I'll refer to the C standard; I think the C++ standard inherits the rules for
<cstdint> from C.
I know that gcc implements 128-bit signed and unsigned integers, with the names
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
uint128_t to be defined. Quoting section 188.8.131.52 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
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
unsigned __int128 were extended integer types, then gcc would be required to define
uintmax_t as those types (or as some types at least 128 bits wide). It does not do so; instead,
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.