I am surprised nobody has cited the C11 spec yet. Apologies for the long quote, but I believe it is relevant.
The header defines several macros...
which expands to a modifiable lvalue(201) that has type
int and thread local
storage duration, the value of which is set to a positive error number by
several library functions. If a
macro definition is suppressed in order to access an actual object, or
a program defines an identifier with the name
errno, the behavior is
The value of
errno in the initial thread is zero at
program startup (the initial value of
errno in other threads is an
indeterminate value), but is never set to zero by any library
function.(202) The value of errno may be set to nonzero by a library
function call whether or not there is an error, provided the use of
errno is not documented in the description of the function in this
(201) The macro
errno need not be the identifier of an object. It might expand to a
modifiable lvalue resulting from a function call (for example,
(202) Thus, a program that uses
errno for error checking should set it to zero before a
library function call, then inspect it before a subsequent library function call. Of
course, a library function can save the value of
errno on entry and then set it to zero,
as long as the original value is restored if
errno’s value is still zero just before the
"Thread local" means
register is out. Type
int means bitfields are out (IMO). So
&errno looks legal to me.
Persistent use of words like "it" and "the value" suggests the authors of the standard did not contemplate
&errno being non-constant. I suppose one could imagine an implementation where
&errno was not constant within a particular thread, but to be used the way the footnotes say (set to zero, then check after calling library function), it would have to be deliberately adversarial, and possibly require specialized compiler support just to be adversarial.
In short, if the spec does permit a non-constant
&errno, I do not think it was deliberate.
R. asks an excellent question in the comments. After thinking about it, I believe I now know the correct answer to his question, and to the original question. Let me see if I can convince you, dear reader.
R. points out that GCC allows something like this at the top level:
register int errno asm ("r37"); // line R
This would declare
errno as a global value held in register
r37. Obviously, it would be a thread-local modifiable lvalue. So, could a conforming C implementation declare
errno like this?
The answer is no. When you or I use the word "declaration", we usually have a colloquial and intuitive concept in mind. But the standard does not speak colloquially or intuitively; it speaks precisely, and it aims only to use terms that are well-defined. In the case of "declaration", the standard itself defines the term; and when it uses the term, it is using its own definition.
By reading the spec, you can learn precisely what a "declaration" is and precisely what it is not. Put another way, the standard describes the language "C". It does not describe "some language that is not C". As far as the standard is concerned, "C with extensions" is just "some language that is not C".
Thus, from the standard's point of view, line R is not a declaration at all. It does not even parse! It might as well read:
long long long __Foo_e!r!r!n!o()blurfl??/**
As far as the spec is concerned, this is just as much a "declaration" as line R; i.e., not at all.
So, when C11 spec says, in section 18.104.22.168:
The operand of the unary
& operator shall be either a function
designator, the result of a
 or unary
* operator, or an lvalue that
designates an object that is not a bit-ﬁeld and is not declared with
the register storage-class speciﬁer.
...it means something very precise that does not refer to anything like Line R.
Now, consider the declaration of the
int object to which
errno refers. (Note: I do not mean the declaration of the
errno name, since of course there might be no such declaration if
errno is, say, a macro. I mean the declaration of the underlying
The above language says you can take the address of an lvalue unless it designates a bit-field or it designates an object "declared"
register. And the spec for the underlying
errno object says it is a modifiable
int lvalue with thread-local duration.
Now, it is true that the spec does not say that the underlying
errno object must be declared at all. Maybe it just appears via some implementation-defined compiler magic. But again, when the spec says "declared with the register storage-class specifier", it is using its own terminology.
So either the underlying
errno object is "declared" in the standard sense, in which case it cannot be both
register and thread-local; or it is not declared at all, in which case it is not declared
register. Either way, since it is an lvalue, you may take its address.
(Unless it is a bit-field, but I think we agree that a bit field is not an object of type