In what version(s) of the C standards (if any) is the following well-defined?

void foo(void) {
    char *nullPtr = NULL;

Note that I am not assigning the result to anything - the second line is a simple statement.

This should be a question with an obvious answer, but (as seemingly happens way too often on such questions) I have heard just as many people say the answer is "obviously undefined" as "obviously defined".

On a rather related note, what about the following? Should foo produce a read of c?

extern volatile char c;

void bar(void) {
    volatile char *nonnullptr = &c;

(C++ version of the same question: Is &*NULL well-defined in C++?)

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    @Ben Voigt -- note that OP seems to be interested in which C Standards allow this construct as well-defined and which don't. The linked duplicate does not appear to answer these details. – ex nihilo Aug 5 '18 at 4:58
  • @AJNeufeld - the linked question only address C11, not previous versions of the standard. – TLW Aug 5 '18 at 5:45
  • @Ben-Voigt - the linked question only address C11, not previous versions of the standard. (My kingdom for a multinotify.) – TLW Aug 5 '18 at 5:45
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    Related: stackoverflow.com/questions/16732788/… (some info about observable behavior of volatile) – user202729 Aug 5 '18 at 7:23

While attempts to dereference a null pointer cause undefined behavior, so *nullPtr is illegal, &*nullPtr is perfectly well-defined. According to footnote 102 in the C11 Draft Standard:

Thus, &*E is equivalent to E (even if E is a null pointer),....

This is a result of the fact that, for the unary & operator (§ ¶3):

If the operand is the result of a unary * operator, neither that operator nor the & operator is evaluated and the result is as if both were omitted,....

The C99 Standard has the same language, but this does not appear in the C90 Standard, and my reading of that standard is that &*nullPtr would indeed cause undefined behavior in pre-C99 implementations.

From the C90 Standard (§

The result of the unary & (address-of) operator is a pointer to the object or function designated by its operand....


The unary * operator denotes indirection.... If an invalid value has been assigned to the pointer, the behavior of the unary * operator is undefined.

Curiously, I don't see any discussion of this change in the C99 Rationale, though I may just be not finding it.

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    There are many situations where the C Standard says a general class of actions invoke UB, without bothering to enumerate specific cases where there would be an obvious meaning that quality implementations should recognize. If every compiler to date had treated &*p as yielding p without regard for whether p is null, the authors of the Standard might not have considered the possibility that an implementation might do otherwise. A difficulty here, I think, is that the Standard lacks terms describe... – supercat Aug 5 '18 at 18:24
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    ... what constructs like &structArray[i++].member or structArray[i++].member = 2; do with the sub-expression structArray[i++].member, and what the result of that action is (before & or = is applied). Evaluation of the sub-expression would read the contents of member, and that doesn't happen; ergo, the sub-expression is not "evaluated". Given that the term lvalue is used to refer to the source-code expression, I would say that the expression gets "resolve" to an "lref". While evaluation of *p when p is a null pointer would invoke UB, resolving the expression should not. – supercat Aug 5 '18 at 18:30
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    @supercat -- There is a culture of reading the Standard as uncharitably as possible, as if the DeathStation 9000 could arrive with the Endtimes any day now. Your comments about resolution vs. evaluation remind me of the removal of VLAs from C11: why can't they give us a VLA type to use even if definition of actual VLAs is disallowed? – ex nihilo Aug 5 '18 at 20:52
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    @supercat: Re &*NULL "should be a constraint violation": If you disallow that, it becomes problematic to write innocuous expressions like &foo[i]. As a programmer, I don't want to be forced into writing foo + i there, as it would be substantially less expressive of my intent. (Besides which, it would break the obvious expectation that "array indexing is just as good as pointer arithmetic" and result in much silly cargo-culting of the former into the latter.) – Kevin Aug 5 '18 at 21:55
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    @supercat: What constraint is violated? The standard linked in this answer only requires (under "constraints") that "The operand of the unary * operator shall have pointer type." It does not require that it be a "complete" pointer in the constraints section, but only in the semantics section below. So the only way around this is for the implementation to define NULL as 0 and then balk at using an uncast zero in that position, which is asinine but might technically be correct (i.e. if I see an implementation actually try that, I'm filing an erratum). – Kevin Aug 5 '18 at 22:20

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