In C++11, std::enable_if was added to the Standard Library. It is equivalent to boost::enable_if_c whose condition is a bool. This is suitable for rather simple conditions, but as soon as you use predicates that hold their result in a value constant, you have to use the more verbose construct my_predicate<MyArgs>::value to turn it into bool. This is exactly what boost::enable_if (without _c suffix) was made for.

Why is there no equivalent in Standard Library?

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    typename my_predicate<MyDependentType>::value what?
    – T.C.
    Jun 13, 2017 at 9:03
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    I meant boost::enable_if<my_predicate<MyArgs>> was equivalent to the more verbose std::enable_if<my_predicate<MyArgs>::value>. Jun 13, 2017 at 9:43
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    IIRC boost folks were surprised and complained to see the committee adopt the bool version as default. Jun 13, 2017 at 9:46
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    The committee added _t and _v versions for all their traits to accommodate this. IIRC experimental has detect_t<...> to avoid typename...type Jun 13, 2017 at 9:56
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    I can easily turn the argument on its head: taking a type "is suitable for rather simple conditions, but as soon as you" need to combine predicates "you have to use the more verbose construct" std::integral_constant<bool, my_predicate1<MyArgs>::value && my_predicate2<MyArgs>::value> "to turn it into" a type.
    – T.C.
    Jun 13, 2017 at 16:08

1 Answer 1


The standard library goes a different route here. C++17 added variable templates shortcuts for all the type traits that return a ::value. The pattern is always

template <typename... Args>
some_trait_v = some_trait<Args...>::value;

For instance you can write


Further the argument for enable_if could be the result of constexpr expressions, for instance


This way is more generic and does not depend on passing something that must have a value member.

  • Good point with constexpr! This is a convincing argument for justifying this choice. Jun 22, 2017 at 11:46

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