X-Git-Url: http://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=src%2FFunctionValues.hs;fp=src%2FFunctionValues.hs;h=8400c80988bf30a43bacbfdecc0cd83abe0d0b30;hb=8d413191a61d8b444213b0349bfe3df3fd24f35b;hp=9d5232334bc5ad805f449faa3d51249644689b4e;hpb=2f1d864660ff740773ea2c36ab79a837000f6452;p=spline3.git diff --git a/src/FunctionValues.hs b/src/FunctionValues.hs index 9d52323..8400c80 100644 --- a/src/FunctionValues.hs +++ b/src/FunctionValues.hs @@ -195,51 +195,37 @@ eval f (Quotient x y) = (eval f x) / (eval f y) -- 1.0 -- -- >>> value_at Examples.trilinear 1 3 0 --- 4.0 +-- 5.0 -- value_at :: Values3D -> Int -> Int -> Int -> Double value_at v3d i j k -- Put the most common case first! - | (i >= 0) && (j >= 0) && (k >= 0) = + | (valid_i i) && (valid_j j) && (valid_k k) = idx v3d i j k - -- The next three are from the first line in (7.3). - | (i == -1) && (j >= 0) && (k >= 0) = - 2*(value_at v3d 0 j k) - (value_at v3d 1 j k) - - | (i >= 0) && (j == -1) && (k >= 0) = - 2*(value_at v3d i 0 k) - (value_at v3d i 1 k) - - | (i >= 0) && (j >= 0) && (k == -1) = - 2*(value_at v3d i j 0) - (value_at v3d i j 1) - - -- The next two are from the second line in (7.3). - | (i == -1) && (j == -1) && (k >= 0) = - 2*(value_at v3d i 0 k) - (value_at v3d i 1 k) - - | (i == -1) && (j == ysize) && (k >= 0) = - 2*(value_at v3d i (ysize - 1) k) - (value_at v3d i (ysize - 2) k) - - -- The next two are from the third line in (7.3). - | (i == -1) && (j >= 0) && (k == -1) = - 2*(value_at v3d i j 0) - (value_at v3d i j 1) - - | (i == -1) && (j >= 0) && (k == zsize) = - 2*(value_at v3d i j (zsize - 1)) - (value_at v3d i j (zsize - 2)) - - -- Repeat the above (j and k) cases for i >= 0. - | (i >= 0) && (j == -1) && (k == -1) = - 2*(value_at v3d i j 0) - (value_at v3d i j 1) - - | (i == xsize) && (j == -1) && (k >= 0) = - 2*(value_at v3d (xsize - 1) j k) - (value_at v3d (xsize - 2) j k) - - -- These two cases I made up. - | (i == -1) && (j == -1) && (k == -1) = - 2*(value_at v3d i j 0) - (value_at v3d i j 1) - - | (i == xsize) && (j == ysize) && (k == zsize) = - 2*(value_at v3d i j (zsize - 1)) - (value_at v3d i j (zsize - 2)) + -- The next three are from the first line in (7.3). Analogous cases + -- have been added where the indices are one-too-big. These are the + -- "one index is bad" cases. + | not (valid_i i) = + if (i == -1) + then + 2*(value_at v3d 0 j k) - (value_at v3d 1 j k) + else + 2*(value_at v3d (i-1) j k) - (value_at v3d (i-2) j k) + + | not (valid_j j) = + if (j == -1) + then + 2*(value_at v3d i 0 k) - (value_at v3d i 1 k) + else + 2*(value_at v3d i (j-1) k) - (value_at v3d i (j-2) k) + + | not (valid_k k) = + if (k == -1) + then + 2*(value_at v3d i j 0) - (value_at v3d i j 1) + else + 2*(value_at v3d i j (k-1)) - (value_at v3d i j (k-2)) | otherwise = let istr = show i @@ -251,6 +237,16 @@ value_at v3d i j k where (xsize, ysize, zsize) = dims v3d + valid_i :: Int -> Bool + valid_i i' = (i' >= 0) && (i' < xsize) + + valid_j :: Int -> Bool + valid_j j' = (j' >= 0) && (j' < ysize) + + valid_k :: Int -> Bool + valid_k k' = (k' >= 0) && (k' < zsize) + + -- | Given a three-dimensional list of 'Double' and a set of 3D -- coordinates (i,j,k), constructs and returns the 'FunctionValues'