{-# language FlexibleInstances #-}
{-# language Safe #-}
-- |
-- Module       : Data.Group.Multiplicative
-- Copyright    : (c) 2020 Emily Pillmore
-- License      : BSD-style
--
-- Maintainer   : Emily Pillmore <emilypi@cohomolo.gy>,
--                Reed Mullanix <reedmullanix@gmail.com>
-- Stability    : stable
-- Portability  : non-portable
--
-- This module contains definitions for 'MultiplicativeGroup' and
-- 'MultiplicativeAbelianGroup', along with the relevant combinators.
--
module Data.Group.Multiplicative
( -- * Multiplicative Groups
  MultiplicativeGroup
  -- ** combinators
, (/)
, (*)
, (^)
, power
  -- * Multiplicative abelian groups
, MultiplicativeAbelianGroup
) where


import Data.Functor.Const
import Data.Functor.Identity
import Data.Group
import Data.Proxy
import Data.Semigroup

import Prelude hiding ((^), (/), (*))

infixl 7 /, *
infixr 8 ^

-- $setup
--
-- >>> import qualified Prelude
-- >>> import Data.Group
-- >>> import Data.Monoid
-- >>> import Data.Semigroup
-- >>> :set -XTypeApplications

-- -------------------------------------------------------------------- --
-- Multiplicative groups

-- | An multiplicative group is a 'Group' whose operation can be thought of
-- as multiplication in some sense.
--
-- For example, the multiplicative group of rationals \( (ℚ, 1, *) \).
--
class Group g => MultiplicativeGroup g

instance MultiplicativeGroup ()
instance MultiplicativeGroup b => MultiplicativeGroup (a -> b)
instance MultiplicativeGroup a => MultiplicativeGroup (Dual a)
instance Fractional a => MultiplicativeGroup (Product a)
instance (MultiplicativeGroup a, MultiplicativeGroup b) => MultiplicativeGroup (a,b)
instance (MultiplicativeGroup a, MultiplicativeGroup b, MultiplicativeGroup c) => MultiplicativeGroup (a,b,c)
instance (MultiplicativeGroup a, MultiplicativeGroup b, MultiplicativeGroup c, MultiplicativeGroup d) => MultiplicativeGroup (a,b,c,d)
instance (MultiplicativeGroup a, MultiplicativeGroup b, MultiplicativeGroup c, MultiplicativeGroup d, MultiplicativeGroup e) => MultiplicativeGroup (a,b,c,d,e)
instance MultiplicativeGroup a => MultiplicativeGroup (Const a b)
instance MultiplicativeGroup a => MultiplicativeGroup (Identity a)
instance MultiplicativeGroup a => MultiplicativeGroup (Proxy a)

-- | Infix alias for multiplicative inverse.
--
-- === __Examples__:
--
-- >>> let x = Product (4 :: Rational)
-- >>> x / 2
-- Product {getProduct = 2 % 1}
--
(/) :: MultiplicativeGroup a => a -> a -> a
/ :: a -> a -> a
(/) = a -> a -> a
forall a. Group a => a -> a -> a
minus
{-# inline (/) #-}

-- | Infix alias for multiplicative @('<>')@.
--
-- === __Examples__:
--
-- >>> Product (2 :: Rational) * Product (3 :: Rational)
-- Product {getProduct = 6 % 1}
--
(*) :: MultiplicativeGroup g => g -> g -> g
* :: g -> g -> g
(*) = g -> g -> g
forall a. Semigroup a => a -> a -> a
(<>)
{-# inline (*) #-}

-- | Infix alias for 'power'.
--
-- === __Examples__:
--
-- >>> let x = Product (3 :: Rational)
-- >>> x ^ 3
-- Product {getProduct = 27 % 1}
--
(^) :: (Integral n, MultiplicativeGroup a) => a -> n -> a
^ :: a -> n -> a
(^) = a -> n -> a
forall n g. (Integral n, MultiplicativeGroup g) => g -> n -> g
power
{-# inline (^) #-}

-- | Multiply an element of a multiplicative group by itself @n@-many times.
--
-- This represents @ℕ@-indexed powers of an element @g@ of
-- a multiplicative group, i.e. iterated products of group elements.
-- This is representable by the universal property
-- \( C(x, ∏_n g) ≅ C(x, g)^n \).
--
-- === __Examples__:
--
-- >>> power (Product (3 :: Rational)) 3
-- Product {getProduct = 27 % 1}
--
power :: (Integral n, MultiplicativeGroup g) => g -> n -> g
power :: g -> n -> g
power g
a n
n = n -> g -> g
forall a n. (Group a, Integral n) => n -> a -> a
gtimes n
n g
a
{-# inline power #-}

-- -------------------------------------------------------------------- --
-- Multiplicative abelian groups

-- | A multiplicative abelian group is a 'Group' whose operation can be thought of
-- as commutative multiplication in some sense. Almost all multiplicative groups
-- are abelian.
--
class (MultiplicativeGroup g, Abelian g) => MultiplicativeAbelianGroup g
instance MultiplicativeAbelianGroup ()
instance MultiplicativeAbelianGroup b => MultiplicativeAbelianGroup (a -> b)
instance MultiplicativeAbelianGroup a => MultiplicativeAbelianGroup (Dual a)
instance Fractional a => MultiplicativeAbelianGroup (Product a)
instance (MultiplicativeAbelianGroup a, MultiplicativeAbelianGroup b) => MultiplicativeAbelianGroup (a,b)
instance (MultiplicativeAbelianGroup a, MultiplicativeAbelianGroup b, MultiplicativeAbelianGroup c) => MultiplicativeAbelianGroup (a,b,c)
instance (MultiplicativeAbelianGroup a, MultiplicativeAbelianGroup b, MultiplicativeAbelianGroup c, MultiplicativeAbelianGroup d) => MultiplicativeAbelianGroup (a,b,c,d)
instance (MultiplicativeAbelianGroup a, MultiplicativeAbelianGroup b, MultiplicativeAbelianGroup c, MultiplicativeAbelianGroup d, MultiplicativeAbelianGroup e) => MultiplicativeAbelianGroup (a,b,c,d,e)
instance MultiplicativeAbelianGroup a => MultiplicativeAbelianGroup (Const a b)
instance MultiplicativeAbelianGroup a => MultiplicativeAbelianGroup (Identity a)
instance MultiplicativeAbelianGroup a => MultiplicativeAbelianGroup (Proxy a)