megaparsec/tests/Combinator.hs

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-- -*- Mode: Haskell; -*-
--
-- QuickCheck tests for Megaparsec's generic 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.
module Combinator (tests) where
import Control.Applicative
import Data.List (intersperse)
import Data.Maybe (fromMaybe, maybeToList, isNothing, fromJust)
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import Test.Framework
import Test.Framework.Providers.QuickCheck2 (testProperty)
import Test.QuickCheck
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import Text.Megaparsec.Char
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import Text.Megaparsec.Combinator
import Util
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tests :: Test
tests = testGroup "Generic parser combinators"
[ testProperty "combinator between" prop_between
, testProperty "combinator choice" prop_choice
, testProperty "combinator count" prop_count
, testProperty "combinator count'" prop_count'
, testProperty "combinator endBy" prop_endBy
, testProperty "combinator endBy1" prop_endBy1
, testProperty "combinator manyTill" prop_manyTill
, testProperty "combinator someTill" prop_someTill
, testProperty "combinator option" prop_option
, testProperty "combinator sepBy" prop_sepBy
, testProperty "combinator sepBy1" prop_sepBy1
, testProperty "combinator sepEndBy" prop_sepEndBy
, testProperty "combinator sepEndBy1" prop_sepEndBy1
, testProperty "combinator skipMany" prop_skipMany
, testProperty "combinator skipSome" prop_skipSome ]
prop_between :: String -> Char -> NonNegative Int -> String -> Property
prop_between pre c n' post = checkParser p r s
where p = between (string pre) (string post) (many (char c))
n = getNonNegative n'
b = length $ takeWhile (== c) post
r | b > 0 = posErr (length pre + n + b) s $ exStr post :
if length post == b
then [uneEof]
else [uneCh (post !! b), exCh c]
| otherwise = Right z
z = replicate n c
s = pre ++ z ++ post
prop_choice :: NonEmptyList Char -> Char -> Property
prop_choice cs' s' = checkParser p r s
where cs = getNonEmpty cs'
p = choice $ char <$> cs
r | s' `elem` cs = Right s'
| otherwise = posErr 0 s $ uneCh s' : (exCh <$> cs)
s = [s']
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prop_count :: Int -> NonNegative Int -> Property
prop_count n x' = checkParser p r s
where x = getNonNegative x'
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p = count n (char 'x')
r = simpleParse (count' n n (char 'x')) s
s = replicate x 'x'
prop_count' :: Int -> Int -> NonNegative Int -> Property
prop_count' m n x' = checkParser p r s
where x = getNonNegative x'
p = count' m n (char 'x')
r | n <= 0 || m > n =
if x == 0
then Right ""
else posErr 0 s [uneCh 'x', exEof]
| m <= x && x <= n = Right s
| x < m = posErr x s [uneEof, exCh 'x']
| otherwise = posErr n s [uneCh 'x', exEof]
s = replicate x 'x'
prop_endBy :: NonNegative Int -> Char -> Property
prop_endBy n' c = checkParser p r s
where n = getNonNegative n'
p = endBy (char 'a') (char '-')
r | c == 'a' && n == 0 = posErr 1 s [uneEof, exCh '-']
| c == 'a' = posErr (g n) s [uneCh 'a', exCh '-']
| c == '-' && n == 0 = posErr 0 s [uneCh '-', exCh 'a', exEof]
| c /= '-' = posErr (g n) s $ uneCh c :
(if n > 0 then exCh '-' else exEof) :
[exCh 'a' | n == 0]
| otherwise = Right (replicate n 'a')
s = intersperse '-' (replicate n 'a') ++ [c]
prop_endBy1 :: NonNegative Int -> Char -> Property
prop_endBy1 n' c = checkParser p r s
where n = getNonNegative n'
p = endBy1 (char 'a') (char '-')
r | c == 'a' && n == 0 = posErr 1 s [uneEof, exCh '-']
| c == 'a' = posErr (g n) s [uneCh 'a', exCh '-']
| c == '-' && n == 0 = posErr 0 s [uneCh '-', exCh 'a']
| c /= '-' = posErr (g n) s $ uneCh c :
[exCh '-' | n > 0] ++
[exCh 'a' | n == 0]
| otherwise = Right (replicate n 'a')
s = intersperse '-' (replicate n 'a') ++ [c]
prop_manyTill :: NonNegative Int -> NonNegative Int
-> NonNegative Int -> Property
prop_manyTill a' b' c' = checkParser p r s
where [a,b,c] = getNonNegative <$> [a',b',c']
p = (,) <$> manyTill letterChar (char 'c') <*> many letterChar
r | c == 0 = posErr (a + b) s [uneEof, exCh 'c', exSpec "letter"]
| otherwise = let (pre, post) = break (== 'c') s
in Right (pre, drop 1 post)
s = abcRow a b c
prop_someTill :: NonNegative Int -> NonNegative Int
-> NonNegative Int -> Property
prop_someTill a' b' c' = checkParser p r s
where [a,b,c] = getNonNegative <$> [a',b',c']
p = (,) <$> someTill letterChar (char 'c') <*> many letterChar
r | null s = posErr 0 s [uneEof, exSpec "letter"]
| c == 0 = posErr (a + b) s [uneEof, exCh 'c', exSpec "letter"]
| s == "c" = posErr 1 s [uneEof, exCh 'c', exSpec "letter"]
| head s == 'c' = Right ("c", drop 2 s)
| otherwise = let (pre, post) = break (== 'c') s
in Right (pre, drop 1 post)
s = abcRow a b c
prop_option :: String -> String -> String -> Property
prop_option d a s = checkParser p r s
where p = option d (string a)
r = simpleParse (fromMaybe d <$> optional (string a)) s
prop_sepBy :: NonNegative Int -> Maybe Char -> Property
prop_sepBy n' c' = checkParser p r s
where n = getNonNegative n'
c = fromJust c'
p = sepBy (char 'a') (char '-')
r | isNothing c' = Right (replicate n 'a')
| c == 'a' && n == 0 = Right "a"
| n == 0 = posErr 0 s [uneCh c, exCh 'a', exEof]
| c == '-' = posErr (length s) s [uneEof, exCh 'a']
| otherwise = posErr (g n) s [uneCh c, exCh '-', exEof]
s = intersperse '-' (replicate n 'a') ++ maybeToList c'
prop_sepBy1 :: NonNegative Int -> Maybe Char -> Property
prop_sepBy1 n' c' = checkParser p r s
where n = getNonNegative n'
c = fromJust c'
p = sepBy1 (char 'a') (char '-')
r | isNothing c' && n >= 1 = Right (replicate n 'a')
| isNothing c' = posErr 0 s [uneEof, exCh 'a']
| c == 'a' && n == 0 = Right "a"
| n == 0 = posErr 0 s [uneCh c, exCh 'a']
| c == '-' = posErr (length s) s [uneEof, exCh 'a']
| otherwise = posErr (g n) s [uneCh c, exCh '-', exEof]
s = intersperse '-' (replicate n 'a') ++ maybeToList c'
prop_sepEndBy :: NonNegative Int -> Maybe Char -> Property
prop_sepEndBy n' c' = checkParser p r s
where n = getNonNegative n'
c = fromJust c'
p = sepEndBy (char 'a') (char '-')
a = Right $ replicate n 'a'
r | isNothing c' = a
| c == 'a' && n == 0 = a
| n == 0 = posErr 0 s [uneCh c, exCh 'a', exEof]
| c == '-' = a
| otherwise = posErr (g n) s [uneCh c, exCh '-', exEof]
s = intersperse '-' (replicate n 'a') ++ maybeToList c'
prop_sepEndBy1 :: NonNegative Int -> Maybe Char -> Property
prop_sepEndBy1 n' c' = checkParser p r s
where n = getNonNegative n'
c = fromJust c'
p = sepEndBy1 (char 'a') (char '-')
a = Right $ replicate n 'a'
r | isNothing c' && n >= 1 = a
| isNothing c' = posErr 0 s [uneEof, exCh 'a']
| c == 'a' && n == 0 = a
| n == 0 = posErr 0 s [uneCh c, exCh 'a']
| c == '-' = a
| otherwise = posErr (g n) s [uneCh c, exCh '-', exEof]
s = intersperse '-' (replicate n 'a') ++ maybeToList c'
prop_skipMany :: Char -> NonNegative Int -> String -> Property
prop_skipMany c n' a = checkParser p r s
where p = skipMany (char c) *> string a
n = getNonNegative n'
r = simpleParse (many (char c) >> string a) s
s = replicate n c ++ a
prop_skipSome :: Char -> NonNegative Int -> String -> Property
prop_skipSome c n' a = checkParser p r s
where p = skipSome (char c) *> string a
n = getNonNegative n'
r = simpleParse (some (char c) >> string a) s
s = replicate n c ++ a
g :: Int -> Int
g x = x + if x > 0 then x - 1 else 0