hgeometry-0.7.0.0: Geometric Algorithms, Data structures, and Data types.

Data.Geometry.Ipe.FromIpe

Synopsis

# Documentation

>>> :{
import           Data.Geometry.Ipe.Attributes


let testPath :: Path Int testPath = Path . S2.l1Singleton . PolyLineSegment . PolyLine.fromPoints . map ext \$ [ origin, point2 10 10, point2 200 100 ]

testPathAttrs :: IpeAttributes Path Int testPathAttrs = attr SStroke (IpeColor (Named "red"))

_asLineSegment :: Prism' (Path r) (LineSegment 2 () r) Source #

Try to convert a path into a line segment, fails if the path is not a line segment or a polyline with more than two points.

_asPolyLine :: Prism' (Path r) (PolyLine 2 () r) Source #

Convert to a polyline. Ignores all non-polyline parts

>>> testPath ^? _asPolyLine
Just (PolyLine {_points = Seq2 (Point2 [0,0] :+ ()) (fromList [Point2 [10,10] :+ ()]) (Point2 [200,100] :+ ())})


_asSimplePolygon :: Prism' (Path r) (Polygon Simple () r) Source #

Convert to a simple polygon

_asMultiPolygon :: Prism' (Path r) (MultiPolygon () r) Source #

Convert to a multipolygon

_withAttrs :: Prism' (IpeObject r) (i r :+ IpeAttributes i r) -> Prism' (i r) g -> Prism' (IpeObject r) (g :+ IpeAttributes i r) Source #

use the first prism to select the ipe object to depicle with, and the second how to select the geometry object from there on. Then we can select the geometry object, directly with its attributes here.

>>> testObject ^? _withAttrs _IpePath _asPolyLine
Just (PolyLine {_points = Seq2 (Point2 [0,0] :+ ()) (fromList [Point2 [10,10] :+ ()]) (Point2 [200,100] :+ ())} :+ Attrs {_unAttrs = {GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Just (IpeColor (Named "red"))}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}, GAttr {_getAttr = Nothing}}})


class HasDefaultFromIpe g where Source #

Minimal complete definition

defaultFromIpe

Associated Types

type DefaultFromIpe g :: * -> * Source #

Instances
 Source # Instance detailsDefined in Data.Geometry.Ipe.FromIpe Associated Typestype DefaultFromIpe (MultiPolygon () r) :: * -> * Source # MethodsdefaultFromIpe :: r0 ~ NumType (MultiPolygon () r) => Prism' (IpeObject r0) (MultiPolygon () r :+ IpeAttributes (DefaultFromIpe (MultiPolygon () r)) r0) Source # Source # Instance detailsDefined in Data.Geometry.Ipe.FromIpe Associated Typestype DefaultFromIpe (SimplePolygon () r) :: * -> * Source # MethodsdefaultFromIpe :: r0 ~ NumType (SimplePolygon () r) => Prism' (IpeObject r0) (SimplePolygon () r :+ IpeAttributes (DefaultFromIpe (SimplePolygon () r)) r0) Source # HasDefaultFromIpe (LineSegment 2 () r) Source # Instance detailsDefined in Data.Geometry.Ipe.FromIpe Associated Typestype DefaultFromIpe (LineSegment 2 () r) :: * -> * Source # MethodsdefaultFromIpe :: r0 ~ NumType (LineSegment 2 () r) => Prism' (IpeObject r0) (LineSegment 2 () r :+ IpeAttributes (DefaultFromIpe (LineSegment 2 () r)) r0) Source # HasDefaultFromIpe (PolyLine 2 () r) Source # Instance detailsDefined in Data.Geometry.Ipe.FromIpe Associated Typestype DefaultFromIpe (PolyLine 2 () r) :: * -> * Source # MethodsdefaultFromIpe :: r0 ~ NumType (PolyLine 2 () r) => Prism' (IpeObject r0) (PolyLine 2 () r :+ IpeAttributes (DefaultFromIpe (PolyLine 2 () r)) r0) Source #

readAll :: (HasDefaultFromIpe g, r ~ NumType g, Foldable f) => f (IpePage r) -> [g :+ IpeAttributes (DefaultFromIpe g) r] Source #

Read all g's from some ipe page(s).

readAllFrom :: (HasDefaultFromIpe g, r ~ NumType g, Coordinate r, Eq r) => FilePath -> IO [g :+ IpeAttributes (DefaultFromIpe g) r] Source #

Convenience function from reading all g's from an ipe file. If there is an error reading or parsing the file the error is "thrown away".