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Why do I get a warning when I do this:

char (*arr_ptr)[];
char str[] = "string";

arr_ptr = str;

The warning is:

assignment from incompatible pointer type

But when I change the assignment to:

arr_ptr = &str;

The warning disappears. I thought str, &str, and &str[0] were all the same. So how would str or &str[0] be incompatible?

I think my code is being compiled by GCC since I'm running it on TextMate.

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This question can probably help you. –  netcoder Dec 20 '11 at 7:10
possible duplicate of Why can't I assign an array to pointer directly in C? –  Charles Bailey Dec 20 '11 at 7:54
Read section 6 of the comp.lang.c FAQ. –  Keith Thompson Dec 20 '11 at 10:10

3 Answers 3

up vote 1 down vote accepted

I thought str, &str and &str[0] were all the same.

No. str is &str[0] - both denote a pointer to the first array element.

&str points to the same place, but is a pointer to the complete array.

The diffrence is the type if you dereference the pointer.


printf("%d %d %d",


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@Keith Thanks for editing. I wasn't aware that sizeof yields a size_t. Wouldn't it be better to use %z, or is that less portable? –  glglgl Dec 20 '11 at 11:53
%z doesn't even exist. %zu is the correct format for size_t, but it's new in C99, and some C implementations probably don't support it; Microsoft in particular has been less than enthusiastic about supporting C99. Converting to int and using %d is portable as long as the size doesn't exceed INT_MAX (which is at least 32767). You can also cast to unsigned long and use %lu as long as the size doesn't exceed ULONG_MAX (which is at least 2147483647). –  Keith Thompson Dec 20 '11 at 23:01

In C, str, &str and &str[0] refer to the same address - an array's label is simply a way of referring to the address of the start of a contiguous block of memory. str and &str are obviously of different types, however, &str being of type char (*)[].

If you want arr_ptr to point to "string", you merely have to do:

char *arr_ptr = str;

arr_ptr is simply of type char*, a single level pointer to char.

EDIT: In case I accidentally avoided the question, the reason why assigning &str to char (*arr_ptr)[] removes the error is because of the fact that &str is of type char (*)[], and str is only of type char[] (which can decay to char*).

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Yes, I know. But I still don't see why str or &str[0] is incompatible. You just changed the definition of arr_ptr which avoided the question. –  Espresso Dec 20 '11 at 7:24
@NSCoder because str is an array of chars, whereas arr_ptr is an array of pointers to chars. –  Gnat Dec 20 '11 at 7:29
I think it's the other way around. arr_ptr is a pointer to array of chars. Wouldn't an array of pointers to char would simply be *foo[]? –  Espresso Dec 20 '11 at 7:33
Sorry, but No: str != &str. In the context, str is an array of characters, and &str is a pointer to an array of characters, and even if the numerical value of the address is the same, the types are different so the equality doesn't apply. –  Jonathan Leffler Dec 20 '11 at 7:49
@NSCoder - beg your pardon, you are right, getting mixed up between operator and declaration precedence –  Gnat Dec 20 '11 at 8:08

I guess what you were trying was this:

#include <stdio.h>

int main()
    char *arr_ptr;
    char str[] = "string";

    arr_ptr = str;

    printf("%s \n", arr_ptr);
    printf("%s \n", str);

    return 0;

The following program adds one more dimension for your understanding.

int main()
    char **arr_ptr;
    char *str[] = {"string1", "string2", "string3"};
    int i;

    arr_ptr = str;

    for (i=0 ; i<3 ; i++) {
        printf("%s \n", arr_ptr[i]);
        printf("%s \n", str[i]);

    return 0;

Hope this helps!

share|improve this answer
The code written in the question - the compiling code - is fine. It is just different (and less usual). You need to know what it does, but it is valid and different from either of your suggestions. –  Jonathan Leffler Dec 20 '11 at 7:51
I thought by mentioning the (possible) correct way, @NSCoder would be able to figure out his mistake in assigning the incompatible types. Apologies if my approach is not right! –  Sangeeth Saravanaraj Dec 20 '11 at 9:35

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