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How do I transform this type:

std::tuple<T0, T1, ..., TN1, TN>

into this:

  std::function<T2(T0, T1)>,
  std::function<TN(T0, ..., TN1 )>
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creating a “square” tuple turned out to be trivial, but I guess this one does involve counting, especially since I want the first n elements, so just using a <Head, Tail...> construct won't suffice… –  pascal Feb 3 '12 at 17:07

1 Answer 1

up vote 4 down vote accepted

Right ... isn't suffice, but you could always use pattern matching (i.e. partial specialization) with recursion:

#include <tuple>
#include <functional>
#include <cstdlib>

// A type to store list of integers 
template <size_t... ns>
struct integers
    template <size_t n>
    using push_back = integers<ns..., n>;

// This generates 'integers<0, 1, 2, ..., n-1>'
template <size_t n>
struct iota
    typedef typename iota<n-1>::type::template push_back<n-1> type;
template <>
struct iota<0>
    typedef integers<> type;

// Put a type to the front of the argument list
template <typename T, typename U>
struct push_front;
template <typename T, typename R, typename... A>
struct push_front<R(A...), T>
    typedef R type(T, A...);

// This converts 'std::tuple<T0, T1, ..., TN>' to the function type
// 'TK(T0, T1, ..., TK-1)' where K is the first parameter
template <size_t, typename...>
struct slice;
template <size_t end, typename First, typename... Rest>
struct slice<end, First, Rest...>
    typedef typename push_front<typename slice<end-1, Rest...>::type, First>::type type;
template <typename First, typename... Rest>
struct slice<0, First, Rest...>
    typedef First type();

// This calls 'slice' on T... for all integers in the list.
template <typename T, typename U>
struct triangularize_impl;
template <typename... T, size_t... n>
struct triangularize_impl<std::tuple<T...>, integers<n...>>
    typedef std::tuple<std::function<typename slice<n, T...>::type>...> type;

// This is a wrapper of 'triangularize_impl'.
template <typename T>
struct triangularize;
template <typename... T>
struct triangularize<std::tuple<T...>>
    typedef typename triangularize_impl<std::tuple<T...>, typename iota<sizeof...(T)>::type>::type type;

As a demo, in g++ 4.7 when we write

triangularize<std::tuple<int, float, double, char>>::type d = 0;

the error message shows

error: conversion from ‘int’ to non-scalar type
      ‘triangularize<std::tuple<int, float, double, char> >::type {aka
                  std::function<double(int, float)>,
                  std::function<char(int, float, double)> >}’

Showing the code is correct.

share|improve this answer
in g++ 4.6.1 I get “error: expected unqualified-id before using” at integers::push_back because it's too old, but it works with template<typename U, size_t n> struct integers_push_back; template<size_t n, size_t... ns> struct integers_push_back<integers<ns...>, n> { typedef integers<ns..., n> type; }; and integers_push_back< typename iota<n - 1>::type, n - 1 >::type; instead of iota<n - 1>::type::template push_back<n-1>. –  pascal Feb 3 '12 at 23:48
@pascal yes g++-4.6 does not support alias templates. –  KennyTM Feb 4 '12 at 3:18

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