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import Utils
import Test.QuickCheck
import Test.QuickCheck.Monadic
import Test.Framework (Test, testGroup, defaultMain)
import Test.Framework.Providers.QuickCheck2 (testProperty)
import Control.Exception (catch)
import Data.Char (chr, isDigit, isHexDigit, isLower, isSpace, isUpper, ord)
import Data.Monoid (Monoid(..))
import Control.Monad
import Data.String (fromString)
import Data.Text.Encoding.Error
import qualified Data.List as L
import qualified Data.Bits as Bits (shiftL, shiftR)
import qualified Data.ByteString as B
import qualified Data.ByteString.Lazy as BL
import qualified Data.Text as T
import qualified Data.Text.Lazy as TL
import qualified Data.Text.Encoding as E
import qualified Pipes.Text.Internal as PE
import qualified Pipes.Text as TP
import qualified Pipes.ByteString as BP
import qualified Pipes as P
main :: IO ()
main = defaultMain [tests]
-- >>> :main -a 10000
tests = testGroup "stream_decode" [
-- testProperty "t_utf8_incr_valid" t_utf8_incr_valid,
testProperty "t_utf8_incr_mixed" t_utf8_incr_mixed ,
testProperty "t_utf8_incr_pipe" t_utf8_incr_pipe,
testProperty "t_utf8_incr_decoding" t_utf8_incr_decoding,
testProperty "t_utf8_dec_some" t_utf8_dec_some]
t_utf8_incr_valid = do
Positive n <- arbitrary
forAll genUnicode $ recode n `eq` id
where recode n = T.concat . feedChunksOf n PE.streamDecodeUtf8 . E.encodeUtf8
feedChunksOf :: Int -> (B.ByteString -> PE.Decoding) -> B.ByteString
-> [T.Text]
feedChunksOf n f bs
| B.null bs = []
| otherwise = let (a,b) = B.splitAt n bs
PE.Some t _ f' = f a
in case f a of
PE.Some t _ f' -> t : feedChunksOf n f' b
_ -> []
t_utf8_incr_mixed = do
Positive n <- arbitrary
txt <- genUnicode
let chunkSize = mod n 7 + 1
forAll (vector 9) $
(roundtrip . chunk chunkSize . appendBytes txt) `eq` (appendBytes txt)
where
roundtrip :: [B.ByteString] -> B.ByteString
roundtrip bss = go PE.streamDecodeUtf8 B.empty bss where
go dec acc [] = acc
go dec acc [bs] = case dec bs of
PE.Some t l dec' -> acc <> E.encodeUtf8 t <> l
PE.Other t bs' -> acc <> E.encodeUtf8 t <> bs'
go dec acc (bs:bss) = case dec bs of
PE.Some t l dec' -> go dec' (acc <> E.encodeUtf8 t) bss
PE.Other t bs' -> acc <> E.encodeUtf8 t <> bs' <> B.concat bss
chunk n bs = let (a,b) = B.splitAt n bs in if B.null a then [] else a : chunk n b
appendBytes txt bts = E.encodeUtf8 txt <> B.pack bts ; (<>) = B.append
t_utf8_incr_pipe = do
Positive m <- arbitrary
Positive n <- arbitrary
txt <- genUnicode
let chunkSize = mod n 7 + 1
bytesLength = mod 10 m
forAll (vector bytesLength) $
(BL.toStrict . BP.toLazy . roundtrip . P.each . chunk chunkSize . appendBytes txt)
`eq`
appendBytes txt
where
roundtrip :: Monad m => P.Producer B.ByteString m r -> P.Producer B.ByteString m r
roundtrip p = join (TP.decodeUtf8 p P.>-> TP.encodeUtf8)
chunk n bs = let (a,b) = B.splitAt n bs in if B.null a then [] else a : chunk n b
appendBytes txt bts = E.encodeUtf8 txt <> B.pack bts ; (<>) = B.append
--
t_utf8_incr_decoding = do
Positive m <- arbitrary
Positive n <- arbitrary
txt <- genUnicode
let chunkSize = mod n 7 + 1
bytesLength = mod 10 m
forAll (vector bytesLength) $
(BL.toStrict . BP.toLazy . roundtrip . P.each . chunk chunkSize . appendBytes txt)
`eq`
appendBytes txt
where
roundtrip :: Monad m => P.Producer B.ByteString m r -> P.Producer B.ByteString m r
roundtrip p = join (TP.decode utf8_start p P.>-> TP.encodeUtf8)
chunk n bs = let (a,b) = B.splitAt n bs in if B.null a then [] else a : chunk n b
appendBytes txt bts = E.encodeUtf8 txt <> B.pack bts ; (<>) = B.append
utf8_start = PE.Some T.empty B.empty (PE.codecDecode PE.utf8)
t_utf8_dec_some = do
Positive m <- arbitrary
txt <- genUnicode
let bytesLength = mod 10 m :: Int
forAll (vector bytesLength) $
(roundtrip . appendBytes txt)
`eq`
appendBytes txt
where
roundtrip bs = case PE.decodeSomeUtf8 bs of
(txt,bys) -> E.encodeUtf8 txt <> bys
appendBytes txt bts = E.encodeUtf8 txt <> B.pack bts ; (<>) = B.append
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