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One of my students asked me this kind of homework with C++ arrays. It seemed quite interesting for me, so, though I have solved this problem, I wanted to share my solution with you and know another variants and opinions. The problem is following:

Problem It is given a 2D dynamic quadratic matrix (array) A(nxn). It is required to rotate the array by 90 degree anticlockwise, that is to say, after rotation A[1,1] field should contain the value of A[1,n] and A[1,n] field should contain the value of A[n,n]. And also it is required that while solving this problem you should not use any other array.

My solution I have told to the student to do the following (will represent steps schematically):
I have suggested to define a class which, as its member, will have the 2D array. And to define a operation which will return reference on A[j,n+1-i] element when the user will request A[i,j] one. In two words I have suggested to create a wrapper for the array, and manipulate by array through the wrapper.

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Your solution doesn't actually solve the problem. You're just returning the correct element for each query, but you're not actually rotating it like the problem asks you to. +1 for an interesting problem though. –  IVlad Jun 29 '10 at 13:01
@IVlad: actually, solving stays a matter of view. You can be quite certain that's how programs like matlab implement matrix transpose, just using a state and appropriate getters, no real transformations. Of course, I doubt my teachers would accept this answer on an exam :D. –  KillianDS Jun 29 '10 at 13:14
Atention!!! All those solution use a new array! Solution should be without using a new array. –  Narek Jun 29 '10 at 13:19
@nikhil No need to be pity! :) I have told them the right solution, OF COURSE! You may be pity for the students, whose teacher suggested a workaround and passed that problem, without returning to it with a better solution ;) –  Narek Sep 18 '12 at 9:53
I do appreciate the fact that you did look for a better solution, also I had no intention to cause any personal hurt. Will delete my comment. Sorry about that. –  nikhil Sep 18 '12 at 12:22

4 Answers 4

up vote 15 down vote accepted

Wikipedia has an article on in-place matrix transposition.


a b c
e f g
x y z

a e x
b f y
c g z

rotated 90 deg CCW:
c g z
b f y
a e x

So after you have the transpose, reverse the rows, which you can do in-place easily.

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Oooo, seams this is the right solution! –  Narek Jun 29 '10 at 13:19
Wait, that is what I wrote! But since this is clearer, I will just delete mine. And +1 :-) –  Aryabhatta Jun 29 '10 at 13:20
+1 for cleverness –  Alexandre C. Jun 29 '10 at 13:24
@Moron: I often have the problem myself, I am slow I guess :D –  Matthieu M. Jun 29 '10 at 14:08
@Matthieu: :-) My guess is the way stackoverflow is implemented (caching and all). So even though I had posted 2-3 min before this one, perhaps it wasn't visible to others at the same time. In any case, I had a very terse answer and this one is a lot better in explaining why the method works. –  Aryabhatta Jun 29 '10 at 14:17

You can use a "four-way-swap" and a nested loop with some rotation magic (worked out on paper):

template <typename T>
void swap(T& a, T& b, T& c, T& d)
    T x(a);
    a = b;
    b = c;
    c = d;
    d = x;

template <typename T, size_t dim>
void rotate(T (&matrix)[dim][dim])
    const size_t d = dim-1;
    for (size_t y = 0; y < dim/2; ++y)
        for (size_t x = y; x < d-y; ++x)
            swap(matrix[y  ][x  ],
                 matrix[x  ][d-y],
                 matrix[d-x][y  ]);

Test program:

template <typename T, size_t dim>
void print(T (&matrix)[dim][dim])
    for (size_t y = 0; y < dim; ++y)
        for (size_t x = 0; x < dim; ++x)
            std::cout << matrix[y][x] << ' ';
        std::cout << '\n';

int main()
    int matrix[4][4] = {{1, 2, 3, 4},
                        {5, 6, 7, 8},
                        {9, 10, 11, 12},
                        {13, 14, 15, 16}};


4 8 12 16
3 7 11 15
2 6 10 14
1 5 9 13

Now you just have to convert that from template-form to dynamic-form ;)

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A recursive algorithm could be even more elegant and concise. –  Snicolas Jan 7 at 12:22

Well, that is not C++ but Java. Sorry for this, but here is a recursive algorithm inside a simple array backed Matrix :

public void rotateInPlaceRecursive() {
    if( rowCount != colCount ) {
        throw new IllegalStateException("Matrix must be square");

public void doRotateInPlaceRecursive(int shrink) {
    if( shrink == rowCount/2 ) {
    for (int col = shrink; col < colCount-shrink-1; col++) {
        int row = shrink;
        int top     = tab[row][col];
        int left    = tab[rowCount-col-1][row];
        int bottom  = tab[rowCount-row-1][rowCount-col-1];
        int right   = tab[col][rowCount-row-1];

        tab[row][col] = right;
        tab[rowCount-col-1][row] = top;
        tab[rowCount-row-1][rowCount-col-1] = left;
        tab[col][rowCount-row-1] = bottom;


---- TEST

public void testRotateInPlaceRecursive() {
    // given
    int N = 5;
    Matrix matrix = new Matrix(N, N);

    // when
    int i=0;
    for( int row = 0; row< N; row++ ) {
        for( int col = 0; col< N; col++ ) {
            matrix.set(row,col, i++ );

    // then
    i = 0;
    for( int row = 0; row< N; row++ ) {
        for( int col = 0; col< N; col++ ) {
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O(n^2) time and O(1) space algorithm ( without any workarounds and hanky-panky stuff! )

Rotate by +90:

Reverse each row

Rotate by -90:

Reverse each column

Rotate by +180:

Method 1: Rotate by +90 twice

Method 2: Reverse each row and then reverse each column

Rotate by -180:

Method 1: Rotate by -90 twice

Method 2: Reverse each column and then reverse each row

Method 3: Reverse by +180 as they are same

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