=================================================================== RCS file: /home/cvs/OpenXM_contrib2/asir2018/engine/dist.c,v retrieving revision 1.5 retrieving revision 1.18 diff -u -p -r1.5 -r1.18 --- OpenXM_contrib2/asir2018/engine/dist.c 2019/09/04 05:32:10 1.5 +++ OpenXM_contrib2/asir2018/engine/dist.c 2019/12/12 04:44:59 1.18 @@ -45,7 +45,7 @@ * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. * - * $OpenXM: OpenXM_contrib2/asir2018/engine/dist.c,v 1.4 2019/09/04 01:12:02 noro Exp $ + * $OpenXM: OpenXM_contrib2/asir2018/engine/dist.c,v 1.17 2019/11/21 04:03:16 noro Exp $ */ #include "ca.h" @@ -333,7 +333,7 @@ void nodetod(NODE node,DP *dp) void nodetodpm(NODE node,Obj pos,DPM *dp) { NODE t; - int len,i,td; + int len,i,td,p; Q e; DL d; DMM m; @@ -352,7 +352,13 @@ void nodetodpm(NODE node,Obj pos,DPM *dp) } } d->td = td; - NEWDMM(m); m->dl = d; m->pos = ZTOS((Q)pos); C(m) = (Obj)ONE; NEXT(m) = 0; + p = ZTOS((Q)pos); + if ( dp_current_spec->module_rank ) { + if ( p > dp_current_spec->module_rank ) + error("nodetodpm : inconsistent order spec"); + d->td += dp_current_spec->module_top_weight[p-1]; + } + NEWDMM(m); m->dl = d; m->pos = p; C(m) = (Obj)ONE; NEXT(m) = 0; MKDPM(len,m,u); u->sugar = td; *dp = u; } @@ -360,12 +366,20 @@ void dtodpm(DP d,int pos,DPM *dp) { DMM mr0,mr; MP m; + int shift; if ( !d ) *dp = 0; else { + shift = 0; + if ( dp_current_spec->module_rank ) { + if ( pos > dp_current_spec->module_rank ) + error("nodetodpm : inconsistent order spec"); + shift = dp_current_spec->module_top_weight[pos-1]; + } for ( m = BDY(d), mr0 = 0; m; m = NEXT(m) ) { NEXTDMM(mr0,mr); mr->dl = m->dl; + mr->dl->td += shift; mr->pos = pos; C(mr) = C(m); } @@ -2635,29 +2649,50 @@ NBP harmonic_mul_nbm(NBM a,NBM b) /* DPM functions */ DMMstack dmm_stack; +int dpm_base_ordtype;; -void push_schreyer_order(LIST data) +DMMstack push_schreyer_order(LIST data,DMMstack stack) { DMMstack t; - int len,i; - NODE in; + DP dp; + MP mp; + DMM m0,m1; + DPM dpm0,dpm1; + int len,i,nv; + NODE in,t1; + LIST l; /* data = [DPM,...,DPM] */ + if ( !dmm_stack && ( !dp_current_spec || dp_current_spec->id < 256 ) ) + error("push_schreyer_order : base module order is not set"); in = BDY(data); len = length(in); NEWDMMstack(t); t->rank = len; t->in = (DMM *)MALLOC((len+1)*sizeof(DMM)); - t->ordtype = 0; - for ( i = 1; i <= len; i++, in = NEXT(in) ) { - t->in[i] = BDY((DPM)BDY(in)); + t->sum = (DMM *)MALLOC((len+1)*sizeof(DMM)); + if ( stack ) { + MKNODE(t1,data,BDY(stack->obj)); MKLIST(l,t1); t->obj = l; + for ( i = 1; i <= len; i++, in = NEXT(in) ) { + m1 = t->in[i] = BDY((DPM)BDY(in)); + NEWMP(mp); mp->dl = m1->dl; mp->c = m1->c; NEXT(mp) = 0; + nv = ((DPM)BDY(in))->nv; + MKDP(nv,mp,dp); dp->sugar = mp->dl->td; + m0 = stack->sum[m1->pos]; MKDPM(nv,m0,dpm0); + mulobjdpm(CO,(Obj)dp,dpm0,&dpm1); + t->sum[i] = BDY(dpm1); + } + } else { + MKNODE(t1,data,0); MKLIST(l,t1); t->obj = l; + for ( i = 1; i <= len; i++, in = NEXT(in) ) { + t->sum[i] = t->in[i] = BDY((DPM)BDY(in)); + } } - t->next = dmm_stack; - dmm_stack = t; - dpm_ordtype = 2; + t->next = stack;; + dpm_ordtype = 3; + return t; } - // data=[Ink,...,In0] // Ini = a list of module monomials @@ -2670,27 +2705,53 @@ void set_schreyer_order(LIST data) if ( !data ) { dmm_stack = 0; if ( dp_current_spec && dp_current_spec->id >= 256 ) - dpm_ordtype = dp_current_spec->ispot; + dpm_ordtype = dp_current_spec->module_ordtype; else dpm_ordtype = 0; return; } else { + if ( !dp_current_spec || dp_current_spec->id < 256 ) + error("set_schreyer_order : base module order is not set"); dmm_stack = 0; + dpm_base_ordtype = dp_current_spec->module_ordtype; in = BDY(data); len = length(in); w = (LIST *)MALLOC(len*sizeof(LIST)); for ( i = 0; i < len; i++, in = NEXT(in) ) w[i] = (LIST)BDY(in); - for ( i = len-1; i >= 0; i-- ) push_schreyer_order(w[i]); - dpm_ordtype = 2; + for ( i = len-1; i >= 0; i-- ) dmm_stack = push_schreyer_order(w[i],dmm_stack); } } +void set_schreyer_level(DMMstack_array array,int level) +{ + if ( !level ) { + dmm_stack = 0; + if ( dp_current_spec && dp_current_spec->id >= 256 ) + dpm_ordtype = dp_current_spec->module_ordtype; + else + dpm_ordtype = 0; + return; + } else { + if ( !dp_current_spec || dp_current_spec->id < 256 ) + error("set_schreyer_level : base module order is not set"); + if ( level > array->len ) + error("set_schreyer_level : invalid level"); + dmm_stack = array->body[level-1]; + dpm_base_ordtype = dp_current_spec->module_ordtype; + dpm_ordtype = 3; + } +} + // construct a base of syz(g) // assuming the schrerer order is properly set DP dpm_sp_hm(DPM p1,DPM p2); void dpm_sp(DPM p1,DPM p2,DPM *sp,DP *t1,DP *t2); -DP *dpm_nf_and_quotient(NODE b,DPM sp,VECT psv,DPM *nf,P *dn); +DPM dpm_nf_and_quotient3(DPM sp,VECT psv,DPM *nf,P *dn); +DPM dpm_nf_and_quotient4(DPM sp,DPM *ps,VECT psiv,DPM head,DPM *nf,P *dn); +DPM dpm_sp_nf(VECT psv,VECT psiv,int i,int j,DPM *nf); +DPM dpm_sp_nf_zlist(VECT psv,VECT psiv,int i,int j,DPM *nf); +DPM dpm_sp_nf_asir(VECT psv,int i,int j,DPM *nf); void dpm_sort(DPM p,DPM *r); extern int DP_Multiple; @@ -2714,8 +2775,8 @@ NODE dpm_reduceall(NODE in) for ( i = 0, t = in; i < n; i++, t = NEXT(t) ) ps[i] = BDY(t); for ( i = 0; i < n; i++ ) { g = ps[i]; ps[i] = 0; - dpm_nf_z(0,g,psv,1,DP_Multiple,&r); - ps[i] = r; +// dpm_nf_z(0,g,psv,1,DP_Multiple,&ps[i]); + dpm_nf_z(0,g,psv,1,0,&ps[i]); } t = 0; for ( i = n-1; i >= 0; i-- ) { @@ -2725,168 +2786,412 @@ NODE dpm_reduceall(NODE in) return t; } +struct oEGT egra; + +void dpm_ht(DPM d,DPM *r); +NODE reverse_node(NODE b); + void dpm_schreyer_base(LIST g,LIST *s) { - NODE nd,t,b0,b; - int n,i,j,k,nv; - Z cont; - P dn,c; + NODE nd,t0,t,b0,b; + int n,i,j,k,nv,max,pos; + LIST l; DP h,t1,t2; MP d; - DMM r0,r; + DMM r0,r,r1; DPM sp,nf,dpm; DPM *ps; - VECT psv; - DP **m,*quo; - struct oEGT eg_nf,eg0,eg1; - extern struct oEGT egc,egcomp; + VECT psv,psiv; + DPM quo; + DP *mm; + NODE *psi; + NODE n1,n2,n3; + int p1,p2,p3; + struct oEGT eg0,eg1,egsp,egnf; + extern struct oEGT egred; + extern int sch_count,schrec_count,schlast_count; -// init_eg(&eg_nf); -// init_eg(&egcomp); + sch_count = schlast_count= 0; + init_eg(&egra); + init_eg(&egsp); + init_eg(&egnf); nd = BDY(g); n = length(nd); - MKVECT(psv,n); + MKVECT(psv,n+1); ps = (DPM *)BDY(psv); - for ( i = 0, t = nd; i < n; i++, t = NEXT(t) ) ps[i] = (DPM)BDY(t); - nv = ps[0]->nv; - m = (DP **)almat_pointer(n,n); + for ( i = 1, t = nd; i <= n; i++, t = NEXT(t) ) ps[i] = (DPM)BDY(t); + for ( i = 1, max = 0; i <= n; i++ ) + if ( (pos=BDY(ps[i])->pos) > max ) max = pos; + MKVECT(psiv,max+1); + psi = (NODE *)BDY(psiv); + for ( i = n; i >= 1; i-- ) { + pos = BDY(ps[i])->pos; + MKNODE(nd,(long)i,psi[pos]); psi[pos] = nd; + } + nv = ps[1]->nv; + mm = (DP *)MALLOC((n+1)*sizeof(DP)); b0 = 0; -// init_eg(&egc); - for ( i = 0; i < n; i++ ) { - // sp(ps[i],ps[j]) = ti*ps[i]-tj*ps[j] => m[i][j] = ti - for ( j = i+1; j < n; j++ ) m[i][j] = dpm_sp_hm(ps[i],ps[j]); - for ( j = i+1; j < n; j++ ) { -// for ( j = n-1; j > i; j-- ) { - if ( !m[i][j] ) continue; - for ( h = m[i][j], k = i+1; k < n; k++ ) - if ( k != j && m[i][k] && dp_redble(m[i][k],h) ) m[i][k] = 0; + get_eg(&eg0); + for ( i = 1; i <= max; i++ ) { + memset(mm,0,(n+1)*sizeof(DP)); + for ( n1 = psi[i]; n1; n1 = NEXT(n1) ) { + p1 = (long)BDY(n1); + for ( n2 = NEXT(n1); n2; n2 = NEXT(n2) ) { + p2 = (long)BDY(n2); + mm[p2] = dpm_sp_hm(ps[p1],ps[p2]); + } + for ( n2 = NEXT(n1); n2; n2 = NEXT(n2) ) { + p2 = (long)BDY(n2); + if ( !mm[p2] ) continue; + for ( h = mm[p2], n3 = NEXT(n1); n3; n3 = NEXT(n3) ) { + p3 = (long)BDY(n3); + if ( n3 != n2 && mm[p3] && dp_redble(mm[p3],h) ) mm[p3] = 0; + } + } + for ( j = p1+1; j <= n; j++ ) { + if ( mm[j] ) { + quo = dpm_sp_nf(psv,psiv,p1,j,&nf); + if ( nf ) + error("dpm_schreyer_base : cannot happen"); + NEXTNODE(b0,b); BDY(b) = (pointer)quo; + } + } } - for ( j = i+1; j < n; j++ ) { - if ( m[i][j] ) { - dpm_sp(ps[i],ps[j],&sp,&t1,&t2); -// get_eg(&eg0); - quo = dpm_nf_and_quotient(0,sp,psv,&nf,&dn); -// get_eg(&eg1); add_eg(&eg_nf,&eg0,&eg1); - if ( nf ) - error("dpm_schreyer_base : cannot happen"); - NEWDMM(r0); r = r0; - mulp(CO,(P)BDY(t1)->c,dn,(P *)&r->c); r->pos = i+1; r->dl = BDY(t1)->dl; - NEWDMM(NEXT(r)); r=NEXT(r); - mulp(CO,(P)BDY(t2)->c,dn,&c); chsgnp(c,(P *)&r->c); r->pos = j+1; r->dl = BDY(t2)->dl; - if ( quo ) { - for ( k = 0; k < n; k++ ) { - if ( !quo[k] ) continue; - for ( d = BDY(quo[k]); d; d = NEXT(d) ) { - NEXTDMM(r0,r); chsgnp((P)d->c,(P *)&r->c); r->pos = k+1; r->dl = d->dl; - } - } + } + get_eg(&eg1); add_eg(&egsp,&eg0,&eg1); print_eg("SP",&egsp); + get_eg(&eg0); + get_eg(&eg1); add_eg(&egnf,&eg0,&eg1); print_eg("NF",&egnf); printf("\n"); + if ( b0 ) NEXT(b) = 0; + for ( t0 = 0, nd = BDY(g); nd; nd = NEXT(nd) ) { + dpm_ht((DPM)BDY(nd),&dpm); NEXTNODE(t0,t); BDY(t) = (pointer)dpm; + } + if ( t0 ) NEXT(t) = 0; + MKLIST(l,t0); + dmm_stack = push_schreyer_order(l,dmm_stack); +// b0 = dpm_sort_list(b0); +// get_eg(&eg0); +// b0 = dpm_reduceall(b0); +// get_eg(&eg1); add_eg(&egra,&eg0,&eg1); print_eg("RA",&egra); + MKLIST(*s,b0); +// print_eg("red",&egred); printf("\n"); + printf("sch_count=%d, schlast_count=%d\n",sch_count,schlast_count); +} + +void dpm_list_to_array(LIST g,VECT *psvect,VECT *psindvect) +{ + NODE nd,t; + int n; + VECT psv,psiv; + DPM *ps; + int i,max,pos; + LIST *psi; + LIST l; + Z iz; + + nd = BDY(g); + n = length(nd); + MKVECT(psv,n+1); + ps = (DPM *)BDY(psv); + for ( i = 1, t = nd; i <= n; i++, t = NEXT(t) ) ps[i] = (DPM)BDY(t); + for ( i = 1, max = 0; i <= n; i++ ) + if ( (pos=BDY(ps[i])->pos) > max ) max = pos; + MKVECT(psiv,max+1); + psi = (LIST *)BDY(psiv); + for ( i = 0; i <= max; i++ ) { + MKLIST(l,0); psi[i] = l; + } + for ( i = n; i >= 1; i-- ) { + pos = BDY(ps[i])->pos; + STOZ(i,iz); MKNODE(nd,iz,BDY(psi[pos])); BDY(psi[pos]) = nd; + } + *psvect = psv; *psindvect = psiv; +} + +void dpm_insert_to_zlist(VECT psiv,int pos,int i) +{ + LIST l; + NODE prev,cur,nd; + int curi; + Z iz; + + l = (LIST)BDY(psiv)[pos]; + for ( prev = 0, cur = BDY(l); cur; cur = NEXT(cur) ) { + curi = ZTOS((Q)BDY(cur)); + if ( curi == i ) + error("dpm_insert_to_list : invalid index"); + if ( i < curi ) break; + prev = cur; + } + STOZ(i,iz); MKNODE(nd,iz,cur); + if ( prev == 0 ) BDY(l) = nd; + else NEXT(prev) = nd; +} + +void dpm_schreyer_base_zlist(LIST g,LIST *s) +{ + NODE nd,t0,t,b0,b; + int n,i,j,k,nv,max,pos; + LIST l; + DP h,t1,t2; + MP d; + DMM r0,r,r1; + DPM sp,nf,dpm; + DPM *ps; + VECT psv,psiv; + DPM quo; + DP *mm; + LIST *psi; + NODE n1,n2,n3; + int p1,p2,p3; + Z iz; + struct oEGT eg0,eg1,egsp,egnf; + extern struct oEGT egred; + extern int sch_count,schrec_count,schlast_count; + + sch_count = schlast_count= 0; + init_eg(&egra); + init_eg(&egsp); + init_eg(&egnf); + dpm_list_to_array(g,&psv,&psiv); + ps = (DPM *)BDY(psv); + psi = (LIST *)BDY(psiv); + nv = ps[1]->nv; + n = psv->len-1; + max = psiv->len-1; + mm = (DP *)MALLOC((n+1)*sizeof(DP)); + b0 = 0; + get_eg(&eg0); + for ( i = 1; i <= max; i++ ) { + memset(mm,0,(n+1)*sizeof(DP)); + for ( n1 = BDY((LIST)psi[i]); n1; n1 = NEXT(n1) ) { + p1 = ZTOS((Q)BDY(n1)); + for ( n2 = NEXT(n1); n2; n2 = NEXT(n2) ) { + p2 = ZTOS((Q)BDY(n2)); + mm[p2] = dpm_sp_hm(ps[p1],ps[p2]); + } + for ( n2 = NEXT(n1); n2; n2 = NEXT(n2) ) { + p2 = ZTOS((Q)BDY(n2)); + if ( !mm[p2] ) continue; + for ( h = mm[p2], n3 = NEXT(n1); n3; n3 = NEXT(n3) ) { + p3 = ZTOS((Q)BDY(n3)); + if ( n3 != n2 && mm[p3] && dp_redble(mm[p3],h) ) mm[p3] = 0; } - NEXT(r) = 0; - MKDPM(nv,r0,dpm); // XXX : sugar is not set - NEXTNODE(b0,b); - BDY(b) = (pointer)dpm; } + for ( j = p1+1; j <= n; j++ ) { + if ( mm[j] ) { + quo = dpm_sp_nf_zlist(psv,psiv,p1,j,&nf); + if ( nf ) + error("dpm_schreyer_base : cannot happen"); + NEXTNODE(b0,b); BDY(b) = (pointer)quo; + } + } } - if ( b0 ) NEXT(b) = 0; } - push_schreyer_order(g); - for ( t = b0; t; t = NEXT(t) ) { - dpm_sort((DPM)BDY(t),&dpm); - BDY(t) = (pointer)dpm; + get_eg(&eg1); add_eg(&egsp,&eg0,&eg1); print_eg("SP",&egsp); + get_eg(&eg0); + get_eg(&eg1); add_eg(&egnf,&eg0,&eg1); print_eg("NF",&egnf); printf("\n"); + if ( b0 ) NEXT(b) = 0; + for ( t0 = 0, nd = BDY(g); nd; nd = NEXT(nd) ) { + dpm_ht((DPM)BDY(nd),&dpm); NEXTNODE(t0,t); BDY(t) = (pointer)dpm; } - b0 = dpm_sort_list(b0); + if ( t0 ) NEXT(t) = 0; + MKLIST(l,t0); + dmm_stack = push_schreyer_order(l,dmm_stack); +// b0 = dpm_sort_list(b0); +// get_eg(&eg0); // b0 = dpm_reduceall(b0); +// get_eg(&eg1); add_eg(&egra,&eg0,&eg1); print_eg("RA",&egra); MKLIST(*s,b0); -// print_eg("nf",&eg_nf); printf("\n"); -// print_eg("coef",&egc); printf("\n"); +// print_eg("red",&egred); printf("\n"); + printf("sch_count=%d, schlast_count=%d\n",sch_count,schlast_count); } +DMMstack_array dpm_schreyer_frame(NODE g) +{ + LIST l; + NODE nd,in,b0,b,n1,n2,n3,t; + NODE *psi; + long p1,p2,p3; + int nv,n,i,max,pos,level; + DMMstack s,s1; + DMM m1,m0,dmm; + MP mp; + DP dp,h; + DP *m; + DPM dpm,dpm0,dpm1; + VECT psv,psiv; + DPM *ps; + DMMstack_array dmmstack_array; + + nd = g; + nv = ((DPM)BDY(nd))->nv; + s = 0; + level = 0; + while ( 1 ) { + /* store the current nd to a DMMstack */ + n = length(nd); + NEWDMMstack(s1); + MKLIST(l,nd); s1->obj = l; + s1->rank = n; + s1->in = (DMM *)MALLOC((n+1)*sizeof(DMM)); + s1->sum = (DMM *)MALLOC((n+1)*sizeof(DMM)); + NEXT(s1) = s; + if ( s ) { + for ( i = 1, in = nd; i <= n; i++, in = NEXT(in) ) { + m1 = s1->in[i] = BDY((DPM)BDY(in)); + NEWMP(mp); mp->dl = m1->dl; mp->c = m1->c; NEXT(mp) = 0; + MKDP(nv,mp,dp); dp->sugar = mp->dl->td; + m0 = s->sum[m1->pos]; MKDPM(nv,m0,dpm0); + mulobjdpm(CO,(Obj)dp,dpm0,&dpm1); + s1->sum[i] = BDY(dpm1); + } + } else { + for ( i = 1, in = nd; i <= n; i++, in = NEXT(in) ) { + m0 = BDY((DPM)BDY(in)); + NEWDMM(m1); *m1 = *m0; m1->c = (Obj)ONE; NEXT(m1) = 0; + s1->sum[i] = s1->in[i] = m1; + } + } + s = s1; + level++; + + + /* create new list */ + MKVECT(psv,n+1); + ps = (DPM *)BDY(psv); + for ( i = 1, t = nd; i <= n; i++, t = NEXT(t) ) ps[i] = (DPM)BDY(t); + for ( i = 1, max = 0; i <= n; i++ ) + if ( (pos=BDY(ps[i])->pos) > max ) max = pos; + MKVECT(psiv,max+1); + psi = (NODE *)BDY(psiv); + for ( i = n; i >= 1; i-- ) { + pos = BDY(ps[i])->pos; + MKNODE(nd,(long)i,psi[pos]); psi[pos] = nd; + } + m = (DP *)MALLOC((n+1)*sizeof(DP)); + b0 = 0; + for ( i = 1; i <= max; i++ ) { + for ( n1 = psi[i]; n1; n1 = NEXT(n1) ) { + bzero(m,(n+1)*sizeof(DP)); + p1 = (long)BDY(n1); + for ( n2 = NEXT(n1); n2; n2 = NEXT(n2) ) { + p2 = (long)BDY(n2); + h = dpm_sp_hm(ps[p1],ps[p2]); + for ( n3 = NEXT(n1); n3 != n2; n3 = NEXT(n3) ) { + p3 = (long)BDY(n3); + if ( m[p3] ) { + if ( dp_redble(h,m[p3]) ) { + h = 0; break; + } + if ( dp_redble(m[p3],h) ) m[p3] = 0; + } + } + if ( h ) m[p2] = h; + } + for ( n2 = NEXT(n1); n2; n2 = NEXT(n2) ) { + p2 = (long)BDY(n2); + if ( m[p2] ) { + NEWDMM(dmm); dmm->dl = BDY(m[p2])->dl; dmm->pos = p1; dmm->c = (Obj)ONE; + MKDPM(nv,dmm,dpm); + NEXTNODE(b0,b); BDY(b) = (pointer)dpm; + } + } + } + } + if ( !b0 ) { + NEWDMMstack_array(dmmstack_array); + dmmstack_array->len = level; + dmmstack_array->body = (DMMstack *)MALLOC(level*sizeof(DMMstack)); + for ( i = level-1, s1 = s; i >= 0; i--, s1 = NEXT(s1) ) + dmmstack_array->body[i] = s1; + return dmmstack_array; + } else { + NEXT(b) = 0; + nd = b0; + } + } +} + +int sch_count,schlast_count; + int compdmm_schreyer(int n,DMM m1,DMM m2) { - int pos1,pos2,t; - DMM *in; - DMMstack s; - static DL d1=0,d2=0; - static int dlen=0; + int pos1,pos2,t,npos1,npos2; + DMM *in,*sum; + DMMstack s; + static DL d1=0,d2=0; + static int dlen=0; - pos1 = m1->pos; pos2 = m2->pos; - if ( pos1 == pos2 ) return (*cmpdl)(n,m1->dl,m2->dl); - if ( n > dlen ) { - NEWDL(d1,n); NEWDL(d2,n); dlen = n; - } - _copydl(n,m1->dl,d1); - _copydl(n,m2->dl,d2); - for ( s = dmm_stack; s; s = NEXT(s) ) { - in = s->in; - _addtodl(n,in[pos1]->dl,d1); - _addtodl(n,in[pos2]->dl,d2); - if ( in[pos1]->pos == in[pos2]->pos && _eqdl(n,d1,d2)) { - if ( pos1 < pos2 ) return 1; - else if ( pos1 > pos2 ) return -1; - else return 0; - } - pos1 = in[pos1]->pos; - pos2 = in[pos2]->pos; - if ( pos1 == pos2 ) return (*cmpdl)(n,d1,d2); - } - // comparison by the bottom order -LAST: - if ( dpm_ordtype == 1 ) { + sch_count++; + pos1 = m1->pos; pos2 = m2->pos; + if ( pos1 == pos2 ) return (*cmpdl)(n,m1->dl,m2->dl); + if ( n > dlen ) { + NEWDL(d1,n); NEWDL(d2,n); dlen = n; + } + sum = dmm_stack->sum; + _adddl(n,m1->dl,sum[pos1]->dl,d1); + _adddl(n,m2->dl,sum[pos2]->dl,d2); + t = (*cmpdl)(n,d1,d2); + if ( sum[pos1]->pos == sum[pos2]->pos && t == 0 ) { + for ( s = dmm_stack; s; s = NEXT(s) ) { + in = s->in; + npos1 = in[pos1]->pos; + npos2 = in[pos2]->pos; + if ( npos1 == npos2 ) break; + else { + pos1 = npos1; + pos2 = npos2; + } + } + // (pos1,pos2) = the last pair s.t. pos1 != pos2 + // simply compare pos1 and pos2 if ( pos1 < pos2 ) return 1; else if ( pos1 > pos2 ) return -1; - else return (*cmpdl)(n,d1,d2); } else { - t = (*cmpdl)(n,d1,d2); - if ( t ) return t; - else if ( pos1 < pos2 ) return 1; - else if ( pos1 > pos2 ) return -1; - else return 0; + schlast_count++; + pos1 = sum[pos1]->pos; + pos2 = sum[pos2]->pos; + if ( dpm_base_ordtype == 1 ) { + if ( pos1 < pos2 ) return 1; + else if ( pos1 > pos2 ) return -1; + else return t; + } else { + if ( t ) return t; + else if ( pos1 < pos2 ) return 1; + else if ( pos1 > pos2 ) return -1; + else return 0; + } } } -#if 1 int compdmm(int n,DMM m1,DMM m2) { int t; switch ( dpm_ordtype ) { - case 0: + case 0: /* TOP ord->pos */ t = (*cmpdl)(n,m1->dl,m2->dl); if ( t ) return t; else if ( m1->pos < m2->pos ) return 1; else if ( m1->pos > m2->pos ) return -1; else return 0; - case 1: + case 1: /* POT : pos->ord */ if ( m1->pos < m2->pos ) return 1; else if ( m1->pos > m2->pos ) return -1; else return (*cmpdl)(n,m1->dl,m2->dl); - case 2: + case 2: /* wPOT: weight->pos->ord */ + if ( m1->dl->td > m2->dl->td ) return 1; + else if ( m1->dl->td < m2->dl->td ) return 1; + else if ( m1->pos < m2->pos ) return 1; + else if ( m1->pos > m2->pos ) return -1; + else return (*cmpdl)(n,m1->dl,m2->dl); + case 3: /* Schreyer */ return compdmm_schreyer(n,m1,m2); default: error("compdmm : invalid dpm_ordtype"); } } -#else -int compdmm(int n,DMM m1,DMM m2) -{ - int t; - if ( dpm_ordtype == 1 ) { - if ( m1->pos < m2->pos ) return 1; - else if ( m1->pos > m2->pos ) return -1; - else return (*cmpdl)(n,m1->dl,m2->dl); - } else if ( dpm_ordtype == 0 ) { - t = (*cmpdl)(n,m1->dl,m2->dl); - if ( t ) return t; - else if ( m1->pos < m2->pos ) return 1; - else if ( m1->pos > m2->pos ) return -1; - else return 0; - } else if ( dpm_ordtype == 2 ) { - return compdmm_schreyer(n,m1,m2); - } -} -#endif - void adddpm(VL vl,DPM p1,DPM p2,DPM *pr) { int n,s; @@ -2965,6 +3270,26 @@ void chsgndpm(DPM p,DPM *pr) } } +void mulcmp(Obj c,MP m) +{ + MP t; + Obj c1; + + for ( t = m; t; t = NEXT(t) ) { + arf_mul(CO,c,C(t),&c1); C(t) = c1; + } +} + +void mulcdmm(Obj c,DMM m) +{ + DMM t; + Obj c1; + + for ( t = m; t; t = NEXT(t) ) { + arf_mul(CO,c,C(t),&c1); C(t) = c1; + } +} + void mulcdpm(VL vl,Obj c,DPM p,DPM *pr) { DMM m,mr=0,mr0; @@ -3119,28 +3444,42 @@ int compdpm(VL vl,DPM p1,DPM p2) } } +void dpm_removecont2(DPM p1,DPM p2,DPM *r1p,DPM *r2p,Z *contp); + // p = ...+c*<<0,...0:pos>>+... DPM dpm_eliminate_term(DPM a,DPM p,Obj c,int pos) { MP d0,d; + DL dl; DMM m; DP f; - DPM a1,p1,r; + DPM a1,p1,r,r1,dmy; + Z dmyz; if ( !a ) return 0; d0 = 0; for ( m = BDY(a); m; m = NEXT(m) ) if ( m->pos == pos ) { - NEXTMP(d0,d); d->dl = m->dl; arf_chsgn(m->c,&d->c); + NEXTMP(d0,d); + arf_chsgn(m->c,&d->c); + if ( !dp_current_spec || !dp_current_spec->module_rank ) + d->dl = m->dl; + else { + NEWDL(dl,NV(a)); + _copydl(NV(a),m->dl,dl); + dl->td -= dp_current_spec->module_top_weight[pos-1]; + d->dl = dl; + } } if ( d0 ) { - NEXT(d) = 0; MKDP(NV(a),d,f); + NEXT(d) = 0; MKDP(NV(a),d0,f); + mulcdpm(CO,c,a,&a1); + mulobjdpm(CO,(Obj)f,p,&p1); + adddpm(CO,a1,p1,&r); + dpm_removecont2(0,r,&dmy,&r1,&dmyz); + return r1; } else - f = 0; - mulcdpm(CO,c,a,&a1); - mulobjdpm(CO,(Obj)f,p,&p1); - adddpm(CO,a1,p1,&r); - return r; + return a; } // <<...:i>> -> <<...:tab[i]>> @@ -3153,7 +3492,7 @@ DPM dpm_compress(DPM p,int *tab) else { for ( m = BDY(p), mr0 = 0; m; m = NEXT(m) ) { NEXTDMM(mr0,mr); - mr->dl = m->dl; mr->c = m->c; mr->pos = tab[mr->pos]; + mr->dl = m->dl; mr->c = m->c; mr->pos = tab[m->pos]; if ( mr->pos <= 0 ) error("dpm_compress : invalid position"); } @@ -3164,14 +3503,15 @@ DPM dpm_compress(DPM p,int *tab) } // input : s, s = syz(m) output simplified s, m -void dpm_simplify_syz(LIST m,LIST s,LIST *m1,LIST *s1) +void dpm_simplify_syz(LIST s,LIST m,LIST *s1,LIST *m1,LIST *w1) { - int lm,ls,i,j,pos; + int lm,ls,i,j,k,pos,nv; DPM *am,*as; DPM p; DMM d; Obj c; - int *tab; + Z q; + int *tab,*dd,*new_w; NODE t,t1; lm = length(BDY(m)); @@ -3179,16 +3519,23 @@ void dpm_simplify_syz(LIST m,LIST s,LIST *m1,LIST *s1) ls = length(BDY(s)); as = (DPM *)MALLOC(ls*sizeof(DPM)); for ( i = 1, t = BDY(m); i <= lm; i++, t = NEXT(t) ) am[i] = (DPM)BDY(t); - for ( i = 0, t = BDY(m); i < ls; i++, t = NEXT(t) ) as[i] = (DPM)BDY(t); + for ( i = 0, t = BDY(s); i < ls; i++, t = NEXT(t) ) as[i] = (DPM)BDY(t); for ( i = 0; i < ls; i++ ) { p = as[i]; - for ( d = BDY(p); d; d = NEXT(d) ) if ( d->dl->td == 0 ) break; + if ( p == 0 ) continue; + nv = NV(p); + for ( d = BDY(p); d; d = NEXT(d) ) { + dd = d->dl->d; + for ( k = 0; k < nv; k++ ) if ( dd[k] ) break; + if ( k == nv ) break; + } if ( d ) { c = d->c; pos = d->pos; for ( j = 0; j < ls; j++ ) - if ( j != i ) + if ( j != i ) { as[j] = dpm_eliminate_term(as[j],p,c,pos); + } // remove m[i] am[pos] = 0; as[i] = 0; @@ -3200,7 +3547,7 @@ void dpm_simplify_syz(LIST m,LIST s,LIST *m1,LIST *s1) tab = (int *)MALLOC((lm+1)*sizeof(int)); for ( j = 0, i = 1; i <= lm; i++ ) { if ( am[i] ) { j++; tab[i] = j; } - else tab[i] = 0; + else { tab[i] = 0; } } t = 0; for ( i = ls-1; i >= 0; i-- ) @@ -3209,6 +3556,20 @@ void dpm_simplify_syz(LIST m,LIST s,LIST *m1,LIST *s1) MKNODE(t1,(pointer)p,t); t = t1; } MKLIST(*s1,t); + + if ( dp_current_spec && dp_current_spec->module_rank ) { + new_w = (int *)MALLOC(j*sizeof(int)); + for ( j = 0, i = 1; i <= lm; i++ ) + if ( tab[i] ) { new_w[j++] = dp_current_spec->module_top_weight[i-1]; } + t = 0; + for ( i = j-1; i >= 0; i-- ) { + STOZ(new_w[i],q); + MKNODE(t1,q,t); t = t1; + } + } else + t = 0; + MKLIST(*w1,t); + t = 0; for ( i = lm; i >= 1; i-- ) if ( am[i] ) {