megaparsec-9.2.0: bench/memory/Main.hs
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE TypeFamilies #-}
module Main (main) where
import Control.DeepSeq
import Control.Monad
import Data.ByteString (ByteString)
import qualified Data.ByteString as B
import Data.List.NonEmpty (NonEmpty (..))
import qualified Data.List.NonEmpty as NE
import qualified Data.Set as E
import Data.Text (Text)
import qualified Data.Text as T
import Data.Void
import Text.Megaparsec
import qualified Text.Megaparsec.Byte.Binary as Binary
import Text.Megaparsec.Char
import qualified Text.Megaparsec.Char.Lexer as L
import Weigh
-- | The type of parser that consumes 'Text'.
type Parser = Parsec Void Text
-- | The type of parser that consumes 'ByteString'.
type ParserBs = Parsec Void ByteString
main :: IO ()
main = mainWith $ do
setColumns [Case, Allocated, GCs, Max]
bparser "string" manyAs (string . fst)
bparser "string'" manyAs (string' . fst)
bparser "many" manyAs (const $ many (char 'a'))
bparser "some" manyAs (const $ some (char 'a'))
bparser "choice" (const "b") (choice . fmap char . manyAsB' . snd)
bparser "count" manyAs (\(_, n) -> count n (char 'a'))
bparser "count'" manyAs (\(_, n) -> count' 1 n (char 'a'))
bparser "endBy" manyAbs' (const $ endBy (char 'a') (char 'b'))
bparser "endBy1" manyAbs' (const $ endBy1 (char 'a') (char 'b'))
bparser "manyTill" manyAsB (const $ manyTill (char 'a') (char 'b'))
bparser "someTill" manyAsB (const $ someTill (char 'a') (char 'b'))
bparser "sepBy" manyAbs (const $ sepBy (char 'a') (char 'b'))
bparser "sepBy1" manyAbs (const $ sepBy1 (char 'a') (char 'b'))
bparser "sepEndBy" manyAbs' (const $ sepEndBy (char 'a') (char 'b'))
bparser "sepEndBy1" manyAbs' (const $ sepEndBy1 (char 'a') (char 'b'))
bparser "skipMany" manyAs (const $ skipMany (char 'a'))
bparser "skipSome" manyAs (const $ skipSome (char 'a'))
bparser "skipCount" manyAs (\(_, n) -> skipCount n (char 'a'))
bparser "skipManyTill" manyAsB (const $ skipManyTill (char 'a') (char 'b'))
bparser "skipSomeTill" manyAsB (const $ skipSomeTill (char 'a') (char 'b'))
bparser "takeWhileP" manyAs (const $ takeWhileP Nothing (== 'a'))
bparser "takeWhile1P" manyAs (const $ takeWhile1P Nothing (== 'a'))
bparser "decimal" mkInt (const (L.decimal :: Parser Integer))
bparser "octal" mkInt (const (L.octal :: Parser Integer))
bparser "hexadecimal" mkInt (const (L.hexadecimal :: Parser Integer))
bparser "scientific" mkInt (const L.scientific)
bparserBs "word32be" many0x33 (const $ many Binary.word32be)
bparserBs "word32le" many0x33 (const $ many Binary.word32le)
forM_ stdSeries $ \n ->
bbundle "single error" n [n]
bbundle "2 errors" 1000 [1, 1000]
bbundle "4 errors" 1000 [1, 500, 1000]
bbundle "100 errors" 1000 [10, 20 .. 1000]
breachOffset 0 1000
breachOffset 0 2000
breachOffset 0 4000
breachOffset 1000 1000
breachOffsetNoLine 0 1000
breachOffsetNoLine 0 2000
breachOffsetNoLine 0 4000
breachOffsetNoLine 1000 1000
-- | Perform a series of measurements with the same parser.
bparser ::
NFData a =>
-- | Name of the benchmark group
String ->
-- | How to construct input
(Int -> Text) ->
-- | The parser receiving its future input
((Text, Int) -> Parser a) ->
Weigh ()
bparser name f p = forM_ stdSeries $ \i -> do
let arg = (f i, i)
p' (s, n) = parse (p (s, n)) "" s
func (name ++ "-" ++ show i) p' arg
-- | Perform a series of measurements with the same parser.
bparserBs ::
NFData a =>
-- | Name of the benchmark group
String ->
-- | How to construct input
(Int -> ByteString) ->
-- | The parser receiving its future input
((ByteString, Int) -> ParserBs a) ->
Weigh ()
bparserBs name f p = forM_ stdSeries $ \i -> do
let arg = (f i, i)
p' (s, n) = parse (p (s, n)) "" s
func (name ++ "-" ++ show i) p' arg
-- | Benchmark the 'errorBundlePretty' function.
bbundle ::
-- | Name of the benchmark
String ->
-- | Number of lines in input stream
Int ->
-- | Lines with parse errors
[Int] ->
Weigh ()
bbundle name totalLines sps = do
let s = take (totalLines * 80) (cycle as)
as = replicate 79 'a' ++ "\n"
f l =
TrivialError
(20 + l * 80)
(Just $ Tokens ('a' :| ""))
(E.singleton $ Tokens ('b' :| ""))
bundle :: ParseErrorBundle String Void
bundle =
ParseErrorBundle
{ bundleErrors = f <$> NE.fromList sps,
bundlePosState =
PosState
{ pstateInput = s,
pstateOffset = 0,
pstateSourcePos = initialPos "",
pstateTabWidth = defaultTabWidth,
pstateLinePrefix = ""
}
}
func
("errorBundlePretty-" ++ show totalLines ++ "-" ++ name)
errorBundlePretty
bundle
-- | Benchmark the 'reachOffset' function.
breachOffset ::
-- | Starting offset in 'PosState'
Int ->
-- | Offset to reach
Int ->
Weigh ()
breachOffset o0 o1 =
func
("reachOffset-" ++ show o0 ++ "-" ++ show o1)
f
(o0 * 80, o1 * 80)
where
f :: (Int, Int) -> PosState Text
f (startOffset, targetOffset) =
snd $
reachOffset
targetOffset
PosState
{ pstateInput = manyAs (targetOffset - startOffset),
pstateOffset = startOffset,
pstateSourcePos = initialPos "",
pstateTabWidth = defaultTabWidth,
pstateLinePrefix = ""
}
-- | Benchmark the 'reachOffsetNoLine' function.
breachOffsetNoLine ::
-- | Starting offset in 'PosState'
Int ->
-- | Offset to reach
Int ->
Weigh ()
breachOffsetNoLine o0 o1 =
func
("reachOffsetNoLine-" ++ show o0 ++ "-" ++ show o1)
f
(o0 * 80, o1 * 80)
where
f :: (Int, Int) -> PosState Text
f (startOffset, targetOffset) =
reachOffsetNoLine
targetOffset
PosState
{ pstateInput = manyAs (targetOffset - startOffset),
pstateOffset = startOffset,
pstateSourcePos = initialPos "",
pstateTabWidth = defaultTabWidth,
pstateLinePrefix = ""
}
-- | The series of sizes to try as part of 'bparser'.
stdSeries :: [Int]
stdSeries = [500, 1000, 2000, 4000]
----------------------------------------------------------------------------
-- Helpers
-- | Generate that many \'a\' characters.
manyAs :: Int -> Text
manyAs n = T.replicate n "a"
-- | Like 'manyAs' but the result is a 'ByteString'.
many0x33 :: Int -> ByteString
many0x33 n = B.replicate n 0x33
-- | Like 'manyAs', but interspersed with \'b\'s.
manyAbs :: Int -> Text
manyAbs n = T.take (if even n then n + 1 else n) (T.replicate n "ab")
-- | Like 'manyAs', but with a \'b\' added to the end.
manyAsB :: Int -> Text
manyAsB n = manyAs n <> "b"
-- | Like 'manyAsB', but returns a 'String'.
manyAsB' :: Int -> String
manyAsB' n = replicate n 'a' ++ "b"
-- | Like 'manyAbs', but ends in a \'b\'.
manyAbs' :: Int -> Text
manyAbs' n = T.take (if even n then n else n + 1) (T.replicate n "ab")
-- | Render an 'Integer' with the number of digits linearly dependent on the
-- argument.
mkInt :: Int -> Text
mkInt n = (T.pack . show) ((10 :: Integer) ^ (n `quot` 100))