Why std::optional (std::experimental::optional in libc++ at the moment) does not have specialization for reference types (compared with boost::optional)?

I think it would be very useful option.

Is there some object with reference to maybe already existing object semantics in STL?

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    Finally I conclude, that I can use std::optional< std::reference_wrapper< T > > for my purposes. – Tomilov Anatoliy Nov 11 '14 at 6:25
  • Yep, that's what I did as well. Put it into template <typename T> using OptionalRef = std::optional<std::reference_wrapper<T>>; for readability. – MABVT May 22 '18 at 5:41
  • Possible duplicate of Why GCC rejects std::optional for references? – underscore_d Sep 20 '18 at 20:43

When n3406 (revision #2 of the proposal) was discussed, some committee members were uncomfortable with optional references. In n3527 (revision #3), the authors decided to make optional references an auxiliary proposal, to increase the chances of getting optional values approved and put into what became C++14. While optional didn't quite make it into C++14 for various other reasons, the committee did not reject optional references and is free to add optional references in the future should someone propose it.

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    I realize this is a really old answer, but I was wondering whether you might be able to provide some clarification on what those specific discomforts had been? Was (I guess better - is) it solely a question of whether assignment rebinds to reference a different object (as per boost implementation)? Were (are) there other concerns? – Shmuel Levine Mar 19 '19 at 21:35

There is indeed something that has reference to maybe existing object semantics. It is called a (const) pointer. A plain old non-owning pointer. There are three differences between references and pointers:

  1. Pointers can be null, references can not. This is exactly the difference you want to circumvent with std::optional.
  2. Pointers can be redirected to point to something else. Make it const, and that difference disappears as well.
  3. References need not be dereferenced by -> or *. This is pure syntactic sugar and possible because of 1. And the pointer syntax (dereferencing and convertible to bool) is exactly what std::optional provides for accessing the value and testing its presence.

Update: optional is a container for values. Like other containers (vector, for example) it is not designed to contain references. If you want an optional reference, use a pointer, or if you indeed need an interface with a similar syntax to std::optional, create a small (and trivial) wrapper for pointers.

Update2: As for the question why there is no such specialization: because the committee simply did opt it out. The rationale might be found somewhere in the papers. It possibly is because they considered pointers to be sufficient.

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    Still, for generic programming you'd want std::optional<T> wo work even when T==U&. You explain quite well how std::optinal<U&> can be implemented with U* const but that's not really a help in generic programming. – MSalters Nov 11 '14 at 10:33
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    @MSalters I don't see why you would want that. optional is strictly for values. See my update to the answer. "generic programming" is not a blanco justification to have anything imaginable. If you happen to come across an occasion where you want to support optional values and optional references, use specialization to distingusih between optional and pointers or the wrapper class I mention. – Arne Mertz Nov 11 '14 at 11:14
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    By today's standards I'd say this answer is wrong. If I see a pointer, I immediately start to wonder if it owns the object it refers to, if the object is dynamically allocated (and thus might be deleted at any moment) etc. I don't have to wonder re that about a reference nor about an optional. The reason is that pointers traditionally cover a lot of possible use cases, while references and optionals cover way less. They were designed for specific purposes, and when they are used, I know that they are used for those purposes. Hence, std::optional<T&> should be supported by the standard. – sbi Nov 29 '18 at 13:57
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    By today's standards, a raw pointer should never own the referred object. References, optional or otherwise, can be bound to heap objects as well, so there's no difference at all regarding the dangers of dynamic object lifetimes. Granted, in old-school C++, a raw pointer could mean anything from owner to reference to array iterator. In today's code, all those cases should be handled differently. std::optional<T&> is heavily discussed currently and the semantics are not overly clear - AFAIK there's about a 50/50 split regarding whether assigning should rebind or assign the referred object. – Arne Mertz Dec 10 '18 at 8:48
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    "By today's standards, a raw pointer should never own the referred object." Is an extremely narrow-minded and unrealistic POV. In a perfect world, all code would be up to "today's standards", but in the real world, we have to interoperate with older codebases because we can't reinvent the wheel every few years. Especially if working with any C libraries, raw pointers must represent ownership. – monkey0506 Aug 23 '19 at 1:19

If I would hazard a guess, it would be because of this sentence in the specification of std::experimental::optional. (Section 5.2, p1)

A program that necessitates the instantiation of template optional for a reference type, or for possibly cv-qualified types in_place_t or nullopt_t is ill-formed.

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    Maybe it is right, but I can't understand the background of cieted conclusion. – Tomilov Anatoliy Nov 11 '14 at 6:30
  • @Orient that is standardese for "optional may not be used with references and these two special types" - in other words it is not designed to work with them. In fact, your question is another means to say "why does the standard contain that clause?" – Arne Mertz Nov 11 '14 at 12:59
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    @ArneMertz You are right, but it is important to understand the intentions of cometee. – Tomilov Anatoliy Nov 13 '14 at 3:43

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