solrize
in #haskell asked a question about one version of this code and I tried some other cases and was wondering what was going on. On my machine the "fast" code takes ~1 second and the "slow" code takes ~1.3-1.5 (everything is compiled with ghc -O2
).
import Data.List
log10 :: Double -> Double
--log10 x = log x / log 10 -- fast
--log10 = logBase 10 -- slow
--log10 = barLogBase 10 -- fast
--log10 = bazLogBase 10 -- fast
log10 = fooLogBase 10 -- see below
class Foo a where
fooLogBase :: a -> a -> a
instance Foo Double where
--fooLogBase x y = log y / log x -- slow
fooLogBase x = let lx = log x in \y -> log y / lx -- fast
barLogBase :: Double -> Double -> Double
barLogBase x y = log y / log x
bazLogBase :: Double -> Double -> Double
bazLogBase x = let lx = log x in \y -> log y / lx
main :: IO ()
main = print . foldl' (+) 0 . map log10 $ [1..1e7]
I'd've hoped that GHC would be able to turn logBase x y
into exactly the same thing as log y / log x
, when specialised. What's going on here, and what would be the recommended way of using logBase
?
log 10
in some cases. Try measuring with a variable base.Floating
instance forDouble
defineslogBase
equivalently to the commented out definition offooLogBase
above.