I think you can solve the problem by using two `std::map`

. One for smaller half of items (mapL) and second for the other half (mapU). When you have insert operation. It will be either case:

- add item to mapU and move smallest element to mapL
- add item to mapL and move greatest element to mapU

In case the maps have different size and you insert element to the one with smaller number of
elements you skip the move section.
The basic idea is that you keep your maps balanced so the maximum size difference is 1 element.
As far as I know STL all operations should work in O(ln(n)) time. Accessing smallest and greatest element in map can be done by using iterator.
When you have n_th position query just check map sizes and return greatest element in mapL or smallest element in mapR.

The above usage scenario is for inserting only but you can extend it to deleting items as well but you have to keep track of which map holds item or try to delete from both.

Here is my code with sample usage:

```
#include <iostream>
#include <string>
#include <map>
using namespace std;
typedef pair<int,string> pis;
typedef map<int,string>::iterator itis;
map<int,string>Left;
map<int,string>Right;
itis get_last(map<int,string> &m){
return (--m.end());
}
int add_element(int key, string val){
if (Left.empty()){
Left.insert(make_pair(key,val));
return 1;
}
pis maxl = *get_last(Left);
if (key <= maxl.first){
Left.insert(make_pair(key,val));
if (Left.size() > Right.size() + 1){
itis to_rem = get_last(Left);
pis cpy = *to_rem;
Left.erase(to_rem);
Right.insert(cpy);
}
return 1;
} else {
Right.insert(make_pair(key,val));
if (Right.size() > Left.size()){
itis to_rem = Right.begin();
pis cpy = *to_rem;
Right.erase(to_rem);
Left.insert(*to_rem);
}
return 2;
}
}
pis get_mid(){
int size = Left.size() + Right.size();
if (Left.size() >= size / 2){
return *(get_last(Left));
}
return *(Right.begin());
}
int main(){
Left.clear();
Right.clear();
int key;
string val;
while (!cin.eof()){
cin >> key >> val;
add_element(key,val);
pis mid = get_mid();
cout << "mid " << mid.first << " " << mid.second << endl;
}
}
```

small numberthen just use`std::advance( m.begin(), m.size()/2 )`

. The cost of iterating over the map in order is linear, so that will take`O(N)`

operations. With each operation being relatively cheap. – David Rodríguez - dribeas Aug 10 '10 at 7:39