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I've written a custom hashing for my custom key in stdext::hash_map and would like to check whether the hasher is good. I'm using STL supplied with VS 2008. A typical check, as I know, is to check the uniformity of distribution among buckets.

How should I organize such a check correctly? A solution that comes to my mind is to modify STL sources to add a method to hash_map that walks through buckets and does the subject. Is there are any better ways?

Maybe, derive from hash_map and create there such method?

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2 Answers 2

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I'd run one (large) dataset through stl::hash_map. Once done, I'd collect the results for all buckets using the following method

From hash_map:

size_type elems_in_bucket (size_type __n) const;

Finally, I would do compute the standard deviation (SD) of the elem-to-bucket distribution.

I'd do the above for different hash functions. Whichever hash function results in minimum SD is the winner (for this dataset).

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Yes, that would be perfect, but I don't have this members out of the box. SHould I define _HAS_TRADITIONAL_STL? Which side effects would it cause? –  flashnik Mar 3 '10 at 23:36
I've found :) In my compiler's STL (MS VS 2008) this method is called bucket_size. Great thanks! –  flashnik Mar 3 '10 at 23:58
@flashnik: You are welcome. Feel free to comment back if you have any follow-up question. –  Arun Mar 4 '10 at 0:07

Your best bet might be to just take your hashing algorithm to an array of ints and count the number of times that each hash bucket is hit, given real-world data. (I'm suggesting taking the STL out of the equation here, really.)

If you end up seeing high deviation in your counts with large sets of real-world data, your hashing algorithm is generating lots of collisions when there are plenty of empty (or emptier) buckets available.

Note that 'high deviation' is a relative term. A good hash algorithm is a deterministic random process and any random process has a chance of generating strange results, so test often, test well, and wherever possible, use your actual problem domain as a source of your tests and your controls.

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Yes, that's what I'm going to do. But AFAIK I can't access buckets (and amount of items in them) outside of hash_map. Now I see two ways: modify STL sources or derive own class from hash_map with an appropriate method. I'd prefer the second solution. Are there any other ways? –  flashnik Mar 3 '10 at 23:28
...which is why user30997 says in the firts paragraph to take STL out of the picture and just run your hash method over real data and incrementing counters. –  vladr Mar 3 '10 at 23:30
Well, I'm afraid different STL realisations can work with hash results differently. For example, using this->comp(_Keyval) & _Mask to determine a busket works correctly iff _Mask is 2^N -1. And _Mask is determined by hasher functor (it is a multiplication of min_buckets supplied by hasher). In any other cases it is not equivalent to taking a reminder this->comp(_Keyval) % _Mask. –  flashnik Mar 3 '10 at 23:42

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