According to cppreference, the trait std::is_literal_type is deprecated in C++17. The question is why and what is the preferred replacement for the future to check whether a type is a literal type.


1 Answer 1


As stated in P0174:

The is_literal type trait offers negligible value to generic code, as what is really needed is the ability to know that a specific construction would produce constant initialization. The core term of a literal type having at least one constexpr constructor is too weak to be used meaningfully.

Basically, what it's saying is that there's no code you can guard with is_literal_type_v and have that be sufficient to ensure that your code actually is constexpr. This isn't good enough:

template<typename T>
std::enable_if_t<std::is_literal_type_v<T>, void> SomeFunc()
  constexpr T t{};

There's no guarantee that this is legal. Even if you guard it with is_default_constructible<T> that doesn't mean that it's constexpr default constructible.

What you would need is an is_constexpr_constructible trait. Which does not as of yet exist.

However, the (already implemented) trait does no harm, and allows compile-time introspection for which core-language type-categories a given template parameter might satisfy. Until the Core Working Group retire the notion of a literal type, the corresponding library trait should be preserved.

The next step towards removal (after deprecation) would be to write a paper proposing to remove the term from the core language while deprecating/removing the type trait.

So the plan is to eventually get rid of the whole definition of "literal types", replacing it with something more fine-grained.

  • Interestingly I thought that std::is_literal_type provides a safe check whether a type can be used in constexpr expressions or not. Nevertheless this is a good answer.
    – plasmacel
    Nov 1, 2016 at 0:23
  • But could you use this for checking the function arguments, e.g as in here or would it also break in some cases?
    – berkus
    Jul 30, 2018 at 14:10
  • @berkus: For what purpose? constexpr as applied to a template will always be conditional. If you instantiate it with a type that makes the function violate the rules of constexpr, then it won't be constexpr. So what's the point of the "check"? And if T doesn't have a constexpr operator+ (which the check doesn't test), then the function won't be constexpr either. So what is the point? Jul 30, 2018 at 14:14
  • 1
    @NoSenseEtAl: Actually, I was wrong about the constexpr declaration thing in requires expressions. They can only have expressions, not declarations like that. Aug 28, 2020 at 14:57
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    This trait was at least useful in helping users identify if the type they are preparing is literal. After all, the term is still used in the current (C++20 draft) spec (literal definition on page 69). Perhaps the baby was thrown out with the bathwater. Nov 5, 2020 at 16:50

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