This question is inspired by answers to this question.

Following code has potential for undefined behaviour:

uint64_t arr[1]; // Uninitialized
if(arr[0] == 0) {

C standard specifies that uninitialized variable with automatic storage duration has indeterminate value, which is either unspecified or trap representation. It also specifies that uintN_t types have no padding bits, and size and range of values are well defined; so trap representation for uint64_t is not possible.

So I conclude that uninitialized value itself is not undefined behavior. What about reading it? Lvalues, arrays, and function designators

  1. ...
  2. Except when it is the operand of the sizeof operator, the _Alignof operator, the unary & operator, the ++ operator, the -- operator, or the left operand of the. operator or an assignment operator, an lvalue that does not have array type is converted to the value stored in the designated object (and is no longer an lvalue); this is called lvalue conversion. ...

    ... If the lvalue designates an object of automatic storage duration that could have been declared with the register storage class (never had its address taken), and that object is uninitialized (not declared with an initializer and no assignment to it has been performed prior to use), the behavior is undefined.

  3. Except when it is the operand of the sizeof operator, the _Alignof operator, or the unary & operator, or is a string literal used to initialize an array, an expression that has type ‘‘array of type’’ is converted to an expression with type ‘‘pointer to type’’ that points to the initial element of the array object and is not an lvalue. If the array object has register storage class, the behavior is undefined.

Question: Does subscripting array count as taking the address of an object?

Following text seems to imply that subscripting array requires conversion to a pointer, which seems impossible to do without taking address: Array subscripting


  1. One of the expressions shall have type ‘‘pointer to complete object type’’, the other expression shall have integer type, and the result has type ‘‘type’’.


  1. A postfix expression followed by an expression in square brackets [] is a subscripted designation of an element of an array object. The definition of the subscript operator [] is that E1[E2] is identical to (*((E1)+(E2))). Because of the conversion rules that apply to the binary + operator, if E1 is an array object (equivalently, a pointer to the initial element of an array object) and E2 is an integer, E1[E2] designates the E2- the element of E1 (counting from zero).

This makes § paragraph 3 seem weird. How could array have register storage class at all, if subscription requires conversion to a pointer?

  • This is a duplicate of stackoverflow.com/q/11962457/4389800 (for Q1) and stackoverflow.com/q/17342881/4389800 (for Q2). – P.P. Dec 19 '17 at 10:15
  • 1
    footnote 121 says that the only allowed operations for an array declared with register storage class are sizeof and _Alignof. I.e. not useful at all. Naturally, otherwise the behaviour is just undefined, it doesn't mean that an implementation couldn't supply some reasonable and usable behaviour for that case. – Antti Haapala Dec 19 '17 at 10:47
  • @P.P. I have to disagree. First seems to cover aspects I already knew, and I feel the second doesn't cover language lawyering at all from this questions perspective. – user694733 Dec 19 '17 at 10:48
  • @AnttiHaapala That's an excellent find. That would mean that arr cannot be placed in register. – user694733 Dec 19 '17 at 10:55

Yes, array subscripting counts as taking the address, as per the part you quoted in The expression E1 must have its address taken.

Therefore the special case of UB in does not apply to array indexing. If array indices are used, it is not relevant if the array could be stored with register storage duration or not (a variable having its address taken cannot use register storage duration).

You are correct in assuming that reading an uninitialized stdint.h type with indeterminate value, which has its address taken, does not invoke undefined behavior (guaranteed by C11, but merely unspecified behavior. The value could be anything and it can be non-deterministic between several reads, but it cannot be a trap.

"Reading an uninitalized variable is always UB" is a wide-spread but incorrect myth. Further information with normative sources in this answer.

  • I'd quote this footnote... i.e. any array that is used for anything else besides sizeof or _Alignof cannot fulfil the "could be stored with register storage duration" – Antti Haapala Dec 19 '17 at 10:46
  • I don't see how precludes a trap representation. There could be attributes of memory that are not visible to the C program, such as a checksum bit. – Andrew Henle Dec 19 '17 at 10:47
  • @AnttiHaapala In the general case, yes, as long as the array does not use indexing (which is kind of the whole point of having an array). But it would of course make sense to store for example an array of 4 bytes in a 32 bit register, rather than on the stack. – Lundin Dec 19 '17 at 11:54
  • 1
    @EricPostpischil read the link from my first comment. Also, the defect report 451 – Antti Haapala Dec 19 '17 at 14:02
  • 1
    This answer is inapplicable because the question of whether arr[0] could have been declared register is answered completely by 3 and not by considerations of whether its address has been taken. 3 says the use of a register lvalue arr has undefined behavior. Thus arr[0] could not have been declared register since arr in arr[0] cannot have register storage class. The parenthetical comment “(never had its address taken)” is intended to apply to non-array objects. No meaning for it regarding array elements is needed. – Eric Postpischil Dec 20 '17 at 13:55

The lvalues discussed in paragraph 2 can never be elements of an array declared with register, so the question of what it means to take their addresses never arises.

Per paragraph 3, using an array declared with register other than as the operand of sizeof, _Alignof, or & has undefined behavior. But the only way to get an lvalue for an array element is to use an array in a way other than these, as in arr[0].

Therefore, it can never occur (with defined behavior), that the lvalue discussed in paragraph 2 designates an array element that could have been declared with register storage class.

In this light, the parenthetical comment “never had its address taken” is clear. It applies only to objects that are not array elements, and the only way to produce the address of such an object is to apply &.1 Taking the address means applying &.

Whether evaluating arr[0] or arr + 2 or even simply arr (as in arr;, not as an operand of sizeof or anything else) constitutes taking the address of an element of the array is irrelevant. It has no effect on what 2 means.

Regarding your question about how an array could have register storage class, note 121 (in clause 6.7.1) says “Thus, the only operators that can be applied to an array declared with storage-class specifier register are sizeof and _Alignof.” (While this is legal, it does not seem useful, as you can apply sizeof and _Alignof without using register, so including register in the declaration does not seem to provide any useful property.)


1 An exception is that clause paragraph 15 says that a pointer to a structure may be converted to a pointer to its first member, and paragraph 16 says a pointer to a union may be converted to a pointer to any of its members. However, this requires having a pointer to the aggregate (the structure or the union), which means the aggregate itself cannot have register storage class, and members inside the aggregate cannot be declared with a storage class.

  • "The unary & operator yields the address of its operand. If the operand has type ‘‘type’’, the result has type ‘‘pointer to type’’." This implies that having a pointer type in the expression is the same as "having address taken". The result of array decay works in exactly the same way, it gives result which is a pointer to type. And since arr[i] is equivalent to *(arr + i) the decay happens, and both + and * operators expects an operand which is pointer to type. – Lundin Dec 19 '17 at 16:09
  • Found this old DR 116 for C90: open-std.org/jtc1/sc22/wg14/www/docs/dr_116.html. This would be why gcc gives diagnostic "iso c forbids subscripting register array". – Lundin Dec 19 '17 at 16:27
  • @Lundin: In your first comment, “This implies” is false; there is no logical deduction from the preceding statements to the latter. Furthermore, they are irrelevant, as the point of my answer is there is no need to determine what “has its address taken” means in regard to array elements, because the phrase was never meant to apply to array elements. (The C standard was written by humans who did not completely and accurately describe all situations. The last sentence in 2 was not intended to apply to array elements; no meaning for “has its address taken” was intended for them.) – Eric Postpischil Dec 19 '17 at 17:33
  • @Lundin: Regarding your second comment, C forbids subscripting a register array because 3 explicitly says so: “If the array object [that has just been converted to a pointer to its first element] has register storage class, the behavior is undefined.” I have no idea why you are digging up defect reports when the C standard plainly and explicitly states that using a register array in a context where it is converted to a pointer is undefined. In arr[0], arr is converted by 3, so, if it has register storage class, the behavior is undefined. Done, no defect report needed. – Eric Postpischil Dec 19 '17 at 17:35
  • Answer may be improved with a direct yes/no/sometimes,etc to the title question: "Does array subscription count as taking address of object?" – chux - Reinstate Monica Dec 19 '17 at 19:08

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.