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A number of compilers provide 128-bit integer types, but none of the ones I've used provide the typedefs int128_t. Why?

As far as I recall, the standard

  • Reserves int128_t for this purpose
  • Encourages implementations that provide such a type to provide the typedef
  • Mandates that such implementations provide an intmax_t of at least 128 bits

(and, I do not believe I've used an implementation that actually conforms to that last point)

  • What platform are you on? (x86-64?) – Cameron Apr 14 '15 at 22:52
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    The standard nowhere mandates that __int128 must be treated as an "extended integer type". – T.C. Apr 14 '15 at 22:53
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    Which language are you using? I'm pretty sure the C++ standard does not say intmax_t shall be at least 128 bits long, and I doubt the C standard does either. – Brian Apr 14 '15 at 22:54
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    @Hurkyl: right, the fact that the implementation provides a thing called __int128 that behaves like an integer, doesn't mean that is "really is" one in the sense that intmax_t cares about. On the other hand, if the implementation provided int128_t, then intmax_t would have to be at least that big. So one possible explanation is that the implementations don't want the type intmax_t to change when compiler-specific extensions are disabled, but I have no idea whether that's the real reason or not. – Steve Jessop Apr 14 '15 at 22:57
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    @T.C.: That's unfortunate. In my opinion it defeats the purpose of intmax_t. C code shouldn't depend on it having a particular width. – Keith Thompson Apr 14 '15 at 23:19
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I'll refer to the C standard; I think the C++ standard inherits the rules for <stdint.h> / <cstdint> from C.

I know that gcc implements 128-bit signed and unsigned integers, with the names __int128 and unsigned __int128 (__int128 is an implementation-defined keyword) on some platforms.

Even for an implementation that provides a standard 128-bit type, the standard does not require int128_t or uint128_t to be defined. Quoting section 7.20.1.1 of the N1570 draft of the C standard:

These types are optional. However, if an implementation provides integer types with widths of 8, 16, 32, or 64 bits, no padding bits, and (for the signed types) that have a two’s complement representation, it shall define the corresponding typedef names.

C permits implementations to defined extended integer types whose names are implementation-defined keywords. gcc's __int128 and unsigned __int128 are very similar to extended integer types as defined by the standard -- but gcc doesn't treat them that way. Instead, it treats them as a language extension.

In particular, if __int128 and unsigned __int128 were extended integer types, then gcc would be required to define intmax_t and uintmax_t as those types (or as some types at least 128 bits wide). It does not do so; instead, intmax_t and uintmax_t are only 64 bits.

This is, in my opinion, unfortunate, but I don't believe it makes gcc non-conforming. No portable program can depend on the existence of __int128, or on any integer type wider than 64 bits.

  • To add my two cents, __int128 is mentioned is subclause J.5.6 (Other arithmetic types), so it may be likely treated as compiler's extension. This is convergent to GCC's documentation, namely: GCC does not support any extended integer types. . – Grzegorz Szpetkowski Apr 14 '15 at 23:08
  • @GrzegorzSzpetkowski: That's a rewording of a similar sentence in C90: "Other arithmetic types, such as long long int, and their appropriate conversions are defined"; it predates C99 and the introduction of extended integer types. (It's in the "Common extensions" part of the "Portability issues" appendix.) I find it odd that both the standard and gcc support extensions that add new integer types, but don't use the "extended integer type" mechanism. – Keith Thompson Apr 14 '15 at 23:15
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    I believe that Standard Committee let the choice to the implementers. This would be convergent to other "looseness" like optional VLAs. – Grzegorz Szpetkowski Apr 14 '15 at 23:24
  • It a compiler which added 128-bit types were to expand intmax_t, then any code which used that type and was compiled after the type was expanded would be unable to link with code that was compiled before the type was expanded. In many contexts it's very important to be able to have new code link properly with older code that may have been compiled years ago, and for which source may not always be available. – supercat Apr 26 '16 at 18:19
  • @supercat: It's also important to follow the requirements of the standard, which says what intmax_t is. – Keith Thompson Apr 26 '16 at 18:27

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