OpenXM_contrib2/asir2018/engine/nd.c - diff

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Diff for /OpenXM_contrib2/asir2018/engine/nd.c between version 1.46 and 1.50

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

version 1.50, 2021/03/09 05:20:35

Line 1

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

/* $OpenXM: OpenXM_contrib2/asir2018/engine/nd.c,v 1.49 2021/02/28 02:33:16 noro Exp $ */

#include "nd.h"

void print_siglist(NODE l);

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

NODE nd_hpdata;

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

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

int diag_period = 6;

Line 92 struct comp_sig_spec {

Line 93 struct comp_sig_spec {

struct comp_sig_spec *nd_sba_modord;

DL ndltodl(int n,UINT *ndl);

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 2467 LIST compute_splist()

Line 2469 LIST compute_splist()

return l0;

}

typedef struct oHPDATA {

P hn; // HP(t)=hn(t)/(1-t)^n

int len;

P *head; // hp(i)=head[i] (i=0,...,len-1)

P hp; // dim Hm(i)=hp(i) (i >= len)

VECT x; // BDY(x)[i] = <<0,...,1,...,0>>

P *plist; // plist[i]=(1-t)^i

} *HPDATA;

void make_reduced(VECT b,int nv);

void mhp_rec(VECT b,VECT x,P t,P *r);

P mhp_ctop(P *r,P *plist,int n);

void mhp_to_hf(VL vl,P hp,int n,P *plist,VECT *head,P *hf);

DL monomial_colon(DL a,DL b,int n);

LIST dp_monomial_hilbert_poincare(VECT b,VECT x,P *plist);

int hpvalue(HPDATA data,int d)

{

P *head;

int len;

P hp,val;

Z dz;

head = data->head;

len = data->len;

hp = data->hp;

if ( d < len )

return ZTOS((Z)head[d]);

else {

STOZ(d,dz);

substp(CO,hp,hp->v,(P)dz,&val);

return ZTOS((Z)val);

}

void setup_hpdata(HPDATA final,HPDATA current)

{

int n,i;

P *r;

DL *p;

P tv;

VECT b,x,head;

DL dl;

n = nd_nvar;

final->hn = (P)ARG0(nd_hpdata);

head = (VECT)ARG2(nd_hpdata);

final->len = head->len;

final->head = (P *)BDY(head);

final->hp = (P)ARG3(nd_hpdata);

final->plist = (P *)BDY((VECT)ARG4(nd_hpdata));

MKVECT(x,n);

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

NEWDL(dl,n); dl->d[i] = 1; dl->td = 1; BDY(x)[i] = dl;

}

final->x = x;

r = (P *)CALLOC(n+1,sizeof(P));

MKVECT(b,nd_psn); p = (DL *)BDY(b);

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

p[i] = ndltodl(n,nd_psh[i]->dl);

}

make_reduced(b,n);

makevar("t",&tv);

mhp_rec(b,x,tv,r);

current->hn = mhp_ctop(r,final->plist,n);

mhp_to_hf(CO,current->hn,n,final->plist,&head,&current->hp);

current->head = (P *)BDY(head);

current->len = head->len;

current->x = x;

current->plist = final->plist;

}

void update_hpdata(HPDATA current,int nh,int do_hf)

{

NODE data1,nd,t;

DL new,dl;

int len,i,n;

Z dz;

DL *p;

VECT b,head;

P tv,td,s,hn,hpoly;

LIST list1;

n = nd_nvar;

new = ndltodl(n,nd_psh[nh]->dl);

MKVECT(b,nh); p = (DL *)BDY(b);

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

p[i] = monomial_colon(ndltodl(n,nd_psh[i]->dl),new,n);

}

// compute HP(I:new)

list1 = dp_monomial_hilbert_poincare(b,current->x,current->plist);

data1 = BDY((LIST)list1);

// HP(I+<new>) = H(I)-t^d*H(I:new), d=tdeg(new)

makevar("t",&tv); UTOZ(new->td,dz);

pwrp(CO,tv,dz,&td);

mulp(CO,(P)ARG0(data1),td,&s);

subp(CO,current->hn,s,&hn);

current->hn = hn;

if ( do_hf ) {

mhp_to_hf(CO,hn,n,current->plist,&head,&hpoly);

current->head = (P *)BDY(head);

current->len = head->len;

current->hp = hpoly;

}

ND_pairs nd_remove_same_sugar( ND_pairs d, int sugar)

{

struct oND_pairs root;

ND_pairs prev,cur;

root.next = d;

prev = &root; cur = d;

while ( cur ) {

if ( SG(cur) == sugar )

prev->next = cur->next;

else

prev = cur;

cur = cur->next;

}

return root.next;

}

/* return value = 0 => input is not a GB */

NODE nd_gb(int m,int ishomo,int checkonly,int gensyz,int **indp)

Line 2483 NODE nd_gb(int m,int ishomo,int checkonly,int gensyz,i

Line 2609 NODE nd_gb(int m,int ishomo,int checkonly,int gensyz,i

int Nnfnz = 0,Nnfz = 0;

P cont;

LIST list;

struct oHPDATA current_hpdata,final_hpdata;

int final_hpvalue;

struct oEGT eg1,eg2,eg_update;

init_eg(&eg_update);

Line 2493 init_eg(&eg_update);

Line 2622 init_eg(&eg_update);

g = update_base(g,i);

}

sugar = 0;

if ( nd_hpdata ) {

setup_hpdata(&final_hpdata,&current_hpdata);

}

while ( d ) {

again:

l = nd_minp(d,&d);

Line 2509 again:

Line 2641 again:

}

sugar = SG(l);

if ( DP_Print ) fprintf(asir_out,"%d",sugar);

if ( nd_hpdata ) {

if ( !compp(CO,final_hpdata.hn,current_hpdata.hn) )

break;

else {

final_hpvalue = hpvalue(&final_hpdata,sugar);

if ( final_hpvalue == hpvalue(&current_hpdata,sugar) ) {

if ( DP_Print ) fprintf(asir_out,"sugar=%d done.\n",sugar);

d = nd_remove_same_sugar(d,sugar);

continue;

}

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

if ( !stat ) {

Line 2566 get_eg(&eg1);

Line 2710 get_eg(&eg1);

get_eg(&eg2); add_eg(&eg_update,&eg1,&eg2);

g = update_base(g,nh);

FREENDP(l);

if ( nd_hpdata ) {

update_hpdata(&current_hpdata,nh,1);

if ( final_hpvalue == hpvalue(&current_hpdata,sugar) ) {

if ( DP_Print ) fprintf(asir_out,"sugar=%d done.\n",sugar);

d = nd_remove_same_sugar(d,sugar);

}

} else {

Nnfz++;

if ( nd_gentrace && gensyz ) {

Line 2592 get_eg(&eg2); add_eg(&eg_update,&eg1,&eg2);

Line 2743 get_eg(&eg2); add_eg(&eg_update,&eg1,&eg2);

}

ND_pairs update_pairs_s(ND_pairs d,int t,NODE *syz);

int update_pairs_array_s(ND_pairs *d,int t,NODE *syz);

ND_pairs nd_newpairs_s(int t ,NODE *syz);

ND_pairs *nd_newpairs_array_s(int t ,NODE *syz);

int nd_nf_pbucket_s(int mod,ND g,NDV *ps,int full,ND *nf);

int nd_nf_s(int mod,ND d,ND g,NDV *ps,int full,ND *nf);

Line 2721 ND_pairs find_smallest_lcm(ND_pairs l)

Line 2874 ND_pairs find_smallest_lcm(ND_pairs l)

_addtodl(nd_nvar,quo,mul);

if ( (*cmpdl)(nd_nvar,minlm,mul) > 0 ) {

minindex = i;

break;

_copydl(nd_nvar,mul,minlm);

}

// l->lcm is minimal; return l itself

if ( minindex < 0 ) return l;

else return 0;

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

if ( i == minindex ) continue;

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

Line 2808 SIG trivial_sig(int i,int j)

Line 2963 SIG trivial_sig(int i,int j)

return sig;

}

int nd_minsig(ND_pairs *d)

{

int min,i,ret;

min = -1;

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

if ( d[i] != 0 ) {

if ( min < 0 ) min = i;

else {

ret = comp_sig(d[i]->sig,d[min]->sig);

if ( ret < 0 ) min = i;

}

return min;

}

int dlength(ND_pairs d)

{

int i;

for ( i = 0; d; d = d->next, i++ );

return i;

}

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;

ND_pairs *d;

ND_pairs l,l1;

ND h,nf,s,head,nf1;

NDV nfv;

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

Line 3001 NODE nd_sba_buch(int m,int ishomo,int **indp,NODE *syz

LIST list;

SIG sig;

NODE *syzlist;

int ngen;

int ngen,ind;

int Nnominimal,Nredundant;

DL lcm,quo,mul;

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

struct oHPDATA final_hpdata,current_hpdata;

int Nnfs=0,Nnfz=0,Nnfnz=0;

struct oEGT eg1,eg2,eg3,eg4,eg_update,eg_remove,eg_large,eg_nf,eg_nfzero;

struct oEGT eg_minsig,eg_smallest,eg_removecont,eg_hpdata,eg_updatepairs,eg_sbabuch,eg_sp;

int Nnfs=0,Nnfz=0,Nnfnz=0,dlen,nsyz;

init_eg(&eg_remove);

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

d = (ND_pairs *)MALLOC(nd_psn*sizeof(ND_pairs));

nd_nbase = nd_psn;

Nsyz = 0;

Nnd_add = 0;

Nnominimal = 0;

Nredundant = 0;

d = 0;

ngen = nd_psn;

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

if ( !do_weyl ) {

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

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

sig = trivial_sig(i,j);

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

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

sig = trivial_sig(i,j);

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

}

dlen = 0;

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

d = update_pairs_s(d,i,syzlist);

dlen += update_pairs_array_s(d,i,syzlist);

}

sugar = 0;

pos = 0;

if ( nd_hpdata ) {

setup_hpdata(&final_hpdata,&current_hpdata);

}

NEWDL(lcm,nd_nvar); NEWDL(quo,nd_nvar); NEWDL(mul,nd_nvar);

init_eg(&eg_sp);

init_eg(&eg_create);

init_eg(&eg_merge);

init_eg(&eg_minsig);

init_eg(&eg_smallest);

init_eg(&eg_large);

init_eg(&eg_nf);

init_eg(&eg_nfzero);

while ( d ) {

init_eg(&eg_removecont);

again:

init_eg(&eg_updatepairs);

if ( DP_Print ) {

init_eg(&eg_hpdata);

int len;

init_eg(&eg_sbabuch);

ND_pairs td;

get_eg(&eg3);

for ( td = d, len=0; td; td = td->next, len++)

while ( 1 ) {

;

if ( DP_Print && dlen%100 == 0 ) fprintf(asir_out,"(%d)",dlen);

if ( !(len%100) ) fprintf(asir_out,"(%d)",len);

again :

}

get_eg(&eg1);

l = d; d = d->next;

ind = nd_minsig(d);

#if 0

get_eg(&eg2); add_eg(&eg_minsig,&eg1,&eg2);

if ( small_lcm(l) ) {

if ( ind < 0 ) break;

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

l = d[ind];

Nnominimal++;

// printf("(%d,%d)",l->i1,l->i2); print_sig(l->sig); printf("\n");

continue;

get_eg(&eg1);

}

if ( SG(l) != sugar ) {

sugar = SG(l);

if ( DP_Print ) fprintf(asir_out,"%d",sugar);

}

sig = l->sig;

if ( DP_Print && nd_sba_pot ) {

if ( sig->pos != pos ) {

fprintf(asir_out,"[%d]",sig->pos);

pos = sig->pos;

}

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);

get_eg(&eg2); add_eg(&eg_smallest,&eg1,&eg2);

if ( l1 == 0 ) {

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

d[ind] = d[ind]->next; dlen--;

if ( DP_Print && !nd_hpdata ) fprintf(asir_out,"M");

Nnominimal++;

continue;

}

Line 2900 again:

Line 3077 again:

pos = sig->pos;

}

get_eg(&eg1);

stat = nd_sp(m,0,l1,&h);

#endif

get_eg(&eg2); add_eg(&eg_sp,&eg1,&eg2);

if ( !stat ) {

NEXT(l) = d; d = l;

nd_reconstruct_s(0,d);

d = nd_reconstruct(0,d);

goto again;

}

get_eg(&eg1);

Line 2915 get_eg(&eg1);

Line 3092 get_eg(&eg1);

#endif

get_eg(&eg2);

if ( !stat ) {

NEXT(l) = d; d = l;

nd_reconstruct_s(0,d);

d = nd_reconstruct(0,d);

goto again;

} else if ( stat == -1 ) {

d[ind] = d[ind]->next; dlen--;

Nnfs++;

if ( DP_Print ) { printf("S"); fflush(stdout); }

FREENDP(l);

} else if ( nf ) {

d[ind] = d[ind]->next; dlen--;

Nnfnz++;

if ( DP_Print ) {

if ( nd_sba_redundant_check ) {

Line 2937 get_eg(&eg2);

Line 3114 get_eg(&eg2);

}

add_eg(&eg_nf,&eg1,&eg2);

hc = HCU(nf);

get_eg(&eg1);

nd_removecont(m,nf);

get_eg(&eg2); add_eg(&eg_removecont,&eg1,&eg2);

nfv = ndtondv(m,nf); nd_free(nf);

nh = ndv_newps(m,nfv,0);

d = update_pairs_s(d,nh,syzlist);

get_eg(&eg1);

dlen += update_pairs_array_s(d,nh,syzlist);

get_eg(&eg2); add_eg(&eg_updatepairs,&eg1,&eg2);

nd_sba_pos[sig->pos] = append_one(nd_sba_pos[sig->pos],nh);

FREENDP(l);

if ( nd_hpdata ) {

get_eg(&eg1);

update_hpdata(&current_hpdata,nh,0);

get_eg(&eg2); add_eg(&eg_hpdata,&eg1,&eg2);

if ( !compp(CO,final_hpdata.hn,current_hpdata.hn) ) {

if ( DP_Print ) { printf("\nWe found a gb.\n"); }

break;

}

} else {

d[ind] = d[ind]->next; dlen--;

Nnfz++;

add_eg(&eg_nfzero,&eg1,&eg2);

// syzygy

get_eg(&eg1);

d = remove_spair_s(d,sig);

nsyz = Nsyz;

d[sig->pos] = remove_spair_s(d[sig->pos],sig);

dlen -= Nsyz-nsyz;

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

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

if ( DP_Print ) { printf("."); fflush(stdout); }

FREENDP(l);

}

get_eg(&eg4); add_eg(&eg_sbabuch,&eg3,&eg4);

g = conv_ilist_s(nd_demand,0,indp);

if ( DP_Print ) {

printf("\nnd_sba done. nd_add=%d,Nsyz=%d,Nsamesig=%d,Nnominimal=%d\n",Nnd_add,Nsyz,Nsamesig,Nnominimal);

printf("\ndlen=%d,nd_sba done. nd_add=%d,Nsyz=%d,Nsamesig=%d,Nnominimal=%d\n",dlen,Nnd_add,Nsyz,Nsamesig,Nnominimal);

printf("Nnfnz=%d,Nnfz=%d,Nnfsingular=%d\n",Nnfnz,Nnfz,Nnfs);

fflush(stdout);

if ( nd_sba_redundant_check )

printf("Nredundant=%d\n",Nredundant);

fflush(stdout);

print_eg("sp",&eg_sp);

print_eg("create",&eg_create);

print_eg("merge",&eg_merge);

print_eg("minsig",&eg_minsig);

print_eg("smallest",&eg_smallest);

print_eg("remove",&eg_remove);

printf("\n");

print_eg("nf",&eg_nf);

print_eg("nfzero",&eg_nfzero);

print_eg("removecont",&eg_removecont);

print_eg("updatepairs",&eg_updatepairs);

print_eg("hpdata",&eg_hpdata);

print_eg("total",&eg_sbabuch);

printf("\n");

}

if ( nd_sba_syz ) {

print_eg("remove",&eg_remove);

print_eg("nf",&eg_nf);

print_eg("nfzero",&eg_nfzero);

printf("\n");

}

if ( nd_sba_syz ) {

NODE hsyz,tsyz,prev;

hsyz = 0;

Line 3152 NODE nd_gb_trace(int m,int ishomo,int **indp)

Line 3358 NODE nd_gb_trace(int m,int ishomo,int **indp)

int diag_count = 0;

P cont;

LIST list;

struct oHPDATA current_hpdata,final_hpdata;

int final_hpvalue;

init_eg(&eg_monic);

init_eg(&eg_invdalg);

Line 3162 NODE nd_gb_trace(int m,int ishomo,int **indp)

Line 3370 NODE nd_gb_trace(int m,int ishomo,int **indp)

g = update_base(g,i);

}

sugar = 0;

if ( nd_hpdata ) {

setup_hpdata(&final_hpdata,&current_hpdata);

}

while ( d ) {

again:

l = nd_minp(d,&d);

Line 3182 again:

Line 3394 again:

#endif

sugar = SG(l);

if ( DP_Print ) fprintf(asir_out,"%d",sugar);

if ( nd_hpdata ) {

if ( !compp(CO,final_hpdata.hn,current_hpdata.hn) )

break;

else {

final_hpvalue = hpvalue(&final_hpdata,sugar);

if ( final_hpvalue == hpvalue(&current_hpdata,sugar) ) {

if ( DP_Print ) fprintf(asir_out,"sugar=%d done.\n",sugar);

d = nd_remove_same_sugar(d,sugar);

continue;

}

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

if ( !stat ) {

Line 3255 again:

Line 3479 again:

}

d = update_pairs(d,g,nh,0);

g = update_base(g,nh);

if ( nd_hpdata ) {

update_hpdata(&current_hpdata,nh,1);

if ( final_hpvalue == hpvalue(&current_hpdata,sugar) ) {

if ( DP_Print ) fprintf(asir_out,"sugar=%d done.\n",sugar);

d = nd_remove_same_sugar(d,sugar);

}

} else {

if ( DP_Print ) { printf("*"); fflush(stdout); }

}

Line 3431 get_eg(&eg3); add_eg(&eg_merge,&eg2,&eg3);

Line 3662 get_eg(&eg3); add_eg(&eg_merge,&eg2,&eg3);

return d;

}

int update_pairs_array_s( ND_pairs *d, int t,NODE *syz)

{

ND_pairs *d1;

struct oEGT eg1,eg2,eg3;

int i;

if ( !t ) return 0;

get_eg(&eg1);

Nnewpair = 0;

d1 = nd_newpairs_array_s(t,syz);

get_eg(&eg2); add_eg(&eg_create,&eg1,&eg2);

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

d[i] = merge_pairs_s(d[i],d1[i]);

get_eg(&eg3); add_eg(&eg_merge,&eg2,&eg3);

return Nnewpair;

}

ND_pairs nd_newpairs( NODE g, int t )

{

NODE h;

Line 3677 int comp_sig(SIG s1,SIG s2)

Line 3925 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 = comp_sig_monomial(nd_nvar,m1,m2);

if ( !nd_sba_modord )

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

else

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 3697 int _create_spair_s(int i1,int i2,ND_pairs sp,SIG sig1

Line 3948 int _create_spair_s(int i1,int i2,ND_pairs sp,SIG sig1

p1 = nd_psh[i1];

p2 = nd_psh[i2];

ndl_lcm(DL(p1),DL(p2),sp->lcm);

#if 0

s1 = SG(p1)-TD(DL(p1));

s2 = SG(p2)-TD(DL(p2));

SG(sp) = MAX(s1,s2) + TD(sp->lcm);

#endif

if ( wpd != nd_wpd ) {

wpd = nd_wpd;

Line 3725 int _create_spair_s(int i1,int i2,ND_pairs sp,SIG sig1

Line 3978 int _create_spair_s(int i1,int i2,ND_pairs sp,SIG sig1

if ( ret == 0 ) return 0;

else if ( ret > 0 ) sp->sig = sig1;

else sp->sig = sig2;

s1 = DL(sig1)->td+nd_sba_hm[p1->sig->pos]->td;

s2 = DL(sig2)->td+nd_sba_hm[p2->sig->pos]->td;

SG(sp) = MAX(s1,s2);

return 1;

}

Line 3765 ND_pairs merge_pairs_s(ND_pairs p1,ND_pairs p2)

Line 4023 ND_pairs merge_pairs_s(ND_pairs p1,ND_pairs p2)

} else if ( ret > 0 ) {

r->next = q2; r = q2; q2 = q2->next;

} else {

Nnewpair--;

ret = DL_COMPARE(q1->lcm,q2->lcm);

Nsamesig++;

if ( ret < 0 ) {

Line 3787 ND_pairs merge_pairs_s(ND_pairs p1,ND_pairs p2)

Line 4046 ND_pairs merge_pairs_s(ND_pairs p1,ND_pairs p2)

ND_pairs insert_pair_s(ND_pairs l,ND_pairs s)

{

ND_pairs p,prev;

int ret;

int ret=1;

for ( p = l, prev = 0; p != 0; prev = p, p = p->next ) {

if ( (ret = comp_sig(s->sig,p->sig)) <= 0 )

Line 3808 ND_pairs insert_pair_s(ND_pairs l,ND_pairs s)

Line 4067 ND_pairs insert_pair_s(ND_pairs l,ND_pairs s)

return l;

} else {

// insert s between prev and p

Nnewpair++;

s->next = p;

if ( prev == 0 ) {

return s;

Line 3869 ND_pairs nd_newpairs_s(int t, NODE *syz)

Line 4129 ND_pairs nd_newpairs_s(int t, NODE *syz)

return r0;

}

ND_pairs *nd_newpairs_array_s(int t, NODE *syz)

{

NODE h,s;

UINT *dl;

int ts,ret,i;

ND_pairs r,r0,_sp,sp;

ND_pairs *d;

SIG spsig,tsig;

static int nvar = 0;

static SIG _sig1,_sig2;

struct oEGT eg1,eg2,eg3,eg4;

NEWND_pairs(_sp);

if ( !_sig1 || nvar != nd_nvar ) {

nvar = nd_nvar; NEWSIG(_sig1); NEWSIG(_sig2);

}

d = (ND_pairs *)MALLOC(nd_nbase*sizeof(ND_pairs));

Nnewpair = 0;

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

ret = _create_spair_s(i,t,_sp,_sig1,_sig2);

if ( ret ) {

spsig = _sp->sig;

for ( s = syz[spsig->pos]; s; s = s->next ) {

tsig = (SIG)s->body;

if ( _dl_redble(DL(tsig),DL(spsig),nd_nvar) )

break;

}

if ( s == 0 ) {

NEWND_pairs(sp);

dup_ND_pairs(sp,_sp);

d[spsig->pos] = insert_pair_s(d[spsig->pos],sp);

} else

Nsyz++;

}

return d;

}

/* ipair = [i1,i2],[i1,i2],... */

ND_pairs nd_ipairtospair(NODE ipair)

{

Line 6172 void nd_reconstruct_s(int trace,ND_pairs *d)

Line 6470 void nd_reconstruct_s(int trace,ND_pairs *d)

SG(s) = SG(t);

ndl_reconstruct(LCM(t),LCM(s),obpe,oepos);

}

if ( s0 ) NEXT(s) = 0;

d[i] = s0;

}

Line 6887 ND ptond(VL vl,VL dvl,P p)

Line 7186 ND ptond(VL vl,VL dvl,P p)

else if ( NUM(p) ) {

NEWNM(m);

ndl_zero(DL(m));

if ( !INT((Q)p) )

if ( RATN(p) && !INT((Q)p) )

error("ptond : input must be integer-coefficient");

CZ(m) = (Z)p;

NEXT(m) = 0;

Line 10305 void parse_nd_option(VL vl,NODE opt)

Line 10604 void parse_nd_option(VL vl,NODE opt)

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;

nd_hpdata = 0;

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

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

Line 10352 void parse_nd_option(VL vl,NODE opt)

Line 10652 void parse_nd_option(VL vl,NODE opt)

nd_splist = value?1:0;

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

nd_check_splist = BDY((LIST)value);

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

if ( value )

nd_hpdata = BDY((LIST)value);

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

u = BDY((LIST)value);

n = length(u);

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