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Can I put malloc in do...while block to ensure successful allocation?

like:

#define STR_SIZE 1024 * 1024
char *str;
do
    str = (char *) malloc(STR_SIZE);
while ( !str );
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It would be much better to explain what kind of application you are coding. –  Basile Starynkevitch Jan 6 '13 at 14:27
    
@BasileStarynkevitch ,typedef struct _LIST LIST, *PLIST; struct _LIST { PLIST pre; PLIST next; }; /* Create a new node */ PLIST node; do node = (PLIST) malloc(sizeof(LIST)); while (!node); –  Leajon Jan 7 '13 at 5:00
    
Please edit your question. But this don't describe what kind of application you are coding? Is it a server application, which ought to run as long as possible (even with constrained resources), or is it a command line app? Is it some life-critical embedded app (e.g. pacemaker software)?? Why do you want absolutely malloc to succeed? Are you aware of the failure modes of malloc ?? –  Basile Starynkevitch Jan 7 '13 at 19:56
    
@BasileStarynkevitch , It's a command line tool. –  Leajon Jan 8 '13 at 11:40
    
Then, you just have to exit with a perror on malloc failure. No need to ensure successful allocation in that case. –  Basile Starynkevitch Jan 8 '13 at 13:17

4 Answers 4

up vote 8 down vote accepted

It probably won't work, because malloc rarely fails, it fails when resources are exhausted, and these won't be available soon.

the only common case when malloc could get more resources is if some other big process releases a lot of memory, and that seldom happens and may never happens; if you cared about that add at least a sleep in your loop, and be prepared to handle the case when malloc genuinely fails and always return NULL.

The better practice is to test malloc result and exit with failure and error message, e.g.

  char* str = malloc(STR_SIZE);
  if (!str) {
      perror("malloc failed for str");
      exit (EXIT_FAILURE);
  }

And every program should deal with the case when malloc fails (usually by exiting with an error message).

A lot of programs call xmalloc a function which exit-s or abort-s when malloc fails, and return the allocated zone when it succeeds

Dealing sensibly with a malloc failure (that is doing something to be able to continue execution) is really hard. Some programs might for instance free some other global data. Actually this amounts to implement some specialized garbage collection mechanism. Some servers might just fail the current request (and should do that with great care, releasing all the resources used by that current failed request).

And malloc can genuinely fail, when you are requiring more resources that those available. So you have to handle that case.

BTW, you could consider using Boehm's conservative garbage collector and use GC_malloc instead of malloc and not caring about its failure and about free-ing. (I think that Boehm's GC would abort the program when not enough memory).

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Certainly, but if STR_SIZE is unreasonable this will lock your code forever.

Malloc can also fail on, rare occasions, if your memory is very fragmented. In this case your code will work.

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As other answers point out, your code is flawed. The idea behind, however, is not entirely unreasonable.

The classic approach for handling malloc failure is for the program to exit, as outlined in Basile's answer. Code that checks the return value of malloc is often placed in a generic wrapper function called xmalloc or such, and used consistently in place of malloc. This is easy to implement and reason about, but it is not without flaws. It makes a lot of sense for short-lived command-line programs such as those typically invoked from a Unix shell, but it fails for interactive programs where it is inappropriate for a program to immediately drop dead, even if it does run out of memory. It is also unsuitable for library code, as the program that uses the library might not want the process to exit merely because a single allocation failed.

Retrying the allocation makes sense when there is a good chance that the memory problem did not result from the activity of your program. For example, a multi-process HTTP server might not want to refuse a request and end the process as soon as a single memory allocation fails. However, a good implementation would: 1) take care to sleep between the requests to avoid busy-looping and give the system a chance to recover, and 2) ensure that the process exits after a number of iterations, in case it is the process itself that is causing the allocation failure. For example:

void *safe_malloc(size_t howmuch)
{
  int i = 0;
  while (i++ < 10) {
    void *ptr = malloc(howmuch);
    if (ptr)
      return ptr;
    sleep(i);
  }
  perror("malloc");
  exit(EXIT_FAILURE);
}

This approach has been used in servers such as the now-obsolete phttpd web server.

A different approach to malloc failure in interactive applications is the one used by Emacs: a fixed amount of memory is allocated at startup and saved for later. When a memory allocation fails, the relief memory is freed and a Lisp-level exception is raised, abandoning the current operation. A warning message is displayed up to the user explaining the situation. The freed memory enables the program to continue working for long enough for the user to save their work before Emacs goes down.

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you could, although it's a rarity malloc will fail, syntactically correct but i don't if it's logically correct, ill try to code if it works.

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