{-# LANGUAGE CPP                        #-}
{-# LANGUAGE DeriveGeneric              #-}
#if !MIN_VERSION_base(4,12,0)
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE Trustworthy                #-}
#else
{-# LANGUAGE Safe                       #-}
#endif

{- |
Copyright:  (c) 2016 Stephen Diehl
            (c) 2016-2018 Serokell
            (c) 2018-2021 Kowainik
SPDX-License-Identifier: MIT
Maintainer:  Kowainik <xrom.xkov@gmail.com>
Stability:   Stable
Portability: Portable

Reexports functions to work with monoids plus adds extra useful functions.
-}

module Relude.Monoid
    ( -- * Reexports
      module Data.Monoid
    , module Data.Semigroup

    , Ap (..)

      -- * Combinators
    , maybeToMonoid
    , memptyIfFalse
    , memptyIfTrue
    ) where

#if MIN_VERSION_base(4,12,0)
import Data.Monoid (Ap (..))
#endif
import Data.Monoid (All (..), Alt (..), Any (..), Dual (..), Endo (..), First (..), Last (..),
                    Monoid (..), Product (..), Sum (..))
import Data.Semigroup (Option (..), Semigroup (sconcat, stimes, (<>)), WrappedMonoid, cycle1,
                       mtimesDefault, stimesIdempotent, stimesIdempotentMonoid, stimesMonoid)

import Relude.Bool.Reexport (Bool (..))
import Relude.Monad.Reexport (Maybe, fromMaybe)

#if !MIN_VERSION_base(4,12,0)
import GHC.Generics (Generic1)

import Relude.Applicative (Alternative, Applicative (..), liftA2)
import Relude.Base (Eq, Generic, Ord, Show)
import Relude.Enum (Bounded (..), Enum)
import Relude.Function (($), (.))
import Relude.Functor.Reexport (Functor (..))
import Relude.Monad.Reexport (Monad, MonadFail, MonadPlus)
import Relude.Numeric (Num (..))
import Relude.String.Reexport (Read)
#endif


-- $setup
-- >>> import Relude.Monad (Maybe (..))
-- >>> import Relude.Numeric (Int)

{- | Extracts 'Monoid' value from 'Maybe' returning 'mempty' if 'Relude.Nothing'.

>>> maybeToMonoid (Just [1,2,3] :: Maybe [Int])
[1,2,3]
>>> maybeToMonoid (Nothing :: Maybe [Int])
[]
-}
maybeToMonoid :: Monoid m => Maybe m -> m
maybeToMonoid :: forall m. Monoid m => Maybe m -> m
maybeToMonoid = m -> Maybe m -> m
forall a. a -> Maybe a -> a
fromMaybe m
forall a. Monoid a => a
mempty
{-# INLINE maybeToMonoid #-}

{- | Returns the given value in case of the given predicate is satisfied
(is 'True'). Otherwise, it returns 'mempty'.

>>> memptyIfFalse True (Just "Hello")
Just "Hello"
>>> memptyIfFalse False "Doesn't matter"
""

@since 0.7.0.0
-}
memptyIfFalse :: Monoid m => Bool -> m -> m
memptyIfFalse :: forall m. Monoid m => Bool -> m -> m
memptyIfFalse Bool
p m
val = if Bool
p then m
val else m
forall a. Monoid a => a
mempty
{-# INLINE memptyIfFalse #-}


{- | Returns the given value in case of the given predicate is unsatisfied
(is 'False'). Otherwise, it returns 'mempty'.

>>> memptyIfTrue True (Just "Hello")
Nothing
>>> memptyIfTrue False "Does matter"
"Does matter"

@since 0.7.0.0
-}
memptyIfTrue :: Monoid m => Bool -> m -> m
memptyIfTrue :: forall m. Monoid m => Bool -> m -> m
memptyIfTrue Bool
p m
val = if Bool
p then m
forall a. Monoid a => a
mempty else m
val
{-# INLINE memptyIfTrue #-}

#if !MIN_VERSION_base(4,12,0)
-- | This data type witnesses the lifting of a 'Monoid' into an
-- 'Applicative' pointwise.
--
-- @since 0.5.0
newtype Ap f a = Ap { getAp :: f a }
    deriving ( Alternative
             , Applicative
             , Enum
             , Eq
             , Functor
             , Generic
             , Generic1
             , Monad
             , MonadFail
             , MonadPlus
             , Ord
             , Read
             , Show
             )

-- | @since 0.5.0
instance (Applicative f, Semigroup a) => Semigroup (Ap f a) where
        (Ap x) <> (Ap y) = Ap $ liftA2 (<>) x y

-- | @since 0.5.0
instance (Applicative f, Semigroup a, Monoid a) => Monoid (Ap f a) where
        mempty = Ap $ pure mempty
        mappend = (<>)

-- | @since 0.5.0
instance (Applicative f, Bounded a) => Bounded (Ap f a) where
  minBound = pure minBound
  maxBound = pure maxBound

-- | @since 0.5.0
instance (Applicative f, Num a) => Num (Ap f a) where
  (+)         = liftA2 (+)
  (*)         = liftA2 (*)
  negate      = fmap negate
  fromInteger = pure . fromInteger
  abs         = fmap abs
  signum      = fmap signum
#endif