# Rotate multi-dimension pointer

If I have a multidimension pointer representation of a grid like so

``````char **p;
int w; // width (i.e. number of columns)
int h; // height (i.e. number of rows)
``````

How do I go about creating a copy that is rotated by 90 degrees clockwise for NxM grid?

I've tried mallocing the height as the new width, and width as new height then transposing the values. Then I was going to finish by reversing the values of the row but I haven't managed to do this.

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possible duplicate of How to rotate a matrix 90 degrees without using any extra space? –  Vijay Apr 2 '12 at 8:54

Actual transposition is moderately painful: you have to move every element from "where it is now" to "where it should be in the transposition". If you really do have a pointer `p` pointing to the first of `M` pointers, and each of those `M` pointers points to the first of `N` `char`s (used as if it's an array of size `M` of arrays of size `N` of `char`s):

``````       +---+       +---+---+---+---+
p ---> | * | ----> | a | b | c | d |
+---+       +---+---+---+---+
| * | --
+---+   \          +---+---+---+---+
| * | -----------> | i | j | k | l |
+---+     \        +---+---+---+---+
\
\    +---+---+---+---+
--> | e | f | g | h |
+---+---+---+---+
``````

then you need a new pointer (which I will call `q`) pointing to the first of N pointers, each of which points to the first of M `char`s (note: this is a different transposition than you asked for):

``````       +---+        +---+---+---+
q ---> | * | -----> | a | e | i |
+---+        +---+---+---+
| * | --
+---+   \
| * |etc \     +---+---+---+
+---+     ---> | b | f | j |
| * |etc       +---+---+---+
+---+
``````

However, if you can live with relatively annoying subscript-writing and any cache miss effects on your runtime, you can simply access `p[i][j]` as `p[j][i]` or `p[N-1-j][i]`, etc., to "pretend" that things are transposed. This might be easiest with some macros:

``````#define ORIENTATION_A(p, M, N, i, j)  ((p)[i][j])
#define ORIENTATION_B(p, M, N, i, j)  ((p)[(N)-1-(j)][i])
/* etc */
``````

(note: none of the above is tested).

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+1 for ASCII art wizardry. –  Shawn Chin Apr 2 '12 at 8:54

When using type char **, since the fixed-size solution is already posted I thought I would chime in with a dynamic, \0 terminated solution that works with various-sized arrays. If it is possible to terminate the arrays h and w can be omitted. This function can figure out the h and w. Of course it may be changed to support h and w, but the powers that be would rather I get back to work funding their empire rather than providing free help.

``````#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
/* rotate_array

w                h
**p _______      **q ___
|A B C D|\0 ===> |E A|\0
h  |E F G H|\0 ==>  |F B|\0 w
NULL-----         |G C|\0
|H D|\0
NULL-
*/
char **rotate_array(char **p) {
int w,h,hh;
char **q;
for (w=0;p[0][w];w++);
for (hh=0;p[hh];hh++);
if (!(q = malloc(w * sizeof q))) {
perror ("malloc");
exit (1);
for (w=0;p[0][w];w++) {
if (!(q[w] = malloc(hh))) {
perror ("malloc");
exit (1);
} for (h=0;h<hh;h++) {
q[w][hh-h-1] = p[h][w];
} q[w][h]='\0';
} q[w]=NULL;
return q;
} void free_array(char **p) {
int h;
for (h=0;p[h];h++) {
free (p[h]);
} free (p);
}
// main
int main (int argc, char **argv) {
int h;
char *p[3]={"ABCD","EFGH",NULL};
char **q;
for (h=0;p[h];h++) {
printf ("%s\n",p[h]);
} printf ("\n");
q = rotate_array (p);
for (h=0;q[h];h++) {
printf ("%s\n",q[h]);
} free_array (q);
return 0;
}
``````
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We have no indication that `p` is null-terminated, nor that `*p`, etc. point to null-terminated strings. Its entirely possible that `w` and `h` are necessary. –  Aaron Dufour Apr 2 '12 at 15:27
Personal preference and desire to be different since the unterminated solution is already provided by somebody else. Anyways, it's trivial to modify mine to support h and w. Just remove the length checks and NULL terminators. –  hellork Apr 3 '12 at 5:59