Safe Haskell | None |
---|---|
Language | Haskell98 |
Dynamic values with support for rank-1 polymorphic types.
- Examples of fromDynamic
These examples correspond to the isInstanceOf
examples
in Data.Rank1Typeable.
> do f <- fromDynamic (toDynamic (even :: Int -> Bool)) ; return $ (f :: Int -> Int) 0 Left "Cannot unify Int and Bool" > do f <- fromDynamic (toDynamic (const 1 :: ANY -> Int)) ; return $ (f :: Int -> Int) 0 Right 1 > do f <- fromDynamic (toDynamic (unsafeCoerce :: ANY1 -> ANY2)) ; return $ (f :: Int -> Int) 0 Right 0 > do f <- fromDynamic (toDynamic (id :: ANY -> ANY)) ; return $ (f :: Int -> Bool) 0 Left "Cannot unify Bool and Int" > do f <- fromDynamic (toDynamic (undefined :: ANY)) ; return $ (f :: Int -> Int) 0 Right *** Exception: Prelude.undefined > do f <- fromDynamic (toDynamic (id :: ANY -> ANY)) ; return $ (f :: Int) Left "Cannot unify Int and ->"
- Examples of dynApply
These examples correspond to the funResultTy
examples
in Data.Rank1Typeable.
> do app <- toDynamic (id :: ANY -> ANY) `dynApply` toDynamic True ; f <- fromDynamic app ; return $ (f :: Bool) Right True > do app <- toDynamic (const :: ANY -> ANY1 -> ANY) `dynApply` toDynamic True ; f <- fromDynamic app ; return $ (f :: Int -> Bool) 0 Right True > do app <- toDynamic (($ True) :: (Bool -> ANY) -> ANY) `dynApply` toDynamic (id :: ANY -> ANY) ; f <- fromDynamic app ; return (f :: Bool) Right True > app <- toDynamic (const :: ANY -> ANY1 -> ANY) `dynApply` toDynamic (id :: ANY -> ANY) ; f <- fromDynamic app ; return $ (f :: Int -> Bool -> Bool) 0 True Right True > do app <- toDynamic ((\f -> f . f) :: (ANY -> ANY) -> ANY -> ANY) `dynApply` toDynamic (even :: Int -> Bool) ; f <- fromDynamic app ; return (f :: ()) Left "Cannot unify Int and Bool"
- Using toDynamic
When using polymorphic values you need to give an explicit type annotation:
> toDynamic id <interactive>:46:1: Ambiguous type variable `a0' in the constraint: (Typeable a0) arising from a use of `toDynamic' Probable fix: add a type signature that fixes these type variable(s) In the expression: toDynamic id In an equation for `it': it = toDynamic id
versus
> toDynamic (id :: ANY -> ANY) <<ANY -> ANY>>
Note that these type annotation are checked by ghc like any other:
> toDynamic (id :: ANY -> ANY1) <interactive>:45:12: Couldn't match expected type `V1' with actual type `V0' Expected type: ANY -> ANY1 Actual type: ANY -> ANY In the first argument of `toDynamic', namely `(id :: ANY -> ANY1)' In the expression: toDynamic (id :: ANY -> ANY1)
Documentation
type TypeError = String Source
If isInstanceOf
fails it returns a type error
dynTypeRep :: Dynamic -> TypeRep Source
The type representation of a dynamic value