megaparsec/tests/Lexer.hs

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-- -*- Mode: Haskell; -*-
--
-- QuickCheck tests for Megaparsec's lexer.
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--
-- Copyright © 2015 Megaparsec contributors
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are
-- met:
--
-- * Redistributions of source code must retain the above copyright notice,
-- this list of conditions and the following disclaimer.
--
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
--
-- This software is provided by the copyright holders "as is" and any
-- express or implied warranties, including, but not limited to, the implied
-- warranties of merchantability and fitness for a particular purpose are
-- disclaimed. In no event shall the copyright holders be liable for any
-- direct, indirect, incidental, special, exemplary, or consequential
-- damages (including, but not limited to, procurement of substitute goods
-- or services; loss of use, data, or profits; or business interruption)
-- however caused and on any theory of liability, whether in contract,
-- strict liability, or tort (including negligence or otherwise) arising in
-- any way out of the use of this software, even if advised of the
-- possibility of such damage.
module Lexer (tests) where
import Control.Applicative (empty)
import Control.Monad (void)
import Data.Char
( readLitChar
, showLitChar
, isDigit
, isAlphaNum
, isSpace
, toLower )
import Data.List (findIndices, isInfixOf)
import Data.Maybe (listToMaybe, maybeToList, isNothing, fromJust)
import Numeric (showInt, showHex, showOct, showSigned)
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import Test.Framework
import Test.Framework.Providers.QuickCheck2 (testProperty)
import Test.QuickCheck
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import Text.Megaparsec.Error
import Text.Megaparsec.Lexer
import Text.Megaparsec.Pos
import Text.Megaparsec.Prim
import Text.Megaparsec.String
import qualified Text.Megaparsec.Char as C
import Util
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tests :: Test
tests = testGroup "Lexer"
[ testProperty "space combinator" prop_space
, testProperty "symbol combinator" prop_symbol
, testProperty "symbol' combinator" prop_symbol'
, testProperty "indentGuard combinator" prop_indentGuard
, testProperty "charLiteral" prop_charLiteral
, testProperty "integer" prop_integer
, testProperty "decimal" prop_decimal
, testProperty "hexadecimal" prop_hexadecimal
, testProperty "octal" prop_octal
, testProperty "float 0" prop_float_0
, testProperty "float 1" prop_float_1
, testProperty "number" prop_number
, testProperty "signed" prop_signed ]
newtype WhiteSpace = WhiteSpace
{ getWhiteSpace :: String }
deriving (Show, Eq)
instance Arbitrary WhiteSpace where
arbitrary = WhiteSpace . concat <$> listOf whiteUnit
newtype Symbol = Symbol
{ getSymbol :: String }
deriving (Show, Eq)
instance Arbitrary Symbol where
arbitrary = Symbol <$> ((++) <$> symbolName <*> whiteChars)
whiteUnit :: Gen String
whiteUnit = oneof [whiteChars, whiteLine, whiteBlock]
whiteChars :: Gen String
whiteChars = listOf $ elements "\t\n "
whiteLine :: Gen String
whiteLine = commentOut <$> arbitrary `suchThat` goodEnough
where commentOut x = "//" ++ x ++ "\n"
goodEnough x = '\n' `notElem` x
whiteBlock :: Gen String
whiteBlock = commentOut <$> arbitrary `suchThat` goodEnough
where commentOut x = "/*" ++ x ++ "*/"
goodEnough x = not $ "*/" `isInfixOf` x
symbolName :: Gen String
symbolName = listOf $ arbitrary `suchThat` isAlphaNum
sc :: Parser ()
sc = space (void C.spaceChar) l b
where l = skipLineComment "//"
b = skipBlockComment "/*" "*/"
sc' :: Parser ()
sc' = space (void $ C.oneOf " \t") empty empty
prop_space :: WhiteSpace -> Property
prop_space w = checkParser p r s
where p = sc
r = Right ()
s = getWhiteSpace w
prop_symbol :: Symbol -> Maybe Char -> Property
prop_symbol = parseSymbol (symbol sc) id
prop_symbol' :: Symbol -> Maybe Char -> Property
prop_symbol' = parseSymbol (symbol' sc) (fmap toLower)
parseSymbol :: (String -> Parser String) -> (String -> String)
-> Symbol -> Maybe Char -> Property
parseSymbol p' f s' t = checkParser p r s
where p = p' (f g)
r | g == s || isSpace (last s) = Right (f g)
| otherwise = posErr (length s - 1) s [uneCh (last s), exEof]
g = takeWhile (not . isSpace) s
s = getSymbol s' ++ maybeToList t
newtype IndLine = IndLine
{ getIndLine :: String }
deriving (Show, Eq)
instance Arbitrary IndLine where
arbitrary = IndLine . concat <$> sequence [spc, sym, spc, eol]
where spc = listOf (elements " \t")
sym = return "xxx"
eol = return "\n"
prop_indentGuard :: IndLine -> IndLine -> IndLine -> Property
prop_indentGuard l0 l1 l2 = checkParser p r s
where p = ip (> 1) >>= \x -> sp >> ip (== x) >> sp >> ip (> x) >> sp
ip = indentGuard sc'
sp = void $ symbol sc' "xxx" <* C.eol
r | f' l0 <= 1 = posErr 0 s msg'
| f' l1 /= f' l0 = posErr (f l1 + g [l0]) s msg'
| f' l2 <= f' l0 = posErr (f l2 + g [l0, l1]) s msg'
| otherwise = Right ()
msg' = [msg "incorrect indentation"]
f = length . takeWhile isSpace . getIndLine
f' x = sourceColumn $
updatePosString (initialPos "") $ take (f x) (getIndLine x)
g xs = sum $ length . getIndLine <$> xs
s = concat $ getIndLine <$> [l0, l1, l2]
prop_charLiteral :: String -> Bool -> Property
prop_charLiteral t i = checkParser charLiteral r s
where b = listToMaybe $ readLitChar s
(h, g) = fromJust b
r | isNothing b = posErr 0 s $ exSpec "literal character" :
[ if null s then uneEof else uneCh (head s) ]
| null g = Right h
| otherwise = posErr l s [uneCh (head g), exEof]
l = length s - length g
s = if null t || i then t else showLitChar (head t) (tail t)
prop_integer :: NonNegative Integer -> Int -> Property
prop_integer n' i = checkParser integer r s
where (r, s) = quasiCorrupted n' i showInt "integer"
prop_decimal :: NonNegative Integer -> Int -> Property
prop_decimal n' i = checkParser decimal r s
where (r, s) = quasiCorrupted n' i showInt "digit"
prop_hexadecimal :: NonNegative Integer -> Int -> Property
prop_hexadecimal n' i = checkParser hexadecimal r s
where (r, s) = quasiCorrupted n' i showHex "hexadecimal digit"
prop_octal :: NonNegative Integer -> Int -> Property
prop_octal n' i = checkParser octal r s
where (r, s) = quasiCorrupted n' i showOct "octal digit"
prop_float_0 :: NonNegative Double -> Property
prop_float_0 n' = checkParser float r s
where n = getNonNegative n'
r = Right n
s = show n
prop_float_1 :: Maybe (NonNegative Integer) -> Property
prop_float_1 n' = checkParser float r s
where r | isNothing n' = posErr 0 s [uneEof, exSpec "float"]
| otherwise = posErr (length s) s [ uneEof, exCh '.', exCh 'E'
, exCh 'e', exSpec "digit" ]
s = maybe "" (show . getNonNegative) n'
prop_number :: Either (NonNegative Integer) (NonNegative Double)
-> Integer -> Property
prop_number n' i = checkParser number r s
where r | null s = posErr 0 s [uneEof, exSpec "number"]
| otherwise =
Right $ case n' of
Left x -> Left $ getNonNegative x
Right x -> Right $ getNonNegative x
s = if i < 5
then ""
else either (show . getNonNegative) (show . getNonNegative) n'
prop_signed :: Integer -> Int -> Bool -> Property
prop_signed n i plus = checkParser p r s
where p = signed (hidden C.space) integer
r | i > length z = Right n
| otherwise = posErr i s $ [uneCh '?', exSpec "integer"] ++
(if i <= 0 then [exCh '+', exCh '-'] else []) ++
[exEof | i > head (findIndices isDigit s)]
z = let bar = showSigned showInt 0 n ""
in if n < 0 || plus then bar else '+' : bar
s = if i <= length z then take i z ++ "?" ++ drop i z else z
quasiCorrupted :: NonNegative Integer -> Int
-> (Integer -> String -> String) -> String
-> (Either ParseError Integer, String)
quasiCorrupted n' i shower l = (r, s)
where n = getNonNegative n'
r | i > length z = Right n
| otherwise = posErr i s $ [uneCh '?', exSpec l] ++
[ exEof | i > 0 ]
z = shower n ""
s = if i <= length z then take i z ++ "?" ++ drop i z else z