{-# OPTIONS_HADDOCK show-extensions #-} {-# LANGUAGE KindSignatures #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE BangPatterns #-} module Control.THEff.State.Strict ( -- * Overview -- | -- This version builds its output strictly; for a lazy version with -- the same interface, see "Control.THEff.State". -- -- > {-# LANGUAGE KindSignatures #-} -- > {-# LANGUAGE FlexibleInstances #-} -- > {-# LANGUAGE MultiParamTypeClasses #-} -- > {-# LANGUAGE TemplateHaskell #-} -- > -- > import Control.THEff -- > import Control.THEff.State.Strict -- > -- > mkEff "Example1" ''State ''Int ''NoEff -- > mkEff "Example2" ''State ''Float ''Example1 -- > -- > main:: IO () -- > main = print $ runExample1 123 -- > $ runExample2 pi $ do -- > i <- get -- > modify ((1 :: Int) +) -- > put $ i * (2 :: Float) -- > return $ show i -- -- __/Output :/__ (("3.1415927",6.2831855),124) -- * Types and functions used in mkEff State' , State(..) , StateArgT , StateResT , effState , runEffState -- * Functions that use this effect , get , put , modify -- * Helper functions , stateOnly , withoutState ) where import Control.THEff -- | Actually, the effect type -- - __/v/__ - Type - the parameter of the effect. -- - __/e/__ - mkEff generated type. data State' v e = State' (v -> v) (v -> e) -- | Type implements link in the chain of effects. -- Constructors must be named __/{EffectName}{Outer|WriterAction|WriterResult}/__ -- and have a specified types of fields. -- - __/m/__ - Or Monad (if use the 'Lift') or phantom type - stub (if used 'NoEff'). -- - __/o/__ - Type of outer effect. -- - __/a/__ - The result of mkEff generated runEEEE... function. data State (m:: * -> *) e o v a = StateOuter (o m e) | StateAction (State' v e) | StateResult a -- | Type of fourth argument of runEffState and first argument of runEEEE. type StateArgT v = v -- | Result type of runEEEE. type StateResT r v = (r, v) -- | This function is used in the 'mkEff' generated runEEEE functions and typically -- in effect action functions. Calling the effect action. effState:: EffClass State' v e => State' v r -> Eff e r effState (State' f g) = effAction $ \k -> State' f (k . g) -- | The main function of the effect implementing. -- This function is used in the 'mkEff' generated runEEEE functions. runEffState :: forall (t :: * -> *) (u :: (* -> *) -> * -> *) (m :: * -> *) z v (m1 :: * -> *) e (o :: (* -> *) -> * -> *) w a r. Monad m => (u t r -> (r -> m (StateResT z v)) -> m (StateResT z v)) -- ^ The outer effect function -> (State m1 e o w a -> r) -- ^ The chain of effects link wrapper. -> (r -> State t r u v z) -- ^ The chain of effects link unwrapper. -> StateArgT v -- ^ The initial value of argument of effect. -> Eff r a -> m (StateResT z v) runEffState outer to un v m = loop v $ runEff m (to . StateResult) where loop !s = select . un where select (StateOuter f) = outer f (loop s) select (StateAction (State' t k)) = let s' = t s in loop s' (k s') select (StateResult r) = return (r,s) -- | Get state value get :: EffClass State' v e => Eff e v get = effState $ State' id id -- | Put state value put :: EffClass State' v e => v -> Eff e () put !s = modify $ const s -- | Modify state value modify :: EffClass State' v e => (v -> v) -> Eff e () modify f = effState $ State' f (const ()) -- | @ stateOnly runExample1 123 === snd (runExample1 123) @ stateOnly :: forall v e r t. (t -> e -> (r, v)) -- ^ State effect runEEEE function -> t -- ^ The initial value of argument of effect. -> e -- ^ Eff (MyState m ...) ... -> v stateOnly f v = snd . (f v) -- | @ withoutState runExample1 123 === fst (runExample1 123) @ withoutState :: forall v e r t. (t -> e -> (r, v)) -- ^ State effect runEEEE function -> t -- ^ The initial value of argument of effect. -> e -- ^ Eff (MyState m ...) ... -> r withoutState f v = fst . (f v)