2

Update: I see this "problem" on Windows using Visual Studio 2013. I do not see this with the same code on Linux using Clang 3.3 and a very recent version of the llvm standard library. Still, I am not ready to just write this off as Microsoft bug.

I noticed a curious issue with the an unordered_set I am working with. I have a load_factor of 1 and maximum size in the millions, yet the following shows that the maximum_bucket_count is just 8. I tried this with sets of different types.

Can anyone explain this?

This is supposed to be an system or library implementation limit, not an initialization or configuration dependent number. I have seen examples of the code below where the max_bucket_count is the same is the max_count (i.e., millions)

std::unordered_set<int> testSet;
std::cout << "max_size = " << testSet.max_size() << std::endl;
std::cout << "max_bucket_count = " << testSet.max_bucket_count() << std::endl;
std::cout << "max_load_factor = " << testSet.max_load_factor() << std::endl;
0

http://en.cppreference.com/w/cpp/container/unordered_set/bucket_size

bucket_size(bucket index) is the number of elements in the bucket with that index. It is supposed to be small.

bucket_count() is the number of buckets. It's supposed to be approximately size().

This is what happens on my computer (after inserting 1000000 random integers):

size = 999891
bucket_count = 1056323
maximum bucket_size = 9
max_size = 1152921504606846975
max_bucket_count = 1152921504606846975
max_load_factor = 1

After 20000000 random integers:

size = 19953913
bucket_count = 36473443
maximum bucket_size = 9

It can be seen that the bucket count is actually more than the size but still the buckets are small.

| improve this answer | |
  • 1
    The original question is about max_bucket_count. The title was correct but I had to fix a typo in the the question body. Note that your output the max_bucket_count is way above TRILLIONS versus just 8 on my system. From cpprefernce.com: max_bucket_count(): Returns the maximum number of buckets the container is able to hold due to system or library implementation limitations. – Arbalest Apr 21 '14 at 15:39
  • 1
    What is the standard library implementation you are using? – Hristo Venev Apr 21 '14 at 17:06
  • Good question - I will update the question. I see this "problem" on Windows using Visual Studio 2013. I do not see this with the same code on Linux using Clang 3.3 and a very recent version of the llvm standard library. – Arbalest Apr 21 '14 at 18:50
  • The max_size and max_bucket_count values look to me suspiciously like the kinds of numbers you see when you misinterpret a float/double as an integer or something. Definitely suspicious - maybe some functions somewhere in the implementation that are prototyped wrong or something... – twalberg Apr 21 '14 at 19:24

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