//===-- main.cpp ------------------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // This test verifies the correct handling of child thread exits. #include #include // Note that although hogging the CPU while waiting for a variable to change // would be terrible in production code, it's great for testing since it // avoids a lot of messy context switching to get multiple threads synchronized. #define do_nothing() #define pseudo_barrier_wait(bar) \ --bar; \ while (bar > 0) \ do_nothing(); #define pseudo_barrier_init(bar, count) (bar = count) std::atomic_int g_barrier1; std::atomic_int g_barrier2; std::atomic_int g_barrier3; void * thread1 () { // Synchronize with the main thread. pseudo_barrier_wait(g_barrier1); // Synchronize with the main thread and thread2. pseudo_barrier_wait(g_barrier2); // Return return NULL; // Set second breakpoint here } void * thread2 () { // Synchronize with thread1 and the main thread. pseudo_barrier_wait(g_barrier2); // Synchronize with the main thread. pseudo_barrier_wait(g_barrier3); // Return return NULL; } int main () { pseudo_barrier_init(g_barrier1, 2); pseudo_barrier_init(g_barrier2, 3); pseudo_barrier_init(g_barrier3, 2); // Create a thread. std::thread thread_1(thread1); // Wait for thread1 to start. pseudo_barrier_wait(g_barrier1); // Create another thread. std::thread thread_2(thread2); // Set first breakpoint here // Wait for thread2 to start. pseudo_barrier_wait(g_barrier2); // Wait for the first thread to finish thread_1.join(); // Synchronize with the remaining thread pseudo_barrier_wait(g_barrier3); // Set third breakpoint here // Wait for the second thread to finish thread_2.join(); return 0; // Set fourth breakpoint here }