// This test is intended to create a situation in which two threads are stopped
// at a breakpoint and the debugger issues a step-out command.
#include "pseudo_barrier.h"
#include <thread>
pseudo_barrier_t g_barrier;
volatile int g_test = 0;
void stop_here() {
g_test += 5; // Set breakpoint here
}
void recurse_a_bit_1(int count) {
if (count == 50)
stop_here();
else
recurse_a_bit_1(++count);
}
void recurse_a_bit_2(int count) {
if (count == 50)
stop_here();
else
recurse_a_bit_2(++count);
}
void *thread_func_1() {
// Wait until both threads are running
pseudo_barrier_wait(g_barrier);
// Start the recursion:
recurse_a_bit_1(0);
// Return
return NULL;
}
void *thread_func_2() {
// Wait until both threads are running
pseudo_barrier_wait(g_barrier);
// Start the recursion:
recurse_a_bit_2(0);
// Return
return NULL;
}
int main() {
// Don't let either thread do anything until they're both ready.
pseudo_barrier_init(g_barrier, 2);
// Create two threads
std::thread thread_1(thread_func_1);
std::thread thread_2(thread_func_2);
// Wait for the threads to finish
thread_1.join();
thread_2.join();
return 0;
}
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