FiniteAbelianMonoidRing(R, E)¶
polycat.spad line 54 [edit on github]
R: Join(SemiRng, AbelianMonoid)
This category is similar to AbelianMonoidRing, except that the sum is assumed to be finite. It is a useful model for polynomials, but is somewhat more general.
- 0: %
from AbelianMonoid
- 1: % if R has SemiRing
from MagmaWithUnit
- *: (%, %) -> %
from Magma
- *: (%, Fraction Integer) -> % if R has Algebra Fraction Integer
from RightModule Fraction Integer
- *: (%, R) -> %
from RightModule R
- *: (Fraction Integer, %) -> % if R has Algebra Fraction Integer
from LeftModule Fraction Integer
- *: (Integer, %) -> % if R has AbelianGroup or % has AbelianGroup
from AbelianGroup
- *: (NonNegativeInteger, %) -> %
from AbelianMonoid
- *: (PositiveInteger, %) -> %
from AbelianSemiGroup
- *: (R, %) -> %
from LeftModule R
- +: (%, %) -> %
from AbelianSemiGroup
- -: % -> % if R has AbelianGroup or % has AbelianGroup
from AbelianGroup
- -: (%, %) -> % if R has AbelianGroup or % has AbelianGroup
from AbelianGroup
- /: (%, R) -> % if R has Field
from AbelianMonoidRing(R, E)
- ^: (%, NonNegativeInteger) -> % if R has SemiRing
from MagmaWithUnit
- ^: (%, PositiveInteger) -> %
from Magma
- annihilate?: (%, %) -> Boolean if R has Ring
from Rng
- antiCommutator: (%, %) -> %
- associates?: (%, %) -> Boolean if R has EntireRing
from EntireRing
- associator: (%, %, %) -> % if R has Ring
from NonAssociativeRng
- binomThmExpt: (%, %, NonNegativeInteger) -> % if % has CommutativeRing
binomThmExpt(p, q, n)
returns(p+q)^n
by means of the binomial theorem trick.
- characteristic: () -> NonNegativeInteger if R has Ring
from NonAssociativeRing
- charthRoot: % -> Union(%, failed) if R has CharacteristicNonZero
- coefficient: (%, E) -> R
from AbelianMonoidRing(R, E)
- coefficients: % -> List R
from FreeModuleCategory(R, E)
- coerce: % -> % if R has IntegralDomain and % has VariablesCommuteWithCoefficients or R has CommutativeRing and % has VariablesCommuteWithCoefficients
from Algebra %
- coerce: % -> OutputForm
from CoercibleTo OutputForm
- coerce: Fraction Integer -> % if R has RetractableTo Fraction Integer or R has Algebra Fraction Integer
- coerce: Integer -> % if R has Ring or R has RetractableTo Integer
from NonAssociativeRing
- coerce: R -> %
from Algebra R
- commutator: (%, %) -> % if R has Ring
from NonAssociativeRng
- construct: List Record(k: E, c: R) -> %
from IndexedProductCategory(R, E)
- constructOrdered: List Record(k: E, c: R) -> %
from IndexedProductCategory(R, E)
- content: % -> R if R has GcdDomain
content(p)
gives thegcd
of the coefficients of polynomialp
.
- degree: % -> E
from AbelianMonoidRing(R, E)
- exquo: (%, %) -> Union(%, failed) if R has EntireRing
from EntireRing
- exquo: (%, R) -> Union(%, failed) if R has EntireRing
exquo(p,r)
returns the exact quotient of polynomialp
byr
, or “failed” if none exists.
- fmecg: (%, E, R, %) -> % if R has Ring
fmecg(p1, e, r, p2)
returnsp1 - monomial(r, e) * p2
.
- ground?: % -> Boolean
ground?(p)
tests if polynomialp
is a member of the coefficient ring.
- ground: % -> R
ground(p)
retracts polynomialp
to the coefficient ring.
- latex: % -> String
from SetCategory
- leadingCoefficient: % -> R
from IndexedProductCategory(R, E)
- leadingMonomial: % -> %
from IndexedProductCategory(R, E)
- leadingSupport: % -> E
from IndexedProductCategory(R, E)
- leadingTerm: % -> Record(k: E, c: R)
from IndexedProductCategory(R, E)
- leftPower: (%, NonNegativeInteger) -> % if R has SemiRing
from MagmaWithUnit
- leftPower: (%, PositiveInteger) -> %
from Magma
- leftRecip: % -> Union(%, failed) if R has SemiRing
from MagmaWithUnit
- linearExtend: (E -> R, %) -> R if R has CommutativeRing
from FreeModuleCategory(R, E)
- listOfTerms: % -> List Record(k: E, c: R)
from IndexedDirectProductCategory(R, E)
- map: (R -> R, %) -> %
from IndexedProductCategory(R, E)
- mapExponents: (E -> E, %) -> %
mapExponents(fn, u)
maps functionfn
onto the exponents of the non-zero monomials of polynomialu
.
- minimumDegree: % -> E
minimumDegree(p)
gives the least exponent of a non-zero term of polynomialp
. Error: if applied to 0.
- monomial?: % -> Boolean
from IndexedProductCategory(R, E)
- monomial: (R, E) -> %
from IndexedProductCategory(R, E)
- monomials: % -> List %
from FreeModuleCategory(R, E)
- numberOfMonomials: % -> NonNegativeInteger
from IndexedDirectProductCategory(R, E)
- one?: % -> Boolean if R has SemiRing
from MagmaWithUnit
- opposite?: (%, %) -> Boolean
from AbelianMonoid
- plenaryPower: (%, PositiveInteger) -> % if R has CommutativeRing and % has VariablesCommuteWithCoefficients or R has Algebra Fraction Integer or R has IntegralDomain and % has VariablesCommuteWithCoefficients
from NonAssociativeAlgebra %
- pomopo!: (%, R, E, %) -> %
pomopo!(p1, r, e, p2)
returnsp1 + monomial(r, e) * p2
and may usep1
as workspace. The constantr
is assumed to be nonzero.
- primitivePart: % -> % if R has GcdDomain
primitivePart(p)
returns the unit normalized form of polynomialp
divided by the content ofp
.
- recip: % -> Union(%, failed) if R has SemiRing
from MagmaWithUnit
- reductum: % -> %
from IndexedProductCategory(R, E)
- retract: % -> Fraction Integer if R has RetractableTo Fraction Integer
from RetractableTo Fraction Integer
- retract: % -> Integer if R has RetractableTo Integer
from RetractableTo Integer
- retract: % -> R
from RetractableTo R
- retractIfCan: % -> Union(Fraction Integer, failed) if R has RetractableTo Fraction Integer
from RetractableTo Fraction Integer
- retractIfCan: % -> Union(Integer, failed) if R has RetractableTo Integer
from RetractableTo Integer
- retractIfCan: % -> Union(R, failed)
from RetractableTo R
- rightPower: (%, NonNegativeInteger) -> % if R has SemiRing
from MagmaWithUnit
- rightPower: (%, PositiveInteger) -> %
from Magma
- rightRecip: % -> Union(%, failed) if R has SemiRing
from MagmaWithUnit
- sample: %
from AbelianMonoid
- smaller?: (%, %) -> Boolean if R has Comparable
from Comparable
- subtractIfCan: (%, %) -> Union(%, failed)
- support: % -> List E
from FreeModuleCategory(R, E)
- unit?: % -> Boolean if R has EntireRing
from EntireRing
- unitCanonical: % -> % if R has EntireRing
from EntireRing
- unitNormal: % -> Record(unit: %, canonical: %, associate: %) if R has EntireRing
from EntireRing
- zero?: % -> Boolean
from AbelianMonoid
AbelianGroup if R has AbelianGroup
AbelianMonoidRing(R, E)
Algebra % if R has IntegralDomain and % has VariablesCommuteWithCoefficients or R has CommutativeRing and % has VariablesCommuteWithCoefficients
Algebra Fraction Integer if R has Algebra Fraction Integer
Algebra R if R has CommutativeRing and % has VariablesCommuteWithCoefficients
BiModule(%, %)
BiModule(Fraction Integer, Fraction Integer) if R has Algebra Fraction Integer
BiModule(R, R)
CharacteristicNonZero if R has CharacteristicNonZero
CharacteristicZero if R has CharacteristicZero
CoercibleFrom Fraction Integer if R has RetractableTo Fraction Integer
CoercibleFrom Integer if R has RetractableTo Integer
CommutativeRing if R has CommutativeRing and % has VariablesCommuteWithCoefficients or R has IntegralDomain and % has VariablesCommuteWithCoefficients
CommutativeStar if R has IntegralDomain and % has VariablesCommuteWithCoefficients or R has CommutativeRing and % has VariablesCommuteWithCoefficients
Comparable if R has Comparable
EntireRing if R has EntireRing
FreeModuleCategory(R, E)
IndexedDirectProductCategory(R, E)
IndexedProductCategory(R, E)
IntegralDomain if R has IntegralDomain and % has VariablesCommuteWithCoefficients
LeftModule Fraction Integer if R has Algebra Fraction Integer
MagmaWithUnit if R has SemiRing
Module % if R has IntegralDomain and % has VariablesCommuteWithCoefficients or R has CommutativeRing and % has VariablesCommuteWithCoefficients
Module Fraction Integer if R has Algebra Fraction Integer
Module R if R has CommutativeRing
NonAssociativeAlgebra % if R has IntegralDomain and % has VariablesCommuteWithCoefficients or R has CommutativeRing and % has VariablesCommuteWithCoefficients
NonAssociativeAlgebra Fraction Integer if R has Algebra Fraction Integer
NonAssociativeAlgebra R if R has CommutativeRing and % has VariablesCommuteWithCoefficients
NonAssociativeRing if R has Ring
NonAssociativeRng if R has Ring
NonAssociativeSemiRing if R has SemiRing
noZeroDivisors if R has EntireRing
RetractableTo Fraction Integer if R has RetractableTo Fraction Integer
RetractableTo Integer if R has RetractableTo Integer
RightModule Fraction Integer if R has Algebra Fraction Integer
TwoSidedRecip if R has IntegralDomain and % has VariablesCommuteWithCoefficients or R has CommutativeRing and % has VariablesCommuteWithCoefficients
unitsKnown if R has Ring