int arr[3]={1,2,3};
int* ptr;

Is this same as

int a[3]={1,2,3};
int(* arr)[3] =&a;

If not, whats the difference?

  • 2
    Please re-read the chapter for arrays and integers in your favorite C book. Feb 15, 2018 at 10:23
  • I did. Still getting confused. @SouravGhosh Feb 15, 2018 at 10:25
  • Did you try to build the second one? Feb 15, 2018 at 10:25
  • Right. and by build, @StoryTeller means, compile. Feb 15, 2018 at 10:25
  • I am still not clear. The firstcase assigns ptr as a pointer to the first element of array. The second case is also assignig a pointer arr to array.@SouravGhosh @StoryTeller Feb 15, 2018 at 11:36

3 Answers 3


In the first case,

 int arr[3]={1,2,3};

arr is an aray of 3 integers and you're initializing the values by the brace-enclosed list {1,2,3}. All good.

In the second case,

 int(* arr)[3] ={1,2,3};

arr is a pointer to an array of 3 ints, thus the initalizer is wrong, (for multiple reasons like type mismatch, excess initializer).

You can however, use it like

 int(* arr)[3] = & (int []){1,2,3};

where, this makes use of a compound literal. This "converts" the brace-enclosed list to an array, and then, you use the address of that array to initialize the LHS.

  • @downvoter, can you help me improving the content, please? Feb 15, 2018 at 10:51
  • Okay so : int a[]={1,2,3}; int (*arr)[3]= &a; int arr[3]={1,2,3}; int* ptr; ptr=arr; Are these two same? Feb 15, 2018 at 11:02
  • no, they are not same, check the types. Feb 15, 2018 at 11:03


int arr[3]={1,2,3};
int* ptr;

ptr points to the array arr which is valid, because arrays decay to pointers to their first element in such a context.


int(* arr)[3] ={1,2,3};

arr is a pointer to an array of 3 int elements, and you have too many initializers because a pointer is a scaler, and should be assigned a single value. It must either produce an error or warning, because it is a constraint violation.

  • int a[3]={1,2,3}; int(* arr)[3] =&a; If i re write my second code like this. Are the ptr=arr code and this one doing the same thing? @machine_1 Feb 15, 2018 at 11:42
  • Yes, but be aware that they have different types. Both pointers would hold the same address, but ptr has type int *, while arr has type int (*)[3]. ptr is a pointer to int. arr is pointer to an array of 3 int's
    – machine_1
    Feb 15, 2018 at 11:47
  • Okay so am i right when i say that in the first case ptr can point to any int value but int(* arr)[3] =&a can only point to int arrays having 3 values? Feb 15, 2018 at 13:29

First of all, if you compile the code you have written with the second statement is that -

warning: initialization makes pointer from integer without a cast.

This is not the right thing to do. Casting would make the compiler stop complaining but the problem is even bigger.

Now let's see how you can make it correct

int a[]={1,2,3};
int (*arr)[3]= &a;

The difference is the arr is a pointer to an array. And what you wrote earlier is assigning the decayed pointer of array to the pointer variable.

Arrays are not pointers (Pointers are not arrays) - in the first case the array is converted to pointer to the first element - so it is converted into pointer to the int and that is being assigned.

Further explaining things:

There are two things to know - one is known as array decaying and another is how pointer's type is important.

Most of the times (notice the word most - I am not saying always there are cases where it doesn't. For example when using as an operand to & the array decaying doesn't occur. Now notice here you have used & also. So what is array decaying?) array is converted into pointer to the first element of what it contains. Suppose it is int arr[]={1,2} then suppose you use arr in operation like arr+1 where does it point to or what is it? It points to the second element of the array. This is the address of arr[1]. *(arr+i) is basically arr[i].

Now you might wonder why the arr+1 points to the second element? Why not something else?

Pointer arithmetic is done considering the type of thing it points to. Suppose here arr is an int* in cases where decaying works - now if you write int *p = arr+1 then this 1 will make p point to arr[1].

Here &a is of type?? Yes it comes naturally when it is said that there is no decaying here. This is of type int(*)[]. It's a pointer and it's type is int(*)[]. Now what error did you do? You were using initializer which results in int value and that is assigned to a pointer. is this good? Nope. There is a type mismatch and also why would you initialize variable with an integer? is it an address? or is it something valid? You don't know. This would lead to a problem when you try to access the pointer.


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