Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Let's say I have two maps:

typedef int Id;
std::map<Id, std::string> idToStringMap;
std::map<Id, double>      idToDoubleMap;

And let's say I would like to do a set operation on the keys of the two maps. Is there an easier way to do this than to create a custom "inserter" iterator? such that I could do something like:

std::set<Id> resultSet;
set_difference( idToStringMap.begin(), idToStringMap.end(), 
                idToDoubleMap.begin(), idToDoubleMap.end(), resultSet.begin() );

My experimentation results imply that it will be necessary to create a custom inserter and perhaps a custom key comparer to do this, but I want for some insight/shortcut before doing so.

share|improve this question

2 Answers 2

I don't think this is possible using just the stl without a custom iterator. You should create a generic select_1st_iterator. This would wrap any iterator to a pair and return the itr->first when dereferenced.

Note: some extensions to the stl have a select1st functor that takes a pair and returns the first element. But I have not seen an iterator version.

If you are planning to write an iterator I would suggest that you use the boost iterator library. The most likely candidate for the select_1st_iterator is the transfor_iterator

Assuming select_1st_iterator is a function that creates the real select_1st_iterator_t type, it could look like:

NOTE: your code will crash if you don't use an insert_iterator for resultSet

template<class T>
select_1st_iterator_t<T> select_1st_iterator<T>(itr)
    return select_1st_iterator_t<T>(itr);

std::set<Id> resultSet;
    std::inserter(resultSet, resultSet.begin()) );
share|improve this answer
Thanks! the info regarding the boost iterator library and the hint towards transform_iterator saved me from wasted effort. : ) –  Catskul Mar 24 '10 at 1:32
Glad it helped. –  iain Mar 24 '10 at 19:48
up vote 1 down vote accepted

My solution using iain's advice:

template <typename T>
class Select1st 
 : public std::unary_function<T&,typename T::first_type>
         int operator() (T & value) const 
             return value.first;

template <typename T>
class KeyGrabItorAdapter 
 : public boost::transform_iterator< Select1st<typename T::value_type>,
                                                    typename T::iterator >
        KeyGrabItorAdapter( typename T::iterator itor )
            : boost::transform_iterator<Select1st<typename T::value_type>,
                                                       typename T::iterator>
                  ( itor, Select1st<typename T::value_type>() )         


having the preceeding allows the following:

typedef std::map<int, int>    IntToIntMap;
IntToIntMap    intToIntMapA;
IntToIntMap    intToIntMapB;

typedef std::map<int, double> IntToDoubleMap;
IntToDoubleMap intToDoubleMapA;
IntToDoubleMap intToDoubleMapB;

KeyGrabItorAdapter<IntToIntMap>    grabFirstABegin(    intToIntMapA.begin() ) ;
KeyGrabItorAdapter<IntToIntMap>    grabFirstAEnd(      intToIntMapA.end()   ) ;
KeyGrabItorAdapter<IntToDoubleMap> grabFirstBBegin( intToDoubleMapB.begin() ) ;
KeyGrabItorAdapter<IntToDoubleMap> grabFirstBEnd(   intToDoubleMapB.end()   ) ;

std::set<int> intResultSet;

set_difference( grabFirstABegin, grabFirstAEnd,
                grabFirstBBegin, grabFirstBEnd,
                    inserter( intResultSet, intResultSet.begin()),
                        intToIntMapA.key_comp() );
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.