Even though correct answers have already been posted, I thought I'd add a demo of how you can do this cleanly:

```
template<typename A, typename B>
std::pair<B,A> flip_pair(const std::pair<A,B> &p)
{
return std::pair<B,A>(p.second, p.first);
}
template<typename A, typename B>
std::multimap<B,A> flip_map(const std::map<A,B> &src)
{
std::multimap<B,A> dst;
std::transform(src.begin(), src.end(), std::inserter(dst, dst.begin()),
flip_pair<A,B>);
return dst;
}
int main(void)
{
std::map<int, double> src;
...
std::multimap<double, int> dst = flip_map(src);
// dst is now sorted by what used to be the value in src!
}
```

**Generic Associative Source (requires C++11)**

If you're using an alternate to `std::map`

for the source associative container (such as `std::unordered_map`

), you could code a separate overload, but in the end the action is still the same, so a generalized associative container using variadic templates can be used for *either* mapping construct:

```
// flips an associative container of A,B pairs to B,A pairs
template<typename A, typename B, template<class,class,class...> class M, class... Args>
std::multimap<B,A> flip_map(const M<A,B,Args...> &src)
{
std::multimap<B,A> dst;
std::transform(src.begin(), src.end(),
std::inserter(dst, dst.begin()),
flip_pair<A,B>);
return dst;
}
```

This will work for both `std::map`

and `std::unordered_map`

as the source of the flip.