New Answer:

To calculate the coordinates of the vertices of a pentagon check out the video I made for you here: http://www.youtube.com/watch?v=qqu6LknbQsg

To calculate the height of the pentagon the equation is:
^Retrieved from Wolfram Alpha

FILL by Kenobi:
As explained in the video above, A,B,C,D,E are the edges of the pentagon. F,G,H,I,J are the second pentagon to form a prism together. Sin and cos is measured in degrees. Then we have following vertices:

```
Ax = 0 ; Ay = h/2, ; Az = -1;
Bx = s/2 + s * sin(18) ; By = -h/2 + s*cos(18) ; Bz = -1;
Cx = s/2 ; Cy = -h/2 ; Cz = -1;
Dx = -s/2 ; Dy = -h/2 ; Dz = -1;
Ex = -s/2 - s * sin(18); Ey = -h/2 + s*cos(18) ; Ez = -1;
Fx = 0 ; Fy = h/2, ; Fz = 1;
Gx = s/2 + s * sin(18) ; Gy = -h/2 + s*cos(18) ; Gz = 1;
Hx = s/2 ; Hy = -h/2 ; Hz = 1;
Ix = -s/2 ; Iy = -h/2 ; Iz = 1;
Jx = -s/2 - s * sin(18); Jy = -h/2 + s*cos(18) ; Jz = 1;
```

and then you simply do

```
glVertex3f(Ax,Ay,Az);
glVertex3f(Bx,By,Bz);
[...]
```

Edit: previous answer below (*For all polygons, not just pentagons):

Here is the video I made **FOR YOU** on how to generate any 2D n-gon... to generate any 3D shape (n-hedron) you can either compose it of these different n-gons using the mathematical "net" (skeleton structure) of the 3D object and calculate the angles (all of these formulas can be found by searching for the n-hedron interior angle formula or the n-hedron **_**) Or you could draw them the same way I drew these n-gons (in the video) just using different colored lines to simulate shading (but you will have to turn them in 3D space, which I know you can do in c++ so you're fine.

Anyways, **here is my video**: http://www.youtube.com/watch?v=CWbTKm3a5Fw

And this is what a Geometrical-net is (refereed to earlier) incase you were wondering:

This article show math used in calculating things like n-hedron interior angles of faces and what-not, could be VERY helpful: http://www.kjmaclean.com/Geometry/IcosaDodeca.html

alread didthat because it is not a standard function of GL... – Kenobi Feb 26 '13 at 20:20