prop_t ex_one_prop_9; ex_one_prop_9 = ex_two_props_1; BOOST_ASIO_CHECK(ex_one_prop_9.target() == 0); ex_one_prop_9 = ex_two_props_4; BOOST_ASIO_CHECK(ex_one_prop_9.target() != 0); ex_one_prop_9 = ex_two_props_7; BOOST_ASIO_CHECK(ex_one_prop_9.target() != 0); ex_no_props_t ex_no_props_1; ex_no_props_t ex_no_props_2; ex_no_props_2 = null_ptr; BOOST_ASIO_CHECK(ex_no_props_2.target() == 0); ex_no_props_t ex_no_props_3; ex_no_props_3 = pool.executor(); BOOST_ASIO_CHECK(ex_no_props_3.target() != 0); ex_no_props_t ex_no_props_4; ex_no_props_4 = ex_no_props_1; BOOST_ASIO_CHECK(ex_no_props_4.target() == 0); BOOST_ASIO_CHECK(ex_no_props_4 == ex_no_props_1); ex_no_props_4 = ex_no_props_3; BOOST_ASIO_CHECK(ex_no_props_4.target() != 0); BOOST_ASIO_CHECK(ex_no_props_4 == ex_no_props_3); ex_no_props_t ex_no_props_5; ex_no_props_5 = fat_executor(1); BOOST_ASIO_CHECK(ex_no_props_5.target() != 0); BOOST_ASIO_CHECK(ex_no_props_5 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_5 != ex_no_props_1); ex_no_props_t ex_no_props_6; ex_no_props_6 = fat_executor(1); BOOST_ASIO_CHECK(ex_no_props_6.target() != 0); BOOST_ASIO_CHECK(ex_no_props_6 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_6 != ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_6 == ex_no_props_5); ex_no_props_6 = fat_executor(2); BOOST_ASIO_CHECK(ex_no_props_6.target() != 0); BOOST_ASIO_CHECK(ex_no_props_6 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_6 != ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_6 != ex_no_props_5); ex_no_props_t ex_no_props_7; ex_no_props_7 = ex_no_props_5; BOOST_ASIO_CHECK(ex_no_props_7.target() != 0); BOOST_ASIO_CHECK(ex_no_props_7 != null_ptr); BOOST_ASIO_CHECK(ex_no_props_7 != ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_7 == ex_no_props_5); BOOST_ASIO_CHECK(ex_no_props_7 != ex_no_props_6); #if defined(BOOST_ASIO_HAS_MOVE) ex_no_props_t ex_no_props_8; ex_no_props_8 = std::move(ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_8.target() == 0); BOOST_ASIO_CHECK(ex_no_props_1.target() == 0); ex_no_props_8 = std::move(ex_no_props_3); BOOST_ASIO_CHECK(ex_no_props_8.target() != 0); BOOST_ASIO_CHECK(ex_no_props_3.target() == 0); BOOST_ASIO_CHECK(ex_no_props_8 == ex_no_props_4); ex_no_props_8 = std::move(ex_no_props_5); BOOST_ASIO_CHECK(ex_no_props_8.target() != 0); BOOST_ASIO_CHECK(ex_no_props_5.target() == 0); BOOST_ASIO_CHECK(ex_no_props_8 == ex_no_props_7); #endif // defined(BOOST_ASIO_HAS_MOVE) ex_no_props_t ex_no_props_9; ex_no_props_9 = ex_two_props_1; BOOST_ASIO_CHECK(ex_no_props_9.target() == 0); ex_no_props_9 = ex_two_props_4; BOOST_ASIO_CHECK(ex_no_props_9.target() != 0); ex_no_props_9 = ex_two_props_7; BOOST_ASIO_CHECK(ex_no_props_9.target() != 0); ex_no_props_9 = ex_one_prop_1; BOOST_ASIO_CHECK(ex_no_props_9.target() == 0); ex_no_props_9 = ex_one_prop_4; BOOST_ASIO_CHECK(ex_no_props_9.target() != 0); ex_no_props_9 = ex_one_prop_7; BOOST_ASIO_CHECK(ex_no_props_9.target() != 0); } void any_executor_swap_test() { typedef execution::any_executor<> ex_no_props_t; typedef execution::any_executor< execution::blocking_t > ex_one_prop_t; typedef execution::any_executor< execution::blocking_t, execution::occupancy_t > ex_two_props_t; thread_pool pool1(1); thread_pool pool2(1); ex_no_props_t ex_no_props_1(pool1.executor()); ex_no_props_t ex_no_props_2(pool2.executor()); ex_no_props_t ex_no_props_3(ex_no_props_1); ex_no_props_t ex_no_props_4(ex_no_props_2); BOOST_ASIO_CHECK(ex_no_props_3 == ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_4 == ex_no_props_2); ex_no_props_3.swap(ex_no_props_4); BOOST_ASIO_CHECK(ex_no_props_3 == ex_no_props_2); BOOST_ASIO_CHECK(ex_no_props_4 == ex_no_props_1); execution::swap(ex_no_props_3, ex_no_props_4); BOOST_ASIO_CHECK(ex_no_props_3 == ex_no_props_1); BOOST_ASIO_CHECK(ex_no_props_4 == ex_no_props_2); ex_one_prop_t ex_one_prop_1(pool1.executor()); ex_one_prop_t ex_one_prop_2(pool2.executor()); ex_one_prop_t ex_one_prop_3(ex_one_prop_1); ex_one_prop_t ex_one_prop_4(ex_one_prop_2); BOOST_ASIO_CHECK(ex_one_prop_3 == ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_4 == ex_one_prop_2); ex_one_prop_3.swap(ex_one_prop_4); BOOST_ASIO_CHECK(ex_one_prop_3 == ex_one_prop_2); BOOST_ASIO_CHECK(ex_one_prop_4 == ex_one_prop_1); execution::swap(ex_one_prop_3, ex_one_prop_4); BOOST_ASIO_CHECK(ex_one_prop_3 == ex_one_prop_1); BOOST_ASIO_CHECK(ex_one_prop_4 == ex_one_prop_2); ex_two_props_t ex_two_props_1(pool1.executor()); ex_two_props_t ex_two_props_2(pool2.executor()); ex_two_props_t ex_two_props_3(ex_two_props_1); ex_two_props_t ex_two_props_4(ex_two_props_2); BOOST_ASIO_CHECK(ex_two_props_3 == ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_4 == ex_two_props_2); ex_two_props_3.swap(ex_two_props_4); BOOST_ASIO_CHECK(ex_two_props_3 == ex_two_props_2); BOOST_ASIO_CHECK(ex_two_props_4 == ex_two_props_1); execution::swap(ex_two_props_3, ex_two_props_4); BOOST_ASIO_CHECK(ex_two_props_3 == ex_two_props_1); BOOST_ASIO_CHECK(ex_two_props_4 == ex_two_props_2); } void any_executor_query_test() { thread_pool pool(1); execution::any_executor< execution::blocking_t, execution::outstanding_work_t, execution::relationship_t, execution::mapping_t::thread_t, execution::occupancy_t> ex(pool.executor()); BOOST_ASIO_CHECK( boost::asio::query(ex, boost::asio::execution::blocking) == boost::asio::execution::blocking.possibly); BOOST_ASIO_CHECK( boost::asio::query(ex, boost::asio::execution::blocking.possibly) == boost::asio::execution::blocking.possibly); BOOST_ASIO_CHECK( boost::asio::query(ex, boost::asio::execution::outstanding_work) == boost::asio::execution::outstanding_work.untracked); BOOST_ASIO_CHECK( boost::asio::query(ex, boost::asio::execution::outstanding_work.untracked) == boost::asio::execution::outstanding_work.untracked); BOOST_ASIO_CHECK( boost::asio::query(ex, boost::asio::execution::relationship) == boost::asio::execution::relationship.fork); BOOST_ASIO_CHECK( boost::asio::query(ex, boost::asio::execution::relationship.fork) == boost::asio::execution::relationship.fork); BOOST_ASIO_CHECK( boost::asio::query(ex, boost::asio::execution::mapping) == boost::asio::execution::mapping.thread); BOOST_ASIO_CHECK( boost::asio::query(ex, boost::asio::execution::occupancy) == 1); } void any_executor_execute_test() { int count = 0; thread_pool pool(1); execution::any_executor< execution::blocking_t::possibly_t, execution::blocking_t::never_t, execution::outstanding_work_t::untracked_t, execution::outstanding_work_t::tracked_t, execution::relationship_t::continuation_t> ex(pool.executor()); boost::asio::execution::execute(pool.executor(), bindns::bind(increment, &count)); boost::asio::execution::execute( boost::asio::require(pool.executor(), boost::asio::execution::blocking.possibly), bindns::bind(increment, &count)); boost::asio::execution::execute( boost::asio::require(pool.executor(), boost::asio::execution::blocking.never), bindns::bind(increment, &count)); boost::asio::execution::execute( boost::asio::require(pool.executor(), boost::asio::execution::blocking.never, boost::asio::execution::outstanding_work.tracked), bindns::bind(increment, &count)); boost::asio::execution::execute( boost::asio::require(pool.executor(), boost::asio::execution::blocking.never, boost::asio::execution::outstanding_work.untracked), bindns::bind(increment, &count)); boost::asio::execution::execute( boost::asio::require(pool.executor(), boost::asio::execution::blocking.never, boost::asio::execution::outstanding_work.untracked, boost::asio::execution::relationship.continuation), bindns::bind(increment, &count)); pool.wait(); BOOST_ASIO_CHECK(count == 6); } BOOST_ASIO_TEST_SUITE ( "any_executor", BOOST_ASIO_TEST_CASE(any_executor_construction_test) BOOST_ASIO_TEST_CASE(any_executor_assignment_test) BOOST_ASIO_TEST_CASE(any_executor_swap_test) BOOST_ASIO_TEST_CASE(any_executor_query_test) BOOST_ASIO_TEST_CASE(any_executor_execute_test) )