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I have an application which stores values of a certain kind of object (say, of type MyClass) into a number of different Map<String, MyClass> maps.

The application needs to

  • Get the object references from the different maps to a single collection (union)
  • Sort the single collection (to apply order)
  • Calculate the difference between successive collections (for detecting changes)
  • Produce a single hash value from all the objects of each collection

The order of the objects in the (unified) collection is important.

To achieve sorting, the objects (map values) are placed, using addAll(), in an ArrayList and sorted via Collections.sort(). The order is defined in MyClass, which implements the Comparator interface by comparing some string field (say, myField) it encapsulates.

After sorting is completed, a unique signature from all the objects is produced. This signature needs to be the same for objects that have the same value of myField, which is currently done via string concatenation (using toLowerCase() and a StringBuilder) and then hashing the resulting string, which can be several thousand characters long.

Is there any more efficient way of doing (any or all of) the above (copying, sorting, comparing and hashing)?

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How about hashing together the hashes of the strings, rather than concatenating into a giant string and taking the hash of that? – QuantumMechanic May 11 '12 at 1:05
i don't understand the question. what do the maps have to do with anything? is the string in the map based on the hash? why is it a map from string to myclass and not to a list of myclass instances? when you say "This signature needs to be the same for objects that have the same value of myField" what do you mean? that the hash depends only on myField? if it needs to be the same for all of them, why are you combining the hashes? your entire description is a jumbled mess that makes no sense :o( – andrew cooke May 11 '12 at 1:14
Yes, the wording does seem a bit long-winded. Unless I'm missing something, I think they're basically asking "how do you take a hash of some data to guarantee unique hash codes for each piece of data". – Neil Coffey May 11 '12 at 1:19
well sorting seems to be part of the question that no-one is addressing.... – andrew cooke May 11 '12 at 1:22
i still don't see why you need sorting. why don't you put the actual requirements (like differences) in your question rathe rthan your confused ideas about what a solution might be? – andrew cooke May 11 '12 at 1:44

3 Answers 3

up vote 3 down vote accepted

If you need a unique signature, then you (at least conceptually) need to:

  • concatenate the relevant data into a string or buffer;
  • use a strong hash function to take a hash of that data.

I say "conceptually", because you can potentially calculate the hash on the fly without actually copying all of the data into a buffer: that depends on how convenient this is to do for your particular application.

32-bit hash codes as standardly used in Java are generally too weak to give you unique codes.

I would recommend that you at the very least use a 64-bit hash function (I have an example implementation of a 64-bit hash function in one of my articles that may be of help). To give more of a guarantee of uniqueness, a stronger hash function such as MD5 would be more ideal, but just has the slight inconvenience that the resulting hash codes are too wide to store in a primitive. (That's the trade-off you need to make: a 64 strong hash is generally good for guaranteeing uniqueness to all intents and purposes among a few million objects; MD5 gives you a much much stronger guarantee at the expense of wider hash codes.)

P.S. I gave this answer the other day to a similar question which may also be of help.

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For speed purposes, would you rather go for MD5 or SHA? – PNS May 11 '12 at 1:30
For the purposes you mention, I think SHA is overkill and I'd use MD5, which is about twice as fast.… – Neil Coffey May 11 '12 at 1:48
Of course, if you actually need the hashes to be SECURE (i.e. that given a particular hash, the corresponding data cannot be deduced, and there are enough possible combinations to make this intractable by trial and error), then that's a different matter, as MD5 is no longer actually considered secure. (But it's still a strong, relatively fast hash function suitable for the purposes you mention where security isn't strictly speaking required.) – Neil Coffey May 11 '12 at 1:50
Because you want to use hashes as unique identifiers, the higher the quality of the hash, the better. I wouldn't a priori recommend simply multiplying. If you must use a simple method like that, pick a large, prime number (or odd near-prime number) as the multiplier. NEVER NEVER NEVER pick a power of 2 as the multiplier. If you use a simple hash code, then I would test it: run a simulation by generating several million instances of random typical data and checking you don't get collisions. – Neil Coffey May 11 '12 at 10:46
P.S. to generate your millions of instances of random data, use a high-quality random number generator such as SecureRandom (never use java.util.Random for this -- it is low period & quality and will give you false positive collisions). – Neil Coffey May 11 '12 at 10:47

Yes, there is a better way. Simply hash the hashes:

List<String> strings;

int hash = 0;
for (String string : strings)
    hash += hash * 31 + string.hashCode();

This will use virtually no memory, be remarkably fast, and will produce a hash code equal in strength to your StringBuilder approach.

share|improve this answer
Though "equal in strength" is not very strong, of course. If the poster genuinely wants a "unique signature", then something stronger will be needed. – Neil Coffey May 11 '12 at 1:15
32-bit hash codes won't give you that level of guarantee. After just a few thousand hashes, the chances of getting a collision are non-negligible. 32-bit hashes are generally designed to be used in cases where they will not be used as a unique identifier, but simply to 'whittle down the choices' before an actual comparison of the data, as in the Java HashMap implementation. – Neil Coffey May 11 '12 at 4:51
@NeilCoffey Do you have any evidence for your statement that "something stronger will be needed"? Because I think it's a fine solution. Firstly, a "genuinely unique" int hash code is impossible for a string "several thousand characters long". Actually, it's going to be impossible for any string longer than 2 chars (2 x 16 bit char = 32 bits)! – Bohemian May 11 '12 at 9:53
The evidence is simple statistics: with the highest quality 32-bit hash code possible, you will expect a collision after approx 2^16 hashes, (with non-negligible probability a few orders of magnitude below that). With a 64-bit hash code, that figure becomes 2^32, etc... – Neil Coffey May 11 '12 at 10:36
Whilst it's literally impossible for every possible piece of data to have a unique hash code, that's not the point. The point is that you reach a hash code width where, unless you deliberately look for collisions, it becomes so improbable that you'll happen upon a collision by chance from some random set of data that you may as well assume they're unique. But such a hash code width is wider than 32 bits. MD5 (which is 128 bits wide) gives you such a guarantee in pretty much all practical situations. – Neil Coffey May 11 '12 at 10:38

assuming that what you really want is just a combined hash that describes the collection in a unique way (so internal ordering is unimportant) and which depends only on myField, I would suggest:

long hash = 0
for map in maps:
    for key in keys:
        if key in map:
            hash = hash + 64bithash(map[key].myfield)

where the additions are all effectively module 2^64. this will give you a hash for the entire collection that is likely large enough to be unique (64 bits), doesn't depend on ordering (2+3 = 3+2), and doesn't require sorting or storing in additional structures (so will be fast).

warning this assumes that order is unimportant. it may be that your ordering uses something otehr than myfield so that the effective hash depends on both myfield and the information used in ordering. in that case the above will not function equally (but could be made to do so by including the information used for ordering in the has).

share|improve this answer
The order is important, hence the sorting. But obviously your algorithm can be used on the key set of the sorted list. Thanks! – PNS May 11 '12 at 6:38

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