{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PackageImports #-} {-# LANGUAGE CPP #-} module TestByteString ( tests ) where import Distribution.TestSuite as TestSuite import Data.Attoparsec.ByteString as A import qualified Data.ByteString as B import Data.ByteString.Internal (c2w) import "parsers" Text.Parser.Token import Replace.Attoparsec.ByteString import Control.Applicative import Data.Monoid tests :: IO [Test] tests = return [ Test $ runParserTest "findAll upperChar" (findAllCap upperChar) ("aBcD" :: B.ByteString) [Left "a", Right ("B", c2w 'B'), Left "c", Right ("D", c2w 'D')] -- check that sepCap can progress even when parser consumes nothing -- and succeeds. , Test $ runParserTest "zero-consumption parser" (sepCap (many upperChar)) ("aBcD" :: B.ByteString) [Left "a", Right [c2w 'B'], Left "c", Right [c2w 'D']] , Test $ runParserTest "scinum" (sepCap scinum) ("1E3") ([Right (1,3)]) , Test $ runParserTest "monad fail" (sepCap (fail "" :: Parser ())) ("xxx") ([Left "xxx"]) #if MIN_VERSION_GLASGOW_HASKELL(8,6,0,0) , Test $ runParserTest "read fail" (sepCap (return (read "a" :: Int) :: Parser Int)) ("a") ([Left "a"]) #endif , Test $ runParserFeed "const string" (sepCap (string "aa")) (" a") ("a ") ([Left " ",Right"aa",Left" "]) , Test $ streamEditTest "x to o" (string "x") (const "o") "x x x" "o o o" , Test $ streamEditTest "x to o inner" (string "x") (const "o") " x x x " " o o o " , Test $ streamEditTest "ordering" (string "456") (const "ABC") "123456789" "123ABC789" ] where runParserTest nam p input expected = TestInstance { run = do case parseOnly p input of Left e -> return (Finished $ TestSuite.Fail $ show e) Right output -> if (output == expected) then return (Finished Pass) else return (Finished $ TestSuite.Fail $ show output ++ " ≠ " ++ show expected) , name = "parseOnly sepCap " <> nam , tags = [] , options = [] , setOption = \_ _ -> Left "no options supported" } runParserFeed nam p input1 input2 expected = TestInstance { run = do case parse p input1 of A.Fail _i _ e -> return (Finished $ TestSuite.Fail $ show e) A.Partial cont1 -> case cont1 input2 of A.Fail _i _ e -> return (Finished $ TestSuite.Fail $ show e) A.Partial cont2 -> case cont2 "" of A.Fail _i _ e -> return (Finished $ TestSuite.Fail $ show e) A.Partial _ -> return (Finished $ TestSuite.Fail $ "Should not ask for more input") A.Done _i output -> if (output == expected) then return (Finished Pass) else return (Finished $ TestSuite.Fail $ show output ++ " ≠ " ++ show expected) A.Done _i _output -> return (Finished $ TestSuite.Fail $ "Should ask for more input") A.Done _i _output -> return (Finished $ TestSuite.Fail $ "Should ask for more input") , name = "parse Partial sepCap " <> nam , tags = [] , options = [] , setOption = \_ _ -> Left "no options supported" } streamEditTest nam sep editor input expected = TestInstance { run = do let output = streamEdit sep editor input if (output == expected) then return (Finished Pass) else return (Finished $ TestSuite.Fail $ show output ++ " ≠ " ++ show expected) , name = "streamEdit " ++ nam , tags = [] , options = [] , setOption = \_ _ -> Left "no options supported" } scinum :: Parser (Double, Integer) scinum = do m <- (fromIntegral :: Integer -> Double) <$> decimal _ <- string "E" e <- decimal return (m, e) upperChar = satisfy $ \c -> c >= c2w 'A' && c <= c2w 'Z'