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When I want to use STL sets to store custom objects in C++,There are many people says:you should overload < operator,but if I want use find() method, I think it may use == operator to acheive that.Can anyone give me some pointers?

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P.S. Don't call it STL, call it the standard library or std::. The term has some ambiguity. –  Mark Ransom Dec 20 '12 at 4:25

4 Answers 4

up vote 8 down vote accepted

The Standard Library set::find uses equivalence instead of equality to find values. You don't need to provide operator ==, just operator < (or whatever comparison operator you specified for set, std::less being the default).

If you are wondering how your element would be found, then assuming the default ordering find(x) would return the element e for which:

!( x < e || e < x )
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Correct. Because set/map are usually implemented as RBTrees. So operator < is essential for the correct placement of nodes. –  anthony-arnold Dec 20 '12 at 4:05
@anthony-arnold: RBTrees are an implementation detail, and have nothing to do with the fact that ordered sequences work with equivalence and not equality. –  K-ballo Dec 20 '12 at 4:06
Yeah, of course. But one really follows the other. How would you implement a binary search tree without operator < or operator >? I mean, at face value it's not really important, but it can help you see the motivation behind the spec. –  anthony-arnold Dec 20 '12 at 4:11
@anthony-arnold: Yes, one follows the other, but is the other way around. –  K-ballo Dec 20 '12 at 4:12
Just pointing out that with DeMorgan's Laws, your implementation becomes !(x < e || e < x), which might be a bit easier on the eyes. –  chris Dec 20 '12 at 4:17

Since std::sets require something that specifies a strict weak ordering. operator== is insufficient for this task.

You should overload operator< only if it makes sense for the class. If it doesn't, far better would be utilizing the fact that std::set has as a second template parameter Compare. Hence, defining a comparison struct/function and passing this as the 2nd parameter of your set is another, generally preferable option.

The final option is to specialize std::less for your type. For example:

namespace std
    template <>
    struct less<CustomClass>
    { ... };
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Red-black trees are an implementation detail, and behavior is not based in implementation details. Implementation details are based on behavior. –  K-ballo Dec 20 '12 at 4:07
Thus the generally in brackets. Nothing I've said presumes this anyway. However they're implemented, they require strict weak ordering. –  Yuushi Dec 20 '12 at 4:09
Since ordered sequences require a strict weak ordering, they are (generally) implemented as a red-black tree. That would be right, but is not what you are saying –  K-ballo Dec 20 '12 at 4:11
Fair enough, I see your objection. I've reworded it. –  Yuushi Dec 20 '12 at 4:21

Most Standard Library algorithms and containers use operator< (or a comparison function you provide such that it returns true if the lhs element is smaller) for ordering and searching. Algorithms for use with unordered containers will use operator==.

For example, std::lower_bound() will either return the first element matching the search criteria from a sorted container, the largest element still smaller than the search term if the exact term is not found, or an iterator to the end of the container if no element is larger than what you searched for. It does this with operator<, no other operator is required. It takes a number of operations in the order of log(n).

Every other comparison operator (>, >=, <=), with the exception of != and ==, can be derived from operator<.

std::find, however, requires that the type used be Equality Comparable. You can find the reference here: http://en.cppreference.com/w/cpp/algorithm/find

So if you're working with ordered elements, you need operator<. If you are working with unordered elements, you need operator==.

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== can actually be derived from <: return !(a < b || b < a); –  chris Dec 20 '12 at 4:16
@chris, that might be true for simple types, but it's easy to generate cases where that doesn't hold. –  Mark Ransom Dec 20 '12 at 4:23
Correction: not going to be used by the standard library unless you use unordered_set or unordered_map. –  Mark Ransom Dec 20 '12 at 4:24
@MarkRansom, Of course, I should have specified, thanks. –  chris Dec 20 '12 at 4:25
Um, no, that first sentence is too strong. For example, the algorithm std::find uses operator==. –  Pete Becker Dec 20 '12 at 13:23

set, map, multiset and multimap use only the comparison function you give them, which defaults to std::less, which is generally operator<. The unordered version in C++11 have a more complex protocol; they don't need an order comparison (they're unordered) but they need both equality and hash.

This is also true of all of the standard algorithms which involve ordering (sort, nth_element, lower_bound, binary_search, etc.). However, the find algorithm (and other similar algorithms, such as count, search, mismatch, etc., do require an equality function, defaulting to operator==. No standard library algorithm requires both.

Since you specifically asked about the find member function, the answer would be that the set and all member functions will work fine with just order comparison.

Still, it's almost always a good idea to define all comparison operators if you're going to define operator<.

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