39

I have an 8x8 matrix, like this:

char matrix[8][8];

Also, I have an array of 64 elements, like this:

char array[64];

Then I have drawn the matrix as a table, and filled the cells with numbers, each number being incremented from left to right, top to bottom.

If I have, say, indexes 3 (column) and 4 (row) into the matrix, I know that it corresponds to the element at position 35 in the array, as it can be seen in the table that I've drawn. I believe there is some sort of formula to translate the 2 indexes of the matrix into a single index of the array, but I can't figure out what it is.

Any ideas?

  • 2
    arr[i*cols+j] for equivalent matrix[i][j] indexing, assuming you want row-major ordering, and cols is your defined row width in columns (in your example's case, 8). – WhozCraig Dec 23 '12 at 23:39
  • I've tried all kinds of simple calculations like multiplying row * column * 8, dividing, etc. but it doesn't work. I'm not very good at math. – Fernando Aires Castello Dec 23 '12 at 23:40
75

The way most languages store multi-dimensional arrays is by doing a conversion like the following:

If matrix has size, n by m [i.e. i goes from 0 to (n-1) and j from 0 to (m-1) ], then:

matrix[ i ][ j ] = array[ i*m + j ].

So its just like a number system of base 'n'. Note that the size of the last dimension doesn't matter.


For a conceptual understanding, think of a (3x5) matrix with 'i' as the row number, and 'j' as the column number. If you start numbering from i,j = (0,0) --> 0. For 'row-major' ordering (like this), the layout looks like:

           |-------- 5 ---------|
  Row      ______________________   _ _
   0      |0    1    2    3    4 |   |
   1      |5    6    7    8    9 |   3
   2      |10   11   12   13   14|  _|_
          |______________________|
Column     0    1    2    3    4 

As you move along the row (i.e. increase the column number), you just start counting up, so the Array indices are 0,1,2.... When you get to the second row, you already have 5 entries, so you start with indices 1*5 + 0,1,2.... On the third row, you have 2*5 entries already, thus the indices are 2*5 + 0,1,2....

For higher dimension, this idea generalizes, i.e. for a 3D matrix L by N by M:

matrix[ i ][ j ][ k ] = array[ i*(N*M) + j*M + k ]

and so on.


For a really good explanation, see: http://www.cplusplus.com/doc/tutorial/arrays/; or for some more technical aspects: http://en.wikipedia.org/wiki/Row-major_order

  • 1
    I can't believe it was so simple... Very informative, thank you. – Fernando Aires Castello Dec 23 '12 at 23:53
  • You're Very welcome! – DilithiumMatrix Dec 23 '12 at 23:56
  • I'm pretty sure the current description is correct (as also described by @user1480848's answer below --- and corresponding edit on Mar 4, 2014). Please leave a comment if you don't think so - instead of editing the answer directly. – DilithiumMatrix Nov 4 '15 at 2:51
  • 1
    @DilithiumMatrix shouldn't the formula be j + (i * n) and not i + (j * n) as you suggest? Consider coordinates 2,3, which should return 13 using your matrix: 3 + (2 * 5) = 13. If we used your formula instead, we would get 2 + (3 * 5) = 17. Am I missing something? – Mohamad Nov 21 '15 at 1:13
  • 1
    @Mohamad absolutely, thanks! That's also what user1480848 described below... I think I must have rolled back to the wrong edit. Should be fixed now. I hope. – DilithiumMatrix Nov 21 '15 at 15:50
10

For row-major ordering, I believe the statement matrix[ i ][ j ] = array[ i*n + j ] is wrong.

The offset should be offset = (row * NUMCOLS) + column.

Your statement results to be row * NUMROWS + column, which is wrong.

The links you provided give a correct explanation.

  • Are you responding to zhermes' answer? If so you should probably just edit his/her post with your correction. – Michael Dorst Mar 4 '14 at 11:23
  • Thank you, I'm new on editing answers. – mvelusce Mar 4 '14 at 15:24
5

Something like this?

//columns = amount of columns, x = column, y = row
var calculateIndex = function(columns, x, y){
    return y * columns + x;
};

The example below converts an index back to x and y coordinates.

//i = index, x = amount of columns, y = amount of rows
var calculateCoordinates = function(index, columns, rows){
    //for each row
    for(var i=0; i<rows; i++){
        //check if the index parameter is in the row
        if(index < (columns * i) + columns && index >= columns * i){
            //return x, y
            return [index - columns * i, i];
        }
    }
    return null;
};
  • Perhaps you could you explain a little of how this relates to (and answers) the OP's original question? – Stewart_R Nov 23 '14 at 2:11
  • I should read a little better. It actually does the exact opposite as what the OP has asked for. This converts 35,8,8 to 3,4. – Donny Verduijn Nov 23 '14 at 2:27
  • Now it illustrates both conversions :) – Donny Verduijn Nov 23 '14 at 3:02
  • Although I had to swap row and columns for my use but this is exactly what I was looking for. – Nitij Jan 24 '16 at 8:27

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.