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The boost::hash_combine template function takes a reference to a hash (called seed) and an object v. According to the docs, it combines seed with the hash of v by

seed ^= hash_value(v) + 0x9e3779b9 + (seed << 6) + (seed >> 2);

I can see that this is deterministic. I see why a XOR is used.

I bet the addition helps in mapping similar values widely apart so probing hash tables won't break down, but can someone explain what the magic constant is?

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Given that on many computers an integer rotate cost about the same as a shift would there be any benefit in converting the expression to: <code> seed ^= hash_value(v) + 0x9e3779b9 + rotl(seed, 6) + rotr(seed, 2); </code> – John Yates Jun 2 at 20:54
up vote 88 down vote accepted

The magic number is supposed to be 32 random bits, where each is equally likely to be 0 or 1, and with no simple correlation between the bits. A common way to find a string of such bits is to use the binary expansion of an irrational number; in this case, that number is the reciprocal of the golden ratio:

phi = (1 + sqrt(5)) / 2
2^32 / phi = 0x9e3779b9

So including this number "randomly" changes each bit of the seed; as you say, this means that consecutive values will be far apart. Including the shifted versions of the old seed makes sure that, even if hash_value() has a fairly small range of values, differences will soon be spread across all the bits.

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Nice, I had read they had noticed it worked pretty well but didn't knew it came from the golden ratio :) – Matthieu M. Feb 9 '11 at 20:53
Cool! I like it when number theory suddenly gets useful :) – Fred Foo Feb 9 '11 at 21:28
@larsmans I love your use of 'suddenly' - it's very appropriate! Number theory is like "yeah, that's nice... but I've got real work to do, sorry" in 99% of all cases. And then, as you say, 'suddenly', number theory is super super useful. It's not like a hammer where it's rather useful for a large number of things. Instead, it's like a scalpel being extremely useful for a small number of things. – corsiKa Aug 16 '13 at 19:44
@SamKellett Would work even better if you used the correct number of parentheses and got 0x9e3779b97f4a7800 – Barry Sep 22 '15 at 18:51
Because Python's floating point number doesn't have enough precision, the 64-bit golden ratios above are not correct. The actual result should be 0x9e3779b97f4a7c15. – kennytm Nov 27 '15 at 15:08

Take a look at the DDJ article by Bob Jenkins from 1997. The magic constant ("golden ratio") is explained as follows:

The golden ratio really is an arbitrary value. Its purpose is to avoid mapping all zeros to all zeros.

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