{- Copyright © 2017 Albert Krewinkel Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. -} {-# LANGUAGE OverloadedStrings #-} {-| Tests for lua -} module Foreign.LuaTest (tests) where import Prelude hiding (concat) import Control.Applicative ((<|>), empty) import Control.Monad (when) import Data.ByteString (ByteString) import Data.Either (isLeft, isRight) import Data.Monoid ((<>)) import Foreign.Lua import System.Mem (performMajorGC) import Test.HsLua.Util (luaTestCase, pushLuaExpr) import Test.Tasty (TestTree, testGroup) import Test.Tasty.HUnit (assert, assertBool, assertEqual, testCase) import qualified Data.ByteString.Char8 as B import qualified Data.Text as T import qualified Data.Text.Encoding as T -- | Specifications for Attributes parsing functions. tests :: TestTree tests = testGroup "lua integration tests" [ testCase "print version" . runLua $ do openlibs getglobal "assert" push ("Hello from " :: ByteString) getglobal "_VERSION" concat 2 call 1 0 , testCase "functions stored in / retrieved from registry" . runLua $ do pushLuaExpr "function() return 2 end, function() return 1 end" idx1 <- ref registryindex idx2 <- ref registryindex -- functions are removed from stack liftIO . assert =<< fmap (TypeFunction /=) (ltype (-1)) -- get functions from registry rawgeti registryindex idx1 call 0 1 r1 <- peek (-1) :: Lua LuaInteger liftIO (assert (r1 == 1)) rawgeti registryindex idx2 call 0 1 r2 <- peek (-1) :: Lua LuaInteger liftIO (assert (r2 == 2)) -- delete references unref registryindex idx1 unref registryindex idx2 , luaTestCase "getting a nested global works" $ do pushLuaExpr "{greeting = 'Moin'}" setglobal "hamburg" getglobal' "hamburg.greeting" pushLuaExpr "'Moin'" equal (-1) (-2) , testCase "table reading" . runLua $ do openbase let tableStr = "{firstname = 'Jane', surname = 'Doe'}" pushLuaExpr $ "setmetatable(" <> tableStr <> ", {'yup'})" getfield (-1) "firstname" firstname <- peek (-1) <* pop 1 :: Lua ByteString liftIO (assert (firstname == "Jane")) push ("surname" :: ByteString) rawget (-2) surname <- peek (-1) <* pop 1 :: Lua ByteString liftIO (assert (surname == "Doe")) hasMetaTable <- getmetatable (-1) liftIO (assert hasMetaTable) rawgeti (-1) 1 mt1 <- peek (-1) <* pop 1 :: Lua ByteString liftIO (assert (mt1 == "yup")) , testGroup "Getting strings to and from the stack" [ testCase "unicode ByteString" $ do let val = T.pack "öçşiğüİĞı" val' <- runLua $ do pushstring (T.encodeUtf8 val) T.decodeUtf8 `fmap` tostring 1 assertEqual "Popped a different value or pop failed" val val' , testCase "ByteString should survive after GC/Lua destroyed" $ do (val, val') <- runLua $ do let v = B.pack "ByteString should survive" pushstring v v' <- tostring 1 pop 1 return (v, v') performMajorGC assertEqual "Popped a different value or pop failed" val val' , testCase "String with NUL byte should be pushed/popped correctly" $ do let str = "A\NULB" str' <- runLua $ pushstring (B.pack str) *> tostring 1 assertEqual "Popped string is different than what's pushed" str (B.unpack str') ] , testGroup "luaopen_* functions" $ map (uncurry testOpen) [ ("debug", opendebug) , ("io", openio) , ("math", openmath) , ("os", openos) , ("package", openpackage) , ("string", openstring) , ("table", opentable) ] , testGroup "luaopen_base returns the right number of tables" testOpenBase , testGroup "C functions" [ testCase "Registering a C function and calling it from Lua" $ let comp :: Lua [String] comp = do fn <- newCFunction (return . words :: String -> Lua [String]) register "words" fn res <- dostring "return words('Caffeine induced nonsense')" freeCFunction fn if res == OK then peek (-1) else throwLuaError "Error in words function." in assertEqual "greeting function failed" (Right ["Caffeine", "induced", "nonsense"]) =<< runLuaEither comp , testCase "pushing a C closure to and calling it from Lua" $ -- Closures would usually be defined on the Haskell side, unless the -- upvalues cannot be read from the stack (e.g., a lua function). let greeter :: String -> HaskellFunction greeter greetee = do greeting <- peek (upvalueindex 1) push (greeting ++ (", " :: String) ++ greetee ++ ("!" :: String)) return 1 comp :: Lua String comp = do fn <- newCFunction (greeter "World") push ("Hello" :: String) pushcclosure fn 1 call 0 multret freeCFunction fn peek (-1) in assertEqual "greeting function failed" (Right "Hello, World!") =<< runLuaEither comp ] , testGroup "error handling" [ testCase "lua errors are caught" $ assertBool "error was not intercepted" . isLeft =<< runLuaEither (push True *> peek (-1) :: Lua String) , testCase "error-less code gives in 'Right' result" $ assertBool "error was not intercepted" . isRight =<< runLuaEither (push True *> peek (-1) :: Lua Bool) , testCase "catching lua errors within the lua type" $ assert . isLeft =<< (runLua $ tryLua (throwLuaError "test")) , testCase "second alternative is used when first fails" $ assertEqual "alternative failed" (Right True) =<< runLuaEither (throwLuaError "test" <|> return True) , testCase "Applicative.empty implementation throws an exception" $ assertBool "empty doesn't throw" . isLeft =<< runLuaEither empty , testCase "catching error of a failing meta method" $ assertBool "compuation was expected to fail" . isLeft =<< let comp = do pushLuaExpr "setmetatable({}, {__index = error})" getfield (-1) "foo" :: Lua () in runLuaEither comp , testCase "calling a function that errors throws exception" $ let msg = "error message" luaCode = "return error('" ++ msg ++ "')" err = "[string \"" ++ luaCode ++ "\"]:1: " ++ msg errTest x = x == (Left (LuaException msg)) || -- LuaJIT x == (Left (LuaException err)) -- default Lua in assertBool "problem in error" . errTest =<< (runLuaEither $ do openbase res <- loadstring luaCode when (res == OK) $ call 0 0) ] ] -------------------------------------------------------------------------------- -- luaopen_* functions testOpen :: String -> Lua () -> TestTree testOpen lib openfn = testCase ("open" ++ lib) $ assertBool "opening the library failed" =<< runLua (openfn *> istable (-1)) testOpenBase :: [TestTree] testOpenBase = (:[]) . testCase "openbase" $ assertBool "loading base didn't push the expected number of tables" =<< (runLua $ do -- openbase returns one table in lua 5.2 and later, but two in 5.1 openbase getglobal "_VERSION" version <- peek (-1) <* pop 1 if version == ("Lua 5.1" :: ByteString) then (&&) <$> istable (-1) <*> istable (-2) else istable (-1))