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Is there a reliable way to declare typedefs for integer types of fixed 8,16,32, and 64 bit length in ISO Standard C?

When I say ISO Standard C, I mean that strictly:

  • ISO C89/C90, not C99.
  • No headers not defined in the ISO standard.
  • No preprocessor symbols not defined in the ISO standard.
  • No type-size assumptions not specified in the ISO standard.
  • No proprietary vendor symbols.

I see other questions similar to this in StackOverflow, but no answers yet that do not violate one of the above constraints. I'm not sure it's possible without resorting to platform symbols.

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It's hard to read this question quickly. Although yes, the standard was issued in 1990, it is almost invariably called C89. – DigitalRoss Oct 9 '09 at 23:31
Please specify the required behavior in case a given implementation does not have a 8/16/32/64-bit integer type at all. – Pavel Minaev Oct 10 '09 at 0:05
up vote 7 down vote accepted

Yes you can.

The header file limits.h should be part of C90. Then I would test through preprocessor directives values of SHRT_MAX, INT_MAX, LONG_MAX, and LLONG_MAX and set typedefs accordingly.


#include <limits.h>

#if SHRT_MAX == 2147483647
typedef unsigned short int uint32_t;
#elif INT_MAX == 2147483647
typedef unsigned int uint32_t;
#elif LONG_MAX == 2147483647
typedef unsigned long uint32_t ;
#elif LLONG_MAX == 2147483647
typedef unsigned long long uint32_t;
#error "Cannot find 32bit integer."
share|improve this answer
This only gives you the amount of storage taken up by each of the integer types. Even in combination with CHAR_BIT you can't guarantee the number of value bits in any type because of the possibility of padding or trap bits. – Charles Bailey Oct 9 '09 at 23:42
@Charles: for unsigned integral types C guarantees no trap bits. For char it also guarantees no padding. But, obviously, that's still not good enough. – Pavel Minaev Oct 9 '09 at 23:45
@Pavel Minaev: By trap bits, I mean (in standards speak) padding bits that might contribute to a trap representation, sorry about the loose language. Only unsigned char is guaranteed to be padding free. – Charles Bailey Oct 10 '09 at 0:01
They aren't as theoretical as one might think. I doubt you'll find a machine with 29-bit word these days, but you may find a DSP for which there's simply no 8-bit integer type at all (comp.lang.c++.moderated had a few such horror stories). In any case, the question seems to be quite deliberately asked in such a way that precludes any reliance on implementation details (which presence/ab sence of a particular type is). – Pavel Minaev Oct 10 '09 at 0:03
@Charles, why do you say though that testing SHRT_MAX and things would give you an amount of storage? It surely gives you the amount of values and this is i think what the questioner wants. @Viliam typedef int uint32_t; looks a bit odd though - sure you don't mean typedef unsigned int uint32_t; ? – Johannes Schaub - litb Oct 10 '09 at 0:45

Strictly speaking, ISO 9899:1999 superceded ISO 9899:1990 so is the only current ISO standard C language specification.

As exact width typedef names for integer types were only introduced into the standard in the 1999 version, what you want is not possible using only the 1990 version of the standard.

share|improve this answer
Yes, technically C99 is the current standard, but compiler support remains spotty and that would be far too easy to answer anyway. ;-) – kbluck Oct 9 '09 at 23:42
Realistically, though, the only one who doesn't support inttypes.h this day and age is Microsoft. It would probably be sufficient to include inttypes.h on most platforms and typedef from stuff like DWORD, QWORD, etc. on Windows. – asveikau Oct 10 '09 at 0:03
inttypes.h isn't even in C90, it's a Unixish (well, POSIX) header. stdint.h is part of C99, and, more importantly, C++TR1 and C++0x, so at least it will be supported in VC++2010. – Pavel Minaev Oct 10 '09 at 0:21
I think he meant to say stdint.h. It's worth noting that at least two projects provide a stdint.h for the MS environment. – DigitalRoss Oct 10 '09 at 8:51
@Pavel: inttypes.h is part of the C99 standard lib (section 7.8) – Christoph Oct 10 '09 at 10:32

There is none. There is a reliable way to declare individual integer variables up to 32 bits in size, however, if you're willing to live with some restrictions. Just use long bitfields (the latter is guaranteed to be at least 32-bit wide, and you're allowed to use up to as many bits in a bitfields as would fit in the variable if bitfield declarator was omitted). So:

struct {
   unsigned long foo : 32; 
} bar;

Obviously, you get all the limitations that come with that, such as inability to have pointers to such variables. The only thing this really buys you is guaranteed wraparound at the specified boundary on over/underflow, and even then only for unsigned types, since overflow is undefined for signed.

Aside from that, there's no portable way to do this in pure C90. Among other things, a conformant C90 implementation need not even have a 8-bit integer, for example - it would be entirely legal to have a platform in which sizeof(char) == sizeof(short) == sizeof(int) == 1 and CHAR_BIT == 16 (i.e. it has a 16-bit machine word, and cannot address individual bytes). I've heard that such platforms do in fact exist in practice in form of some DSPs.

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No, you can't do that.

Now, if you want to count a multi-stage configuration process like Gnu configure as a solution, you can do that and stick to C89. And there are certainly various types you can use that are in C89, and that will DTRT on almost every implementation that's around today, so you get the sizes you want and stick with pure conforming C89. But the bit widths, while what you want, will not in general be specified by the standard.

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