Safe Haskell	None
Language	Haskell2010

Data.Geometry.Box.Internal

Contents

d-dimensional boxes
Functions on d-dimensonal boxes
Rectangles, aka 2-dimensional boxes
Constructing bounding boxes

Synopsis

newtype CWMin a = CWMin {
- _cwMin :: a
}
cwMin :: forall a a. Iso (CWMin a) (CWMin a) a a
newtype CWMax a = CWMax {
- _cwMax :: a
}
cwMax :: forall a a. Iso (CWMax a) (CWMax a) a a
data Box d p r = Box {
- _minP :: !(CWMin (Point d r) :+ p)
- _maxP :: !(CWMax (Point d r) :+ p)
}
minP :: forall d p r. Lens' (Box d p r) ((:+) (CWMin (Point d r)) p)
maxP :: forall d p r. Lens' (Box d p r) ((:+) (CWMax (Point d r)) p)
box :: (Point d r :+ p) -> (Point d r :+ p) -> Box d p r
fromExtent :: Arity d => Vector d (Range r) -> Box d () r
fromCenter :: (Arity d, Fractional r) => Point d r -> Vector d r -> Box d () r
centerPoint :: (Arity d, Fractional r) => Box d p r -> Point d r
minPoint :: Box d p r -> Point d r :+ p
maxPoint :: Box d p r -> Point d r :+ p
inBox :: (Arity d, Ord r) => Point d r -> Box d p r -> Bool
extent :: Arity d => Box d p r -> Vector d (Range r)
size :: (Arity d, Num r) => Box d p r -> Vector d r
widthIn :: forall proxy p i d r. (Arity d, Arity (i - 1), Num r, ((i - 1) + 1) <= d) => proxy i -> Box d p r -> r
widthIn' :: (Arity d, KnownNat d, Num r) => Int -> Box d p r -> Maybe r
type Rectangle = Box 2
width :: Num r => Rectangle p r -> r
height :: Num r => Rectangle p r -> r
corners :: Num r => Rectangle p r -> (Point 2 r :+ p, Point 2 r :+ p, Point 2 r :+ p, Point 2 r :+ p)
class IsBoxable g where
boundingBoxList :: (IsBoxable g, Foldable1 c, Ord (NumType g), Arity (Dimension g)) => c g -> Box (Dimension g) () (NumType g)
boundingBoxList' :: (IsBoxable g, Ord (NumType g), Arity (Dimension g)) => [g] -> Box (Dimension g) () (NumType g)

Documentation

newtype CWMin a Source #

Coordinate wize minimum

Constructors

CWMin
Fields _cwMin :: a

Instances

Functor CWMin Source #
Instance details Defined in Data.Geometry.Box.Internal Methods fmap :: (a -> b) -> CWMin a -> CWMin b # (<$) :: a -> CWMin b -> CWMin a #
Foldable CWMin Source #
Instance details Defined in Data.Geometry.Box.Internal Methods fold :: Monoid m => CWMin m -> m # foldMap :: Monoid m => (a -> m) -> CWMin a -> m # foldr :: (a -> b -> b) -> b -> CWMin a -> b # foldr' :: (a -> b -> b) -> b -> CWMin a -> b # foldl :: (b -> a -> b) -> b -> CWMin a -> b # foldl' :: (b -> a -> b) -> b -> CWMin a -> b # foldr1 :: (a -> a -> a) -> CWMin a -> a # foldl1 :: (a -> a -> a) -> CWMin a -> a # toList :: CWMin a -> [a] # null :: CWMin a -> Bool # length :: CWMin a -> Int # elem :: Eq a => a -> CWMin a -> Bool # maximum :: Ord a => CWMin a -> a # minimum :: Ord a => CWMin a -> a # sum :: Num a => CWMin a -> a # product :: Num a => CWMin a -> a #
Traversable CWMin Source #
Instance details Defined in Data.Geometry.Box.Internal Methods traverse :: Applicative f => (a -> f b) -> CWMin a -> f (CWMin b) # sequenceA :: Applicative f => CWMin (f a) -> f (CWMin a) # mapM :: Monad m => (a -> m b) -> CWMin a -> m (CWMin b) # sequence :: Monad m => CWMin (m a) -> m (CWMin a) #
Eq a => Eq (CWMin a) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods (==) :: CWMin a -> CWMin a -> Bool # (/=) :: CWMin a -> CWMin a -> Bool #
Ord a => Ord (CWMin a) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods compare :: CWMin a -> CWMin a -> Ordering # (<) :: CWMin a -> CWMin a -> Bool # (<=) :: CWMin a -> CWMin a -> Bool # (>) :: CWMin a -> CWMin a -> Bool # (>=) :: CWMin a -> CWMin a -> Bool # max :: CWMin a -> CWMin a -> CWMin a # min :: CWMin a -> CWMin a -> CWMin a #
Show a => Show (CWMin a) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods showsPrec :: Int -> CWMin a -> ShowS # show :: CWMin a -> String # showList :: [CWMin a] -> ShowS #
Generic (CWMin a) Source #
Instance details Defined in Data.Geometry.Box.Internal Associated Types type Rep (CWMin a) :: * -> * # Methods from :: CWMin a -> Rep (CWMin a) x # to :: Rep (CWMin a) x -> CWMin a #
(Arity d, Ord r) => Semigroup (CWMin (Point d r)) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods (<>) :: CWMin (Point d r) -> CWMin (Point d r) -> CWMin (Point d r) # sconcat :: NonEmpty (CWMin (Point d r)) -> CWMin (Point d r) # stimes :: Integral b => b -> CWMin (Point d r) -> CWMin (Point d r) #
NFData a => NFData (CWMin a) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods rnf :: CWMin a -> () #
type Rep (CWMin a) Source #
Instance details Defined in Data.Geometry.Box.Internal type Rep (CWMin a) = D1 (MetaData "CWMin" "Data.Geometry.Box.Internal" "hgeometry-0.7.0.0-3y7zA7ljCTE9s6EHvXHItM" True) (C1 (MetaCons "CWMin" PrefixI True) (S1 (MetaSel (Just "_cwMin") NoSourceUnpackedness NoSourceStrictness DecidedLazy) (Rec0 a)))

cwMin :: forall a a. Iso (CWMin a) (CWMin a) a a Source #

newtype CWMax a Source #

Coordinate wize maximum

Constructors

CWMax
Fields _cwMax :: a

Instances

Functor CWMax Source #
Instance details Defined in Data.Geometry.Box.Internal Methods fmap :: (a -> b) -> CWMax a -> CWMax b # (<$) :: a -> CWMax b -> CWMax a #
Foldable CWMax Source #
Instance details Defined in Data.Geometry.Box.Internal Methods fold :: Monoid m => CWMax m -> m # foldMap :: Monoid m => (a -> m) -> CWMax a -> m # foldr :: (a -> b -> b) -> b -> CWMax a -> b # foldr' :: (a -> b -> b) -> b -> CWMax a -> b # foldl :: (b -> a -> b) -> b -> CWMax a -> b # foldl' :: (b -> a -> b) -> b -> CWMax a -> b # foldr1 :: (a -> a -> a) -> CWMax a -> a # foldl1 :: (a -> a -> a) -> CWMax a -> a # toList :: CWMax a -> [a] # null :: CWMax a -> Bool # length :: CWMax a -> Int # elem :: Eq a => a -> CWMax a -> Bool # maximum :: Ord a => CWMax a -> a # minimum :: Ord a => CWMax a -> a # sum :: Num a => CWMax a -> a # product :: Num a => CWMax a -> a #
Traversable CWMax Source #
Instance details Defined in Data.Geometry.Box.Internal Methods traverse :: Applicative f => (a -> f b) -> CWMax a -> f (CWMax b) # sequenceA :: Applicative f => CWMax (f a) -> f (CWMax a) # mapM :: Monad m => (a -> m b) -> CWMax a -> m (CWMax b) # sequence :: Monad m => CWMax (m a) -> m (CWMax a) #
Eq a => Eq (CWMax a) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods (==) :: CWMax a -> CWMax a -> Bool # (/=) :: CWMax a -> CWMax a -> Bool #
Ord a => Ord (CWMax a) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods compare :: CWMax a -> CWMax a -> Ordering # (<) :: CWMax a -> CWMax a -> Bool # (<=) :: CWMax a -> CWMax a -> Bool # (>) :: CWMax a -> CWMax a -> Bool # (>=) :: CWMax a -> CWMax a -> Bool # max :: CWMax a -> CWMax a -> CWMax a # min :: CWMax a -> CWMax a -> CWMax a #
Show a => Show (CWMax a) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods showsPrec :: Int -> CWMax a -> ShowS # show :: CWMax a -> String # showList :: [CWMax a] -> ShowS #
Generic (CWMax a) Source #
Instance details Defined in Data.Geometry.Box.Internal Associated Types type Rep (CWMax a) :: * -> * # Methods from :: CWMax a -> Rep (CWMax a) x # to :: Rep (CWMax a) x -> CWMax a #
(Arity d, Ord r) => Semigroup (CWMax (Point d r)) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods (<>) :: CWMax (Point d r) -> CWMax (Point d r) -> CWMax (Point d r) # sconcat :: NonEmpty (CWMax (Point d r)) -> CWMax (Point d r) # stimes :: Integral b => b -> CWMax (Point d r) -> CWMax (Point d r) #
NFData a => NFData (CWMax a) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods rnf :: CWMax a -> () #
type Rep (CWMax a) Source #
Instance details Defined in Data.Geometry.Box.Internal type Rep (CWMax a) = D1 (MetaData "CWMax" "Data.Geometry.Box.Internal" "hgeometry-0.7.0.0-3y7zA7ljCTE9s6EHvXHItM" True) (C1 (MetaCons "CWMax" PrefixI True) (S1 (MetaSel (Just "_cwMax") NoSourceUnpackedness NoSourceStrictness DecidedLazy) (Rec0 a)))

cwMax :: forall a a. Iso (CWMax a) (CWMax a) a a Source #

d-dimensional boxes

data Box d p r Source #

Constructors

Box
Fields _minP :: !(CWMin (Point d r) :+ p) _maxP :: !(CWMax (Point d r) :+ p)

Instances

Arity d => Bifunctor (Box d) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods bimap :: (a -> b) -> (c -> d0) -> Box d a c -> Box d b d0 # first :: (a -> b) -> Box d a c -> Box d b c # second :: (b -> c) -> Box d a b -> Box d a c #
PointFunctor (Box d p) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods pmap :: (Point (Dimension (Box d p r)) r -> Point (Dimension (Box d p s)) s) -> Box d p r -> Box d p s Source #
Coordinate r => IpeReadText (Rectangle () r) Source #
Instance details Defined in Data.Geometry.Ipe.Reader Methods ipeReadText :: Text -> Either ConversionError (Rectangle () r) Source #
(Ord r, Fractional r) => IsIntersectableWith (Line 2 r) (Boundary (Rectangle p r)) Source #
Instance details Defined in Data.Geometry.Line Methods intersect :: Line 2 r -> Boundary (Rectangle p r) -> Intersection (Line 2 r) (Boundary (Rectangle p r)) Source # intersects :: Line 2 r -> Boundary (Rectangle p r) -> Bool Source # nonEmptyIntersection :: proxy (Line 2 r) -> proxy (Boundary (Rectangle p r)) -> Intersection (Line 2 r) (Boundary (Rectangle p r)) -> Bool Source #
(Ord r, Fractional r) => IsIntersectableWith (Line 2 r) (Rectangle p r) Source #
Instance details Defined in Data.Geometry.Line Methods intersect :: Line 2 r -> Rectangle p r -> Intersection (Line 2 r) (Rectangle p r) Source # intersects :: Line 2 r -> Rectangle p r -> Bool Source # nonEmptyIntersection :: proxy (Line 2 r) -> proxy (Rectangle p r) -> Intersection (Line 2 r) (Rectangle p r) -> Bool Source #
(Arity d, Ord r) => IsIntersectableWith (Point d r) (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods intersect :: Point d r -> Box d p r -> Intersection (Point d r) (Box d p r) Source # intersects :: Point d r -> Box d p r -> Bool Source # nonEmptyIntersection :: proxy (Point d r) -> proxy (Box d p r) -> Intersection (Point d r) (Box d p r) -> Bool Source #
(Eq r, Eq p, Arity d) => Eq (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods (==) :: Box d p r -> Box d p r -> Bool # (/=) :: Box d p r -> Box d p r -> Bool #
(Ord r, Ord p, Arity d) => Ord (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods compare :: Box d p r -> Box d p r -> Ordering # (<) :: Box d p r -> Box d p r -> Bool # (<=) :: Box d p r -> Box d p r -> Bool # (>) :: Box d p r -> Box d p r -> Bool # (>=) :: Box d p r -> Box d p r -> Bool # max :: Box d p r -> Box d p r -> Box d p r # min :: Box d p r -> Box d p r -> Box d p r #
(Show r, Show p, Arity d) => Show (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods showsPrec :: Int -> Box d p r -> ShowS # show :: Box d p r -> String # showList :: [Box d p r] -> ShowS #
Generic (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Associated Types type Rep (Box d p r) :: * -> * # Methods from :: Box d p r -> Rep (Box d p r) x # to :: Rep (Box d p r) x -> Box d p r #
(Arity d, Ord r, Semigroup p) => Semigroup (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods (<>) :: Box d p r -> Box d p r -> Box d p r # sconcat :: NonEmpty (Box d p r) -> Box d p r # stimes :: Integral b => b -> Box d p r -> Box d p r #
(Arbitrary r, Arity d, Ord r) => Arbitrary (Box d () r) #
Instance details Defined in Test.QuickCheck.HGeometryInstances Methods arbitrary :: Gen (Box d () r) # shrink :: Box d () r -> [Box d () r] #
(NFData p, NFData r, Arity d) => NFData (Box d p r) #
Instance details Defined in Data.Geometry.Box Methods rnf :: Box d p r -> () #
(Fractional r, Arity d, Arity (d + 1)) => IsTransformable (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods transformBy :: Transformation (Dimension (Box d p r)) (NumType (Box d p r)) -> Box d p r -> Box d p r Source #
IsBoxable (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods boundingBox :: Box d p r -> Box (Dimension (Box d p r)) () (NumType (Box d p r)) Source #
(Ord r, Arity d) => IsIntersectableWith (Box d p r) (Box d q r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods intersect :: Box d p r -> Box d q r -> Intersection (Box d p r) (Box d q r) Source # intersects :: Box d p r -> Box d q r -> Bool Source # nonEmptyIntersection :: proxy (Box d p r) -> proxy (Box d q r) -> Intersection (Box d p r) (Box d q r) -> Bool Source #
type IntersectionOf (Line 2 r) (Boundary (Rectangle p r)) Source #
Instance details Defined in Data.Geometry.Line type IntersectionOf (Line 2 r) (Boundary (Rectangle p r)) = NoIntersection ': (Point 2 r ': ((Point 2 r, Point 2 r) ': (LineSegment 2 () r ': ([] :: [*]))))
type IntersectionOf (Line 2 r) (Rectangle p r) Source #
Instance details Defined in Data.Geometry.Line type IntersectionOf (Line 2 r) (Rectangle p r) = NoIntersection ': (Point 2 r ': (LineSegment 2 () r ': ([] :: [*])))
type IntersectionOf (Point d r) (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal type IntersectionOf (Point d r) (Box d p r) = NoIntersection ': (Point d r ': ([] :: [*]))
type Rep (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal type Rep (Box d p r) = D1 (MetaData "Box" "Data.Geometry.Box.Internal" "hgeometry-0.7.0.0-3y7zA7ljCTE9s6EHvXHItM" False) (C1 (MetaCons "Box" PrefixI True) (S1 (MetaSel (Just "_minP") NoSourceUnpackedness SourceStrict DecidedStrict) (Rec0 (CWMin (Point d r) :+ p)) :*: S1 (MetaSel (Just "_maxP") NoSourceUnpackedness SourceStrict DecidedStrict) (Rec0 (CWMax (Point d r) :+ p))))
type NumType (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal type NumType (Box d p r) = r
type Dimension (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal type Dimension (Box d p r) = d
type IntersectionOf (Box d p r) (Box d q r) Source #
Instance details Defined in Data.Geometry.Box.Internal type IntersectionOf (Box d p r) (Box d q r) = NoIntersection ': (Box d () r ': ([] :: [*]))

minP :: forall d p r. Lens' (Box d p r) ((:+) (CWMin (Point d r)) p) Source #

maxP :: forall d p r. Lens' (Box d p r) ((:+) (CWMax (Point d r)) p) Source #

box :: (Point d r :+ p) -> (Point d r :+ p) -> Box d p r Source #

Given the point with the lowest coordinates and the point with highest coordinates, create a box.

fromExtent :: Arity d => Vector d (Range r) -> Box d () r Source #

Build a d dimensional Box given d ranges.

fromCenter :: (Arity d, Fractional r) => Point d r -> Vector d r -> Box d () r Source #

Given a center point and a vector specifying the box width's, construct a box.

centerPoint :: (Arity d, Fractional r) => Box d p r -> Point d r Source #

Center of the box

Functions on d-dimensonal boxes

minPoint :: Box d p r -> Point d r :+ p Source #

maxPoint :: Box d p r -> Point d r :+ p Source #

inBox :: (Arity d, Ord r) => Point d r -> Box d p r -> Bool Source #

Check if a point lies a box

>>> origin `inBox` (boundingBoxList' [point3 1 2 3, point3 10 20 30] :: Box 3 () Int)
False
>>> origin `inBox` (boundingBoxList' [point3 (-1) (-2) (-3), point3 10 20 30] :: Box 3 () Int)
True

extent :: Arity d => Box d p r -> Vector d (Range r) Source #

Get a vector with the extent of the box in each dimension. Note that the resulting vector is 0 indexed whereas one would normally count dimensions starting at zero.

>>> extent (boundingBoxList' [point3 1 2 3, point3 10 20 30] :: Box 3 () Int)
Vector3 [Range (Closed 1) (Closed 10),Range (Closed 2) (Closed 20),Range (Closed 3) (Closed 30)]

size :: (Arity d, Num r) => Box d p r -> Vector d r Source #

Get the size of the box (in all dimensions). Note that the resulting vector is 0 indexed whereas one would normally count dimensions starting at zero.

>>> size (boundingBoxList' [origin, point3 1 2 3] :: Box 3 () Int)
Vector3 [1,2,3]

widthIn :: forall proxy p i d r. (Arity d, Arity (i - 1), Num r, ((i - 1) + 1) <= d) => proxy i -> Box d p r -> r Source #

Given a dimension, get the width of the box in that dimension. Dimensions are 1 indexed.

>>> widthIn (C :: C 1) (boundingBoxList' [origin, point3 1 2 3] :: Box 3 () Int)
1
>>> widthIn (C :: C 3) (boundingBoxList' [origin, point3 1 2 3] :: Box 3 () Int)
3

widthIn' :: (Arity d, KnownNat d, Num r) => Int -> Box d p r -> Maybe r Source #

Same as widthIn but with a runtime int instead of a static dimension.

>>> widthIn' 1 (boundingBoxList' [origin, point3 1 2 3] :: Box 3 () Int)
Just 1
>>> widthIn' 3 (boundingBoxList' [origin, point3 1 2 3] :: Box 3 () Int)
Just 3
>>> widthIn' 10 (boundingBoxList' [origin, point3 1 2 3] :: Box 3 () Int)
Nothing

Rectangles, aka 2-dimensional boxes

type Rectangle = Box 2 Source #

width :: Num r => Rectangle p r -> r Source #

height :: Num r => Rectangle p r -> r Source #

corners :: Num r => Rectangle p r -> (Point 2 r :+ p, Point 2 r :+ p, Point 2 r :+ p, Point 2 r :+ p) Source #

Get the corners of a rectangle, the order is: (TopLeft, TopRight, BottomRight, BottomLeft). The extra values in the Top points are taken from the Top point, the extra values in the Bottom points are taken from the Bottom point

Constructing bounding boxes

class IsBoxable g where Source #

Minimal complete definition

boundingBox

Methods

boundingBox :: Ord (NumType g) => g -> Box (Dimension g) () (NumType g) Source #

Instances

IsBoxable (Point d r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods boundingBox :: Point d r -> Box (Dimension (Point d r)) () (NumType (Point d r)) Source #
IsBoxable (ConvexPolygon p r) Source #
Instance details Defined in Data.Geometry.Polygon.Convex Methods boundingBox :: ConvexPolygon p r -> Box (Dimension (ConvexPolygon p r)) () (NumType (ConvexPolygon p r)) Source #
IsBoxable (Box d p r) Source #
Instance details Defined in Data.Geometry.Box.Internal Methods boundingBox :: Box d p r -> Box (Dimension (Box d p r)) () (NumType (Box d p r)) Source #
Arity d => IsBoxable (LineSegment d p r) Source #
Instance details Defined in Data.Geometry.LineSegment Methods boundingBox :: LineSegment d p r -> Box (Dimension (LineSegment d p r)) () (NumType (LineSegment d p r)) Source #
Arity d => IsBoxable (PolyLine d p r) Source #
Instance details Defined in Data.Geometry.PolyLine Methods boundingBox :: PolyLine d p r -> Box (Dimension (PolyLine d p r)) () (NumType (PolyLine d p r)) Source #
IsBoxable (Polygon t p r) Source #
Instance details Defined in Data.Geometry.Polygon Methods boundingBox :: Polygon t p r -> Box (Dimension (Polygon t p r)) () (NumType (Polygon t p r)) Source #
IsBoxable (PlaneGraph s v e f r) Source #
Instance details Defined in Data.PlaneGraph Methods boundingBox :: PlaneGraph s v e f r -> Box (Dimension (PlaneGraph s v e f r)) () (NumType (PlaneGraph s v e f r)) Source #
IsBoxable (PlanarSubdivision s v e f r) Source #
Instance details Defined in Data.Geometry.PlanarSubdivision.Basic Methods boundingBox :: PlanarSubdivision s v e f r -> Box (Dimension (PlanarSubdivision s v e f r)) () (NumType (PlanarSubdivision s v e f r)) Source #

boundingBoxList :: (IsBoxable g, Foldable1 c, Ord (NumType g), Arity (Dimension g)) => c g -> Box (Dimension g) () (NumType g) Source #

boundingBoxList' :: (IsBoxable g, Ord (NumType g), Arity (Dimension g)) => [g] -> Box (Dimension g) () (NumType g) Source #

Unsafe version of boundingBoxList, that does not check if the list is non-empty