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I am working on a OpenGL ES 2.0 shader and I have tightly packed data e.g. three 5-bit unsigned integers within a block of two bytes. To unpack this data I obviously need bit-shifting, but this is not supported in OpenGL ES Shading Language (see page 29 http://www.opengl.org/registry/doc/GLSLangSpec.Full.1.20.8.pdf)

Consequently I perform a number of *2 and /2 operations to emulate bit shifting.

Does anyone know a more efficient/elegant way to do this? Is there a trick I am not aware of?

Thanks!

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  • are you sure the compiler is not optimising *2 and /2 to shift operators?
    – Mitch Wheat
    Aug 12, 2010 at 10:07
  • Given the two answers you have, can you define if you are looking for improved performance or improved readability? I have a feeling that you aren't going to be able to get both at the same time.
    – Thomas Owens
    Aug 12, 2010 at 10:17
  • Readability is nice, but performance is the most important thing.
    – Lars Schneider
    Aug 12, 2010 at 10:31
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    Your link goes to the full GLSL spec, however OpenGL ES actually uses GLSL ES as the shader language; the spec is at khronos.org/registry/gles/specs/2.0/… - this doesn't affect your question, GLSL ES has even fewer features :) but you'll likely trip up elsewhere if you keep using the full spec
    – moonshadow
    Jun 8, 2011 at 10:50

4 Answers 4

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If you are performing multiple shifts, you can use power operations. A bit shift is a multiplication or division by 2n, and a power operation would be more readable than multiple multiplication or division operations, I think, but I'm not sure about the performance. I suppose this is a more elegant solution, but probably not a more efficient one.

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Depending on what you are doing, these threads may be of some use:

GLSL: packing a normal in a single float link

Packing multiple floats into a single float value link

Packing floats to various bit depth targets (have to search the OpenGL.org forum as Stack overflow does not allow more than 2 links for new users)

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I've never used OpenGL, but the most efficient method would be a 16 bit lookup table for each type if your environment supports it. You would need to populate the table once on startup, but this should be very quick. You could use seperate tables for each type or a 2 dimensional table, eg, theTable[65536][3].

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  • I like this idea. I'll try to misuse a texture for this purpose.
    – Lars Schneider
    Aug 13, 2010 at 7:57
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    Texture sampling isn't cheap. Why not *2 and *0.5?
    – alxx
    Dec 1, 2010 at 18:49
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From your question I'm not sure, but you can use & (bit-and), right? Then it should be pretty fast to write:

processing(variable & 11111); processing(variable & 1111100000); (...)

Those bit-masks should be saved as integral constants, of course.

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    Unfortunately, no. Bitwise & is not supported (see page 29 of the spec mentioned above)
    – Lars Schneider
    Dec 2, 2010 at 9:43
  • I see, they are all 'reserved'...I guess waiting for the next version is not the right way to optimize:).
    – Huge
    Dec 2, 2010 at 14:59

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