The easiest way to do this all this, is to make sure that your center point (i.e. the point where the different colors meet), is positioned at `[0,0]`

. Then a rotation of the figure (by multiple of 90°) boils down to changing the sign of either the `x`

and/or `y`

values of your contour.

If you need the figure to be at a point different from `[0 0]`

, just add these coordinates after you did the rotation.

So starting from your code, you can do this:

```
x = [1 4 1 4 1 6.5 7 7]-7;
y = [3 4 5.5 5 8 7 8 3]-3;
c = [5 6];
col = [0 0 0;
rand(2,3);
1 1 1];
fill( x+c(1), y+c(2),col(1,:)); hold on;
fill(-x+c(1), y+c(2),col(2,:));
fill( x+c(1),-y+c(2),col(3,:));
fill(-x+c(1),-y+c(2),col(4,:)); hold off;
```

**edit:** Clarification for the `col`

and `c`

variables.

The variable `col`

contains the colors to be used in rgb style, where each row is a color. `rand`

generates uniformly random numbers in the range `[0,1]`

, which is also where the values for the colors are expected to be. In the code above a `2x3`

random matrix is generated, so that means 2 random colors which fits perfectly within the `col`

matrix.

The variable `c`

contains the center of your figure. If you look at the plot, the center will be at `[5 6]`

(so 5 along the x axis and 6 along the y axis). You could use two variables instead, but I think that keeping both together in a variable is easier to deal with. I would personally do the same for your `x`

and `y`

variables, as that would allow you to use rotation matrices more easily, but that's just a matter of choice.