Given
template <typename...> struct Pack;
using T1 = std::tuple<int, char, double>;
using T2 = std::tuple<bool, double, int, char>;
TupleTree<Pack, T1, T2>
shall be
Pack<
Pack<int, bool>, Pack<int, double>, Pack<int, int>, Pack<int, char>,
Pack<char, bool>, Pack<char, double>, Pack<char, int>, Pack<char, char>,
Pack<double, bool>, Pack<double, double>, Pack<double, int>, Pack<double, char>
>
And this extends to any number of tuples. Easy enough to understand the definition? Ok, I have the program working correctly:
But now I want to extend the definition to
`TupleTreeWithRepeats<P, std::index_sequence<Is...>, Tuples...>`
where Is...
will indicate the number of times each tuple is being used repeatedly until moving on to the next tuple. Note that <Is...> = <1,1,...,1>
will reduce to the same as TupleTree<P, Tuples...>
. The ambiguity that I'm stuck with is with these two specializations:
TupleTreeWithRepeatsHelper<P, std::index_sequence<Is...>, LoopNumber, P<Ts...>, First, Rest...>
TupleTreeWithRepeatsHelper<P, std::index_sequence<I, Is...>, I, P<Ts...>, First, Rest...>
For some reason, the presence of P<Ts...>
causes the ambiguity because when I replace it with a single-named type the ambiguity is removed. Even when I replace std::index_sequence<Is...>
with std::index_sequence<I, Is...>
, the ambiguity is still there. What's going on? And how to fix this? Here is the code, which is almost the same as that for TupleTree
:
#include <iostream>
#include <tuple>
#include <type_traits>
template <typename T> struct Identity { using type = T; };
// Merging packs of types.
template <typename...> struct MergePacks;
template <typename Pack>
struct MergePacks<Pack> : Identity<Pack> {};
template <template <typename...> class P, typename... Types1, typename... Types2, typename... Packs>
struct MergePacks<P<Types1...>, P<Types2...>, Packs...> : MergePacks<P<Types1..., Types2...>, Packs...> {};
// Appending a type to a pack.
template <typename Pack, typename T> struct AppendType;
template <template <typename...> class P, typename... Ts, typename T>
struct AppendType <P<Ts...>, T> {
using type = P<Ts..., T>;
};
// ExpandPackWithTuple takes a pack, and creates N packs that each end with the tuple's elements, N is the size of the tuple.
template <template <typename...> class P, typename Pack, typename Tuple, typename Indices> struct ExpandPackWithTupleHelper;
template <template <typename...> class P, typename Pack, typename Tuple, std::size_t... Is>
struct ExpandPackWithTupleHelper<P, Pack, Tuple, std::index_sequence<Is...>> {
using type = P<typename AppendType<Pack, typename std::tuple_element<Is, Tuple>::type>::type...>;
};
template <template <typename...> class P, typename Pack, typename Tuple>
using ExpandPackWithTuple = typename ExpandPackWithTupleHelper<P, Pack, Tuple, std::make_index_sequence<std::tuple_size<Tuple>::value>>::type;
// TupleTreeWithRepeats.
template <template <typename...> class P, typename NumRepeats, std::size_t LoopNumber, typename OutputPack, typename... Tuples> struct TupleTreeWithRepeatsHelper;
template <template <typename...> class P, std::size_t I, std::size_t... Is, std::size_t LoopNumber, typename... Ts, typename First, typename... Rest>
struct TupleTreeWithRepeatsHelper<P, std::index_sequence<I, Is...>, LoopNumber, P<Ts...>, First, Rest...> :
TupleTreeWithRepeatsHelper<P, std::index_sequence<I, Is...>, LoopNumber + 1, typename MergePacks<ExpandPackWithTuple<P, Ts, First>...>::type, First, Rest...> {};
template <template <typename...> class P, std::size_t I, std::size_t... Is, typename... Ts, typename First, typename... Rest>
struct TupleTreeWithRepeatsHelper<P, std::index_sequence<I, Is...>, I, P<Ts...>, First, Rest...> :
TupleTreeWithRepeatsHelper<P, std::index_sequence<Is...>, 0, typename MergePacks<ExpandPackWithTuple<P, Ts, First>...>::type, Rest...> {};
template <template <typename...> class P, std::size_t... Is, std::size_t LoopNumber, typename OutputPack>
struct TupleTreeWithRepeatsHelper<P, std::index_sequence<Is...>, LoopNumber, OutputPack> {
using type = OutputPack;
};
template <template <typename...> class P, typename NumRepeats, typename... Tuples> struct TupleTreeWithRepeats;
template <template <typename...> class P, std::size_t I, std::size_t... Is, typename... Tuples>
struct TupleTreeWithRepeats<P, std::index_sequence<I, Is...>, Tuples...> : TupleTreeWithRepeatsHelper<P, std::index_sequence<Is...>, 0, P<P<>>, Tuples...> {};
// Testing
template <typename...> struct Pack;
using T1 = std::tuple<int, char, double>;
using T2 = std::tuple<bool, double, int, char>;
using T3 = std::tuple<double, int>;
int main() {
std::cout << std::is_same<
TupleTreeWithRepeats<Pack, std::index_sequence<1,1,1>, T1, T2, T3>::type,
Pack<
Pack<int, bool, double>, Pack<int, bool, int>, Pack<int, double, double>, Pack<int, double, int>, Pack<int, int, double>, Pack<int, int, int>, Pack<int, char, double>, Pack<int, char, int>,
Pack<char, bool, double>, Pack<char, bool, int>, Pack<char, double, double>, Pack<char, double, int>, Pack<char, int, double>, Pack<char, int, int>, Pack<char, char, double>, Pack<char, char, int>,
Pack<double, bool, double>, Pack<double, bool, int>, Pack<double, double, double>, Pack<double, double, int>, Pack<double, int, double>, Pack<double, int, int>, Pack<double, char, double>, Pack<double, char, int>
>
>::value << '\n'; // ambiguous
}