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The ISO C standard allows three encoding methods for signed integers: two's complement, one's complement and sign/magnitude.

What's an efficient or good way to detect the encoding at runtime (or some other time if there's a better solution)? I want to know this so I can optimise a bignum library for the different possibilities.

I plan on calculating this and storing it in a variable each time the program runs so it doesn't have to be blindingly fast - I'm assuming the encoding won't change during the program run :-)

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You will never need to do this at run-time - it's purely a compile-time issue when compiling for a specific architecture. –  Paul R Sep 29 '10 at 7:04
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For bignum libraries you almost always want unsigned types anyway. While you might be able to use a signed type for the highest order word, it's probably simpler to just store a separate sign bit and always work with positive numbers, and then flip the sense of addition/subtraction depending on the sign bit. Basically your own sign/magnitude representation. –  R.. Sep 29 '10 at 12:09

6 Answers 6

up vote 13 down vote accepted

You just have to check the low order bits of the constant -1 with something like -1 & 3. This evaluates to

  1. for sign and magnitude,
  2. for one's complement and
  3. for two's complement.

This should even be possible to do in a preprocessor expression inside #if #else constructs.

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@Answer of Jens Gustedt Very Nice! But during cross-compilation, what exactly is checked here, the encoding of the compiler (preprocessor) or of the target machine? –  user2596047 Jul 18 '13 at 14:49
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@user2596047, a compiler must always evaluate all expressions as if they were evaluated at run time, such that the execution of the generate code behaves the same as in the so-called "abstract state machine". So yes, even for cross-compilation, this has to be done in the arithmetic of the target machine, not the host machine. –  Jens Gustedt Jul 18 '13 at 15:42

Detecting one's complement should be pretty simple -- something like if (-x == ~x). Detecting two's complement should be just about as easy: if (-x == ~x + 1). If it's neither of those, then it must be sign/magnitude.

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These are constant expressions too, so you can use them in #if tests: #define TWOSCOMPLEMENT (~-1 == 0) then #if TWOSCOMPLEMENT. –  caf Sep 29 '10 at 6:50
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your expressions are not necessarily true for all cases of x though, so you should be careful with border cases. In particular there is this nasty case for two's complement where -x provokes undefined behavior, namely -INT_MIN may be out of bounds. –  Jens Gustedt Sep 29 '10 at 7:59

Why not do it at compile time? You could have the build scripts/makefile compile a test program if need be, but then use the preprocessor to do conditional compilation. This also means performance is much less important, because it only runs once per compile, rather than once per run.

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Here is some more info:

http://en.wikipedia.org/wiki/Signed_number_representations

I'd go with Jens' answer and examine the lowest two bits of -1.

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I guess you'd store a negative number as an int into a char array large enough to hold it and compare the array with the various representations to find out.

But uhm... unsigned integers should not have a sign, do they ?

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Yeah... seems I was thinking too complicated... Jerry's right about using bit operations to check. Never mind. Leaving it here as an alternative answer. –  Archimedix Sep 29 '10 at 6:41
    
Yeah, sorry, that should have been signed. –  paxdiablo Sep 29 '10 at 6:43

Get a pointer to to an int that would show a distinctive bit-pattern. Cast it as a pointer to unsigned int and then examine the bit values.

Doing this with a couple of carefully chosen values should do what you want.

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