I'm looking for a way to test a function on a deterministic set of values always (rather than a randomly selected value from the list). For example, I'd like a way to check that
f :: (Num a) => a -> Bool f x = (x - 2) == (x-3+1)
holds for exactly the
Ints 1, 3, and 5, without explicitly writing out
testGroup "f tests" $ map (testProperty . property) [f (1::Int), f (3::Int), f (5::Int)]
Instead, I want to have some wrapper type around
Int so that when I call
f on this type, it tests
f with the values 1,3, and 5 every time.
The motivation for this is this answer for testing polymorphic functions.
I came up with a solution using my own instance for
Arbitrary [Some c]:
data Some c where Some :: (Show a, Arbitrary a, c a) => a -> Some c instance Arbitrary [Dict c] => Arbitrary [Some c] where arbitrary = do dicts :: [Dict c] <- arbitrary sequence $ map (\(Dict (Proxy::Proxy a)) -> liftM Some (arbitrary :: Gen a)) dicts data Dict c where Dict :: (Show a, Arbitrary a, c a) => Proxy a -> Dict c class ClassToTest a -- where ... instance Arbitrary [Dict ClassToTest] where arbitrary = return $ [Dict (Proxy::Proxy TYPE1), Dict (Proxy::Proxy TYPE2)] testAll :: forall a . (Arbitrary [a]) => (a -> Bool) -> Gen Bool testAll f = do xs' <- arbitrary :: Gen [a] return $ and $ map f xs'
Then I could write a function
myTest :: (ClassToTest a) => a -> Bool myTest x = error "" theTest :: Test theTest = testProperty "mytest" $ testAll myTest
which would generate an random value of
TYPE1 and run
myTest, then generate a random value for
TYPE2 and run
myTest again. The idea is that the list of TYPE* is very large, so I'd rather not rely on random selection to ensure everything in the list is being tested. The problem with my approach of course is that QuickCheck already has a generic instance for
(Arbitrary a) => Arbitrary [a], so this code requires
-XOverlappingInstances. Is there a nicer way?