forked from github/purescript-typeable
7a785fccb5
Changes due to PureScript 0.15 1. Remove constraints from foreign imports. 2. Remove support for records due to the new apartness check. 3. Convert CommonJS to ESmodules Others: Format all files. TODO: Records are currently not supported because of the new apartness check in PureScript 0.15. The instance (Typeable (f a)) then partially overlaps with (Typeable (Record r)). Even though (a::Type) and (r::Row Type), that still isn't enough for the compiler to disambiguate. There is no way that I can see to specify an instance for all (f a) where f is NOT Record.
99 lines
3.4 KiB
Haskell
99 lines
3.4 KiB
Haskell
module Test.Main where
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import Prelude
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import Control.Monad.Error.Class (class MonadThrow)
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import Data.Either (Either)
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import Data.Typeable (class TagT, TypeRep, eqTypeRep, proxyT, typeRep, typeRepFromVal)
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import Effect (Effect)
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import Effect.Aff (launchAff_)
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import Effect.Exception (Error)
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import Test.Spec (describe, it)
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import Test.Spec.Assertions (shouldEqual)
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import Test.Spec.Reporter.Console (consoleReporter)
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import Test.Spec.Runner (runSpec)
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foreign import clog :: forall a. a -> Effect Unit
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assert :: forall m. MonadThrow Error m => Boolean -> m Unit
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assert = shouldEqual true
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deny :: forall m. MonadThrow Error m => Boolean -> m Unit
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deny = shouldEqual false
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main :: Effect Unit
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main = do
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launchAff_ $ runSpec [ consoleReporter ] do
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describe "Typeable" do
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it "can handle primitives" do
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deny $ eqTypeRep (typeRep :: _ Int) (typeRep :: _ Char)
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it "can handle unsaturated types" do
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assert $ eqTypeRep (typeRep :: _ Array) (typeRep :: _ Array)
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it "can handle mixed arity" do
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deny $ eqTypeRep (typeRep :: _ Array) (typeRep :: _ Person)
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it "can handle user defined data types" do
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assert $ eqTypeRep (typeRep :: _ Person) typePerson
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assert $ eqTypeRep (typeRep :: _ Optional) (typeRep :: _ Optional)
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deny $ eqTypeRep (typeRep :: _ (Optional Int)) (typeRep :: _ (Optional Char))
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it "can distinguish between distinct types with matching fields" do
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deny $ eqTypeRep (typeRep :: _ Person) (typeRep :: _ Person2)
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it "can handle nested types" do
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assert $ eqTypeRep (typeRep :: _ (Either Int Person)) (typeRep :: _ (Either Int Person))
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assert $ eqTypeRep (typeRep :: _ (Array Person)) typeArrPerson
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deny $ eqTypeRep (typeRep :: _ (Array Person2)) typeArrPerson
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-- it "can handle bare records" do
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-- assert $ eqTypeRep typeRecord (typeRep :: _ { name :: String, age :: Int })
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it "can generate type reps from values" do
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assert $ eqTypeRep (typeRep :: _ (Optional Int)) (typeRepFromVal (Some 1))
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deny $ eqTypeRep (typeRep :: _ (Optional Person)) (typeRepFromVal (Some 1))
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clog (eqTypeRep (typeRep :: _ Int) (typeRep :: _ Char))
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clog (eqTypeRep (typeRep :: _ Int) (typeRep :: _ Int))
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clog (typeRep :: _ Char)
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clog (typeRep :: _ Int)
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clog (typeRep :: _ Array)
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-- clog (typeRep :: _ { name :: String, age :: Int })
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clog (typeRep :: _ (Int -> Either (Either Int Int) (Optional (Array (Person)))))
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clog (typeRep :: _ (Either (Either Int Int) (Optional (Array (Person)))))
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clog (typeRep :: _ (Either Int Int))
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clog (typeRep :: _ (Foo Int Int Int))
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where
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-- typeRecord :: TypeRep { age :: Int, name :: String }
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-- typeRecord = typeRep
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typeArrPerson :: TypeRep (Array Person)
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typeArrPerson = typeRep
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typePerson :: TypeRep Person
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typePerson = typeRep
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-- The following should not compile since Break does not have a typeable instance
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-- typeRecordBreak :: TypeRep {break::Break, name::String}
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-- typeRecordBreak = typeRep
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-- A data type without a typeable instance
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data Break
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data Foo :: forall k1 k2 k3. k1 -> k2 -> k3 -> Type
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data Foo a b c = Foo
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instance tagFoo :: TagT Foo where
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tagT = proxyT
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newtype Person = Person { name :: String, location :: String }
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instance tagTPerson :: TagT Person where
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tagT = proxyT
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newtype Person2 = Person2 { name :: String, location :: String }
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instance tagTPerson2 :: TagT Person2 where
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tagT = proxyT
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data Optional a = None | Some a
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instance tagOptional :: TagT Optional where
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tagT = proxyT
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