hasufell/cga
1
1
Fork 0
Code Issues Pull Requests Releases Wiki Activity
825dd9baa9
cga/Algorithms/KDTree.hs
hasufell 2ccb52eb62
VEC: Fix the inRange function 
It now takes a PROPER square, as in ((xmin, ymin), (xmax, ymax))
instead of ((xmin, xmax), (ymin, ymax)) and also works
with negative values.

Because the meaning of the arguments has changed, we also
had to fix all uses of it.
2014-12-17 03:35:33 +01:00

197 lines
6.6 KiB
Haskell
Raw Blame History

{-# 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 :: [PT] -- ^ list of points to construct the kd-tree from
-> Direction -- ^ initial direction of the root-node
-> KDTree PT -- ^ 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' :: PT -- ^ the pivot to partition against
-> (PT -> PT -> Ordering) -- ^ ptCmpY or ptCmpX
-> ([PT], [PT]) -- ^ both lists (X, Y) or (Y, X)
-> (([PT], [PT]), ([PT], [PT])) -- ^ ((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 :: ([PT], [PT]) -- ^ both lists (X, Y)
-> (([PT], [PT]), ([PT], [PT])) -- ^ ((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 :: ([PT], [PT]) -- ^ both lists (X, Y)
-> (([PT], [PT]), ([PT], [PT])) -- ^ ((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 PT -> Square -> ([PT], 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 PT -> Square -> [PT]
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 PT -> Square -> 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 PT -> 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
Reference in New Issue View Git Blame Copy Permalink