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I have the following test function to copy and concatenate a variable number of string arguments, allocating automatically:

char *copycat(char *first, ...) {
    va_list vl;
    va_start(vl, first);
    char *result = (char *) malloc(strlen(first) + 1);
    char *next;
    strcpy(result, first);
    while (next = va_arg(vl, char *)) {
        result = (char *) realloc(result, strlen(result) + strlen(next) + 1);
        strcat(result, next);
    return result;

Problem is, if I do this:

puts(copycat("herp", "derp", "hurr", "durr"));

it should print out a 16-byte string, "herpderphurrdurr". Instead, it prints out a 42-byte string, which is the correct 16 bytes plus 26 more bytes of junk characters.

I'm not quite sure why yet. Any ideas?

share|improve this question
Don't forget to call va_end. – Richard Fearn Nov 7 '10 at 10:54
Thanks for that. – Delan Azabani Nov 7 '10 at 10:59
Don't forget to free the returned string at some point. – dreamlax Nov 7 '10 at 11:02
Of course, it would be a shame not to ;D – Delan Azabani Nov 7 '10 at 11:14
Arrrggghhhh, Schlemiel has arrived ( ) at strlen(result) + strlen(next) + 1 – pmg Nov 7 '10 at 12:36

5 Answers 5

up vote 5 down vote accepted

The variable-argument-list functions don't magically know how many arguments there are, so you're most likely walking the stack until you happen to hit a NULL.

You either need an argument numStrings, or supply an explicit null-terminator argument after your list of strings.

share|improve this answer
Thanks! puts(copycat("herp", "derp", "hurr", "durr", NULL)); works. – Delan Azabani Nov 7 '10 at 10:49
@Delan: aside from the obvious memory leak... – R.. Nov 7 '10 at 12:42
@R: Where is the memory leak? – Oliver Charlesworth Nov 7 '10 at 12:43
@Oli: malloc if used in copycat. Where is the free? – Secure Nov 7 '10 at 12:59
@Secure, @R: Oh, indeed! – Oliver Charlesworth Nov 7 '10 at 13:11

You need a sentinel marker on your list:

puts(copycat("herp", "derp", "hurr", "durr", NULL));

Otherwise, va_arg doesn't actually know when to stop. That fact that you're getting junk is pure accident since you're invoking undefined behaviour. For example, when I ran your code as-is, I got a segmentation fault.

Variable argument functions, such as printf need some sort of indication as to how many items are passed in: printf itself uses the format string up front to figure this out.

The two general methods are a count (or format string) which is useful when you can't use one of the possible values as a sentinel (a marker at the end).

If you can use a sentinel (like NULL in the case of pointers, or -1 in the case of non-negative signed integers, that's usually better so you don't have to count the elements (and possible get the element count and element list out of step).

Keep in mind that puts(copycat("herp", "derp", "hurr", "durr")); is a memory leak since you're allocating memory then losing the pointer to it. Using:

char *s = copycat("herp", "derp", "hurr", "durr");
free (s);

is one way to fix that, and you may want to put in error checking code in case the allocations fail.

share|improve this answer

What I understand from your code is that you assume va_next will return NULL once each argument has been "popped". That's wrong as va_next has absolutely no way to determine the number of arguments : your while loop will keep running until a NULL is randomly hit.

Solution : either provide the number of arguments, or add call your function with an additional "NULL" argument.

PS: if you are wondering why printf doesn't require such an additional argument, it's because the number of expected arguments is deduced from the format string (the number of '%flag')

share|improve this answer
Thanks for that! And welcome to Stack Overflow, too! – Delan Azabani Nov 7 '10 at 11:00

As an addition to the other answers, you should cast the NULL to the expected type when using it as an argument to a variadic function: (char *)NULL. If NULL is defined as 0, then an int will be stored instead, which will accidentally work when int has the sime size as the pointer and NULL is represented by all bits 0. But none of this is guaranteed, so you may run into strange behaviour that's hard to debug when porting the code or even when only changing the compiler.

share|improve this answer
In C NULL is defined to be a implementation defined null pointer constant and in particular it is not just 0 as an integer. So this should not be necessary. (C++ redefines NULL to be 0, but this is another story.) – Jens Gustedt Nov 7 '10 at 12:41
@Jens: are you sure? Last I checked C defined NULL such that it would convert to the null pointer of the appropriate type implicitly in a pointer context, but that doesn't mean it's safe to pass NULL to variadic functions or functions with no prototype. It's certainly not safe if the required pointer type is anything but void * or [[un]signed] char *, as the representations could be different, but I'm not 100% sure it's unsafe in this particular case. – R.. Nov 7 '10 at 12:47
#define NULL 0 is a valid definition of NULL. When given as a variadic argument then there is no pointer context, thus it is evaluated as an integer. – Secure Nov 7 '10 at 12:56
@R., @Secure: the wording that I used is the one from the definition in the C99 standard, 7.17. So according to that wording, I think, no, #define NULL 0 would not be correct and that when used as an argument to a varg function it should, if it isn't already, be promoted to void*. What the business would be for C89, I don't know. – Jens Gustedt Nov 7 '10 at 13:06
@Jens: From the C99 standard, 3: "An integer constant expression with the value 0, or such an expression cast to type void *, is called a null pointer constant." – Secure Nov 7 '10 at 13:14

As others have mentioned, va_arg does not know when to stop. It is up to you to provide NULL (or some other marker) when you call the function. Just a few side notes:

  • You must call free on pointers you obtain from malloc and realloc.
  • There is no reason to cast the result of malloc or realloc in C.
  • When calling realloc, it is best to store the return value into a temporary variable. If realloc is unable to reallocate enough memory, it returns NULL but the original pointer is not freed. If you use realloc the way you do, and it is unable to reallocate the memory, then you have lost the original pointer and your subsequent call to strcat will likely fail. You could use it like this:

    char *tmp = realloc(result, strlen(result) + strlen(next) + 1);
    if (tmp == NULL)
        // handle error here and free the memory
        // reallocation was successful, re-assign the original pointer
        result = tmp;
share|improve this answer
Better to avoid realloc entirely. See my comment to OP's question. – R.. Nov 7 '10 at 12:48
@R..: Ultimately yes, it is a rather inefficient algorithm. – dreamlax Nov 7 '10 at 18:31

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