This should do the trick :)

```
from math import *
posx, posy = 0,0
sides = 32
radius = 1
glBegin(GL_POLYGON)
for i in range(100):
cosine= radius * cos(i*2*pi/sides) + posx
sine = radius * sin(i*2*pi/sides) + posy
glVertex2f(cosine,sine)
```

But I would pick another names for variables. cosine and sine is not exactly what these variables are.
And as far as I see, you son't need a loop from 1 to 100 (or from 0 to 99, I'm not too good at Python), you just need a loop from 1 to sides.

Explanation:
When you calculate

```
x = cos (angle)
y = sin(angle)
```

you get a point on a circle with radius = 1, and centre in the point (0; 0) (because sin^2(angle) + cos^2(angle) = 1).

If you want to change a radius to R, you simply multiply cos and sin by R.

```
x = R * cos (angle)
y = R * sin(angle)
```

If you want to transfer the circle to another location (for example, you want the circle to have it's centre at (X_centre, Y_centre), you add X_centre and Y_xentre to x and y accordingly:

```
x = R * cos (angle) + X_centre
y = R * sin(angle) + Y_centre
```

When you need to loop through N points (in your case N = sides) on your circle, you should change the angle on each iteration. All those angles should be equal and their sum should be 2 * pi. So each angle should be equal to `2 * pi/ N`

. And to get i-th angle you multiply this value by i: `i * 2 * pi / N`

.