40

If I have an enum that does not assign numbers to the enumerations, will it's ordinal value be 0? For example:

enum enumeration { ZERO,
                   ONE,
                   TWO,
                   THREE,
                   FOUR,
                   FIVE,
                   SIX,
                   SEVEN,
                   EIGHT,
                   NINE };

I've been able to find a post citing that the C99 standard requires a 0 ordinal number. But I know C++ ignores several things in the C99 standard. And I've also been able to find a post witnessing the compiler using an ordinal value of 1, something I also seem recall seeing, though I can't say how long ago that was.

I would really like to see an answer that confirms this for C++, but I'd also like to know if an ordinal 0 holds even if I specify a value in the middle of an enum:

enum enumeration { ZERO,
                   ONE,
                   TWO,
                   THREE = 13,
                   FOUR,
                   FIVE,
                   SIX,
                   SEVEN,
                   EIGHT,
                   NINE };
  • 3
    The next enumeration constant will always have the value of the previous one in the list. So in your case you would get 0, 1, 2, 13, 14, 15.... Note that this could create duplicates. – Lundin Jan 15 '16 at 12:58
  • @Jonathan Mee It would be very strange if enumerators in C++ opposite to C do not start from 0.:) – Vlad from Moscow Jan 15 '16 at 12:59
  • @VladfromMoscow I agree, and obviously from the answers that is the case. I just couldn't find anything that guaranteed it for C++. And I don't want to keep specifying an ordinal 0 if I don't need to :S – Jonathan Mee Jan 15 '16 at 13:04
  • I'm pretty sure that this rule wasn't changed in C99. That is, its the way it was since C began. – Nicol Bolas Jan 17 '16 at 1:40
41

Per that standard [dcl.enum]

The enumeration type declared with an enum-key of only enum is an unscoped enumeration, and its enumerators are unscoped enumerators. The enum-keys enum class and enum struct are semantically equivalent; an enumeration type declared with one of these is a scoped enumeration, and its enumerators are scoped enumerators. The optional identifier shall not be omitted in the declaration of a scoped enumeration. The type-specifier-seq of an enum-base shall name an integral type; any cv-qualification is ignored. An opaqueenum-declaration declaring an unscoped enumeration shall not omit the enum-base. The identifiers in an enumerator-list are declared as constants, and can appear wherever constants are required. An enumeratordefinition with = gives the associated enumerator the value indicated by the constant-expression. If the first enumerator has no initializer, the value of the corresponding constant is zero. An enumerator-definition without an initializer gives the enumerator the value obtained by increasing the value of the previous enumerator by one.

Emphasis mine

So yes if you do not specify a start value it will default to 0.

I would really like to see an answer that confirms this for C++, but I'd also like to know if an ordinal 0 holds even if I specify a value in the middle of an enum:

This also works. It will start at 0 and increment up along the way. Then after the enum you assign the value to it will begin to increase from that value for the next ones.

23

From the C++11 specification (7.2/2):

If the first enumerator has no initializer, the value of the corresponding constant is zero. An enumerator-definition without an initializer gives the enumerator the value obtained by increasing the value of the previous enumerator by one.

So yes, the first identifier in the enumeration will have the value zero (if it's not explicitly initialized to another value), and each consecutive identifier will have the value of the previous plus one.

6

from § 7.2, p 165

. If the first enumerator has no initializer, the value of the corresponding constant is zero

source: http://open-std.org/JTC1/SC22/WG21/docs/papers/2015/n4527.pdf

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.