module SourceSpec where import Data.Char (chr) import Data.Functor.Listable import Data.Range import Data.Semigroup import Data.Source import Data.Span import qualified Data.Text as Text import Test.Hspec import Test.Hspec.LeanCheck import Test.LeanCheck spec :: Spec spec = parallel $ do describe "sourceLineRanges" $ do prop "produces 1 more range than there are newlines" $ \ source -> length (sourceLineRanges source) `shouldBe` succ (Text.count "\n" (toText source)) prop "produces exhaustive ranges" $ \ source -> foldMap (`slice` source) (sourceLineRanges source) `shouldBe` source describe "spanToRange" $ do prop "computes single-line ranges" $ \ s -> let source = fromBytes s spans = zipWith (\ i Range {..} -> Span (Pos i 1) (Pos i (succ (end - start)))) [1..] ranges ranges = sourceLineRanges source in spanToRange source <$> spans `shouldBe` ranges prop "computes multi-line ranges" $ \ source -> spanToRange source (totalSpan source) `shouldBe` totalRange source prop "computes sub-line ranges" $ \ s -> let source = "*" <> s <> "*" in spanToRange source (insetSpan (totalSpan source)) `shouldBe` insetRange (totalRange source) prop "inverse of rangeToSpan" $ \ a b -> let s = a <> "\n" <> b in spanToRange s (totalSpan s) `shouldBe` totalRange s describe "rangeToSpan" $ do prop "inverse of spanToRange" $ \ a b -> let s = a <> "\n" <> b in rangeToSpan s (totalRange s) `shouldBe` totalSpan s describe "totalSpan" $ do prop "covers single lines" $ \ n -> totalSpan (fromText (Text.replicate n "*")) `shouldBe` Span (Pos 1 1) (Pos 1 (max 1 (succ n))) prop "covers multiple lines" $ \ n -> totalSpan (fromText (Text.intersperse '\n' (Text.replicate n "*"))) `shouldBe` Span (Pos 1 1) (Pos (max 1 n) (if n > 0 then 2 else 1)) prop "preserves characters" . forAll (toTiers (list +| [chr 0xa0..chr 0x24f])) $ \ c -> Text.unpack (toText (fromText (Text.singleton c))) `shouldBe` [c] prop "preserves strings" $ \ s -> fromText (toText s) `shouldBe` s insetSpan :: Span -> Span insetSpan sourceSpan = sourceSpan { spanStart = (spanStart sourceSpan) { posColumn = succ (posColumn (spanStart sourceSpan)) } , spanEnd = (spanEnd sourceSpan) { posColumn = pred (posColumn (spanEnd sourceSpan)) } } insetRange :: Range -> Range insetRange Range {..} = Range (succ start) (pred end)