{-# LANGUAGE FlexibleContexts, RecordWildCards, OverloadedStrings, TypeApplications #-} {-# OPTIONS_GHC -O1 #-} module Main (main, knownFailuresForPath) where import Control.Carrier.Parse.Measured import Control.Carrier.Reader import Control.Concurrent.Async (forConcurrently) import Control.Exception (displayException) import qualified Control.Foldl as Foldl import Control.Lens import Control.Monad import Control.Monad.Trans.Resource (ResIO, runResourceT) import Data.Blob import qualified Data.ByteString.Lazy.Char8 as BLC import qualified Data.ByteString.Streaming.Char8 as ByteStream import Data.Foldable import Data.Function ((&)) import Data.Language (LanguageMode (..), PerLanguageModes (..)) import Data.List import qualified Data.Text as Text import Data.Set (Set) import Data.Traversable import qualified Streaming.Prelude as Stream import System.FilePath.Glob import System.Path (()) import qualified System.Path as Path import qualified System.Process as Process import qualified Test.Tasty as Tasty import qualified Test.Tasty.HUnit as HUnit import Data.Flag import Proto.Semantic as P hiding (Blob, BlobPair) import Proto.Semantic_Fields as P import Semantic.Api.Symbols (parseSymbols) import Semantic.Config as Config import Semantic.Task import Semantic.Task.Files data LanguageExample = LanguageExample { languageName :: String , languageExtension :: String , languageSkips :: [Path.RelFile] } deriving (Eq, Show) le :: String -> String -> [Path.RelFile] -> LanguageExample le = LanguageExample rubySkips :: [Path.RelFile] rubySkips = Path.relFile <$> [ "ruby_spec/language/string_spec.rb" -- UTF8 encoding issues ("Cannot decode byte '\xe3': Data.Text.Internal.Encoding.decodeUtf8: Invalid UTF-8 stream") , "ruby_spec/optional/capi/string_spec.rb" , "ruby_spec/core/string/b_spec.rb" , "ruby_spec/core/string/shared/encode.rb" -- Doesn't parse b/c of issue with r< LanguageExample -> Path.RelDir -> IO Tasty.TestTree buildExamples session lang tsDir = do let skips = fmap (tsDir ) (languageSkips lang) files <- globDir1 (compile (languageExtension lang)) (Path.toString tsDir) let paths = filter (`notElem` skips) $ Path.relFile <$> files trees <- for paths $ \file -> do pure . HUnit.testCaseSteps (Path.toString file) $ \step -> do -- Use alacarte language mode step "a la carte" alacarte <- runTask session (runParse (parseSymbolsFilePath aLaCarteLanguageModes file)) assertOK "a la carte" alacarte -- Test out precise language mode step "precise" precise <- runTask session (runParse (parseSymbolsFilePath preciseLanguageModes file)) assertOK "precise" precise -- Compare the two step "compare" assertMatch alacarte precise pure (Tasty.testGroup (languageName lang) trees) where assertOK msg = either (\e -> HUnit.assertFailure (msg <> " failed to parse" <> show e)) (refuteErrors msg) refuteErrors msg a = case toList (a^.files) of [x] | (e:_) <- toList (x^.errors) -> HUnit.assertFailure (msg <> " parse errors " <> show e) _ -> pure () assertMatch a b = case (a, b) of (Right a, Right b) -> case (toList (a^.files), toList (b^.files)) of ([x], [y]) | e1:_ <- toList (x^.errors) , e2:_ <- toList (y^.errors) -> HUnit.assertFailure ("Parse errors (both) " <> show e1 <> show e2) (_, [y]) | e:_ <- toList (y^.errors) -> HUnit.assertFailure ("Parse errors (precise) " <> show e) ([x], _) | e:_ <- toList (x^.errors) -> HUnit.assertFailure ("Parse errors (a la carte) " <> show e) ([x], [y]) -> do HUnit.assertEqual "Expected paths to be equal" (x^.path) (y^.path) let aLaCarteSymbols = sort . filterALaCarteSymbols (languageName lang) $ toListOf (symbols . traverse . symbol) x preciseSymbols = sort $ toListOf (symbols . traverse . symbol) y delta = aLaCarteSymbols \\ preciseSymbols msg = "Found in a la carte, but not precise: " <> show delta <> "\n" <> "Found in precise but not a la carte: " <> show (preciseSymbols \\ aLaCarteSymbols) <> "\n" <> "Expected: " <> show aLaCarteSymbols <> "\n" <> "But got:" <> show preciseSymbols HUnit.assertBool ("Expected symbols to be equal.\n" <> msg) (null delta) pure () _ -> HUnit.assertFailure "Expected 1 file in each response" (Left e1, Left e2) -> HUnit.assertFailure ("Unable to parse (both)" <> show (displayException e1) <> show (displayException e2)) (_, Left e) -> HUnit.assertFailure ("Unable to parse (precise)" <> show (displayException e)) (Left e, _) -> HUnit.assertFailure ("Unable to parse (a la carte)" <> show (displayException e)) filterALaCarteSymbols :: String -> [Text.Text] -> [Text.Text] filterALaCarteSymbols "ruby" symbols -- = filterBlanks -- . removeSetterEqualSign = filterOutInstanceVariables . filterOutBuiltInMethods $ symbols where -- filterBlanks = filter (not . Text.null) -- removeSetterEqualSign = fmap (Text.dropWhileEnd (== '=')) filterOutInstanceVariables = filter (not . Text.isPrefixOf "@") filterOutBuiltInMethods = filter (`notElem` blacklist) blacklist = [ "alias" , "load" , "require_relative" , "require" , "super" , "undef" , "defined?" , "lambda" ] filterALaCarteSymbols _ symbols = symbols aLaCarteLanguageModes :: PerLanguageModes aLaCarteLanguageModes = PerLanguageModes { pythonMode = ALaCarte , rubyMode = ALaCarte -- , typescriptMode = ALaCarte } preciseLanguageModes :: PerLanguageModes preciseLanguageModes = PerLanguageModes { pythonMode = Precise , rubyMode = Precise -- , typescriptMode = Precise } testOptions :: Config.Options testOptions = defaultOptions { optionsFailOnWarning = flag FailOnWarning True , optionsLogLevel = Nothing } main :: IO () main = withOptions testOptions $ \ config logger statter -> do void $ Process.system "script/clone-example-repos" let session = TaskSession config "-" False logger statter allTests <- forConcurrently examples $ \lang@LanguageExample{..} -> do let tsDir = Path.relDir "tmp" Path.relDir (languageName <> "-examples") buildExamples session lang tsDir Tasty.defaultMain $ Tasty.testGroup "parse-examples" allTests knownFailuresForPath :: Path.RelDir -> Maybe Path.RelFile -> IO (Set Path.RelFile) knownFailuresForPath _ Nothing = pure mempty knownFailuresForPath tsDir (Just path) = runResourceT ( ByteStream.readFile @ResIO (Path.toString (tsDir path)) & ByteStream.lines & ByteStream.denull & Stream.mapped ByteStream.toLazy & Stream.filter ((/= '#') . BLC.head) & Stream.map (Path.relFile . BLC.unpack) & Foldl.purely Stream.fold_ Foldl.set ) parseSymbolsFilePath :: ( Has (Error SomeException) sig m , Has Distribute sig m , Has Parse sig m , Has Files sig m ) => PerLanguageModes -> Path.RelFile -> m ParseTreeSymbolResponse parseSymbolsFilePath languageModes path = readBlob (fileForTypedPath path) >>= runReader languageModes . parseSymbols . pure @[]