Need an idea on what technique to use to declare std::variant type containing all the types included into a given std::tuple and its sub-tuples (if an element is also a tuple) recursively.

For example,

std::tuple<int, std::tuple<int, double, std::tuple<float, double, std::string>>>

transforms into

std::variant<int, double, float, std::string>

in short, I need to include all the unique types into std::variant.


With Boost.Mp11, this isn't so bad.

The first step is to recursively flatten the input list. We have mp_flatten, but that only does a single flattening - we need to invoke it recursively. There may be a better way to do this, but the best I've come up with so far is to use mp_iterate with a function that flattens only if that does something:

// maybe_flatten succeeds only if it actually flattens
// (once we're flat, it's ill-formed, we use that a terminating condition for mp_iterate)
template <typename L,
    typename U=mp_flatten<L>,
    typename = std::enable_if_t<not mp_same<L, U>::value>>
using maybe_flatten = U;

template <typename L>
using recursive_flatten = mp_back<mp_iterate<L, mp_identity_t, maybe_flatten>>;

Once we have a recursive_flatten, then all we need to do is ensure the types are unique and rename it to variant:

template <typename L>
using to_variant = mp_rename<mp_unique<recursive_flatten<L>>, std::variant>;


I've been experimenting with a threading metafunction here (a la Clojure's ->) so that you can write the functions invoked in order. I'm not sure it's better:

template <typename L>
using recursive_flatten2 = thread<
    mp_iterate<L, mp_identity_t, maybe_flatten>,

template <typename L>
using to_variant2 = thread_q<
    mp_bind_q<mp_quote<mp_apply_q>, mp_quote<std::variant>, _1>

Demo w/ thread.

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.