Sometimes it is useful to be able iterate over all the elements of a std::map using standard algorithms like std::copy(), std::count(), std::min_element(), std::max_element(). These standard functions do not work out of the box using std::map::iterator. For example, if you want to print all the elements of a map to standard output, you can't use the following popular copy-ostream_iterator idiom.
std::map <std::string, int> m;
std::copy (m.begin(), m.end(), std::ostream_iterator<int>(std::cout, "\n"));
// does not compile
This is because value_type of the map::iterator is a pair. In other words, if iter is a map<T,U>::iterator then *iter gives pair<T,U> and not U. If we could somehow get hold of pair::second (i.e. type U) instead of pair<T,U> all the above mentioned algorithms can be used out of the box.
The approach I took to solve this problem is to write an iterator adaptor that behaves likes any general bidirectional_iterator. In general, this approach allows map iterators to be used wherever Iterator-Pair idiom is useful. The code given below is kind of long but quite straight forward and idiomatic in nature.
#include <map>
#include <iostream>
#include <algorithm>
#include <string>
#include <list>
#include <iterator>
template <class BiDirIter>
class StdMapIteratorAdaptor
/* To make the custom iterator behave like a standard iterator by exposing
required iterator_traits */
: public
std::iterator <std::bidirectional_iterator_tag,
typename BiDirIter::value_type::second_type>
{
BiDirIter iter_;
public:
explicit StdMapIteratorAdaptor(BiDirIter const & iter = BiDirIter())
: iter_(iter) {}
bool operator == (StdMapIteratorAdaptor const & rhs) const {
return (iter_ == rhs.iter_);
}
bool operator != (StdMapIteratorAdaptor const & rhs) const {
return !(*this == rhs);
}
/* Return type is const to make it work with map::const_iterator */
typename BiDirIter::value_type::second_type const & operator * () {
return iter_->second;
}
typename BiDirIter::value_type::second_type const & operator * () const {
return iter_->second;
}
typename BiDirIter::value_type::second_type const * operator -> () const {
return &(iter_->second);
}
// Pre-increment
StdMapIteratorAdaptor & operator ++ () {
++iter_;
return *this;
}
// Post-increment
const StdMapIteratorAdaptor operator ++ (int) {
StdMapIteratorAdaptor temp (iter_);
++iter_;
return temp;
}
// Pre-decrement
StdMapIteratorAdaptor & operator -- () {
--iter_;
return *this;
}
// Post-decrement
const StdMapIteratorAdaptor operator -- (int) {
StdMapIteratorAdaptor temp (iter_);
--iter_;
return temp;
}
};
/* An helper function to save some typing of tedious nested C++ types
It is very similar to std::make_pair function */
template <class BiDirIter>
StdMapIteratorAdaptor <BiDirIter>
make_map_iterator_adaptor (BiDirIter const & iter)
{
return StdMapIteratorAdaptor<BiDirIter> (iter);
}
int main(void)
{
typedef std::map <std::string, int> StrIntMap;
StrIntMap months;
months["january"] = 31;
months["february"] = 28;
months["march"] = 31;
months["april"] = 30;
months["may"] = 31;
months["june"] = 30;
months["july"] = 31;
months["august"] = 31;
months["september"] = 30;
months["october"] = 31;
months["november"] = 30;
months["december"] = 31;
StrIntMap const & m = months;
StdMapIteratorAdaptor <StrIntMap::const_iterator> begin (m.begin());
StdMapIteratorAdaptor <StrIntMap::const_iterator> end (m.end());
std::copy(begin, end, std::ostream_iterator <int> (std::cout, " "));
std::cout << std::endl;
std::list<int> l(make_map_iterator_adaptor(m.begin()),
make_map_iterator_adaptor(m.end()));
std::copy (l.begin(), l.end(), std::ostream_iterator <int> (std::cout, " "));
std::cout << std::endl;
std::copy (make_map_iterator_adaptor(months.begin()),
make_map_iterator_adaptor(months.end()),
std::ostream_iterator <int> (std::cout, " "));
return 0;
}
Wednesday, 28 November 2007
Subscribe to:
Post Comments (Atom)
0 comments:
Post a Comment