The 3rd item describes what you are searching for in such a way that you can call
compare_function(*iter, value )
compare_function( value, *iter )
iter is a valid iterator within your collection. This should return
true in the first case if
*iter must appear before
value in your list for it to remain sorted, and in the second case vice versa.
Note, therefore, that you can actually pass in a
string as the 3rd parameter if your
compare_function supports both these overloads. The prototype is:
template <class ForwardIterator, class T, class Compare>
bool binary_search ( ForwardIterator first, ForwardIterator last,
const T& value, Compare comp );
and it is not necessary that the T is the value type of the iterator.
Incidentally whilst you can use it for a
std::list, it is extremely inefficient for iterators that are not random-access as each
std::advance statement is
O(N) thus the whole operation is
O(N log N). Even a regular
std::find would be faster.
multiset if you can have duplicates or
set if you do not allow duplicates.
binary_search itself returns
true/false as to whether the item exists and doesn't find you the item (so you won't know their country). If you have duplicates you can use
std::equal_range to get a list of all such values. If you do not you can use
std::lower_bound which will get you an iterator to the first item with a name equal to or greater than yours, then check if it is equal, rather than greater.