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For an STL set (s), it seems like you should be able to say:

if(s.find(x)) {

as opposed to

if(s.find(x) != s.end()) {

Furthermore, if set-iterators could be cast to bool (true if the internal pointer is not null), you would be able to. Why don't STL set iterators have this simple functionality? Was this intentionally left out?


Alternatively, set's could just have a set::contains(x) method which returns a bool directly, but this doesn't seem to be implemented either. I know it's only a couple characters, but in the case where s is a return value from some function, this can be frustrating because of the need to create a temporary variable, ie (supposing m is of type map<int,set<int>>)

const set<int>& s = m[i];
return s.find(x) != s.end();

as opposed to

return m[i].contains(x);


return m[i].find(x);


I didn't realize the count() method could be used as contains(). Voted to close since this question doesn't properly phrase what I really should have asked: Do STL::set's have a "contains" method?

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closed as primarily opinion-based by Benjamin Lindley, dspyz, Andy, torazaburo, Final Contest Dec 15 '13 at 5:18

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

Why should you be able to write s.find(x)? Iterators are positions and there doesn't seem to be a good reason why a position has a Boolean state. –  Dietmar Kühl Dec 14 '13 at 23:49
Semantically, end iterators and null are two different concepts –  bcrist Dec 14 '13 at 23:50
"true if the internal pointer is not null" -- woah there. Who says that a set iterator is equal to end if and only if its "internal pointer is null"? Not that it really affects the main part of your question, but that's an unwarranted assumption about the implementation of set. –  Steve Jessop Dec 14 '13 at 23:52
Use set::count –  Benjamin Lindley Dec 14 '13 at 23:53
"could just have a set::contains(x) method which returns a bool directly, but this doesn't seem to be implemented either". Yes it is, as Benjamin just said. The function is called count, not contains. –  Steve Jessop Dec 14 '13 at 23:58

1 Answer 1

Iterators in the C++ standard library do not know about the container where they came from, and so they cannot in general know whether they've reached the end. This is deliberate, so as to allow iterators to be as light-weight as possible – you don't pay for what you don't use. (Iterators generalize the idea of pointers, and a pointer is an iterator.)

You can always build your own self-aware iterator as a pair of native iterators.

In fact, some people have argued that such a pair, or range is the more natural way to talk about collections, and there are libraries, as well as library adapters, to implement ranges (e.g. Boost.Range).

Update: Iterators are more low-level than ranges, and it is debatable which concept is a better solution (though one would need to define the problem first). Iterators are a bit more flexible; for example, if you mutate a container while iterating over it, you'd have to "update" all range-pairs to receive the new "end" value. (Or otherwise switch to a completely "range-centered" algorithmic style.) Alternatively you could store a reference to the container in the iterator and recompute end() each time it's needed. Already you can see how there are lots of non-trivial details, and the C++ standard library simply decided not to make those choices for you but instead only give you the building blocks to write the solution that fits your own problem best.

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This probably is the answer, no special case was ever proposed. But the question isn't about iterators in general, it's specifically about set::iterator. –  Steve Jessop Dec 14 '13 at 23:56
@SteveJessop: It'd be difficult to maintain range invariants while you mutate containers, so iterators are probably a more general solution. –  Kerrek SB Dec 15 '13 at 0:02
Of course iterators as a whole are more general than set::iterator in particular, I can't disagree with that :-) Since set mutation in particular doesn't invalidate iterators (other than the one removed), I don't really see how mutation would seriously obstruct a set implementation from implementing operator bool() (or something safer) such that end iterators return false and other iterators true. –  Steve Jessop Dec 15 '13 at 17:16

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