{-# LANGUAGE TemplateHaskell  #-}
--------------------------------------------------------------------------------
-- |
-- Module      :  Data.Geometry.Box.Sides
-- Copyright   :  (C) Frank Staals
-- License     :  see the LICENSE file
-- Maintainer  :  Frank Staals
--------------------------------------------------------------------------------
module Data.Geometry.Box.Sides( Sides(Sides), north, east, south, west
                              , topSide, bottomSide, leftSide, rightSide
                              , sides, sides'

                              , sideDirections
                              ) where

import Data.Geometry.Directions
import Data.Geometry.Box.Internal
import Data.Geometry.Box.Corners
import Data.Geometry.LineSegment.Internal
import Data.Functor.Apply
import Data.Semigroup.Foldable.Class
import Data.Semigroup.Traversable.Class
import GHC.Generics (Generic)
import Control.Lens(makeLenses, Ixed(..), Index, IxValue)

--------------------------------------------------------------------------------

-- | The four sides of a rectangle
data Sides a = Sides { Sides a -> a
_north :: !a
                     , Sides a -> a
_east  :: !a
                     , Sides a -> a
_south :: !a
                     , Sides a -> a
_west  :: !a
                     } deriving (Int -> Sides a -> ShowS
[Sides a] -> ShowS
Sides a -> String
(Int -> Sides a -> ShowS)
-> (Sides a -> String) -> ([Sides a] -> ShowS) -> Show (Sides a)
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min :: Sides a -> Sides a -> Sides a
$cmin :: forall a. Ord a => Sides a -> Sides a -> Sides a
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(a -> m) -> Sides a -> m
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forall a. Eq a => a -> Sides a -> Bool
forall a. Num a => Sides a -> a
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forall m. Monoid m => Sides m -> m
forall a. Sides a -> Bool
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forall a. Sides a -> [a]
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forall m a. Monoid m => (a -> m) -> Sides a -> m
forall b a. (b -> a -> b) -> b -> Sides a -> b
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forall (t :: * -> *).
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product :: Sides a -> a
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maximum :: Sides a -> a
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$celem :: forall a. Eq a => a -> Sides a -> Bool
length :: Sides a -> Int
$clength :: forall a. Sides a -> Int
null :: Sides a -> Bool
$cnull :: forall a. Sides a -> Bool
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    (a -> m b) -> t a -> m (t b))
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(a -> f b) -> Sides a -> f (Sides b)
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Traversable)
makeLenses ''Sides

instance Applicative Sides where
  pure :: a -> Sides a
pure a
x = a -> a -> a -> a -> Sides a
forall a. a -> a -> a -> a -> Sides a
Sides a
x a
x a
x a
x
  (Sides a -> b
f a -> b
g a -> b
h a -> b
i) <*> :: Sides (a -> b) -> Sides a -> Sides b
<*> (Sides a
a a
b a
c a
d) = b -> b -> b -> b -> Sides b
forall a. a -> a -> a -> a -> Sides a
Sides (a -> b
f a
a) (a -> b
g a
b) (a -> b
h a
c) (a -> b
i a
d)

instance Foldable1 Sides
instance Traversable1 Sides where
  traverse1 :: (a -> f b) -> Sides a -> f (Sides b)
traverse1 a -> f b
f (Sides a
a a
b a
c a
d) = b -> b -> b -> b -> Sides b
forall a. a -> a -> a -> a -> Sides a
Sides (b -> b -> b -> b -> Sides b) -> f b -> f (b -> b -> b -> Sides b)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> a -> f b
f a
a f (b -> b -> b -> Sides b) -> f b -> f (b -> b -> Sides b)
forall (f :: * -> *) a b. Apply f => f (a -> b) -> f a -> f b
<.> a -> f b
f a
b f (b -> b -> Sides b) -> f b -> f (b -> Sides b)
forall (f :: * -> *) a b. Apply f => f (a -> b) -> f a -> f b
<.> a -> f b
f a
c f (b -> Sides b) -> f b -> f (Sides b)
forall (f :: * -> *) a b. Apply f => f (a -> b) -> f a -> f b
<.> a -> f b
f a
d

instance Semigroup a => Semigroup (Sides a) where
  Sides a
s <> :: Sides a -> Sides a -> Sides a
<> Sides a
s' = a -> a -> a
forall a. Semigroup a => a -> a -> a
(<>) (a -> a -> a) -> Sides a -> Sides (a -> a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Sides a
s Sides (a -> a) -> Sides a -> Sides a
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*> Sides a
s'
instance Monoid a => Monoid (Sides a) where
  mempty :: Sides a
mempty = a -> Sides a
forall (f :: * -> *) a. Applicative f => a -> f a
pure a
forall a. Monoid a => a
mempty


type instance Index   (Sides a) = CardinalDirection
type instance IxValue (Sides a) = a

instance Ixed (Sides a) where
  ix :: Index (Sides a) -> Traversal' (Sides a) (IxValue (Sides a))
ix = \case
    Index (Sides a)
North -> (IxValue (Sides a) -> f (IxValue (Sides a)))
-> Sides a -> f (Sides a)
forall a. Lens' (Sides a) a
north
    Index (Sides a)
East  -> (IxValue (Sides a) -> f (IxValue (Sides a)))
-> Sides a -> f (Sides a)
forall a. Lens' (Sides a) a
east
    Index (Sides a)
South -> (IxValue (Sides a) -> f (IxValue (Sides a)))
-> Sides a -> f (Sides a)
forall a. Lens' (Sides a) a
south
    Index (Sides a)
West  -> (IxValue (Sides a) -> f (IxValue (Sides a)))
-> Sides a -> f (Sides a)
forall a. Lens' (Sides a) a
west

-- | Constructs a Sides value that indicates the appropriate
-- direction.
sideDirections :: Sides CardinalDirection
sideDirections :: Sides CardinalDirection
sideDirections = CardinalDirection
-> CardinalDirection
-> CardinalDirection
-> CardinalDirection
-> Sides CardinalDirection
forall a. a -> a -> a -> a -> Sides a
Sides CardinalDirection
North CardinalDirection
East CardinalDirection
South CardinalDirection
West

--------------------------------------------------------------------------------

topSide :: Num r => Rectangle p r -> LineSegment 2 p r
topSide :: Rectangle p r -> LineSegment 2 p r
topSide = (\(Corners Point 2 r :+ p
l Point 2 r :+ p
r Point 2 r :+ p
_ Point 2 r :+ p
_) -> (Point 2 r :+ p) -> (Point 2 r :+ p) -> LineSegment 2 p r
forall (d :: Nat) r p.
(Point d r :+ p) -> (Point d r :+ p) -> LineSegment d p r
ClosedLineSegment Point 2 r :+ p
l Point 2 r :+ p
r) (Corners (Point 2 r :+ p) -> LineSegment 2 p r)
-> (Rectangle p r -> Corners (Point 2 r :+ p))
-> Rectangle p r
-> LineSegment 2 p r
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Rectangle p r -> Corners (Point 2 r :+ p)
forall r p. Num r => Rectangle p r -> Corners (Point 2 r :+ p)
corners

-- | Oriented from *left to right*
bottomSide :: Num r => Rectangle p r -> LineSegment 2 p r
bottomSide :: Rectangle p r -> LineSegment 2 p r
bottomSide = (\(Corners Point 2 r :+ p
_ Point 2 r :+ p
_ Point 2 r :+ p
r Point 2 r :+ p
l) -> (Point 2 r :+ p) -> (Point 2 r :+ p) -> LineSegment 2 p r
forall (d :: Nat) r p.
(Point d r :+ p) -> (Point d r :+ p) -> LineSegment d p r
ClosedLineSegment Point 2 r :+ p
l Point 2 r :+ p
r) (Corners (Point 2 r :+ p) -> LineSegment 2 p r)
-> (Rectangle p r -> Corners (Point 2 r :+ p))
-> Rectangle p r
-> LineSegment 2 p r
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Rectangle p r -> Corners (Point 2 r :+ p)
forall r p. Num r => Rectangle p r -> Corners (Point 2 r :+ p)
corners

--
leftSide  :: Num r => Rectangle p r -> LineSegment 2 p r
leftSide :: Rectangle p r -> LineSegment 2 p r
leftSide = (\(Corners Point 2 r :+ p
t Point 2 r :+ p
_ Point 2 r :+ p
_ Point 2 r :+ p
b) -> (Point 2 r :+ p) -> (Point 2 r :+ p) -> LineSegment 2 p r
forall (d :: Nat) r p.
(Point d r :+ p) -> (Point d r :+ p) -> LineSegment d p r
ClosedLineSegment Point 2 r :+ p
b Point 2 r :+ p
t) (Corners (Point 2 r :+ p) -> LineSegment 2 p r)
-> (Rectangle p r -> Corners (Point 2 r :+ p))
-> Rectangle p r
-> LineSegment 2 p r
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Rectangle p r -> Corners (Point 2 r :+ p)
forall r p. Num r => Rectangle p r -> Corners (Point 2 r :+ p)
corners

-- | The right side, oriented from *bottom* to top
rightSide :: Num r => Rectangle p r -> LineSegment 2 p r
rightSide :: Rectangle p r -> LineSegment 2 p r
rightSide = (\(Corners Point 2 r :+ p
_ Point 2 r :+ p
t Point 2 r :+ p
b Point 2 r :+ p
_) -> (Point 2 r :+ p) -> (Point 2 r :+ p) -> LineSegment 2 p r
forall (d :: Nat) r p.
(Point d r :+ p) -> (Point d r :+ p) -> LineSegment d p r
ClosedLineSegment Point 2 r :+ p
b Point 2 r :+ p
t) (Corners (Point 2 r :+ p) -> LineSegment 2 p r)
-> (Rectangle p r -> Corners (Point 2 r :+ p))
-> Rectangle p r
-> LineSegment 2 p r
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Rectangle p r -> Corners (Point 2 r :+ p)
forall r p. Num r => Rectangle p r -> Corners (Point 2 r :+ p)
corners


-- | The sides of the rectangle, in order (Top, Right, Bottom, Left). The sides
-- themselves are also oriented in clockwise order. If, you want them in the
-- same order as the functions `topSide`, `bottomSide`, `leftSide`, and
-- `rightSide`, use `sides'` instead.
sides   :: Num r => Rectangle p r -> Sides (LineSegment 2 p r)
sides :: Rectangle p r -> Sides (LineSegment 2 p r)
sides Rectangle p r
r = let Corners Point 2 r :+ p
nw Point 2 r :+ p
ne Point 2 r :+ p
se Point 2 r :+ p
sw = Rectangle p r -> Corners (Point 2 r :+ p)
forall r p. Num r => Rectangle p r -> Corners (Point 2 r :+ p)
corners Rectangle p r
r
          in LineSegment 2 p r
-> LineSegment 2 p r
-> LineSegment 2 p r
-> LineSegment 2 p r
-> Sides (LineSegment 2 p r)
forall a. a -> a -> a -> a -> Sides a
Sides ((Point 2 r :+ p) -> (Point 2 r :+ p) -> LineSegment 2 p r
forall (d :: Nat) r p.
(Point d r :+ p) -> (Point d r :+ p) -> LineSegment d p r
ClosedLineSegment Point 2 r :+ p
nw Point 2 r :+ p
ne) ((Point 2 r :+ p) -> (Point 2 r :+ p) -> LineSegment 2 p r
forall (d :: Nat) r p.
(Point d r :+ p) -> (Point d r :+ p) -> LineSegment d p r
ClosedLineSegment Point 2 r :+ p
ne Point 2 r :+ p
se)
                   ((Point 2 r :+ p) -> (Point 2 r :+ p) -> LineSegment 2 p r
forall (d :: Nat) r p.
(Point d r :+ p) -> (Point d r :+ p) -> LineSegment d p r
ClosedLineSegment Point 2 r :+ p
se Point 2 r :+ p
sw) ((Point 2 r :+ p) -> (Point 2 r :+ p) -> LineSegment 2 p r
forall (d :: Nat) r p.
(Point d r :+ p) -> (Point d r :+ p) -> LineSegment d p r
ClosedLineSegment Point 2 r :+ p
sw Point 2 r :+ p
nw)

-- | The sides of the rectangle. The order of the segments is (Top, Right,
-- Bottom, Left).  Note that the segments themselves, are oriented as described
-- by the functions topSide, bottomSide, leftSide, rightSide (basically: from
-- left to right, and from bottom to top). If you want the segments oriented
-- along the boundary of the rectangle, use the `sides` function instead.
sides'   :: Num r => Rectangle p r -> Sides (LineSegment 2 p r)
sides' :: Rectangle p r -> Sides (LineSegment 2 p r)
sides' Rectangle p r
r = LineSegment 2 p r
-> LineSegment 2 p r
-> LineSegment 2 p r
-> LineSegment 2 p r
-> Sides (LineSegment 2 p r)
forall a. a -> a -> a -> a -> Sides a
Sides (Rectangle p r -> LineSegment 2 p r
forall r p. Num r => Rectangle p r -> LineSegment 2 p r
topSide Rectangle p r
r) (Rectangle p r -> LineSegment 2 p r
forall r p. Num r => Rectangle p r -> LineSegment 2 p r
rightSide Rectangle p r
r) (Rectangle p r -> LineSegment 2 p r
forall r p. Num r => Rectangle p r -> LineSegment 2 p r
bottomSide Rectangle p r
r) (Rectangle p r -> LineSegment 2 p r
forall r p. Num r => Rectangle p r -> LineSegment 2 p r
leftSide Rectangle p r
r)