{-# LANGUAGE FlexibleInstances, GADTs #-}
module Utilities where
import Test.QuickCheck
import qualified Data.Vector as DV
import qualified Data.Vector.Generic as DVG
import qualified Data.Vector.Primitive as DVP
import qualified Data.Vector.Storable as DVS
import qualified Data.Vector.Fusion.Stream as S
import Data.List ( sortBy )
instance Show a => Show (S.Stream a) where
show s = "Data.Vector.Fusion.Stream.fromList " ++ show (S.toList s)
instance Arbitrary a => Arbitrary (DV.Vector a) where
arbitrary = fmap DV.fromList arbitrary
instance CoArbitrary a => CoArbitrary (DV.Vector a) where
coarbitrary = coarbitrary . DV.toList
instance (Arbitrary a, DVP.Prim a) => Arbitrary (DVP.Vector a) where
arbitrary = fmap DVP.fromList arbitrary
instance (CoArbitrary a, DVP.Prim a) => CoArbitrary (DVP.Vector a) where
coarbitrary = coarbitrary . DVP.toList
instance (Arbitrary a, DVS.Storable a) => Arbitrary (DVS.Vector a) where
arbitrary = fmap DVS.fromList arbitrary
instance (CoArbitrary a, DVS.Storable a) => CoArbitrary (DVS.Vector a) where
coarbitrary = coarbitrary . DVS.toList
instance Arbitrary a => Arbitrary (S.Stream a) where
arbitrary = fmap S.fromList arbitrary
instance CoArbitrary a => CoArbitrary (S.Stream a) where
coarbitrary = coarbitrary . S.toList
class (Testable (EqTest a), Conclusion (EqTest a)) => TestData a where
type Model a
model :: a -> Model a
unmodel :: Model a -> a
type EqTest a
equal :: a -> a -> EqTest a
instance Eq a => TestData (S.Stream a) where
type Model (S.Stream a) = [a]
model = S.toList
unmodel = S.fromList
type EqTest (S.Stream a) = Property
equal x y = property (x == y)
instance Eq a => TestData (DV.Vector a) where
type Model (DV.Vector a) = [a]
model = DV.toList
unmodel = DV.fromList
type EqTest (DV.Vector a) = Property
equal x y = property (x == y)
instance (Eq a, DVP.Prim a) => TestData (DVP.Vector a) where
type Model (DVP.Vector a) = [a]
model = DVP.toList
unmodel = DVP.fromList
type EqTest (DVP.Vector a) = Property
equal x y = property (x == y)
instance (Eq a, DVS.Storable a) => TestData (DVS.Vector a) where
type Model (DVS.Vector a) = [a]
model = DVS.toList
unmodel = DVS.fromList
type EqTest (DVS.Vector a) = Property
equal x y = property (x == y)
#define id_TestData(ty) \
instance TestData ty where { \
type Model ty = ty; \
model = id; \
unmodel = id; \
\
type EqTest ty = Property; \
equal x y = property (x == y) }
id_TestData(Bool)
id_TestData(Int)
id_TestData(Float)
id_TestData(Double)
id_TestData(Ordering)
-- Functorish models
-- All of these need UndecidableInstances although they are actually well founded. Oh well.
instance (Eq a, TestData a) => TestData (Maybe a) where
type Model (Maybe a) = Maybe (Model a)
model = fmap model
unmodel = fmap unmodel
type EqTest (Maybe a) = Property
equal x y = property (x == y)
instance (Eq a, TestData a) => TestData [a] where
type Model [a] = [Model a]
model = fmap model
unmodel = fmap unmodel
type EqTest [a] = Property
equal x y = property (x == y)
instance (Eq a, Eq b, TestData a, TestData b) => TestData (a,b) where
type Model (a,b) = (Model a, Model b)
model (a,b) = (model a, model b)
unmodel (a,b) = (unmodel a, unmodel b)
type EqTest (a,b) = Property
equal x y = property (x == y)
instance (Eq a, Eq b, Eq c, TestData a, TestData b, TestData c) => TestData (a,b,c) where
type Model (a,b,c) = (Model a, Model b, Model c)
model (a,b,c) = (model a, model b, model c)
unmodel (a,b,c) = (unmodel a, unmodel b, unmodel c)
type EqTest (a,b,c) = Property
equal x y = property (x == y)
instance (Arbitrary a, Show a, TestData a, TestData b) => TestData (a -> b) where
type Model (a -> b) = Model a -> Model b
model f = model . f . unmodel
unmodel f = unmodel . f . model
type EqTest (a -> b) = a -> EqTest b
equal f g x = equal (f x) (g x)
newtype P a = P { unP :: EqTest a }
instance TestData a => Testable (P a) where
property (P a) = property a
infix 4 `eq`
eq :: TestData a => a -> Model a -> P a
eq x y = P (equal x (unmodel y))
class Conclusion p where
type Predicate p
predicate :: Predicate p -> p -> p
instance Conclusion Property where
type Predicate Property = Bool
predicate = (==>)
instance Conclusion p => Conclusion (a -> p) where
type Predicate (a -> p) = a -> Predicate p
predicate f p = \x -> predicate (f x) (p x)
infixr 0 ===>
(===>) :: TestData a => Predicate (EqTest a) -> P a -> P a
p ===> P a = P (predicate p a)
notNull2 _ xs = not $ DVG.null xs
notNullS2 _ s = not $ S.null s
-- Generators
index_value_pairs :: Arbitrary a => Int -> Gen [(Int,a)]
index_value_pairs 0 = return []
index_value_pairs m = sized $ \n ->
do
len <- choose (0,n)
is <- sequence [choose (0,m-1) | i <- [1..len]]
xs <- vector len
return $ zip is xs
indices :: Int -> Gen [Int]
indices 0 = return []
indices m = sized $ \n ->
do
len <- choose (0,n)
sequence [choose (0,m-1) | i <- [1..len]]
-- Additional list functions
singleton x = [x]
snoc xs x = xs ++ [x]
slice xs i n = take n (drop i xs)
backpermute xs is = map (xs!!) is
prescanl f z = init . scanl f z
postscanl f z = tail . scanl f z
accum :: (a -> b -> a) -> [a] -> [(Int,b)] -> [a]
accum f xs ps = go xs ps' 0
where
ps' = sortBy (\p q -> compare (fst p) (fst q)) ps
go (x:xs) ((i,y) : ps) j
| i == j = go (f x y : xs) ps j
go (x:xs) ps j = x : go xs ps (j+1)
go [] _ _ = []
(//) :: [a] -> [(Int, a)] -> [a]
xs // ps = go xs ps' 0
where
ps' = sortBy (\p q -> compare (fst p) (fst q)) ps
go (x:xs) ((i,y) : ps) j
| i == j = go (y:xs) ps j
go (x:xs) ps j = x : go xs ps (j+1)
go [] _ _ = []