Strategy -- name for an optional argument

Description

A symbol used as the name of an optional argument, for some function(s).

Functions with optional argument named Strategy :

• annihilator(..., Strategy => ...), see annihilator -- the annihilator ideal
• associatedPrimes(..., Strategy => ...)
• mingens(..., Strategy => ...), see Complement
• trim(..., Strategy => ...), see Complement
• determinant(..., Strategy => ...) -- choose between Bareiss and Cofactor algorithms
• dual(MonomialIdeal, Strategy => ...)
• dual(MonomialIdeal,List, Strategy => ...), see dual(MonomialIdeal, Strategy => ...)
• dual(MonomialIdeal,RingElement, Strategy => ...), see dual(MonomialIdeal, Strategy => ...)
• exteriorPower(..., Strategy => ...) -- choose between Bareiss and Cofactor algorithms
• gb(..., Strategy => ...), see gb -- compute a Gröbner basis
• gcdLLL(..., Strategy => ...) (missing documentation)
• GF(..., Strategy => ...), see GF -- make a finite field
• groebnerBasis(..., Strategy => ...), see groebnerBasis -- Gröbner basis, as a matrix
• hermite(..., Strategy => ...) (missing documentation)
• idealizer(..., Strategy => ...), see idealizer -- compute Hom(I,I) as a quotient ring
• integralClosure(..., Strategy => ...) -- control the algorithm used
• intersectInP(..., Strategy => ...), see intersectInP(..., BasisElementLimit => ...) -- Option for intersectInP
• LLL(..., Strategy => ...) -- choose among different algorithms
• localize(..., Strategy => ...)
• minors(..., Strategy => ...) -- choose between Bareiss and Cofactor algorithms
• minprimes(..., Strategy => ...) (missing documentation)
• newIsPrime(..., Strategy => ...) (missing documentation)
• primaryComponent(..., Strategy => ...)
• primaryDecomposition(..., Strategy => ...)
• quotient(..., Strategy => ...) -- Possible strategies are: Iterate, Linear, and Quotient
• radical(..., Strategy => ...), see radical -- the radical of an ideal
• analyticSpread(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• distinguished(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• isLinearType(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• isReduction(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• minimalReduction(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• multiplicity(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• normalCone(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• reesAlgebra(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• specialFiber(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• specialFiberIdeal(..., Strategy => ...), see reesIdeal(..., Strategy => ...) -- Choose a strategy for the saturation step
• resolution(..., Strategy => ...)
• saturate(..., Strategy => ...)
• syz(..., Strategy => ...), see syz(Matrix) -- compute the syzygy matrix
• tangentCone(..., Strategy => ...), see tangentCone(Ideal)