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According to the documentation it:

Inserts an object, constructed with the arguments args, in the container if and only if there is no element in the container with an equivalent key.

But the only objects which can be inserted into an unordered_map have type std::pair<Key const, Mapped>(because both a key and a value are needed for an object to be inserted), which is known to take a constructor with exactly two arguments. So why does it use the variadic function form? Surely there is something I am totally not understanding about this.

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up vote 8 down vote accepted

See this SO article on emplace_back vs. push_back. Essentially, it allows an object to be constructed from the arguments passed into it without needing to create the object to be passed in first. It saves on overhead by removing a copy construction which normally happens as the result of creating objects to be inserted.

So you can get away with this:

unordered_map<int,int> foo;
foo.emplace(4, 5);

instead of

foo.insert(std::make_pair(4, 5));

Even better, (and if I'm not mistaken), you can go through this route:

struct Bar{
    int x,y;
    Bar(int _x, int _y) : x(_x), y(_y){}

unordered_map<int,Bar> baz;
baz.emplace(4, 5, 6);

And taken from the Wiki on C++0x:

Due to the nature of the wording of rvalue references, and to some modification to the wording for lvalue references (regular references), rvalue references allow developers to provide perfect function forwarding. When combined with variadic templates, this ability allows for function templates that can perfectly forward arguments to another function that takes those particular arguments. This is most useful for forwarding constructor parameters, to create factory functions that will automatically call the correct constructor for those particular arguments.

Which works in the following manner:

template<typename TypeToConstruct> struct SharedPtrAllocator {

    template<typename ...Args> std::shared_ptr<TypeToConstruct> construct_with_shared_ptr(Args&&... params) {
        return std::shared_ptr<TypeToConstruct>(new TypeToConstruct(std::forward<Args>(params)...));

Again, shamelessly stolen from the Wiki article mentioned above.

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The latter example seems strange to me. Suppose we have 2 constructors for Key: Key(int) and Key(int,int) and 2 for Value: Value(int,int) and Value(int), how is the compiler going to disambuiguate in the case of building a Key/Value pair ? – Matthieu M. Jan 29 '11 at 18:35
First come, first served I take? So it creates a X(int,int) first and then a X(int). Will test it later and post back. Might also just not compile and throw an "ambigious" compile time error. – Xeo Jan 29 '11 at 20:10
@Matthieu M. No idea, really. The problem is that the spec is not currently fully formalized and so we can't know for sure how this type of question is supposed to be answered until it is. What we need is a language lawyer to come over and clear up whatever ambiguities my answer has. I'd vote that up in a heartbeat. – wheaties Jan 29 '11 at 22:14

Now that the C++ Standard Library has integrated that part of Boost:

From http://en.cppreference.com

#include <iostream>
#include <utility>
#include <tuple>

#include <unordered_map>

int main(){
    std::unordered_map<std::string, std::string> m;

    // uses pair's piecewise constructor
        std::forward_as_tuple(10, 'c'));

    for (const auto &p : m) {
        std::cout << p.first << " => " << p.second << '\n';

std::piecewise_construct is a constant that leaves no ambiguity about how the arguments will be used

  • The first tuple will be used to construct the key
  • The second to construct the value
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