# gluPerspective parameters- what do they mean?

I wonder about the `gluPerspective` parameters.

In all examples I see `fovy` is set to around 45-60degrees I've tried to set it to different values and the object just disappears what's the explanation for it?

The `aspect` value should always be the ratio? why would one change it?

`zNear, zFar` - once again the usual values are around 10 and 500+ what does it reflect?

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It's explained here, there's even an example for the `aspect` parameter. It's the first Google hit. Could you be more specific as to what you didn't understand? –  Andreas Haferburg May 15 '13 at 20:04

The purpose of the 4 parameters is to define a view frustum, like this:

where nothing outside of the frustum should be is visible on screen ( To accomplish this, the parameters are used to calculate a 4x4 matrix, which is then used to transform each vertex into the so-called clip space. There, testing if a vertex is inside the frustum or not is trivial )

The field of view parameter is basically the angle in between a plane passing through the camera position as well as the top of your screen & another plane passing through the camera position and the bottom of your screen. The bigger this angle is, the more you can see of the world - but at the same time, the objects you can see will become smaller.

To observe its influence, I'd suggest coding a simple app where you can gradually increase / decrease the fov via keypress - then render some spheres or other basic objects & see what happens as you change it.

The aspect ratio is your viewport's aspect ratio. ( In the graphic above, the viewport is located at the the near clipping plane ) Being able to define it at will makes sense, since your viewport's aspect ratio may vary.

The zNear & zFar values define the distance between the camera position & the near and far clipping planes, respectively. Nothing that's closer to the camera than zNear or farther away than zFar will be visible. Both values must be > 0, and obviously, zFar > zNear. zFar should ideally be chosen so that everything you want to render is visible, but making it larger than necessary wastes depth buffer prescision & may lead to flickering effects, called z-fighting. Likewise, setting zNear too close to the camera may cause the same effect - in fact, having a reasonable zNear value is more important than zFar. If you want to know exactly why this happens, you should read some in-depth explanations, like this one or this one

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