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{-# OPTIONS_HADDOCK ignore-exports #-}
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module Graphics.Diagram.AlgoDiags where
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import Algebra.Vector(PT,Square)
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import Algorithms.GrahamScan
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import Algorithms.QuadTree
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import Algorithms.KDTree
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import Algorithms.PolygonIntersection
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import Data.Maybe
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import Data.Monoid
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import Data.Tree
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import Diagrams.Backend.Cairo
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import Diagrams.Prelude hiding ((<>))
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import Diagrams.TwoD.Layout.Tree
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import Graphics.Diagram.Core
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import Parser.PathParser
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import Safe
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-- |Draw the lines of the polygon.
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polyLines :: Diag
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polyLines = Diag f
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where
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f _ = foldl (\x y -> x <> strokePoly y) mempty
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where
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strokePoly x' = fromVertices $ x' ++ (maybeToList . headMay $ x')
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-- |Show the intersection points of two polygons as red dots.
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polyIntersection :: Diag
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polyIntersection = Diag f
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where
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f p [x, y] = drawP vtpi (dotSize p) # fc red # lc red
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where
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vtpi = intersectionPoints . sortLexPolys $ (sortLexPoly x, sortLexPoly y)
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f _ _ = mempty
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-- |Show the coordinate text of the intersection points of two polygons.
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polyIntersectionText :: Diag
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polyIntersectionText = Diag f
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where
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f p [x, y]
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| showCoordText p = position . zip vtpi $ (pointToTextCoord # fc red <$> vtpi)
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# translate (r2 (0, 10))
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where
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vtpi = intersectionPoints
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. sortLexPolys
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$ (sortLexPoly x,
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sortLexPoly y)
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f _ _ = mempty
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-- |Create a diagram which shows the points of the convex hull.
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convexHP :: Diag
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convexHP = Diag f
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where
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f p vts = drawP (grahamCH (concat vts)) (dotSize p) # fc red # lc red
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-- |Show coordinates as text above the convex hull points.
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convexHPText :: Diag
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convexHPText = Diag f
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where
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f p vts
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| showCoordText p =
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(position . zip vtch $ (pointToTextCoord <$> vtch))
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# translate (r2 (0, 10))
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| otherwise = mempty
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where
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vtch = grahamCH (concat vts)
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-- |Create a diagram which shows the lines along the convex hull
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-- points.
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convexHLs :: Diag
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convexHLs = Diag f
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where
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f _ vts =
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(fromVertices
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. flip (++) (maybeToList . headMay . grahamCH $ vt)
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. grahamCH
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$ vt
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) # lc red
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where
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vt = mconcat vts
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-- |Create list of diagrama which describe the lines along points of a half
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-- convex hull, for each iteration of the algorithm. Which half is chosen
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-- depends on the input.
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convexHStepsLs :: Diag
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convexHStepsLs = GifDiag f
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where
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f _ col g vt = fmap (\x -> fromVertices x # lc col) (g vt)
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-- |Create a diagram that shows all squares of the RangeSearch algorithm
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-- from the quad tree.
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squares :: Diag
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squares = Diag f
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where
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f p vts =
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mconcat
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$ (uncurry rectByDiagonal # lw ultraThin)
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<$>
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(quadTreeSquares (xDimension p, yDimension p)
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. quadTree (mconcat vts)
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$ (xDimension p, yDimension p))
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-- |Draw the squares of the kd-tree.
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kdSquares :: Diag
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kdSquares = Diag f
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where
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f p vts =
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mconcat
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. fmap (uncurry (~~))
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$ kdLines (kdTree (mconcat vts) Horizontal) (xDimension p, yDimension p)
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where
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-- Gets all lines that make up the kdSquares. Every line is
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-- described by two points, start and end respectively.
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kdLines :: KDTree PT -> Square -> [(PT, PT)]
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kdLines (KTNode ln pt Horizontal rn) ((xmin, xmax), (ymin, ymax)) =
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(\(x, _) -> [(p2 (x, ymin), p2 (x, ymax))])
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(unp2 pt)
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++ kdLines ln ((xmin, x'), (ymin, ymax))
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++ kdLines rn ((x', xmax), (ymin, ymax))
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where
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(x', _) = unp2 pt
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kdLines (KTNode ln pt Vertical rn) ((xmin, xmax), (ymin, ymax)) =
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(\(_, y) -> [(p2 (xmin, y), p2 (xmax, y))])
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(unp2 pt)
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++ kdLines ln ((xmin, xmax), (ymin, y'))
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++ kdLines rn ((xmin, xmax), (y', ymax))
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where
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(_, y') = unp2 pt
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kdLines _ _ = []
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-- |Draw the range rectangle and highlight the points inside that range.
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kdRange :: Diag
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kdRange = Diag f
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where
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f p vts =
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(uncurry rectByDiagonal # lc red) (rangeSquare p)
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<> drawP ptsInRange (dotSize p) # fc red # lc red
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where
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ptsInRange = fst
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. rangeSearch (kdTree (mconcat vts) Vertical)
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$ rangeSquare p
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-- |The kd-tree visualized as binary tree.
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kdTreeDiag :: Diag
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kdTreeDiag = Diag f
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where
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f p vts =
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-- HACK: in order to give specific nodes a specific color
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renderTree (\n -> case n of
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'*':'*':_ -> (text n # fontSizeL 5.0)
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<> rect 50.0 20.0 # fc green
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'*':_ -> (text n # fontSizeL 5.0)
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<> rect 50.0 20.0 # fc red
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_ -> (text n # fontSizeL 5.0)
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<> rect 50.0 20.0 # fc white)
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(~~)
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(symmLayout' (with & slHSep .~ 60 & slVSep .~ 40) roseTree)
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# scale 2 # alignT # bg white
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where
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roseTree = snd
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. rangeSearch (kdTree (mconcat vts) Vertical)
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$ rangeSquare p
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-- |Get the quad tree corresponding to the given points and diagram properties.
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qt :: [PT] -> DiagProp -> QuadTree PT
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qt vt p = quadTree vt (xDimension p, yDimension p)
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-- |Create a diagram that shows a single square of the RangeSearch algorithm
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-- from the quad tree in red, according to the given path in quadPath.
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quadPathSquare :: Diag
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quadPathSquare = Diag f
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where
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f p vts =
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(uncurry rectByDiagonal # lw thin # lc red)
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(getSquare (stringToQuads (quadPath p)) (qt (mconcat vts) p, []))
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where
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getSquare :: [Either Quad Orient] -> QTZipper PT -> Square
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getSquare [] z = getSquareByZipper (xDimension p, yDimension p) z
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getSquare (q:qs) z = case q of
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Right x -> getSquare qs (fromMaybe z (findNeighbor x z))
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Left x -> getSquare qs (fromMaybe z (goQuad x z))
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-- |Create a list of diagrams that show the walk along the given path
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-- through the quad tree.
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gifQuadPath :: Diag
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gifQuadPath = GifDiag f
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where
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f p col _ vt =
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(uncurry rectByDiagonal # lw thick # lc col)
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<$> getSquares (stringToQuads (quadPath p)) (qt vt p, [])
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where
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getSquares :: [Either Quad Orient] -> QTZipper PT -> [Square]
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getSquares [] z = [getSquareByZipper (xDimension p, yDimension p) z]
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getSquares (q:qs) z = case q of
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Right x -> getSquareByZipper (xDimension p, yDimension p) z :
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getSquares qs (fromMaybe z (findNeighbor x z))
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Left x -> getSquareByZipper (xDimension p, yDimension p) z :
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getSquares qs (fromMaybe z (goQuad x z))
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-- |A diagram that shows the full Quad Tree with nodes.
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treePretty :: Diag
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treePretty = Diag f
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where
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f p vts =
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prettyRoseTree (quadTreeToRoseTree
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. flip getCurQT (qt (mconcat vts) p, [])
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. stringToQuads
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. quadPath
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$ p)
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where
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getCurQT :: [Either Quad Orient] -> QTZipper PT -> QTZipper PT
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getCurQT [] z = z
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getCurQT (q:qs) z = case q of
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Right x -> getCurQT qs (fromMaybe z (findNeighbor x z))
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Left x -> getCurQT qs (fromMaybe z (goQuad x z))
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prettyRoseTree :: Tree String -> Diagram Cairo R2
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prettyRoseTree tree =
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-- HACK: in order to give specific nodes a specific color
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renderTree (\n -> case head n of
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'*' -> (text n # fontSizeL 5.0)
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<> rect 50.0 20.0 # fc red
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_ -> (text n # fontSizeL 5.0)
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<> rect 50.0 20.0 # fc white)
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(~~)
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(symmLayout' (with & slHSep .~ 60 & slVSep .~ 40) tree)
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# scale 2 # alignT # bg white
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