C++17 presents std::variant and std::any, both able to store different type of values under an object. For me, they are somehow similar (are they?).

Also std::variant restricts the entry types, beside this one. Why we should prefer std::variant over std::any which is simpler to use?

  • std::variant only works with a predefined set of types, while std::any literally goes with any type. It totally depends on your use cases, which of them is the better choice. May 25 '19 at 10:27
  • @πάνταῥεῖ: What are predefined set of types?
    – masoud
    May 25 '19 at 10:28
  • 5
    Roughly speaking, the first one is compile-time, the second one is run-time.
    – Evg
    May 25 '19 at 10:28
  • 2
    no std::visit() for std::any; this, IMHO, should be a valid reason to prefer std::variant, when possible.
    – max66
    May 25 '19 at 10:35
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    It's like void* vs a union imo May 25 '19 at 10:57

The more things you check at compile time the fewer runtime bugs you have.

variant guarantees that it contains one of a list of types (plus valueless by exception). It provides a way for you to guarantee that code operating on it considers every case in the variant with std::visit; even every case for a pair of variants (or more).

any does not. With any the best you can do is "if the type isn't exactly what I ask for, some code won't run".

variant exists in automatic storage. any may use the free store; this means any has performance and noexcept(false) issues that variant does not.

Checking for which of N types is in it is O(N) for an any -- for variant it is O(1).

any is a dressed-up void*. variant is a dressed-up union.

any cannot store non-copy or non-move able types. variant can.

The type of variant is documentation for the reader of your code.

Passing a variant<Msg1, Msg2, Msg3> through an API makes the operation obvious; passing an any there means understanding the API requires reliable documentation or reading the implementation source.

Anyone who has been frustrated by statically typeless languages will understand the dangers of any.

Now this doesn't mean any is bad; it just doesn't solve the same problems as variant. As a copyable object for type erasure purposes, it can be great. Runtime dynamic typing has its place; but that place is not "everywhere" but rather "where you cannot avoid it".

  • Great explanation in one phrase: "any is a dressed-up void*. variant is a dressed-up union".
    – Gupta
    Jan 20 at 16:39

The difference is that the objects are stored within the memory allocated by std::variant:

cppreference.com - std::variant

As with unions, if a variant holds a value of some object type T, the object representation of T is allocated directly within the object representation of the variant itself. Variant is not allowed to allocate additional (dynamic) memory.

and for std::any this is not possible.

As of that a std::variant, does only require one memory allocation for the std::variant itself, and it can stay on the stack.


In addition to never using additional heap memory, variant has one other advantage:

You can std::visit a variant, but not any.

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