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I have a data structure of key value pairs and I want to implement "GROUP BY" value. Both keys and values are strings.

So what I did was I gave every value(string) a unique "prime number". Then for every key I stored the multiplication of all the prime numbers associated with different values that a particular key has. So if key "Anirudh" has values "x","y","z", then I store the number M(Key) = 2*3*5 = 30 as well. Later if I want to do group by a particular value "x"(say) then I just iterate over all the keys, and divide the M(key) by the prime number associated with "x". I then check if the remainder is 0 and if it is zero, then that particular "key" is a part of group by for value "x".

I know that this is the most weird way to do it. Some people sort the key value pairs(sorted by values). I could have also created another table(hash table) already grouped by "values". So I want to know a better method than mine (there must be many). In my method as the number of unique values for a particular key increases the product of prime number also increases (that too exponentially).

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Is this an SQL question? You have "a data structure of key/value pairs". Is that a database table? What kind of output do you want? Is it different from SQL GROUP BY? –  Thilo Apr 2 '12 at 4:42
Its not a database table actually. I am considering it to be a logical data-structure. Yeah! its same as "SQL GROUP BY". So I am looking for a solution independent of what SQL offers, a GROUP BY algorithm more specifically. –  Durin Apr 2 '12 at 4:48

2 Answers 2

up vote 1 down vote accepted

Your method will always perform O(n) to find group members because you have to iterate through all elements of the collection to find elements belonging to the target group. Your method also risks overflowing common integer bounds (32, 64 bit) if you have many elements since you are multiplying potentially a large number of prime numbers together to form your key.

You will find it more efficient and certainly more predictable to use a bit mask to track group membership following this approach. If you have 16 groups, you can represent that with a 16-bit short using a bit mask. Using primes as you suggest, you would need an integer with enough bits to hold the number 32589158477190044730 (first 16 primes multiplied together), which would require 65 bits.

Other approaches to grouping also are O(n) for the first iteration (after all, each element must be tested at least once for group membership). However, if you tend to repeat the same group checks, the other methods you refer to (e.g. keeping a list or hash table per target group) is much more efficient because subsequent group membership tests are O(1).

So to directly answer your question:

  • If there are multiple queries for group membership (repeating some groups), any solution that stores the groups (including the ones you suggest in your question) will perform better than your method.
  • If there are no repeat queries for group membership, there is no advantage to storing group membership

Given that repeat queries seem likely based on your question:

  • Use a structure such as a list keyed off of a group ID to store group membership if you want to trade memory to get more speed.
  • Use a suitably wide bit array to store group membership if you want to trade speed to use less memory.
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Thanks for your suggestions Eric, after going through my use case I found that "Using a structure such as a list keyed off of a group ID to store group membership" fits properly. Marking your answer as the right one. –  Durin Apr 2 '12 at 9:39

If have no real idea what is being asked here, but this sounds similar (but much more computationally expensive) than a bit vector or a sum of powers of 2. First value is "1", second is "2", third is "4" and so on. If you got "7", you know it is "first" + "second" + "third".

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So as per your solution I will save "2^0 + 2^1 + 2^2" considering every value is given a number "2^something". And then to know if a particular value has mapping against a particular key, I will do SUM(key) - 2^something(for that value). Then I have to check if the subtraction result exists as a power of 2. If yes then the mapping for "key,value" exists else if does not. But its computationally expensive as you said earlier. anyway, Thanks for the solution. –  Durin Apr 2 '12 at 5:04
You just have to use a bit mask along with a bitwise AND to test. If you want to find things that are in groups 1 and 3, your binary mask is 00000101, which is 0x7. The test would be if (key & 0x7 == 0x7) { /* belongs to both groups */ } –  Eric J. Apr 2 '12 at 5:12
that is even a better solution, thanks @EricJ. –  Durin Apr 2 '12 at 5:17

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