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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>
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;

    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.

share|improve this question
Not all collections have key_types, so I don see how this can be done generically. – juanchopanza Jun 29 '12 at 11:38
@juanchopanza: Sorry, you are right. What I really meant was associative collections. By generic, I really meant "generic enough for my case" :) – Component 10 Jun 29 '12 at 13:12
up vote 2 down vote accepted

You have one C++ language problem here - partial specialization of functions is not allowed. So it cannot be as simple as this:

// Specific case for a map<int,***>
template<typename Value_, typename Comp_, typename Alloc_>
const typename map<int, Value_, Comp_, Alloc_>::key_type getKey< map<int, Value_, Comp_, Alloc_> >( const typename map<int, Value_, Comp_, Alloc_>::const_iterator& it )
    return it->first;

Fortunately partial specialization of classes is allowed - so change to this way:

// work - for let say - sets
template <class Type_>
struct Key { 
   Key(typename Type_::const_iterator it) : value(*it) {}
   typename Type_::key_type value;

// work - for map<***>
template <class Key_, class Value_, class Comp_, class Alloc_>
struct Key<map<Key_, Value_,Comp_,Alloc_> > { 
   typedef map<Key_, Value_,Comp_,Alloc_> Type_;
   Key(typename Type_::const_iterator it) : value(it->first) {}
   typename Type_::key_type value;

template< typename T >
const typename T::key_type getKey( const typename T::const_iterator& it )
    return Key<T>(it).value;

I copied your changed example there:

share|improve this answer

You need to define a Traits that can be externally defined. You also want it to try to extract the key_type if present adn fall to a defautl case if not ( default cases than can later be specialized). This require a snap of SFINAE and template magic :

//// This is a SFINAE context enabler. If T is defined R is returned
template<class T, class R=void> struct enable_if_type
   typedef R type;

//// Default case is undefined as you want to get an error if you try to get a key_type from something that has none
template<class T, class Enable=void> struct key_type_of;

//// If T::key_type is a valid expression, extract it
template<class T>
struct key_type_of< T
                  , typename enable_if_type< typename T::key_type>::type
  typedef typename T::key_type type;

Now any type with a key_type typedef will use it, other will not compile BUT you can use a specialisation of key_type_of to provide it a successful match.


Once this is done, you can actually use it to get the key_type. To extract the key itself in a container independant way, you can make an external key_of function that you can generalize for broad type of collection.

share|improve this answer
Thanks, this is pretty clever but I'm not sure that it's of use to me in my own situation. I already can get the key_type in the two instances that are of interest to me and I am interested in making an approach that replaced the specialised case for map<int,int> with a more general case for map<K,V> – Component 10 Jun 29 '12 at 13:36

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