X-Git-Url: http://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=src%2FGrid.hs;h=6a9a8e5edd9ee62907a1486e29c25b334bedc041;hb=6c6ca17ba52b570cc50c1a9546ee9b6a5d3266fd;hp=8ce2430d186870d7e7322d4bf5ff9e381870273c;hpb=ac59c267ad9f59ddb997d66029d112f158f13da4;p=spline3.git diff --git a/src/Grid.hs b/src/Grid.hs index 8ce2430..6a9a8e5 100644 --- a/src/Grid.hs +++ b/src/Grid.hs @@ -4,15 +4,16 @@ module Grid where +import qualified Data.Array.Repa as R import Test.QuickCheck (Arbitrary(..), Gen, Positive(..)) import Cube (Cube(Cube), find_containing_tetrahedra) import FunctionValues import Point (Point) +import ScaleFactor import Tetrahedron (polynomial) import Values (Values3D, dims, empty3d, zoom_shape) -import qualified Data.Array.Repa as R -- | Our problem is defined on a Grid. The grid size is given by the -- positive number h. The function values are the values of the @@ -59,17 +60,26 @@ cubes g -- | Takes a grid and a position as an argument and returns the cube -- centered on that position. If there is no cube there (i.e. the --- position is outside of the grid), it will return 'Nothing'. -cube_at :: Grid -> Int -> Int -> Int -> Maybe Cube +-- position is outside of the grid), it will throw an error. +cube_at :: Grid -> Int -> Int -> Int -> Cube cube_at g i j k - | i < 0 = Nothing - | j < 0 = Nothing - | k < 0 = Nothing - | k >= length (cubes g) = Nothing - | j >= length ((cubes g) !! k) = Nothing - | i >= length (((cubes g) !! k) !! j) = Nothing - | otherwise = Just $ (((cubes g) !! k) !! j) !! i - + | i < 0 = error "i < 0 in cube_at" + | j < 0 = error "j < 0 in cube_at" + | k < 0 = error "k < 0 in cube_at" + | otherwise = + let zsize = length (cubes g) in + if k >= zsize then + error "k >= xsize in cube_at" + else + let ysize = length ((cubes g) !! k) in + if j >= ysize then + error "j >= ysize in cube_at" + else + let xsize = length (((cubes g) !! k) !! j) in + if i >= xsize then + error "i >= xsize in cube_at" + else + (((cubes g) !! k) !! j) !! i -- The first cube along any axis covers (-h/2, h/2). The second @@ -96,9 +106,7 @@ calculate_containing_cube_coordinate g coord -- to check every cube. find_containing_cube :: Grid -> Point -> Cube find_containing_cube g p = - case cube_at g i j k of - Just c -> c - Nothing -> error "No cube contains the given point." + cube_at g i j k where (x, y, z) = p i = calculate_containing_cube_coordinate g x @@ -107,29 +115,29 @@ find_containing_cube g p = {-# INLINE zoom_lookup #-} -zoom_lookup :: Grid -> a -> (R.DIM3 -> Double) -zoom_lookup g _ = zoom_result g +zoom_lookup :: Grid -> ScaleFactor -> a -> (R.DIM3 -> Double) +zoom_lookup g scale_factor _ = zoom_result g scale_factor {-# INLINE zoom_result #-} -zoom_result :: Grid -> R.DIM3 -> Double -zoom_result g (R.Z R.:. i R.:. j R.:. k) = +zoom_result :: Grid -> ScaleFactor -> R.DIM3 -> Double +zoom_result g (sfx, sfy, sfz) (R.Z R.:. i R.:. j R.:. k) = f p where - i' = fromIntegral i - j' = fromIntegral j - k' = fromIntegral k + i' = (fromIntegral i) / (fromIntegral sfx) + j' = (fromIntegral j) / (fromIntegral sfy) + k' = (fromIntegral k) / (fromIntegral sfz) p = (i', j', k') :: Point c = find_containing_cube g p t = head (find_containing_tetrahedra c p) f = polynomial t -zoom :: Grid -> Int -> Values3D +zoom :: Grid -> ScaleFactor -> Values3D zoom g scale_factor | xsize == 0 || ysize == 0 || zsize == 0 = empty3d | otherwise = - R.force $ R.traverse arr transExtent (zoom_lookup g) + R.force $ R.traverse arr transExtent (zoom_lookup g scale_factor) where arr = function_values g (xsize, ysize, zsize) = dims arr