The general form of a thread-safe method is:

Type ThreadSafeClass::method (Argument arg

while ( !this->isReady() )

Type toReturn = doCriticalSection(arg);


  1. Why is the following:

    while ( !this->isReady() )

    a better idea than just:

    if ( !this->isReady() )
  2. Why it is important to have the while loop after the pthread_mutex_lock() call? What bad could happen if the while loop came before the pthread_mutex_lock() call?

  3. What is the purpose of the pthread_cond_signal() call? At this point, the thread that is executing method() is finished. What good is the call?

  4. Why is it okay that the return(toReturn) statement is after the pthread_mutex_unlock() call? What is it about the variable toReturn allows it not to be protected?

For 1, I think it is because the thread that calls for pthread_cond_wait() might wake up spuriously if we use "if"

  • If you are using C++, why do you use pthread and not std::threads? – KamilCuk Nov 20 '18 at 18:10
  • A function in C++ is thread-safe if it doesn't modify non-local memory and it doesn't call any function that does modify non-local memory. Your function does not represent any "general form" of thread-safe function. If you ask about the if and while loop, show the relevant sources: isReady() method, how is someCond_ used and when, how is lock_ used and when and how is doCriticalSection() declared? My magic glass says, that the pthread condition someCond_ does not only guard isReady() return value, but also is used in other conditions. – KamilCuk Nov 20 '18 at 18:14
  • One question at a time please. – Peter Ruderman Nov 20 '18 at 18:22
  1. It could be the case that the thread became ready but wasn't scheduled yet. So, let's say you have thread A (the one executing your function), thread B and thread C. Thread B holds the lock, and once it finishes executing, it unblocks thread A, but in the meantime, thread C gets scheduled (because it has a higher priority), so thread A should now wait for C instead. By using an if, you would get a race condition between A and C, but with a while, A will recheck the condition just before resuming its normal execution.
  2. Race conditions again. By using a lock outside the loop, you make sure your thread will not have race conditions on the condition.
  3. There could be multiple threads waiting for that conditional variable, and they are in a blocked state. Even though your thread (let's call it again A) finishes, all waiting threads will still remain blocked. By calling pthread_cond_signal you wake up the first thread in that conditional variable's waiting list.
  4. Once you call return, you cannot release any held locks, so you would end up with a deadlock. You have set the return value in a mutual exclusion zone anyway.
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The reason for a loop instead of a single test is that waits on condition variables are subject to spurious wakeup. That is, the wait might return even though the condition variable hasn't been signaled. As I understand it, OS folks insist on that, because allowing it can make implementing condition variables simpler.

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