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I would like to know what is the difference between xmalloc and malloc for memory allocation?

are there any advantages of using xmalloc?

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2  
Where did you see this xmalloc? And the main difference between the two is that malloc is part of the C standard and xmalloc isn't –  Praetorian Sep 28 '11 at 22:16

5 Answers 5

up vote 24 down vote accepted

xmalloc is a non-standard function that has the motto "succeed or die". If it fails to allocate memory it will terminate your program and print an error message to stderr.

The allocation itself is no different, only the behaviour in the case that no memory could be allocated.

Use malloc, since it's more friendly and standard.

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As others have mentioned, it's true that xmalloc() is very often implemented as a wrapper function that invokes the OS-supplied malloc() and blindly calls abort() or exit() if it fails. However, many projects contain an xmalloc() function that tries to save application state before exiting (see, for example, neovim).

Personally, I think of xmalloc() as a kind of project-specific extended malloc() rather than an exiting malloc(). Though I don't recall ever seeing a version that didn't wind up calling abort() or exit(), some of them do a lot more than that.

So the answer to the question "What's the difference between xmalloc() and malloc() is: it depends. xmalloc() is a non-standard, project-specific function, so it could do anything at all. The only way to know for sure it to read the code.

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an primitive example of xmalloc.c in K&R C

#include <stdio.h>
extern char *malloc ();
void *
xmalloc (size)
    unsigned size;
{
  void *new_mem = (void *) malloc (size);
  if (new_mem == NULL)    
    {
      fprintf (stderr, "fatal: memory exhausted (xmalloc of %u bytes).\n", size);
      exit (-1);
    }
  return new_mem;
}

then in your code header (early) you put

#define malloc(m) xmalloc(m)

to silently rewrite the source before compilation. (you can see the rewritten code by invoking the C preprocessor directly and saving the output. )

if crashing your program is not what you want you can do something different

  • Use a garbage collector
  • redesign your code to be less of a memory hog
  • have error checking code in your program to handle an Out of Memory or other allocation error gracefully.

Users don't enjoy losing their data to a built-in crash command in their program.

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@MilesRout: it's K&R C - very old stuff. –  nightcracker Feb 4 '13 at 20:25

xmalloc is not part of the standard library. It's usually the name of a very harmful function for lazy programmers that's common in lots of GNU software, which calls abort if malloc fails. Depending on the program/library, it might also convert malloc(0) into malloc(1) to ensure that xmalloc(0) returns a unique pointer.

In any case, aborting on malloc failure is very very bad behavior, especially for library code. One of the most infamous examples is GMP (the GNU multiprecision arithmetic library), which aborts the calling program whenever it runs out of memory for a computation.

Correct library-level code should always handle allocation failures by backing out whatever partially-completed operation it was in the middle of and returning an error code to the caller. The calling program can then decide what to do, which will likely involve saving critical data.

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Of course, saving critical data and pretty much anything else which the calling program may want to do also requires allocating memory pages (even if you don't actually do allocate yourself, library functions need to do so). I don't think it's very likely that you can recover in any case. –  Frerich Raabe May 19 at 9:20
3  
If it does then you're doing it wrong. There's no legitimate need for serialization to use any new allocations. –  R.. May 19 at 11:37
    
Calling developers that use xmalloc() 'lazy programmers' is unfair. Detecting allocation errors is not always possible. Isn't it a waste of time and money to bloat your code base with checks on the return value of malloc() if your target OS is one where malloc() (essentially) never fails due to overcommit being enabled? Coding an in-house level editor for a game as though it were an air traffic control system just drives up the cost with no real benefit. Outside of safety-critical systems, it's okay to be 'lazy' sometimes, IMHO. –  evadeflow Jun 13 at 22:41
3  
@evadeflow: Tell that to the person who loses their document due to accidentally opening a second document that's too large to fit in memory (happened just yesterday to someone who doesn't believe me on this issue). –  R.. Jun 13 at 23:23
1  
@evadeflow: That's a valid approach at the application level, but not at the library level. It's not reasonable for a library (e.g. glib) to assume the calling application does not have any non-journaled data it doesn't care about losing. And if a library is going to behave this way, it should document that requirement prominently rather than hiding it in the documentation for the allocation functions. Of course they won't do that, because nobody would knowingly use a library documented as such; to get people to use such a low-quality library you have to hide the issue. –  R.. Jun 16 at 17:04

malloc() exists in standard C. xmalloc() doesn't.

Where is this xmalloc() function defined?

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