It is well-known, that if one wants to layout square grid(aka matrix) of real numbers he can use `array`

with row-major order. Let's draw neighbourhood of some element i:

```
...................................
...|i-width-1|i-width|i-width+1|...
...| i-1 | i | i+1 |...
...|i+width-1|i+width|i+width+1|...
...................................
```

Let us for simplicity assume that i somewhere in the middle of square grid, so no bordering issues.(We can add `%(width*height)`

and get connected on borders grid). So if one wants to do something with each element in neighbourhood of i'th element one should do:

```
//function which does something with element at idx
void DoSomethinWithElement(size_t idx);
//left neighbour
DoSomethinWithElement(i-1);
//right neighbour
DoSomethinWithElement(i+1);
//top neighbour
DoSomethinWithElement(i-width);
//bottom neighbour
DoSomethinWithElement(i+width);
```

I want to generalize this algorithm for **any type of regular polygon grid** (i.e. triangle, square, pentagonal, hexagonal etc.) Regular means that it constructed only from one type of polygon (i.e only from triangles).

How to generalize for any type of polygon grid: 1. Layout of other grid in array? 2. These N(for square mesh four) statements in a loop?

The problem "How to find all neighbors of a tile in a polygonal grid?" is solved quickly using graphs. But I want to use arrays so I could copy them to graphics card with CUDA.

Examples of grids:

`{row, column}`

pair is hard to translate. – dasblinkenlight Nov 5 '15 at 14:35