{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE DeriveFoldable #-}
{-# LANGUAGE DeriveTraversable #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE ScopedTypeVariables #-}
-- {-# OPTIONS_GHC -fno-warn-name-shadowing #-}
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 702
{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE DeriveGeneric #-}
#endif

#ifndef MIN_VERSION_hashable
#define MIN_VERSION_hashable(x,y,z) 1
#endif
-----------------------------------------------------------------------------
-- |
-- Copyright   :  (C) 2012-2013 Edward Kmett,
-- License     :  BSD-style (see the file LICENSE)
--
-- Maintainer  :  Edward Kmett <ekmett@gmail.com>
-- Stability   :  experimental
-- Portability :  non-portable
--
-- 1-D Vectors
----------------------------------------------------------------------------
module Linear.V1
  ( V1(..)
  , R1(..)
  , ex
  ) where

import Control.Applicative
import Control.DeepSeq (NFData)
import Control.Monad (liftM)
import Control.Monad.Fix
import Control.Monad.Zip
import Control.Lens
import Data.Data
import Data.Distributive
import Data.Foldable
import Data.Functor.Bind
import Data.Functor.Rep
import Data.Hashable
import Data.Semigroup.Foldable
import Foreign.Storable (Storable)
import GHC.Arr (Ix(..))
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 702
import GHC.Generics (Generic)
#endif
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 706
import GHC.Generics (Generic1)
#endif
import Linear.Metric
import Linear.Epsilon
import Linear.Vector
import Prelude hiding (sum)

import qualified Data.Vector.Generic.Mutable as M
import qualified Data.Vector.Generic as G
import qualified Data.Vector.Unboxed.Base as U

#ifdef HLINT
-- HLint is delusional
{-# ANN module "HLint: ignore Unused LANGUAGE pragma" #-}
#endif

-- $setup
-- >>> import Control.Lens

-- | A 1-dimensional vector
--
-- >>> pure 1 :: V1 Int
-- V1 1
--
-- >>> V1 2 + V1 3
-- V1 5
--
-- >>> V1 2 * V1 3
-- V1 6
--
-- >>> sum (V1 2)
-- 2

--data V2 a = V2 !a !a deriving (Eq,Ord,Show,Read,Data,Typeable)
newtype V1 a = V1 a
  deriving (Eq,Ord,Show,Read,Data,Typeable,
            Functor,Foldable,Traversable,
            Epsilon,Storable,NFData
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 702
           ,Generic
#endif
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 706
           ,Generic1
#endif
           )

instance Foldable1 V1 where
  foldMap1 f (V1 a) = f a
  {-# INLINE foldMap1 #-}

instance Traversable1 V1 where
  traverse1 f (V1 a) = V1 <$> f a
  {-# INLINE traverse1 #-}

instance Apply V1 where
  V1 f <.> V1 x = V1 (f x)
  {-# INLINE (<.>) #-}

instance Applicative V1 where
  pure = V1
  {-# INLINE pure #-}
  V1 f <*> V1 x = V1 (f x)
  {-# INLINE (<*>) #-}

instance Additive V1 where
  zero = pure 0
  {-# INLINE zero #-}
  liftU2 = liftA2
  {-# INLINE liftU2 #-}
  liftI2 = liftA2
  {-# INLINE liftI2 #-}

instance Bind V1 where
  V1 a >>- f = f a
  {-# INLINE (>>-) #-}

instance Monad V1 where
  return = V1
  {-# INLINE return #-}
  V1 a >>= f = f a
  {-# INLINE (>>=) #-}

instance Num a => Num (V1 a) where
  (+) = liftA2 (+)
  {-# INLINE (+) #-}
  (-) = liftA2 (-)
  {-# INLINE (-) #-}
  (*) = liftA2 (*)
  {-# INLINE (*) #-}
  negate = fmap negate
  {-# INLINE negate #-}
  abs = fmap abs
  {-# INLINE abs #-}
  signum = fmap signum
  {-# INLINE signum #-}
  fromInteger = pure . fromInteger
  {-# INLINE fromInteger #-}

instance Fractional a => Fractional (V1 a) where
  recip = fmap recip
  {-# INLINE recip #-}
  (/) = liftA2 (/)
  {-# INLINE (/) #-}
  fromRational = pure . fromRational
  {-# INLINE fromRational #-}

instance Hashable a => Hashable (V1 a) where
#if (MIN_VERSION_hashable(1,2,1)) || !(MIN_VERSION_hashable(1,2,0))
  hash (V1 a) = hash a
#endif
  hashWithSalt s (V1 a) = s `hashWithSalt` a

instance Metric V1 where
  dot (V1 a) (V1 b) = a * b
  {-# INLINE dot #-}

-- | A space that has at least 1 basis vector '_x'.
class R1 t where
  -- |
  -- >>> V1 2 ^._x
  -- 2
  --
  -- >>> V1 2 & _x .~ 3
  -- V1 3
  --
  _x :: Lens' (t a) a

ex :: R1 t => E t
ex = E _x

instance R1 V1 where
  _x f (V1 a) = V1 <$> f a
  {-# INLINE _x #-}

instance R1 Identity where
  _x f (Identity a) = Identity <$> f a
  {-# INLINE _x #-}

instance Distributive V1 where
  distribute f = V1 (fmap (\(V1 x) -> x) f)
  {-# INLINE distribute #-}

instance Ix a => Ix (V1 a) where
  {-# SPECIALISE instance Ix (V1 Int) #-}

  range (V1 l1, V1 u1) =
    [ V1 i1 | i1 <- range (l1,u1) ]
  {-# INLINE range #-}

  unsafeIndex (V1 l1,V1 u1) (V1 i1) = unsafeIndex (l1,u1) i1
  {-# INLINE unsafeIndex #-}

  inRange (V1 l1,V1 u1) (V1 i1) = inRange (l1,u1) i1
  {-# INLINE inRange #-}

instance Representable V1 where
  type Rep V1 = E V1
  tabulate f = V1 (f ex)
  {-# INLINE tabulate #-}
  index xs (E l) = view l xs
  {-# INLINE index #-}

instance FunctorWithIndex (E V1) V1 where
  imap f (V1 a) = V1 (f ex a)
  {-# INLINE imap #-}

instance FoldableWithIndex (E V1) V1 where
  ifoldMap f (V1 a) = f ex a
  {-# INLINE ifoldMap #-}

instance TraversableWithIndex (E V1) V1 where
  itraverse f (V1 a) = V1 <$> f ex a
  {-# INLINE itraverse #-}

type instance Index (V1 a) = E V1
type instance IxValue (V1 a) = a

instance Ixed (V1 a) where
  ix = el
  {-# INLINE ix #-}

instance Each (V1 a) (V1 b) a b where
  each f (V1 x) = V1 <$> f x
  {-# INLINE each #-}

newtype instance U.Vector    (V1 a) = V_V1  (U.Vector    a)
newtype instance U.MVector s (V1 a) = MV_V1 (U.MVector s a)
instance U.Unbox a => U.Unbox (V1 a)

instance U.Unbox a => M.MVector U.MVector (V1 a) where
  basicLength (MV_V1 v) = M.basicLength v
  basicUnsafeSlice m n (MV_V1 v) = MV_V1 (M.basicUnsafeSlice m n v)
  basicOverlaps (MV_V1 v) (MV_V1 u) = M.basicOverlaps v u
  basicUnsafeNew n = liftM MV_V1 (M.basicUnsafeNew n)
  basicUnsafeRead (MV_V1 v) i = liftM V1 (M.basicUnsafeRead v i)
  basicUnsafeWrite (MV_V1 v) i (V1 x) = M.basicUnsafeWrite v i x

instance U.Unbox a => G.Vector U.Vector (V1 a) where
  basicUnsafeFreeze (MV_V1 v) = liftM V_V1 (G.basicUnsafeFreeze v)
  basicUnsafeThaw (V_V1 v) = liftM MV_V1 (G.basicUnsafeThaw v)
  basicLength (V_V1 v) = G.basicLength v
  basicUnsafeSlice m n (V_V1 v) = V_V1 (G.basicUnsafeSlice m n v)
  basicUnsafeIndexM (V_V1 v) i = liftM V1 (G.basicUnsafeIndexM v i)

instance MonadZip V1 where
  mzip (V1 a) (V1 b) = V1 (a, b)
  mzipWith f (V1 a) (V1 b) = V1 (f a b)
  munzip (V1 (a,b)) = (V1 a, V1 b)

instance MonadFix V1 where
  mfix f = V1 (let V1 a = f a in a)

instance Bounded a => Bounded (V1 a) where
  minBound = pure minBound
  {-# INLINE minBound #-}
  maxBound = pure maxBound
  {-# INLINE maxBound #-}