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I have a Rectangle class. It has a length, breadth and area (all ints). I want to hash it such that every rectangle with the same length and breadth hashes to the same value. What is a way to do this?

EDIT: I understand its a broad question. Thats why I asked for "a" way to do it. Not the best way.

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closed as too broad by ruakh, Makoto, Dirk, Greg Hewgill, Fluffeh Sep 1 '13 at 9:12

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs. If this question can be reworded to fit the rules in the help center, please edit the question.

How about something like 31*b + l? –  rocketboy Aug 31 '13 at 0:11
Why is this guaranteed to serve the purpose? In other words, whats the guarantee using this formuala, two different rectangles will never hash to the same value? –  Cricketer Aug 31 '13 at 0:12
Also, I understand its a broad question. Thats why I asked for "a" way to do it. Not the best way. –  Cricketer Aug 31 '13 at 0:14
Re: "Why is this guaranteed to serve the purpose? In other words, whats the guarantee using this formuala, two different rectangles will never hash to the same value?": Your question did not ask for such a guarantee; if that's what you want, please correct your question. (Also, I think such a guarantee is impossible in the general case, though it may be possible if you have unmentioned restrictions on the set of legal rectangles.) –  ruakh Aug 31 '13 at 0:45
Do you have any restriction on the length and breadth ? If not, you will run into integer overflow issues if you try to store the area of rectangles with length * breadth > Integer.MAX_INT. –  Jerome Serrano Aug 31 '13 at 1:25

3 Answers 3

A good and simple scheme is to calculate the hash for a pair of integers as follows:

hash = length * CONSTANT + width

Empirically, you will get best results (i.e. the fewest number collisions) if CONSTANT is a prime number. A lot of people1 recommend a value like 31, but the best choice depends on the most likely range of the length and width value. If they are strictly bounded, and small enough, then you could do better than 31.

However, 31 is probably good enough for practical purposes2. A few collisions at this level is unlikely to make a significant performance difference, and even a perfect hashing function does not eliminate collisions at the hash table level ... where you use the modulus of the hash value.

1 - I'm not sure where this number comes from, or whether there are empirical studies to back it up ... in the general case. I suspect it comes from hashing of (ASCII) strings. But 31 is prime ... and it is a Mersenne prime (2^7 - 1) which means it could be computed using a shift and a subtraction if hardware multiple is slow.

2 - I'm excluding cases where you need to worry about someone deliberately creating hash function collisions in an attempt to "break" something.

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You can use the Apache Commons library, which has a HashCodeBuilder class. Assuming you have a Rectangle class with a width and a height, you can add the following method:

public int hashCode(){
  return new HashCodeBuilder().append(width).append(height).append(children).toHashCode();
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What you want (as clarified in your comment on the question) is not possible. There are N possible hashCodes, one for each int, where N is approximately 4.2 billion. Assuming rectangles must have positive dimensions, there are ((N * N) / 4) possible rectangles. How do you propose to make them fit into N hashCodes? When N is > 4, you have more possible rectangles than hashCodes.

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I don't think it's correct to say that "There are ((N * N) / 4) possible rectangles". That would be true (plus or minus a fencepost error) if the class had only length and breadth, but it also has an area of type int, such that N/2 is an upper bound on length * breadth, thereby sharply limiting the number of possible rectangles. (But your main point, that there are more possible rectangles than legal ints, is still correct.) –  ruakh Aug 31 '13 at 0:48
Yah, I forgot to account for area. :-( –  Eric Stein Aug 31 '13 at 1:40
Good point, but for my problem, 4.2 billion (= N) are enough. I don't need N*N/4 rectangles for my specific problem. –  Cricketer Sep 1 '13 at 3:24
@Cricketer Have a static int that starts at -MAXINT, and a local variable hashcode in rectangle. When you construct each rectangle, assign the hashcode the value of the counter and incrememnt the counter by one. Every rectangle will have a unique hashcode until you hit MAXINT. –  Eric Stein Sep 1 '13 at 18:35

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