X-Git-Url: https://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=src%2FCube.hs;h=3c202a7f08b23ab188a2e62166a553bf01a96d8e;hb=993490fd9d940f5e8dea4f934c07c1a5a6c1f8ff;hp=8287177ed17edf6307a9517d06e11548320fa7da;hpb=51adbba172ccaa70c4832809de334674a8ba6a0f;p=spline3.git diff --git a/src/Cube.hs b/src/Cube.hs index 8287177..3c202a7 100644 --- a/src/Cube.hs +++ b/src/Cube.hs @@ -1,21 +1,48 @@ module Cube where +import Data.Maybe (fromJust) +import qualified Data.Vector as V ( + Vector, + findIndex, + map, + minimum, + singleton, + snoc, + unsafeIndex + ) +import Test.QuickCheck (Arbitrary(..), Gen, Positive(..), choose) + import Cardinal import qualified Face (Face(Face, v0, v1, v2, v3)) import FunctionValues import Point -import Tetrahedron hiding (c) +import Tetrahedron (Tetrahedron(Tetrahedron)) import ThreeDimensional data Cube = Cube { h :: Double, i :: Int, j :: Int, k :: Int, - fv :: FunctionValues } + fv :: FunctionValues, + tetrahedra_volume :: Double } deriving (Eq) +instance Arbitrary Cube where + arbitrary = do + (Positive h') <- arbitrary :: Gen (Positive Double) + i' <- choose (coordmin, coordmax) + j' <- choose (coordmin, coordmax) + k' <- choose (coordmin, coordmax) + fv' <- arbitrary :: Gen FunctionValues + (Positive tet_vol) <- arbitrary :: Gen (Positive Double) + return (Cube h' i' j' k' fv' tet_vol) + where + coordmin = -268435456 -- -(2^29 / 2) + coordmax = 268435456 -- +(2^29 / 2) + + instance Show Cube where show c = "Cube_" ++ subscript ++ "\n" ++ @@ -33,8 +60,9 @@ instance Show Cube where (show (i c)) ++ "," ++ (show (j c)) ++ "," ++ (show (k c)) +-- | Returns an empty 'Cube'. empty_cube :: Cube -empty_cube = Cube 0 0 0 0 empty_values +empty_cube = Cube 0 0 0 0 empty_values 0 -- | The left-side boundary of the cube. See Sorokina and Zeilfelder, @@ -98,13 +126,15 @@ instance ThreeDimensional Cube where y = delta * j' z = delta * k' - contains_point c p - | (x_coord p) < (xmin c) = False - | (x_coord p) > (xmax c) = False - | (y_coord p) < (ymin c) = False - | (y_coord p) > (ymax c) = False - | (z_coord p) < (zmin c) = False - | (z_coord p) > (zmax c) = False + -- | It's easy to tell if a point is within a cube; just make sure + -- that it falls on the proper side of each of the cube's faces. + contains_point c (x, y, z) + | x < (xmin c) = False + | x > (xmax c) = False + | y < (ymin c) = False + | y > (ymax c) = False + | z < (zmin c) = False + | z > (zmax c) = False | otherwise = True @@ -139,9 +169,9 @@ down_face :: Cube -> Face.Face down_face c = Face.Face v0' v1' v2' v3' where delta = (1/2)*(h c) - v0' = (center c) + (delta, delta, -delta) + v0' = (center c) + (-delta, -delta, -delta) v1' = (center c) + (-delta, delta, -delta) - v2' = (center c) + (-delta, -delta, -delta) + v2' = (center c) + (delta, delta, -delta) v3' = (center c) + (delta, -delta, -delta) @@ -161,10 +191,10 @@ left_face :: Cube -> Face.Face left_face c = Face.Face v0' v1' v2' v3' where delta = (1/2)*(h c) - v0' = (center c) + (-delta, -delta, delta) - v1' = (center c) + (delta, -delta, delta) - v2' = (center c) + (delta, -delta, -delta) - v3' = (center c) + (-delta, -delta, -delta) + v0' = (center c) + (delta, -delta, delta) + v1' = (center c) + (-delta, -delta, delta) + v2' = (center c) + (-delta, -delta, -delta) + v3' = (center c) + (delta, -delta, -delta) -- | The right (in the direction of y) face of the cube. @@ -172,159 +202,424 @@ right_face :: Cube -> Face.Face right_face c = Face.Face v0' v1' v2' v3' where delta = (1/2)*(h c) - v0' = (center c) + (-delta, delta, -delta) - v1' = (center c) + (delta, delta, -delta) - v2' = (center c) + (delta, delta, delta) - v3' = (center c) + (-delta, delta, delta) + v0' = (center c) + (-delta, delta, delta) + v1' = (center c) + (delta, delta, delta) + v2' = (center c) + (delta, delta, -delta) + v3' = (center c) + (-delta, delta, -delta) -tetrahedron0 :: Cube -> Tetrahedron -tetrahedron0 c = - Tetrahedron (Cube.fv c) v0' v1' v2' v3' +tetrahedron :: Cube -> Int -> Tetrahedron + +tetrahedron c 0 = + Tetrahedron (Cube.fv c) v0' v1' v2' v3' vol where v0' = center c v1' = center (front_face c) v2' = Face.v0 (front_face c) v3' = Face.v1 (front_face c) + vol = tetrahedra_volume c -tetrahedron1 :: Cube -> Tetrahedron -tetrahedron1 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 1 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (front_face c) v2' = Face.v1 (front_face c) v3' = Face.v2 (front_face c) - fv' = rotate (Cube.fv c) ccwx + fv' = rotate ccwx (Cube.fv c) + vol = tetrahedra_volume c -tetrahedron2 :: Cube -> Tetrahedron -tetrahedron2 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 2 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (front_face c) v2' = Face.v2 (front_face c) v3' = Face.v3 (front_face c) - fv' = rotate (Cube.fv c) (ccwx . ccwx) + fv' = rotate ccwx $ rotate ccwx $ Cube.fv c + vol = tetrahedra_volume c -tetrahedron3 :: Cube -> Tetrahedron -tetrahedron3 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 3 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (front_face c) v2' = Face.v3 (front_face c) v3' = Face.v0 (front_face c) - fv' = rotate (Cube.fv c) cwx + fv' = rotate cwx (Cube.fv c) + vol = tetrahedra_volume c -tetrahedron4 :: Cube -> Tetrahedron -tetrahedron4 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 4 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (top_face c) v2' = Face.v0 (top_face c) v3' = Face.v1 (top_face c) - fv' = rotate (Cube.fv c) cwy + fv' = rotate cwy (Cube.fv c) + vol = tetrahedra_volume c -tetrahedron5 :: Cube -> Tetrahedron -tetrahedron5 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 5 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (top_face c) v2' = Face.v1 (top_face c) v3' = Face.v2 (top_face c) - fv' = rotate (Tetrahedron.fv (tetrahedron4 c)) ccwz + fv' = rotate cwy $ rotate cwz $ fv c + vol = tetrahedra_volume c -tetrahedron6 :: Cube -> Tetrahedron -tetrahedron6 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 6 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (top_face c) v2' = Face.v2 (top_face c) v3' = Face.v3 (top_face c) - fv' = rotate (Tetrahedron.fv (tetrahedron4 c)) (ccwz . ccwz) + fv' = rotate cwy $ rotate cwz + $ rotate cwz + $ fv c + vol = tetrahedra_volume c -tetrahedron7 :: Cube -> Tetrahedron -tetrahedron7 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 7 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (top_face c) v2' = Face.v3 (top_face c) v3' = Face.v0 (top_face c) - fv' = rotate (Tetrahedron.fv (tetrahedron4 c)) cwz + fv' = rotate cwy $ rotate ccwz $ fv c + vol = tetrahedra_volume c -tetrahedron8 :: Cube -> Tetrahedron -tetrahedron8 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 8 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (back_face c) v2' = Face.v0 (back_face c) v3' = Face.v1 (back_face c) - fv' = rotate (Tetrahedron.fv (tetrahedron4 c)) cwy + fv' = rotate cwy $ rotate cwy $ fv c + vol = tetrahedra_volume c -tetrahedron9 :: Cube -> Tetrahedron -tetrahedron9 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 9 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (back_face c) v2' = Face.v1 (back_face c) v3' = Face.v2 (back_face c) - fv' = rotate (Tetrahedron.fv (tetrahedron8 c)) ccwx + fv' = rotate cwy $ rotate cwy + $ rotate cwx + $ fv c + vol = tetrahedra_volume c -tetrahedron10 :: Cube -> Tetrahedron -tetrahedron10 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 10 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (back_face c) v2' = Face.v2 (back_face c) v3' = Face.v3 (back_face c) - fv' = rotate (Tetrahedron.fv (tetrahedron8 c)) (ccwx . ccwx) + fv' = rotate cwy $ rotate cwy + $ rotate cwx + $ rotate cwx + $ fv c + vol = tetrahedra_volume c -tetrahedron11 :: Cube -> Tetrahedron -tetrahedron11 c = - Tetrahedron fv' v0' v1' v2' v3' +tetrahedron c 11 = + Tetrahedron fv' v0' v1' v2' v3' vol where v0' = center c v1' = center (back_face c) v2' = Face.v3 (back_face c) v3' = Face.v0 (back_face c) - fv' = rotate (Tetrahedron.fv (tetrahedron8 c)) cwx - - -tetrahedrons :: Cube -> [Tetrahedron] -tetrahedrons c = - [tetrahedron0 c, - tetrahedron1 c, - tetrahedron2 c, - tetrahedron3 c, - tetrahedron4 c, - tetrahedron5 c, - tetrahedron6 c, - tetrahedron7 c, - tetrahedron8 c, - tetrahedron9 c, - tetrahedron10 c, - tetrahedron11 c - --tetrahedron12 c, - -- tetrahedron13 c, - -- tetrahedron14 c, - -- tetrahedron15 c, - -- tetrahedron16 c, - -- tetrahedron17 c, - -- tetrahedron18 c, - -- tetrahedron19 c, - -- tetrahedron20 c, - -- tetrahedron21 c, - -- tetrahedron21 c, - -- tetrahedron22 c, - -- tetrahedron23 c, - -- tetrahedron24 c - ] + fv' = rotate cwy $ rotate cwy + $ rotate ccwx + $ fv c + vol = tetrahedra_volume c + +tetrahedron c 12 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (down_face c) + v2' = Face.v0 (down_face c) + v3' = Face.v1 (down_face c) + fv' = rotate ccwy $ fv c + vol = tetrahedra_volume c + +tetrahedron c 13 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (down_face c) + v2' = Face.v1 (down_face c) + v3' = Face.v2 (down_face c) + fv' = rotate ccwy $ rotate ccwz $ fv c + vol = tetrahedra_volume c + +tetrahedron c 14 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (down_face c) + v2' = Face.v2 (down_face c) + v3' = Face.v3 (down_face c) + fv' = rotate ccwy $ rotate ccwz + $ rotate ccwz + $ fv c + vol = tetrahedra_volume c + +tetrahedron c 15 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (down_face c) + v2' = Face.v3 (down_face c) + v3' = Face.v0 (down_face c) + fv' = rotate ccwy $ rotate cwz $ fv c + vol = tetrahedra_volume c + +tetrahedron c 16 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (right_face c) + v2' = Face.v0 (right_face c) + v3' = Face.v1 (right_face c) + fv' = rotate ccwz $ fv c + vol = tetrahedra_volume c + +tetrahedron c 17 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (right_face c) + v2' = Face.v1 (right_face c) + v3' = Face.v2 (right_face c) + fv' = rotate ccwz $ rotate cwy $ fv c + vol = tetrahedra_volume c + +tetrahedron c 18 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (right_face c) + v2' = Face.v2 (right_face c) + v3' = Face.v3 (right_face c) + fv' = rotate ccwz $ rotate cwy + $ rotate cwy + $ fv c + vol = tetrahedra_volume c + +tetrahedron c 19 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (right_face c) + v2' = Face.v3 (right_face c) + v3' = Face.v0 (right_face c) + fv' = rotate ccwz $ rotate ccwy + $ fv c + vol = tetrahedra_volume c + +tetrahedron c 20 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (left_face c) + v2' = Face.v0 (left_face c) + v3' = Face.v1 (left_face c) + fv' = rotate cwz $ fv c + vol = tetrahedra_volume c + +tetrahedron c 21 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (left_face c) + v2' = Face.v1 (left_face c) + v3' = Face.v2 (left_face c) + fv' = rotate cwz $ rotate ccwy $ fv c + vol = tetrahedra_volume c + +tetrahedron c 22 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (left_face c) + v2' = Face.v2 (left_face c) + v3' = Face.v3 (left_face c) + fv' = rotate cwz $ rotate ccwy + $ rotate ccwy + $ fv c + vol = tetrahedra_volume c + +tetrahedron c 23 = + Tetrahedron fv' v0' v1' v2' v3' vol + where + v0' = center c + v1' = center (left_face c) + v2' = Face.v3 (left_face c) + v3' = Face.v0 (left_face c) + fv' = rotate cwz $ rotate cwy + $ fv c + vol = tetrahedra_volume c + +-- Feels dirty, but whatever. +tetrahedron _ _ = error "asked for a nonexistent tetrahedron" + + +-- Only used in tests, so we don't need the added speed +-- of Data.Vector. +tetrahedra :: Cube -> [Tetrahedron] +tetrahedra c = [ tetrahedron c n | n <- [0..23] ] + +front_left_top_tetrahedra :: Cube -> V.Vector Tetrahedron +front_left_top_tetrahedra c = + V.singleton (tetrahedron c 0) `V.snoc` + (tetrahedron c 3) `V.snoc` + (tetrahedron c 6) `V.snoc` + (tetrahedron c 7) `V.snoc` + (tetrahedron c 20) `V.snoc` + (tetrahedron c 21) + +front_left_down_tetrahedra :: Cube -> V.Vector Tetrahedron +front_left_down_tetrahedra c = + V.singleton (tetrahedron c 0) `V.snoc` + (tetrahedron c 2) `V.snoc` + (tetrahedron c 3) `V.snoc` + (tetrahedron c 12) `V.snoc` + (tetrahedron c 15) `V.snoc` + (tetrahedron c 21) + +front_right_top_tetrahedra :: Cube -> V.Vector Tetrahedron +front_right_top_tetrahedra c = + V.singleton (tetrahedron c 0) `V.snoc` + (tetrahedron c 1) `V.snoc` + (tetrahedron c 5) `V.snoc` + (tetrahedron c 6) `V.snoc` + (tetrahedron c 16) `V.snoc` + (tetrahedron c 19) + +front_right_down_tetrahedra :: Cube -> V.Vector Tetrahedron +front_right_down_tetrahedra c = + V.singleton (tetrahedron c 1) `V.snoc` + (tetrahedron c 2) `V.snoc` + (tetrahedron c 12) `V.snoc` + (tetrahedron c 13) `V.snoc` + (tetrahedron c 18) `V.snoc` + (tetrahedron c 19) + +back_left_top_tetrahedra :: Cube -> V.Vector Tetrahedron +back_left_top_tetrahedra c = + V.singleton (tetrahedron c 0) `V.snoc` + (tetrahedron c 3) `V.snoc` + (tetrahedron c 6) `V.snoc` + (tetrahedron c 7) `V.snoc` + (tetrahedron c 20) `V.snoc` + (tetrahedron c 21) + +back_left_down_tetrahedra :: Cube -> V.Vector Tetrahedron +back_left_down_tetrahedra c = + V.singleton (tetrahedron c 8) `V.snoc` + (tetrahedron c 11) `V.snoc` + (tetrahedron c 14) `V.snoc` + (tetrahedron c 15) `V.snoc` + (tetrahedron c 22) `V.snoc` + (tetrahedron c 23) + +back_right_top_tetrahedra :: Cube -> V.Vector Tetrahedron +back_right_top_tetrahedra c = + V.singleton (tetrahedron c 4) `V.snoc` + (tetrahedron c 5) `V.snoc` + (tetrahedron c 9) `V.snoc` + (tetrahedron c 10) `V.snoc` + (tetrahedron c 16) `V.snoc` + (tetrahedron c 17) + +back_right_down_tetrahedra :: Cube -> V.Vector Tetrahedron +back_right_down_tetrahedra c = + V.singleton (tetrahedron c 8) `V.snoc` + (tetrahedron c 9) `V.snoc` + (tetrahedron c 13) `V.snoc` + (tetrahedron c 14) `V.snoc` + (tetrahedron c 17) `V.snoc` + (tetrahedron c 18) + +in_top_half :: Cube -> Point -> Bool +in_top_half c (_,_,z) = + distance_from_top <= distance_from_bottom + where + distance_from_top = abs $ (zmax c) - z + distance_from_bottom = abs $ (zmin c) - z + +in_front_half :: Cube -> Point -> Bool +in_front_half c (x,_,_) = + distance_from_front <= distance_from_back + where + distance_from_front = abs $ (xmin c) - x + distance_from_back = abs $ (xmax c) - x + + +in_left_half :: Cube -> Point -> Bool +in_left_half c (_,y,_) = + distance_from_left <= distance_from_right + where + distance_from_left = abs $ (ymin c) - y + distance_from_right = abs $ (ymax c) - y + + +-- | Takes a 'Cube', and returns the Tetrahedra belonging to it that +-- contain the given 'Point'. This should be faster than checking +-- every tetrahedron individually, since we determine which half +-- (hemisphere?) of the cube the point lies in three times: once in +-- each dimension. This allows us to eliminate non-candidates +-- quickly. +-- +-- This can throw an exception, but the use of 'head' might +-- save us some unnecessary computations. +-- +find_containing_tetrahedron :: Cube -> Point -> Tetrahedron +find_containing_tetrahedron c p = + candidates `V.unsafeIndex` (fromJust lucky_idx) + where + front_half = in_front_half c p + top_half = in_top_half c p + left_half = in_left_half c p + + candidates = + if front_half then + + if left_half then + if top_half then + front_left_top_tetrahedra c + else + front_left_down_tetrahedra c + else + if top_half then + front_right_top_tetrahedra c + else + front_right_down_tetrahedra c + + else -- bottom half + + if left_half then + if top_half then + back_left_top_tetrahedra c + else + back_left_down_tetrahedra c + else + if top_half then + back_right_top_tetrahedra c + else + back_right_down_tetrahedra c + + -- Use the dot product instead of 'distance' here to save a + -- sqrt(). So, "distances" below really means "distances squared." + distances = V.map ((dot p) . center) candidates + shortest_distance = V.minimum distances + lucky_idx = V.findIndex + (\t -> (center t) `dot` p == shortest_distance) + candidates