If you want row-major order, given row `rowIndex`

, column `columnIndex`

and are faking (for lack of a better term) a two-dimensional array with `numberOfColumns`

columns, the formula is

```
rowIndex * numberOfColumns + columnIndex.
```

If you want row-major order, given row `rowIndex`

, column `columnIndex`

and are faking (for lack of a better term) a two-dimensional array with `numberOfRow`

rows, the formula is

```
columnIndex * numberOfRows + rowIndex.
```

So, assuming row-major order:

```
int[10] oneDim = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
int rows = 2;
int columns = 5;
for (int row = 0; row < rows; row++) {
for (int column = 0; column < columns; column++) {
System.out.println(row + ", " + column + ": " + oneDim[row * columns + column]);
}
}
```

Output:

```
0, 0: 1
0, 1: 2
0, 2: 3
0, 3: 4
0, 4: 5
1, 0: 6
1, 1: 7
1, 2: 8
1, 3: 9
1, 4: 10
```

And if you insist on indexing using a single `for`

loop, assuming row-major order, the formula that you want is the following:

```
int column = index % numberOfColumns;
int row = (index - column) / numberOfColumns;
```

If you're using column-major order, the formula that you want is the following:

```
int row = index % numberOfRows;
int column = (index - row) / numberOfRows;
```

So,

```
int[10] oneDim = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
int rows = 2;
int columns = 5;
for(int index = 0; index < 10; index++) {
int column = index % columns;
int row = (index - column) / columns;
System.out.println(row + ", " + column + ": " + oneDim[index]);
}
```

will output

```
0, 0: 1
0, 1: 2
0, 2: 3
0, 3: 4
0, 4: 5
1, 0: 6
1, 1: 7
1, 2: 8
1, 3: 9
1, 4: 10
```

as expected.