If you read the right bits of the standard carefully enough, you find that the monster declaration in the question is valid, even if implausible.
The 'right bits' includes:
There are five standard signed integer types, designated as
long int, and
long long int. (These and other types may be
designated in several additional ways, as described in 6.7.2.)
For each of the signed integer types, there is a corresponding (but different) unsigned
integer type (designated with the keyword
unsigned) that uses the same amount of
storage (including sign information) and has the same alignment requirements.
6.7.2 Type specifiers
At least one type specifier shall be given in the declaration specifiers in each declaration,
and in the specifier-qualifier list in each struct declaration and type name. Each list of
type specifiers shall be one of the following multisets (delimited by commas, when there
is more than one multiset per item); the type specifiers may occur in any order, possibly
intermixed with the other declaration specifiers.
signed long long,
long long int, or
signed long long int
unsigned long long, or
unsigned long long int
Other declaration specifiers include storage classes (
_Thread_local in the example), and type qualifiers (
declaration-specifiers init-declarator-listopt ;
Also, as noted by Olaf in a comment:
6.11.5 Storage-class specifiers
The placement of a storage-class specifier other than at the beginning of the declaration
specifiers in a declaration is an obsolescent feature.
It is also eccentric to split up the integer type keywords (the type specifier). A more orthodox version of the declaration would be:
static _Thread_local _Atomic const volatile unsigned long long int x = 10;
(or it might drop the