I'm a bit confused about using STL set::find() for a set of my own defined class objects.

My class contains more than two items (3/4/5 etc.), so how can I overload less operator?

I tried for 3 variable, which is as follows and working fine:

return( (a1.i < a2.i) ||
    (!(a1.i > a2.i) && (a1.f < a2.f)) ||
    (!(a1.i > a2.i) && !(a1.f > a2.f) && (a1.c < a2.c)));

where, a1, and a2 are class objects and (i, f and c are class members).

Now I want to generalize this for n members, but my find() does not always work.

I've been looking through STL's detailed documentation, trying to learn how set::find() is implemented, and why it needs less (<) operator overloading.

I referred to sgi and msdn documentation, but I could not find much about implementation details of set::find() there, either.

What am I doing wrong in my set::find() implementation?

  • 1
    Why do you care how std::set::find is implemented? Don't you care more about how you are to use it? – Robᵩ Mar 20 '12 at 15:21
  • The implementation of find isn't specified, but very tight requirements are specified in the standard. For example, In the C++11 standard, see 23.2.4. – juanchopanza Mar 20 '12 at 15:25
  • You can just use a default case of std::set::find and step into the function, whichever compiler you are using. – DumbCoder Mar 20 '12 at 15:26
  • 1
    The way set is implemented is not defined in the standart. So the details of implementation can be a little bit different from compiler to compiler. But the complexity of the find method must be logarithmic. Usually, set is implemented as a red-black tree. – Kirill Lykov Mar 20 '12 at 15:26
  • Also note that the SGI STL is not the same as the C++ standard library. There are differences in some places, so if you are using standard C++ you should be aware of this. – juanchopanza Mar 20 '12 at 15:35

You have to define a strict ordering of your objects. So if your object is made up of n members a_1 .. a_n which all have a strict ordering themselves, what you can do is:

bool operator< (const TYPE &rhs) {
  if (a_1 < rhs.a_1) return true; else if (a_1 > rhs.a_1) return false;
  if (a_2 < rhs.a_2) return true; else if (a_2 > rhs.a_2) return false;
  if (a_n < rhs.a_n) return true;
  return false;

Edit: If either boost or C++11 is an option for you, you should really go with the std::tie/boost::tie method Luc Danton suggests in his answer. It's much cleaner.


You can use a tuple to easily get an lexicographical ordering of your members:

return std::tie(lhs.i, lhs.f, lhs.c) < std::tie(rhs.i, rhs.f, rhs.c);

This requires that every member be of a comparable type, e.g. lhs.i < rhs.i makes sense.

Note that std::tie and std::tuple are only available for C++11, so for C++03 you can use e.g. Boost.Tuple which does provide a boost::tie (boost::tuple uses the same ordering as std::tuple).

As to where this should go, it is customary to put that in an operator< (after all this is what make the use of tie for an easy ordering possible in the first place). Quite often this operator will be a friend, so this would look like:

class foo {
    /* public interface goes here */

    // declaration of non-member friend operator
    // if it doesn't need to be a friend, this declaration isn't needed
    bool operator<(foo const& lhs, foo const& rhs);

    T t;
    U u;
    V v;


bool operator<(foo const& lhs, foo const& rhs)
    // could be boost::tie
    return std::tie(lhs.t, lhs.u, lhs.v) < std::tie(rhs.t, rhs.u, rhs.v);

As you can see it's not fully automatic as the implementation of operator< needs to list every member of foo (or at least those that matter for the ordering), twice. There isn't a better way I'm afraid.

Instead of providing an operator< you can specialize std::less for foo but that's a bit exotic and not the preferred way. If the ordering would still not make sense to be part of the extended interface of foo (e.g. there might be more than one ordering that makes sense without a canonical one), then the preferred way is to write a functor:

struct foo_ordering {
    bool operator()(foo const& lhs, foo const& rhs) const
        /* implementation as before, but access control/friendship
           has to be planned for just like for operator< */

Then you'd use e.g. std::set<foo, foo_ordering>.

Be aware that no matter what form the ordering takes (through either operator<, std::less<foo> or a functor) if it is used with an std::set or any other associative container (and by default e.g. std::set<T> uses std::less<T> which in turn uses operator< by default) it must follow some stringent criteria, i.e. it must be a strict weak ordering. However if all the members that are used for the foo ordering themselves have SW orderings then the resulting lexicographical ordering is also a SW ordering.

  • +1 The nicest solution, but I am racking my brains looking at the expression in OP's operator< and I'm not convinced that it's equivalent to yours :-) – juanchopanza Mar 20 '12 at 15:47
  • @juanchopanza As advertised this provides a lexicographical ordering. Whether the OP needs that or not I can't quite tell either :) – Luc Danton Mar 20 '12 at 15:48

std::set element comparison function should define Strict Weak Ordering relation on elements domain. Using this definition we can say that two elements are equivalent if compare( a, b ) is false and compare( b, a ) is false too. std::find can be implemented using this assumption.
You can find more here: http://www.sgi.com/tech/stl/set.html and http://www.sgi.com/tech/stl/StrictWeakOrdering.html


Your operator < should be capable to compare every object with given one, like that

struct Data
    bool operator < (const Data& right) const
    return( (this.i < right.i) ||
        (!(this.i > right.i) && (this.f < right.f)) ||
        (!(this.i > right.i) && !(this.f > right.f) && (this.c < right.c)));

Also, your compare algorithm looks doubtful, because it doees not consider cases, when

this.i == right.i


this.f == right.f

And you actually should not be interested in std::set implementation. It can change from compiler to compiler and can be modified in future. Your program should make assumptions only about container interface, never implementation.


This is only a partial answer, but a detailed documentation of STL can be found on the website of SGI.

  • 1
    There are actually a fair number of differences between the SGI STL and what's in the standard library. Something like cppreference.com is probably a better idea, or if someone is up to learning standardese they can just use the standard directly: see n3337, linked from this page – bames53 Mar 20 '12 at 15:47
  • Yes, you're right. However, I understood that any STL documentation would do, but I should still have linked to a resource about the standard library itself. – Stefan Marinov Mar 20 '12 at 15:59

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