The C11 specification certainly does not make this clear, and is perhaps deficient.
I believe that
foo.x is an lvalue with type other than
int, but my justification is pretty weak:
6.2.7 paragraph 1 says:
Two types have compatible type if their types are the same.
6.3 paragraph 2 says:
Conversion of an operand value to a compatible type causes no change to the value or the representation.
foo.x is an lvalue of type
int, then it would be compatible with other
foo.x = 5 should result in
foo.x having value
5 (per 6.3p2). That obviously can't happen, suggesting that
foo.x is not compatible with
int, suggesting that
foo.x is not an lvalue of type
It doesn't really make sense that
foo.x isn't compatible with
int. Maybe no conversion (in the 6.3.1 sense) occurs, and that
foo.x obtains its value via some mechanism not discussed in the standard. Or maybe I'm misunderstanding what "arithmetic operands" means, and that 6.3.1 doesn't apply to lvalues.
There's also 18.104.22.168 paragraph 1 bullet 2, which says:
- The rank of a signed integer type shall be greater than the rank of any signed integer type with less precision.
foo.x has less precision than an ordinary
int (when used as an lvalue, not when it "is converted to the value stored in the designated object" as described in 22.214.171.124p2), so it must have a different integer conversion rank. This also suggests that it is not an
But I'm not sure that my interpretation is valid or matches the intention of the committee.
I would recommend submitting a defect report about this.