lldb/test/API/functionalities/thread/thread_exit/main.cpp - llvm-project - Git at Google

 // This test verifies the correct handling of child thread exits.

 #include "mach_thread.h"
 #include "pseudo_barrier.h"
 #include <thread>

 pseudo_barrier_t g_barrier1;
 pseudo_barrier_t g_barrier2;
 pseudo_barrier_t 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
   mach_port_t mach_thread_1 = get_mach_thread(thread_1);
   thread_1.join();
   wait_for_thread_cleanup(mach_thread_1);

   // Synchronize with the remaining thread
   int dummy = 47; // Set third breakpoint here
   pseudo_barrier_wait(g_barrier3);

   // Wait for the second thread to finish
   mach_port_t mach_thread_2 = get_mach_thread(thread_2);
   thread_2.join();
   wait_for_thread_cleanup(mach_thread_2);

   return 0; // Set fourth breakpoint here
 }
	// This test verifies the correct handling of child thread exits.

	#include "mach_thread.h"
	#include "pseudo_barrier.h"
	#include <thread>

	pseudo_barrier_t g_barrier1;
	pseudo_barrier_t g_barrier2;
	pseudo_barrier_t 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
	mach_port_t mach_thread_1 = get_mach_thread(thread_1);
	thread_1.join();
	wait_for_thread_cleanup(mach_thread_1);

	// Synchronize with the remaining thread
	int dummy = 47; // Set third breakpoint here
	pseudo_barrier_wait(g_barrier3);

	// Wait for the second thread to finish
	mach_port_t mach_thread_2 = get_mach_thread(thread_2);
	thread_2.join();
	wait_for_thread_cleanup(mach_thread_2);

	return 0; // Set fourth breakpoint here
	}