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What are some simple ways to hash a 32-bit integer (e.g. IP address, e.g. Unix time_t, etc.) down to a 16-bit integer?

E.g. hash_32b_to_16b(0x12345678) might return 0xABCD.

Let's start with this as a horrible but functional example solution:

function hash_32b_to_16b(val32b) {
    return val32b % 0xffff;
}

Question is specifically about JavaScript, but feel free to add any language-neutral solutions, preferably without using library functions.

The context for this question is generating unique IDs (e.g. a 64-bit ID might be composed of several 16-bit hashes of various 32-bit values). Avoiding collisions is important.

Simple = good. Wacky+obfuscated = amusing.

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1  
XOR the high 2 bytes with the low 2 bytes? 0x1234 XOR 0x5678. But you can't tag the question with 'cryptography' and ask for something like this... –  Remus Rusanu Jun 17 '10 at 0:35
    
@Remus: Why can't I tag it 'cryptography'? Isn't this a distilled & extremely simple crypto-related question? P.S. Why not post your comment as an answer? –  dkamins Jun 17 '10 at 0:39
1  
In the same fashion as the previous comment, because there's no way to represent the same amount of uniqueness in a 32bit number with a 16bit number, you may as well just take the one half of the digits. e.g. 0x1234 or 0x5678. In this way, at least the loss of uniqueness is hopefully really obvious to future maintainers of the code. –  lzcd Jun 17 '10 at 0:45
1  
Cryptographic is one possible kind of "good" for hashes. It implies a certain amount of divorce between the plaintext and the hash. The first comment here doesn't have that quality (cryptographic), but is still a good hash for many uses. –  Slartibartfast Jun 17 '10 at 1:18
16  
The following page has several implementations of general purpose hash functions that are efficient and exhibit minimal collisions: partow.net/programming/hashfunctions/index.html –  Matthieu N. Oct 31 '10 at 23:12
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5 Answers

up vote 2 down vote accepted

This depends on the nature of the integers. If they can contain some bit-masks, or can differ by powers of two, then simple XORs will have high probability of collisions. You can try something like (i>>16) ^ ((i&0xffff) * p) with p being a prime number.

Security-hashes like MD5 are all good, but they are obviously an overkill here. Anything more complex than CRC16 is overkill.

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This is an interesting point and apparently relevant to hashing IP addresses, yes? –  dkamins Jun 17 '10 at 1:43
    
Yes. For time values i&0xffff should usually be enough. (hoping that there is no sleep(65536); anywhere :)) –  Rotsor Jun 17 '10 at 2:07
    
Will any fixed prime number suffice? Why does this work? –  dkamins Jun 17 '10 at 8:59
1  
There is no way to tell what will "suffice" unless you know exactly what input data you will have. The worst-case number of collisions will still be the same. Multiplication by a prime number just makes it harder to find a real-life situation which will produce collisions systematically. (how often is your delta-time a multiple of 1009?) Why primes are better at this is a long discussion –  Rotsor Jun 17 '10 at 9:22
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I think this is the best you're going to get. You could compress the code to a single line but the var's are there for now as documentation:

function hash_32b_to_16b(val32b) {
    var rightBits = val32b & 0xffff; // Left-most 16 bits
    var leftBits = val32b & 0xffff0000; // Right-most 16 bits

    leftBits = leftBits >>> 16; // Shift the left-most 16 bits to a 16-bit value

    return rightBits ^ leftBits; // XOR the left-most and right-most bits
}

Given the parameters of the problem, the best solution would have each 16-bit hash correspond to exactly 2^16 32-bit numbers. It would also IMO hash sequential 32-bit numbers differently. Unless I'm missing something, I believe this solution does those two things.

I would argue that security cannot be a consideration in this problem, as the hashed value is just too few bits. I believe that the solution I gave provides even distribution of 32-bit numbers to 16-bit hashes

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Why do you think this is the best? I think it can get an awful lot of collisions for useful and frequent numbers. –  Rotsor Jun 17 '10 at 0:56
1  
This isn't the best idea. The reason is that IP addresses are often assigned as contiguous subnets. This means that if the IP address A.B.C.D exists on a network then A.(B^1).C.D and A.B.C.(D^1) are slightly more likely to exist too and will get the same hash. Obviously any hash will have lots of collisions. But your scheme will have more collisions than you'd expect from hashing 32-bit integers picked uniformly. You'll get better results by churning up the bits a little more. –  sigfpe Jun 17 '10 at 1:02
1  
the criteria you used to assess the quality of the hash-function, hold even for the simpler one: hash = val&0xffff. However, these functions have different probability of collisions on real-life data. –  Rotsor Jun 17 '10 at 1:33
    
@Rostor Ha, you are correct sir. The million-dollar question in all of this is the distribution of data that is in view. –  John Bledsoe Jun 17 '10 at 3:09
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I would say just apply a standard hash like sha1 or md5 and then grab the last 16 bits of that.

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Might there be issues with short input streams (like 4 bytes) for sha1 or md5? –  dkamins Jun 17 '10 at 8:45
    
sh1 and md5 are typically not available in JavaScript environments. Are there slightly less secure but greatly simplified versions expressible in a few lines of JS? –  dkamins Jun 17 '10 at 8:56
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Assuming that you expect the least significant bits to 'vary' the most, I think you're probably going to get a good enough distribution by just using the lower 16-bits of the value as a hash.

If the numbers you're going to hash won't have that kind of distribution, then the additional step of xor-ing in the upper 16 bits might be helpful.

Of course this suggestion is if you're intending to use the hash merely for some sort of lookup/storage scheme and aren't looking for the crypto-related properties of non-guessability and non-reversability (which the xor-ing suggestions don't really buy you either).

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Something simple like this....

function hash_32b_to_16b(val32b) {    
    var h = hmac(secretKey, sha512);
    var v = val32b;
    for(var i = 0; i < 4096; ++i)
        v = h(v);
    return v % 0xffff;
}
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Why 4096 times? –  dkamins Jun 17 '10 at 1:43
2  
To slow it down. This is a common technique for hashing passwords, to make it orders of magnitude more difficult to create a rainbow table or brute force passwords. –  yfeldblum Jun 17 '10 at 1:56
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