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I'm trying to build a std::set with a custom ordering to store "tasks" inside, and I'm wondering wether or not it'll be possible to get what I need with a plain std container.

The set is like:

std::set<Task*, CompareTasks> taskList;

And class Task has a public double priority member.

What I need:

  • EDIT: each task Task * must be unique within the taskList
  • the tasks must be sorted in decreasing priority.
  • if task2 happens to share the same priority with task1 already in the list, then "first come first served": task2 must be inserted after task1.

I tried with the functor:

class CompareTasks
    bool operator()(Task* const& a, Task* const& b)
        return a->priority < b->priority;

But tasks I then insert, that have an already recorded priority, are just.. not inserted at all. And I thus suspect that the keys of taskList are the priorities themselves and not the pointer values Task* as written in std::set<Task*, CompareTasks>. How can I check whether it's the case?

More dramatically: Since the ordering must be weak in creating comparison functors for std containers, is there any way I'll be able to achieve this with only std::set?

share|improve this question
up vote 4 down vote accepted

The definition of equivalence for std::set when you supply a comparer is !comp(a,b) && !comp(b,a). With your comparison function, you won't be able to insert two Task *s with the same priority, because they are equivalent by that definition.

What you want is std::multiset - in particular, C++11 std::multiset, because its insert() has this guarantee not included in C++03 (ref; this is required by §23.2.4 [associative.reqmts], Table 102 of the standard):

If the container has elements with equivalent key, inserts at the upper bound of that range.

This means that the newly inserted element will always be after the equivalent elements that are already in the container.

Note that the standard ordered associative containers sort in non-descending order, so you'll need to change your functor if you want tasks sorted by decreasing priority.

share|improve this answer
Ok great, this is a nice garantee from C++11, I'll try with a multiset. Thank you! ^ ^ I'm just wondering now about the very keys of this std::set<Task*, CompareTasks>: they should be pointers to tasks and not priorities, right? Then two different Task with the same priority should have two different Task * addresses and thus not be considered as "replicated".. What's wrong with this reasoning? – Iago-lito Jun 15 '14 at 7:46
Okay I think it's getting clearer: they do have different keys but they are considered as "equivalent" anyway because of this comparer I have supplied.. tricky trick :P – Iago-lito Jun 15 '14 at 7:54
Okay, it does work now with a multiset, but I feel like I've lost something during the battle: How do I make sure now that the same Task * is not inserted twice in the std::multiset<Task*, CompareTasks> taskList? Do I have to handle this myself? That was the whole point of using a simple std::set in the first place.. :\ – Iago-lito Jun 15 '14 at 9:03
@Iago-lito if you use multiset then you'd have to track duplicate pointers yourself (can be as easy as maintaining a std::set<Task *> with no custom comparer alongside it). The problem with using set is that you'd need to get your comparer to somehow be aware of the time-of-insertion, which is tricky. – T.C. Jun 15 '14 at 15:17
Very true. I actually was realizing that tracking duplicate pointers wasn't that difficult at all with multiset (I just had to add a bool sent member to my class Task that is checked each time and turns to true if the task has been sent to the list, false when removed). So it finally works.. perfectly! Thank you again T.C. :) – Iago-lito Jun 18 '14 at 9:16

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