I am converting the incoming string into hash code by doing the following function but some of the values are negative. I don't think hash values should be negative. Please tell me what I am doing wrong.

int combine = (srcadd + dstadd + sourceport + destinationport + protocol).hashCode();
System.out.println(combine);
  • 5
    Why can't hash codes be negative? AFAIK, the only requirement to them is to be equal for equal objects.. – user1096188 Feb 12 '12 at 15:33
  • 5
    spaces are nice. – AHungerArtist Feb 12 '12 at 15:38
up vote 37 down vote accepted

I don't think hash values should be negative.

Why not? It's entirely valid to have negative hash codes. Most ways of coming up with a hash code naturally end up with negative values, and anything dealing with them should take account of this. However, I'd consider a different approach to coming up with your hash codes, e.g.

int hash = 17;
hash = hash * 31 + srcadd.hashCode();
hash = hash * 31 + dstadd.hashCode();
hash = hash * 31 + sourceport; // I'm assuming this is an int...
hash = hash * 31 + destinationport; // ditto
hash = hash * 31 + protocol.hashCode();
return hash;

It's not clear what the types of these expressions are, but I'm guessing you're ending up taking the hash code of a string... a string that you don't really need to create in the first place. While there are better approaches for getting hash codes for known domains, the above approach works well as a general-purpose hash generation technique.

Note that it would also help the readability of your code if you avoided abbreviations, and used camel casing, e.g. sourceAddress instead of srcadd.

  • 1
    Actually it was written at some forum that "hashCode is a way of computing a small (32-bit) digest numeric key from a long String ".So, i though its range is 2^32 and that is from 0 to 2^32 – Xara Feb 12 '12 at 15:37
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    @Zara: But int doesn't support numbers greater than 2^31 - 1... it is a 32-bit value, but in a signed range. – Jon Skeet Feb 12 '12 at 15:41

sometimes the hashcode calculation itself goes beyond the Integer.MAX_VALUE, i.e 2147483647. what happens then is that we get a negative integer after the overflow. Negative hashcode is perfectly valid!

It is perfectly legal to have negative hash codes, and if you are looking for hash values as used in hash-based collections you can use Math.abs(hash). This can also give you negative numbers when hash is bigger than 2^31, and the best way would be to use a shift mask (key.hashCode() & 0x7fffffff) % M, where M is the table size.

  • 1
    I don't understand why you wouldn't just use Math.abs(hash). It's my understanding that Math.abs() will only return negative for int.MIN_VALUE. If hash = key.hashCode() % M then the only way to end up with hash == int.MIN_VALUE is if M > int.MAX_VALUE, in which case you'd need to be using longs to index the table anyway. – jkindwall Nov 21 '15 at 5:00
  • By "bigger than 2^31", this answer really means "more than 31 binary digits", not a larger integer than 2^31. Why (key.hashCode() & 0x7fffffff)? Because it is a simple 1-step binary operation on the result of hashCode() that should (or could) execute faster than Math.abs(). – Ogre Psalm33 Jul 20 '17 at 15:23

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