There are tons of good code here but I just want to show what's going on geometrically so you can understand the code logic a little better. Here is how I would approach this.

first of all, do not confuse this with transposition which is very easy..

the basica idea is to treat it as layers and we rotate one layer at a time..

say we have a 4x4

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

after we rotate it clockwise by 90 we get

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

so let's decompose this, first we rotate the 4 corners essentially

```
1 4
13 16
```

then we rotate the following diamond which is sort of askew

```
2
8
9
15
```

and then the 2nd skewed diamond

```
3
5
12
14
```

so that takes care of the outer edge so essentially we do that one shell at a time until

finally the middle square (or if it's odd just the final element which does not move)

```
6 7
10 11
```

so now let's figure out the indices of each layer, assume we always work with the outermost layer, we are doing

```
[0,0] -> [0,n-1], [0,n-1] -> [n-1,n-1], [n-1,n-1] -> [n-1,0], and [n-1,0] -> [0,0]
[0,1] -> [1,n-1], [1,n-2] -> [n-1,n-2], [n-1,n-2] -> [n-2,0], and [n-2,0] -> [0,1]
[0,2] -> [2,n-2], [2,n-2] -> [n-1,n-3], [n-1,n-3] -> [n-3,0], and [n-3,0] -> [0,2]
```

so on and so on
until we are halfway through the edge

so in general the pattern is

```
[0,i] -> [i,n-i], [i,n-i] -> [n-1,n-(i+1)], [n-1,n-(i+1)] -> [n-(i+1),0], and [n-(i+1),0] to [0,i]
```