Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

First off I am pretty new to C, so I probably just have a fundamental misunderstanding here. Given code such as this:

int main()
    char ack[100];
    char *bar;
    bar = malloc(100);
    strncpy(ack, "testing", 7);    
    bar = "testing";

    return 0;

ack when examined by gdb looks like this:

(gdb) p ack
$1 = "testing\000\360WV\000\000\000\000\000\277\000\000\000\000\000\000      
'\000'\000\220\005@",<repeats 13 times>, "\003\004@", '\000' <repeats 13 times>    
'\000' <repeats 13 times>,     "P\004@\000\000\000\000\000\360\342\377\377"` 

This makes sense to me given how I initialized ack. What I don't quite get is why bar looks like this:

(gdb) p bar
$2 = 0x40066c "testing"

I allocated the same amount of storage (as far as I know) as I did when I requested space for ack but malloc doesn't have the extra junk. As I understand it, malloc doesn't do any sort of data initialization or anything, so I'm a bit confused. The reason that this came up is an issue I was having with strstr. Basically, when I would read in data from a file (fgets), to a char array with a specific size strstr() would fail (which I was assuming was because of the extra junk). Working with a pointer and malloc'd memory worked just fine. Anyway, I have a few specific questions.

  1. Is the behavior of this malloc'd variable expected? Is there some optimization going on here (I compiled with gcc, but didn't do any optimizations) or is gdb not showing me everything? Should there be "junk" associated with that variable?

  2. Am I even using malloc correctly? Should I be initializing all of the memory I requested? If so, how?

Thank you!


Thanks to everyone who responded! I've learned quite a few things from you all and it's much appreciated. I now see the problem with the code I posted above, and the original issue that I was having with fgets() and strstr().

share|improve this question
memory is not filled with nulls when it is allocated. To do that use memset(..) –  Adrian Jan 18 '12 at 15:57
@Adrian, no, no no. This is C. Don't cast malloc(), and don't teach people new to C to do so. –  Dan Fego Jan 18 '12 at 16:00
@DanFego I'm learning too I guess haha. I've always casted mallocs. Thanks for the info. I've edited my comment! –  Adrian Jan 18 '12 at 16:01
@Adrian sorry for the yelling! I just see so many people here suggest that, I hate to think we're teaching beginners to do it too. :P –  Dan Fego Jan 18 '12 at 16:03
@Adrian: Pre-C89, malloc returned char *, so in those days a cast was necessary, and of course any tutorials or references written then would show it. With C89, malloc was changed to return void *, which can be implicitly converted to any object pointer type, so the cast is now redundant (and may actually hide an error). Unfortunately, a lot of those older references weren't updated to reflect the change, and the practice has persisted. –  John Bode Jan 18 '12 at 16:09

4 Answers 4

up vote 10 down vote accepted
bar = "testing";

re-assigns the pointer bar to point to a static buffer holding the string "testing", i.e. it no longer points to your malloc'd array. This is a memory leak.

To get a string into the malloc'd buffer, use strcpy, strncpy or memcpy, like you did with ack.

share|improve this answer
Extra +1 for pointing out that it's a memory leak. –  cdeszaq Jan 18 '12 at 15:57

It's because you (unintentionally) throw away the malloced memory when you assign

bar = "testing";

That makes bar point to the string literal and no longer to the (leaked) malloced memory.

share|improve this answer
I would say forget about rather than throw away the malloced memory... –  cdeszaq Jan 18 '12 at 15:58
Hm, throw away has a connotation of intention, so that's a point for forget about. On the other hand, forget about doesn't sound dramatic enough for a memory leak. I compromised. –  Daniel Fischer Jan 18 '12 at 16:07
Perfect! We also would have accepted "lose", "leak", "drop", "ignore", and "jettison as space junk". –  cdeszaq Jan 18 '12 at 16:11

You're off on a couple of points.

First, the reason ack has garbage after "testing" when printed is because you never NULL-terminated it. In C, all strings must be NULL-terminated, i.e. end with \0. You can either remedy this here by calling strncpy() with length 8 (strlen("testing") + 1) or just usingstrcpy().

Second, bar looks different in gdb because it's a pointer to a char, while ack is a straight-up char array. gdb shows you the pointer value for bar, but also does you a favor by showing you what's on the other side of that pointer if it can, as you can see. And when you do bar = "testing;", you're re-assigning what bar points to to a character array containing "testing" in memory. When you using string literals like that, it automatically has a \0 character at the end, so is NULL-terminated, and hence doesn't have the garbage afterward.

share|improve this answer

C strings have a null terminator (ascii character value zero) so the C string "testing" is actually 8 bytes long including the terminator.

When you print the original value it stops printing when it reaches the terminator.

But because you only copied the first 7 characters, when you print the second value it keeps printing junk until it reaches a zero in the garbage data that was there before.

share|improve this answer
Then again, maybe it was Daniel's explanation ;-) It was technically true though, I don't think I deserved a downvote. –  Nick Lockwood Jan 18 '12 at 16:01

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.