|
 |
 |
 |
 |
 |
 |
 |
 |
 |
7.5.5.0. initialMalgrange
Procedure from librarydmodapp.lib (see dmodapp_lib).
- Usage:
- initialMalgrange(f,[,a,b,v]); f poly, a,b optional ints, v opt. intvec
- Return:
- ring, Weyl algebra induced by basering, extended by two new vars t,Dt
- Purpose:
- computes the initial Malgrange ideal of a given polynomial w.r.t. the
weight vector (-1,0...,0,1,0,...,0) such that the weight of t is -1
and the weight of Dt is 1. - Assume:
- The basering is commutative and over a field of characteristic 0.
- Note:
- Activate the output ring with the
setringcommand.
The returned ring contains the ideal 'inF', being the initial ideal
of the Malgrange ideal of f.
Varnames of the basering should not include t and Dt.
If a<>0,stdis used for Groebner basis computations,
otherwise, and by default,slimgbis used.
If b<>0, a matrix ordering is used for Groebner basis computations,
otherwise, and by default, a block ordering is used.
If a positive weight vector v is given, the weight
(d,v[1],...,v[n],1,d+1-v[1],...,d+1-v[n]) is used for homogenization
computations, where d denotes the weighted degree of f.
Otherwise and by default, v is set to (1,...,1). See Noro (2002). - Display:
- If printlevel=1, progress debug messages will be printed,
if printlevel>=2, all the debug messages will be printed.
LIB "dmodapp.lib"; ring r = 0,(x,y),dp; poly f = x^2+y^3+x*y^2; def D = initialMalgrange(f); setring D; inF; ==> inF[1]=x*Dt ==> inF[2]=2*x*y*Dx+3*y^2*Dx-y^2*Dy-2*x*Dy ==> inF[3]=2*x^2*Dx+x*y*Dx+x*y*Dy+18*t*Dt+9*x*Dx-x*Dy+6*y*Dy+4*x+18 ==> inF[4]=18*t*Dt^2+6*y*Dt*Dy-y*Dt+27*Dt ==> inF[5]=y^2*Dt ==> inF[6]=2*t*y*Dt+2*x*y*Dx+2*y^2*Dx-6*t*Dt-3*x*Dx-x*Dy-2*y*Dy+2*y-6 ==> inF[7]=x*y^2+y^3+x^2 ==> inF[8]=2*y^3*Dx-2*y^3*Dy-3*y^2*Dx-2*x*y*Dy+y^2*Dy-4*y^2+36*t*Dt+18*x*Dx+1\ 2*y*Dy+36 setring r; intvec v = 3,2; def D2 = initialMalgrange(f,1,1,v); setring D2; inF; ==> inF[1]=x*Dt ==> inF[2]=2*x*y*Dx+3*y^2*Dx-y^2*Dy-2*x*Dy ==> inF[3]=4*x^2*Dx-3*y^2*Dx+2*x*y*Dy+y^2*Dy+36*t*Dt+18*x*Dx+12*y*Dy+8*x+36 ==> inF[4]=18*t*Dt^2+6*y*Dt*Dy-y*Dt+27*Dt ==> inF[5]=y^2*Dt ==> inF[6]=2*t*y*Dt-y^2*Dx+y^2*Dy-6*t*Dt-3*x*Dx+x*Dy-2*y*Dy+2*y-6 ==> inF[7]=x*y^2+y^3+x^2 ==> inF[8]=2*y^3*Dx-2*y^3*Dy-3*y^2*Dx-2*x*y*Dy+y^2*Dy-4*y^2+36*t*Dt+18*x*Dx+1\ 2*y*Dy+36 |