# Coordinates to Grid Box Number

Let's say I have some grid that looks like this

`````` _ _ _ _ _ _ _ _ _
|     |     |     |
|  0  |  1  |  2  |
|_ _ _|_ _ _|_ _ _|
|     |     |     |
|  3  |  4  |  5  |
|_ _ _|_ _ _|_ _ _|
|     |     |     |
|  6  |  7  |  8  |
|_ _ _|_ _ _|_ _ _|
``````

How do I find which cell I am in if I only know the coordinates? For example, how do I get `0` from `(0,0)`, or how do I get `7` from `(1,2)`?

Also, I found this question, which does what I want to do in reverse, but I can't reverse it for my needs because as far as I know there is not a mathematical inverse to modulus.

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Shouldn't (1,2) map to 5 ? (considering your co-ordinate system is centered at 0 and increments down and right) –  Amit Mar 22 '12 at 3:43
@Amit: He is writing `(x,y)` rather than `(y,x)`. I understand your confusion though: in both matricies and computer-graphics, which count `(0,0)` as the upper-left element, the coordinates are written as `(y,x)`. –  BlueRaja - Danny Pflughoeft Mar 22 '12 at 15:25

In this case, given cell index `A` in the range [0, 9), the row is given by `R = floor(A/3)` and the column is given by `C = A mod 3`.

In the general case, where `MN` cells are arranged into a grid with `M` rows and `N` columns (an `M x N` grid), given a whole number B in [0, MN), the row is found by `R = floor(B/N)` and the column is found by `C = B mod N`.

Going the other way, if you are given a grid element (R, C) where R is in [0, M) and C is in [0, N), finding the element in the scheme you show is given by `A = RN + C`.

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``````cell = x + y*width
``````

Programmers use this often to treat a 1D-array like a 2D-array.

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