{-# OPTIONS_GHC -fno-warn-orphans #-} {-# LANGUAGE CPP #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE OverloadedStrings #-} module Data.LargeHashable.Tests.Helper where -- keep imports in alphabetic order (in Emacs, use "M-x sort-lines") import Control.Monad import Data.Bytes.Serial import Data.Hashable import Data.LargeHashable import Data.Time.Calendar import Data.Time.Clock import Data.Time.Clock.TAI import Data.Time.LocalTime import GHC.Generics import Test.QuickCheck import qualified Data.ByteString as B import qualified Data.ByteString.Lazy as BL import qualified Data.ByteString.Short as BS import qualified Data.HashMap.Lazy as HML import qualified Data.HashSet as HS import qualified Data.Scientific as Sci import qualified Data.Strict.Tuple as Tuple import qualified Data.Text as T import qualified Data.Text.Lazy as TL import qualified Data.Vector as V #if !MIN_VERSION_QuickCheck(2,8,2) -- keep imports in alphabetic order (in Emacs, use "M-x sort-lines") import qualified Data.IntMap as IM import qualified Data.IntSet as IS import qualified Data.Map as M import qualified Data.Set as S #endif instance Arbitrary T.Text where arbitrary = fmap T.pack arbitrary shrink = map T.pack . shrink . T.unpack instance Arbitrary B.ByteString where arbitrary = fmap B.pack arbitrary shrink = map B.pack . shrink . B.unpack instance Arbitrary BL.ByteString where arbitrary = fmap BL.fromChunks arbitrary shrink = map BL.fromChunks . shrink . BL.toChunks instance Arbitrary TL.Text where arbitrary = fmap TL.fromChunks arbitrary shrink = map TL.fromChunks . shrink . TL.toChunks instance Arbitrary a => Arbitrary (V.Vector a) where arbitrary = liftM V.fromList arbitrary shrink = map V.fromList . shrink . V.toList instance Arbitrary Sci.Scientific where arbitrary = liftM2 Sci.scientific arbitrary arbitrary shrink = shrinkRealFrac #if !MIN_VERSION_aeson(2,0,0) instance Arbitrary J.Value where arbitrary = sized arbitraryJsonValue where arbitraryJsonValue n = if n <= 0 then oneof simpleGens else frequency $ (map (\g -> (1, g)) simpleGens) ++ [(3, arbitraryObject (n `div` 2)) ,(3, arbitraryArray (n `div` 2))] arbitraryObject n = do l <- arbitraryListOfJsonValues n elems <- forM l $ \v -> do k <- elements ["key", "foo", "bar", "baz", "spam", "egg", "chicken", "dog" ,"any", "what", "santa", "mark", "wardrobe", "baseball"] return (k, v) return (J.Object (HM.fromList elems)) arbitraryArray n = do l <- arbitraryListOfJsonValues n return (J.Array (V.fromList l)) arbitraryListOfJsonValues n = do size <- elements [(0::Int)..10] forM [1..(size::Int)] $ \_ -> arbitraryJsonValue n simpleGens = [liftM J.String arbitrary ,liftM J.Number arbitrary ,liftM J.Bool arbitrary ,return J.Null] shrink v = case v of J.Object obj -> map J.Object (shrink obj) J.Array arr -> map J.Array (shrink arr) J.String t -> map J.String (shrink t) J.Number n -> map J.Number (shrink n) J.Bool _ -> [] J.Null -> [] #endif instance (Eq k, Hashable k, Arbitrary k, Arbitrary a) => Arbitrary (HML.HashMap k a) where arbitrary = fmap HML.fromList arbitrary shrink = map HML.fromList . shrink . HML.toList instance (Eq a, Hashable a, Arbitrary a) => Arbitrary (HS.HashSet a) where arbitrary = fmap HS.fromList arbitrary shrink = map HS.fromList . shrink . HS.toList #if !MIN_VERSION_QuickCheck(2,8,2) instance (Ord k, Arbitrary k, Arbitrary a) => Arbitrary (M.Map k a) where arbitrary = fmap M.fromList arbitrary shrink = map M.fromList . shrink . M.toList instance Arbitrary a => Arbitrary (IM.IntMap a) where arbitrary = fmap IM.fromList arbitrary shrink = map IM.fromList . shrink . IM.toList instance (Ord a, Arbitrary a) => Arbitrary (S.Set a) where arbitrary = fmap S.fromList arbitrary shrink = map S.fromList . shrink . S.toList instance Arbitrary IS.IntSet where arbitrary = fmap IS.fromList arbitrary shrink = map IS.fromList . shrink . IS.toList #endif data TestA = TestA { age :: Int , wealth :: Integer , isStudent :: Bool , name :: T.Text , initials :: [Char] , legLength :: (Int, Int) } deriving (Generic, Eq, Show) instance LargeHashable TestA instance Serial TestA instance Arbitrary TestA where arbitrary = TestA <$> arbitrary <*> arbitrary <*> arbitrary <*> arbitrary <*> arbitrary <*> arbitrary instance Arbitrary BS.ShortByteString where arbitrary = liftM BS.pack arbitrary shrink x = map BS.pack (shrink (BS.unpack x)) instance Arbitrary Day where arbitrary = do n <- arbitrary return (ModifiedJulianDay (n `mod` 1000)) shrink (ModifiedJulianDay n) = map ModifiedJulianDay (shrink n) instance Arbitrary DiffTime where arbitrary = liftM picosecondsToDiffTime arbitrary shrink delta = let n = toRational delta in map fromRational (shrink n) instance Arbitrary UTCTime where arbitrary = do day <- arbitrary picos <- arbitrary return (UTCTime day (picosecondsToDiffTime (picos `mod` 86401))) instance Arbitrary AbsoluteTime where arbitrary = do diff <- arbitrary return (addAbsoluteTime diff taiEpoch) instance Arbitrary NominalDiffTime where arbitrary = do r <- arbitrary return (fromRational r) instance Arbitrary TimeZone where arbitrary = do n <- arbitrary s <- arbitrary b <- arbitrary return (TimeZone (n `mod` (60*24)) b s) instance Arbitrary TimeOfDay where arbitrary = do h <- arbitrary m <- arbitrary s <- arbitrary return (TimeOfDay (h `mod` 24) (m `mod` 60) (fromInteger (s `mod` 61))) instance Arbitrary LocalTime where arbitrary = do d <- arbitrary t <- arbitrary return (LocalTime d t) instance Arbitrary ZonedTime where arbitrary = do t <- arbitrary z <- arbitrary return (ZonedTime t z) instance Arbitrary UniversalTime where arbitrary = do r <- arbitrary return (ModJulianDate r) instance (Arbitrary a, Arbitrary b) => Arbitrary (Tuple.Pair a b) where arbitrary = do x <- arbitrary y <- arbitrary return (x Tuple.:!: y) instance Arbitrary Word128 where arbitrary = Word128 <$> arbitrary <*> arbitrary instance Arbitrary Word256 where arbitrary = Word256 <$> arbitrary <*> arbitrary