Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

As it turns out, condition_variable::wait_for should really be called condition_variable::wait_for_or_possibly_indefinitely_longer_than, because it needs to reacquire the lock before really timing out and returning.

See this program for a demonstration.

Is there a way to express, "Look, I really only have two seconds. If myPredicate() is still false at that time and/or the lock is still locked, I don't care, just carry on regardless and give me a way to detect that."

Something like:

bool myPredicate();
auto sec = std::chrono::seconds(1);

bool pred;
std::condition_variable::cv_status timedOut;

std::tie( pred, timedOut ) =
    cv.really_wait_for_no_longer_than( lck, 2*sec, myPredicate );

if( lck.owns_lock() ) {
    // Can use mutexed resource.
    // ...
} else {
    // Cannot use mutexed resource. Deal with it.
share|improve this question
wait_until maybe? –  Rapptz Aug 8 '14 at 1:17
I'm afraid wait_until suffers from the same "feature". "Once notified or once it is abs_time, the function unblocks and calls lck.lock(), leaving lck in the same state as when the function was called. Then the function returns (notice that this last mutex locking may block again the thread before returning)." –  Julian Aug 8 '14 at 2:06
If you don't want to be acquiring a mutex on awakening, condition variables won't work for you, in any language. –  Cubbi Aug 8 '14 at 2:26
Fair enough, thanks. How would you do it? timed_mutex/locks? –  Julian Aug 8 '14 at 2:49

1 Answer 1

up vote 1 down vote accepted

I think that you misuse the condition_variable's lock. It's for protecting condition only, not for protecting a time-consuming work.

Your example can be fixed easily by splitting the mutex into two - one is for critical section, another is for protecting modifications of ready condition. Here is the modified fragment:

typedef std::unique_lock<std::mutex> lock_type;
auto sec = std::chrono::seconds(1);
std::mutex mtx_work;
std::mutex mtx_ready;
std::condition_variable cv;
bool ready = false;

void task1() {
    log("Starting task 1. Waiting on cv for 2 secs.");
    lock_type lck(mtx_ready);
    bool done = cv.wait_for(lck, 2*sec, []{log("Checking condition..."); return ready;});
    std::stringstream ss;
    ss << "Task 1 finished, done==" << (done?"true":"false") << ", " << (lck.owns_lock()?"lock owned":"lock not owned");

void task2() {
    // Allow task1 to go first
    log("Starting task 2. Locking and sleeping 2 secs.");
    lock_type lck1(mtx_work);
    lock_type lck2(mtx_ready);
    ready = true; // This happens around 3s into the program
    log("OK, task 2 unlocking...");

It's output:

@2 ms: Starting task 1. Waiting on cv for 2 secs.
@2 ms: Checking condition...
@1002 ms: Starting task 2. Locking and sleeping 2 secs.
@2002 ms: Checking condition...
@2002 ms: Task 1 finished, done==false, lock owned
@3002 ms: OK, task 2 unlocking...
share|improve this answer
Many thanks, you make a valid point. Though strictly speaking this isn't really answering the question, it's suggesting how to avoid that situation, which in theory may not be avoidable. I'll accept as a solution if nothing else comes up. Thanks. –  Julian Aug 9 '14 at 0:59

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.