2

I understand that in order to return a string from a function I have to return a pointer. What I don't understand is why a char array is treated somewhat different from, say, integer, and gets destroyed when you exit the function. That's probably because I come from a high-level languages world, but this seems to be equally valid to me:

int x = 1;
return x;

char x[] = "hello";
return x;
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4 Answers 4

8

The reason is both simple, yet subtle: C functions cannot be declared to return arrays.

When you return a pointer, like this:

char *foo(void)
{
    char x[] = "hello";
    return x;
}

The return x; is not actually returning x. It is returning a pointer to the first element of x1 - it is exactly the same as saying:

return &x[0];

It should be more clear why this isn't correct - it is exactly analagous to this:

int *foo(void)
{
    int x = 100;
    return &x;
}

It is, however, possible to return structures from functions - so you can return an array as long as it wrapped inside a struct. The following is quite OK:

struct xyzzy {
    char x[10];
};

struct xyzzy foo(void)
{
    struct xyzzy x = { "hello" };
    return x;
}


1. This is a consequence of a special case rule for array types. In an expression, if an array isn't the subject of either the unary & or sizeof operators, it evaluates to a pointer to its first element. Trying to pin down actual an array in C is a bit like trying to catch fog in your hands - it just disappears, replaced by a pointer.

5
  • I've understood your answer, but I'm a little confused. In code block #1 is C automatically returns a pointer (e.g converts "return x;" to "return &x[0];" because we declared the function as the one that returns a pointer (using *), or is the code just not valid?
    – orion3
    Aug 18, 2010 at 2:31
  • @snitko: C treats it the same as return &x[0]; not because of the return type, but because (apart from two specific exceptions, mentioned in my footnote), x is always treated in an expression as &x[0].
    – caf
    Aug 18, 2010 at 2:36
  • There is no "automatic return", try to return a boolean and it will blow up. The reason that it works is that char x[] is an "array" therefore it's a pointer(!). You could also use char *x = "hello" which has is exactly the same as char x[], the [] is just syntactic sugar. Arrays in C a merely pointers to the start position of the "array" in memory.
    – Ivo Wetzel
    Aug 18, 2010 at 2:39
  • 3
    @Ivo Wetzel: No, arrays are not the same thing as pointers. This is a common, yet incorrect understanding. In particular, char *x = "hello"; declares x as a pointer, whereas char x[] = "hello"; declares x as an array of 6 chars (try printing sizeof x in both cases!).
    – caf
    Aug 18, 2010 at 2:56
  • @Ivo Wetzel: No, arrays aren't pointers, as explained in caf's footnote. Also, char *x = "hello" is not at all like char x[] = "hello", and the first way actually would work fine since it would be returning a pointer to a string literal.
    – jamesdlin
    Aug 18, 2010 at 2:58
3

An integer is a primitive type, so it's value is returned as such. However, in C, a string is not a primitive type, which is why you declare it as an array of characters. And when you return an array, you are actually returning a pointer to the original array, so it is a kind of return-by-reference, if you will. But as you can see, the pointer to char x[] is invalid once you exit the function.

3
  • 2
    So only primitive types in C may be returned from functions without using pointers, is that correct?
    – orion3
    Aug 18, 2010 at 2:08
  • no, as caf points you can also return a struct. the point is that you're returning a pointer to something else (your array), and that something else happens to be in a volatile space (the function's stack frame). once it's gone, the pointer is no longer valid.
    – Javier
    Aug 18, 2010 at 2:32
  • @snitko: Nope, aggregate types may be returned from functions too. It's only array types that can't be directly returned.
    – caf
    Aug 18, 2010 at 2:32
2

Please see this detailed answer I have written about this. Not alone that, in C, variables that are created within the scope of functions are using an automatic stack heap where the variables will resides in and when the function returns, that heap is destroyed, this is where the usage of local variables especially of type string i.e. char [] or a pointer to string must be allocated on the heap outside of the function scope otherwise garbage will be returned. The workaround on that is to use a static buffer or use malloc.

2
  • I find that answer misleading with regard to automatic (stack) variables. "the compiler and linker gave the symbol name a memory address of 0x1234." seems to imply that automatic arrays have a compile-time fixed address. Clearly that's not correct; they are allocated on the stack. If it were fixed at compile time, recursion would be impossible. Static arrays do have fixed addresses. Aug 18, 2010 at 2:24
  • @Matthew: Not to be pedantic, its just an example, its my way of explaining to a complete beginner..the differences in the nuances of arrays and pointers.... :)
    – t0mm13b
    Aug 18, 2010 at 9:54
1

That char array is allocated within the scope of the function (rather than dynamically allocated eg by malloc()), so it will be unavailable outside of that scope.

Two ways around it:

  1. Declare that char array to be static
  2. Allocate the buffer in the calling function, passing it as an argument, then this function just fills it.
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  • 1
    If the character array is static, you better hope it is only being used inside this one function (that is, the function never returns references to the static character array to the caller of the function) unless you want tons of fun multithreading issues and "hey why did my string just change for no apparent reason?" type problems. Even if it is just used inside the function, having it as a static can still cause multithreading issues.
    – George
    Aug 18, 2010 at 2:04
  • Yep that is all true. Don't do this if you run the function more than once, especially when multithreading. PS I got the idea from vijayinterviewquestions.blogspot.com/2007/07/… Aug 18, 2010 at 4:34

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