-- -*- Mode: Haskell; -*- -- -- QuickCheck tests for Megaparsec's primitive parser combinators. -- -- 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. {-# OPTIONS -fno-warn-orphans #-} module Prim (tests) where import Control.Applicative import Control.Monad (guard) import Data.Bool (bool) import Data.Char (isLetter) import Data.Foldable (asum) import Data.List (isPrefixOf) import Data.Maybe (maybeToList, fromMaybe) import Test.Framework import Test.Framework.Providers.QuickCheck2 (testProperty) import Test.QuickCheck import Text.Megaparsec.Char import Text.Megaparsec.Pos import Text.Megaparsec.Prim import Text.Megaparsec.String import Pos () import Util tests :: Test tests = testGroup "Primitive parser combinators" [ testProperty "ParsecT functor" prop_functor , testProperty "ParsecT applicative (<*>)" prop_applicative_0 , testProperty "ParsecT applicative (*>)" prop_applicative_1 , testProperty "ParsecT applicative (<*)" prop_applicative_2 , testProperty "ParsecT alternative empty and (<|>)" prop_alternative_0 , testProperty "ParsecT alternative (<|>)" prop_alternative_1 , testProperty "ParsecT alternative (<|>) pos" prop_alternative_2 , testProperty "ParsecT alternative (<|>) hints" prop_alternative_3 , testProperty "ParsecT alternative many" prop_alternative_4 , testProperty "ParsecT alternative some" prop_alternative_5 , testProperty "ParsecT alternative optional" prop_alternative_6 , testProperty "ParsecT monad return" prop_monad_0 , testProperty "ParsecT monad (>>)" prop_monad_1 , testProperty "ParsecT monad (>>=)" prop_monad_2 , testProperty "ParsecT monad fail" prop_monad_3 , testProperty "combinator unexpected" prop_unexpected , testProperty "combinator label" prop_label , testProperty "combinator hidden hints" prop_hidden_0 , testProperty "combinator hidden error" prop_hidden_1 , testProperty "combinator try" prop_try , testProperty "combinator lookAhead" prop_lookAhead_0 , testProperty "combinator lookAhead hints" prop_lookAhead_1 , testProperty "combinator lookAhead messages" prop_lookAhead_2 , testProperty "combinator notFollowedBy" prop_notFollowedBy_0 , testProperty "combinator notFollowedBy twice" prop_notFollowedBy_1 , testProperty "combinator notFollowedBy eof" prop_notFollowedBy_2 , testProperty "combinator token" prop_token , testProperty "combinator tokens" prop_tokens , testProperty "parser state position" prop_state_pos , testProperty "parser state input" prop_state_input , testProperty "parser state general" prop_state , testProperty "user state set and get" prop_user_state , testProperty "user state backtracking" prop_user_backtrack ] instance Arbitrary u => Arbitrary (State String u) where arbitrary = State <$> arbitrary <*> arbitrary <*> arbitrary -- Functor instance prop_functor :: Integer -> Integer -> Property prop_functor n m = ((+ m) <$> return n) /=\ n + m .&&. ((* n) <$> return m) /=\ n * m -- Applicative instance prop_applicative_0 :: Integer -> Integer -> Property prop_applicative_0 n m = ((+) <$> pure n <*> pure m) /=\ n + m prop_applicative_1 :: Integer -> Integer -> Property prop_applicative_1 n m = (pure n *> pure m) /=\ m prop_applicative_2 :: Integer -> Integer -> Property prop_applicative_2 n m = (pure n <* pure m) /=\ n -- Alternative instance prop_alternative_0 :: Integer -> Property prop_alternative_0 n = (empty <|> return n) /=\ n prop_alternative_1 :: String -> String -> Property prop_alternative_1 s0 s1 | s0 == s1 = checkParser p (Right s0) s1 | null s0 = checkParser p (posErr 0 s1 [uneCh (head s1), exEof]) s1 | s0 `isPrefixOf` s1 = checkParser p (posErr s0l s1 [uneCh (s1 !! s0l), exEof]) s1 | otherwise = checkParser p (Right s0) s0 .&&. checkParser p (Right s1) s1 where p = try (string s0) <|> string s1 s0l = length s0 prop_alternative_2 :: Char -> Char -> Char -> Bool -> Property prop_alternative_2 a b c l = checkParser p r s where p = char a <|> (char b >> char a) r | l = Right a | a == b = posErr 1 s [uneCh c, exEof] | a == c = Right a | otherwise = posErr 1 s [uneCh c, exCh a] s = if l then [a] else [b,c] prop_alternative_3 :: Property prop_alternative_3 = checkParser p r s where p = asum [empty, try (string ">>>"), empty, return "foo"] "bar" p' = bsum [empty, try (string ">>>"), empty, return "foo"] "bar" bsum = foldl (<|>) empty r = simpleParse p' s s = ">>" prop_alternative_4 :: NonNegative Int -> NonNegative Int -> NonNegative Int -> Property prop_alternative_4 a' b' c' = checkParser p r s where [a,b,c] = getNonNegative <$> [a',b',c'] p = (++) <$> many (char 'a') <*> many (char 'b') r | null s = Right s | c > 0 = posErr (a + b) s $ [uneCh 'c', exCh 'b', exEof] ++ [exCh 'a' | b == 0] | otherwise = Right s s = abcRow a b c prop_alternative_5 :: NonNegative Int -> NonNegative Int -> NonNegative Int -> Property prop_alternative_5 a' b' c' = checkParser p r s where [a,b,c] = getNonNegative <$> [a',b',c'] p = (++) <$> some (char 'a') <*> some (char 'b') r | null s = posErr 0 s [uneEof, exCh 'a'] | a == 0 = posErr 0 s [uneCh (head s), exCh 'a'] | b == 0 = posErr a s $ [exCh 'a', exCh 'b'] ++ if c > 0 then [uneCh 'c'] else [uneEof] | c > 0 = posErr (a + b) s [uneCh 'c', exCh 'b', exEof] | otherwise = Right s s = abcRow a b c prop_alternative_6 :: Bool -> Bool -> Bool -> Property prop_alternative_6 a b c = checkParser p r s where p = f <$> optional (char 'a') <*> optional (char 'b') f x y = maybe "" (:[]) x ++ maybe "" (:[]) y r | c = posErr ab s $ [uneCh 'c', exEof] ++ [exCh 'a' | not a && not b] ++ [exCh 'b' | not b] | otherwise = Right s s = abcRow' a b c ab = fromEnum a + fromEnum b -- Monad instance prop_monad_0 :: Integer -> Property prop_monad_0 n = checkParser (return n) (Right n) "" prop_monad_1 :: Char -> Char -> Maybe Char -> Property prop_monad_1 a b c = checkParser p r s where p = char a >> char b r = simpleParse (char a *> char b) s s = a : b : maybeToList c prop_monad_2 :: Char -> Char -> Maybe Char -> Property prop_monad_2 a b c = checkParser p r s where p = char a >>= \x -> char b >> return x r = simpleParse (char a <* char b) s s = a : b : maybeToList c prop_monad_3 :: String -> Property prop_monad_3 m = checkParser p r s where p = fail m :: Parser () r | null m = posErr 0 s [] | otherwise = posErr 0 s [msg m] s = "" -- TODO MonadReader instance -- TODO MonadState instance -- Primitive combinators prop_unexpected :: String -> Property prop_unexpected m = checkParser p r s where p = unexpected m :: Parser () r | null m = posErr 0 s [] | otherwise = posErr 0 s [uneSpec m] s = "" prop_label :: NonNegative Int -> NonNegative Int -> NonNegative Int -> String -> Property prop_label a' b' c' l = checkParser p r s where [a,b,c] = getNonNegative <$> [a',b',c'] p = (++) <$> many (char 'a') <*> (many (char 'b') l) r | null s = Right s | c > 0 = posErr (a + b) s $ [uneCh 'c', exSpec l, exEof] ++ [exCh 'a' | b == 0] | otherwise = Right s s = abcRow a b c prop_hidden_0 :: NonNegative Int -> NonNegative Int -> NonNegative Int -> Property prop_hidden_0 a' b' c' = checkParser p r s where [a,b,c] = getNonNegative <$> [a',b',c'] p = (++) <$> many (char 'a') <*> hidden (many (char 'b')) r | null s = Right s | c > 0 = posErr (a + b) s $ [uneCh 'c', exEof] ++ [exCh 'a' | b == 0] | otherwise = Right s s = abcRow a b c prop_hidden_1 :: String -> NonEmptyList Char -> String -> Property prop_hidden_1 a c' s = checkParser p r s where c = getNonEmpty c' p = fromMaybe a <$> optional (hidden $ string c) r | null s = Right a | c == s = Right s | head c /= head s = posErr 0 s [uneCh (head s), exEof] | otherwise = simpleParse (string c) s prop_try :: String -> String -> String -> Property prop_try pre s1' s2' = checkParser p r s where s1 = pre ++ s1' s2 = pre ++ s2' p = try (string s1) <|> string s2 r | s == s1 || s == s2 = Right s | otherwise = posErr 0 s $ bool [uneStr pre] [uneEof] (null s) ++ [uneStr pre, exStr s1, exStr s2] s = pre prop_lookAhead_0 :: Bool -> Bool -> Bool -> Property prop_lookAhead_0 a b c = checkParser p r s where p = do l <- lookAhead (oneOf "ab" "label") guard (l == h) char 'a' h = head s r | null s = posErr 0 s [uneEof, exSpec "label"] | s == "a" = Right 'a' | h == 'b' = posErr 0 s [uneCh 'b', exCh 'a'] | h == 'c' = posErr 0 s [uneCh 'c', exSpec "label"] | otherwise = posErr 1 s [uneCh (s !! 1), exEof] s = abcRow' a b c prop_lookAhead_1 :: String -> Property prop_lookAhead_1 s = checkParser p r s where p = lookAhead (some letterChar) >> fail "failed" :: Parser () h = head s r | null s = posErr 0 s [uneEof, exSpec "letter"] | isLetter h = posErr 0 s [msg "failed"] | otherwise = posErr 0 s [uneCh h, exSpec "letter"] prop_lookAhead_2 :: Bool -> Bool -> Bool -> Property prop_lookAhead_2 a b c = checkParser p r s where p = lookAhead (some (char 'a')) >> char 'b' r | null s = posErr 0 s [uneEof, exCh 'a'] | a = posErr 0 s [uneCh 'a', exCh 'b'] | otherwise = posErr 0 s [uneCh (head s), exCh 'a'] s = abcRow' a b c prop_notFollowedBy_0 :: NonNegative Int -> NonNegative Int -> NonNegative Int -> Property prop_notFollowedBy_0 a' b' c' = checkParser p r s where [a,b,c] = getNonNegative <$> [a',b',c'] p = many (char 'a') <* notFollowedBy (char 'b') <* many (char 'c') r | b > 0 = posErr a s [uneCh 'b', exCh 'a'] | otherwise = Right (replicate a 'a') s = abcRow a b c prop_notFollowedBy_1 :: NonNegative Int -> NonNegative Int -> NonNegative Int -> Property prop_notFollowedBy_1 a' b' c' = checkParser p r s where [a,b,c] = getNonNegative <$> [a',b',c'] p = many (char 'a') <* f (char 'c') <* many (char 'c') f = notFollowedBy . notFollowedBy -- = 'lookAhead' in this case r | b == 0 && c > 0 = Right (replicate a 'a') | b > 0 = posErr a s [uneCh 'b', exCh 'a'] | otherwise = posErr a s [uneEof, exCh 'a'] s = abcRow a b c prop_notFollowedBy_2 :: NonNegative Int -> NonNegative Int -> NonNegative Int -> Property prop_notFollowedBy_2 a' b' c' = checkParser p r s where [a,b,c] = getNonNegative <$> [a',b',c'] p = many (char 'a') <* notFollowedBy eof <* many anyChar r | b > 0 || c > 0 = Right (replicate a 'a') | otherwise = posErr a s [uneEof, exCh 'a'] s = abcRow a b c -- We omit tests for 'eof' here because it's used virtually everywhere, it's -- already thoroughly tested. prop_token :: String -> Property prop_token s = checkParser p r s where p = token nextPos testChar nextPos pos x _ = updatePosChar pos x testChar x = if isLetter x then Just x else Nothing h = head s r | null s = posErr 0 s [uneEof] | isLetter h && length s == 1 = Right (head s) | isLetter h && length s > 1 = posErr 1 s [uneCh (s !! 1), exEof] | otherwise = posErr 0 s [uneCh h] prop_tokens :: String -> String -> Property prop_tokens a = checkString p a (showToken a) where p = tokens updatePosString a -- Parser state combinators prop_state_pos :: SourcePos -> Property prop_state_pos pos = p /=\ pos where p = setPosition pos >> getPosition prop_state_input :: String -> Property prop_state_input s = p /=\ s where p = do st0 <- getInput guard (null st0) setInput s result <- string s st1 <- getInput guard (null st1) return result prop_state :: State String Integer -> State String Integer -> Property prop_state s1 s2 = runParser p 0 "" "" === Right (f s2 s1) where f (State s1' pos u1) (State s2' _ u2) = State (max s1' s2' ) pos (u1 + u2) p = do st <- getParserState guard (st == State "" (initialPos "") 0) setParserState s1 updateParserState (f s2) getParserState -- User state combinators prop_user_state :: Integer -> Integer -> Property prop_user_state n m = runParser p 0 "" "" === Right (n + m) where p = setState n >> modifyState (+ m) >> getState prop_user_backtrack :: Integer -> Integer -> Property prop_user_backtrack n m = runParser p 0 "" "" === Right n where p = setState n >> lookAhead (setState m >> eof) >> getState