cga/Algorithms/KDTree.hs
hasufell 984ed40c63
Port to diagrams >1.3
# Conflicts:
#	Algebra/Vector.hs
#	CG2.cabal
#	Graphics/Diagram/Core.hs
#	Graphics/Diagram/Gif.hs
#	Graphics/Diagram/Gtk.hs
#	Test/Vector.hs
2015-05-21 02:14:15 +02:00

199 lines
7.0 KiB
Haskell

{-# OPTIONS_HADDOCK ignore-exports #-}
module Algorithms.KDTree (kdTree
, kdFoldl
, kdFoldr
, kdTreeToRoseTree
, rangeSearch
, getValS
, isLeaf
, getVal
, getDirection
, goLeft
, goRight
, Direction(Vertical, Horizontal)
, KDTree(KTNil, KTNode))
where
import Algebra.Vector
import Data.Maybe (fromJust, catMaybes)
import Data.Tree
import Diagrams.TwoD.Types
import MyPrelude (pivot,if',Not, not')
import Safe
-- |The KDTree data structure.
data KDTree a
-- |An empty node.
= KTNil
-- |A node with a value and a left and right child
| KTNode (KDTree a) a Direction (KDTree a)
deriving (Show, Eq)
data Direction = Vertical
| Horizontal
deriving (Show, Eq, Enum)
instance Not Direction where
not' Vertical = Horizontal
not' Horizontal = Vertical
-- |Construct a kd-tree from a list of points in O(n log n).
kdTree :: [P2 Double] -- ^ list of points to construct the kd-tree from
-> Direction -- ^ initial direction of the root-node
-> KDTree (P2 Double) -- ^ resulting kd-tree
kdTree xs' = go (sortedX xs') (sortedY xs')
where
go [] _ _ = KTNil
go _ [] _ = KTNil
go xs ys dir =
KTNode (go x1 y1 (not' dir))
(fromJust . pivot $ if' (dir == Vertical) ys xs)
dir
(go x2 y2 (not' dir))
where
((x1, x2), (y1, y2)) = if' (dir == Vertical)
(partitionY (xs, ys))
(partitionX (xs, ys))
-- |Partitions two sorted list of points X and Y against a pivot.
-- If you want to partition against the pivot of Y, then you pass
-- partition' (pivot ys) (xs, ys)
-- and get ((x1, x2), (y1, y2)).
-- If you want to partition against the pivot of X, then you pass
-- partition' (pivot xs) (ys, xs)
-- and get ((y1, y2), (x1, x2)).
partition' :: P2 Double -- ^ the pivot to partition against
-> (P2 Double -> P2 Double -> Ordering) -- ^ ptCmpY or ptCmpX
-> ([P2 Double], [P2 Double]) -- ^ both lists (X, Y) or (Y, X)
-> (([P2 Double], [P2 Double]), ([P2 Double], [P2 Double])) -- ^ ((x1, x2), (y1, y2)) or
-- ((y1, y2), (x1, x2))
partition' piv cmp' (xs, ys) = ((x1, x2), (y1, y2))
where
y1 = takeWhile (/= piv) ys
y2 = tailDef [] . dropWhile (/= piv) $ ys
x1 = foldr (\x y -> [x | cmp' x piv == LT] ++ y) [] xs
x2 = foldr (\x y -> [x | cmp' x piv == GT] ++ y) [] xs
-- |Partition two sorted lists of points X and Y against the pivot of
-- Y. This function is unsafe as it does not check if there is a valid
-- pivot.
partitionY :: ([P2 Double], [P2 Double]) -- ^ both lists (X, Y)
-> (([P2 Double], [P2 Double]), ([P2 Double], [P2 Double])) -- ^ ((x1, x2), (y1, y2))
partitionY (xs, ys) = partition' (fromJust . pivot $ ys) ptCmpY (xs, ys)
-- |Partition two sorted lists of points X and Y against the pivot of
-- X. This function is unsafe as it does not check if there is a valid
-- pivot.
partitionX :: ([P2 Double], [P2 Double]) -- ^ both lists (X, Y)
-> (([P2 Double], [P2 Double]), ([P2 Double], [P2 Double])) -- ^ ((x1, x2), (y1, y2))
partitionX (xs, ys) = (\(x, y) -> (y, x))
. partition' (fromJust . pivot $ xs) ptCmpX $ (ys, xs)
-- |Execute a range search in O(log n). It returns a tuple
-- of the points found in the range and also gives back a pretty
-- rose tree suitable for printing.
rangeSearch :: KDTree (P2 Double) -- ^ tree to search in
-> ((Double, Double), (Double, Double)) -- ^ square describing the range
-> ([P2 Double], Tree String)
rangeSearch kd' sq' = (goPt kd' sq', goTree kd' sq' True)
where
-- either y1 or x1 depending on the orientation
p1' dir ((x1, y1), (_, _)) = if' (dir == Vertical) y1 x1
-- either y2 or x2 depending on the orientation
p2' dir ((_, _), (x2, y2)) = if' (dir == Vertical) y2 x2
-- either the second or first of the tuple, depending on the orientation
cur' dir = if' (dir == Vertical) snd fst
-- All points in the range.
goPt :: KDTree (P2 Double) -> ((Double, Double), (Double, Double)) -> [P2 Double]
goPt KTNil _ = []
goPt (KTNode ln pt dir rn) sq =
[pt | inRange sq pt]
++ (if' (p1' dir sq < (cur' dir . unp2 $ pt))
(goPt ln sq)
[]
)
++ (if' ((cur' dir . unp2 $ pt) < p2' dir sq)
(goPt rn sq)
[])
-- A pretty rose tree suitable for printing.
goTree :: KDTree (P2 Double) -> ((Double, Double), (Double, Double)) -> Bool -> Tree String
goTree KTNil _ _ = Node "nil" []
goTree (KTNode ln pt dir rn) sq vis
| ln == KTNil && rn == KTNil = Node treeText []
| otherwise =
Node treeText
[if' (p1' dir sq < (cur' dir . unp2 $ pt))
(goTree ln sq vis)
(goTree ln sq False)
, if' ((cur' dir . unp2 $ pt) < p2' dir sq)
(goTree rn sq vis)
(goTree rn sq False)]
where
treeText
-- HACK: in order to give specific nodes a specific color
| vis && inRange sq pt = "** " ++ (show . unp2 $ pt)
| vis = "* " ++ (show . unp2 $ pt)
| otherwise = show . unp2 $ pt
-- |Left fold over ALL tree nodes.
kdFoldl :: (a -> KDTree b -> a) -> a -> KDTree b -> a
kdFoldl f sv kd@(KTNode ln _ _ rn) = foldl (kdFoldl f) (f sv kd) [ln, rn]
kdFoldl f sv kd = f sv kd
-- |Right fold over ALL tree nodes.
kdFoldr :: (KDTree b -> a -> a) -> a -> KDTree b -> a
kdFoldr f sv kd = kdFoldl (\g b x -> g (f b x)) id kd sv
-- |Get all values of a tree.
getValS :: KDTree a -> [a]
getValS = catMaybes . kdFoldl (\x y -> x ++ [getVal y]) []
-- |Whether the tree is a leaf.
isLeaf :: KDTree a -> Bool
isLeaf (KTNode KTNil _ _ KTNil) = True
isLeaf _ = False
-- |Get the value of the root node of the tree. Returns Nothing if it's a
-- leaf.
getVal :: KDTree a -> Maybe a
getVal (KTNode _ val _ _) = Just val
getVal _ = Nothing
-- |Get the direction of the current node/level.
getDirection :: KDTree a -> Maybe Direction
getDirection (KTNode _ _ dir _) = Just dir
getDirection _ = Nothing
-- |Convert a kd-tree to a rose tree, for pretty printing.
kdTreeToRoseTree :: KDTree (P2 Double) -> Tree String
kdTreeToRoseTree (KTNil) = Node "nil" []
kdTreeToRoseTree (KTNode ln val _ rn) =
Node (show . unp2 $ val) [kdTreeToRoseTree ln, kdTreeToRoseTree rn]
goLeft :: KDTree a -> Maybe (KDTree a)
goLeft (KTNode ln _ _ _) = Just ln
goLeft _ = Nothing
goRight :: KDTree a -> Maybe (KDTree a)
goRight (KTNode _ _ _ rn) = Just rn
goRight _ = Nothing