{-# LANGUAGE Rank2Types #-}
-- | Lenses allow you to use fields of the state of a state monad as if they were variables in an imperative language.
-- 'use' is used to retrieve the value of a variable, and '.=' and '%=' allow you to set and modify a variable.
-- C-style compound assignments are also provided.
module Lens.Family2.State.Strict
  ( LFS.zoom
  , use, uses
  , (%=)
  , assign, (.=)
  , (%%=)
  , (<~)
-- * Compound Assignments
  , (+=), (-=), (*=)
  , (//=)
  , (&&=), (||=)
  , (<>=)
-- * Strict Assignments
  , (%!=)
  , (+!=), (-!=), (*!=)
  , (//!=)
  , (&&!=), (||!=)
  , (<>!=)
-- * Types
  , LFS.Zooming
-- * Re-exports
  , LensLike, LensLike'
  , FoldLike, Constant
  , Setter, Setter', Identical
  , LFS.StateT, MonadState, Writer
  , Monoid
  ) where

import Data.Monoid (Monoid, mappend)
import Data.Tuple (swap)
import Control.Monad (liftM)
import Control.Monad.Trans.Writer.Lazy (Writer, writer, runWriter)
import Control.Monad.State.Strict (MonadState, get, modify, modify', state)
import Lens.Family2 ( LensLike, LensLike'
                    , FoldLike, Constant
                    , Setter, Setter', Identical
                    , view, views, (%~)
                    )
import qualified Lens.Family.State.Strict as LFS

use :: MonadState a m => FoldLike b a a' b b' -> m b
-- ^ @
-- use :: MonadState a m => Getter a a' b b' -> m b
-- @
--
-- Retrieve a field of the state
--
-- @
-- use :: (Monoid b, MonadState a m) => Fold a a' b b' -> m b
-- @
--
-- Retrieve a monoidal summary of all the referenced fields from the state
use l = view l `liftM` get

uses :: MonadState a m => FoldLike r a a' b b' -> (b -> r) -> m r
-- ^ @
-- uses :: (MonadState a m, Monoid r) => Fold a a' b b' -> (b -> r) -> m r
-- @
--
-- Retrieve all the referenced fields from the state and foldMap the results together with @f :: b -> r@.
--
-- @
-- uses :: MonadState a m => Getter a a' b b' -> (b -> r) -> m r
-- @
--
-- Retrieve a field of the state and pass it through the function @f :: b -> r@.
--
-- @uses l f = f \<$> use l@
uses l f = views l f `liftM` get

infix 4 %=

-- | Modify a field of the state.
(%=) :: MonadState a m => Setter a a b b' -> (b -> b') -> m ()
l %= f = modify (l %~ f)

infix 4 .=

-- | Set a field of the state.
(.=) :: MonadState a m => Setter a a b b' -> b' -> m ()
l .= v = l %= const v

-- | Set a field of the state.
assign :: MonadState a m => Setter a a b b' -> b' -> m ()
assign = (.=)

infixr 2 <~

-- | Set a field of the state using the result of executing a stateful command.
(<~) :: MonadState a m => Setter a a b b' -> m b' -> m ()
l <~ v = assign l =<< v

infix 4 %%=

(%%=) :: MonadState a m => LensLike (Writer c) a a b b' -> (b -> (c, b')) -> m c
-- ^ @
-- (%%=) :: MonadState a m => Lens a a b b' -> (b -> (c, b')) -> m c
-- @
--
-- Modify a field of the state while returning another value.
--
-- @
-- (%%=) :: (MonadState a m, Monoid c) => Traversal a a b b' -> (b -> (c, b')) -> m c
-- @
--
-- Modify each field of the state and return the 'mconcat' of the other values.
l %%= f = state (swap . runWriter . l (writer . swap . f))

infixr 4 +=, -=, *=

(+=), (-=), (*=) :: (MonadState a m, Num b) => Setter' a b -> b -> m ()
f += b = f %= (+ b)
f -= b = f %= subtract b
f *= b = f %= (* b)

infixr 4 //=

(//=) :: (MonadState a m, Fractional b) => Setter' a b -> b -> m ()
f //= b = f %= (/ b)

infixr 4 &&=, ||=

(&&=), (||=) :: MonadState a m => Setter' a Bool -> Bool -> m ()
f &&= b = f %= (&& b)
f ||= b = f %= (|| b)

infixr 4 <>=

-- | Monoidally append a value to all referenced fields of the state.
(<>=) :: (Monoid o, MonadState a m) => Setter' a o -> o -> m ()
f <>= b = f %= (`mappend` b)

infix 4 %!=

-- | Strictly modify a field of the state.
(%!=) :: MonadState a m => Setter a a b b' -> (b -> b') -> m ()
l %!= f = modify' (l %~ f)

infixr 4 +!=, -!=, *!=

(+!=), (-!=), (*!=) :: (MonadState a m, Num b) => Setter' a b -> b -> m ()
f +!= b = f %!= (+ b)
f -!= b = f %!= subtract b
f *!= b = f %!= (* b)

infixr 4 //!=

(//!=) :: (MonadState a m, Fractional b) => Setter' a b -> b -> m ()
f //!= b = f %!= (/ b)

infixr 4 &&!=, ||!=

(&&!=), (||!=) :: MonadState a m => Setter' a Bool -> Bool -> m ()
f &&!= b = f %!= (&& b)
f ||!= b = f %!= (|| b)

infixr 4 <>!=

(<>!=) :: (Monoid o, MonadState a m) => Setter' a o -> o -> m ()
f <>!= b = f %!= (`mappend` b)