23

I have an std::unordered_map that I will be removing elements from via iteration.

auto itr = myMap.begin();
while (itr != myMap.end()) {
    if (/* removal condition */) {
        itr = myMap.erase(itr);
    } else {
        ++itr;
    }
}

I would like to prevent the map for performing any expensive operations until I'm done removing all of the elements that I need to remove. Do I have a valid concern? Am I misunderstanding how the internal storage works?

3 Answers 3

11

The unordered containers are forbidden from rehashing during an erase:

[unord.req]/p14:

The erase members shall invalidate only iterators and references to the erased elements, and preserve the relative order of the elements that are not erased.

[unord.req]/p9:

Rehashing invalidates iterators, changes ordering between elements, and ...

Your code is fine as is.

3
  • I know we're looking at this question 4 years later, but I'm really glad to see this answer enter the mix. Looking at the documentation again, it's pretty clear that the worst-cast complexity comes not from potential rehashing, but instead from hash collisions. I think this is officially the correct answer.
    – vmrob
    Commented Dec 13, 2016 at 20:55
  • so table can only grow.? Commented Mar 18, 2017 at 17:35
  • The number of buckets in an unordered container will never shrink under erase. The number is allowed to shrink under rehash, and all implementations will do so. Commented Mar 18, 2017 at 18:04
3

As far as I can tell, std::unordered_map is allowed to rehash on erase(itr):

C++11 Table 103 -- Unordered associative container requirements

a.erase(q)

Erases the element pointed to by q. Return value is the iterator immediately following q prior to the erasure.

Average case O(1), worst case O(a.size())

It would therefore seem that you do have a valid concern. As to addressing it, I can suggest several avenues:

  1. Make sure it's an actual problem rather than a hypothetical one. Profile the application, look at the source code for your C++ library, etc.
  2. If it is an actual problem, consider using a different container or a different algorithm.
  3. Consider simply marking the elements for deletion through a boolean flag associated with each element, and sweeping the deleted elements from time to time, thereby amortizing the costs.
  4. Consider experimenting with the load factor, as suggested by @amit in the comments. Even though the container would still be allowed to take O(a.size()) time to erase elements, a different load factor might have an effect on the real-world performance of your application.
8
  • Though informative and related - it does not answer the question: How do I prevent rehashing of an std::unordered_map while removing elements?
    – amit
    Commented Dec 5, 2012 at 19:27
  • @amit: If you read between the lines, it does (the answer to that exact question is that you can't :))
    – NPE
    Commented Dec 5, 2012 at 19:28
  • 1
    @amit: Well, the worst case is stated as O(a.size()). It is not predicated on anything else, including load factors.
    – NPE
    Commented Dec 5, 2012 at 19:35
  • 2
    @NPE: the worst case is based on really bad hash values, not on rehashing. All unordered_* operations are subject to the possibility that all the objects in the container at the moment happen to have the same hash value. I'm almost certain that .erase is currently forbidden from rehashing.
    – rici
    Commented Dec 9, 2012 at 4:27
  • 1
    This answer is incorrect. I've added a correct answer. Commented Nov 30, 2016 at 16:04
2

I am not sure it will work, I do not find a confirmation for it in the documentation - but if the unordered_map is rehashing according to the classic hash table data structure, you could set the max_load_factor to a very high value and reset it back to normal when you are done (which will trigger a rehash) (or to predicted value if you can predict how many elements will be removed).

In terms of classic hash table, it should work since rehash when decreasing the table occures when the size is lower then 1/max_load_factor.

(not sure it is the case in C++, but I assume it worthes the try, since it is really easy to implement).

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