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I have a Map::const_iterator object in C++ and i am trying to abstract the entire map object from it without explicitly creating a map with Map::const_iterator->first and Map::const_iterator->second.

this doesn't seem to work : (*Map::const_iterator).as_map() please advice.

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closed as not a real question by ybungalobill, Bo Persson, Praetorian, Yuck, John Saunders Aug 24 '11 at 0:15

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

I am almost sure (*Map::const_iterator) should give you a instance of pair<Key,Value>, and pair<,> does not have a as_map() method. –  yms Aug 22 '11 at 15:33
How is Map defined ? –  Sander De Dycker Aug 22 '11 at 15:34
Map is <String,Map>. I want to copy this map from the iterator without having to create a copy of the map. –  user845101 Aug 22 '11 at 15:37
(*Map::const_iterator) also did not seem to work. –  user845101 Aug 22 '11 at 15:37
"Map is <String,Map>" doesn't make sense. What's the exact type ? Which of your types has an as_map member function ? –  Sander De Dycker Aug 22 '11 at 15:41

2 Answers 2

up vote 2 down vote accepted

I'm afraid I understood the question totally wrong. How about using it->second?

 typedef .... mymap_t;
 typedef std::map<std::string, mymap_t> supermap_t;

 supermap_t supermap;

 for (supermap_t::const_iterator it = supermap.begin();
          it != supermap.end();
     const mymap& the_sub_map = it->second;
     call_some_other_function(the_sub_map); // the whole submap

From the question it is hard to make out what you actually need, but I'm going to guess that you are looking for a way to treat an iterator range as a container, without having to copy the container.

Have a look at Boost Range for that.

 typedef map<int, string> mymap_t;

 mymap_t mymap;
 mymap[1] = "One";
 mymap[2] = "Two";
 mymap[3] = "Three";

 mymap_t::const_iterator first(my_map.begin()), 

 boost::sub_range<mymap_t> subrange(first++, last); // contains two items

You could treat subrange as a 'container' class with boost range algorithms.

Does this come close to what you wanted to ask?


It seems you are after this:

 typedef map<int, string> mymap_t;

 void somefunction(mymap_t::const_iterator first, mymap_t::const_iterator last)
     mymap_t subclone(first, last);

     // use subclone -- it is a mymap_t now :)

 mymap_t mymap;
 mymap[1] = "One";
 mymap[2] = "Two";
 mymap[3] = "Three";

 somefunction(mymap.begin(), mymap.end());

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Well somewhat. I want the output to be a map object. So for your code, I need access to the map mymap_t using the mymap_t::const_iterator. Something like: for(mymap_t::const_iterator itr = mymap.begin(); itr != mymap.end(); mymap++) { send_to_some_function(*itr); } where this *itr should be the entire mymap_t object. –  user845101 Aug 22 '11 at 15:45
See also a working demo on codepad.org (slow today...?) and ideone.com –  sehe Aug 22 '11 at 16:02
Mmmm.. I think I might have got the real question this time. Feel free to skim the 'striked' text as well, in case my earlier interpretation of the question was still better :) –  sehe Aug 22 '11 at 16:08

This doesn't make any sense the way you explained it.

A Map::const_iterator is defined within the Map class. It shouldn't be able to exist without the map class as its defined based on the internal implementation of Map.

You can cycle though the map using the const_iterator and .first .second to get the entire contents from the map if you like, but you can't pretend the map isn't there in the first place.

If you are looking to make a function that can take an arbitrary iterator and container and process them then you wouldn't want to use .first and .second because maps are the only STL container that has those members since they work on pairs. You could get around this problem somewhat by making a template specialization detailing what to do with specific types.

So your normal template code would handle any type, but if it were a map, your specialization could handle it and use .first and .second specifically, and only in that case. If you're going down this road though you'll need a specialization for every type of map you use for the algorithm your making - you should probably rethink your design in that case and go down a different road :(

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