I have a few noob c++ multithreading questions. Would appreciate any input.

I am trying to solve Project Euler P3 using multithreading in a way that teaches me about multithreading and C++ (so it probably isn't the optimal algorithm). The algorithm is to find the factors, push them into a max priority queue, and pop items from the PQ to check if they are prime.

I have one function checks if a number is prime (takes a long time), one that finds factors and pushes them to the PQ (fast), and one that pops items from the PQ and calls isPrime(). My idea is to have two threads; one responsible for pushing data to a shared PQ and one responsible for popping data and checking for primality.

If I understand correctly: Undefined behavior occurs when the popAndProcess() function naively checks if the PQ is empty as it's break condition. This is because the push thread might be paused by the OS before pushing all of it's data, and the pop thread may then empty the PQ, at which point the function would end.

The first thing I did was have the push() function set a shared flag when it was done pushing data. The popAndProcess() thread would then use a while loop which terminates when the flag is set AND the PQ is empty. This seems bad because it causes 'busy waiting'. When the PQ is empty and flag isn't set, popAndProcess() does a bunch a useless while loop rounds.

So then I tried using a condition_variable, where the push() function/thread sends a signal everytime it pushes data. The popAndProcess() function looks for this signal anytime the flag isn't set AND the PQ is empty. First off, I am wondering what happens when the push() sends a signal while popAndProcess() isn't waiting for it. This should happen often since pushes are faster than popAndProcess(). Is this the right design for the problem?

Various secondary questions

Secondly, I have run into a deadlock and don't know how to get around it. I think it has to do with if (pq.empty()) cond.wait(locker, [&](){return !pq.empty();}); and the fact that I have to construct the unique_lock BEFORE the that line in order to pass it to the wait function.

Why does the unique_lock constructor lock the mutex passed to it on it's own? Doesn't the wait(lock) immediately unlock it, resulting in wasted time locking and unlocking?

Generally, I don't understand why the wait() function requires a mutex type object (I understand that it can be useful to avoid having a thread sleep while holding a lock). Why can't wait() just put a thread to sleep until a signal is received?

class P3 {

    // Important shared variables:
    bool fin;
    priority_queue<long long> pq;
    mutex mu;
    condition_variable cond;

    static bool isPrime(long long x) {

    void push() {
        //push() pushes data to the Q a finite and known amount of times.
        long long sqt = (long long)sqrt(N);
        for (int i = 1; i<sqt; i++) {
            if (!(N%i)) {
                unique_lock<mutex> locker(mu);
                long long temp = N/i;
        fin = true;
    void popAndProcess() {
        // while push() hasn't finished, or push() has finished and PQ has data...
        while (!fin || (fin && !pq.empty())) {
            // Q: Why do I have to pass a lock to the wait() function?
            unique_lock<mutex> locker(mu);
            // if the pq is empty (and since we have reached here, push() isn't done)
            // wait() for push() thread to push new data.
            // o/w, no need to wait for a signal, as there is data to be processed. 
            if (pq.empty()) cond.wait(locker, [&](){return !pq.empty();});
            long long cur = pq.top();
            if (isPrime(cur)) {
                ans = max(ans, cur);

    void driver() {
        fin = false;
        thread t1(&P3::push, this);
  // rest of class...

  • One specific, narrow question per stackoverflow.com question, please. Dec 30, 2020 at 17:00
  • Should I delete the post....?
    Dec 30, 2020 at 17:03
  • 3
    "I don't understand why the wait() function requires a mutex type object" - then you don't understand how condition-variables work in concert with a mutex. The mutex protects the predicate, which must have exclusivity guaranteed when being managed. Therefore, it must be locked prior to entering the wait (which unlocks it) and is handed back to you once-again locked on return from wait. Your biggest problem in your code is while (!fin || (fin && !pq.empty())), which is done without the protection of the mutex. That's a recipe for a race condition.
    – WhozCraig
    Dec 30, 2020 at 17:27
  • Thanks for the answer. I'll try to understand the first part of your response. But regarding the while (!fin || (fin && !pq.empty())), pq.empty() will only be called if fin is true, which only holds when the other thread is finished accessing the PQ. So at that point, only one thread (the one checking pq.empty()) will be accessing the PQ. No race condition, right?
    Dec 30, 2020 at 17:36
  • 1
    No, that's not right. Everything that's accessed by multiple execution threads that's modified at any point must employ a mutex. Mutexes are not just for "race conditions" but for sequencing too. Just because once thread set fin=true; doesn't mean that some other thread will "see" fin == true;, unless both execution threads are sequenced properly. See your C++ textbook for more information. Dec 30, 2020 at 17:55


Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy