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I have 2 sets of values. Each is in the range of -15 to + 15 including 0.

I managed to represent two numbers in 8 bits. 4 of those bits may belong to a negative set the other 4 positive.

Whenever I read that sequence of bits I want to be able to determine if the initial 4 bits are + or -.

Is there a way to accomplish this using bitwise operations for both packing and unpacking? or another clever way?

thanks in advance.

Update: Here's at some extend a sample of what I'm trying to achieve:

out of those 31 values I need to represent only two, using 8 bits, say for example I have the numbers 14+ and 15+. They can be both positive or have one of each but they cannot be both negative. So 14 = 1110 and 15 = 1111 (Take all 0s out); bitsequence = 11101111 So when unpacking I know byte 239 = 11101111, actually represents numbers 14+ and 15+ respectively by parsing the bit sequence. However I'm having a hard time when either one of the numbers is negative.

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Pick a language. The easiest way to do this in C and C++ has no equivalent in C#. –  Ben Voigt Sep 26 '12 at 4:03
Also, you need 5 bits to represent the range [-15:15]. –  Ben Voigt Sep 26 '12 at 4:04
Feel free to use samples in c,c++,c#, etc I really don't mind which language. –  ealva Sep 26 '12 at 4:28
what have you tried so far? –  CyberSpock Sep 26 '12 at 5:03
Your description is confusing and unclear. How do you expect to represent 31 values with only 4 bits? You say "4 of those bits may belong to a negative set the other 4 positive" -- can they both be negative, or both positive, or do you always have one of each? –  Jim Balter Sep 26 '12 at 5:54

2 Answers 2

You can do this really easily with a bitfield:

struct two_numbers
     signed char first : 4;
     signed char second : 4;

Then you can just compare to zero like normal:

two_numbers t = { 7, -5 };
if (t.first < 0 || t.second < 0) { ... }

Note, however, that a 4 bit field only allows values from -8 through 7, not -15 or 15.

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I like the approach however I do really need it for -15 or 15. –  ealva Sep 26 '12 at 4:22
@ealva: That's not a limitation of this approach, it's a limitation of what a bit is. The range -15 to 15, inclusive, has 31 distinct integer values. Four bits only give you 16 distinct patterns. You can't fit 31 in 16 (refer to the Pigeonhole Principle of information theory) –  Ben Voigt Sep 26 '12 at 5:27

Let's assume you're using your 8-bit example, where you use the high-order bits to represent a negative number, and the low-order bits to represent a positive number. If you mask your number against 0xF0, and the result is non-zero, then your number is negative.

Another way to approach the problem is to just use whatever method your language offers for a byte value. Then, you don't need to do anything clever, just test if the value is less than zero.

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