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I'm trying to hash a string into an integer for placing it in an array. However I do not know all too much about hashing functions, and that's why my current method is just adding all the ASCII numbers of the characters together and taking it mod the array size.

Are there any simple faster/better methods?

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1  
What language are you using? –  amphetamachine Sep 11 '10 at 10:32
    
Are you trying to make a hash table? –  Steven Sudit Sep 11 '10 at 10:32
1  
Duplicate of half of that. –  Dummy00001 Sep 11 '10 at 10:32
    
I am using Delphi at the moment –  Hal Sep 11 '10 at 10:33
3  
Is there any community wiki on hash functions? If not, probably it makes sense to start one, with information structured by input types, performance and language implementations. –  Dummy00001 Sep 11 '10 at 11:39

5 Answers 5

The FNV-1a hash is quick and easy to implement.

function FNV1aHash(const s: AnsiString): LongWord;
var
    i: Integer;
const
    FNV_offset_basis = 2166136261;
    FNV_prime = 16777619;
begin
    //FNV-1a hash
    Result := FNV_offset_basis;
    for i := 1 to Length(s) do
        Result := (Result xor Byte(s[i])) * FNV_prime;
end;

Update: My answer on programmers that compares the speed and randomificationness of different hashes. (Hint: use MurmurHash2, you'll find the algorithm in that answer)

  • MurmurHash3: slower than MurmurHash2
  • MurmurHash2: fast, best randomness
  • FNV-1a: fast, and much better distribution than FNV-1 or the remaining
  • FNV-1: fast, poor distribution
  • DJB2/DJB2a/SDBM: poor distribution
  • CRC-32: slow

And here's the Delphi MurmurHash2 implementation (tested with known test vectors):

function THashList.Murmur2(const S: AnsiString; const Seed: LongWord=$9747b28c): LongWord;
var
    hash: LongWord;
    len: LongWord;
    k: LongWord;
    data: Integer;
const
    // 'm' and 'r' are mixing constants generated offline.
    // They're not really 'magic', they just happen to work well.
    m = $5bd1e995;
    r = 24;
begin
    len := Length(S);

    //The default seed, $9747b28c, is from the original C library

    // Initialize the hash to a 'random' value
    hash := seed xor len;

    // Mix 4 bytes at a time into the hash
    data := 1;

    while(len >= 4) do
    begin
        k := PLongWord(@S[data])^;

        k := k*m;
        k := k xor (k shr r);
        k := k*m;

        hash := hash*m;
        hash := hash xor k;

        data := data+4;
        len := len-4;
    end;

    {   Handle the last few bytes of the input array
            S: ... $69 $18 $2f
    }
    Assert(len <= 3);
    if len = 3 then
        hash := hash xor (LongWord(s[data+2]) shl 16);
    if len >= 2 then
        hash := hash xor (LongWord(s[data+1]) shl 8);
    if len >= 1 then
    begin
        hash := hash xor (LongWord(s[data]));
        hash := hash * m;
    end;

    // Do a few final mixes of the hash to ensure the last few
    // bytes are well-incorporated.
    hash := hash xor (hash shr 13);
    hash := hash * m;
    hash := hash xor (hash shr 15);

    Result := hash;
end;
share|improve this answer
    
It's quick, easy and terrible. Its avalanche characteristics are unacceptable. If you must use an FNV variant, FNV-1a is much, much better in this regard. Or, better yet, don't use FNV at all. There are so many better alternatives that this one is a waste of time. –  Steven Sudit Sep 11 '10 at 10:38
    
+1. FNV Wikipedia entry beats that one of the Jenkins. And language agnostic. –  Dummy00001 Sep 11 '10 at 11:11
    
@Dummy: Only because they omitted the avalanche results. It turns out that FNV-1a doesn't suck, but FNV does. For that matter, Jenkins' lookup3 is ok, whereas his one-at-a-time sucks. –  Steven Sudit Sep 11 '10 at 11:15
    
@Greg: I doubt you care about your rep score any more than I do, but if you edit your answer to specify FNV-1a, then I'l be glad to remove the downvote. I still don't like this FNV variant, but at least it's not terrible. –  Steven Sudit Sep 11 '10 at 12:03
2  
Comparing FNV-1, FNV-1a, DJB2, DJB2a, SDBM, CRC32. Of those FNV-1a is the best. –  Ian Boyd Apr 26 '12 at 17:17

See http://www.strchr.com/hash_functions for a very good panel of hashing functions.

In Delphi implementation, here are several versions:

The first coming to mind is the one used in TStringHash.HashOf method from official IniFiles.pas unit. Including a faster asm version:

function HashOf(P: PByteArray; Len: integer): cardinal;
// algorithm from IniFiles.TStringHash.HashOf
{$ifdef PUREPASCAL}
var I: Integer;
begin
  Result := 0;
  for I := 1 to Len do
    Result := ((Result shl 2) or (Result shr (SizeOf(Result)*8-2))) xor P[I];
end;
{$else}
asm // faster asm version by Synopse
    or edx,edx
    jz @z
    push ebx
    mov ebx,edx     // ebx = length(Key)
    mov edx,eax     // edx = Text
    xor eax,eax     // eax = Result
    xor ecx,ecx     // ecx = Result shl 2 = 0
@1: shr eax,$1e     // eax = Result shr (SizeOf(Result) * 8 - 2))
    or ecx,eax      // ecx = ((Result shl 2) or (Result shr (SizeOf(Result)*8-2)))
    movzx eax,byte ptr [edx] // eax = ord(Key[i])
    inc edx
    xor eax,ecx     // eax = () xor ord(Key[i])
    dec ebx
    lea ecx,[eax*4] // ecx = Result shl 2
    jnz @1
    pop ebx
@z:
end;
{$endif}

The classic Kernighan & Ritchie hash from "The C programming Language", 3rd edition - not the best, but simple and efficient code.

function kr32(crc: cardinal; buf: PAnsiChar; len: cardinal): cardinal;
var i: integer;
begin
  for i := 0 to len-1 do
    crc := ord(buf[i])+crc*31;
  result := crc;
end;

The fast "Adler" CRC as implemented in zlib - optimized asm version here:

function Adler32Pas(Adler: cardinal; p: pointer; Count: Integer): cardinal;
var s1, s2: cardinal;
    i, n: integer;
begin
  s1 := LongRec(Adler).Lo;
  s2 := LongRec(Adler).Hi;
  while Count>0 do begin
    if Count<5552 then
      n := Count else
      n := 5552;
    for i := 1 to n do begin
      inc(s1,pByte(p)^);
      inc(cardinal(p));
      inc(s2,s1);
    end;
    s1 := s1 mod 65521;
    s2 := s2 mod 65521;
    dec(Count,n);
  end;
  result := word(s1)+cardinal(word(s2)) shl 16;
end;

My own faster variant - not re-entrant, but faster since it will read by DWORDs - and an even faster asm version here:

function Hash32(Data: pointer; Len: integer): cardinal;
function SubHash(P: PCardinalArray; L: integer): cardinal;
{$ifdef HASINLINE}inline;{$endif}
var s1,s2: cardinal;
    i: PtrInt;
const Mask: array[0..3] of cardinal = (0,$ff,$ffff,$ffffff);
begin
  if P<>nil then begin
    s1 := 0;
    s2 := 0;
    for i := 1 to L shr 4 do begin // 16 bytes (4 DWORD) by loop - aligned read
      inc(s1,P^[0]);
      inc(s2,s1);
      inc(s1,P^[1]);
      inc(s2,s1);
      inc(s1,P^[2]);
      inc(s2,s1);
      inc(s1,P^[3]);
      inc(s2,s1);
      inc(PtrUInt(P),16);
    end;
    for i := 1 to (L shr 2)and 3 do begin // 4 bytes (DWORD) by loop
      inc(s1,P^[0]);
      inc(s2,s1);
      inc(PtrUInt(P),4);
    end;
    inc(s1,P^[0] and Mask[L and 3]);      // remaining 0..3 bytes
    inc(s2,s1);
    result := s1 xor (s2 shl 16);
  end else
    result := 0;
end;
begin // use a sub function for better code generation under Delphi
  result := SubHash(Data,Len);
end;

The classic CRC32 version - you can find a very optimized asm version (using 8 tables) here:

function UpdateCrc32(aCRC32: cardinal; inBuf: pointer; inLen: integer) : cardinal;
var i: integer;
begin
  result := aCRC32;
  // if we used a dynamic table, we assume we want shorter code size
  for i := 1 to inLen do begin
    result := crc32Tab[byte(result xor pByte(inBuf)^)] xor (result shr 8);
    inc(cardinal(inBuf));
  end;
end;
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1  
Delphi 2009 and up also provides Jenkins Hash (used to hash dictionary entries) in Generics.Defaults.BobJenkinsHash –  mjn Nov 25 '11 at 7:18
    
About a comparison of hash functions, take a look at delphitools.info/2014/08/25/string-hashing-shootout In short: crc32 is the best balance between performance and collisions, kr32 has a lot of collisions, and BobJenkinsHash is dead slow. –  Arnaud Bouchez Dec 19 at 10:15

Jenkins hash function should help you get started.

my current method is just adding all the ASCII numbers of the characters together and taking it mod the array size.

You discard important bit of information which is the position of the character in the string. That is a bad idea, since then strings "AB" and "BA" would have same the same hash value.

Instead of simple addition, keeping it primitive, one can use expression like hash = hash*P1 + str[i]*P2 + P3; where Pi are some prime numbers. That's how I do it if I need a hash function quickly. I often use 7, 5 and 3 as the primes, but the numbers should be obviously adjusted (as well as initial value of hash) so that the result of hash function is usable to your task.

For more information read the corresponding (and rather informative) Wikipedia article.

share|improve this answer
    
Sure, start there, but then keep moving. As the article you linked to shows, it has pretty awful avalanche characteristics. Just look at all the yellow pixels. –  Steven Sudit Sep 11 '10 at 10:39
    
@Steven: The yellow dots are really few there. And it is definitely better than simple addition. And it is fast and works fine on real world strings. I use it in several places and it definitely improved key distribution. –  Dummy00001 Sep 11 '10 at 10:50
    
I don't deny for a moment that it's better than addition -- I even pointed out the AB/BA problem in a comment to an answer that was deleted. However, there's no reason there should be any yellow pixels. Projects like memcachedb use Murmur for a good reason! –  Steven Sudit Sep 11 '10 at 10:53
    
Don't be silly. There would be always yellow pixels - because one still has to apply modulo to the result of the hash function and that would discard more useful bits of information. And murmur doesn't strike to be much different from Jenkins or FNV. Or you haven't even bothered to check how Murmur works? I think you're being over-pedantic here. –  Dummy00001 Sep 11 '10 at 10:57
    
Oh I'm definitely pedantic, but I'm also completely right. It's not radically different, but it's designed to avoid this particular flaw. For a good visual comparison, look at sites.google.com/site/murmurhash/avalanche –  Steven Sudit Sep 11 '10 at 11:10

As Dummy00001 pointed out, this has been asked and answered before. Take a look at Best algorithm for hashing number values?, particularly the suggestion of using MurmurHash.

I'd recommend MurmurHash because:

  1. It's very fast.

  2. Its distribution and avalanche characteristics are excellent for a non-cryptographic hash.

  3. Its worst-case behavior is still pretty good.

I've used it. It doesn't suck.

edit

There was a lot of discussion about how to best port it to Delphi, on https://forums.embarcadero.com/thread.jspa?threadID=13902&tstart=0. The resulting code is available at https://forums.codegear.com/thread.jspa?threadID=14879

Delphi translation

function Murmur2(const S: AnsiString; const Seed: LongWord=$9747b28c): LongWord;
var
    h: LongWord;
    len: LongWord;
    k: LongWord;
    data: Integer;
const
    // 'm' and 'r' are mixing constants generated offline.
    // They're not really 'magic', they just happen to work well.
    m = $5bd1e995;
    r = 24;
begin
    len := Length(S);

    //The default seed, $9747b28c, is from the original C library

    // Initialize the hash to a 'random' value
    h := seed xor len;

    // Mix 4 bytes at a time into the hash
    data := 1;

    while(len >= 4) do
    begin
        k := PLongWord(@S[data])^;

        k := k*m;
        k := k xor (k shr r);
        k := k* m;

        h := h*m;
        h := h xor k;

        data := data+4;
        len := len-4;
    end;

    {   Handle the last few bytes of the input array
            S: ... $69 $18 $2f
    }
    Assert(len <= 3);
    if len = 3 then
        h := h xor (LongWord(s[data+2]) shl 16);
    if len >= 2 then
        h := h xor (LongWord(s[data+1]) shl 8);
    if len >= 1 then
    begin
        h := h xor (LongWord(s[data]));
        h := h * m;
    end;

    // Do a few final mixes of the hash to ensure the last few
    // bytes are well-incorporated.
    h := h xor (h shr 13);
    h := h * m;
    h := h xor (h shr 15);

    Result := h;
end;

Passes all self-tests from the original C implementation.

share|improve this answer
    
Any pointers to proof that the hash function doesn't suffer from the avalanche effect you complain elsewhere so much? Murmur uses pretty much the same algorithm, only slightly differently. –  Dummy00001 Sep 11 '10 at 10:55
1  
I answered this elsewhere, but I'll repeat it here: sites.google.com/site/murmurhash/avalanche –  Steven Sudit Sep 11 '10 at 11:11
    
@Dummy0001: After you've looked, remove the downvote. –  Steven Sudit Sep 11 '10 at 11:12
    
Some people might think that, since the source is the canonical site for MurmurHash, it must be suspect. Those people should read more carefully, and follow the link to home.comcast.net/~bretm/hash –  Steven Sudit Sep 11 '10 at 11:19
    
@Steven: regarding the link - 404 errors when trying to look into at the diagrams at the link. Nor you have provided any link to the sample implementation of advertised algorithm. P.S. the second link (~bretm) shows different avalanche diagram for Jenkins and conclusion is also nice: "This hash function by Bob Jenkins should be suitable for general purpose use, either for hash table lookup, basic file fingerprinting, or other non-cryptographic uses." You are very trustworthy source of information ;) –  Dummy00001 Sep 11 '10 at 11:32

A very simple method is to just XOR all values. The simplest as far as I know.

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So hash('ab')=hash('ba') - poor... –  Arnaud Bouchez Nov 25 '11 at 6:56
1  
OMG. a xor a = 0. So any string with an even number of the same letters... Anagrams anyone? –  Guy Gordon Aug 21 '12 at 4:08

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