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SchurRings : Table of Contents
SchurRings
-- Rings representing irreducible representations of general linear or symmetric groups
centralizerSize
-- Size of the centralizer of a permutation
ClassFunction
-- The class of all Class functions
classFunction
-- Converts symmetric function to class function
classFunction(BasicList)
-- Character of irreducible representation of symmetric group
coefficientRing(SchurRing)
-- Coefficient ring of a Schur ring
degree(ClassFunction)
-- Degree of virtual character
dim(List,SchurRingElement)
-- dimension of representation
EHPVariables
-- Specifies sequence of symbols representing e-, h-, and p-functions
EorH
-- e- or h- representation of Jacobi-Trudi determinant
eVariable
-- Elementary symmetric functions in a Symmetric ring
GroupActing
-- Specifies the group that is acting
hVariable
-- Complete symmetric functions in a Symmetric ring
internalProduct
-- Internal product of symmetric functions/class functions
internalProduct(ClassFunction,ClassFunction)
-- Tensor product of virtual representations
internalProduct(RingElement,RingElement)
-- Kronecker product of symmetric functions
jacobiTrudi
-- Jacobi-Trudi determinant
jacobiTrudi(...,Memoize=>...)
-- Store values of the jacobiTrudi function.
Memoize
-- Option to record values of the jacobiTrudi function
numgens(SchurRing)
-- Number of generators of Schur ring.
partitions(Set,BasicList)
-- Partitions of a set
plethysm
-- Plethystic operations on representations
plethysm(BasicList,RingElement)
-- Plethystic operations on representations
plethysm(RingElement,ClassFunction)
-- Plethystic operations on class functions
pVariable
-- Power-sum symmetric functions in a Symmetric ring
scalarProduct
-- Standard pairing on symmetric functions/class functions
scalarProduct(ClassFunction,ClassFunction)
-- Standard scalar product of class functions
scalarProduct(RingElement,RingElement)
-- Standard scalar product of symmetric functions
schurLevel
-- Number of SchurRings the ring is a tensor product of.
schurResolution
-- Compute an ``approximate'' equivariant resolution of a module.
schurResolution(...,DegreeLimit=>...)
-- Specifies the maximal degree of syzygies to be computed
schurResolution(...,SyzygyLimit=>...)
-- Specifies the number of syzygy modules to be computed
SchurRing
-- The class of all Schur rings
schurRing
-- Make a SchurRing
schurRing(Ring)
-- The Schur ring corresponding to a given Symmetric ring.
SchurRingElement
-- A type describing elements of a SchurRing
SchurRingIndexedVariableTable
SVariable
-- Specifies symbol representing s-functions
symmetricFunction
-- Converts class function to symmetric function
symmetricRing
-- Make a Symmetric ring
symmetricRing(Ring)
-- The Symmetric ring corresponding to a given (Schur) ring.
toE
-- Elementary symmetric (e-) basis representation
toH
-- Complete symmetric (h-) basis representation
toP
-- Power-sum (p-) basis representation
toS
-- Schur (s-) basis representation