Copyright | (c) 2019-2021 Rudy Matela |
---|---|
License | 3-Clause BSD (see the file LICENSE) |
Maintainer | Rudy Matela <rudy@matela.com.br> |
Safe Haskell | None |
Language | Haskell2010 |
Template Haskell utilities.
Synopsis
- reallyDeriveCascading :: Name -> (Name -> DecsQ) -> Name -> DecsQ
- deriveWhenNeeded :: Name -> (Name -> DecsQ) -> Name -> DecsQ
- deriveWhenNeededOrWarn :: Name -> (Name -> DecsQ) -> Name -> DecsQ
- typeConArgs :: Name -> Q [Name]
- typeConArgsThat :: Name -> (Name -> Q Bool) -> Q [Name]
- typeConCascadingArgsThat :: Name -> (Name -> Q Bool) -> Q [Name]
- normalizeType :: Name -> Q (Type, [Type])
- normalizeTypeUnits :: Name -> Q Type
- isInstanceOf :: Name -> Name -> Q Bool
- isntInstanceOf :: Name -> Name -> Q Bool
- typeArity :: Name -> Q Int
- typeConstructors :: Name -> Q [(Name, [Type])]
- isTypeSynonym :: Name -> Q Bool
- typeSynonymType :: Name -> Q Type
- mergeIFns :: DecsQ -> DecsQ
- mergeI :: DecsQ -> DecsQ -> DecsQ
- lookupValN :: String -> Q Name
- showJustName :: Name -> String
- typeConstructorsArgNames :: Name -> Q [(Name, [Name])]
- (|=>|) :: Cxt -> DecsQ -> DecsQ
- (|++|) :: DecsQ -> DecsQ -> DecsQ
- whereI :: DecsQ -> [Dec] -> DecsQ
- unboundVars :: Type -> [Name]
- toBounded :: Type -> Type
- toBoundedQ :: TypeQ -> TypeQ
- module Language.Haskell.TH
Documentation
normalizeType :: Name -> Q (Type, [Type]) Source #
Normalizes a type by applying it to necessary type variables making it accept zero type parameters. The normalized type is paired with a list of necessary type variables.
> putStrLn $(stringE . show =<< normalizeType ''Int) (ConT ''Int, [])
> putStrLn $(stringE . show =<< normalizeType ''Maybe) (AppT (ConT ''Maybe) (VarT ''a),[VarT ''a])
> putStrLn $(stringE . show =<< normalizeType ''Either) (AppT (AppT (ConT ''Either) (VarT ''a)) (VarT ''b),[VarT ''a,VarT ''b])
> putStrLn $(stringE . show =<< normalizeType ''[]) (AppT (ConT ''[]) (VarT a),[VarT a])
normalizeTypeUnits :: Name -> Q Type Source #
Normalizes a type by applying it to units to make it star-kinded.
(cf. normalizeType
)
isInstanceOf :: Name -> Name -> Q Bool Source #
Given a type name and a class name,
returns whether the type is an instance of that class.
The given type must be star-kinded ( *
)
and the given class double-star-kinded ( * -> *
.
> putStrLn $(stringE . show =<< ''Int `isInstanceOf` ''Num) True
> putStrLn $(stringE . show =<< ''Int `isInstanceOf` ''Fractional) False
isntInstanceOf :: Name -> Name -> Q Bool Source #
The negation of isInstanceOf
.
typeArity :: Name -> Q Int Source #
Given a type name, return the number of arguments taken by that type. Examples in partially broken TH:
> putStrLn $(stringE . show =<< typeArity ''Int) 0
> putStrLn $(stringE . show =<< typeArity ''Maybe) 1
> putStrLn $(stringE . show =<< typeArity ''Either) 2
> putStrLn $(stringE . show =<< typeArity ''[]) 1
> putStrLn $(stringE . show =<< typeArity ''(,)) 2
> putStrLn $(stringE . show =<< typeArity ''(,,)) 3
> putStrLn $(stringE . show =<< typeArity ''String) 0
This works for Data's and Newtype's and it is useful when generating typeclass instances.
typeConstructors :: Name -> Q [(Name, [Type])] Source #
Given a type Name
,
returns a list of its type constructor Name
s
paired with the type arguments they take.
the type arguments they take.
> putStrLn $(stringE . show =<< typeConstructors ''Bool) [ ('False, []) , ('True, []) ]
> putStrLn $(stringE . show =<< typeConstructors ''[]) [ ('[], []) , ('(:), [VarT ''a, AppT ListT (VarT ''a)]) ]
> putStrLn $(stringE . show =<< typeConstructors ''(,)) [('(,), [VarT (mkName "a"), VarT (mkName "b")])]
> data Point = Pt Int Int > putStrLn $(stringE . show =<< typeConstructors ''Point) [('Pt,[ConT ''Int, ConT ''Int])]
isTypeSynonym :: Name -> Q Bool Source #
Is the given Name
a type synonym?
> putStrLn $(stringE . show =<< isTypeSynonym 'show) False
> putStrLn $(stringE . show =<< isTypeSynonym ''Char) False
> putStrLn $(stringE . show =<< isTypeSynonym ''String) True
typeSynonymType :: Name -> Q Type Source #
Resolves a type synonym.
> putStrLn $(stringE . show =<< typeSynonymType ''String) AppT ListT (ConT ''Char)
lookupValN :: String -> Q Name Source #
Lookups the name of a value throwing an error when it is not found.
> putStrLn $(stringE . show =<< lookupValN "show") 'show
showJustName :: Name -> String Source #
unboundVars :: Type -> [Name] Source #
Lists all unbound variables in a type.
This intentionally excludes the ForallT
constructor.
toBounded :: Type -> Type Source #
Binds all unbound variables using a ForallT
constructor.
(cf. unboundVars
)
module Language.Haskell.TH