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# Rotate array clockwise

I have a two dimensional array that I need to rotate 90 degrees clockwise, however I keep getting arrayindexoutofbounds...

``````public int[][] rorateArray(int[][] arr){

//first change the dimensions vertical length for horizontal length
//and viceversa
int[][] newArray = new int[arr[0].length][arr.length];

//invert values 90 degrees clockwise by starting from button of
//array to top and from left to right
int ii = 0;
int jj = 0;
for(int i=0; i<arr[0].length; i++){
for(int j=arr.length-1; j>=0; j--){
newArray[ii][jj] = arr[i][j];

jj++;
}
ii++;
}

return newArray;
}
``````
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This is not a matrix rotation. It's a matrix transposition en.wikipedia.org/wiki/Transpose which is a reflection on the main diagonal. – polygenelubricants May 10 '10 at 1:47
This just reverses the rows, but jj has to be set to 0 for every i. To rotate exchange i with j in arr[i][j] (and don't forget to set jj to 0 – Maciej Hehl May 10 '10 at 2:48

I don't understand your loops' logic -- shouldn't it be

``````   for(int i=0; i<arr[0].length; i++){
for(int j=arr.length-1; j>=0; j--){
newArray[i][j] = arr[j][i];
}
}
``````

Net of whether each index goes up, like `i` here, or down, like `j` here (and of whether either or both need to be "flipped" in the assignment, e.g using `arr.length-1-j` in lieu of plain `j` on one side of the `=` in the assignment;-), since `arr` dimensions are `arr.length` by `arr[0].length`, and vice versa for `newArray`, it seems to me that the first index on `arr` (second on `newArray`) must be the one spanning the range from 0 to `arr.length-1` included, and the other range for the other index.

This is a kind of "basic dimensional analysis" (except that "dimension" is used in a different sense than normally goes with "dimensional analysis" which refers to physical dimensions, i.e., time, mass, length, &c;-). The issue of "flipping" and having each loop go up or down depend on visualizing exactly what you mean and I'm not the greatest "mental visualizer" so I think, in real life, I'd try the various variants of this "axis transposition" until I hit the one that's meant;-).

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this turns it counterclockwise, but it works thanks – user69514 May 10 '10 at 0:52
@user, you're welcome -- I did suspect I was missing some flipping and/or upside-down vs downside-up for either (or both?-) indices, as I mentioned in the 2nd paragraph;-). – Alex Martelli May 10 '10 at 0:54
newArray[i][j] = arr[j][i]; transposes the matrix. It should be newArray[i][length-1-j] = arr[j][i]; – Maciej Hehl May 10 '10 at 2:53
@MacieJ is correct. See my answer for a more thorough treatment of the problem. – polygenelubricants May 10 '10 at 4:26

Here's a standard matrix clockwise rotation code:

``````static int[][] rotateCW(int[][] mat) {
final int M = mat.length;
final int N = mat[0].length;
int[][] ret = new int[N][M];
for (int r = 0; r < M; r++) {
for (int c = 0; c < N; c++) {
ret[c][M-1-r] = mat[r][c];
}
}
return ret;
}
``````

Note a few things:

• It improves readability to refer to the dimensions of a MxN matrix as `M` and `N`
• It's traditional to use `r, c` instead of `i, j` to index row and column of a matrix
• This is not the most robust implementation:
• Does not ensure that `mat` is a valid MxN matrix, `M>0, N>0`
• Use an explicit mapping formula instead of extraneous local variables
• Makes program less complex and more readable

Here's a test harness:

``````import java.util.Arrays;
//...

static void printMatrix(int[][] mat) {
System.out.println("Matrix = ");
for (int[] row : mat) {
System.out.println(Arrays.toString(row));
}
}
public static void main(String[] args){
int[][] mat = {
{ 1, 2, 3 },
{ 4, 5, 6 }
};
printMatrix(mat);
// Matrix =
// [1, 2, 3]
// [4, 5, 6]

int[][] matCW = rotateCW(mat);
printMatrix(matCW);
// Matrix =
// [4, 1]
// [5, 2]
// [6, 3]
}
``````

Note the use of the for-each loop and `java.util.Arrays` in `printMatrix`. You should definitely familiarize yourself with them if you're working with arrays a lot in Java.

### Links to Java matrix libraries

If you're working with matrices a lot, you may want to consider using a specialized matrix library instead.

### Related questions

Technically, Java has array of arrays. Make sure you understand all the implications.

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jj++ is run i*j times, and that can't be good at all.

Try to reset jj in the outer loop.

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``````public class RotateMatrix {

static int index_of_rows;
static int index_of_columns;
static int number_of_rows;
static int number_of_columns;

public static void main(String[] args) {
int[][] matrix={{1 ,2 ,3 ,4 ,5 },
{6 ,7 ,8 ,9 ,10},
{11,12,13,14,15},
{16,17,18,19,20},
{21,22,23,24,25}};
index_of_rows = matrix.length -1;
index_of_columns = matrix[0].length -1;
number_of_rows = matrix.length;
number_of_columns = matrix[0].length;

RotateMatrix rm = new RotateMatrix();

rm.printGrid(matrix);//before rotation
rm.rotate360CW(matrix,rm);

}

public int[][] rotate90CW(int[][] matrix, RotateMatrix rm) {

int[][] newMatrix = new int[number_of_rows][number_of_columns];
int totalNumber = (number_of_rows) * (number_of_columns);
int[] intArray = createSingleArray(matrix,totalNumber);

int a =0;
for(int c=number_of_columns; c>=0; c--) {
for(int r=0; r<=number_of_rows; r++) {
newMatrix[r][c] = intArray[a];
a++;
}
}
rm.printGrid(newMatrix);
return newMatrix;
}

public int[] createSingleArray(int[][] matrix, int totalNumber) {
int a=0;
int[] intArray = new int[totalNumber];

for(int b=0;b<=index_of_rows; b++) {
for(int c=0; c<=index_of_columns;c++) {
intArray[a] = matrix[b][c];
a++;
}
}
return intArray;
}

public void printGrid(int[][] matrix) {
StringBuilder sb = new StringBuilder("--------------------------");

for(int i =0; i<=index_of_rows; i++) {
System.out.println(sb.toString());//print each row
sb.delete(0, sb.length());//Then clear the row and build the next
for(int j=0; j<=index_of_columns;j++) {
sb.append(matrix[i][j]+",");
}
}
System.out.println(sb.toString());

}

public int[][] rotate180CW(int[][] matrix, RotateMatrix rm) {
return rm.rotate90CW(rm.rotate90CW(matrix, rm), rm);
}

public int[][] rotate270CW(int[][] matrix, RotateMatrix rm) {
return rm.rotate90CW(rm.rotate90CW(rm.rotate90CW(matrix, rm), rm),rm);
}

public int[][] rotate360CW(int[][] matrix, RotateMatrix rm) {
return rm.rotate90CW(rm.rotate90CW(rm.rotate90CW(rm.rotate90CW(matrix, rm),
rm),rm),rm);
}
}
``````
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