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I've successfully packed floats with values in [0,1] without losing too much precision using:

byte packedVal = floatVal * 255.0f ; // [0,1] -> [0,255]

Then when I want to unpack the packedVal back into a float, I simply do

float unpacked = packedVal / 255.0f ; // [0,255] -> [0,1]

That works fine, as long as the floats are between 0 and 1.

Now here's the real deal. I'm trying to turn a 3d space vector (with 3 float components) into 4 bytes. The reason I'm doing this is because I am using a texture to store these vectors, with 1 pixel per vector. It should be something like a "normal map", (but not exactly this, you'll see why after the jump)

normal map

So there, each pixel represents a 3d space vector. Where the value is very red, the normal vector's direction is mostly +x (to the right).

So of course, normals are normalized. So they don't require a magnitude (scaling) vector. But I'm trying to store a vector with arbitrary magnitude, 1 vector per pixel.

Because textures have 4 components (rgba), I am thinking of storing a scaling vector in the w component.

Any other suggestions for packing an arbitrary sized 3 space vector, (say with upper limit on magnitude of 200 or so on each of x,y,z), into a 4-byte pixel color value?

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Storing the magnitude in the 4th component sounds very reasonable. As long as the magnitude is bounded to something reasonable and not completely arbitrary.

If you want a more flexible range of magnitudes you can pre-multiply the normalized direction vector by (0.5, 1.0] when you store it, and when you unpack it multiply it by pow(2, w).

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