P0                                         P1
 ------                                    -------   
 do {                                      do {
      flag[0] = 1;                                flag[1] = 1;

      while(flag[1])                                while(flag[0])
      {                                               {

      }                                               }

      ( Critical Section )                           ( Critical Section )                          

      flag[0] = 0;                                   flag[1] = 0;

      ( Remainder Section)                           ( Remainder Section)

     }                                            }
        while(1);                                     while(1);

I want to check whether above code satisfies Mutual Exclusion , Progress, Deadlock and Bounded Waiting or not ??

Mutual Exclusion : It satisfies Mutual Exclusion. because if they started concurrently , they will be trapped in "While" loop. So their sequence must be , one after another.

Progress : As per my understanding Progress is , While checking condition for Critical Section , particular process should consider those process's which are interested in critical section, other process should not be entertained. In other words If there are 5 processes and 2 are not interested in gaining critical section again, then , only remaining 3 processes ( which are interested ) should be considered in entering critical section. Now here, After exiting , P0, from it's Remainder section , if P0 is not interested in executing again. Then P1 should not consider P0 while entering in critical section.But here P1 , is checking P0's flag to enter critical section. So violating rule. So No Progress. ( Is it correct thinking ??? )

Deadlock : If P0 and P1 executed simultaneously at the start , then both will stuck in While loop , so deadlock.

Bounded Waiting : ????

Above 3 thoughts are not matching with answer. Please correct me.

  • 1
    This question appears to be off-topic because it is about theory of computing, not an actual program that isn't working. – Raymond Chen Jan 11 '15 at 20:15

The key to this is reading the code as it is, not as how it was meant (by the human who wrote it). So here's my interpretation:

They won't be mutually exclusive. Any halfway modern compiler might initialize a variable at any point prior to first read access. Thus, flag[0] and flag[1] might both be 1 right at the instant the program starts to run.

Furthermore, setting of flag[0] or flag[1] need not be atomic -- and it sure as hell doesn't ensure that the process notified of the change doesn't overtake the one that just set flag to 0. Race conditions might occur, if remainder and critical part should not be run at the same time.

I hope this is some kind of class assignment -- busy waiting with a loop is generally evil and should be avoided; there's mature schemes like semaphores, threads that can wait() and be notify()d and so on, so this is a "in a world that's even worse than ours" piece of code.

  • @ Marcus Muller : I had a same doubt about Mutually exclusive. But didnt pay attention as I want to learn concept rather than answer. So I tried to read what the human wrote :P ( Yes , it is difficult but still tried ) Anyway , can u consider it as Mutually exclusive and concentrate on remaining 3 thoughts ?? – user1745866 Jan 11 '15 at 18:55
  • Is my "Progress" thought correct ?? – user1745866 Jan 11 '15 at 18:57
  • Sorry, I don't really understand the "Progress" paragraph. Could you re-phrase that? – Marcus Müller Jan 11 '15 at 19:25
  • I edited "Progress" paragraph. – user1745866 Jan 11 '15 at 19:54

Your Answer

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

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