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semantic/test/IntegrationSpec.hs
2017-04-19 16:33:27 -07:00

129 lines
5.3 KiB
Haskell

{-# LANGUAGE DataKinds, GeneralizedNewtypeDeriving, OverloadedStrings #-}
module IntegrationSpec where
import Data.Functor.Both
import Data.List (union, concat, transpose)
import qualified Data.Text as T
import qualified Data.ByteString as B
import Data.Text.Encoding (decodeUtf8)
import GHC.Show (Show(..))
import Prologue hiding (fst, snd, readFile)
import System.FilePath
import System.FilePath.Glob
import SpecHelpers
import Test.Hspec (Spec, describe, it, SpecWith, runIO, parallel)
import Test.Hspec.Expectations.Pretty
spec :: Spec
spec = parallel $ do
it "lists example fixtures" $ do
examples "test/fixtures/go/" `shouldNotReturn` []
examples "test/fixtures/javascript/" `shouldNotReturn` []
examples "test/fixtures/ruby/" `shouldNotReturn` []
examples "test/fixtures/typescript/" `shouldNotReturn` []
describe "go" $ runTestsIn "test/fixtures/go/"
describe "javascript" $ runTestsIn "test/fixtures/javascript/"
describe "ruby" $ runTestsIn "test/fixtures/ruby/"
describe "typescript" $ runTestsIn "test/fixtures/typescript/"
where
runTestsIn :: FilePath -> SpecWith ()
runTestsIn directory = do
examples <- runIO $ examples directory
traverse_ runTest examples
runTest ParseExample{..} = it ("parses " <> file) $ testParse file parseOutput
runTest DiffExample{..} = it ("diffs " <> diffOutput) $ testDiff (both fileA fileB) diffOutput
data Example = DiffExample { fileA :: FilePath, fileB :: FilePath, diffOutput :: FilePath }
| ParseExample { file :: FilePath, parseOutput :: FilePath }
deriving (Eq, Show)
-- | Return all the examples from the given directory. Examples are expected to
-- | have the form:
-- |
-- | example-name.A.rb - The left hand side of the diff.
-- | example-name.B.rb - The right hand side of the diff.
-- |
-- | example-name.diffA-B.txt - The expected sexpression diff output for A -> B.
-- | example-name.diffB-A.txt - The expected sexpression diff output for B -> A.
-- |
-- | example-name.parseA.txt - The expected sexpression parse tree for example-name.A.rb
-- | example-name.parseB.txt - The expected sexpression parse tree for example-name.B.rb
examples :: FilePath -> IO [Example]
examples directory = do
as <- globFor "*.A.*"
bs <- globFor "*.B.*"
sExpAs <- globFor "*.parseA.txt"
sExpBs <- globFor "*.parseB.txt"
sExpDiffsAddA <- globFor "*.diff+A.txt"
sExpDiffsRemoveA <- globFor "*.diff-A.txt"
sExpDiffsAddB <- globFor "*.diff+B.txt"
sExpDiffsRemoveB <- globFor "*.diff-B.txt"
sExpDiffsAB <- globFor "*.diffA-B.txt"
sExpDiffsBA <- globFor "*.diffB-A.txt"
let exampleDiff lefts rights out name = DiffExample (lookupNormalized name lefts) (lookupNormalized name rights) out
let exampleAddDiff files out name = DiffExample "" (lookupNormalized name files) out
let exampleRemoveDiff files out name = DiffExample (lookupNormalized name files) "" out
let exampleParse files out name = ParseExample (lookupNormalized name files) out
let keys = (normalizeName <$> as) `union` (normalizeName <$> bs)
pure $ merge [ getExamples (exampleParse as) sExpAs keys
, getExamples (exampleParse bs) sExpBs keys
, getExamples (exampleAddDiff as) sExpDiffsAddA keys
, getExamples (exampleRemoveDiff as) sExpDiffsRemoveA keys
, getExamples (exampleAddDiff bs) sExpDiffsAddB keys
, getExamples (exampleRemoveDiff bs) sExpDiffsRemoveB keys
, getExamples (exampleDiff as bs) sExpDiffsAB keys
, getExamples (exampleDiff bs as) sExpDiffsBA keys ]
where
merge = concat . transpose
-- Only returns examples if they exist
getExamples f list = foldr (go f list) []
where go f list name acc = case lookupNormalized' name list of
Just out -> f out name : acc
Nothing -> acc
lookupNormalized :: FilePath -> [FilePath] -> FilePath
lookupNormalized name xs = fromMaybe
(panic ("cannot find " <> T.pack name <> " make sure .A, .B and exist." :: Text))
(lookupNormalized' name xs)
lookupNormalized' :: FilePath -> [FilePath] -> Maybe FilePath
lookupNormalized' name = find ((== name) . normalizeName)
globFor :: FilePath -> IO [FilePath]
globFor p = globDir1 (compile p) directory
-- | Given a test name like "foo.A.js", return "foo".
normalizeName :: FilePath -> FilePath
normalizeName path = dropExtension $ dropExtension path
testParse :: FilePath -> FilePath -> Expectation
testParse path expectedOutput = do
actual <- verbatim <$> parseFilePath path
expected <- verbatim <$> B.readFile expectedOutput
actual `shouldBe` expected
testDiff :: Both FilePath -> FilePath -> Expectation
testDiff paths expectedOutput = do
actual <- verbatim <$> diffFilePaths paths
expected <- verbatim <$> B.readFile expectedOutput
actual `shouldBe` expected
stripWhitespace :: ByteString -> ByteString
stripWhitespace = B.foldl' go B.empty
where go acc x | x `B.elem` " \t\n" = acc
| otherwise = B.snoc acc x
-- | A wrapper around `ByteString` with a more readable `Show` instance.
newtype Verbatim = Verbatim ByteString
deriving (Eq, NFData)
instance Show Verbatim where
showsPrec _ (Verbatim byteString) = ('\n':) . (T.unpack (decodeUtf8 byteString) ++)
verbatim :: ByteString -> Verbatim
verbatim = Verbatim . stripWhitespace