=================================================================== RCS file: /home/cvs/OpenXM/src/kan96xx/Kan/poly4.c,v retrieving revision 1.12 retrieving revision 1.16 diff -u -p -r1.12 -r1.16 --- OpenXM/src/kan96xx/Kan/poly4.c 2003/08/24 05:19:42 1.12 +++ OpenXM/src/kan96xx/Kan/poly4.c 2005/07/03 11:08:54 1.16 @@ -1,5 +1,6 @@ -/* $OpenXM: OpenXM/src/kan96xx/Kan/poly4.c,v 1.11 2003/08/23 02:28:38 takayama Exp $ */ +/* $OpenXM: OpenXM/src/kan96xx/Kan/poly4.c,v 1.15 2005/06/16 05:07:23 takayama Exp $ */ #include +#include #include "datatype.h" #include "stackm.h" #include "extern.h" @@ -9,8 +10,9 @@ static void shell(int v[],int n); static int degreeOfPrincipalPart(POLY f); static int degreeOfInitW(POLY f,int w[]); static int degreeOfInitWS(POLY f,int w[],int s[]); +static int dDegree(POLY f); +static POLY dHomogenize(POLY f); - static void shell(v,n) int v[]; int n; @@ -40,7 +42,7 @@ struct matrixOfPOLY *parts(f,v) int *ev; struct object *evList; struct object *list; - struct object ob; + struct object ob = OINIT; POLY ans; POLY h; extern struct ring *CurrentRingp; @@ -127,11 +129,13 @@ struct object parts2(f,v) int *ev; struct object *evList; struct object *list; - struct object ob; + struct object ob = OINIT; POLY ans; POLY h; POLY ft; - struct object ob1,ob2,rob; + struct object ob1 = OINIT; + struct object ob2 = OINIT; + struct object rob = OINIT; if (f ISZERO || v ISZERO) { @@ -306,8 +310,12 @@ POLY homogenize(f) POLY t; int maxg; int flag,d; + extern int Homogenize; if (f == ZERO) return(f); + if (Homogenize == 3) { /* double homogenization Dx x = x Dx + h H */ + return dHomogenize(f); + } t = f; maxg = (*grade)(f); flag = 0; while (t != POLYNULL) { d = (*grade)(t); @@ -375,7 +383,73 @@ int isHomogenized_vec(f) return(1); } +static POLY dHomogenize(f) +POLY f; +{ + POLY t; + int maxg, maxdg; + int flag,d,dd,neg; + if (f == ZERO) return(f); + + t = f; + maxg = (*grade)(f); + while (t != POLYNULL) { + dd = (*grade)(t); + if (maxg < dd) maxg = dd; + t = t->next; + } + /* fprintf(stderr,"maxg=%d\n",maxg); */ + + t = f; + maxdg = dDegree(f); + while (t != POLYNULL) { + dd = dDegree(t); + if (maxdg < dd) maxdg = dd; + t = t->next; + } + /* fprintf(stderr,"maxdg=%d\n",maxdg); */ + + t = f; + flag = 0; + while (t != POLYNULL) { + d = (*grade)(t); + if (d != maxg) flag = 1; + if (d > maxg) { + maxg = d; + } + d = dDegree(f); + if (d > maxdg) { + maxdg = d; + } + t = t->next; + } + if (flag == 0) return(f); + + t = f; neg = 0; + while (t != POLYNULL) { + d = (*grade)(t); + dd = dDegree(t); + if (maxg-d-(maxdg-dd) < neg) { + neg = maxg-d-(maxdg-dd); + } + t = t->next; + } + neg = -neg; + + f = pmCopy(f); /* You can rewrite the monomial parts */ + t = f; + while (t != POLYNULL) { + d = (*grade)(t); + dd = dDegree(t); + t->m->e[0].D += maxdg-dd; /* h */ + t->m->e[0].x += maxg-d-(maxdg-dd)+neg; /* Multiply H */ + /* example Dx^2+Dx+x */ + t = t->next; + } + return(f); +} + static int degreeOfPrincipalPart(f) POLY f; { @@ -384,6 +458,19 @@ static int degreeOfPrincipalPart(f) n = f->m->ringp->n; dd = 0; /* D[0] is homogenization var */ for (i=1; im->e[i].D; + } + return(dd); +} + +static int dDegree(f) + POLY f; +{ + int nn,i,dd,m; + if (f ISZERO) return(0); + nn = f->m->ringp->nn; dd = 0; + m = f->m->ringp->m; + for (i=m; im->e[i].D; } return(dd);