# Why does m[1] - m[0] return 3 where m is a 3x3 matrix?

This is my code:

``````int m[][3] = {
{ 0 , 1 , 2  },
{ 10, 11, 12 },
{ 20, 21, 22 }
};
printf("%d %d\n", m[1] - m[0], m[1][0] - m[0][0]);
``````

And why does

``````m[1] - m[0]
``````

return `3`? I know why the second expression would return `10` but the 1st one doesn't seem logical to me.

-
`m[1]` is `&m[1][0]` and so on. – immibis Mar 8 at 0:14
Technically, `m` is not a 3x3 matrix but an array of arrays. – HelloGoodbye Mar 8 at 12:45
No answers mentioned this yet, but `m[0]` and `m[1]` are arrays (not pointers). A pointer value is produced when the array is used as operand of the `-` operator, which points to the first element of the respective array. – M.M May 12 at 11:07

`````` m[1] - m[0]
``````

denotes a pointer subtraction which gives you the difference of the two pointers based on the type. In this case, both the pointers are differentiated by 3 elements, so the result is 3.

To quote `C11` standard, chapter §6.5.6

When two pointers are subtracted, both shall point to elements of the same array object, or one past the last element of the array object; the result is the difference of the subscripts of the two array elements. [...]

and

[...] In other words, if the expressions `P` and `Q` point to, respectively, the `i`-th and `j`-th elements of an array object, the expression `(P)-(Q)` has the value `i−j` provided the value fits in an object of type `ptrdiff_t`. [....]

To help visualize better, please see the following image

Here, `s` is a two dimensional array, defined as `s[4][2]`. Considering the data type of the array consumers 2 byte each, please follow the elements (index) and corresponding memory location (arbitrary). This will give a better understating how actually in memory, the array elements are contiguous.

So, as per the representation, `s[0]` and `s[1]` are differentiated by two elements, `s[0][0]` and `s[0][1]`. Hence, `s[1] - s[0]` will produce a result of 2.

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Thankyou! This helped me understand it. I will definetly pass that test now :) – Martacus Mar 7 at 13:02
@Martacus That's the confidence !! Best of luck :) – Sourav Ghosh Mar 7 at 13:03
Note that `m[1]` and `m[0]` are arrays. The pointers you describe are the result of "decay". – M.M Mar 7 at 20:58

Because the "difference" between `m[1]` and `m[0]` is three elements.

It might be easier to understand if you look at it like this

```m[0]                          m[1]                          m[2]
|                             |                             |
v                             v                             v
+---------+---------+---------+---------+---------+---------+---------+---------+---------+
| m[0][0] | m[0][1] | m[0][2] | m[1][0] | m[1][1] | m[1][2] | m[2][0] | m[2][1] | m[2][2] |
+---------+---------+---------+---------+---------+---------+---------+---------+---------+```

The difference between `m[1]` and `m[0]` is the three elements `m[0][0]`, `m[0][1]` and `m[0][2]`.

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Ah yes, this explains it further too, thanks! I got the hang of it now haha. – Martacus Mar 7 at 13:03
Actually, the `m[0]` will technically point to the same location as `m[0][0]` if you look at it in technical terms. Using `&m[0]` and `&m[0][0]` will prove that; arrays have a base and an offset, and so both `m[0]` and `m[0][0]` have zero offset and an address equal to the matix's base address. – cst1992 Mar 8 at 6:12
What I'm trying to say is that you should point `m[0]` to the middle of the cell containing `m[0][0]`, not the start. Same goes for `m[1]` and `m[2]`. – cst1992 Mar 8 at 6:14