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I am surprised to see this code segment print the same address for all the three pointers.

int main(int argc,char *argv[])
   int arr[3][3];
   return 0;

Why this is so ?

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did it print something like 0xfefefefe or 0xcdcdcdcd ? – Daniel Mošmondor Oct 13 '10 at 23:22
up vote 4 down vote accepted

See So what is meant by the ``equivalence of pointers and arrays'' in C?

The address of an array is the address of its first element. And, arr[i] is equivalent to *(arr + i) for any array arr. Therefore, arr[0] is the same as *(a + 0).

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arr[0] = *arr for all arrays that should have been the obvious bit. The surprising change for multidimensional arrays is that arr = *arr which only holds for multi-dimensional arrays due to how C treats them and lays them out in memory. – Mark Oct 14 '10 at 0:29

Because an array's address is equal to the starting element's address.

Which means, address of arr[1] is equal to address of arr + 1 and address of *(arr + 1).

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Can downvoter(s) please explain? Thanks. – Ruel Oct 13 '10 at 23:27
Its wrong but I'm not downvoting because of the unexplained downvotes. arr[1] is not equivalent to arr + 1 nor *arr + 1 but rather *(arr + 1) – alternative Oct 13 '10 at 23:29
An array does not always point to the initial element, for example if it is the operand of the unary & or sizeof operators. – dreamlax Oct 13 '10 at 23:29
@mathepic, in terms of printing %p, it is. Not talking about the values though, editing my answer. – Ruel Oct 13 '10 at 23:35
@dreamlax, Address of &arr[0] is equal to arr. – Ruel Oct 13 '10 at 23:36

C lays out multidimentional arrays flat if at least all but the last dimension is known at compile time - so an int[3][3] is actually just and int[9] array in memory - only the type is different.

So, since an array is silently converted to a pointer to its first element when used in most expressions *arr is always equivalent to arr[0] for all arrays. In this instance, arr (two levels of indirection to int) is a pointer to the first int[3] array, *arr==arr[0] (1 level of indirection to int) is a pointer to the first integer in the first int[3] array, since the whole structure is 'flat' this first int[3] starts at exactly the same place as the int[3][3] array.

Its a little confusing, but in memory it is just 9 integers in a row that the compiler 'knows' should be treated as blocks of 3

if the cells are those shown below:


then arr is a pointer to |0|, arr+1 is a pointer to |3| and arr+2 is a pointer to |6|

arr[0] is ALSO a pointer to |0|, arr[0]+1 is a pointer to |1|, arr[0]+2 is a pointer to |2| and so on... Since arr[0] is always identical to *arr for any array, *arr is ALSO a pointer to |0|

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This is not true. An array is not just a pointer to its first element. When used in an expression and when not an operand of the unary & and sizeof operators, it is converted to a pointer type pointing to the initial element of the array. – dreamlax Oct 13 '10 at 23:34
True, sizeof does treat arrays specially, but when dereferencing using the unary * operator it is safe to assume as much. Effectively an array is a pointer with some compile-time-only metadata that the compiler can use to evaluate some pseudo-functions like sizeof – tobyodavies Oct 13 '10 at 23:38
Your statement is still incorrect. In C99 the sizeof operator must also return the size of a variable length array. sizeof is not a pseudo-function it is an operator. An array is converted to a pointer type pointing to its initial element (see § paragraph 3 of the C standard). – dreamlax Oct 13 '10 at 23:49
arr is only converted to a pointer type when it is used in an expression and when it is not the operand of & or sizeof. For example, an array is a non-modifiable lvalue. If it were a pointer, it could be assigned to, but you can't assign an array to another array (i.e. you can't do arr = {{0,1,2},{3,4,5},{6,7,8}};). – dreamlax Oct 13 '10 at 23:54
you are right, i apologise... i hadn't thought about that... still, in terms of dereferencing the array i.e. the only 2 operators used on it are subscript and unary * it is effectively just a pointer. – tobyodavies Oct 13 '10 at 23:54

arr is the address of the first element in the array which is also the address of the first row of the array due to how C lays out multidimensional arrays in memory.

arr[0] returns a pointer to the first row so is equivalent to arr

*arr = arr[0] as with all C pointers

basically they are all the same because of the way C lays out multidimensional arrays, the address of the beginning of the array is also the address of the first row of the array.

part of this confusion is that while for a 1 dimensional array, arr[], arr can be treated as a pointer as if it were defined '*arr'. This isn't true for multidimensional arrays. arr[][] can't be treated as a double pointer, as if it were defined **arr. they are very different data types.

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