sort(...,MonomialOrder=>...) -- specify Ascending or Descending monomial order

Synopsis

• Usage:

  sort(...,MonomialOrder=>x)

• Inputs:
  • x, a symbol, either Ascending or Descending
• Consequences:

  • After the degree order has been considered, sort the columns of the matrix in Ascending or Descending monomial order

Further information

• Default value: Ascending
• Function: sort -- sort a list or columns of a matrix
• Option key: MonomialOrder -- monomial ordering

Caveat

This option only works for sorting columns of a matrix, not the elements of a list

Functions with optional argument named MonomialOrder :

• "graphIdeal(...,MonomialOrder=>...)" -- see graphIdeal(RingMap) -- the ideal of the graph of the regular map corresponding to a ring map
• "graphRing(...,MonomialOrder=>...)" -- see graphRing(RingMap) -- the coordinate ring of the graph of the regular map corresponding to a ring map
• monoid(...,MonomialOrder=>...) -- specify the monomial ordering
• "newRing(...,MonomialOrder=>...)" -- see newRing -- make a copy of a ring, with some features changed
• "pushForward(...,MonomialOrder=>...)" -- see pushForward(RingMap,Module)
• rsort(...,MonomialOrder=>...) -- specify Ascending or Descending monomial order
• sort(...,MonomialOrder=>...) -- specify Ascending or Descending monomial order
• sortColumns(...,MonomialOrder=>...) -- specify Ascending or Descending monomial order
• "symmetricAlgebra(...,MonomialOrder=>...)" -- see symmetricAlgebra -- the symmetric algebra of a module
• "tensor(Monoid,Monoid,MonomialOrder=>...)" -- see tensor(Monoid,Monoid) -- tensor product of monoids
• "tensor(Ring,Ring,MonomialOrder=>...)" -- see tensor(Monoid,Monoid) -- tensor product of monoids