{-# OPTIONS_HADDOCK prune #-}
-- | Implements the specialized hash function for
-- this perfect hashing algorithm.
module Data.PerfectHash.Hashing where
import Data.Bits (xor, (.&.))
import Data.Char (ord)
-- | This choice of prime number was taken from the Python implementation
-- on <http://stevehanov.ca/blog/index.php?id=119 Steve Hanov's page>.
primeFNV = 0x01000193
mask32bits = 0xffffffff
-- | A Foldable of any data type may be hashed, so long as it implements
-- an instance of this class.
class ToNumeric a where
toNum :: a -> Int
-- | The numeric value of a character is simply its ordinal value.
instance ToNumeric Char where
toNum = ord
instance ToNumeric Int where
toNum = id
hashToSlot :: (Foldable f, ToNumeric a) =>
Int -- ^ nonce
-> f a -- ^ key
-> Int -- ^ array size
-> Int
hashToSlot nonce key size = hash nonce key `mod` size
-- | Uses the \"FNV-1a\" algorithm from the
-- <http://isthe.com/chongo/tech/comp/fnv/ FNV website>:
--
-- > hash = offset_basis
-- > for each octet_of_data to be hashed
-- > hash = hash xor octet_of_data
-- > hash = hash * FNV_prime
-- > return hash
--
-- The interface is comparable to the
-- <https://hackage.haskell.org/package/hashable-1.2.6.1/docs/Data-Hashable.html#v:hashWithSalt hashWithSalt>
-- function from the @hashable@ package.
hash :: (Foldable f, ToNumeric a) => Int -> f a -> Int
hash nonce =
foldl combine d -- NOTE: This must be 'foldl', not 'foldr'
where
d = if nonce == 0
then primeFNV
else nonce
combine acc = (.&. mask32bits) . (* primeFNV) . xor acc . toNum