module Numeric.LAPACK.Permutation ( Plain.Permutation, Plain.Shape(Shape), Plain.Element(Element), Plain.size, Mod.Inversion(NonInverted,Inverted), Plain.fromPivots, Plain.toPivots, toMatrix, Plain.Sign(Positive,Negative), Plain.determinant, Plain.numberFromSign, Plain.transpose, Plain.inversionFromTransposition, Plain.multiply, apply, ) where import qualified Numeric.LAPACK.Permutation.Private as Plain import qualified Numeric.LAPACK.Matrix.Array as ArrMatrix import qualified Numeric.LAPACK.Matrix.Modifier as Mod import qualified Numeric.LAPACK.Matrix.Extent.Private as Extent import Numeric.LAPACK.Permutation.Private (Permutation) import Numeric.LAPACK.Matrix.Array (Full, Square) import qualified Numeric.Netlib.Class as Class import qualified Data.Array.Comfort.Shape as Shape toMatrix :: (Shape.C sh, Class.Floating a) => Permutation sh -> Square sh a toMatrix = ArrMatrix.lift0 . Plain.toMatrix apply :: (Extent.C vert, Extent.C horiz, Shape.C height, Eq height, Shape.C width, Class.Floating a) => Mod.Inversion -> Permutation height -> Full vert horiz height width a -> Full vert horiz height width a apply inverted = ArrMatrix.lift1 . Plain.apply inverted