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.

I want my code to be able to handle the error cases, such as unsuccessful return of functions. For instance,pthread_create,normally I use the function herebelow:

int thread_check1;
 pthread_t function;
 thread_check1 = pthread_create( &function, NULL, function_function,  NULL);
if(thread_check1 != 0){
   fprintf(stderr, "pthread_create error\n");
   exit(1);
}

Considering the error cases, would it be correct to call the same function till it returns 0(for this specific function) as it is done below?

thread_check1 = pthread_create( &function, NULL, function_function,  NULL);
while(thread_check1 != 0){
    thread_check1 = pthread_create( &function, NULL, function_function,  NULL);
}

Can I apply the same logic to the other C functions that returns a value? Otherwise, how would you suggest to handle error cases (for the function returns) without exiting from the program?

share|improve this question
    
That all depends on your requirements. –  Joe Jan 4 '13 at 16:26
1  
exiting your program like this isn't a that good idea. –  Yellow Bird Jan 4 '13 at 16:30
1  
@tsabz: How would you know? Maybe it's appropriate, maybe it isn't. There's no way to tell without the requirements. –  netcoder Jan 4 '13 at 16:33
    
Usually, I never call exit() on my programs. Returning a certain value for a check function and adapt the behaviour of the program depending on this value, until it reaches the main return. –  Yellow Bird Jan 4 '13 at 16:34
    
@tsabz: It can get complicated fast. If there's no way to recover from the error, I don't see a point of returning into main (considering you may be far in the call stack). Logging the error and exiting is simpler and usually enough. –  netcoder Jan 4 '13 at 16:36
show 4 more comments

4 Answers

up vote 3 down vote accepted

You could do that, but more properly. Assume there is function f which has different return values. You can do as follows:

tries_left = 1000;
do
{
    ret = f(params);
    if (ret == OK)
        break;
    else if (ret == SOMETHING_UNRECOVERABLE)
        /* break with failure */
    else if (ret == SOMETHING_FIXABLE)
        /* fix params */
    else
        /* sleep a little */
} while (--tries_left);

There are many things to consider here:

  • Avoid infinite loop. If there is something inherently wrong, you wouldn't want to get stuck in a loop. So after some tries, you would want to break and fail. This is where tries_left comes into play.
  • Fail if unrecoverable. If the error tells you that the problem is not fixable, stop trying. For example if you are trying to mount a drive and it tells you /dev/sda6 doesn't exist, there is no point in retrying.
  • Try actually handling the problem. In some cases, you may be able to try different parameters. For example if you are trying to create a backup file and you can't, you can try changing the directory or name of the file and try again.
  • Don't use 100% CPU. If you want to retry, at least give some breathing room in between tries for whatever problem there was to go away, or in the very least to avoid using maximum CPU.

In the end, to avoid repeating yourself if you have different functions that need to be handled like this, you could put this whole thing in a macro and call it like CHECK_AND_RETRY(f(params));, assuming it is possible to understand what return value is unrecoverable and what is fixable no matter the function (kind of restrict, but there is no beautiful solution).

share|improve this answer
add comment

As Joe already mentions it heavily depends on your requirements and on the method you want to use. Whenever something fails there's usually a reason. For example no more memory is available if malloc returns zero.

Trying to get new memory without actually using free under such circumstances will usually result in an infinite loop, so that's something you shouldn't do. On the other hand, when you want to open a file but it's currently blocked by another process you could do something similar.

However, keep in mind that such a loop will usually keep the CPU busy and slow down other processes/threads. Also you could use a thing between your current solutions and try several times before you exit:

error_count = 0;
thread_check1 = pthread_create( &function, NULL, function_function,  NULL);
while(thread_check1 != 0){
    sleep(1); // wait some time before we try again
    if(++error_count == 10){
        fprintf(stderr, "Could not create thread\n");
        return 1;
    }
    thread_check1 = pthread_create( &function, NULL, function_function,  NULL);
}
share|improve this answer
add comment

What should be done in case of failure depends solely on your requirements. Usually it will depend on type of the error (fatal, acceptable etc.) and it's impact on the program. Getting back to your example, failure to create thread should probably be treated as fatal error since the issue that prevented it's creation will most likely not go away on second or third attempt (again, it depends on your requirements and environment) thus not looping is probably a better approach here. Yet again, whether you want to quit the program or not in case of failure is up to you - can your program continue running without this thread? If yes, terminating the program isn't necessary. Otherwise - terminate.

share|improve this answer
add comment

I would definitely not recommend handling errors like that. In the case there is a genuine problem you will be stuck in an infinite loop. An example is opening a file when it is already in use. I would say you should do one of the following:

  • Print/Log the error and stop execution.

  • Allow certain errors (Add a && to the if), this example would retry only if the error code is 3

    if (thread_check1 != 0) {

         If (thread_check1 == 3) retry;
    
share|improve this answer
add comment

Your Answer

 
discard

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.