{-# LANGUAGE TemplateHaskell #-} {-# OPTIONS_HADDOCK not-home #-} -- | This module provides Template Haskell functions for automatically generating -- effect operation functions (that is, functions that use 'send') from a given -- effect algebra. For example, using the @FileSystem@ effect from the example in -- the module documentation for "Polysemy", we can write the following: -- -- @ -- data FileSystem m a where -- ReadFile :: 'FilePath' -> FileSystem 'String' -- WriteFile :: 'FilePath' -> 'String' -> FileSystem () -- -- 'makeSem' ''FileSystem -- @ -- -- This will automatically generate (approximately) the following functions: -- -- @ -- readFile :: 'Member' FileSystem r => 'FilePath' -> 'Sem' r 'String' -- readFile a = 'send' (ReadFile a) -- -- writeFile :: 'Member' FileSystem r => 'FilePath' -> 'String' -> 'Sem' r () -- writeFile a b = 'send' (WriteFile a b) -- @ module Polysemy.Internal.TH.Effect ( makeSem , makeSem_ ) where import Control.Monad import Language.Haskell.TH import Language.Haskell.TH.Datatype import Polysemy.Internal.CustomErrors (DefiningModule) import Polysemy.Internal.TH.Common -- TODO: write tests for what should (not) compile ------------------------------------------------------------------------------ -- | If @T@ is a GADT representing an effect algebra, as described in the -- module documentation for "Polysemy", @$('makeSem' ''T)@ automatically -- generates a smart constructor for every data constructor of @T@. This also -- works for data family instances. Names of smart constructors are created by -- changing first letter to lowercase or removing prefix @:@ in case of -- operators. Fixity declaration is preserved for both normal names and -- operators. -- -- @since 0.1.2.0 makeSem :: Name -> Q [Dec] makeSem = genFreer True ------------------------------------------------------------------------------ -- | Like 'makeSem', but does not provide type signatures and fixities. This -- can be used to attach Haddock comments to individual arguments for each -- generated function. -- -- @ -- data Output o m a where -- Output :: o -> Output o m () -- -- makeSem_ ''Output -- -- -- | Output the value \@o\@. -- output :: forall o r -- . Member (Output o) r -- => o -- ^ Value to output. -- -> Sem r () -- ^ No result. -- @ -- -- Because of limitations in Template Haskell, signatures have to follow some -- rules to work properly: -- -- * 'makeSem_' must be used /before/ the explicit type signatures -- * signatures have to specify argument of 'Sem' representing union of -- effects as @r@ (e.g. @'Sem' r ()@) -- * all arguments in effect's type constructor have to follow naming scheme -- from data constructor's declaration: -- -- @ -- data Foo e m a where -- FooC1 :: Foo x m () -- FooC2 :: Foo (Maybe x) m () -- @ -- -- should have @x@ in type signature of @fooC1@: -- -- @fooC1 :: forall x r. Member (Foo x) r => Sem r ()@ -- -- and @Maybe x@ in signature of @fooC2@: -- -- @fooC2 :: forall x r. Member (Foo (Maybe x)) r => Sem r ()@ -- -- * all effect's type variables and @r@ have to be explicitly quantified -- using @forall@ (order is not important) -- -- These restrictions may be removed in the future, depending on changes to -- the compiler. -- -- Change in (TODO(Sandy): version): in case of GADTs, signatures now only use -- names from data constructor's type and not from type constructor -- declaration. -- -- @since 0.1.2.0 makeSem_ :: Name -> Q [Dec] makeSem_ = genFreer False -- NOTE(makeSem_): -- This function uses an ugly hack to work --- it changes names in data -- constructor's type to capturable ones. This allows user to provide them to -- us from their signature through 'forall' with 'ScopedTypeVariables' -- enabled, so that we can compile liftings of constructors with ambiguous -- type arguments (see issue #48). -- -- Please, change this as soon as GHC provides some way of inspecting -- signatures, replacing code or generating haddock documentation in TH. ------------------------------------------------------------------------------ -- | Generates declarations and possibly signatures for functions to lift GADT -- constructors into 'Sem' actions. genFreer :: Bool -> Name -> Q [Dec] genFreer should_mk_sigs type_name = do checkExtensions [ScopedTypeVariables, FlexibleContexts, DataKinds] (dt_name, cl_infos) <- getEffectMetadata type_name tyfams_on <- isExtEnabled TypeFamilies def_mod_fi <- sequence [ tySynInstDCompat ''DefiningModule Nothing [pure $ ConT dt_name] (LitT . StrTyLit . loc_module <$> location) | tyfams_on ] decs <- traverse (genDec should_mk_sigs) cl_infos let sigs = if should_mk_sigs then genSig <$> cl_infos else [] pure $ join $ def_mod_fi : sigs ++ decs ------------------------------------------------------------------------------ -- | Generates signature for lifting function and type arguments to apply in -- its body on effect's data constructor. genSig :: ConLiftInfo -> [Dec] genSig cli = maybe [] (pure . flip InfixD (cliFunName cli)) (cliFunFixity cli) ++ [ SigD (cliFunName cli) $ quantifyType $ ForallT [] (member_cxt : cliFunCxt cli) $ foldArrowTs sem $ fmap snd $ cliFunArgs cli ] where member_cxt = makeMemberConstraint (cliUnionName cli) cli sem = makeSemType (cliUnionName cli) (cliEffRes cli) ------------------------------------------------------------------------------ -- | Builds a function definition of the form -- @x a b c = send (X a b c :: E m a)@. genDec :: Bool -> ConLiftInfo -> Q [Dec] genDec should_mk_sigs cli = do let fun_args_names = fmap fst $ cliFunArgs cli pure [ PragmaD $ InlineP (cliFunName cli) Inlinable ConLike AllPhases , FunD (cliFunName cli) [ Clause (VarP <$> fun_args_names) (NormalB $ makeUnambiguousSend should_mk_sigs cli) [] ] ]