{-# LANGUAGE LambdaCase #-} module Main where import Arguments import Control.Exception import Data.Aeson import Data.Aeson.Encode.Pretty import Data.Map.Strict as Map import qualified Data.ByteString.Lazy as DL import qualified Data.ByteString.Char8 as DC import Data.String import qualified Data.Text as DT import JSONTestCase import qualified Prelude import Prologue import SemanticDiff (fetchDiffs) import System.FilePath.Glob import System.Process import qualified Data.String.Utils as DSUtils import Options.Applicative hiding ((<>)) import qualified Options.Applicative as O import qualified Renderer as R import Control.Monad.Effect import Control.Monad.Effect.Internal data GenerateFormat = GenerateSummaries | GenerateJSON | GenerateAll | GenerateNone deriving (Show) data GeneratorArgs = GeneratorArgs { generateFormat :: GenerateFormat } deriving (Show) generatorArgs :: Parser GeneratorArgs generatorArgs = GeneratorArgs <$> (flag GenerateNone GenerateSummaries (long "generate-summaries" O.<> short 's' O.<> help "Use generated summary results for new JSON test cases (rather than defaulting to an empty \"\")") <|> flag' GenerateJSON (long "generate-json" O.<> short 'j' O.<> help "Use generated JSON output for new JSON test cases (rather than defaulting to an empty \"\")") <|> flag' GenerateAll (long "generate-all" O.<> short 'a' O.<> help "Use generated summary results and JSON output for new JSON test cases respectively")) options :: ParserInfo GeneratorArgs options = info (helper <*> generatorArgs) (fullDesc O.<> progDesc "Auto-generate JSON test cases" O.<> header "JSON Test Case Generator") main :: IO () main = do opts <- execParser options generatorFilePaths <- runFetchGeneratorFiles unparsedGeneratorCases <- traverse DL.readFile generatorFilePaths let parsedGeneratorCases = eitherDecode <$> unparsedGeneratorCases :: [Either String [JSONMetaRepo]] traverse_ (handleGeneratorCases opts generatorFilePaths) parsedGeneratorCases where handleGeneratorCases :: GeneratorArgs -> [FilePath] -> Either String [JSONMetaRepo] -> IO () handleGeneratorCases opts generatorFilePaths parsedGeneratorCase = case parsedGeneratorCase of Left err -> Prelude.putStrLn $ "An error occurred: " <> err Right metaTestCases -> do traverse_ (runGenerator opts) metaTestCases traverse_ runMoveGeneratorFile generatorFilePaths -- | Finds all JSON files within the generators directory. runFetchGeneratorFiles :: IO [FilePath] runFetchGeneratorFiles = globDir1 (compile "*.json") "test/corpus/generators" -- | First initialize the git submodule repository where commits will be made for the given metaRepo and its syntaxes. -- | Second generate the commits for each syntax and generate the associated JSONTestCase objects. -- | Finally push the generated commits to the submodule's remote repository. runGenerator :: GeneratorArgs -> JSONMetaRepo -> IO () runGenerator opts metaRepo@JSONMetaRepo{..} = do runSetupGitRepo metaRepo runCommitsAndTestCasesGeneration opts metaRepo runPullGitRemote repoUrl repoPath runPushGitRemote repoPath -- | Upon successful test case generation for a generator file, move the file to the generated directory. -- | This prevents subsequence runs of the test generator from duplicating test cases and adding extraneous -- | commits to the git submodule. runMoveGeneratorFile :: FilePath -> IO () runMoveGeneratorFile filePath = do let updatedPath = DT.unpack $ DT.replace (DT.pack "generators") (DT.pack "generated") (DT.pack filePath) Prelude.putStrLn updatedPath _ <- readCreateProcess (shell $ "mv " <> filePath <> " " <> updatedPath) "" return () -- | Initializes a new git repository and adds it as a submodule to the semantic-diff git index. -- | This repository contains the commits associated with the given JSONMetaRepo's syntax examples. runSetupGitRepo :: JSONMetaRepo -> IO () runSetupGitRepo JSONMetaRepo{..} = do runInitializeRepo repoUrl repoPath runAddSubmodule repoUrl repoPath -- | Performs the system calls for initializing the git repository. -- | If the git repository already exists, the operation will result in an error, -- | but will not prevent successful completion of the test case generation. runInitializeRepo :: String -> FilePath -> IO () runInitializeRepo repoUrl repoPath = do result <- try $ readCreateProcess (shell $ mkDirCommand repoPath) "" case (result :: Either Prelude.IOError String) of Left error -> Prelude.putStrLn $ "Creating the repository directory at " <> repoPath <> " failed with: " <> show error <> ". " <> "Possible reason: repository already initialized. \nProceeding to the next step." Right _ -> do _ <- executeCommand repoPath (initializeRepoCommand repoUrl) Prelude.putStrLn $ "Repository directory successfully initialized for " <> repoPath <> "." -- | Git repositories generated as a side-effect of generating tests cases are -- | added to semantic-diff's git index as submodules. If the submodule initialization -- | fails (usually because the submodule was already initialized), operations will -- | continue. runAddSubmodule :: String -> FilePath -> IO () runAddSubmodule repoUrl repoPath = do result <- try $ readCreateProcess (shell $ addSubmoduleCommand repoUrl repoPath) "" case (result :: Either Prelude.IOError String) of Left error -> Prelude.putStrLn $ "Initializing the submodule repository at " <> repoPath <> " failed with: " <> show error <> ". " <> "Possible reason: submodule already initialized. \nProceeding to the next step." _ -> Prelude.putStrLn $ "Submodule successfully initialized for " <> repoPath <> "." -- | Performs the system calls for generating the commits and test cases. -- | Also appends the JSONTestCases generated to the test case file defined by -- | the syntaxes. runCommitsAndTestCasesGeneration :: GeneratorArgs -> JSONMetaRepo -> IO () runCommitsAndTestCasesGeneration opts JSONMetaRepo{..} = for_ syntaxes generate where generate :: JSONMetaSyntax -> IO () generate metaSyntax = do _ <- runInitialCommitForSyntax repoPath metaSyntax runSetupTestCaseFile metaSyntax runCommitAndTestCaseGeneration opts language repoPath metaSyntax runCloseTestCaseFile metaSyntax -- | For a syntax, we want the initial commit to be an empty file. -- | This function performs a touch and commits the empty file. runInitialCommitForSyntax :: FilePath -> JSONMetaSyntax -> IO () runInitialCommitForSyntax repoPath JSONMetaSyntax{..} = do Prelude.putStrLn $ "Generating initial commit for " <> syntax <> " syntax." result <- try . executeCommand repoPath $ touchCommand repoFilePath <> commitCommand syntax "Initial commit" case ( result :: Either Prelude.IOError String) of Left error -> Prelude.putStrLn $ "Initializing the " <> repoFilePath <> " failed with: " <> show error <> ". " <> "Possible reason: file already initialized. \nProceeding to the next step." Right _ -> pure () -- | Initializes the test case file where JSONTestCase examples are written to. -- | This manually inserts a "[" to open a JSON array. runSetupTestCaseFile :: JSONMetaSyntax -> IO () runSetupTestCaseFile metaSyntax = do Prelude.putStrLn $ "Opening " <> testCaseFilePath metaSyntax DL.writeFile (testCaseFilePath metaSyntax) "[" -- | For each command constructed for a given metaSyntax, execute the system commands. runCommitAndTestCaseGeneration :: GeneratorArgs -> String -> FilePath -> JSONMetaSyntax -> IO () runCommitAndTestCaseGeneration opts language repoPath metaSyntax@JSONMetaSyntax{..} = traverse_ (runGenerateCommitAndTestCase opts language repoPath) (commands metaSyntax) maybeMapSummary :: [R.Output] -> [Maybe (Map Text (Map Text [Value]))] maybeMapSummary = fmap $ \case R.SummaryOutput output -> Just output _ -> Nothing maybeMapJSON :: [R.Output] -> [Maybe (Map Text Value)] maybeMapJSON = fmap $ \case R.JSONOutput output -> Just output _ -> Nothing -- | This function represents the heart of the test case generation. It keeps track of -- | the git shas prior to running a command, fetches the git sha after a command, so that -- | JSONTestCase objects can be created. Finally, it appends the created JSONTestCase -- | object to the test case file. runGenerateCommitAndTestCase :: GeneratorArgs -> String -> FilePath -> (JSONMetaSyntax, String, String, String) -> IO () runGenerateCommitAndTestCase opts language repoPath (JSONMetaSyntax{..}, description, seperator, command) = do Prelude.putStrLn $ "Executing " <> syntax <> " " <> description <> " commit." beforeSha <- executeCommand repoPath getLastCommitShaCommand _ <- executeCommand repoPath command afterSha <- executeCommand repoPath getLastCommitShaCommand expectedResult' <- runExpectedResultGenerator repoPath beforeSha afterSha repoFilePath opts let jsonTestCase = encodePretty JSONTestCase { gitDir = extractGitDir repoPath, testCaseDescription = language <> "-" <> syntax <> "-" <> description <> "-" <> "test", filePaths = [repoFilePath], sha1 = beforeSha, sha2 = afterSha, expectedResult = expectedResult' } Prelude.putStrLn $ "Generating test case for " <> language <> ": " <> syntax <> " " <> description <> "." DL.appendFile testCaseFilePath $ jsonTestCase <> DL.fromStrict (DC.pack seperator) where extractGitDir :: String -> String extractGitDir fullRepoPath = DC.unpack $ snd $ DC.breakSubstring (DC.pack "test") (DC.pack fullRepoPath) data GenerateEff a where GenerateSummaries' :: Arguments -> GenerateEff ExpectedResult GenerateJSON' :: Arguments -> GenerateEff ExpectedResult -- args :: FilePath -> String -> String -> [String] -> R.Format -> Arguments generateSummaries' :: FilePath -> String -> String -> FilePath -> Eff '[GenerateEff] ExpectedResult generateSummaries' repoPath beforeSha afterSha repoFilePath = send $ GenerateSummaries' (args repoPath beforeSha afterSha [repoFilePath] R.Summary) generateJSON' :: FilePath -> String -> String -> FilePath -> Eff '[GenerateEff] ExpectedResult generateJSON' repoPath beforeSha afterSha repoFilePath = send $ GenerateJSON' (args repoPath beforeSha afterSha [repoFilePath] R.JSON) run :: Eff '[GenerateEff] ExpectedResult -> IO ExpectedResult run (Val x) = pure x run (E u queue) = case decompose u of (Right (GenerateSummaries' args)) -> generateSummaries args >>= \s -> Main.run (apply queue s) (Right (GenerateJSON' args)) -> generateJSON args >>= \s -> Main.run (apply queue s) (Left _) -> error "this isn't possible" runExpectedResultGenerator :: FilePath -> String -> String -> FilePath -> GeneratorArgs -> IO ExpectedResult runExpectedResultGenerator repoPath beforeSha afterSha repoFilePath GeneratorArgs{..} = case generateFormat of GenerateSummaries -> Main.run $ generateSummaries' repoPath beforeSha afterSha repoFilePath GenerateJSON -> Main.run $ generateJSON' repoPath beforeSha afterSha repoFilePath GenerateAll -> pure EmptyResult _ -> pure EmptyResult generateSummaries :: Arguments -> IO ExpectedResult -- (Map Text [Value], Map Text [Value]) generateSummaries args@Arguments{..} = do diffs <- fetchDiffs args let headResult = Prelude.head $ maybeMapSummary diffs let changes = fromMaybe (fromList [("changes", mempty)]) headResult ! "changes" let errors = fromMaybe (fromList [("errors", mempty)]) headResult ! "errors" pure $ SummaryResult ( Map.fromList [ ("changes", changes), ("errors", errors) ] ) generateJSON :: Arguments -> IO ExpectedResult -- (Map Text Value) generateJSON args = do diffs <- fetchDiffs args let headResult = Prelude.head $ maybeMapJSON diffs let oids = fromMaybe (fromList [("oids", "")]) headResult ! "oids" let paths = fromMaybe (fromList [("output", "")]) headResult ! "paths" let rows = fromMaybe (fromList [("rows", "")]) headResult ! "rows" pure $ JSONResult ( Map.fromList [ ("oids", oids), ("paths", paths), ("rows", rows) ] ) -- | Commands represent the various combination of patches (insert, delete, replacement) -- | for a given syntax. commands :: JSONMetaSyntax -> [(JSONMetaSyntax, String, String, String)] commands metaSyntax@JSONMetaSyntax{..} = [ (metaSyntax, "insert", commaSeperator, fileWriteCommand repoFilePath insert <> commitCommand syntax "insert") , (metaSyntax, "replacement-insert", commaSeperator, fileWriteCommand repoFilePath (Prologue.intercalate "\n" [replacement, insert, insert]) <> commitCommand syntax "replacement + insert + insert") , (metaSyntax, "delete-insert", commaSeperator, fileWriteCommand repoFilePath (Prologue.intercalate "\n" [insert, insert, insert]) <> commitCommand syntax "delete + insert") , (metaSyntax, "replacement", commaSeperator, fileWriteCommand repoFilePath (Prologue.intercalate "\n" [replacement, insert, insert]) <> commitCommand syntax "replacement") , (metaSyntax, "delete-replacement", commaSeperator, fileWriteCommand repoFilePath (Prologue.intercalate "\n" [insert, replacement]) <> commitCommand syntax "delete + replacement") , (metaSyntax, "delete", commaSeperator, fileWriteCommand repoFilePath replacement <> commitCommand syntax "delete") , (metaSyntax, "delete-rest", spaceSeperator, removeCommand repoFilePath <> touchCommand repoFilePath <> commitCommand syntax "delete rest") ] where commaSeperator = "\n," spaceSeperator = "" -- | Attempts to pull from the git repository's remote repository. -- | If the pull fails, the exception is caught and continues to the next step. runPullGitRemote :: String -> FilePath -> IO () runPullGitRemote repoUrl repoPath = do Prelude.putStrLn "Attempting to fetch from the remote repository." _ <- executeCommand repoPath checkoutMasterCommand result <- attempt handle result next errorMessage where attempt :: IO (Either Prelude.IOError String) attempt = try $ executeCommand repoPath pullFromRemoteCommand handle :: Either Prelude.IOError String -> IO () -> (Prelude.IOError -> IO ()) -> IO () handle result success err = case (result :: Either Prelude.IOError String) of Left error -> err error Right _ -> success next :: IO () next = Prelude.putStrLn "Remote repository successfully fetched.\n" errorMessage :: Prelude.IOError -> IO () errorMessage err = Prelude.putStrLn $ "Pulling from the remote repository at " <> repoUrl <> " failed with: " <> show err <> ". Proceeding to the next step.\n" -- | Pushes git commits to the submodule repository's remote. runPushGitRemote :: FilePath -> IO () runPushGitRemote repoPath = do Prelude.putStrLn "Updating git remote." result <- try $ executeCommand repoPath pushToGitRemoteCommand case (result :: Either Prelude.IOError String) of Left err -> die $ "Failed to push to remote repository: " <> show err Right _ -> Prelude.putStrLn "Successfully updated git remote." -- | Closes the JSON array and closes the test case file. runCloseTestCaseFile :: JSONMetaSyntax -> IO () runCloseTestCaseFile metaSyntax = do Prelude.putStrLn $ "Closing " <> testCaseFilePath metaSyntax DL.appendFile (testCaseFilePath metaSyntax) "]\n" initializeRepoCommand :: String -> String initializeRepoCommand repoUrl = "rm -rf *; rm -rf .git; git init .; git remote add origin " <> repoUrl <> ";" addSubmoduleCommand :: String -> FilePath -> String addSubmoduleCommand repoUrl repoPath = "git submodule add " <> repoUrl <> " " <> " ./" <> repoPath <> ";" getLastCommitShaCommand :: String getLastCommitShaCommand = "git log --pretty=format:\"%H\" -n 1;" checkoutMasterCommand :: String checkoutMasterCommand = "git checkout master;" pullFromRemoteCommand :: String pullFromRemoteCommand = "git pull origin master;" touchCommand :: FilePath -> String touchCommand repoFilePath = "touch " <> repoFilePath <> ";" -- | In order to correctly record syntax examples that include backticks (like JavaScript template strings) -- | we must first escape them for bash (due to the use of the `echo` system command). Additionally, -- | we must also escape the escape character `\` in Haskell, hence the double `\\`. fileWriteCommand :: FilePath -> String -> String fileWriteCommand repoFilePath contents = "echo \"" <> (escapeBackticks . escapeDoubleQuotes) contents <> "\" > " <> repoFilePath <> ";" where escapeBackticks = DSUtils.replace "`" "\\`" escapeDoubleQuotes = DSUtils.replace "\"" "\\\"" commitCommand :: String -> String -> String commitCommand syntax commitMessage = "git add .; git commit -m \"" <> syntax <> ": " <> commitMessage <> "\"" <> ";" removeCommand :: FilePath -> String removeCommand repoFilePath = "rm " <> repoFilePath <> ";" pushToGitRemoteCommand :: String pushToGitRemoteCommand = "git push origin HEAD;" mkDirCommand :: FilePath -> String mkDirCommand repoPath = "mkdir " <> repoPath <> ";" executeCommand :: FilePath -> String -> IO String executeCommand repoPath command = readCreateProcess (shell command) { cwd = Just repoPath } ""