{-# LANGUAGE DataKinds #-} module Data.RandomWalkSimilarity.Spec where import Data.Functor.Both import Data.Functor.Foldable (cata) import Data.RandomWalkSimilarity import Data.Record import Diff import Info import Patch import Prologue import Syntax import Term import Term.Arbitrary import Test.Hspec import Test.Hspec.QuickCheck import Test.QuickCheck spec :: Spec spec = parallel $ do let positively = succ . abs describe "pqGramDecorator" $ do prop "produces grams with stems of the specified length" $ \ (term, p, q) -> pqGramDecorator (rhead . headF) (positively p) (positively q) (toTerm term :: Term Text (Record '[Text])) `shouldSatisfy` all ((== (positively p)) . length . stem . rhead) prop "produces grams with bases of the specified width" $ \ (term, p, q) -> pqGramDecorator (rhead . headF) (positively p) (positively q) (toTerm term :: Term Text (Record '[Text])) `shouldSatisfy` all ((== (positively q)) . length . base . rhead) describe "featureVectorDecorator" $ do prop "produces a vector of the specified dimension" $ \ (term, p, q, d) -> featureVectorDecorator (rhead . headF) (positively p) (positively q) (positively d) (toTerm term :: Term Text (Record '[Text])) `shouldSatisfy` all ((== (positively d)) . length . rhead) describe "rws" $ do let decorate = featureVectorDecorator (category . headF) 2 3 15 let toTerm' = decorate . toTerm prop "produces correct diffs" . forAll (scale (`div` 4) arbitrary) $ \ (as, bs) -> let tas = toTerm' <$> (as :: [ArbitraryTerm Text (Record '[Category])]) tbs = toTerm' <$> (bs :: [ArbitraryTerm Text (Record '[Category])]) root = cofree . ((Program .: RNil) :<) . Indexed diff = wrap (pure (Program .: RNil) :< Indexed (stripDiff <$> rws compare tas tbs)) in (beforeTerm diff, afterTerm diff) `shouldBe` (Just (root (stripTerm <$> tas)), Just (root (stripTerm <$> tbs))) it "produces unbiased insertions within branches" $ let (a, b) = (decorate (cofree ((StringLiteral .: RNil) :< Indexed [ cofree ((StringLiteral .: RNil) :< Leaf "a") ])), decorate (cofree ((StringLiteral .: RNil) :< Indexed [ cofree ((StringLiteral .: RNil) :< Leaf "b") ]))) in fmap stripDiff (rws compare [ b ] [ a, b ]) `shouldBe` fmap stripDiff [ inserting a, replacing b b ] where compare :: (HasField fields Category, Functor f, Eq (Cofree f Category)) => Cofree f (Record fields) -> Cofree f (Record fields) -> Maybe (Free (CofreeF f (Both (Record fields))) (Patch (Cofree f (Record fields)))) compare a b | (category <$> a) == (category <$> b) = Just (copying b) | otherwise = if ((==) `on` category . extract) a b then Just (replacing a b) else Nothing copying :: Functor f => Cofree f (Record fields) -> Free (CofreeF f (Both (Record fields))) (Patch (Cofree f (Record fields))) copying = cata wrap . fmap pure