OpenXM_contrib2/asir2018/engine/nd.c - diff

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Diff for /OpenXM_contrib2/asir2018/engine/nd.c between version 1.43 and 1.46

version 1.43, 2020/12/05 03:27:20

version 1.46, 2021/01/25 00:39:52

Line 1

/* $OpenXM: OpenXM_contrib2/asir2018/engine/nd.c,v 1.42 2020/12/03 07:58:54 noro Exp $ */

/* $OpenXM: OpenXM_contrib2/asir2018/engine/nd.c,v 1.45 2021/01/11 08:37:44 noro Exp $ */

#include "nd.h"

void print_siglist(NODE l);

int Nnd_add,Nf4_red,NcriB,NcriMF,Ncri2,Npairs;

struct oEGT eg_search,f4_symb,f4_conv,f4_elim1,f4_elim2;

Line 67 static NODE nd_tracelist;

Line 69 static NODE nd_tracelist;

static NODE nd_alltracelist;

static int nd_gentrace,nd_gensyz,nd_nora,nd_newelim,nd_intersect,nd_lf,nd_norb;

static int nd_f4_td,nd_sba_f4step,nd_sba_pot,nd_sba_largelcm,nd_sba_dontsort,nd_sba_redundant_check;

static int nd_top;

static int nd_top,nd_sba_syz,nd_sba_inputisgb;

static int *nd_gbblock;

static NODE nd_nzlist,nd_check_splist;

static int nd_splist;

Line 76 static int nd_f4red,nd_rank0,nd_last_nonzero;

Line 78 static int nd_f4red,nd_rank0,nd_last_nonzero;

static DL *nd_sba_hm;

static NODE *nd_sba_pos;

struct comp_sig_spec {

int n;

// current_i <-> oldv[i]

int *oldv;

int *weight;

struct order_pair *order_pair;

int block_length;

int **matrix;

int row;

int (*cmpdl)(int n,DL d1,DL d2);

};

struct comp_sig_spec *nd_sba_modord;

NumberField get_numberfield();

UINT *nd_det_compute_bound(NDV **dm,int n,int j);

void nd_det_reconstruct(NDV **dm,int n,int j,NDV d);

Line 93 P ndc_div(int mod,union oNDC a,union oNDC b);

Line 109 P ndc_div(int mod,union oNDC a,union oNDC b);

P ndctop(int mod,union oNDC c);

void finalize_tracelist(int i,P cont);

void conv_ilist(int demand,int trace,NODE g,int **indp);

void parse_nd_option(NODE opt);

void parse_nd_option(VL vl,NODE opt);

void dltondl(int n,DL dl,UINT *r);

DP ndvtodp(int mod,NDV p);

DP ndtodp(int mod,ND p);

Line 104 int dp_getdeg(DP p);

Line 120 int dp_getdeg(DP p);

int dpm_getdeg(DPM p,int *rank);

void dpm_ptozp(DPM p,Z *cont,DPM *r);

int compdmm(int nv,DMM a,DMM b);

DPM sigtodpm(SIG s);

SIG dup_sig(SIG sig);

void Pdp_set_weight(NODE,VECT *);

void Pox_cmo_rpc(NODE,Obj *);

Line 796 int _eqdl(int n,DL d1,DL d2);

Line 814 int _eqdl(int n,DL d1,DL d2);

int ndl_module_schreyer_compare(UINT *m1,UINT *m2)

{

int pos1,pos2,t,j;

int pos1,pos2,t,j,retpot;

DMM *in;

DMMstack s;

static DL d1=0;

static DL d2=0;

static int dlen=0;

extern int ReversePOT;

if ( ReversePOT ) retpot = -1;

else retpot = 1;

pos1 = MPOS(m1); pos2 = MPOS(m2);

if ( pos1 == pos2 ) return (*ndl_base_compare_function)(m1,m2);

if ( nd_nvar > dlen ) {

Line 819 int ndl_module_schreyer_compare(UINT *m1,UINT *m2)

Line 840 int ndl_module_schreyer_compare(UINT *m1,UINT *m2)

_addtodl(nd_nvar,in[pos1]->dl,d1);

_addtodl(nd_nvar,in[pos2]->dl,d2);

if ( in[pos1]->pos == in[pos2]->pos && _eqdl(nd_nvar,d1,d2)) {

if ( pos1 < pos2 ) return 1;

if ( pos1 < pos2 ) return retpot;

else if ( pos1 > pos2 ) return -1;

else if ( pos1 > pos2 ) return -retpot;

else return 0;

}

pos1 = in[pos1]->pos;

Line 833 LAST:

Line 854 LAST:

case 0:

t = (*dl_base_compare_function)(nd_nvar,d1,d2);

if ( t ) return t;

else if ( pos1 < pos2 ) return 1;

else if ( pos1 < pos2 ) return retpot;

else if ( pos1 > pos2 ) return -1;

else if ( pos1 > pos2 ) return -retpot;

else return 0;

break;

case 1:

if ( pos1 < pos2 ) return 1;

if ( pos1 < pos2 ) return retpot;

else if ( pos1 > pos2 ) return -1;

else if ( pos1 > pos2 ) return -retpot;

else return (*dl_base_compare_function)(nd_nvar,d1,d2);

break;

case 2:

if ( d1->td > d2->td ) return 1;

else if ( d1->td < d2->td ) return -1;

else if ( pos1 < pos2 ) return 1;

else if ( pos1 < pos2 ) return retpot;

else if ( pos1 > pos2 ) return -1;

else if ( pos1 > pos2 ) return -retpot;

else return (*dl_base_compare_function)(nd_nvar,d1,d2);

break;

default:

Line 1240 void print_sig(SIG s)

Line 1261 void print_sig(SIG s)

fprintf(asir_out,">>*e%d",s->pos);

}

void print_siglist(NODE l)

{

for ( ; l; l = NEXT(l) )

print_sig((SIG)l->body);

}

// assuming increasing order wrt signature

INLINE int ndl_find_reducer_s(UINT *dg,SIG sig)

Line 2591 NODE insert_sig(NODE l,SIG s)

Line 2619 NODE insert_sig(NODE l,SIG s)

else if ( _dl_redble(sig,DL(t),nd_nvar) )

// remove p

prev->next = p->next;

else

prev = p;

} else

prev = p;

}

Line 2631 int small_lcm(ND_pairs l)

Line 2661 int small_lcm(ND_pairs l)

int i;

NODE t;

static DL lcm,mul,quo;

static int nvar;

static int nvar = 0;

if ( nd_sba_largelcm ) return 0;

if ( nvar < nd_nvar ) {

Line 2674 ND_pairs find_smallest_lcm(ND_pairs l)

Line 2704 ND_pairs find_smallest_lcm(ND_pairs l)

ND_pairs r;

struct oSIG sig1;

static DL mul,quo,minlm;

static int nvar;

static int nvar = 0;

if ( nvar < nd_nvar ) {

nvar = nd_nvar;

Line 2749 struct oEGT eg_create,eg_newpairs,eg_merge;

Line 2779 struct oEGT eg_create,eg_newpairs,eg_merge;

NODE conv_ilist_s(int demand,int trace,int **indp);

NODE nd_sba_buch(int m,int ishomo,int **indp)

// S(fj*ei-fi*ej)

void _subdl(int,DL,DL,DL);

SIG trivial_sig(int i,int j)

{

static DL lcm;

static struct oSIG sigi,sigj;

static int nvar = 0;

SIG sig;

if ( nvar != nd_nvar ) {

nvar = nd_nvar; NEWDL(lcm,nvar); NEWDL(sigi.dl,nvar); NEWDL(sigj.dl,nvar);

}

if ( nd_sba_inputisgb != 0 ) {

lcm_of_DL(nd_nvar,nd_sba_hm[i],nd_sba_hm[j],lcm);

sigi.pos = i; _subdl(nd_nvar,lcm,nd_sba_hm[i],sigi.dl);

sigj.pos = j; _subdl(nd_nvar,lcm,nd_sba_hm[j],sigj.dl);

if ( comp_sig(&sigi,&sigj) > 0 ) sig = dup_sig(&sigi);

else sig = dup_sig(&sigj);

} else {

sigi.pos = i; _copydl(nd_nvar,nd_sba_hm[j],sigi.dl);

sigj.pos = j; _copydl(nd_nvar,nd_sba_hm[i],sigj.dl);

if ( comp_sig(&sigi,&sigj) > 0 ) sig = dup_sig(&sigi);

else sig = dup_sig(&sigj);

}

return sig;

}

NODE nd_sba_buch(int m,int ishomo,int **indp,NODE *syzp)

{

int i,j,nh,sugar,stat,pos;

NODE r,t,g;

ND_pairs d;

Line 2763 NODE nd_sba_buch(int m,int ishomo,int **indp)

Line 2822 NODE nd_sba_buch(int m,int ishomo,int **indp)

LIST list;

SIG sig;

NODE *syzlist;

int ngen;

int Nnominimal,Nredundant;

DL lcm,quo,mul;

struct oEGT eg1,eg2,eg_update,eg_remove,eg_large,eg_nf,eg_nfzero;

Line 2775 init_eg(&eg_remove);

Line 2835 init_eg(&eg_remove);

Nnominimal = 0;

Nredundant = 0;

d = 0;

ngen = nd_psn;

for ( i = 0; i < nd_psn; i++ )

for ( j = i+1; j < nd_psn; j++ ) {

NEWSIG(sig); sig->pos = j;

sig = trivial_sig(i,j);

_copydl(nd_nvar,nd_sba_hm[i],sig->dl);

syzlist[sig->pos] = insert_sig(syzlist[sig->pos],sig);

}

for ( i = 0; i < nd_psn; i++ ) {

Line 2821 again:

Line 2881 again:

}

stat = nd_sp(m,0,l,&h);

#else

// if ( l->sig->dl->td == 0 )

// if ( DP_Print ) print_sig(l->sig);

l1 = find_smallest_lcm(l);

if ( l1 == 0 ) {

if ( DP_Print ) fprintf(asir_out,"M");

Line 2909 get_eg(&eg2); add_eg(&eg_remove,&eg1,&eg2);

Line 2971 get_eg(&eg2); add_eg(&eg_remove,&eg1,&eg2);

print_eg("nfzero",&eg_nfzero);

printf("\n");

}

if ( nd_sba_syz ) {

NODE hsyz,tsyz,prev;

hsyz = 0;

for ( i = 0; i < ngen; i++ ) {

tsyz = syzlist[i];

for ( prev = 0; tsyz != 0; prev = tsyz, tsyz = NEXT(tsyz))

BDY(tsyz) = (pointer)sigtodpm((SIG)BDY(tsyz));

if ( prev != 0 ) {

prev->next = hsyz; hsyz = syzlist[i];

}

*syzp = hsyz;

} else *syzp = 0;

return g;

}

Line 3392 ND_pairs nd_newpairs( NODE g, int t )

Line 3468 ND_pairs nd_newpairs( NODE g, int t )

return r0;

}

int sig_cmpdl_op(int n,DL d1,DL d2)

{

int e1,e2,i,j,l;

int *t1,*t2;

int len,head;

struct order_pair *pair;

len = nd_sba_modord->block_length;

pair = nd_sba_modord->order_pair;

head = 0;

for ( i = 0, t1 = d1->d, t2 = d2->d; i < len; i++ ) {

l = pair[i].length;

switch ( pair[i].order ) {

case 0:

for ( j = 0, e1 = e2 = 0; j < l; j++ ) {

e1 += t1[j];

e2 += t2[j];

}

if ( e1 > e2 )

return 1;

else if ( e1 < e2 )

return -1;

else {

for ( j = l - 1; j >= 0 && t1[j] == t2[j]; j-- );

if ( j >= 0 )

return t1[j] < t2[j] ? 1 : -1;

}

break;

case 1:

for ( j = 0, e1 = e2 = 0; j < l; j++ ) {

e1 += t1[j];

e2 += t2[j];

}

if ( e1 > e2 )

return 1;

else if ( e1 < e2 )

return -1;

else {

for ( j = 0; j < l && t1[j] == t2[j]; j++ );

if ( j < l )

return t1[j] > t2[j] ? 1 : -1;

}

break;

case 2:

for ( j = 0; j < l && t1[j] == t2[j]; j++ );

if ( j < l )

return t1[j] > t2[j] ? 1 : -1;

break;

default:

error("sig_cmpdl_op : invalid order"); break;

}

t1 += l; t2 += l; head += l;

}

return 0;

}

int sig_cmpdl_mat(int n,DL d1,DL d2)

{

int *v,*t1,*t2;

int s,i,j,len;

int **matrix;

static int *w;

static int nvar = 0;

if ( nvar != n ) {

nvar = n; w = (int *)MALLOC(n*sizeof(int));

}

for ( i = 0, t1 = d1->d, t2 = d2->d; i < n; i++ )

w[i] = t1[i]-t2[i];

len = nd_sba_modord->row;

matrix = nd_sba_modord->matrix;

for ( j = 0; j < len; j++ ) {

v = matrix[j];

for ( i = 0, s = 0; i < n; i++ )

s += v[i]*w[i];

if ( s > 0 )

return 1;

else if ( s < 0 )

return -1;

}

return 0;

}

struct comp_sig_spec *create_comp_sig_spec(VL current_vl,VL old_vl,Obj ord,Obj weight)

{

struct comp_sig_spec *spec;

VL ovl,vl;

V ov;

int i,j,n,nvar,s;

NODE node,t,tn;

struct order_pair *l;

MAT m;

Obj **b;

int **w;

int *a;

spec = (struct comp_sig_spec *)MALLOC(sizeof(struct comp_sig_spec));

for ( i = 0, vl = current_vl; vl; vl = NEXT(vl), i++ );

spec->n = nvar = i;

if ( old_vl != 0 ) {

spec->oldv = (int *)MALLOC(nvar*sizeof(int));

for ( i = 0, ovl = old_vl; i < nvar; ovl = NEXT(ovl), i++ ) {

ov = ovl->v;

for ( j = 0, vl = current_vl; vl; vl = NEXT(vl), j++ )

if ( ov == vl->v ) break;

spec->oldv[i] = j;

}

} else

spec->oldv = 0;

if ( !ord || NUM(ord) ) {

switch ( ZTOS((Z)ord) ) {

case 0:

spec->cmpdl = cmpdl_revgradlex; break;

case 1:

spec->cmpdl = cmpdl_gradlex; break;

case 2:

spec->cmpdl = cmpdl_lex; break;

default:

error("create_comp_sig_spec : invalid spec"); break;

}

} else if ( OID(ord) == O_LIST ) {

node = BDY((LIST)ord);

for ( n = 0, t = node; t; t = NEXT(t), n++ );

l = (struct order_pair *)MALLOC_ATOMIC(n*sizeof(struct order_pair));

for ( i = 0, t = node, s = 0; i < n; t = NEXT(t), i++ ) {

tn = BDY((LIST)BDY(t)); l[i].order = ZTOS((Q)BDY(tn));

tn = NEXT(tn); l[i].length = ZTOS((Q)BDY(tn));

s += l[i].length;

}

if ( s != nvar )

error("create_comp_sig_spec : invalid spec");

spec->order_pair = l;

spec->block_length = n;

spec->cmpdl = sig_cmpdl_op;

} else if ( OID(ord) == O_MAT ) {

m = (MAT)ord; b = (Obj **)BDY(m);

if ( m->col != nvar )

error("create_comp_sig_spec : invalid spec");

w = almat(m->row,m->col);

for ( i = 0; i < m->row; i++ )

for ( j = 0; j < m->col; j++ )

w[i][j] = ZTOS((Q)b[i][j]);

spec->row = m->row;

spec->matrix = w;

spec->cmpdl = sig_cmpdl_mat;

} else

error("create_comp_sig_spec : invalid spec");

if ( weight != 0 ) {

node = BDY((LIST)weight);

a = (int *)MALLOC(nvar*sizeof(int));

for ( i = 0; i < nvar; i++, node = NEXT(node) )

a[i] = ZTOS((Z)BDY(node));

spec->weight = a;

}

return spec;

}

#define SIG_MUL_WEIGHT(a,i) (weight?(a)*weight[i]:(a))

int comp_sig_monomial(int n,DL d1,DL d2)

{

static DL m1,m2;

static int nvar = 0;

int *oldv,*weight;

int i,w1,w2;

if ( nvar != n ) {

nvar = n; NEWDL(m1,nvar); NEWDL(m2,nvar);

}

if ( !nd_sba_modord )

return (*cmpdl)(n,d1,d2);

else {

weight = nd_sba_modord->weight;

oldv = nd_sba_modord->oldv;

if ( oldv ) {

for ( i = 0; i < n; i++ ) {

m1->d[i] = d1->d[oldv[i]]; m2->d[i] = d2->d[oldv[i]];

}

} else {

for ( i = 0; i < n; i++ ) {

m1->d[i] = d1->d[i]; m2->d[i] = d2->d[i];

}

for ( i = 0, w1 = w2 = 0; i < n; i++ ) {

w1 += SIG_MUL_WEIGHT(m1->d[i],i);

w2 += SIG_MUL_WEIGHT(m2->d[i],i);

}

m1->td = w1; m2->td = w2;

return (*nd_sba_modord->cmpdl)(n,m1,m2);

}

int comp_sig(SIG s1,SIG s2)

{

if ( nd_sba_pot ) {

if ( s1->pos > s2->pos ) return 1;

else if ( s1->pos < s2->pos ) return -1;

else return (*cmpdl)(nd_nvar,s1->dl,s2->dl);

else return comp_sig_monomial(nd_nvar,s1->dl,s2->dl);

} else {

static DL m1,m2;

static int nvar;

static int nvar = 0;

int ret;

if ( nvar != nd_nvar ) {

Line 3408 int comp_sig(SIG s1,SIG s2)

Line 3677 int comp_sig(SIG s1,SIG s2)

}

_adddl(nd_nvar,s1->dl,nd_sba_hm[s1->pos],m1);

_adddl(nd_nvar,s2->dl,nd_sba_hm[s2->pos],m2);

ret = (*cmpdl)(nd_nvar,m1,m2);

ret = comp_sig_monomial(nd_nvar,m1,m2);

if ( ret != 0 ) return ret;

else if ( s1->pos > s2->pos ) return 1;

else if ( s1->pos < s2->pos ) return -1;

Line 3571 ND_pairs nd_newpairs_s(int t, NODE *syz)

Line 3840 ND_pairs nd_newpairs_s(int t, NODE *syz)

int ts,ret,i;

ND_pairs r,r0,_sp,sp;

SIG spsig,tsig;

static int nvar;

static int nvar = 0;

static SIG _sig1,_sig2;

struct oEGT eg1,eg2,eg3,eg4;

Line 3970 int ndv_newps(int m,NDV a,NDV aq)

Line 4239 int ndv_newps(int m,NDV a,NDV aq)

return nd_psn++;

}

// find LM wrt the specified modord

void ndv_lm_modord(NDV p,DL d)

{

NMV m;

DL tmp;

int len,i,ret;

NEWDL(tmp,nd_nvar);

m = BDY(p); len = LEN(p);

_ndltodl(DL(m),d); // printdl(d); printf("->");

for ( i = 1, NMV_ADV(m); i < len; i++, NMV_ADV(m) ) {

_ndltodl(DL(m),tmp);

ret = comp_sig_monomial(nd_nvar,tmp,d);

if ( ret > 0 ) _copydl(nd_nvar,tmp,d);

}

// printdl(d); printf("\n");

}

/* nd_tracelist = [[0,index,div],...,[nd_psn-1,index,div]] */

/* return 1 if success, 0 if failure (HC(a mod p)) */

Line 4088 int ndv_setup(int mod,int trace,NODE f,int dont_sort,i

Line 4375 int ndv_setup(int mod,int trace,NODE f,int dont_sort,i

if ( nd_demand ) nd_ps_trace_sym[i]->sig = sig;

}

NEWDL(nd_sba_hm[i],nd_nvar);

_ndltodl(DL(nd_psh[i]),nd_sba_hm[i]);

if ( nd_sba_modord )

ndv_lm_modord(nd_ps[i],nd_sba_hm[i]);

else

_ndltodl(DL(nd_psh[i]),nd_sba_hm[i]);

}

nd_sba_pos = (NODE *)MALLOC(nd_psn*sizeof(NODE));

for ( i = 0; i < nd_psn; i++ ) {

Line 4234 void nd_gr(LIST f,LIST v,int m,int homo,int retdp,int

Line 4524 void nd_gr(LIST f,LIST v,int m,int homo,int retdp,int

nd_module = 0;

if ( !m && Demand ) nd_demand = 1;

else nd_demand = 0;

parse_nd_option(current_option);

if ( DP_Multiple )

nd_scale = ((double)DP_Multiple)/(double)(Denominator?Denominator:1);

Line 4242 void nd_gr(LIST f,LIST v,int m,int homo,int retdp,int

Line 4531 void nd_gr(LIST f,LIST v,int m,int homo,int retdp,int

ndv_alloc = 0;

#endif

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

if ( m && nd_vc )

error("nd_{gr,f4} : computation over Fp(X) is unsupported. Use dp_gr_mod_main().");

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

Line 4454 NODE nd_sba_f4(int m,int **indp);

Line 4744 NODE nd_sba_f4(int m,int **indp);

void nd_sba(LIST f,LIST v,int m,int homo,int retdp,int f4,struct order_spec *ord,LIST *rp)

{

VL tv,fv,vv,vc,av;

NODE fd,fd0,r,r0,t,x,s,xx;

NODE fd,fd0,r,r0,t,x,s,xx,nd,syz;

int e,max,nvar,i;

NDV b;

int ishomo,nalg,wmax,len;

Line 4470 void nd_sba(LIST f,LIST v,int m,int homo,int retdp,int

Line 4760 void nd_sba(LIST f,LIST v,int m,int homo,int retdp,int

nd_module = 0;

nd_demand = 0;

parse_nd_option(current_option);

Nsamesig = 0;

if ( DP_Multiple )

nd_scale = ((double)DP_Multiple)/(double)(Denominator?Denominator:1);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

if ( m && nd_vc )

error("nd_sba : computation over Fp(X) is unsupported. Use dp_gr_mod_main().");

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

Line 4539 void nd_sba(LIST f,LIST v,int m,int homo,int retdp,int

Line 4829 void nd_sba(LIST f,LIST v,int m,int homo,int retdp,int

}

ndv_setup(m,0,fd0,nd_sba_dontsort,0,1);

x = f4 ? nd_sba_f4(m,&perm) : nd_sba_buch(m,ishomo || homo,&perm);

x = f4 ? nd_sba_f4(m,&perm) : nd_sba_buch(m,ishomo || homo,&perm,&syz);

if ( !x ) {

*rp = 0; return;

}

Line 4562 void nd_sba(LIST f,LIST v,int m,int homo,int retdp,int

Line 4852 void nd_sba(LIST f,LIST v,int m,int homo,int retdp,int

else BDY(r) = ndvtop(m,CO,vv,BDY(t));

}

if ( r0 ) NEXT(r) = 0;

MKLIST(*rp,r0);

if ( nd_sba_syz ) {

LIST gb,hsyz;

NODE nd;

MKLIST(gb,r0);

MKLIST(hsyz,syz);

nd = mknode(2,gb,hsyz);

MKLIST(*rp,nd);

} else

MKLIST(*rp,r0);

get_eg(&eg1); init_eg(&egconv); add_eg(&egconv,&eg0,&eg1);

print_eg("conv",&egconv); fprintf(asir_out,"\n");

}

Line 4583 void nd_gr_postproc(LIST f,LIST v,int m,struct order_s

Line 4882 void nd_gr_postproc(LIST f,LIST v,int m,struct order_s

struct order_spec *ord1;

int *perm;

parse_nd_option(current_option);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

switch ( ord->id ) {

case 1:

Line 4731 void nd_gr_recompute_trace(LIST f,LIST v,int m,struct

Line 5030 void nd_gr_recompute_trace(LIST f,LIST v,int m,struct

int len,n,j;

NDV *db,*pb;

parse_nd_option(current_option);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

switch ( ord->id ) {

case 1:

Line 4831 void nd_gr_trace(LIST f,LIST v,int trace,int homo,int

Line 5130 void nd_gr_trace(LIST f,LIST v,int trace,int homo,int

NcriB = NcriMF = Ncri2 = 0;

nd_module = 0;

nd_lf = 0;

parse_nd_option(current_option);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

if ( nd_lf ) {

if ( f4 )

nd_f4_lf_trace(f,v,trace,homo,ord,rp);

Line 4842 void nd_gr_trace(LIST f,LIST v,int trace,int homo,int

Line 5142 void nd_gr_trace(LIST f,LIST v,int trace,int homo,int

if ( DP_Multiple )

nd_scale = ((double)DP_Multiple)/(double)(Denominator?Denominator:1);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

switch ( ord->id ) {

case 1:

Line 5669 int nd_get_exporigin(struct order_spec *ord)

Line 5968 int nd_get_exporigin(struct order_spec *ord)

void nd_setup_parameters(int nvar,int max) {

int i,j,n,elen,ord_o,ord_l,l,s,wpd;

struct order_pair *op;

extern int CNVars;

nd_nvar = nvar;

CNVars = nvar;

if ( max ) {

/* XXX */

if ( do_weyl ) nd_bpe = 32;

Line 6902 DP ndvtodp(int mod,NDV p)

Line 7203 DP ndvtodp(int mod,NDV p)

return d;

}

DPM sigtodpm(SIG s)

{

DMM m;

DPM d;

NEWDMM(m);

m->c = (Obj)ONE;

m->dl = s->dl;

m->pos = s->pos+1;

m->next = 0;

MKDPM(nd_nvar,m,d);

SG(d) = s->dl->td;

return d;

}

DPM ndvtodpm(int mod,NDV p)

{

DMM m,m0;

Line 9974 NODE conv_ilist_s(int demand,int trace,int **indp)

Line 10290 NODE conv_ilist_s(int demand,int trace,int **indp)

return g0;

}

void parse_nd_option(NODE opt)

void parse_nd_option(VL vl,NODE opt)

{

NODE t,p,u;

int i,s,n;

char *key;

Obj value;

VL oldvl;

nd_gentrace = 0; nd_gensyz = 0; nd_nora = 0; nd_norb = 0; nd_gbblock = 0;

nd_newelim = 0; nd_intersect = 0; nd_nzlist = 0;

Line 9987 void parse_nd_option(NODE opt)

Line 10304 void parse_nd_option(NODE opt)

nd_sugarweight = 0; nd_f4red =0; nd_rank0 = 0;

nd_f4_td = 0; nd_sba_f4step = 2; nd_sba_pot = 0; nd_sba_largelcm = 0;

nd_sba_dontsort = 0; nd_top = 0; nd_sba_redundant_check = 0;

nd_sba_syz = 0; nd_sba_modord = 0; nd_sba_inputisgb = 0;

for ( t = opt; t; t = NEXT(t) ) {

p = BDY((LIST)BDY(t));

Line 10045 void parse_nd_option(NODE opt)

Line 10363 void parse_nd_option(NODE opt)

} else if ( !strcmp(key,"sba_f4step") ) {

nd_sba_f4step = value?ZTOS((Q)value):0;

} else if ( !strcmp(key,"sba_pot") ) {

nd_sba_pot = value?1:0;

nd_sba_pot = ZTOS((Q)value);

} else if ( !strcmp(key,"sba_largelcm") ) {

nd_sba_largelcm = value?1:0;

} else if ( !strcmp(key,"sba_dontsort") ) {

nd_sba_dontsort = value?1:0;

} else if ( !strcmp(key,"sba_syz") ) {

nd_sba_syz = value?1:0;

} else if ( !strcmp(key,"sba_modord") ) {

// value=[vlist,ordspec,weight]

u = BDY((LIST)value);

pltovl((LIST)ARG0(u),&oldvl);

nd_sba_modord = create_comp_sig_spec(vl,oldvl,(Obj)ARG1(u),argc(u)==3?ARG2(u):0);

} else if ( !strcmp(key,"sba_gbinput") ) {

nd_sba_inputisgb = value?1:0;

if ( nd_sba_inputisgb != 0 ) {

// value=[vlist,ordspec,weight]

u = BDY((LIST)value);

pltovl((LIST)ARG0(u),&oldvl);

nd_sba_modord = create_comp_sig_spec(vl,oldvl,(Obj)ARG1(u),argc(u)==3?ARG2(u):0);

}

} else if ( !strcmp(key,"sba_redundant_check") ) {

nd_sba_redundant_check = value?1:0;

} else if ( !strcmp(key,"top") ) {

nd_top = value?1:0;

}

if ( nd_sba_syz ) nd_sba_dontsort = 1;

}

ND mdptond(DP d);

Line 10260 MAT nd_btog(LIST f,LIST v,int mod,struct order_spec *o

Line 10594 MAT nd_btog(LIST f,LIST v,int mod,struct order_spec *o

if ( mod == -2 )

return nd_btog_lf(f,v,ord,tlist,rp);

parse_nd_option(current_option);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

switch ( ord->id ) {

case 1:

Line 10329 MAT nd_btog_lf(LIST f,LIST v,struct order_spec *ord,LI

Line 10663 MAT nd_btog_lf(LIST f,LIST v,struct order_spec *ord,LI

LM lm;

Z lf,inv;

parse_nd_option(current_option);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

switch ( ord->id ) {

case 1:

Line 10400 VECT nd_btog_one(LIST f,LIST v,int mod,struct order_sp

Line 10734 VECT nd_btog_one(LIST f,LIST v,int mod,struct order_sp

if ( mod == -2 )

error("nd_btog_one : not implemented yet for a large finite field");

parse_nd_option(current_option);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

switch ( ord->id ) {

case 1:

Line 10514 void nd_f4_lf_trace(LIST f,LIST v,int trace,int homo,s

Line 10848 void nd_f4_lf_trace(LIST f,LIST v,int trace,int homo,s

Q jq,bpe;

nd_module = 0;

parse_nd_option(current_option);

get_vars((Obj)f,&fv); pltovl(v,&vv); vlminus(fv,vv,&nd_vc);

parse_nd_option(vv,current_option);

if ( nd_vc )

error("nd_f4_lf_trace : computation over a rational function field is not implemented");

for ( nvar = 0, tv = vv; tv; tv = NEXT(tv), nvar++ );

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