-module FunctionValues
+-- | The FunctionValues module contains the 'FunctionValues' type and
+-- the functions used to manipulate it.
+module FunctionValues (
+ FunctionValues,
+ empty_values,
+ eval,
+ make_values,
+ rotate,
+ function_values_tests,
+ function_values_properties,
+ value_at
+ )
where
import Prelude hiding (LT)
+import Test.HUnit
+import Test.Framework (Test, testGroup)
+import Test.Framework.Providers.HUnit (testCase)
+import Test.Framework.Providers.QuickCheck2 (testProperty)
+import Test.QuickCheck (Arbitrary(..), choose)
-import Cardinal
+import Assertions (assertTrue)
+import Cardinal ( Cardinal(..), cwx, cwy, cwz )
+import Examples (trilinear)
+import Values (Values3D, dims, idx)
+-- | The FunctionValues type represents the value of our function f at
+-- the 27 points surrounding (and including) the center of a
+-- cube. Each value of f can be accessed by the name of its
+-- direction.
data FunctionValues =
FunctionValues { front :: Double,
back :: Double,
down :: Double,
front_left :: Double,
front_right :: Double,
- front_top :: Double,
front_down :: Double,
+ front_top :: Double,
back_left :: Double,
back_right :: Double,
- back_top :: Double,
back_down :: Double,
- left_top :: Double,
+ back_top :: Double,
left_down :: Double,
- right_top :: Double,
+ left_top :: Double,
right_down :: Double,
- front_left_top :: Double,
+ right_top :: Double,
front_left_down :: Double,
- front_right_top :: Double,
+ front_left_top :: Double,
front_right_down :: Double,
- back_left_top :: Double,
+ front_right_top :: Double,
back_left_down :: Double,
- back_right_top :: Double,
+ back_left_top :: Double,
back_right_down :: Double,
+ back_right_top :: Double,
interior :: Double }
deriving (Eq, Show)
+
+instance Arbitrary FunctionValues where
+ arbitrary = do
+ front' <- choose (min_double, max_double)
+ back' <- choose (min_double, max_double)
+ left' <- choose (min_double, max_double)
+ right' <- choose (min_double, max_double)
+ top' <- choose (min_double, max_double)
+ down' <- choose (min_double, max_double)
+ front_left' <- choose (min_double, max_double)
+ front_right' <- choose (min_double, max_double)
+ front_top' <- choose (min_double, max_double)
+ front_down' <- choose (min_double, max_double)
+ back_left' <- choose (min_double, max_double)
+ back_right' <- choose (min_double, max_double)
+ back_top' <- choose (min_double, max_double)
+ back_down' <- choose (min_double, max_double)
+ left_top' <- choose (min_double, max_double)
+ left_down' <- choose (min_double, max_double)
+ right_top' <- choose (min_double, max_double)
+ right_down' <- choose (min_double, max_double)
+ front_left_top' <- choose (min_double, max_double)
+ front_left_down' <- choose (min_double, max_double)
+ front_right_top' <- choose (min_double, max_double)
+ front_right_down' <- choose (min_double, max_double)
+ back_left_top' <- choose (min_double, max_double)
+ back_left_down' <- choose (min_double, max_double)
+ back_right_top' <- choose (min_double, max_double)
+ back_right_down' <- choose (min_double, max_double)
+ interior' <- choose (min_double, max_double)
+
+ return empty_values { front = front',
+ back = back',
+ left = left',
+ right = right',
+ top = top',
+ down = down',
+ front_left = front_left',
+ front_right = front_right',
+ front_top = front_top',
+ front_down = front_down',
+ back_left = back_left',
+ back_right = back_right',
+ back_top = back_top',
+ back_down = back_down',
+ left_top = left_top',
+ left_down = left_down',
+ right_top = right_top',
+ right_down = right_down',
+ front_left_top = front_left_top',
+ front_left_down = front_left_down',
+ front_right_top = front_right_top',
+ front_right_down = front_right_down',
+ back_left_top = back_left_top',
+ back_left_down = back_left_down',
+ back_right_top = back_right_top',
+ back_right_down = back_right_down',
+ interior = interior' }
+ where
+ -- | We perform addition with the function values contained in a
+ -- FunctionValues object. If we choose random doubles near the machine
+ -- min/max, we risk overflowing or underflowing the 'Double'. This
+ -- places a reasonably safe limit on the maximum size of our generated
+ -- 'Double' members.
+ max_double :: Double
+ max_double = 10000.0
+
+ -- | See 'max_double'.
+ min_double :: Double
+ min_double = (-1) * max_double
+
+
+-- | Return a 'FunctionValues' with a bunch of zeros for data points.
empty_values :: FunctionValues
empty_values =
FunctionValues 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+-- | The eval function is where the magic happens for the
+-- FunctionValues type. Given a 'Cardinal' direction and a
+-- 'FunctionValues' object, eval will return the value of the
+-- function f in that 'Cardinal' direction. Note that 'Cardinal' can
+-- be a composite type; eval is what performs the \"arithmetic\" on
+-- 'Cardinal' directions.
eval :: FunctionValues -> Cardinal -> Double
eval f F = front f
eval f B = back f
eval f (Product x y) = (eval f x) * (eval f y)
eval f (Quotient x y) = (eval f x) / (eval f y)
-value_at :: [[[Double]]] -> Int -> Int -> Int -> Double
-value_at values i j k
- | i < 0 = 0
- | j < 0 = 0
- | k < 0 = 0
- | length values <= k = 0
- | length (values !! k) <= j = 0
- | length ((values !! k) !! j) <= i = 0
- | otherwise = ((values !! k) !! j) !! i
-
-make_values :: [[[Double]]] -> Int -> Int -> Int -> FunctionValues
+-- | Takes a three-dimensional list of 'Double' and a set of 3D
+-- coordinates (i,j,k), and returns the value at (i,j,k) in the
+-- supplied list. If there is no such value, we choose a nearby
+-- point and use its value.
+--
+-- Examples:
+--
+-- >>> value_at Examples.trilinear 0 0 0
+-- 1.0
+--
+-- >>> value_at Examples.trilinear (-1) 0 0
+-- 1.0
+--
+-- >>> value_at Examples.trilinear 0 0 4
+-- 1.0
+--
+-- >>> value_at Examples.trilinear 1 3 0
+-- 4.0
+--
+value_at :: Values3D -> Int -> Int -> Int -> Double
+value_at v3d i j k
+ | i < 0 = value_at v3d 0 j k
+ | j < 0 = value_at v3d i 0 k
+ | k < 0 = value_at v3d i j 0
+ | xsize <= i = value_at v3d (xsize - 1) j k
+ | ysize <= j = value_at v3d i (ysize - 1) k
+ | zsize <= k = value_at v3d i j (zsize - 1)
+ | otherwise = idx v3d i j k
+ where
+ (xsize, ysize, zsize) = dims v3d
+
+
+-- | Given a three-dimensional list of 'Double' and a set of 3D
+-- coordinates (i,j,k), constructs and returns the 'FunctionValues'
+-- object centered at (i,j,k)
+make_values :: Values3D -> Int -> Int -> Int -> FunctionValues
make_values values i j k =
empty_values { front = value_at values (i-1) j k,
back = value_at values (i+1) j k,
back_top = value_at values (i+1) j (k+1),
left_down = value_at values i (j-1) (k-1),
left_top = value_at values i (j-1) (k+1),
- right_top = value_at values i (j+1) (k+1),
right_down = value_at values i (j+1) (k-1),
+ right_top = value_at values i (j+1) (k+1),
front_left_down = value_at values (i-1) (j-1) (k-1),
front_left_top = value_at values (i-1) (j-1) (k+1),
front_right_down = value_at values (i-1) (j+1) (k-1),
front_right_top = value_at values (i-1) (j+1) (k+1),
- back_left_down = value_at values (i-1) (j-1) (k-1),
+ back_left_down = value_at values (i+1) (j-1) (k-1),
back_left_top = value_at values (i+1) (j-1) (k+1),
back_right_down = value_at values (i+1) (j+1) (k-1),
back_right_top = value_at values (i+1) (j+1) (k+1),
interior = value_at values i j k }
-rotate :: FunctionValues -> (Cardinal -> Cardinal) -> FunctionValues
-rotate fv rotation =
+-- | Takes a 'FunctionValues' and a function that transforms one
+-- 'Cardinal' to another (called a rotation). Then it applies the
+-- rotation to each element of the 'FunctionValues' object, and
+-- returns the result.
+rotate :: (Cardinal -> Cardinal) -> FunctionValues -> FunctionValues
+rotate rotation fv =
FunctionValues { front = eval fv (rotation F),
back = eval fv (rotation B),
left = eval fv (rotation L),
back_right_down = eval fv (rotation BRD),
back_right_top = eval fv (rotation BRT),
interior = interior fv }
+
+
+
+-- | Ensure that the trilinear values wind up where we think they
+-- should.
+test_directions :: Assertion
+test_directions =
+ assertTrue "all direction functions work" (and equalities)
+ where
+ fvs = make_values trilinear 1 1 1
+ equalities = [ interior fvs == 4,
+ front fvs == 1,
+ back fvs == 7,
+ left fvs == 2,
+ right fvs == 6,
+ down fvs == 3,
+ top fvs == 5,
+ front_left fvs == 1,
+ front_right fvs == 1,
+ front_down fvs == 1,
+ front_top fvs == 1,
+ back_left fvs == 3,
+ back_right fvs == 11,
+ back_down fvs == 5,
+ back_top fvs == 9,
+ left_down fvs == 2,
+ left_top fvs == 2,
+ right_down fvs == 4,
+ right_top fvs == 8,
+ front_left_down fvs == 1,
+ front_left_top fvs == 1,
+ front_right_down fvs == 1,
+ front_right_top fvs == 1,
+ back_left_down fvs == 3,
+ back_left_top fvs == 3,
+ back_right_down fvs == 7,
+ back_right_top fvs == 15]
+
+
+function_values_tests :: Test.Framework.Test
+function_values_tests =
+ testGroup "FunctionValues Tests"
+ [ testCase "test directions" test_directions ]
+
+
+prop_x_rotation_doesnt_affect_front :: FunctionValues -> Bool
+prop_x_rotation_doesnt_affect_front fv0 =
+ expr1 == expr2
+ where
+ fv1 = rotate cwx fv0
+ expr1 = front fv0
+ expr2 = front fv1
+
+prop_x_rotation_doesnt_affect_back :: FunctionValues -> Bool
+prop_x_rotation_doesnt_affect_back fv0 =
+ expr1 == expr2
+ where
+ fv1 = rotate cwx fv0
+ expr1 = back fv0
+ expr2 = back fv1
+
+
+prop_y_rotation_doesnt_affect_left :: FunctionValues -> Bool
+prop_y_rotation_doesnt_affect_left fv0 =
+ expr1 == expr2
+ where
+ fv1 = rotate cwy fv0
+ expr1 = left fv0
+ expr2 = left fv1
+
+prop_y_rotation_doesnt_affect_right :: FunctionValues -> Bool
+prop_y_rotation_doesnt_affect_right fv0 =
+ expr1 == expr2
+ where
+ fv1 = rotate cwy fv0
+ expr1 = right fv0
+ expr2 = right fv1
+
+
+prop_z_rotation_doesnt_affect_down :: FunctionValues -> Bool
+prop_z_rotation_doesnt_affect_down fv0 =
+ expr1 == expr2
+ where
+ fv1 = rotate cwz fv0
+ expr1 = down fv0
+ expr2 = down fv1
+
+
+prop_z_rotation_doesnt_affect_top :: FunctionValues -> Bool
+prop_z_rotation_doesnt_affect_top fv0 =
+ expr1 == expr2
+ where
+ fv1 = rotate cwz fv0
+ expr1 = top fv0
+ expr2 = top fv1
+
+
+function_values_properties :: Test.Framework.Test
+function_values_properties =
+ let tp = testProperty
+ in
+ testGroup "FunctionValues Properties" [
+ tp "x rotation doesn't affect front" prop_x_rotation_doesnt_affect_front,
+ tp "x rotation doesn't affect back" prop_x_rotation_doesnt_affect_back,
+ tp "y rotation doesn't affect left" prop_y_rotation_doesnt_affect_left,
+ tp "y rotation doesn't affect right" prop_y_rotation_doesnt_affect_right,
+ tp "z rotation doesn't affect top" prop_z_rotation_doesnt_affect_top,
+ tp "z rotation doesn't affect down" prop_z_rotation_doesnt_affect_down ]