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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.

2

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>;

Demo.


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>,
    mp_back>;    

template <typename L>
using to_variant2 = thread_q<
    L,
    mp_quote<recursive_flatten2>,
    mp_quote<mp_unique>,
    mp_bind_q<mp_quote<mp_apply_q>, mp_quote<std::variant>, _1>
    >;

Demo w/ thread.

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