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My question is not about double hashing technique http://en.wikipedia.org/wiki/Double_hashing , which is a way to resolve collisions. It is about handling existing collisions in hash table of strings. Say, we have a collision: several strings in the same bucket, so now we must go through the bucket checking the strings. It seems it would make sense to calculate another hash function for fast string comparison (compare hash values for quick rejection). The hash key could be lazily computed and saved with the string. Did you use such technique? Could you provide a reference? If not, do you think it's not worth doing since perfomance gain is questionable? Some notes:

  1. I put tag "Java" since I did measurements in Java: String.hashCode() in most cases outperforms String.equals() (and BTW greatly outperforms manual hash code calculation: hashCode = 31 * hashCode + strInTable.charAt(i));
  2. Of course, the same could be asked about any string comparison, not necessarily strings in a hash table. But I am considering a specific situation with huge amount of strings which are kept in hash table.
  3. This probably makes sense if the strings in the bucket are somewhat similar (like in Rabin-Karp algorithm). Looking for your opinion in general situation.
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this looks highly context dependant. I would do realist test cases and compare performance metrics. –  Julius Dec 3 '13 at 3:34
    
@Julius Agreed. Just wanted to check with SO first. Maybe my question does not make sense: if hashcode check was always faster, then String.equals() would be implemented using it. Though large data can make a difference. –  TT_ Dec 3 '13 at 3:45
    
See also stackoverflow.com/questions/4846468/… –  TT_ Dec 19 '13 at 22:16

1 Answer 1

Comparing a hash only makes sense if the number of comparisons (lookups) is large compared to the number of entries. You would need a large hash (32 bits are not enough; you'd want at least 128 bits), and that would be expensive to calculate. You would want to amortize the cost of hashing each string over a large number of probes into the buckets.

As to whether it's worth it or not, it's highly context dependent. The only way to find out is to actually do it with your data and compare the performance of both methods.

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