# Iterating one dimension array as two dimension array

I have,

``````int[10] oneDim = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10}, index = 0;
``````

as shown here, we create the the two dimensional one from the origin. But how do I iterate my `oneDim` inside `for (index = 0; index < 10; index++)` so that I could get my column index and row index there without creating a new one? I want it looks like this while printing its indexes to a two dimensional array (2x5):

``````0,0
0,1
1,0
1,1
2,0
2,1
3,0
3,1
4,0
4,1
``````

I think the main issue here is getting the column index and row index without creating the two dimensional one. Don't you?

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Huh? You want a one-dimensional array to look like a two-dimensional array? – Simon Righarts Nov 30 '09 at 2:53
dont quite get what you're after but, create an array of objects with column index and row index? – Euclid Nov 30 '09 at 2:55
@Simon Righarts: This is standard. The compiler does it for you everyday. – jason Nov 30 '09 at 3:49
tomiko, as you can see people are struggling to understand your question, not struggling to solve your problem. please review your question so that we don't have to strain our brains to understand you. i'm sure what you're trying to do is very simple, once you take the time to articulate your self i'm sure you'll get some meaningful help. – pstanton Nov 30 '09 at 6:00
Okay psatanton. All that I want to ask is: "How do I transform/convert my one-dimensional array to a two-dimensional array?" – van_tomiko Nov 30 '09 at 14:17

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.

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great! this is what i want. thanks. :D – van_tomiko Nov 30 '09 at 14:26
Did you mean "column"-major order on the second paragraph? Hate to make you edit after so many years. :-) – template boy Sep 18 '14 at 22:26

The two numbers you're showing could be computed, in the order you're showing them in, as `index/2` and `index%2` respectively. Is that what you mean by "the issue"?

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okay, that's 'the issue'! thanks. :D – van_tomiko Nov 30 '09 at 14:19

I think this is what your trying to do...convert a one-dim array into a two-dim array.

``````//this is just pseudo code...not real syntax

int[10] oneDim = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10};

int first_dim = 5;
int second_dim = 2;

int[first_dim][second_dim] new_array;

for (int fdi = 0; fdi < first_dim; fdi++){
for (int sdi = 0; sdi < second_dim; sdi++) {

//this is the crux...you're calculating the one dimensional index to access the value

new_array[fdi][sdi] = oneDim[fdi*second_dim + sdi]

}
}
``````
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