# Difference between int* ptr and int(* arr) =&a [closed]

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

Is this same as

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

If not, whats the difference?

• Please re-read the chapter for arrays and integers in your favorite C book. – Sourav Ghosh Feb 15 '18 at 10:23
• I did. Still getting confused. @SouravGhosh – Sahib Singh Feb 15 '18 at 10:25
• Did you try to build the second one? – StoryTeller - Unslander Monica Feb 15 '18 at 10:25
• Right. and by build, @StoryTeller means, compile. – Sourav Ghosh Feb 15 '18 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 – Sahib Singh Feb 15 '18 at 11:36

In the first case,

`````` int arr={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) ={1,2,3};
``````

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

You can however, use it like

`````` int(* arr) = & (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? – Sourav Ghosh Feb 15 '18 at 10:51
• Okay so : `int a[]={1,2,3};` `int (*arr)= &a;` `int arr={1,2,3};` `int* ptr;` `ptr=arr;` Are these two same? – Sahib Singh Feb 15 '18 at 11:02
• no, they are not same, check the types. – Sourav Ghosh Feb 15 '18 at 11:03

In:

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

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

In:

``````int(* arr) ={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={1,2,3};` `int(* arr) =&a;` If i re write my second code like this. Are the ptr=arr code and this one doing the same thing? @machine_1 – Sahib Singh Feb 15 '18 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 (*)`. `ptr` is a pointer to `int`. `arr` is pointer to an array of 3 `int`'s – machine_1 Feb 15 '18 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) =&a` can only point to int arrays having 3 values? – Sahib Singh Feb 15 '18 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)= &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`. `*(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`.

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.