Safe Haskell	None
Language	Haskell98

Numeric.LAPACK.Matrix.BandedHermitian

Synopsis

type BandedHermitian offDiag sh = Hermitian offDiag sh
data Transposition
- = NonTransposed
- | Transposed
class (C neg, C pos) => Semidefinite neg pos
assureFullRank :: (Semidefinite neg pos, C zero) => AnyHermitianP pack neg zero pos bands sh a -> AnyHermitianP pack neg False pos bands sh a
assureAnyRank :: (Semidefinite neg pos, C zero) => AnyHermitianP pack neg True pos bands sh a -> AnyHermitianP pack neg zero pos bands sh a
relaxSemidefinite :: (C neg, C zero, C pos) => AnyHermitianP pack neg False pos bands sh a -> AnyHermitianP pack neg zero pos bands sh a
relaxIndefinite :: (C neg, C zero, C pos) => AnyHermitianP pack neg zero pos bands sh a -> Quadratic pack HermitianUnknownDefiniteness bands bands sh a
assurePositiveDefiniteness :: (C neg, C zero, C pos) => AnyHermitianP pack neg zero pos bands sh a -> Quadratic pack HermitianPositiveDefinite bands bands sh a
relaxDefiniteness :: (C neg, C zero, C pos) => Quadratic pack HermitianPositiveDefinite bands bands sh a -> AnyHermitianP pack neg zero pos bands sh a
size :: BandedHermitian offDiag sh a -> sh
fromList :: (Natural offDiag, C size, Floating a) => UnaryProxy offDiag -> Order -> size -> [a] -> BandedHermitian offDiag size a
identity :: (C sh, Floating a) => sh -> HermitianPosDef U0 sh a
diagonal :: (C sh, Floating a) => Vector sh (RealOf a) -> Diagonal sh a
takeDiagonal :: (C neg, C zero, C pos) => (Natural offDiag, C size, Floating a) => FlexHermitian neg zero pos offDiag size a -> Vector size (RealOf a)
toHermitian :: (C neg, C zero, C pos) => (Natural offDiag, C size, Floating a) => FlexHermitian neg zero pos offDiag size a -> FlexHermitian neg zero pos size a
toBanded :: (C neg, C zero, C pos, Natural offDiag, C size, Floating a) => FlexHermitian neg zero pos offDiag size a -> Square offDiag offDiag size a
forceOrder :: (C neg, C zero, C pos, Natural offDiag, C size, Floating a) => Order -> FlexHermitian neg zero pos offDiag size a -> FlexHermitian neg zero pos offDiag size a
takeTopLeft :: (C neg, C zero, C pos, Natural offDiag, C sh0, C sh1, Floating a) => FlexHermitian neg zero pos offDiag (sh0 ::+ sh1) a -> FlexHermitian neg zero pos offDiag sh0 a
takeBottomRight :: (C neg, C zero, C pos, Natural offDiag, C sh0, C sh1, Floating a) => FlexHermitian neg zero pos offDiag (sh0 ::+ sh1) a -> FlexHermitian neg zero pos offDiag sh1 a
negate :: (C neg, C zero, C pos, Natural offDiag, C sh, Floating a) => FlexHermitian neg zero pos offDiag sh a -> FlexHermitian pos zero neg offDiag sh a
multiplyVector :: (C neg, C zero, C pos, Natural offDiag, C size, Eq size, Floating a) => Transposition -> FlexHermitian neg zero pos offDiag size a -> Vector size a -> Vector size a
multiplyFull :: (C neg, C zero, C pos, Natural offDiag, Measure meas, C vert, C horiz, C height, Eq height, C width, Floating a) => Transposition -> FlexHermitian neg zero pos offDiag height a -> Full meas vert horiz height width a -> Full meas vert horiz height width a
gramian :: (C size, Eq size, Floating a, Natural sub, Natural super) => Square sub super size a -> HermitianPosSemidef (sub :+: super) size a
sumRank1 :: (Natural k, Indexed sh, Floating a) => Order -> sh -> [(RealOf a, (Index sh, StaticVector (Succ k) a))] -> HermitianPosSemidef k sh a
eigenvalues :: (C neg, C zero, C pos, Natural offDiag) => (Permutable sh, Floating a) => FlexHermitian neg zero pos offDiag sh a -> Vector sh (RealOf a)
eigensystem :: (C neg, C zero, C pos, Natural offDiag) => (Permutable sh, Floating a) => FlexHermitian neg zero pos offDiag sh a -> (Square sh a, Vector sh (RealOf a))

Documentation

type BandedHermitian offDiag sh = Hermitian offDiag sh Source #

data Transposition Source #

Constructors

NonTransposed
Transposed

Instances

Bounded Transposition Source #
Instance details Defined in Numeric.LAPACK.Matrix.Modifier Methods minBound :: Transposition # maxBound :: Transposition #
Enum Transposition Source #
Instance details Defined in Numeric.LAPACK.Matrix.Modifier Methods succ :: Transposition -> Transposition # pred :: Transposition -> Transposition # toEnum :: Int -> Transposition # fromEnum :: Transposition -> Int # enumFrom :: Transposition -> [Transposition] # enumFromThen :: Transposition -> Transposition -> [Transposition] # enumFromTo :: Transposition -> Transposition -> [Transposition] # enumFromThenTo :: Transposition -> Transposition -> Transposition -> [Transposition] #
Eq Transposition Source #
Instance details Defined in Numeric.LAPACK.Matrix.Modifier Methods (==) :: Transposition -> Transposition -> Bool # (/=) :: Transposition -> Transposition -> Bool #
Show Transposition Source #
Instance details Defined in Numeric.LAPACK.Matrix.Modifier Methods showsPrec :: Int -> Transposition -> ShowS # show :: Transposition -> String # showList :: [Transposition] -> ShowS #
Semigroup Transposition Source #
Instance details Defined in Numeric.LAPACK.Matrix.Modifier Methods (<>) :: Transposition -> Transposition -> Transposition # sconcat :: NonEmpty Transposition -> Transposition # stimes :: Integral b => b -> Transposition -> Transposition #
Monoid Transposition Source #
Instance details Defined in Numeric.LAPACK.Matrix.Modifier Methods mempty :: Transposition # mappend :: Transposition -> Transposition -> Transposition # mconcat :: [Transposition] -> Transposition #

class (C neg, C pos) => Semidefinite neg pos Source #

Instances

Semidefinite True False Source #
Instance details Defined in Numeric.LAPACK.Matrix.Array.Hermitian
Semidefinite False True Source #
Instance details Defined in Numeric.LAPACK.Matrix.Array.Hermitian

assureFullRank :: (Semidefinite neg pos, C zero) => AnyHermitianP pack neg zero pos bands sh a -> AnyHermitianP pack neg False pos bands sh a Source #

assureAnyRank :: (Semidefinite neg pos, C zero) => AnyHermitianP pack neg True pos bands sh a -> AnyHermitianP pack neg zero pos bands sh a Source #

relaxSemidefinite :: (C neg, C zero, C pos) => AnyHermitianP pack neg False pos bands sh a -> AnyHermitianP pack neg zero pos bands sh a Source #

relaxIndefinite :: (C neg, C zero, C pos) => AnyHermitianP pack neg zero pos bands sh a -> Quadratic pack HermitianUnknownDefiniteness bands bands sh a Source #

assurePositiveDefiniteness :: (C neg, C zero, C pos) => AnyHermitianP pack neg zero pos bands sh a -> Quadratic pack HermitianPositiveDefinite bands bands sh a Source #

relaxDefiniteness :: (C neg, C zero, C pos) => Quadratic pack HermitianPositiveDefinite bands bands sh a -> AnyHermitianP pack neg zero pos bands sh a Source #

size :: BandedHermitian offDiag sh a -> sh Source #

fromList :: (Natural offDiag, C size, Floating a) => UnaryProxy offDiag -> Order -> size -> [a] -> BandedHermitian offDiag size a Source #

identity :: (C sh, Floating a) => sh -> HermitianPosDef U0 sh a Source #

diagonal :: (C sh, Floating a) => Vector sh (RealOf a) -> Diagonal sh a Source #

takeDiagonal :: (C neg, C zero, C pos) => (Natural offDiag, C size, Floating a) => FlexHermitian neg zero pos offDiag size a -> Vector size (RealOf a) Source #

toHermitian :: (C neg, C zero, C pos) => (Natural offDiag, C size, Floating a) => FlexHermitian neg zero pos offDiag size a -> FlexHermitian neg zero pos size a Source #

toBanded :: (C neg, C zero, C pos, Natural offDiag, C size, Floating a) => FlexHermitian neg zero pos offDiag size a -> Square offDiag offDiag size a Source #

forceOrder :: (C neg, C zero, C pos, Natural offDiag, C size, Floating a) => Order -> FlexHermitian neg zero pos offDiag size a -> FlexHermitian neg zero pos offDiag size a Source #

takeTopLeft :: (C neg, C zero, C pos, Natural offDiag, C sh0, C sh1, Floating a) => FlexHermitian neg zero pos offDiag (sh0 ::+ sh1) a -> FlexHermitian neg zero pos offDiag sh0 a Source #

takeBottomRight :: (C neg, C zero, C pos, Natural offDiag, C sh0, C sh1, Floating a) => FlexHermitian neg zero pos offDiag (sh0 ::+ sh1) a -> FlexHermitian neg zero pos offDiag sh1 a Source #

negate :: (C neg, C zero, C pos, Natural offDiag, C sh, Floating a) => FlexHermitian neg zero pos offDiag sh a -> FlexHermitian pos zero neg offDiag sh a Source #

multiplyVector :: (C neg, C zero, C pos, Natural offDiag, C size, Eq size, Floating a) => Transposition -> FlexHermitian neg zero pos offDiag size a -> Vector size a -> Vector size a Source #

multiplyFull :: (C neg, C zero, C pos, Natural offDiag, Measure meas, C vert, C horiz, C height, Eq height, C width, Floating a) => Transposition -> FlexHermitian neg zero pos offDiag height a -> Full meas vert horiz height width a -> Full meas vert horiz height width a Source #

gramian :: (C size, Eq size, Floating a, Natural sub, Natural super) => Square sub super size a -> HermitianPosSemidef (sub :+: super) size a Source #

sumRank1 :: (Natural k, Indexed sh, Floating a) => Order -> sh -> [(RealOf a, (Index sh, StaticVector (Succ k) a))] -> HermitianPosSemidef k sh a Source #

The list represents ragged rows of a sparse matrix.

eigenvalues :: (C neg, C zero, C pos, Natural offDiag) => (Permutable sh, Floating a) => FlexHermitian neg zero pos offDiag sh a -> Vector sh (RealOf a) Source #

eigensystem :: (C neg, C zero, C pos, Natural offDiag) => (Permutable sh, Floating a) => FlexHermitian neg zero pos offDiag sh a -> (Square sh a, Vector sh (RealOf a)) Source #

For symmetric eigenvalue problems, eigensystem and schur coincide.