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Ok, this is a weird issue :

  • I'm using unsigned long long variables (I've used even long ones, with the same effect)
  • I need to be able to store 64-bit integers (sizeof returns 8, which is fine)

However, when I'm trying to go to values like 1<<63, and perform some simple bitwise operations, I - oddly - seem to be getting negative values. Why's that?

My test code :

    unsigned long long c = 0;

    c |= 1l << 56; printf("c = %lld\n",c);
    c |= 1l << 63; printf("c = %lld\n",c);

Output :

c = 72057594037927936 
c = -9151314442816847872

Sidenotes :

  1. Of course, same thing happens even if I do c = 1l<<63 directly.
  2. All tests made on Mac OS X 10.6, and compiled using Apple's LLVM Compiler 3.0

Any suggestions?

share|improve this question
If you need 64-bit integers, you might prefer to use uint64_t. –  Jesse Rusak Dec 10 '12 at 2:32
I know you've already selected an answer, but I still have a question: Are you compiling for a 64-bit core? What is sizeof(long)? I'm surprised that 1l<<63 works, as I'd have thought that it would be shifting a 32-bit 1l up by 63 bits, leaving you with a value of zero. But if sizeof(long) is also 8, maybe that's why it works. If I'm correct, then there's some truth to Jesse Rusak's answer, even though that answer wouldn't solve your problem. –  phonetagger Dec 10 '12 at 4:16
Yeah the 1l really should be 1ull to guarantee that it's at least 64 bits long. –  AusCBloke Dec 10 '12 at 4:32

2 Answers 2

up vote 21 down vote accepted

The d part of the %lld specifier is telling printf that the argument should be treated as a signed integer. Use a u instead: %llu.

From the man pages:

d, i

The int argument is converted to signed decimal notation.

o, u, x, X

The unsigned int argument is converted to unsigned octal (o), unsigned decimal (u), or unsigned hexadecimal (x and X) notation.

share|improve this answer
OK, now is one of those times, when after a lot of head-scratching and... multi-level debugging efforts, I feel like an idiot... lol. Guess I've learned something really valuable. (Of course the issue was affecting something a lot bigger... and not just a 2-liner test). Thanks a lot, buddy! You've definitely saved me a lot of time! ;-) –  Dr.Kameleon Dec 10 '12 at 2:20
@Dr.Kameleon: No worries, happens to everyone. –  AusCBloke Dec 10 '12 at 2:22

I think you're actually doing something undefined here. I think the expression 1l << 63 is undefined in C, since the compiler will represent 1l in a signed type, and shifting by 63 bits causes an signed overflow (which is undefined in C). I'm not an expert, but seems like you want 1ull << 63.

Your original code, in fact, complains about this if you pass -Weverything in clang:

foo.c:7:23: warning: signed shift result (0x8000000000000000) sets the sign bit of the
            shift expression's type ('long') and becomes negative [-Wshift-sign-overflow]
      c |= 1l << 63; printf("c = %lld\n",c);
           ~~ ^  ~~

EDIT: And, yes, then you need the correct printf format from the other answer.

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