Diagrams
From HaskellWiki
The diagrams library provides an embedded domain-specific language (EDSL) for creating simple pictures and diagrams in Haskell
Contents |
1 Rewrite
1.1 Core DSL
1.1.1 Style
Do we either want
yellowCircle x y radius = yellowFill $ circleShape x y radius
or
drawYellowCircle x y radius = do $
setFill yellow drawCircle x y radius
?
The first version allows better reuse and functional composition.
1.1.2 Elements
- graphical primitives
- path
- boundingBox
- moveTo, lineTo, cubic bezier, quadratic bezier, arcTo
- text
- boundingBox
- convertToPath
- circle
- boundingBox
- convertToPath
- ellipse
- boundingBox
- convertToPath
- rectangle
- boundingBox
- convertToPath
- polygon
- boundingBox
- convertToPath
- polyline
- boundingBox
- convertToPath
- path
- graphical attributes
- fill
- paint
- solid color, gradient, pattern
- fill rule
- evenOdd, nonZero
- paint
- stroke
- paint
- solid color, gradient, pattern
- width
- line cap
- line join
- miter limit
- dash
- offset
- array
- paint
- marker symbols
- effects
- shadow, blur, turbulence
- fill
- constraint solving
- animations/pages/frames
1.2 Data structures
data Figure = Figure { fill :: Fill , shape :: Shape , stroke :: Stroke } data Fill = Fill { fillPaint :: Paint, } data Stroke = Stroke { strokePaint :: Paint, , lineWidth :: Double, , dashPattern :: DashPattern , lineCap :: LineCap , lineJoin :: LineJoin , miterLimit :: Double } deriving(Eq, Show) data Paint = SolidColor | Pattern | Gradient deriving(Eq, Show) data LineCap = LineCapButt | LineCapRound | LineCapSquare deriving(Eq, Show) data LineJoin = LineJoinMiter | LineJoinRound | LineJoinBevel deriving(Eq, Show) data Shape = Path | Primitive | Text deriving(Eq, Show) data Path = Path { segments :: [Segment] } deriving(Eq, Show) data Segment = Move Point | Line { a :: Point , b :: Point } | HorizontalLine { a :: Point , w :: Double } | VerticalLine { a :: Point , h :: Double } | QuadraticBezier Point Point Point | CubicBezier Point Point Point Point deriving(Eq, Show) data Point = Node2d Double Double | Node3d Double Double Double deriving(Eq, Show) data Primitive = Circle | Ellipse | Rectangle | RegularPolygon | Square | Star deriving(Eq, Show) class PathLike a = convertToPath :: a -> Path
1.3 Modules/Extensions
1.3.1 Paths
- inset, outset
- boolean operations
- morphing
- approximation (autotrace)
See
- http://lib2geom.sourceforge.net/
- http://inkscape.svn.sourceforge.net/viewvc/inkscape/inkscape/trunk/src/live_effects/
1.3.2 Shapes and symbols
- stars, supershape, symbols
- diagrams
- histograms, density plots
1.4 Input/Output
Many Haskell graphic libraries are tied to a specific rendering backend (Cairo, OpenGL, libGD etc) which makes collaboration and reuse of code and data structures very hard or impossible.
Also some dependencies are hard to fulfill. Cairo is very difficult to install on Mac OS 10.6. If you just need to generate PDF diagrams, you could choose the pure HPDF library where e.g. Hieroglyph can not be installed because of its Cairo dependence.
1.4.1 Output
- interactive drawing via Cairo
- PDF export via pure HPDF
- EPS export
- SWF export
- LaTeX export
- exotic backends
- generate Java2d or Processing source code
1.4.2 Input
- pure Haskell PNG import via pngload
- pure Haskell SVG import
