X-Git-Url: http://gitweb.michael.orlitzky.com/?p=numerical-analysis.git;a=blobdiff_plain;f=src%2FLinear%2FMatrix.hs;h=82665578cf037def7c04ef223a8b6e350ad9232f;hp=2fe53401587f1fe25ec4ebc16919d1463c543691;hb=ca021dad591f47dbe1581c19c4ae4bf1fee821b9;hpb=cb41ccadccd4305065c3576d63d505a5d35c5279 diff --git a/src/Linear/Matrix.hs b/src/Linear/Matrix.hs index 2fe5340..8266557 100644 --- a/src/Linear/Matrix.hs +++ b/src/Linear/Matrix.hs @@ -19,13 +19,6 @@ import Data.List (intercalate) import Data.Vector.Fixed ( (!), - N1, - N2, - N3, - N4, - N5, - S, - Z, generate, mk1, mk2, @@ -47,6 +40,7 @@ import qualified Data.Vector.Fixed as V ( zipWith ) import Data.Vector.Fixed.Cont ( Arity, arity ) import Linear.Vector ( Vec, delete, element_sum ) +import Naturals ( N1, N2, N3, N4, N5, N6, N7, N8, N9, N10, S, Z ) import Normed ( Normed(..) ) import NumericPrelude hiding ( (*), abs ) @@ -95,10 +89,11 @@ type Col2 a = Col N2 a type Col3 a = Col N3 a type Col4 a = Col N4 a type Col5 a = Col N5 a - --- We need a big column for Gaussian quadrature. -type N10 = S (S (S (S (S N5)))) -type Col10 a = Col N10 a +type Col6 a = Col N6 a +type Col7 a = Col N7 a +type Col8 a = Col N8 a +type Col9 a = Col N9 a +type Col10 a = Col N10 a -- We need a big column for Gaussian quadrature. instance (Eq a) => Eq (Mat m n a) where @@ -307,7 +302,6 @@ identity_matrix = -- >>> is_upper_triangular r -- True -- --- >>> import Naturals ( N7 ) -- >>> let k1 = [6, -3, 0, 0, 0, 0, 0] :: [Double] -- >>> let k2 = [-3, 10.5, -7.5, 0, 0, 0, 0] :: [Double] -- >>> let k3 = [0, -7.5, 12.5, 0, 0, 0, 0] :: [Double] @@ -585,11 +579,12 @@ instance (Ring.C a, Arity m, Arity n) => Module.C a (Mat m n a) where x *> (Mat rows) = Mat $ V.map (V.map (NP.* x)) rows -instance (Algebraic.C a, +instance (Absolute.C a, + Algebraic.C a, ToRational.C a, Arity m) - => Normed (Mat (S m) N1 a) where - -- | Generic p-norms for vectors in R^n that are represented as nx1 + => Normed (Col (S m) a) where + -- | Generic p-norms for vectors in R^n that are represented as n-by-1 -- matrices. -- -- Examples: @@ -600,8 +595,12 @@ instance (Algebraic.C a, -- >>> norm_p 2 v1 -- 5.0 -- + -- >>> let v1 = vec2d (-1,1) :: Col2 Double + -- >>> norm_p 1 v1 :: Double + -- 2.0 + -- norm_p p (Mat rows) = - (root p') $ sum [fromRational' (toRational x)^p' | x <- xs] + (root p') $ sum [fromRational' (toRational $ abs x)^p' | x <- xs] where p' = toInteger p xs = concat $ V.toList $ V.map V.toList rows @@ -674,6 +673,7 @@ vec4d (w,x,y,z) = Mat (mk4 (mk1 w) (mk1 x) (mk1 y) (mk1 z)) vec5d :: (a,a,a,a,a) -> Col5 a vec5d (v,w,x,y,z) = Mat (mk5 (mk1 v) (mk1 w) (mk1 x) (mk1 y) (mk1 z)) + -- Since we commandeered multiplication, we need to create 1x1 -- matrices in order to multiply things. scalar :: a -> Mat1 a @@ -856,7 +856,7 @@ trace matrix = -- >>> zip2 m1 m2 -- (((1,1),(2,1)),((3,1),(4,1))) -- -zip2 :: (Arity m, Arity n) => Mat m n a -> Mat m n a -> Mat m n (a,a) +zip2 :: (Arity m, Arity n) => Mat m n a -> Mat m n b -> Mat m n (a,b) zip2 m1 m2 = construct lambda where