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I have lots of unrelated named things that I'd like to do quick searches against. An "aardvark" is always an "aardvark" everywhere, so hashing the string and reusing the integer would work well to speed up comparisons. The entire set of names is unknown (and changes over time). What is a fast string hashing algorithm that will generate small (32 or 16) bit values and have a low collision rate?

I'd like to see an optimized implementation specific to C/C++.

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please add keywords: hash algorithm unique low-collision – slashmais Sep 24 '08 at 10:31
The following page has several implementations of general purpose hash functions which are "performant" and have low "collision rates": – Matthieu N. Oct 31 '10 at 23:08

14 Answers 14

up vote 27 down vote accepted

One of the FNV variants should meet your requirements. They're fast, and produce fairly evenly distributed outputs.

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If you're going to use FNV, stick to FNV-1a, since it has acceptable results on the avalanche test (see Or just use MurmurHash2, which is better in both speed and distribution ( – Steven Sudit Jul 10 '09 at 3:38
@Steven: MurmurHash hash has only been analzyed by its author. I've used it in a few different scenarios and the newer version of FNV seems to do a better job. – Matthieu N. Jan 25 '11 at 22:03
@sonicoder: While I'm not going to oversell MurmurHash, plain FNV is downright terrible and FNV-1a is only passable. As it happens, MurmurHash has been extensively analyzed and found useful. It's still not a cryptographic hash and there are going to be collisions no matter what, but it's still a huge improvement over any type of FNV. – Steven Sudit Jan 26 '11 at 20:50
@Steven Sudit: As I said, it was analyzed "only" by its author and no one else. hence the results of the "analysis" aren't really objective. – Matthieu N. Jan 30 '11 at 12:07
@sonicoder: I'll speak more bluntly: no, you're mistaken. It was analyzed by a number of third parties, including academic ones. Visit Wikipedia for links. What's more important is that, not only did it do well in general, but the specific flaws that were found were addressed through the creation of MurmurHash3. – Steven Sudit Feb 3 '11 at 7:25

Murmur Hash is pretty nice.

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Yes, this is the current leading general purpose hash function for hash tables. It's non-crypto, of course, with a pair of obvious differential. – obecalp Feb 16 '09 at 19:21
Note: the new URL for MurmurHash3 is – Emil Styrke Nov 27 '13 at 14:03
While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – Devolus Oct 21 '15 at 7:10

For a fixed string-set use gperf.

If your string-set changes you have to pick one hash function. That topic has been discussed before:

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A perfect hash is a very elegant solution, when available. – Steven Sudit Jan 27 '11 at 18:23

There's also a nice article at

Jenkins' One-at-a-Time hash for strings should look something like this:

#include <stdint.h>

uint32_t hash_string(const char * s)
    uint32_t hash = 0;

    for(; *s; ++s)
    	hash += *s;
    	hash += (hash << 10);
    	hash ^= (hash >> 6);

    hash += (hash << 3);
    hash ^= (hash >> 11);
    hash += (hash << 15);

    return hash;
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Another solution that could be even better depending on your use-case is interned strings. This is how symbols work e.g. in Lisp.

An interned string is a string object whose value is the address of the actual string bytes. So you create an interned string object by checking in a global table: if the string is in there, you initialize the interned string to the address of that string. If not, you insert it, and then initialize your interned string.

This means that two interned strings built from the same string will have the same value, which is an address. So if N is the number of interned strings in your system, the characteristics are:

  • Slow construction (needs lookup and possibly memory allocation)
  • Requires global data and synchronization in the case of concurrent threads
  • Compare is O(1), because you're comparing addresses, not actual string bytes (this means sorting works well, but it won't be an alphabetic sort).



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Why don't you just use Boost libraries? Their hashing function is simple to use and most of the stuff in Boost will soon be part of the C++ standard. Some of it already is.

Boost hash is as easy as

#include <boost/functional/hash.hpp>

int main()
    boost::hash<std::string> string_hash;

    std::size_t h = string_hash("Hash me");

You can find boost at

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Both STL and boost tr1 has extremely weak hash function for strings. – obecalp Feb 16 '09 at 19:19

Have a look at GNU gperf.

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Yay for perfect hash generators! – Chris Jester-Young Sep 22 '08 at 10:08
Perfect hashing is NOT appropriate for this application, since the set of names is unknown and changes. Therefore, gperf won't work for this. – TimB Sep 24 '08 at 4:43
While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. – Hcorg Oct 21 '15 at 8:46

The Hsieh hash function is pretty good, and has some benchmarks/comparisons, as a general hash function in C. Depending on what you want (it's not completely obvious) you might want to consider something like cdb instead.

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It is never late for a good subject and I am sure people would be interested on my findings.

I needed a hash function and after reading this post and doing a bit of research on the links given here, I came up with this variation of Daniel J Bernstein's algorithm, which I used to do an interesting test:

unsigned long djb_hashl(const char *clave)
    unsigned long c,i,h;

        c = toupper(clave[i]);
        h = ((h << 5) + h) ^ c;
    return h;

This variation hashes strings ignoring the case, which suits my need of hashing users login credentials. 'clave' is 'key' in Spanish. I am sorry for the spanish but its my mother tongue and the program is written on it.

Well, I wrote a program that will generate usernames from 'test_aaaa' to 'test_zzzz', and -to make the strings longer- I added to them a random domain in this list: '', '', '' and ''. Therefore each of them would look like:,,, and so on.

Here is the output of the test -'Colision entre XXX y XXX' means 'Collision of XXX and XXX'. 'palabras' means 'words' and 'Total' is the same in both languages-.

    Buscando Colisiones...
    Colision entre '' y '' (1DB903B7)
    Colision entre '' y '' (2F5BC088)
    Colision entre '' y '' (51FD09CC)
    Colision entre '' y '' (52F5480E)
    Colision entre '' y '' (74FF72E2)
    Colision entre '' y '' (7FD70008)
    Colision entre '' y '' (9BD351C4)
    Colision entre '' y '' (A86953E1)
    Colision entre '' y '' (BA6B0718)
    Colision entre '' y '' (D0523F88)
    Colision entre '' y '' (DEE08108)
    Total de Colisiones: 11
    Total de Palabras  : 456976

That is not bad, 11 collisions out of 456,976 (off course using the full 32 bit as table lenght).

Running the program using 5 chars, that is from 'test_aaaaa' to 'test_zzzzz', actually runs out of memory building the table. Below is the output. 'No hay memoria para insertar XXXX (insertadas XXX)' means 'There is not memory left to insert XXX (XXX inserted)'. Basically malloc() failed at that point.

    No hay memoria para insertar 'test_epjcv' (insertadas 2097701).

    Buscando Colisiones...

    ...451 'colision' strings...

    Total de Colisiones: 451
    Total de Palabras  : 2097701

Which means just 451 collisions on 2,097,701 strings. Note that in none of the occasions, there were more than 2 collisions per code. Which I confirm it is a great hash for me, as what I need is to convert the login ID to a 40 bit unique id for indexing. So I use this to convert the login credentials to a 32 bit hash and use the extra 8 bits to handle up to 255 collisions per code, which lookign at the test results would be almost impossible to generate.

Hope this is useful to someone.


Like the test box is AIX, I run it using LDR_CNTRL=MAXDATA=0x20000000 to give it more memory and it run longer, the results are here:

Buscando Colisiones... Total de Colisiones: 2908 Total de Palabras : 5366384

That is 2908 after 5,366,384 tries!!

VERY IMPORTANT: Compiling the program with -maix64 (so unsigned long is 64 bits), the number of collisions is 0 for all cases!!!

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Bob Jenkins has many hash functions available, all of which are fast and have low collision rates.

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The hashes are quite solid, and technically interesting, but not necessarily fast. Consider that One-at-a-Time hash processes input byte by byte, where other hashes take 4 or even 8 bytes at a time. The speed differnece is substantial! – Steven Sudit Jul 23 '09 at 15:23
Bob's hashes are very fast: – user7116 Jul 23 '09 at 20:20

You can see what .NET uses on the String.GetHashCode() method using Reflector.

I would hazard a guess that Microsoft spent considerable time optimising this. They have printed in all the MSDN documentation too that it is subject to change all the time. So clearly it is on their "performance tweaking radar" ;-)

Would be pretty trivial to port to C++ too I would have thought.

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There is some good discussion in this previous question

And a nice overview of how to pick hash functions, as well as statistics about the distribution of several common ones here

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Described here is a simple way of implementing it yourself:

A snippet from the post:

if say we have a character set of capital English letters, then the length of the character set is 26 where A could be represented by the number 0, B by the number 1, C by the number 2 and so on till Z by the number 25. Now, whenever we want to map a string of this character set to a unique number , we perform the same conversion as we did in case of the binary format

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How does that (given a hypertext browser that does display that links contents) map to (32 or 16) bit values, given character sets from, say, 24 to 1.111.998 code points? Base conversion is not a useful hash function. – greybeard Apr 17 '15 at 4:01

CRC-32. There is about a trillion links on google for it.

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CRCs are designed for error detection and correction. Their distribution characteristics are typically not very good. – Nick Johnson Sep 22 '08 at 10:09
Arachnid has obviously never tried CRC32 as hashes. They work well. – Nils Pipenbrinck Sep 22 '08 at 10:11
"CRC32 was never intended for hash table use. There is really no good reason to use it for this purpose." cf. – obecalp Feb 16 '09 at 21:24

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