# Behavior of 2D arrays

I have created a 2D array, and tried to print certain values as shown below:

``````int a[2][2] = { {1, 2},
{3, 4}};

printf("%d %d\n", *(a+1)[0], ((int *)a+1)[0]);
``````

The output is:

``````3 2
``````

I understand why `3` is the first output (`a+1` points to the second row, and we print its `0th` element.

My question is regarding the second output, i.e., `2`. My guess is that due to typecasting `a` as `int *`, the 2D array is treated like a 1D array, and thus `a+1` acts as pointer to the `2nd` element, and so we get the output as `2`.

Are my assumptions correct or is there some other logic behind this?
Also, originally what is the type of `a` when treated as pointer `int (*)[2]` or `int **`?

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The cast has a higher propriety so your invoking undefined behavior when you try to dereference `a+1`. –  user657267 Jul 16 at 22:35
@user657267 there is no UB –  Matt McNabb Jul 16 at 22:58
Oops, arrays are flat of course. –  user657267 Jul 16 at 23:30
Note: `*(a+1)[3]` is not the same as `(*(a+1))[3]` (unless the second number is zero, which it is in your code) –  immibis Jul 17 at 3:47
Also note that when the "array" is actually a `int**` (where the rows of the array have been `malloc`ed manually), although it can be accessed like an `array[x][y]`, casting it to a 1D array and accessing it will in the best case return the value of a pointer (that is, garbage from the callers' point of view) –  Marco13 Jul 17 at 9:35

Are my assumptions correct or is there some other logic behind this?

Yes.

`*(a+1)[0]` is equivalent to `a[1][0]`.
`((int *)a+1)[0]` is equivalent to `a[0][1]`.

Explanation:

`a` decays to pointer to first element of 2D array, i.e to the first row. `*a` dereferences that row which is an array of 2 `int`. Therefore `*a` can be treated as an array name of first row which further decay to pointer to its first element, i.e `1`. `*a + 1` will give the pointer to second element. Dereferencing `*a + 1` will give `1`. So:

``````((int *)a+1)[0] == *( ((int *)a+1 )+ 0)
== *( ((int *)a + 0) + 1)
== a[0][1]
``````

Note that `a`, `*a`, `&a`, `&a[0]` and `&a[0][0]` all have the same address value although they are of different types. After decay, `a` is of type `int (*)[2]`. Casting it to `int *` just makes the address value to type `int *` and the arithmetic `(int *)a+1` gives the address of second element.

Also, originally what is the type of a when treated as pointer `(int (*)[2]` or `int **`?

It becomes of type pointer to array of 2 `int`, i.e `int (*)[2]`

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This answer does not provide any explanation for why this is the case. The equivalence is clear from the numbers that are output, please include a reason for said equivalence. It also does not answer the question at the end of the post. –  Mike Precup Jul 16 at 22:40
In accordance to the site rules, I vote based on the current state of a post, not how it could potentially be. As such, I've changed my vote now that the post answers the question. –  Mike Precup Jul 16 at 22:45
@haccks It's like serving a pizza uncooked and without toppings to a customer, yelling "Order up!", and then getting sour when they point out that the pizza served is simply not adequate. That aside, why are you even providing answers with versions? 3 on the record and those are excluding the minor ones... –  ThoAppelsin Jul 16 at 23:00
@ThoAppelsin - Have you never improved on one of your answers? Jeez. Look at some of the best answers on SO, most of them have several edits. This one for example, 15 edits There is nothing wrong with an edit that improves on the answer. –  ryyker Jul 17 at 0:17
@ryyker I believe what I've said is not to be taken out of it's context. haccks said something about patience, right on his first comment; which I have I believe rightfully interpreted as "Don't be so fast on judging my answer, it was not complete back then, I was still preparing it.". Of course one can improve their answer, I also do; the problem here is that he apparently posted the first version with the plan ob his mind to provide an edit asap, which I never do. Refute me if you want, it is inappropriate to prematurely post an answer while being aware that it's not complete yet. –  ThoAppelsin Jul 17 at 0:36

When you wrote expression

``````(int *)a
``````

then logically the original array can be considered as a one-dimensional array the following way

``````int a[4] = { 1, 2, 3, 4 };
``````

So expression `a` points to the first element equal to 1 of this imaginary array. Expression `( a + 1 )` points to the second element of the imaginary array equal to 2 and expression `( a + 1 )[0]` returns reference to this element that is you get 2.

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What evidence do you have that this is mandated by the standard? –  Yakk Jul 17 at 2:16

A 2D-array is essentially a single-dimensional array with some additional compiler's knowledge.

When you cast `a` to `int*`, you remove this knowledge, and it's treated like a normal single-dimensional array (which in your case looks in memory like `1 2 3 4`).

-

The key thing to recognize here is that the `a` there holds the value of the address where the first row is located at. Since the whole array starts from the same location as that, the whole array also has the same address value; same for the very first element.

In `C` terms:

``````&a == &a[0];
&a == &a[0][0];
&a[0] == &a[0][0];
// all of these hold true, evaluate into 1
// cast them if you want, looks ugly, but whatever...
&a == (int (*)[2][2]) &a[0];
&a == (int (*)[2][2]) &a[0][0];
&a[0] == (int (*)[2]) &a[0][0];
``````

For this reason, when you cast the `a` to `int *`, it simply becomes 1-to-1 equivalent to `&a[0][0]` both by the means of type and the value. If you were to apply those operations to `&a[0][0]`:

``````(&a[0][0] + 1)[0];
(a[0] + 1)[0];
*(a[0] + 1);
a[0][1];
``````

As for the type of `a` when treated as a pointer, although I am not certain, should be `int (*)[2]`.

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Your first 3 lines are all illegal in C; IDK what you mean by "in C terms". –  Matt McNabb Jul 16 at 23:00
@MattMcNabb Pff, I don't even understand why that even matters, here, better now? –  ThoAppelsin Jul 16 at 23:07
@ThoAppelsin it matters that you don't show invalid C code in an answer. –  ouah Jul 16 at 23:09
@ouah What you've made me to write there, just looks plain ugly. It was good enough by the means of delivering the point I was trying to make. –  ThoAppelsin Jul 16 at 23:17