{-# LANGUAGE DataKinds #-} module InterpreterSpec where import Category import Data.Functor.Foldable hiding (Nil) import Data.Functor.Listable import Data.RandomWalkSimilarity import Data.Record import Data.String import Diff import Diffing import Info import Interpreter import Patch import Prologue import Syntax import Term import Test.Hspec (Spec, describe, it, parallel) import Test.Hspec.Expectations.Pretty import Test.Hspec.LeanCheck spec :: Spec spec = parallel $ do describe "interpret" $ do let decorate = defaultFeatureVectorDecorator (category . headF) let compare = (==) `on` category . extract it "returns a replacement when comparing two unicode equivalent terms" $ let termA = cofree $ (StringLiteral :. Nil) :< Leaf ("t\776" :: String) termB = cofree $ (StringLiteral :. Nil) :< Leaf "\7831" in stripDiff (diffTerms wrap compare diffCost getLabel (decorate termA) (decorate termB)) `shouldBe` replacing termA termB prop "produces correct diffs" $ \ a b -> let diff = stripDiff $ diffTerms wrap compare diffCost getLabel (decorate (unListableF a)) (decorate (unListableF b :: SyntaxTerm String '[Category])) in (beforeTerm diff, afterTerm diff) `shouldBe` (Just (unListableF a), Just (unListableF b)) prop "constructs zero-cost diffs of equal terms" $ \ a -> let term = decorate (unListableF a :: SyntaxTerm String '[Category]) diff = diffTerms wrap compare diffCost getLabel term term in diffCost diff `shouldBe` 0 it "produces unbiased insertions within branches" $ let term s = decorate (cofree ((StringLiteral :. Nil) :< Indexed [ cofree ((StringLiteral :. Nil) :< Leaf s) ])) root = cofree . ((pure 0 :. Program :. Nil) :<) . Indexed in stripDiff (diffTerms wrap compare diffCost getLabel (root [ term "b" ]) (root [ term "a", term "b" ])) `shouldBe` wrap (pure (Program :. Nil) :< Indexed [ inserting (stripTerm (term "a")), cata wrap (fmap pure (stripTerm (term "b"))) ])