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I have a luminance map in LibGDX. I use a ByteBuffer to load my pixels, which works fine., 1);, 0, GL20.GL_LUMINANCE, overviewBlock.getWidth(), overviewBlock.getHeight(), 0,
            GL20.GL_UNSIGNED_BYTE, overviewBuffer);

However, I have trouble understanding how bytes are translated to the floats in GLSL. For a color based on an integer, writing to the ByteBuffer works like a charm. But I am not sure how to do this with a single byte color.


This does not result in a 1.0 value in GLSL/OpenGL, if I'm not mistaken. What is the correct way to get values in GLSL between 0 and 1.0, from say an integer ranged 0 - 255?

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A byte in Java is signed from the range [-128, 127]. 255 is not in that range (-1 is actually what you would need), you will have one heck of a time getting that constant to represent 1.0. You might consider promotion to integer: buffer.put ((byte)(255 & 0xff)); That promotes 255 to an integer, masks only the low 8-bits and then casts it back to byte. Then you really do not have to care what the range of a byte is, because that constant is treated as a signed integer instead; the sign-bit in a signed integer is well outside the lowest-order 8-bits so that helps. –  Andon M. Coleman Jun 18 '14 at 20:14
Actually, come to think of it, that should only apply to reading an "unsigned" byte, not so much writing one. –  Andon M. Coleman Jun 18 '14 at 20:26
@AndonM.Coleman Can't you just specify the byte in hex? buffer.put((byte)0xff); for 255. I haven't tested this, but it's what I'd try first. –  Tenfour04 Jun 18 '14 at 20:48
Well, that suffers from the same problem - namely the 8th bit is a sign bit. The number 0xff is actually -1. But since nobody is interpreting values here this really does not matter, my mind was working in reverse. Say you had an unsigned byte coming from OpenGL and then you wanted to do fixed-point -> floating-point conversion yourself, then the fact that 0xff is interpreted as -1 would matter. Here it really does not. –  Andon M. Coleman Jun 18 '14 at 20:52
@AndonM.Coleman Your approach seems to work well as far as I can tell. I don't quite understand yet why -128 is represented as 0x00 at the end bits, but that's my own ignorance on the subject. Either way I'm using (byte)(integer & 0xff) and 0xff for 255/1.0 in short and 0x00 for 0/0.0 in short. That part does make sense to me. –  RobotRock Jun 18 '14 at 20:57

1 Answer 1

up vote 0 down vote accepted

I'm using buffer.write((byte)(integer number & 0xff)) to write my bytes as recommended per the comments.

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