/* ThreadWrapperLifecycle(Test) - verify lifecycle aspects of the thread wrapper Copyright (C) Lumiera.org 2023, Hermann Vosseler This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * *****************************************************/ /** @file thread-wrapper-lifecycle-test.cpp ** unit test \ref ThreadWrapperLifecycle_test */ #include "lib/test/run.hpp" #include "lib/thread.hpp" #include "lib/iter-explorer.hpp" #include "lib/scoped-collection.hpp" #include "lib/test/microbenchmark.hpp" #include "lib/test/diagnostic-output.hpp" #include #include using test::Test; using lib::explore; using std::atomic_uint; using std::this_thread::yield; using std::this_thread::sleep_for; using namespace std::chrono_literals; using std::chrono::system_clock; namespace lib { namespace test{ namespace { // test parameters const uint NUM_THREADS = 200; const uint REPETITIONS = 10; using CLOCK_SCALE = std::micro; // Results are in µ-sec } /*******************************************************************//** * @test verify lifecycle behaviour of threads managed by thread-wrapper. * @see thread.hpp * @see ThreadWrapperBackground_test * @see ThreadWrapperJoin_test */ class ThreadWrapperLifecycle_test : public Test { virtual void run (Arg) { defaultWrapperLifecycle(); verifyThreadLifecycleHooks(); demonstrateExplicitThreadLifecycle(); } /** @test demonstrate terms of lifecycle for the default case */ void defaultWrapperLifecycle() { using Dur = std::chrono::duration; using Point = system_clock::time_point; Point threadStart; Point afterCtor; Thread thread("lifecycle", [&]{ threadStart = system_clock::now(); }); afterCtor = system_clock::now(); while (thread) yield(); double offset = Dur{threadStart - afterCtor}.count(); SHOW_EXPR(offset) CHECK (offset > 0); } /** * @test verify a special setup to start a thread explicitly and to track * the thread's lifecycle state. */ void verifyThreadLifecycleHooks() { atomic_uint stage{0}; ThreadHookable thread{ThreadHookable::Launch([]{ sleep_for (5ms); }) .threadID("hooked thread") .atStart([&]{ stage = 1; }) .atExit ([&]{ stage = 2; })}; CHECK (thread); CHECK (0 == stage); sleep_for (1ms); CHECK (thread); CHECK (1 == stage); while (thread) yield(); CHECK (not thread); CHECK (2 == stage); } /** * @test verify a special setup to start a thread explicitly and to track * the thread's lifecycle state. */ void demonstrateExplicitThreadLifecycle() { UNIMPLEMENTED ("demonstrate state change"); struct TestThread : Thread { using Thread::Thread; uint local{0}; void doIt (uint a, uint b) ///< the actual operation running in a separate thread { uint sum = a + b; // sleep_for (microseconds{sum}); // Note: explicit random delay before local store local = sum; } }; } }; /** Register this test class... */ LAUNCHER (ThreadWrapperLifecycle_test, "function common"); }} // namespace lib::test