After multiplication by the projection matrix If any clip coordinate is less than -wc, or greater than wc, then the vertex will be discarded. Then perspective division is performed by W. But what happens if w = 0? OpenGL just doesn't do division?

Perspective division is done when converting coordinates from clip space to normalised device coordinates. Before this the x,y and z are compared to the w component and as you said if any of the components are greater than wc or smaller than -wc it will be clipped.

The w component in clip space will have the same value as the z coordinate in viewspace, so for it to be equal to zero, the z component in view space would also need to be zero. In view space the camera's z component is zero. In front of the camera is the near plane and anything with a z less than the near plane will be clipped. The z component in viewspace will be rescaled ,in this case since it is zero, to the negative of the nearplanes z component. This means that z will be smaller than the w component which is zero, the vertice will be clipped and there will be no perspective division.

Here is a youtube video that I think sums up the process of perspective projection quite well

if you got input position `(x,y,z,w=1)`

or vector `(x,y,z,w=0)`

then after multiplication with uniform homogenuous 3D transform matrix the resulting `w`

is never zero if the input `x,y,z`

is in the frustrum range ...

So in case your result has `w=0`

the point or vector is outside frustrum anyway so you can ignore such point/vector ...

`w=0`

can only fulfill the clip condition`-w <= x,y,z <= w`

it it is exactly`(0,0,0,0)`

. Every sane projection matrix will ensure that both z and w won't be mapped to zero at the same time (for every finite view space point), so the issue does not really occur. In practice, you can assume everything`w_clip <= 0`

to be clipped. – derhass Jan 20 at 23:06