I am trying to generate hashes using the Murmur3 algorithm. The hashes are consistent but they are different values being returned by Scala and Guava.

class package$Test extends FunSuite {
  test("Generate hashes") {
    println(s"Seed = ${MurmurHash3.stringSeed}")
    val vs = Set("abc", "test", "bucket", 111.toString)
    vs.foreach { x =>
      println(s"[SCALA] Hash for $x = ${MurmurHash3.stringHash(x).abs % 1000}")
      println(s"[GUAVA] Hash for $x = ${Hashing.murmur3_32().hashString(x).asInt().abs % 1000}")
      println(s"[GUAVA with seed] Hash for $x = ${Hashing.murmur3_32(MurmurHash3.stringSeed).hashString(x).asInt().abs % 1000}")

Seed = -137723950
[SCALA] Hash for abc = 174
[GUAVA] Hash for abc = 419
[GUAVA with seed] Hash for abc = 195

[SCALA] Hash for test = 588
[GUAVA] Hash for test = 292
[GUAVA with seed] Hash for test = 714

[SCALA] Hash for bucket = 413
[GUAVA] Hash for bucket = 22
[GUAVA with seed] Hash for bucket = 414

[SCALA] Hash for 111 = 250
[GUAVA] Hash for 111 = 317
[GUAVA with seed] Hash for 111 = 958

Why am I getting different hashes?


It looks to me like Scala's hashString converts pairs of UTF-16 chars to ints differently than Guava's hashUnencodedChars (hashString with no Charset was renamed to that).


val data = (str.charAt(i) << 16) + str.charAt(i + 1)


int k1 = input.charAt(i - 1) | (input.charAt(i) << 16);

In Guava, the char at an index i becomes the 16 least significant bits of the the int and the char at i + 1 becomes the most significant 16 bits. In the Scala implementation, that's reversed: the char at i is the most significant while the char at i + 1 is the least significant. (The fact that the Scala implementation uses + rather than | could also be significant I imagine.)

Note that the Guava implementation is equivalent to using ByteBuffer.putChar(c) twice to put two characters into a little endian ByteBuffer, then using ByteBuffer.getInt() to get an int value back out. The Guava implementation is also equivalent to encoding the characters to bytes using UTF-16LE and hashing those bytes. The Scala implementation is not equivalent to encoding the string in any of the standard charsets that JVMs are required to support. In general, I'm not sure what precedent (if any) Scala has for doing it the way it does.


The Scala implementation does another thing different than the Guava implementation as well: it passes the number of chars being hashed to the finalizeHash method where Guava's implementation passes the number of bytes to the equivalent fmix method.

  • Thanks for the reply! Doesn't Murmur3 specify which bits to use? I was expecting a standard way of doing this. – Saket May 13 '15 at 9:27
  • @Saket: As far as the bits go, I think this boils down to an endianness thing. Guava specifies that it uses the little-endian variant of the murmur3 algorithm, and the method it uses to combine two characters is equivalent to putting 2 consecutive chars into a LITTLE_ENDIAN ByteBuffer and getting an int out. Meanwhile the Scala version seems to be equivalent to putting 2 chars into a BIG_ENDIAN ByteBuffer and getting an int out. The issue of Scala passing the number of chars to finalizeHash rather than the number of bytes seems just wrong from what I can tell though. – ColinD May 13 '15 at 18:22
  • (Looking at the C++ implementation of MurmurHash3_x86_32, it seems clear that the len parameter is the number of bytes to be processed in the data, and it's that len that is xor'ed with h1 as part of the finalization step.) – ColinD May 13 '15 at 18:26

I believe hashString(x, StandardCharsets.UTF_16BE) should match Scala's behavior. Let us know.

(Also, please upgrade your Guava to something newer!)

  • This actually doesn't work since it only changes the order of bytes for each char; it doesn't change the order in which those chars are interpreted as an int. – ColinD May 12 '15 at 17:14
  • Huh, I had thought that part wasn't different between the two. – Kevin Bourrillion May 12 '15 at 17:49

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