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If i'm using long longs in my code, can i absolutely 100% guarantee that they will have 64 bits no matter what machine the code is run on?

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possible duplicate of Size of Primitive data types – dmckee Mar 7 '11 at 15:42

No, C99 standard says that it will have at least 64 bits. So it could be more than that at some point I guess. You could use int64_t type if you need 64bits always assuming you have stdint.h available (standard in C99).

#include <stdint.h>
int64_t your_i64;
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and that is assuming that it follows the standard.... – Kevin Mar 7 '11 at 15:42
int64_t must be provided if the implementation has a type that fits its requirements -- but it's (at least theoretically) possible that no such type exists, in which case int64_t won't be defined. – Jerry Coffin Mar 7 '11 at 15:50
int_least64_t must be provided by C99 implementations; this guarantees 64 or more bits – pmg Mar 7 '11 at 15:55
@pmg long long also guarantees at least 64 bits. That was the problem. :-) – Bo Persson Mar 7 '11 at 20:27

They are guaranteed to be a minimnum of 64 bits. It's theoretically possible that they could be larger (e.g., 128 bits) though I'm reasonably they're only 64 bits on anything currently available.

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On llp64 memory model compilers, it would have been convenient if long long int was bumped up to 128 bits. – Chris Becke Mar 7 '11 at 15:43
You mean LP64, don't you? – Axel Gneiting Mar 7 '11 at 15:45
I'd be surprised if no DSP with an non power of two size word is available and DSP have usually a C compiler. And then historical machines are a little (not much) more alive than often though: PDP-10 (36 bits processors, it has a port of gcc somewhere on the net and I think it used 72 bit long long) were still used as embedded processor in some network hardware last time I've looked at, and Unisys is still selling 36 bits and 48 bit machines -- I don't know if they have a C compilers for them or not. – AProgrammer Mar 7 '11 at 16:00
@AProgrammer: I believe Unisys has a C compiler, but at least the last time I looked, it only attempted to conform with C90 rather than C99, so I'm not at all sure it had long-long at all. I suppose my wording was ambiguous: while gcc is certainly available, PDP-10s haven't been for quite a while. – Jerry Coffin Mar 7 '11 at 16:03
@Jerry, If I was not clear, the practical cases I'd care of would be DSP, not PDP-10 (XKL still sold them in 1997 and I think they still are using them internally) nor Unisys machines. – AProgrammer Mar 7 '11 at 16:24


#if CHAR_BIT * sizeof (long long) != 64
   #pragma error "long long is not 64 bits"

or some equivalent.

Based on comment: if you want to support compilers where sizeof can't be used in the pre-processor, see this thread:

Something like this:

 char longlongcheck[(sizeof(long long) * CHAR_BIT) == 64]; // won't compile if the expression is 0.
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You can't use sizeof in a preprocessor expression (officially anyway -- some compilers allow it, but it's an extension). – Jerry Coffin Mar 7 '11 at 15:48
For those compilers there's a trick with making an array with the size that is illegal if it doesn't match. Will find and post. – Lou Franco Mar 7 '11 at 15:52
tricks with sizeof are unfortunately not guaranteed to work on bizarre machines with padding bits. See my answer for variants that don't depend on this. – Jens Gustedt Mar 7 '11 at 16:40
Umm, #if LLONG_MIN != -0x7FFFFFFFFFFFFFFF-1 is the easy and simple way (this also checks for twos complement at the same time, which you'll almost surely want to ensure if you care about the number of bits). – R.. Mar 7 '11 at 17:11

You can test if your compiler is C99 complying with respect to numbers in the preprocessor with this

# if (~0U < 18446744073709551615U)
#  error "this should be a large positive value, at least ULLONG_MAX >= 2^{64} - 1"
# endif

This works since all unsigned values (in the preprocessor) are required to be the same type as uintmax_t and so 0U is of type uintmax_t and ~0U, 0U-1 and -1U all are the maximum representable number.

If this test works, chances are high that unsigned long long is in fact uintmax_t.

For a valid expression after the preprocessing phase to test this with the real types do

unsigned long long has_ullong_max[-1 + 2*((0ULL - 1) >= 18446744073709551615ULL)];

This does the same sort of trick but uses the postfix ULL to be sure to have constants of type unsigned long long.

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