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I'm sure mutex isn't enough that's the reason the concept of conditional variables exist; but it beats me and I'm not able to convince myself with a concrete scenario when a conditional variable is essential.

Differences between Conditional variables, Mutexes and Locks question's accepted answer says that a conditional variable is a

lock with a "signaling" mechanism. It is used when threads need to wait for a resource to become available. A thread can "wait" on a CV and then the resource producer can "signal" the variable, in which case the threads who wait for the CV get notified and can continue execution

Where I get confused is that, a thread can wait on a mutex too, and when it gets signalled, is simply means the variable is now available, why would I need a conditional variable?

P.S.: Also, a mutex is required to guard the conditional variable anyway, when makes my vision more askew towards not seeing conditional variable's purpose.

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2  
you should read about busy waiting. so basically by using a conditional wait you're releasing a thread to avoid further unnecessary computation. –  gokcehan Sep 23 '12 at 10:14
    
stackoverflow.com/a/11560110/183120 clearly explains difference between mutex and a binary semaphore which is similar to a conditional. –  legends2k Sep 25 '12 at 10:02

3 Answers 3

up vote 7 down vote accepted

Even though you can use them in the way you describe, mutexes weren't designed for use as a notification/synchronization mechanism. They are meant to provide mutually exclusive access to a shared resource. Using mutexes to signal a condition is awkward and I suppose would look something like this (where Thread1 is signaled by Thread2):

Thread1:

while(1) {
    lock(mutex); // Blocks waiting for notification from Thread2
    ... // do work after notification is received
    unlock(mutex); // Tells Thread2 we are done
}

Thread2:

while(1) {
    ... // do the work that precedes notification
    unlock(mutex); // unblocks Thread1
    lock(mutex); // lock the mutex so Thread1 will block again
}

There are several problems with this:

  1. Thread2 cannot continue to "do the work that precedes notification" until Thread1 has finished with "work after notification". With this design, Thread2 is not even necessary, that is, why not move "work that precedes" and "work after notification" into the same thread since only one can run at a given time!
  2. If Thread2 is not able to preempt Thread1, Thread1 will immediately re-lock the mutex when it repeats the while(1) loop and Thread1 will go about doing the "work after notification" even though there was no notification. This means you must somehow guarantee that Thread2 will lock the mutex before Thread1 does. How do you do that? Maybe force a schedule event by sleeping or by some other OS-specific means but even this is not guaranteed to work depending on timing, your OS, and the scheduling algorithm.

These two problems aren't minor, in fact, they are both major design flaws and latent bugs. The origin of both of these problems is the requirement that a mutex is locked and unlocked within the same thread. So how do you avoid the above problems? Use condition variables!

BTW, if your synchronization needs are really simple, you could use a plain old semaphore which avoids the additional complexity of condition variables.

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Thanks for the elaborate reply. Also I found out by trying to use a mutex in place of a conditional and saw that if T1 grabs the lock before T2 does, the whole point of waiting for T2's signal is gone, T1 will end up with a bad resource. Hence Conditional Variables are for signalling "hey, I'm done", while Mutexs are for, "you go first or I go first?" - CV = T1 depends on T2, Mutex = T1 competes with T2 –  legends2k Sep 25 '12 at 10:00
    
Exactly, the "bad resource" is my number 2 above which I describe as "T1 runs even though there was no notification". You're description of it as a "bad resource" is even better. –  slowjelj Sep 25 '12 at 16:51

Mutex is used for synchronized resource accessing, while conditional variable is used for waiting for a condition to be true. Say your requirement is waiting for a condition, what can you do even if you hold the mutex? Apparently you can do nothing, because the condition is not satisified at that time, you have to wait.

People may think they can implement a feature like conditional variable without the support of kernel. A common pattern one might come up with is the "flag + mutex" like:

lock(mutex)

while (!flag) {
    sleep(100);
}

unlock(mutex)

do_something_on_flag_set();

but it will never work, because you never release the mutex during the waiting, no one else can set the flag in a thread-safe way. This is why we need conditional variable, when you're waiting on a condition variable, the associated mutex is not hold by your thread until it's signaled.

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You need condition variables, to be used with a mutex (each cond.var. belongs to a mutex) to signal changing states (conditions) from one thread to another one. The idea is that a thread can wait till some condition becomes true. Such conditions are program specific (i.e. "queue is empty", "matrix is big", "some resource is almost exhausted", "some computation step has finished" etc). A mutex might have several related condition variables. And you need condition variables because such conditions may not always be expressed as simply as "a mutex is locked" (so you need to broadcast changes in conditions to other threads).

Read some good posix thread tutorials, e.g. this tutorial or that or that one. Better yet, read a good pthread book. See this question.

Also read Advanced Unix Programming and Advanced Linux Programming

P.S. Parallelism and threads are difficult concepts to grasp. Take time to read and experiment and read again.

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1  
I think the question is actually "why can't I just wait on a mutex unlock instead of using cond. variables" –  CharlesB Sep 23 '12 at 22:17

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