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I have a struct that looks like this:

struct packet {
  int a;
  char data[500];
typedef struct packet packet_t;

I'm a little confused why the following code outputs the same address for each printf:

void myfunction() {
  packet_t packet;
  printf("%p\n",;   //e.g., outputs 0x7fff1c323c9c
  printf("%p\n", &;  //e.g., outputs 0x7fff1c323c9c

Does anyone have a good explanation for this?

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Do you mean "why do the two lines give the same result", or "why are the results the same for each function call"? The former is easy (because the pointers point to the same thing), the latter is impossible to tell. – Kerrek SB Oct 9 '11 at 23:11
If you refer to an array by name without using brackets, it'll masquerade as a pointer to the first element. – Sam Dufel Oct 9 '11 at 23:12
possible duplicate of "Address of" (&) an array / address of being ignored be gcc? – Caleb Oct 9 '11 at 23:28

4 Answers 4

up vote 3 down vote accepted

Under most circumstances, an expression that has type "N-element array of T" will be converted to an expression of type "pointer to T", and its value will be the address of the first element in the array. This is what happens in the first printf call; the expression, which has type char [500], is replaced with an expression of type char *, and its value is the address of the first element, so you're effectively printing &[0].

One exception to this rule occurs when the array expression is an operand of the unary & operator; the type of the expression & is char (*)[500] (pointer to 500-element array of char).

The address of an array is the same as the address of the first element, so both calls to printf display the same value; it's just that the types of the expressions are different. To be pedantic, both expressions should be cast to void * in the printf calls (the %p conversion specifier expects a void * argument):

printf("%p\n", (void *);
printf("%p\n", (void *) &;
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That's because array decays to a pointer pointing to first element in the sequence. So, address location is same as & or &[0].

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The two are different types, though: the former is a pointer to an array, the latter a pointer to a char. The two just happen to be at the same numeric address. – Kerrek SB Oct 9 '11 at 23:20

I don't know why this was voted down, it's a good question that exposes a confusing behaviour of C.

The confusion comes because normally when you define an array a real pointer is created:

char data[100];
printf("%p\n", data);    // print a pointer to the first element of data[]
printf("%p\n", &data);   // print a pointer to a pointer to the first element of data[]

So on a typical 32 bit desktop system 4 bytes are allocated for data, which is a pointer to 100 chars. Data, the pointer, itself exists somewhere in memory.

When you create an array in a struct no pointer is allocated. Instead the compiler converts references to into a pointer at runtime but does not allocate any memory for storing it. Rather it just uses &packet + offsetof(data).

Personally I would prefer the syntax to be consistent and require an ampersand, with generating some kind of compile time error.

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Because it's the only reasonable thing to do besides making & cause a compile error. Integer a and the data char array are laid out sequentially in the stack, there is no dereferencing involved.

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