1

I've read that unordered_map places elements with the same hash in buckets and that's how it handles hash collisions. However, when I checked the insert function, it says:

Each element is inserted only if its key is not equivalent to the key of any other element already in the container

Does that mean that I cannot insert an element with the same hash?.. I'm supposed to be able to insert an element with a new hash since the unordered_map structure can handle collisions, right?.. I think I may be missing something.

  • 1
    2 different keys can result in the same hash, and even 2 different hashes can correspond to the same bucket. – BoBTFish Apr 22 '15 at 8:06
3

It's certainly possible for those statements to be consistent, once you realise that the hash isn't necessarily the key.

A group of distinct keys may generate the same hash value, so be stored in the same bucket, but that still allows for the restriction that duplicate keys are disallowed.

For example, let's say you have a friends collection using first name as the key. The hash function is (a rather simplistic) "use the first letter of the name.

So, while Albert, Andrew, Adam, Bill, Benny and Chloe are six different keys, they only account for three different hash values:

          A                 B            C    (buckets)
   ______/|\_____          / \           |
  /       |      \        /   \          |
Albert  Andrew  Adam    Bill  Benny    Chloe  (keys)
  • 1
    Worth mentioning that 2 different hashes can end up in the same bucket, given than there will (almost certainly) be far more possible hashes than buckets. – BoBTFish Apr 22 '15 at 8:07
  • @BoBTFish, that depends on how you define hash, I guess. If you get a 32-bit "hash" that's further reduced to an 8-bit bucket ID, I'd tend not to call the 32-bit value a hash, rather an intermediate value. The true hash would be the bucket ID. – paxdiablo Apr 22 '15 at 8:11
  • 1
    To me, it's the result_type of the hasher. The "bucket id" must surely be the same type as returned by bucket_count or max_bucket_count, which is size_type. – BoBTFish Apr 22 '15 at 8:19
  • @BoBTFish, I think then this is just a matter of terminology. The whole point of a hash function is to efficiently turn the data into a bucket ID, there's little use for an intermediate "hash" value once you have that bucket ID. It seems like you're saying something like hash = hashFn(data); bucket = hash % 200; whereas I view it more as hashAndBucket = hashFn(data) % 200; (or the hash function itself reducing the intemediate value to a bucket ID). – paxdiablo Apr 22 '15 at 8:23
  • @paxdiablo: use in hash tables is only one application of hash function outputs - they can also be used e.g. as checksums, as keys, as fixed-size statistically-imperfect-but-good irreversable records of recent passwords that are disallowed when setting another etc.. It's also useful to distinguish getting the same hash function outputs from collisions after mapping into buckets, so you know whether a better hash function's needed, or a lower load factor, or for custom non-Standard-library hash table perhaps moving from a power-of-2 bucket count to a prime number.... – Tony Delroy Apr 22 '15 at 10:23

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.