I came up with the following code which demonstrates a technique for iterating generically over an STL collection and obtaining the key value regardless of how the key is stored.

The context of this is that I am refactoring two functions which both operate the same functionality on two collections: one is a `set<int>`

and the other is a `map<int, int>`

so in the first case I want to act on `*it`

and in the second on `it->first`

(where `it`

is a const_iterator.)

Importantly, I want to do this as the collections are quite large and I don't want to have to simply create a `set`

from the `map`

just so I can deal with only one specific type.

```
#include <map>
#include <set>
#include <iostream>
using namespace std;
// General case for obtaining from, say, a set.
template< typename T >
const typename T::key_type getKey( const typename T::const_iterator& it )
{
return *it;
}
// Specific case for a map<int,int>
template<>
const map<int, int>::key_type getKey< map<int, int> >( const map<int, int>::const_iterator& it )
{
return it->first;
}
template< typename T >
void dumpOut( T& coll )
{
for ( typename T::const_iterator it = coll.begin(); it != coll.end(); ++it )
{
const typename T::key_type& a = getKey<T>(it);
cout << a << endl;
}
}
int main()
{
set<int> s1;
s1.insert(10);
s1.insert(15);
s1.insert(20);
dumpOut< set<int> >( s1 );
map<int, int> m1;
m1.insert( pair<int, int>(11, -1) );
m1.insert( pair<int, int>(16, -1) );
m1.insert( pair<int, int>(21, -1) );
dumpOut< map<int, int> >( m1 );
return 0;
}
```

My question is: Is it possible to make the specialised case for `map<int,int>`

a little more general since the approach would clearly work for `map`

generally, regardless of what the key and value actually are.

Any pointer (no pun intended) would be useful. Please note that I can't use C++11 solutions although I'm interested in solutions using it from an academic perspective. Thanks.

associativecollections. Bygeneric, I really meant "generic enough for my case" :) – Component 10 Jun 29 '12 at 13:12