{-# LANGUAGE LambdaCase #-} {-# LANGUAGE OverloadedStrings #-} {-# OPTIONS_GHC -fno-warn-orphans #-} {-| Module : Main Copyright : © 2023-2024 Albert Krewinkel License : MIT Maintainer : Albert Krewinkel Tests for type specifiers. -} import Control.Monad (when) import Data.String (fromString) import HsLua.Core import HsLua.Core.Types import HsLua.Marshalling import HsLua.Typing import Lua.Arbitrary () import Test.Tasty (TestTree, defaultMain, testGroup) import Test.Tasty.HUnit ((@?=), testCase) import Test.Tasty.QuickCheck import Test.QuickCheck.Instances () import qualified HsLua.Core as HsLua import qualified Test.QuickCheck.Monadic as QC -- | Run this spec. main :: IO () main = defaultMain tests -- | Aeson tests tests :: TestTree tests = testGroup "hslua-typespec" [ testGroup "string representation" [ testCase "any" $ "any" @?= anyType , testCase "boolean" $ "boolean" @?= booleanType , testCase "function" $ "function" @?= functionType , testCase "integer" $ "integer" @?= integerType , testCase "nil" $ "nil" @?= nilType , testCase "number" $ "number" @?= numberType , testCase "string" $ "string" @?= stringType , testCase "table" $ "table" @?= tableType , testCase "userdata" $ "userdata" @?= userdataType , testCase "light userdata" $ "light userdata" @?= lightUserdataType , testCase "sequence" $ "{string,...}" @?= seqType stringType , testCase "alternative" $ "string|boolean|number" @?= stringType #|# (booleanType #|# numberType) , testCase "sequence of alternatives" $ "{string|number,...}" @?= seqType (stringType #|# numberType) , testCase "string or strings" $ "string|{string,...}" @?= stringType #|# seqType stringType , testCase "strings or string" $ "{string,...}|string" @?= seqType stringType #|# stringType , testCase "sequence of sequences" $ "{{number,...}, ... }" @?= seqType (seqType "number") ] , testGroup "to string" [ testCase "any" $ typeSpecToString anyType @?= "any" , testCase "boolean" $ typeSpecToString booleanType @?= "boolean" , testCase "function" $ typeSpecToString functionType @?= "function" , testCase "number" $ typeSpecToString numberType @?= "number" , testCase "string" $ typeSpecToString stringType @?= "string" , testCase "table" $ typeSpecToString tableType @?= "table" , testCase "userdata" $ typeSpecToString userdataType @?= "userdata" , testCase "sequence" $ seqType stringType @?= "{string,...}" ] , testGroup "operators" [ testGroup "#|#" -- These should be property tests [ testCase "combining basic types yields sum type" $ booleanType #|# numberType @?= SumType [booleanType, numberType] , testCase "any is the unit" $ do booleanType #|# anyType @?= anyType anyType #|# booleanType @?= anyType , testCase "void is zero" $ do booleanType #|# voidType @?= booleanType voidType #|# numberType @?= numberType ] ] , testGroup "Marshalling" [ testProperty "Roundtrip TypeSpec" $ assertRoundtripEqual pushTypeSpec peekTypeSpec , testProperty "Roundtrip TypeDocs" $ assertRoundtripEqual pushTypeDoc peekTypeDoc ] ] instance Arbitrary TypeSpec where arbitrary = arbitraryTypeSpec 3 shrink = shrinkTypeSpec instance Arbitrary TypeDocs where arbitrary = TypeDocs <$> arbitrary <*> arbitrary <*> arbitrary shrink td = (\ts -> td{ typeSpec = ts}) <$> shrink (typeSpec td) instance Arbitrary Name where arbitrary = Name . fromString <$> arbitrary arbitraryTypeSpec :: Int -> Gen TypeSpec arbitraryTypeSpec size = frequency [ (8, BasicType . toType <$> arbitrary) , (1, NamedType <$> arbitrary) , (3, resize (size - 1) $ SeqType <$> arbitrary) , (2, resize (size - 1) $ SumType <$> arbitrary) , (2, resize (size - 1) $ RecType <$> arbitrary) , (1, resize (size - 1) $ FunType <$> arbitrary <*> arbitrary) , (1, return AnyType) ] shrinkTypeSpec :: TypeSpec -> [TypeSpec] shrinkTypeSpec = \case SumType cs -> SumType <$> shrinkList shrink cs SeqType x -> shrink x FunType d c -> (FunType c <$> shrinkList shrinkTypeSpec d) ++ ((`FunType` d) <$> shrinkList shrinkTypeSpec c) x -> shrinkNothing x assertRoundtripEqual :: Eq a => Pusher HsLua.Exception a -> Peeker HsLua.Exception a -> a -> Property assertRoundtripEqual pushX peekX x = QC.monadicIO $ do y <- QC.run $ roundtrip pushX peekX x QC.assert (x == y) roundtrip :: Pusher HsLua.Exception a -> Peeker HsLua.Exception a -> a -> IO a roundtrip pushX peekX x = run $ do pushX x size <- gettop when (size /= 1) $ failLua $ "not the right amount of elements on the stack: " ++ show size result <- forcePeek $ peekX top afterPeekSize <- gettop when (afterPeekSize /= 1) $ failLua $ "peeking modified the stack: " ++ show afterPeekSize return result