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Here is a test program I wrote.

#include <stdio.h>
#include <stdlib.h>

typedef struct _item {
    int value;
} item , *pItem;

typedef struct _itemcontainer {
    pItem i;
} itemcontainer, *pItemcontainer;

int main(void) {
    item i;
    i.value = 1;

    pItem pi = &i;
    pItem* ppi = &pi;

    itemcontainer ei = {&i};
    pItem* pei = (pItem*)(&ei);

    pItem api[1] = {&i};

    printf("First case: %d\n", (*ppi)->value);
    printf("Second case: %d\n", (*pei)->value);
    printf("Third case: %d\n", (*api)->value);

    return EXIT_SUCCESS;

The three printf functions' results are the same value, i.e. 1. From the code, the initialization of variable ei and api are both {&i}. So I guess pItem* pei = (pItem*)ei should work, however it failed. Could any one tell me the difference between ei and api? It seems to be related with how the compiler deal with struct and array, which I am not good at. I need a concrete explanation. Thanks in advance.

Best Wishes


share|improve this question
Many people (myself included) think it's a bad practice to typedef pointer types. I use typedef struct name name; in which struct name can be an incomplete type if you want to restrict access to the members, so that name * is a pointer, and const name * is a pointer-to-const. I think it's clearer to use the language's given syntax for things like pointers and consts for this, because a naming scheme will be easier to forget (and harder to Google) than the built-in language syntax. If you use name *, good C programmers will know without thinking that it needs to be cleaned up. – Chris Lutz Aug 26 '11 at 2:31
up vote 2 down vote accepted

The difference is that the array name is implicitly converted to a pointer to its first element in most situations, while the name of an object of struct type is not.

The expression pItem* pei = (pItem*)api; would compile because it is equivalent to pItem* pei = (pItem*)(&api[0]);

The expression pItem* pei = (pItem*)ei; would not compile because it attempts to cast an object of struct type (a value) to a pointer to some unrelated type.

The expression you used, pItem* pei = (pItem*)(&ei); creates a pointer to the struct object and reinterprets it to mean pointer to pItem. Since pItem is the first element of the struct, it is located at the same memory address as ei, and this works. (this is even guaranteed by the standard, § "pointer to a structure object, suitably converted, points to its initial member")

share|improve this answer
Well, as we all know, the meaning of the value of a pointer is a memory address. Could you tell me the meaning of the value of ei (an object of struct type)? – machinarium Aug 26 '11 at 2:25
@machinarium The value of the struct is the value of everything it contains. If you copy a struct that contains an array of 10 ints, you will physically copy ten ints (plus possible padding). – Cubbi Aug 26 '11 at 2:37
OK, I got it. The value of a pointer variable is a hex number, which convinces me of the value of ei being a hex number also incorrectly. Upon debugging, I found the value column of ei in Variables view of Eclipse is {...}, instead of a hex number. Now, I completely understand it. Thank you very much. – machinarium Aug 26 '11 at 3:01

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