# How to render depth linearly in modern OpenGL with gl_FragCoord.z in fragment shader?

such as

but I still don't know whether or not the gl_FragCoord.z is linear.

GLSL specification said its range is [0,1] in screen sapce without mentioning it's linear or not.

I think linearity it is vital since I will use the rendered model to match depth map from Kinect.

Then if it is not linear, how to linearlize it in the world space?

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Its up to you to decide if you want linear Z or not, everythings relies on your projection matrix. You may read this:

http://www.songho.ca/opengl/gl_projectionmatrix.html

Which explains very well how projection matrices works. It may be better to have non-linear Z in order to have better precision in the foreground and less in the backgrounds, depth artifacts are less visible when far away...

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thanks for that excellent site, however it is also necessary to confirm that how the specific variable works in GLSL. except the theory explanation I wanted a certain answer. –  tomriddle_1234 Oct 15 '11 at 13:29
Well, GLSL handles floating point numbers, so any value is accepted. However, once your coordinates are projected, range [-1, 1] corresponds to the visible part of the screen for X and Y axis, and Z-buffer accepts [-1, 1] values, so any value outside this range may be clamped. –  neodelphi Oct 15 '11 at 18:01

Once it's projected it loses its linearity, gl_FragCoord.z is not linear.

To revert back to linear you should perform 2 steps:

1) Transform the variable gl_FragCoord.z to normalized devices coordinates in the range [-1, 1]

``````z = gl_FragCoord.z * 2.0 - 1.0
``````

2) Apply the inverse of the projection matrix (IP). (You can use arbitrary values for x and y), and normalize for the last component.

``````unprojected = IP * vec4(0, 0, z, 1.0)
unprojected /= unprojected.w
``````

you will obtain a point in view space (or camera space, you name it) that has a linear z between znear and zfar.

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