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mirror of https://github.com/github/semantic.git synced 2024-12-23 14:54:16 +03:00
semantic/test/IntegrationSpec.hs
2017-04-04 10:42:51 -04:00

142 lines
5.9 KiB
Haskell

{-# LANGUAGE DataKinds, GeneralizedNewtypeDeriving, OverloadedStrings #-}
module IntegrationSpec where
import Command
import Command.Parse
import Data.Functor.Both
import Data.List (union, concat, transpose)
import Data.Record
import qualified Data.Text as T
import qualified Data.ByteString as B
import Data.Text.Encoding (decodeUtf8)
import Diff
import GHC.Show (Show(..))
import Info
import Prologue hiding (fst, snd, readFile)
import Renderer.SExpression as Renderer
import Source
import Syntax
import System.FilePath
import System.FilePath.Glob
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 (Renderer.sExpression TreeOnly) (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
source <- readAndTranscodeFile path
let blob = sourceBlob source path
term <- parserForType (toS (takeExtension path)) blob
let actual = (Verbatim . stripWhitespace) $ printTerm term 0 TreeOnly
expected <- (Verbatim . stripWhitespace) <$> B.readFile expectedOutput
actual `shouldBe` expected
testDiff :: (Both SourceBlob -> Diff (Syntax Text) (Record DefaultFields) -> ByteString) -> Both FilePath -> FilePath -> Expectation
testDiff renderer paths expectedOutput = do
(blobs, diff') <- runCommand $ do
blobs <- traverse readFile paths
terms <- traverse (traverse parseBlob) blobs
Just diff' <- maybeDiff terms
return (fromMaybe . emptySourceBlob <$> paths <*> blobs, diff')
let diffOutput = renderer blobs diff'
let actual = Verbatim (stripWhitespace diffOutput)
expected <- Verbatim . stripWhitespace <$> 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) ++)