version 1.2, 2004/12/02 08:39:54 |
version 1.13, 2006/01/05 00:21:20 |
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/* |
/* |
* $OpenXM: OpenXM_contrib2/asir2000/engine/dalg.c,v 1.1 2004/12/02 08:23:25 noro Exp $ |
* $OpenXM: OpenXM_contrib2/asir2000/engine/dalg.c,v 1.12 2005/10/12 14:43:36 noro Exp $ |
*/ |
*/ |
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#include "ca.h" |
#include "ca.h" |
#include "base.h" |
#include "base.h" |
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typedef struct oNumberField { |
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int n; |
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int dim; |
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VL vl; |
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P *defpoly; |
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DP *mb; |
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DP *ps; |
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NODE ind; |
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struct order_spec *spec; |
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} *NumberField; |
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typedef struct oDAlg { |
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short id; |
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char nid; |
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char pad; |
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DP nm; |
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Q dn; |
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} *DAlg; |
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#define N_DA 11 |
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#define NEWDAlg(r) ((r)=(DAlg)MALLOC(sizeof(struct oDAlg)),OID(r)=O_N,NID(r)=N_DA) |
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#define MKDAlg(dp,den,r) (NEWDAlg(r),(r)->nm = (dp),(r)->dn=(den)) |
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static NumberField current_numberfield; |
static NumberField current_numberfield; |
extern struct order_spec *dp_current_spec; |
extern struct order_spec *dp_current_spec; |
void simpdalg(DAlg da,DAlg *r); |
void simpdalg(DAlg da,DAlg *r); |
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int invdalg(DAlg a,DAlg *c); |
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void rmcontdalg(DAlg a, DAlg *c); |
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void algtodalg(Alg a,DAlg *r); |
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void dalgtoalg(DAlg da,Alg *r); |
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NumberField get_numberfield() |
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{ |
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return current_numberfield; |
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} |
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void setfield_dalg(NODE alist) |
void setfield_dalg(NODE alist) |
{ |
{ |
NumberField nf; |
NumberField nf; |
Line 42 void setfield_dalg(NODE alist) |
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Line 28 void setfield_dalg(NODE alist) |
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P p; |
P p; |
Q c,iq,two; |
Q c,iq,two; |
DP *ps,*mb; |
DP *ps,*mb; |
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DP one; |
NODE t,b,b1,b2,hlist,mblist; |
NODE t,b,b1,b2,hlist,mblist; |
struct order_spec *current_spec; |
struct order_spec *current_spec; |
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Line 65 void setfield_dalg(NODE alist) |
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Line 52 void setfield_dalg(NODE alist) |
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ptozp(vl1->v->attr,1,&c,&defpoly[i]); |
ptozp(vl1->v->attr,1,&c,&defpoly[i]); |
ptod(ALG,vl,defpoly[i],&ps[i]); |
ptod(ALG,vl,defpoly[i],&ps[i]); |
STOQ(i,iq); MKNODE(b1,(pointer)iq,b); b = b1; |
STOQ(i,iq); MKNODE(b1,(pointer)iq,b); b = b1; |
MKNODE(b2,(pointer)ps[i],&hlist); hlist = b2; |
MKNODE(b2,(pointer)ps[i],hlist); hlist = b2; |
} |
} |
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ptod(ALG,vl,(P)ONE,&one); |
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MKDAlg(one,ONE,nf->one); |
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nf->ind = b; |
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dp_mbase(hlist,&mblist); |
initd(current_spec); |
initd(current_spec); |
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nf->dim = dim = length(mblist); |
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nf->mb = mb = (DP *)MALLOC(dim*sizeof(DP)); |
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for ( i = 0, t = mblist; t; t = NEXT(t), i++ ) |
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mb[dim-i-1] = (DP)BDY(t); |
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} |
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void setfield_gb(NODE gb,VL vl,struct order_spec *spec) |
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{ |
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NumberField nf; |
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VL vl1,vl2; |
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int n,i,dim; |
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Alg *gen; |
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P *defpoly; |
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P p; |
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Q c,iq,two; |
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DP *ps,*mb; |
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DP one; |
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NODE t,b,b1,b2,hlist,mblist; |
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struct order_spec *current_spec; |
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nf = (NumberField)MALLOC(sizeof(struct oNumberField)); |
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current_numberfield = nf; |
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for ( vl1 = vl, n = 0; vl1; vl1 = NEXT(vl1), n++ ); |
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nf->n = n; |
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nf->psn = length(gb); |
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nf->vl = vl; |
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nf->defpoly = defpoly = (P *)MALLOC(nf->psn*sizeof(P)); |
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nf->ps = ps = (DP *)MALLOC(nf->psn*sizeof(DP)); |
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current_spec = dp_current_spec; |
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nf->spec = spec; |
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initd(nf->spec); |
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for ( b = hlist = 0, i = 0, t = gb; i < nf->psn; t = NEXT(t), i++ ) { |
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ptozp((P)BDY(t),1,&c,&defpoly[i]); |
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ptod(CO,vl,defpoly[i],&ps[i]); |
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STOQ(i,iq); MKNODE(b1,(pointer)iq,b); b = b1; |
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MKNODE(b2,(pointer)ps[i],hlist); hlist = b2; |
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} |
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ptod(ALG,vl,(P)ONE,&one); |
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MKDAlg(one,ONE,nf->one); |
nf->ind = b; |
nf->ind = b; |
dp_base(hlist,&mblist); |
dp_mbase(hlist,&mblist); |
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initd(current_spec); |
nf->dim = dim = length(mblist); |
nf->dim = dim = length(mblist); |
nf->mb = mb = (DP *)MALLOC(dim*sizeof(DP)); |
nf->mb = mb = (DP *)MALLOC(dim*sizeof(DP)); |
for ( i = 0, t = mblist; t; t = NEXT(t), i++ ) |
for ( i = 0, t = mblist; t; t = NEXT(t), i++ ) |
mb[i] = (DP)BDY(mblist); |
mb[dim-i-1] = (DP)BDY(t); |
} |
} |
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void qtodalg(Q q,DAlg *r) |
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{ |
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NumberField nf; |
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Q t; |
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DP nm; |
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if ( !(nf=current_numberfield) ) |
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error("qtodalg : current_numberfield is not set"); |
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if ( !q ) |
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*r = 0; |
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else if ( NID(q) == N_DA ) |
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*r = (DAlg)q; |
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else if ( NID(q) == N_Q ) { |
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if ( INT(q) ) { |
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muldc(CO,nf->one->nm,(P)q,&nm); |
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MKDAlg(nm,ONE,*r); |
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} else { |
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NTOQ(NM(q),SGN(q),t); |
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muldc(CO,nf->one->nm,(P)t,&nm); |
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NTOQ(DN(q),1,t); |
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MKDAlg(nm,t,*r); |
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} |
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} else |
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error("qtodalg : invalid argument"); |
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} |
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void obj_algtodalg(Obj obj,Obj *r) |
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{ |
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DAlg d; |
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DCP dc,dcr0,dcr; |
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P c,p; |
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Obj t; |
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Obj nm,dn; |
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NODE b,s,s0; |
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R rat; |
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VECT v; |
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MAT mat; |
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LIST list; |
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pointer *a; |
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pointer **m; |
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int len,row,col,i,j,l; |
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if ( !obj ) { |
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*r = 0; |
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return; |
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} |
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switch ( OID(obj) ) { |
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case O_N: |
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algtodalg((Alg)obj,&d); *r = (Obj)d; |
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break; |
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case O_P: |
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for ( dcr0 = 0, dc = DC((P)obj); dc; dc = NEXT(dc) ) { |
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obj_algtodalg((Obj)COEF(dc),&t); |
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if ( t ) { |
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NEXTDC(dcr0,dcr); |
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COEF(dcr) = (P)t; |
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DEG(dcr) = DEG(dc); |
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} |
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} |
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if ( dcr0 ) { |
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MKP(VR((P)obj),dcr0,p); |
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*r = (Obj)p; |
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} else |
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*r = 0; |
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break; |
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case O_R: |
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obj_algtodalg((Obj)NM((R)obj),&nm); |
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obj_algtodalg((Obj)DN((R)obj),&dn); |
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if ( !dn ) |
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error("obj_algtodalg : division by 0"); |
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if ( !nm ) |
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*r = 0; |
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else { |
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MKRAT((P)nm,(P)dn,0,rat); *r = (Obj)rat; |
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} |
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break; |
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case O_LIST: |
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s0 = 0; |
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for ( b = BDY((LIST)obj); b; b = NEXT(b) ) { |
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NEXTNODE(s0,s); |
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obj_algtodalg((Obj)BDY(b),&t); |
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BDY(s) = (pointer)t; |
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} |
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NEXT(s) = 0; |
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MKLIST(list,s0); |
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*r = (Obj)list; |
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break; |
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case O_VECT: |
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l = ((VECT)obj)->len; |
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a = BDY((VECT)obj); |
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MKVECT(v,l); |
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for ( i = 0; i < l; i++ ) { |
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obj_algtodalg((Obj)a[i],&t); |
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BDY(v)[i] = (pointer)t; |
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} |
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*r = (Obj)v; |
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break; |
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case O_MAT: |
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row = ((MAT)obj)->row; col = ((MAT)obj)->col; |
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m = BDY((MAT)obj); |
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MKMAT(mat,row,col); |
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for ( i = 0; i < row; i++ ) |
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for ( j = 0; j < col; j++ ) { |
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obj_algtodalg((Obj)m[i][j],&t); |
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BDY(mat)[i][j] = (pointer)t; |
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} |
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*r = (Obj)mat; |
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break; |
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default: |
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*r = obj; |
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break; |
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} |
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} |
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void obj_dalgtoalg(Obj obj,Obj *r) |
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{ |
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Alg d; |
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DCP dc,dcr0,dcr; |
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P c,p; |
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Obj t; |
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Obj nm,dn; |
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NODE b,s,s0; |
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R rat; |
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VECT v; |
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MAT mat; |
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LIST list; |
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pointer *a; |
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pointer **m; |
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int len,row,col,i,j,l; |
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if ( !obj ) { |
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*r = 0; |
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return; |
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} |
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switch ( OID(obj) ) { |
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case O_N: |
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dalgtoalg((DAlg)obj,&d); *r = (Obj)d; |
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break; |
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case O_P: |
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for ( dcr0 = 0, dc = DC((P)obj); dc; dc = NEXT(dc) ) { |
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obj_dalgtoalg((Obj)COEF(dc),&t); |
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if ( t ) { |
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NEXTDC(dcr0,dcr); |
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COEF(dcr) = (P)t; |
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DEG(dcr) = DEG(dc); |
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} |
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} |
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if ( dcr0 ) { |
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MKP(VR((P)obj),dcr0,p); |
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*r = (Obj)p; |
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} else |
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*r = 0; |
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break; |
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case O_R: |
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obj_dalgtoalg((Obj)NM((R)obj),&nm); |
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obj_dalgtoalg((Obj)DN((R)obj),&dn); |
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if ( !dn ) |
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error("obj_dalgtoalg : division by 0"); |
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if ( !nm ) |
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*r = 0; |
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else { |
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MKRAT((P)nm,(P)dn,0,rat); *r = (Obj)rat; |
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} |
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break; |
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case O_LIST: |
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s0 = 0; |
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for ( b = BDY((LIST)obj); b; b = NEXT(b) ) { |
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NEXTNODE(s0,s); |
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obj_dalgtoalg((Obj)BDY(b),&t); |
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BDY(s) = (pointer)t; |
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} |
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NEXT(s) = 0; |
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MKLIST(list,s0); |
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*r = (Obj)list; |
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break; |
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case O_VECT: |
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l = ((VECT)obj)->len; |
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a = BDY((VECT)obj); |
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MKVECT(v,l); |
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for ( i = 0; i < l; i++ ) { |
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obj_dalgtoalg((Obj)a[i],&t); |
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BDY(v)[i] = (pointer)t; |
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} |
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*r = (Obj)v; |
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break; |
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case O_MAT: |
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row = ((MAT)obj)->row; col = ((MAT)obj)->col; |
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m = BDY((MAT)obj); |
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MKMAT(mat,row,col); |
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for ( i = 0; i < row; i++ ) |
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for ( j = 0; j < col; j++ ) { |
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obj_dalgtoalg((Obj)m[i][j],&t); |
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BDY(mat)[i][j] = (pointer)t; |
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} |
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*r = (Obj)mat; |
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break; |
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default: |
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*r = obj; |
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break; |
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} |
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} |
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void algtodalg(Alg a,DAlg *r) |
void algtodalg(Alg a,DAlg *r) |
{ |
{ |
P ap,p,p1; |
P ap,p,p1; |
Q c,dn,nm; |
Q c,c1,d1,dn,nm; |
DP dp; |
DP dp; |
DAlg da; |
DAlg da; |
NumberField nf; |
NumberField nf; |
struct order_spec *current_spec; |
struct order_spec *current_spec; |
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VL vl,tvl,svl; |
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V v; |
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if ( !(nf=current_numberfield) ) |
if ( !(nf=current_numberfield) ) |
error("algtodalg : current_numberfield is not set"); |
error("algtodalg : current_numberfield is not set"); |
ap = (P)BDY(a); |
if ( !a ) { |
ptozp(ap,1,&c,&p); |
*r = 0; |
if ( INT(c) ) { |
return; |
p = ap; |
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dn = ONE; |
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} else { |
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NTOQ(NM(c),SGN(c),nm); |
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NTOQ(DN(c),1,dn); |
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mulpq(p,(P)nm,&p1); p = p1; |
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} |
} |
current_spec = dp_current_spec; |
switch (NID((Num)a) ) { |
initd(nf->spec); |
case N_Q: |
ptod(ALG,nf->vl,p,&dp); |
c = (Q)a; |
MKDAlg(dp,dn,da); |
if ( INT(c) ) { |
simpdalg(da,r); |
muldc(CO,nf->one->nm,(P)c,&dp); |
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MKDAlg(dp,ONE,*r); |
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} else { |
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NTOQ(NM(c),SGN(c),c1); |
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NTOQ(DN(c),1,d1); |
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muldc(CO,nf->one->nm,(P)c1,&dp); |
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MKDAlg(dp,d1,*r); |
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} |
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break; |
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case N_A: |
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ap = (P)BDY(a); |
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ptozp(ap,1,&c,&p); |
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if ( INT(c) ) { |
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p = ap; |
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dn = ONE; |
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} else { |
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NTOQ(NM(c),SGN(c),nm); |
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NTOQ(DN(c),1,dn); |
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mulpq(p,(P)nm,&p1); p = p1; |
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} |
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current_spec = dp_current_spec; initd(nf->spec); |
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get_vars(p,&vl); |
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for ( tvl = vl; tvl; tvl = NEXT(tvl) ) { |
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v = tvl->v; |
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for ( svl = nf->vl; svl; svl = NEXT(svl) ) |
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if ( v == svl->v ) |
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break; |
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if ( !svl ) |
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error("algtodalg : incompatible numberfield"); |
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} |
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ptod(ALG,nf->vl,p,&dp); |
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MKDAlg(dp,dn,da); |
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simpdalg(da,r); |
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break; |
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default: |
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error("algtodalg : invalid argument"); |
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break; |
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} |
} |
} |
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void dalgtoalg(DAlg da,Alg *r) |
void dalgtoalg(DAlg da,Alg *r) |
Line 111 void dalgtoalg(DAlg da,Alg *r) |
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Line 377 void dalgtoalg(DAlg da,Alg *r) |
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Q inv; |
Q inv; |
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if ( !(nf=current_numberfield) ) |
if ( !(nf=current_numberfield) ) |
error("algtodalg : current_numberfield is not set"); |
error("dalgtoalg : current_numberfield is not set"); |
dtop(ALG,nf->vl,da->nm,&p); |
dtop(ALG,nf->vl,da->nm,&p); |
invq(da->dn,&inv); |
invq(da->dn,&inv); |
mulpq(p,(P)inv,&p1); |
mulpq(p,(P)inv,&p1); |
Line 122 void simpdalg(DAlg da,DAlg *r) |
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Line 388 void simpdalg(DAlg da,DAlg *r) |
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{ |
{ |
NumberField nf; |
NumberField nf; |
DP nm; |
DP nm; |
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DAlg d; |
Q dn,dn1; |
Q dn,dn1; |
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struct order_spec *current_spec; |
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if ( !(nf=current_numberfield) ) |
if ( !(nf=current_numberfield) ) |
error("algtodalg : current_numberfield is not set"); |
error("simpdalg : current_numberfield is not set"); |
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if ( !da ) { |
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*r = 0; |
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return; |
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} |
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current_spec = dp_current_spec; initd(nf->spec); |
dp_true_nf(nf->ind,da->nm,nf->ps,1,&nm,&dn); |
dp_true_nf(nf->ind,da->nm,nf->ps,1,&nm,&dn); |
mulq(da->dn,dn,&dn1); |
if ( !nm ) *r = 0; |
MKDAlg(nm,dn1,*r); |
else { |
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initd(current_spec); |
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mulq(da->dn,dn,&dn1); |
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MKDAlg(nm,dn1,d); |
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rmcontdalg(d,r); |
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} |
} |
} |
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void adddalg(DAlg a,DAlg b,DAlg *c) |
void adddalg(DAlg a,DAlg b,DAlg *c) |
{ |
{ |
if ( !current_numberfield ) |
NumberField nf; |
error("algtodalg : current_numberfield is not set"); |
Q dna,dnb,a1,b1,dn,g; |
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N an,bn,gn; |
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DAlg t; |
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DP ta,tb,nm; |
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struct order_spec *current_spec; |
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if ( !(nf=current_numberfield) ) |
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error("adddalg : current_numberfield is not set"); |
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if ( !a ) |
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*c = b; |
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else if ( !b ) |
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*c = a; |
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else { |
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qtodalg((Q)a,&t); a = t; qtodalg((Q)b,&t); b = t; |
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dna = a->dn; |
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dnb = b->dn; |
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gcdn(NM(dna),NM(dnb),&gn); |
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divsn(NM(dna),gn,&an); divsn(NM(dnb),gn,&bn); |
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NTOQ(an,SGN(dna),a1); NTOQ(bn,SGN(dnb),b1); |
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/* nma/dna+nmb/dnb = (nma*b1+nmb*a1)/(dna*b1) */ |
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muldc(CO,a->nm,(P)b1,&ta); muldc(CO,b->nm,(P)a1,&tb); |
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current_spec = dp_current_spec; initd(nf->spec); |
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addd(CO,ta,tb,&nm); |
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initd(current_spec); |
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if ( !nm ) |
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*c = 0; |
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else { |
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mulq(dna,b1,&dn); |
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MKDAlg(nm,dn,*c); |
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} |
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} |
} |
} |
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void subdalg(DAlg a,DAlg b,DAlg *c) |
void subdalg(DAlg a,DAlg b,DAlg *c) |
{ |
{ |
if ( !current_numberfield ) |
NumberField nf; |
error("algtodalg : current_numberfield is not set"); |
Q dna,dnb,a1,b1,dn,g; |
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N an,bn,gn; |
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DP ta,tb,nm; |
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DAlg t; |
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struct order_spec *current_spec; |
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if ( !(nf=current_numberfield) ) |
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error("subdalg : current_numberfield is not set"); |
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if ( !a ) |
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*c = b; |
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else if ( !b ) |
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*c = a; |
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else { |
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qtodalg((Q)a,&t); a = t; qtodalg((Q)b,&t); b = t; |
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dna = a->dn; |
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dnb = b->dn; |
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gcdn(NM(dna),NM(dnb),&gn); |
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divsn(NM(dna),gn,&an); divsn(NM(dnb),gn,&bn); |
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NTOQ(an,SGN(dna),a1); NTOQ(bn,SGN(dnb),b1); |
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/* nma/dna-nmb/dnb = (nma*b1-nmb*a1)/(dna*b1) */ |
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muldc(CO,a->nm,(P)b1,&ta); muldc(CO,b->nm,(P)a1,&tb); |
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current_spec = dp_current_spec; initd(nf->spec); |
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subd(CO,ta,tb,&nm); |
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initd(current_spec); |
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if ( !nm ) |
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*c = 0; |
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else { |
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mulq(dna,b1,&dn); |
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MKDAlg(nm,dn,*c); |
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} |
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} |
} |
} |
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void muldalg(DAlg a,DAlg b,DAlg *c) |
void muldalg(DAlg a,DAlg b,DAlg *c) |
{ |
{ |
if ( !current_numberfield ) |
NumberField nf; |
error("algtodalg : current_numberfield is not set"); |
DP nm; |
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Q dn; |
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DAlg t; |
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struct order_spec *current_spec; |
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|
|
if ( !(nf=current_numberfield) ) |
|
error("muldalg : current_numberfield is not set"); |
|
if ( !a || !b ) |
|
*c = 0; |
|
else { |
|
qtodalg((Q)a,&t); a = t; qtodalg((Q)b,&t); b = t; |
|
current_spec = dp_current_spec; initd(nf->spec); |
|
muld(CO,a->nm,b->nm,&nm); |
|
initd(current_spec); |
|
mulq(a->dn,b->dn,&dn); |
|
MKDAlg(nm,dn,t); |
|
simpdalg(t,c); |
|
} |
} |
} |
|
|
|
|
void divdalg(DAlg a,DAlg b,DAlg *c) |
void divdalg(DAlg a,DAlg b,DAlg *c) |
{ |
{ |
|
DAlg inv,t; |
|
int ret; |
|
|
if ( !current_numberfield ) |
if ( !current_numberfield ) |
error("algtodalg : current_numberfield is not set"); |
error("divdalg : current_numberfield is not set"); |
|
if ( !b ) |
|
error("divdalg : division by 0"); |
|
if ( !a ) |
|
c = 0; |
|
else { |
|
qtodalg((Q)a,&t); a = t; qtodalg((Q)b,&t); b = t; |
|
ret = invdalg(b,&inv); |
|
if ( !ret ) { |
|
error("divdalg : the denominator is not invertible"); |
|
} |
|
muldalg(a,inv,c); |
|
} |
} |
} |
|
|
void invdalg(DAlg a,DAlg *c) |
void rmcontdalg(DAlg a, DAlg *r) |
{ |
{ |
if ( !current_numberfield ) |
DP u,u1; |
error("algtodalg : current_numberfield is not set"); |
Q cont,c,d; |
|
N gn,cn,dn; |
|
|
|
if ( !a ) |
|
*r = a; |
|
else { |
|
dp_ptozp(a->nm,&u); |
|
divq((Q)BDY(a->nm)->c,(Q)BDY(u)->c,&cont); |
|
gcdn(NM(cont),NM(a->dn),&gn); |
|
divsn(NM(cont),gn,&cn); NTOQ(cn,SGN(cont),c); |
|
divsn(NM(a->dn),gn,&dn); NTOQ(dn,SGN(a->dn),d); |
|
muldc(CO,u,(P)c,&u1); |
|
MKDAlg(u1,d,*r); |
|
} |
} |
} |
|
|
|
int invdalg(DAlg a,DAlg *c) |
|
{ |
|
NumberField nf; |
|
int dim,n,i,j,k,l; |
|
DP *mb; |
|
DP m,d,u; |
|
N ln,gn,qn; |
|
DAlg *simp; |
|
DAlg t,a0,r; |
|
Q dn,dnsol,mul,nmc,dn1; |
|
MAT mobj,sol; |
|
Q **mat,**solmat; |
|
MP mp0,mp; |
|
int *rinfo,*cinfo; |
|
int rank,nparam; |
|
NODE nd0,nd,ndt; |
|
struct order_spec *current_spec; |
|
struct oEGT eg0,eg1; |
|
extern struct oEGT eg_le; |
|
|
|
if ( !(nf=current_numberfield) ) |
|
error("invdalg : current_numberfield is not set"); |
|
if ( !a ) |
|
error("invdalg : division by 0"); |
|
else if ( NID(a) == N_Q ) { |
|
invq((Q)a,&dn); *c = (DAlg)dn; |
|
return; |
|
} |
|
dim = nf->dim; |
|
mb = nf->mb; |
|
n = nf->n; |
|
ln = ONEN; |
|
dp_ptozp(a->nm,&u); divq((Q)BDY(a->nm)->c,(Q)BDY(u)->c,&nmc); |
|
MKDAlg(u,ONE,a0); |
|
simp = (DAlg *)ALLOCA(dim*sizeof(DAlg)); |
|
current_spec = dp_current_spec; initd(nf->spec); |
|
for ( i = 0; i < dim; i++ ) { |
|
m = mb[i]; |
|
for ( j = i-1; j >= 0; j-- ) |
|
if ( dp_redble(m,mb[j]) ) |
|
break; |
|
if ( j >= 0 ) { |
|
dp_subd(m,mb[j],&d); |
|
muld(CO,d,simp[j]->nm,&u); |
|
MKDAlg(u,simp[j]->dn,t); |
|
simpdalg(t,&simp[i]); |
|
} else { |
|
MKDAlg(m,ONE,t); |
|
muldalg(t,a0,&simp[i]); |
|
} |
|
gcdn(NM(simp[i]->dn),ln,&gn); divsn(ln,gn,&qn); |
|
muln(NM(simp[i]->dn),qn,&ln); |
|
} |
|
initd(current_spec); |
|
NTOQ(ln,1,dn); |
|
MKMAT(mobj,dim,dim+1); |
|
mat = (Q **)BDY(mobj); |
|
mulq(dn,a->dn,&mat[0][dim]); |
|
for ( j = 0; j < dim; j++ ) { |
|
divq(dn,simp[j]->dn,&mul); |
|
for ( i = dim-1, mp = BDY(simp[j]->nm); mp && i >= 0; i-- ) |
|
if ( dl_equal(n,BDY(mb[i])->dl,mp->dl) ) { |
|
mulq(mul,(Q)mp->c,&mat[i][j]); |
|
mp = NEXT(mp); |
|
} |
|
} |
|
get_eg(&eg0); |
|
rank = generic_gauss_elim_hensel(mobj,&sol,&dnsol,&rinfo,&cinfo); |
|
get_eg(&eg1); add_eg(&eg_le,&eg0,&eg1); |
|
if ( cinfo[0] == dim ) { |
|
/* the input is invertible */ |
|
solmat = (Q **)BDY(sol); |
|
for ( i = dim-1, mp0 = 0; i >= 0; i-- ) |
|
if ( solmat[i][0] ) { |
|
NEXTMP(mp0,mp); |
|
mp->c = (P)solmat[i][0]; |
|
mp->dl = BDY(mb[i])->dl; |
|
} |
|
NEXT(mp) = 0; MKDP(n,mp0,u); |
|
mulq(dnsol,nmc,&dn1); |
|
MKDAlg(u,dn1,r); |
|
rmcontdalg(r,c); |
|
return 1; |
|
} else |
|
return 0; |
|
} |
|
|
|
NODE inv_or_split_dalg(DAlg a,DAlg *c) |
|
{ |
|
NumberField nf; |
|
int dim,n,i,j,k,l; |
|
DP *mb; |
|
DP m,d,u; |
|
N ln,gn,qn; |
|
DAlg *simp; |
|
DAlg t,a0,r; |
|
Q dn,dnsol,mul,nmc,dn1; |
|
MAT mobj,sol; |
|
Q **mat,**solmat; |
|
MP mp0,mp; |
|
int *rinfo,*cinfo; |
|
int rank,nparam; |
|
NODE nd0,nd,ndt; |
|
struct order_spec *current_spec; |
|
struct oEGT eg0,eg1; |
|
extern struct oEGT eg_le; |
|
extern int DP_Print; |
|
|
|
if ( !(nf=current_numberfield) ) |
|
error("invdalg : current_numberfield is not set"); |
|
if ( !a ) |
|
error("invdalg : division by 0"); |
|
else if ( NID(a) == N_Q ) { |
|
invq((Q)a,&dn); *c = (DAlg)dn; |
|
return; |
|
} |
|
dim = nf->dim; |
|
mb = nf->mb; |
|
n = nf->n; |
|
ln = ONEN; |
|
dp_ptozp(a->nm,&u); divq((Q)BDY(a->nm)->c,(Q)BDY(u)->c,&nmc); |
|
MKDAlg(u,ONE,a0); |
|
simp = (DAlg *)ALLOCA(dim*sizeof(DAlg)); |
|
current_spec = dp_current_spec; initd(nf->spec); |
|
for ( i = 0; i < dim; i++ ) { |
|
if ( DP_Print ) { fprintf(asir_out,"."); fflush(asir_out); } |
|
m = mb[i]; |
|
for ( j = i-1; j >= 0; j-- ) |
|
if ( dp_redble(m,mb[j]) ) |
|
break; |
|
if ( j >= 0 ) { |
|
dp_subd(m,mb[j],&d); |
|
if ( simp[j] ) { |
|
muld(CO,d,simp[j]->nm,&u); |
|
MKDAlg(u,simp[j]->dn,t); |
|
simpdalg(t,&simp[i]); |
|
} else |
|
simp[i] = 0; |
|
} else { |
|
MKDAlg(m,ONE,t); |
|
muldalg(t,a0,&simp[i]); |
|
} |
|
if ( simp[i] ) { |
|
gcdn(NM(simp[i]->dn),ln,&gn); divsn(ln,gn,&qn); |
|
muln(NM(simp[i]->dn),qn,&ln); |
|
} |
|
} |
|
initd(current_spec); |
|
NTOQ(ln,1,dn); |
|
MKMAT(mobj,dim,dim+1); |
|
mat = (Q **)BDY(mobj); |
|
mulq(dn,a->dn,&mat[0][dim]); |
|
for ( j = 0; j < dim; j++ ) { |
|
if ( simp[j] ) { |
|
divq(dn,simp[j]->dn,&mul); |
|
for ( i = dim-1, mp = BDY(simp[j]->nm); mp && i >= 0; i-- ) |
|
if ( dl_equal(n,BDY(mb[i])->dl,mp->dl) ) { |
|
mulq(mul,(Q)mp->c,&mat[i][j]); |
|
mp = NEXT(mp); |
|
} |
|
} |
|
} |
|
get_eg(&eg0); |
|
rank = generic_gauss_elim_hensel_dalg(mobj,&sol,&dnsol,&rinfo,&cinfo); |
|
get_eg(&eg1); add_eg(&eg_le,&eg0,&eg1); |
|
if ( cinfo[0] == dim ) { |
|
/* the input is invertible */ |
|
solmat = (Q **)BDY(sol); |
|
for ( i = dim-1, mp0 = 0; i >= 0; i-- ) |
|
if ( solmat[i][0] ) { |
|
NEXTMP(mp0,mp); |
|
mp->c = (P)solmat[i][0]; |
|
mp->dl = BDY(mb[i])->dl; |
|
} |
|
NEXT(mp) = 0; MKDP(n,mp0,u); |
|
mulq(dnsol,nmc,&dn1); |
|
MKDAlg(u,dn1,r); |
|
rmcontdalg(r,c); |
|
return 0; |
|
} else { |
|
/* the input is not invertible */ |
|
nparam = sol->col; |
|
solmat = (Q **)BDY(sol); |
|
nd0 = 0; |
|
for ( k = 0; k < nparam; k++ ) { |
|
/* construct a new basis element */ |
|
m = mb[cinfo[k]]; |
|
mp0 = 0; |
|
NEXTMP(mp0,mp); |
|
chsgnq(dnsol,&dn1); mp->c = (P)dn1; |
|
mp->dl = BDY(m)->dl; |
|
/* skip the last parameter */ |
|
for ( l = rank-2; l >= 0; l-- ) { |
|
if ( solmat[l][k] ) { |
|
NEXTMP(mp0,mp); |
|
mp->c = (P)solmat[l][k]; |
|
mp->dl = BDY(mb[rinfo[l]])->dl; |
|
} |
|
} |
|
NEXT(mp) = 0; MKDP(n,mp0,u); |
|
NEXTNODE(nd0,nd); |
|
BDY(nd) = (pointer)u; |
|
NEXT(nd) = 0; |
|
} |
|
NEXT(nd) = 0; |
|
return nd0; |
|
} |
|
} |
|
|
void chsgndalg(DAlg a,DAlg *c) |
void chsgndalg(DAlg a,DAlg *c) |
{ |
{ |
|
DP nm; |
|
Q t; |
|
|
|
if ( !a ) *c = 0; |
|
else if ( NID(a) == N_Q ) { |
|
chsgnq((Q)a,&t); *c = (DAlg)t; |
|
} else { |
|
chsgnd(a->nm,&nm); |
|
MKDAlg(nm,a->dn,*c); |
|
} |
} |
} |
|
|
void pwrdalg(DAlg a,Q b,DAlg *c) |
void pwrdalg(DAlg a,Q e,DAlg *c) |
{ |
{ |
if ( !current_numberfield ) |
NumberField nf; |
error("algtodalg : current_numberfield is not set"); |
DAlg t,z,y; |
|
Q q; |
|
N en,qn; |
|
int r; |
|
int ret; |
|
|
|
if ( !(nf=current_numberfield) ) |
|
error("pwrdalg : current_numberfield is not set"); |
|
if ( !a ) |
|
*c = !e ? (DAlg)ONE : 0; |
|
else if ( NID(a) == N_Q ) { |
|
pwrq((Q)a,e,&q); *c = (DAlg)q; |
|
} else if ( !e ) |
|
*c = nf->one; |
|
else if ( UNIQ(e) ) |
|
*c = a; |
|
else { |
|
if ( SGN(e) < 0 ) { |
|
ret = invdalg(a,&t); |
|
if ( !ret ) |
|
error("pwrdalg : the denominator is not invertible"); |
|
a = t; |
|
} |
|
en = NM(e); |
|
y = nf->one; |
|
z = a; |
|
while ( 1 ) { |
|
r = divin(en,2,&qn); en = qn; |
|
if ( r ) { |
|
muldalg(z,y,&t); y = t; |
|
if ( !en ) { |
|
*c = y; |
|
return; |
|
} |
|
} |
|
muldalg(z,z,&t); z = t; |
|
} |
|
} |
} |
} |
|
|
int cmpgdalg(DAlg a,DAlg b) |
int cmpdalg(DAlg a,DAlg b) |
{ |
{ |
|
DAlg c; |
|
|
|
subdalg(a,b,&c); |
|
if ( !c ) return 0; |
|
else |
|
return SGN((Q)BDY(c->nm)->c); |
} |
} |
|
|
|
/* convert da to a univariate poly; return the position of variable */ |
|
|
|
int dalgtoup(DAlg da,P *up,Q *dn) |
|
{ |
|
int nv,i,hi,current_d; |
|
DCP dc0,dc; |
|
MP h,mp0,mp,t; |
|
DL hd,d; |
|
DP c; |
|
DAlg cc; |
|
P v; |
|
|
|
nv = da->nm->nv; |
|
h = BDY(da->nm); |
|
*dn = da->dn; |
|
hd = h->dl; |
|
for ( i = 0; i < nv; i++ ) |
|
if ( hd->d[i] ) break; |
|
hi = i; |
|
current_d = hd->d[i]; |
|
dc0 = 0; |
|
mp0 = 0; |
|
for ( t = h; t; t = NEXT(t) ) { |
|
NEWDL(d,nv); |
|
for ( i = 0; i <= hi; i++ ) d->d[i] = 0; |
|
for ( ; i < nv; i++ ) d->d[i] = t->dl->d[i]; |
|
d->td = t->dl->td - t->dl->d[hi]; |
|
if ( t->dl->d[hi] != current_d ) { |
|
NEXT(mp) = 0; MKDP(nv,mp0,c); MKDAlg(c,ONE,cc); |
|
NEXTDC(dc0,dc); STOQ(current_d,DEG(dc)); COEF(dc) = (P)cc; |
|
current_d = t->dl->d[hi]; |
|
mp0 = 0; |
|
} |
|
NEXTMP(mp0,mp); |
|
mp->c = t->c; mp->dl = d; |
|
} |
|
NEXT(mp) = 0; MKDP(nv,mp0,c); MKDAlg(c,ONE,cc); |
|
NEXTDC(dc0,dc); STOQ(current_d,DEG(dc)); COEF(dc) = (P)cc; |
|
NEXT(dc) = 0; |
|
makevar("x",&v); |
|
MKP(VR(v),dc0,*up); |
|
return hi; |
|
} |
|
|