lens-4.15.2: benchmarks/traversals.hs
{-# LANGUAGE CPP #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE BangPatterns #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
import qualified Data.ByteString as BS
import qualified Data.HashMap.Strict as HM
import qualified Data.Map as M
import qualified Data.Sequence as S
import qualified Data.Vector as V
import qualified Data.Vector.Unboxed as U
import Data.Vector.Generic.Lens
import Data.ByteString.Lens
import Control.Lens
import Criterion.Main
import Criterion.Types
#if !(MIN_VERSION_bytestring(0,10,0))
import Control.DeepSeq (NFData(..))
import qualified Data.ByteString.Internal as BS
#endif
#if !(MIN_VERSION_containers(0,5,0))
import qualified Data.Foldable as F
#endif
#if !(MIN_VERSION_bytestring(0,10,0))
instance NFData BS.ByteString where
rnf (BS.PS _ _ _) = ()
#endif
#if !(MIN_VERSION_containers(0,5,0))
-- Sadly, containers doesn't export the constructor for Seq on older versions,
-- so we'll have to settle for this inefficient implementation of rnf.
instance NFData a => NFData (S.Seq a) where
rnf = rnf . F.toList
#endif
main :: IO ()
main = defaultMainWith config
[
bgroup "vector"
[ bgroup "map"
[ bench "native" $ nf (V.map (+100)) v
, bench "itraversed" $ nf (over itraversed (+100)) v
]
, bgroup "imap"
[ bench "native" $ nf (V.imap (\i x -> x + i +100)) v
, bench "imap" $ nf (imap (\i x -> x + i +100)) v
, bench "itraversed" $ nf (iover itraversed (\i x -> x + i +100)) v
]
]
, bgroup "unboxed-vector"
[ bgroup "map"
[ bench "native" $ nf (U.map (+100)) u
, bench "itraversed" $ nf (over each (+100)) u
]
, bgroup "imap"
[ bench "native" $ nf (U.imap (\i x -> x + i +100)) u
, bench "itraversed" $ nf (iover vectorTraverse (\i x -> x + i) :: U.Vector Int -> U.Vector Int) u
]
]
, bgroup "sequence"
[ bgroup "map"
[ bench "native" $ nf (fmap (+100)) s
, bench "each" $ nf (over each (+100)) s
]
, bgroup "imap"
[ bench "native" $ nf (S.mapWithIndex (\i x -> x + i +100)) s
, bench "imap" $ nf (imap (\i x -> x + i +100)) s
]
]
, bgroup "bytestring"
[ bgroup "map"
[ bench "native" $ nf (BS.map (+100)) b
, bench "each" $ nf (over each (+100)) b
]
, bgroup "imap"
[
bench "bytes" $ nf (iover bytes (\i x -> x + fromIntegral i +100)) b
]
]
, bgroup "list"
[ bgroup "map"
[ bench "native" $ nf (map (+100)) l
, bench "each" $ nf (over each (+100)) l
]
, bgroup "imap"
[ bench "imap" $ nf (imap (\i x -> x + i +100)) l
]
]
, bgroup "map"
[ bgroup "map"
[ bench "native" $ nf (fmap (+100)) m
, bench "each" $ nf (over each (+100)) m
, bench "itraversed" $ nf (over itraversed (+100)) m
]
, bgroup "imap"
[ bench "native" $ nf (M.mapWithKey (\i x -> x + i +100)) m
, bench "each" $ nf (imap (\i x -> x + i +100)) m
]
]
, bgroup "hash map"
[ bgroup "map"
[ bench "native" $ nf (HM.map (+100)) h
, bench "each" $ nf (over each (+100)) h
]
, bgroup "imap"
[ bench "native" $ nf (HM.mapWithKey (\i x -> x + i +100)) h
, bench "imap" $ nf (imap (\i x -> x + i +100)) h
]
]
]
where
config = defaultConfig { timeLimit = 1 }
l = [0..10000] :: [Int]
xl = [0..100000] :: [Int]
b = BS.pack $ map fromIntegral xl
h = HM.fromList $ zip l l
m = M.fromList $ zip l l
s = S.fromList l
u = U.fromList xl
v = V.fromList l