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This question appeared to me rather out of academic interest than an actual use-case:

The STL associative containers, namely [multi]set and [multi]map, contain overloaded methods like:

// for std::map
void erase ( iterator position );
size_type erase ( const key_type& x );

// for std::set
iterator  erase (const_iterator position);
size_type erase (const value_type& val);

My question: What if key_type, resp. value_type is iterator or const_iterator?

I am aware that it is dangerous and probably useless to store iterators in a container. But how would an actual STL implementation behave? Is the behaviour even defined?

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3  
Storing iterators is not useless. –  Luke B. Jan 8 '13 at 13:19
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@leemes: grmph... no... it came up during lunch... it's probably reasonable to just try it. But that still leaves the question whether whatever behaviour I get is intented or random. –  steffen Jan 8 '13 at 13:20
    
@LukeB. true... but I wanted to point out, that it is not my concern to actually use this construct. –  steffen Jan 8 '13 at 13:21
    
@steffen You can't try it, I just realized that :) So I deleted the comment because it doesn't make any sense. [@all others: I wrote "Did you try it?"] –  leemes Jan 8 '13 at 13:28
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Whereas storing iterators in containers is perfectly reasonable, making a container of iterators to itself is probably a totally different question (if even possible), and only that would be when those function definitions should make problems. –  Christian Rau Jan 8 '13 at 13:30
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3 Answers

up vote 10 down vote accepted

The thing is that the iterator types would be different. It can't ever happen that they are the same. The reason: The following equalities had to hold in this case:

map<K, V>::iterator == K
map<K, V>::const_iterator == K

However, these equalities can't hold (do you see the recursion)? Remember that iterator types depend on the container type, including its template parameters.

So in the following example, the key type and the iterator type are different, as much as you try to make them equal:

map<map<int,int>::iterator, int> i;

Indeed, because of the reason from above, I can't instantiate a map which key equals its iterator type. Thus, the overloaded erase methods look like this:

void erase ( map<map<int,int>::iterator, int>::iterator position );
size_type erase ( const map<int,int>::iterator & x );

So the overload will never be ambiguous. If the types were equal, it'd be ambiguous, see this: http://ideone.com/fMdwru. However, the compiler only complains as long as you are using the method. So, let's say we could introduce ambiguity here, it only bothers us as long as we want to use the method. I mean, we still could instantiate the map type (if it existed).

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the answer is in total harmony with your user name and your avatar!!! –  steffen Jan 8 '13 at 13:26
    
@steffen Oh, you're right, didn't realize that :) –  leemes Jan 8 '13 at 13:38
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There's nothing inherently wrong with storing iterators in a container. Two main issues to be aware of are:

  1. you may need to know which container each iterator refers to;
  2. you have to know which operations on the original container would invalidate which iterators.

My question: What if key_type, resp. value_type is iterator or const_iterator?

If all four types refer to the same container type, the answer is that they can't be the same, by definition.

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There's nothing wrong with doing this, and it's not useless either. :)

Remeber that iterators are basically just generalized pointers. When in doubt, assume that they behave like pointers. You can create containers of pointers, so you can also create containers of iterators.

Of course, you have to keep in mind that if you modify a container, iterators pointing to that container may be invalidated (depending on the operation performed and the type of container), but that just means you have to know that the stored iterators stay valid.

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Still doesn't address the actual question in any way, does it? –  Christian Rau Jan 8 '13 at 13:47
    
@ChristianRau I wouldn't have posted it if I didn't think it did. What exactly do you feel it fails to address? –  jalf Jan 8 '13 at 19:37
    
Well, Ok it answers the general question if storing iterators in containers works, but this is only a by-product of the actual question what happens with those given functions if key/value_type == (const_)iterator and thus the more particular question of creating a map with iterators to itself. –  Christian Rau Jan 8 '13 at 21:42
    
@ChristianRau: perhaps I misread the question then. I just saw it as a question about storing iterators in a container -- and not storing iterators to the container itself (which can't be done) –  jalf Jan 9 '13 at 14:09
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