3

I'd like to use std::make_pair usable with e.g. std::bind2nd so that I get an unary function object which I could use with e.g. std::transform.

Right now I'm using

template <typename T, typename U>
struct pair_creator : std::binary_function<T, U, std::pair<T, U> >
{
    std::pair<T, U> operator()( T arg1, U arg2 ) const {
        return std::make_pair( arg1, arg2 );
    }
};

// ...

std::transform( start1, end2, start2, std::bind2nd( pair_creator<int, bool>(), true ) );

but I wonder - is there an easier way to make std::make_pair (or potentially any other binary function) usable with the binders except by writing little wrapper classes like pair_creator by hand?

I'd need a C++03 solution (for some obscure reason, stackoverflow always rewrites my tag to when saving the post...).

2
  • 1
    C++0x was the working name for C++11 until it was completed a few months ago. Nov 16, 2011 at 13:14
  • @Mike: Ah, makes sense. I somehow thought the c++0x tag should also match my C++03 question :-) Nov 16, 2011 at 14:06

2 Answers 2

4

You need std::ptr_fun, which turns a plain function pointer into an adaptable binary function object (or a unary function object, if you pass it a one-arg function):

#include <functional>
#include <utility>
#include <vector>
#include <algorithm>
#include <iostream>

int main() {
    std::vector<int> intvec;
    intvec.push_back(0);
    intvec.push_back(1);
    std::vector<std::pair<int,bool> > pairvec(intvec.size());
    std::transform(
        intvec.begin(),
        intvec.end(),
        pairvec.begin(),
        // this is the significant line
        std::bind2nd(std::ptr_fun(std::make_pair<int, bool>), true)
    );
    std::cout << pairvec[1].first << " " << pairvec[1].second << "\n";
}

ptr_fun is declared:

template <class Arg1, class Arg2, class Result>
pointer_to_binary_function<Arg1,Arg2,Result>
ptr_fun(Result (*)(Arg1,Arg2));

And for the unary version:

template <class Arg, class Result>
pointer_to_unary_function<Arg,Result>
ptr_fun(Result (*)(Arg));
3
  • Are you sure that's legit in C++11? There was some issue with specifying explicit template arguments for make_pair (e.g. see here and here and here)...
    – Kerrek SB
    Nov 16, 2011 at 13:29
  • 1
    @Kerrek: questioner asked for a C++03 solution, so no I am not sure :-). I suppose for C++11 you could use a wrapper template <typename T, typename U> std::pair<T,U> backward_compatible_make_pair(T t, U u) return std::make_pair(t,u); }, or something of the sort. I think that should behave like the old C++03 make_pair. Hence it will copy the argument, even in cases where the C++11 make_pair would move it. Nov 16, 2011 at 13:35
  • +1 Ah, perfect. I'll accept this answer soon in case nobody comes up with a nicer discussion of std::ptr_fun, which is apparently exactly what I want. Nov 16, 2011 at 14:09
-1

Use lambda don't need to use bind adaptor.

    std::vector<int> start1 = list_of(1)(2)(3)(4)(5);
    std::vector<int> start2 = list_of(10)(20)(30)(40)(50);
    std::vector<Pair> w_vecofpair; // vector of pair
    w_vofpair.reserve(start1.size()); 
    // create pair using lambda
    std::transform( std::begin(start1), std::end(start1), std::begin(start2), // ranges 
        std::back_inserter(w_vecofpair),  // result 
        [](int a,int b) { return std::make_pair(a,b);}); // pair creator

    for (auto& pairInt : w_vecofpair)
    {
        std::cout << pairInt << "\n"; 
    }

    // bind 2nd arg to some value, say 2
    std::transform( std::begin(start1), std::end(start1), std::begin(start2), 
        std::back_inserter(w_vecofpair), [](int a, int b) { return std::make_pair(a,2);});

    for (auto& second : w_vecofpair | map_values)
    {
        std::cout << "The second value of our bind 2nd is: " << second << "\n";
        assert(second==2);
    }
1
  • Lambda functions are not available in C++03 (requested by the OP) though. Feb 5, 2015 at 8:29

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