# OpenGL colorize filters

I have an open GL quad that is rendered with a grayscale gradient. I would like to colorize it by applying a filter, something like:

If color = 0,0,0 then set color to 255,255,255
If color = 0,0,1 then set color to 255,255,254
etc, or some scheme I decide on.

Note the reason I do this in grayscale because the algorithm I'm using was designed to be drawn in grayscale and then colorized since the colors may not be known immediately.

Is there a way to do this in openGL?

thanks,
Jeff

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BTW- please never forget to specify your OpenGL version when posting OpenGL-related questions. – Kos Apr 22 '11 at 19:07
@Kos, using JOGL 2.0 – Jeff Storey Apr 22 '11 at 19:09

You could interpret those colours from the grayscale gradient as 1-D texture coordinates and then specify your look-up table as a 1-D texture. This seems to fit your situation.

Alternatively, you can use a fragment program (shader) to perform arbitrary colour transformations on individual pixels.

Some more explanation: What is a texture? A texture, conceptually, is some kind of lookup function, with some additional logic on top.

A 2-D texture is something which for any pair of coordinates (s,t) or (x,y) in the range of [0,0] - [1,1] yields a specific colour (RGB, RGBA, L, whatever). Additionally it has some settings like warping or filtering.
Underneath, a texture is described by discrete data of a given "density" - perhaps 16x16, perhaps 256x512. The filtering process makes it possible to specify a colour for any real number between [0,0] and [1,1] (by mixing/interpolating neighbouring texels or just taking the nearest one).

A 1-D texture is identical, except that it maps just a single real value to a colour. Therefore, it can be thought of as a specific type of a "lookup table". You can consider it equivalent to a 2-D texture based on a 1xN image.

If you have a grayscale gradient, you may render it directly by treating the gradient value as a colour - or you can treat it as texture coordinates (= indices in the lookup table) and using the 1-D texture for an arbitrary colour space transform.

You'd just need to translate the gradient values (from 0..255 range) to the [0..1] range of texture indices. I'd recommend something like `out = (in+0.5)/256.0`. The 0.5 makes for the half-texel offset as we want to point to the middle of a texel (a value inside a texture), not to a corner between 2 values.

To only have the exact RGB values from lookup table (= 1-D texture), also set the texture filters to `GL_NEAREST`.

BTW: Note that if you already need another texture to draw the gradient, then it gets a bit more complicated, because you'd want to treat the values received from one texture as coordinates for another texture - and I believe you'd need pixel shaders for that. Not that shaders are complicated or anything... they are extremely handy when you learn the basics.

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@Kos, could you explain what you mean by the first statement about interpreting as 1-D texture coordinates? – Jeff Storey Apr 22 '11 at 19:11
@Jeff: In a fragment shader use the value read from the gradient texture to access a second, color ramp texture. – datenwolf Apr 22 '11 at 19:13
@datenwolf, does it matter that the gradient shape is not actually a texture when I draw it (i.e. I didn't use GL_TEXTURE_2D to draw it) – Jeff Storey Apr 22 '11 at 19:17
@Jeff: The idea is to use a 1D texture as a lookup table. Say v is the original grayscale value in the range 0 to 1. And let's say that in sample texRamp there is a 1D texture containing the desired colour ramp, then you can lookup the colour by 'gl_FrontColor = texture1D(texRamp, v);' in a GLSL shader. – datenwolf Apr 22 '11 at 19:38
I see, thanks. I've never worked with shaders before (still somewhat new to OpenGL!). I've started reading on them and that makes sense, thanks. – Jeff Storey Apr 22 '11 at 19:44