# Rotating rectangular array by 45 degrees

Suppose:

``````2D array:  abcdef
ghijkl
mnopqr
``````

Stored in simple string of length width * height, thus, let's call it arr.

``````arr = abcdefghijklmnopqr
width = 6
height = strlen ( arr ) / width
``````

The goal is to rotate this array by 45 degrees ( PI/4 ) and get the following result:

``````arr = abgchmdinejofkplqr
width = 3
height = 8
converted to 2D array:  a..
bg.
chm
din
ejo
fkp
.lq
..r
``````

I have spent a few hours trying to figure out how to make this conversion and came up with a few semi-functional solutions, but I can't get it fully working. Can you describe / write an algorithm that would solve this? Preferably in C.

Thanks for any help

Edit: This is what I've tried already
Edit2: The purpose of 45 degree rotation is to turn diagonals into lines so that they can be searched using strstr.

``````// this is 90 degree rotation. pretty simple
for ( i = 0; i < width * height; i++ ) {
if ( i != 0 && !(i % height) ) row++;
fieldVertical[i] = field[( ( i % height ) * width ) + row];
}

// but I just can't get my head over rotating it 45 degrees.
// this is what I've tried. It works untile 'border' is near the first edge.

row = 0;
int border = 1, rowMax = 0, col = 0; // Note that the array may be longer
// than wider and vice versa. In that case rowMax should be called colMax.

for ( i = 0; i < width * height; ) {
for ( j = 0; j < border; j++, i++ ) {
fieldCClockwise[row * width + col] = field[i];
col--;
row++;
}

col = border;
row = 0;
border++;
}
``````

The 'border' in my code is an imaginary borderline. In the source, it is a diagonal line that separates diagonals. In the result, it would be a horizontal line between each row.

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

Those slashes are our borderline. The algorithm shoul be pretty simple and just read riagonals: first number 1, then 2, then 6, then 3, then 7, then 11, then 4 and so on.

-
Are you rotating clockwise or counter clockwise? –  ose Nov 24 '12 at 23:02
Please show what you have tried –  Sidharth Mudgal Nov 24 '12 at 23:02
I'll need to do both, but once I have an algorithm to rotate it one way, the other way will be similar. –  Grant Nov 24 '12 at 23:03
When you say "rotate", do you mean something more like "skew"? "a" stays in the same spot after the rotation. –  nair.ashvin Nov 24 '12 at 23:25
Yes, 'a' stays in the same spot. I actually need to turn diagonals into lines so that I can search the diagonals using strstr. –  Grant Nov 24 '12 at 23:34
show 2 more comments

I'd call this diagonal scanning, not rotation by 45 degrees.

In your example, the diagonals are running down-left; we can enumerate them 1, 2, ...:

``````123456
234567
345678
``````

This will be the counter for the iterations of the outer loop. The inner loop will run 1, 2 or 3 iterations. In order to jump from one numbered symbol to the other, do `col--; row++;` like you did, or add `width-1` to a linear index:

``````....5. (example)
...5..
..5...
``````

Code (untested):

``````char *field;
int width = 6;
int height = 3;
char *field45 = malloc(width * height);
int diag_x = 0, diag_y = 0; // coordinate at which the diagonal starts
int x, y; // coordinate of the symbol to output
while (diag_y < height)
{
x = diag_x; y = diag_y;
while (x >= 0 && y < height) // repeat until out of field
{
*field45++ = field[y * width + x]; // output current symbol
--x; ++y; // go to next symbol on the diagonal
}
// Now go to next diagonal - either right or down, whatever is possible
if (diag_x == width - 1)
++diag_y;
else
++diag_x;
}
``````

If you want to "rotate" in another direction, you may want to change `++` to `--` around the code, and maybe change bound checking in the loops to opposite.

In addition, you can replace `(x,y)` coordinates by just one index (replacing `++y` by `index+=width`); i used `(x,y)` for clarity.

-
This is genial! Thanks. –  Grant Nov 26 '12 at 22:40

I looked at http://en.wikipedia.org/wiki/Shear_mapping for inspiration and produced this python code:

``````a = [['a', 'b', 'c', 'd', 'e', 'f'],
['g', 'h', 'i', 'j', 'k', 'l'],
['m', 'n', 'o', 'p', 'q', 'r']]

m = 1 # 1/m = slope

def shear_45_ccw(array):
ret = []
for i in range(len(array)):
ret.append([0] * 8)
for j in range(len(array[i])):
ret[i][int(i + m * j)] = array[i][j]
return ret

print(shear_45_ccw(a))
``````

produces:

``````[['a', 'b', 'c', 'd', 'e', 'f', 0, 0],
[0, 'g', 'h', 'i', 'j', 'k', 'l', 0],
[0, 0, 'm', 'n', 'o', 'p', 'q', 'r']]
``````

which is something like what you want. The algorithm is hopefully readable even though its in python. The meat of it is this: `ret[i][int(i + m * j)] = array[i][j]`. Good luck! I cheated when I initialized the array; you'll have to deal with that differently in C anyways.

EDIT: also, I had no idea why your result was flipped and stuff: I trust you can make the right behavior happen.

-
Thanks, this looks nice and I'll use it if I don't find a simpler solution. I'm trying to avoid using 2D array because eventually it'd have to be transformed back to a 1D array. –  Grant Nov 25 '12 at 0:16
K, in a 1-d array, if you can just keep track of index (i, j), then the result will go to i + i + j. –  nair.ashvin Nov 25 '12 at 0:20