module SplitSpec where import Test.Hspec import Split import qualified Data.Set as Set import Diff import Range import Test.Hspec.QuickCheck import Test.QuickCheck hiding (Fixed) import Control.Comonad.Cofree import Control.Monad.Free hiding (unfold) import qualified Data.Maybe as Maybe import Patch import Syntax instance Arbitrary a => Arbitrary (Row a) where arbitrary = oneof [ Row <$> arbitrary <*> arbitrary ] instance Arbitrary HTML where arbitrary = oneof [ Text <$> arbitrary, Span <$> arbitrary <*> arbitrary, const Break <$> (arbitrary :: Gen ()) ] instance Arbitrary a => Arbitrary (Line a) where arbitrary = oneof [ Line <$> arbitrary <*> arbitrary, const EmptyLine <$> (arbitrary :: Gen ()) ] spec :: Spec spec = do describe "splitAnnotatedByLines" $ do it "outputs one row for single-line unchanged leaves" $ let sources = ("a", "a") ranges = (Range 0 1, Range 0 1) categories = (mempty, mempty) in splitAnnotatedByLines sources ranges categories (Leaf "b") `shouldBe` [ Row (Line False [ Free $ Annotated (Info (fst ranges) (fst categories)) $ Leaf "b" ]) (Line False [ Free $ Annotated (Info (snd ranges) (snd categories)) $ Leaf "b" ]) ] describe "annotatedToRows" $ do it "outputs one row for single-line unchanged leaves" $ annotatedToRows (unchanged "a" "leaf" (Leaf "")) "a" "a" `shouldBe` [ Row (Line False [ span "a" ]) (Line False [ span "a" ]) ] it "outputs one row for single-line empty unchanged indexed nodes" $ annotatedToRows (unchanged "[]" "branch" (Indexed [])) "[]" "[]" `shouldBe` [ Row (Line False [ Ul (Just "category-branch") [ Text "[]" ] ]) (Line False [ Ul (Just "category-branch") [ Text "[]" ] ]) ] it "outputs one row for single-line non-empty unchanged indexed nodes" $ annotatedToRows (unchanged "[ a, b ]" "branch" (Indexed [ Free . offsetAnnotated 2 2 $ unchanged "a" "leaf" (Leaf ""), Free . offsetAnnotated 5 5 $ unchanged "b" "leaf" (Leaf "") ])) "[ a, b ]" "[ a, b ]" `shouldBe` [ Row (Line False [ Ul (Just "category-branch") [ Text "[ ", span "a", Text ", ", span "b", Text " ]" ] ]) (Line False [ Ul (Just "category-branch") [ Text "[ ", span "a", Text ", ", span "b", Text " ]" ] ]) ] it "outputs one row for single-line non-empty formatted indexed nodes" $ annotatedToRows (formatted "[ a, b ]" "[ a, b ]" "branch" (Indexed [ Free . offsetAnnotated 2 2 $ unchanged "a" "leaf" (Leaf ""), Free . offsetAnnotated 5 6 $ unchanged "b" "leaf" (Leaf "") ])) "[ a, b ]" "[ a, b ]" `shouldBe` [ Row (Line False [ Ul (Just "category-branch") [ Text "[ ", span "a", Text ", ", span "b", Text " ]" ] ]) (Line False [ Ul (Just "category-branch") [ Text "[ ", span "a", Text ", ", span "b", Text " ]" ] ]) ] it "outputs two rows for two-line non-empty unchanged indexed nodes" $ annotatedToRows (unchanged "[ a,\nb ]" "branch" (Indexed [ Free . offsetAnnotated 2 2 $ unchanged "a" "leaf" (Leaf ""), Free . offsetAnnotated 5 5 $ unchanged "b" "leaf" (Leaf "") ])) "[ a,\nb ]" "[ a,\nb ]" `shouldBe` [ Row (Line False [ Ul (Just "category-branch") [ Text "[ ", span "a", Text ",", Break ] ]) (Line False [ Ul (Just "category-branch") [ Text "[ ", span "a", Text ",", Break] ]), Row (Line False [ Ul (Just "category-branch") [ span "b", Text " ]" ] ]) (Line False [ Ul (Just "category-branch") [ span "b", Text " ]" ] ]) ] it "outputs two rows for two-line non-empty formatted indexed nodes" $ annotatedToRows (formatted "[ a,\nb ]" "[\na,\nb ]" "branch" (Indexed [ Free . offsetAnnotated 2 2 $ unchanged "a" "leaf" (Leaf ""), Free . offsetAnnotated 5 5 $ unchanged "b" "leaf" (Leaf "") ])) "[ a,\nb ]" "[\na,\nb ]" `shouldBe` [ Row (Line False [ Ul (Just "category-branch") [ Text "[ ", span "a", Text ",", Break ] ]) (Line False [ Ul (Just "category-branch") [ Text "[", Break ] ]), Row EmptyLine (Line False [ Ul (Just "category-branch") [ span "a", Text ",", Break ] ]), Row (Line False [ Ul (Just "category-branch") [ span "b", Text " ]" ] ]) (Line False [ Ul (Just "category-branch") [ span "b", Text " ]" ] ]) ] it "" $ let (sourceA, sourceB) = ("[\na\n,\nb]", "[a,b]") in annotatedToRows (formatted sourceA sourceB "branch" (Indexed [ Free . offsetAnnotated 2 1 $ unchanged "a" "leaf" (Leaf ""), Free . offsetAnnotated 6 3 $ unchanged "b" "leaf" (Leaf "") ])) sourceA sourceB `shouldBe` [ Row (Line False [ Ul (Just "category-branch") [ Text "[", Break ] ]) (Line False [ Ul (Just "category-branch") [ Text "[", span "a", Text ",", span "b", Text "]" ] ]), Row (Line False [ Ul (Just "category-branch") [ span "a", Break ] ]) EmptyLine, Row (Line False [ Ul (Just "category-branch") [ Text ",", Break ] ]) EmptyLine, Row (Line False [ Ul (Just "category-branch") [ span "b", Text "]" ] ]) EmptyLine ] it "splits multi-line deletions across multiple rows" $ let (sourceA, sourceB) = ("/*\n*/\na", "a") in annotatedToRows (formatted sourceA sourceB "branch" (Indexed [ Pure . Delete $ (Info (Range 0 5) (Set.fromList ["leaf"]) :< Leaf ""), Free . offsetAnnotated 6 0 $ unchanged "a" "leaf" (Leaf "") ])) sourceA sourceB `shouldBe` [ Row (Line True [ Ul (Just "category-branch") [ Div (Just "delete") [ span "/*", Break ] ] ]) EmptyLine, Row (Line True [ Ul (Just "category-branch") [ Div (Just "delete") [ span "*/" ], Break ] ]) EmptyLine, Row (Line False [ Ul (Just "category-branch") [ span "a" ] ]) (Line False [ Ul (Just "category-branch") [ span "a" ] ]) ] describe "unicode" $ it "equivalent precomposed and decomposed characters are not equal" $ let (sourceA, sourceB) = ("t\776", "\7831") syntax = Leaf . Pure $ Replace (info sourceA "leaf" :< Leaf "") (info sourceB "leaf" :< Leaf "") in annotatedToRows (formatted sourceA sourceB "leaf" syntax) sourceA sourceB `shouldBe` [ Row (Line False [ span "t\776" ]) (Line False [ span "\7831"]) ] describe "adjoinRowsBy" $ do prop "is identity on top of no rows" $ \ a -> adjoinRowsBy openElement openElement [] a == [ a ] prop "appends onto open rows" $ forAll ((arbitrary `suchThat` isOpen) >>= \ a -> (,) a <$> (arbitrary `suchThat` isOpen)) $ \ (a@(Row (Line ac1 as1) (Line bc1 bs1)), b@(Row (Line ac2 as2) (Line bc2 bs2))) -> adjoinRowsBy openElement openElement [ a ] b `shouldBe` [ Row (Line (ac1 || ac2) $ as1 ++ as2) (Line (bc1 || bc2) $ bs1 ++ bs2) ] prop "does not append onto closed rows" $ forAll ((arbitrary `suchThat` isClosed) >>= \ a -> (,) a <$> (arbitrary `suchThat` isClosed)) $ \ (a, b) -> adjoinRowsBy openElement openElement [ a ] b `shouldBe` [ b, a ] prop "does not promote elements through empty lines onto closed lines" $ forAll ((arbitrary `suchThat` isClosed) >>= \ a -> (,) a <$> (arbitrary `suchThat` isClosed)) $ \ (a, b) -> adjoinRowsBy openElement openElement [ Row EmptyLine EmptyLine, a ] b `shouldBe` [ b, Row EmptyLine EmptyLine, a ] prop "promotes elements through empty lines onto open lines" $ forAll ((arbitrary `suchThat` isOpen) >>= \ a -> (,) a <$> (arbitrary `suchThat` isOpen)) $ \ (a, b) -> adjoinRowsBy openElement openElement [ Row EmptyLine EmptyLine, a ] b `shouldBe` Row EmptyLine EmptyLine : adjoinRowsBy openElement openElement [ a ] b describe "termToLines" $ do it "splits multi-line terms into multiple lines" $ termToLines (Info (Range 0 5) (Set.singleton "leaf") :< Leaf "") "/*\n*/" `shouldBe` ([ Line True [ span "/*", Break ], Line True [ span "*/" ] ], Range 0 5) describe "splitTermByLines" $ do it "splits multi-line terms into multiple lines" $ splitTermByLines (Info (Range 0 5) mempty :< Leaf "") "/*\n*/" `shouldBe` ([ Line True [ Info (Range 0 3) mempty :< Leaf "" ], Line True [ Info (Range 3 5) mempty :< Leaf "" ] ], Range 0 5) describe "openLineBy" $ do it "produces the earliest non-empty line in a list, if open" $ openLineBy openElement [ Line True [ Div (Just "delete") [ span "*/" ] ], Line True [ Div (Just "delete") [ span " * Debugging", Break ] ], Line True [ Div (Just "delete") [ span "/*", Break ] ] ] `shouldBe` (Just $ Line True [ Div (Just "delete") [ span "*/" ] ]) it "produces the earliest non-empty line in a list, if open" $ openLineBy (openTerm "\n ") [ Line True [ Info (Range 1 2) mempty :< Leaf "" ], Line True [ Info (Range 0 1) mempty :< Leaf "" ] ] `shouldBe` (Just $ Line True [ Info (Range 1 2) mempty :< Leaf "" ]) it "returns Nothing if the earliest non-empty line is closed" $ openLineBy openElement [ Line True [ Div (Just "delete") [ span " * Debugging", Break ] ] ] `shouldBe` Nothing it "returns Nothing if the earliest non-empty line is closed" $ openLineBy (openTerm "\n") [ Line True [ Info (Range 0 1) mempty :< Leaf "" ] ] `shouldBe` Nothing describe "openTerm" $ do it "returns Just the term if its substring does not end with a newline" $ let term = Info (Range 0 2) mempty :< Leaf "" in openTerm " " term `shouldBe` Just term it "returns Nothing for terms whose substring ends with a newline" $ openTerm " \n" (Info (Range 0 2) mempty :< Leaf "") `shouldBe` Nothing where rightRowText text = rightRow [ Text text ] rightRow xs = Row EmptyLine (Line False xs) leftRowText text = leftRow [ Text text ] leftRow xs = Row (Line False xs) EmptyLine rowText a b = Row (Line False [ Text a ]) (Line False [ Text b ]) info source category = Info (totalRange source) (Set.fromList [ category ]) unchanged source = formatted source source formatted source1 source2 category = Annotated (info source1 category, info source2 category) offsetInfo by (Info (Range start end) categories) = Info (Range (start + by) (end + by)) categories offsetAnnotated by1 by2 (Annotated (left, right) syntax) = Annotated (offsetInfo by1 left, offsetInfo by2 right) syntax span = Span (Just "category-leaf") isOpen (Row a b) = Maybe.isJust (openLineBy openElement [ a ]) && Maybe.isJust (openLineBy openElement [ b ]) isClosed (Row a@(Line _ _) b@(Line _ _)) = Maybe.isNothing (openLineBy openElement [ a ]) && Maybe.isNothing (openLineBy openElement [ b ]) isClosed (Row _ _) = False