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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.

share|improve this question
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
up vote 53 down vote accepted

In your code:

 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. [...]


[...] 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

enter image description here

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.

share|improve this answer
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].

share|improve this answer
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

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