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What is the purpose of std::make_pair?

Why not just do std::pair<int, char>(0, 'a')?

Is there any difference between the two methods?

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In C++11, you can almost entirely do without make_pair. See my answer. – PlagueHammer Mar 19 '14 at 6:54
up vote 70 down vote accepted

The difference is that with std::pair you need to specify the types of both elements, whereas std::make_pair will create a pair with the type of the elements that are passed to it, without you needing to tell it. That's what I could gather from various docs anyways.

See this example from

pair <int,int> one;
pair <int,int> two;

one = make_pair (10,20);
two = make_pair (10.5,'A'); // ok: implicit conversion from pair<double,char>

Aside from the implicit conversion bonus of it, if you didn't use make_pair you'd have to do

one = pair<int,int>(10,20)

every time you assigned to one, which would be annoying over time...

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Actually, the types should be deduced at compile time without the need to specify. – Chad Feb 14 '12 at 1:51
@Tor Yeah, I know how to use both of them, I was just curious if there was a reason for std::make_pair. Apparently it is just for convenience. – user542687 Feb 14 '12 at 1:56
@Jay It would appear so. – Tor Valamo Feb 14 '12 at 1:58
I think you can do one = {10, 20} nowadays but I don't have a C++11 compiler handy to check it. – MSalters Feb 14 '12 at 8:11
Also note that make_pair works with unnamed types, including structs, unions, lambdas, and other doodads. – Mooing Duck Feb 6 '15 at 22:29

There is no difference between using make_pair and explicitly calling the pair constructor with specified type arguments. std::make_pair is more convenient when the types are verbose because a template method has type deduction based on its given parameters. For example,

std::vector< std::pair< std::vector<int>, std::vector<int> > > vecOfPair;
std::vector<int> emptyV;

// shorter
vecOfPair.push_back(std::make_pair(emptyV, emptyV));

 // longer
vecOfPair.push_back(std::pair< std::vector<int>, std::vector<int> >(emptyV, emptyV));
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It's worth noting that this is a common idiom in C++ template programming. It's known as the Object Generator idiom, you can find more information and a nice example here.

Edit As someone suggested in the comments (since removed) the following is a slightly modified extract from the link in case it breaks.

An Object Generator allows creation of objects without explicitly specifying their types. It is based on a useful property of function templates which class templates don't have: The type parameters of a function template are deduced automatically from its actual parameters. std::make_pair is a simple example that returns an instance of the std::pair template depending on the actual parameters of the std::make_pair function.

template <class T, class U>
std::pair <T, U> 
make_pair(T t, U u)
  return std::pair <T, U> (t,u);
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I think your code is missing references & – Mooing Duck Feb 6 '15 at 22:31

As @MSalters replied above, you can now use curly braces to do this in C++11 (just verified this with a C++11 compiler):

pair<int, int> p = {1, 2};
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make_pair creates an extra copy over the direct constructor. I always typedef my pairs to provide simple syntax.
This shows the difference (example by Rampal Chaudhary):

class Sample
    static int _noOfObjects;

    int _objectNo;
    Sample() :
        _objectNo( _noOfObjects++ )
        std::cout<<"Inside default constructor of object "<<_objectNo<<std::endl;

    Sample( const Sample& sample) :
    _objectNo( _noOfObjects++ )
        std::cout<<"Inside copy constructor of object "<<_objectNo<<std::endl;

        std::cout<<"Destroying object "<<_objectNo<<std::endl;
int Sample::_noOfObjects = 0;

int main(int argc, char* argv[])
    Sample sample;
    std::map<int,Sample> map;

    map.insert( std::make_pair( 1, sample) );
    //map.insert( std::pair<int,Sample>( 1, sample) );
    return 0;
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I am pretty sure that the extra copy will be elided in all cases, if the optimization settings of the compiler are high enough. – Björn Pollex Feb 19 '14 at 13:00

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