{-# LANGUAGE BangPatterns, CPP #-} import Common () import Control.Applicative (many) import Criterion.Main (bench, bgroup, defaultMain, nf) import Data.Bits import Data.Char (isAlpha) import Data.Word (Word32) import Data.Word (Word8) import Numbers (numbers) import Common (chunksOf) import Text.Parsec.Text () import Text.Parsec.Text.Lazy () import qualified Warp import qualified Aeson import qualified Genome import qualified Data.Attoparsec.ByteString as AB import qualified Data.Attoparsec.ByteString.Char8 as AC import qualified Data.Attoparsec.ByteString.Lazy as ABL import qualified Data.Attoparsec.Text as AT import qualified Data.Attoparsec.Text.Lazy as ATL import qualified Data.ByteString as B import qualified Data.ByteString.Char8 as BC import qualified Data.ByteString.Lazy as BL import qualified Data.Text as T import qualified Data.Text.Lazy as TL import qualified HeadersByteString import qualified HeadersText import qualified Links import qualified Text.Parsec as P import qualified Sets main :: IO () main = do let s = take 1024 . cycle $ ['a'..'z'] ++ ['A'..'Z'] !b = BC.pack s !bl = BL.fromChunks . map BC.pack . chunksOf 4 $ s !t = T.pack s !tl = TL.fromChunks . map T.pack . chunksOf 4 $ s aeson <- Aeson.aeson headersBS <- HeadersByteString.headers headersT <- HeadersText.headers defaultMain [ bgroup "many" [ bgroup "attoparsec" [ bench "B" $ nf (AB.parse (many (AC.satisfy AC.isAlpha_ascii))) b , bench "BL" $ nf (ABL.parse (many (AC.satisfy AC.isAlpha_ascii))) bl , bench "T" $ nf (AT.parse (many (AT.satisfy AC.isAlpha_ascii))) t , bench "TL" $ nf (ATL.parse (many (AT.satisfy AC.isAlpha_ascii))) tl ] , bgroup "parsec" [ bench "S" $ nf (P.parse (many (P.satisfy AC.isAlpha_ascii)) "") s , bench "B" $ nf (P.parse (many (P.satisfy AC.isAlpha_ascii)) "") b , bench "BL" $ nf (P.parse (many (P.satisfy AC.isAlpha_ascii)) "") bl , bench "T" $ nf (P.parse (many (P.satisfy AC.isAlpha_ascii)) "") t , bench "TL" $ nf (P.parse (many (P.satisfy AC.isAlpha_ascii)) "") tl ] ] , bgroup "comparison" [ bgroup "many-vs-takeWhile" [ bench "many" $ nf (AB.parse (many (AC.satisfy AC.isAlpha_ascii))) b , bench "takeWhile" $ nf (AB.parse (AC.takeWhile AC.isAlpha_ascii)) b ] , bgroup "letter-vs-isAlpha" [ bench "letter" $ nf (AB.parse (many AC.letter_ascii)) b , bench "isAlpha" $ nf (AB.parse (many (AC.satisfy AC.isAlpha_ascii))) b ] ] , bgroup "takeWhile" [ bench "isAlpha" $ nf (ABL.parse (AC.takeWhile isAlpha)) bl , bench "isAlpha_ascii" $ nf (ABL.parse (AC.takeWhile AC.isAlpha_ascii)) bl , bench "isAlpha_iso8859_15" $ nf (ABL.parse (AC.takeWhile AC.isAlpha_iso8859_15)) bl , bench "T isAlpha" $ nf (AT.parse (AT.takeWhile isAlpha)) t , bench "TL isAlpha" $ nf (ATL.parse (AT.takeWhile isAlpha)) tl ] , bgroup "takeWhile1" [ bench "isAlpha" $ nf (ABL.parse (AC.takeWhile1 isAlpha)) bl , bench "isAlpha_ascii" $ nf (ABL.parse (AC.takeWhile1 AC.isAlpha_ascii)) bl , bench "T isAlpha" $ nf (AT.parse (AT.takeWhile1 isAlpha)) t , bench "TL isAlpha" $ nf (ATL.parse (AT.takeWhile1 isAlpha)) tl ] , bench "word32LE" $ nf (AB.parse word32LE) b , bgroup "scan" [ bench "short" $ nf (AB.parse quotedString) (BC.pack "abcdefghijk\"") , bench "long" $ nf (AB.parse quotedString) b ] , aeson , Genome.genome , headersBS , headersT , Links.links , numbers , Sets.benchmarks , Warp.benchmarks ] -- Benchmarks bind and (potential) bounds-check merging. word32LE :: AB.Parser Word32 word32LE = do w1 <- AB.anyWord8 w2 <- AB.anyWord8 w3 <- AB.anyWord8 w4 <- AB.anyWord8 return $! (fromIntegral w1 :: Word32) + fromIntegral w2 `unsafeShiftL` 8 + fromIntegral w3 `unsafeShiftL` 16 + fromIntegral w4 `unsafeShiftL` 32 doubleQuote, backslash :: Word8 doubleQuote = 34 backslash = 92 {-# INLINE backslash #-} {-# INLINE doubleQuote #-} -- | Parse a string without a leading quote. quotedString :: AB.Parser B.ByteString quotedString = AB.scan False $ \s c -> if s then Just False else if c == doubleQuote then Nothing else Just (c == backslash) #if !MIN_VERSION_base(4,5,0) unsafeShiftL :: Bits a => a -> Int -> a unsafeShiftL = shiftL #endif