# hash function for string

I'm working on hash table in C language and I'm testing hash function for string.

The first function I've tried is to add ascii code and use modulo (%100) but i've got poor results with the first test of data: 40 collisions for 130 words.

The final input data will contain 8 000 words (it's a dictionnary stores in a file). The hash table is declared as int table[10000] and contains the position of the word in a txt file.

The first question is which is the best algorithm for hashing string ? and how to determinate the size of hash table ?

:-)

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If your hash table has 10K entries, why would you use modulo 100? Getting 40 collisions out of 130 words isn't surprising with such a small modulus. –  Carey Gregory Oct 5 '11 at 19:24
There are many string hash implementations available on both google and SO (read: more searching is in order). Many approaches use a "barrel shift" or "rolling" hash (possibly with "mixing" phases) -- but please pay heed to Gregory! –  user166390 Oct 5 '11 at 19:26
See burtleburtle.net/bob/hash/evahash.html and partow.net/programming/hashfunctions for which are resources about various hashing (from general to string to crypto). –  user166390 Oct 5 '11 at 19:33
To clarify @CareyGregory: You do realize that, as a basic mathematical truth, 130 items in 100 buckets (i.e., mod 100) must produce 30 collisions (where collision is counted as each time a second, third, etc. item is put in a bucket), correct? So you're only a little above that. –  derobert Oct 5 '11 at 19:34
@lilawood: OK, that's what I figured, but to be a better test you should use 80 words with a hash table of 100 entries. That would give you the same proportions as your live data and wouldn't force collisions. –  Carey Gregory Oct 5 '11 at 21:29

I've had nice results with `djb2` by Dan Bernstein.

``````unsigned long
hash(unsigned char *str)
{
unsigned long hash = 5381;
int c;

while (c = *str++)
hash = ((hash << 5) + hash) + c; /* hash * 33 + c */

return hash;
}
``````
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the page linked in the answer is very interesting. –  Adrien Plisson Oct 5 '11 at 19:31
In case anyone needs this in VB6: stackoverflow.com/a/22385684/481061 –  Felix Dombek Mar 13 at 17:30

First, you generally do not want to use a cryptographic hash for a hash table. An algorithm that's very fast by cryptographic standards is still excruciatingly slow by hash table standards.

Second, you want to ensure that every bit of the input can/will affect the result. One easy way to do that is to rotate the current result by some number of bits, then XOR the current hash code with the current byte. Repeat until you reach the end of the string. Note that you generally do not want the rotation to be an even multiple of the byte size either.

For example, assuming the common case of 8 bit bytes, you might rotate by 5 bits:

``````int hash(char const *input) {
int result = 0x55555555;

while (*input) {
result ^= *input++;
result = rol(result, 5);
}
}
``````

Edit: Also note that 10000 slots is rarely a good choice for a hash table size. You usually want one of two things: you either want a prime number as the size (required to ensure correctness with some types of hash resolution) or else a power of 2 (so reducing the value to the correct range can be done with a simple bit-mask).

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Wikipedia shows a nice string hash function called Jenkins One At A Time Hash. It also quotes improved versions of this hash.

``````uint32_t jenkins_one_at_a_time_hash(char *key, size_t len)
{
uint32_t hash, i;
for(hash = i = 0; i < len; ++i)
{
hash += key[i];
hash += (hash << 10);
hash ^= (hash >> 6);
}
hash += (hash << 3);
hash ^= (hash >> 11);
hash += (hash << 15);
return hash;
}
``````
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There are a number of existing hashtable implementations for C, from the C standard library hcreate/hdestroy/hsearch, to those in the APR and glib, which also provide prebuilt hash functions. I'd highly recommend using those rather than inventing your own hashtable or hash function; they've been optimized heavily for common use-cases.

If your dataset is static, however, your best solution is probably to use a perfect hash. gperf will generate a perfect hash for you for a given dataset.

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First, is 40 collisions for 130 words hashed to 0..99 bad? You can't expect perfect hashing if you are not taking steps specifically for it to happen. An ordinary hash function won't have fewer collisions than a random generator most of the time.

A hash function with a good reputation is MurmurHash3.

Finally, regarding the size of the hash table, it really depends what kind of hash table you have in mind, especially, whether buckets are extensible or one-slot. If buckets are extensible, again there is a choice: you choose the average bucket length for the memory/speed constraints that you have.

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One thing I've used with good results is the following (I don't know if its mentioned already because I can't remember its name).

You precompute a table T with a random number for each character in your key's alphabet [0,255]. You hash your key 'k0 k1 k2 ... kN' by taking T[k0] xor T[k1] xor ... xor T[kN]. You can easily show that this is as random as your random number generator and its computationally very feasible and if you really run into a very bad instance with lots of collisions you can just repeat the whole thing using a fresh batch of random numbers.

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