| version 1.1.1.1, 1999/12/03 07:39:07 |
version 1.8, 2000/08/21 08:31:19 |
|
|
| /* $OpenXM: OpenXM/src/asir99/builtin/gr.c,v 1.2 1999/11/18 05:42:01 noro Exp $ */ |
/* |
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* Copyright (c) 1994-2000 FUJITSU LABORATORIES LIMITED |
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* All rights reserved. |
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* |
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* FUJITSU LABORATORIES LIMITED ("FLL") hereby grants you a limited, |
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* non-exclusive and royalty-free license to use, copy, modify and |
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* redistribute, solely for non-commercial and non-profit purposes, the |
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* computer program, "Risa/Asir" ("SOFTWARE"), subject to the terms and |
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* conditions of this Agreement. For the avoidance of doubt, you acquire |
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* only a limited right to use the SOFTWARE hereunder, and FLL or any |
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* third party developer retains all rights, including but not limited to |
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* copyrights, in and to the SOFTWARE. |
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* |
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* (1) FLL does not grant you a license in any way for commercial |
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* purposes. You may use the SOFTWARE only for non-commercial and |
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* non-profit purposes only, such as academic, research and internal |
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* business use. |
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* (2) The SOFTWARE is protected by the Copyright Law of Japan and |
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* international copyright treaties. If you make copies of the SOFTWARE, |
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* with or without modification, as permitted hereunder, you shall affix |
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* to all such copies of the SOFTWARE the above copyright notice. |
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* (3) An explicit reference to this SOFTWARE and its copyright owner |
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* shall be made on your publication or presentation in any form of the |
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* results obtained by use of the SOFTWARE. |
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* (4) In the event that you modify the SOFTWARE, you shall notify FLL by |
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* e-mail at risa-admin@flab.fujitsu.co.jp of the detailed specification |
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* for such modification or the source code of the modified part of the |
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* SOFTWARE. |
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* |
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* THE SOFTWARE IS PROVIDED AS IS WITHOUT ANY WARRANTY OF ANY KIND. FLL |
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* MAKES ABSOLUTELY NO WARRANTIES, EXPRESSED, IMPLIED OR STATUTORY, AND |
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* EXPRESSLY DISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS |
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* FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF THIRD PARTIES' |
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* RIGHTS. NO FLL DEALER, AGENT, EMPLOYEES IS AUTHORIZED TO MAKE ANY |
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* MODIFICATIONS, EXTENSIONS, OR ADDITIONS TO THIS WARRANTY. |
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* UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY, TORT, CONTRACT, |
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* OR OTHERWISE, SHALL FLL BE LIABLE TO YOU OR ANY OTHER PERSON FOR ANY |
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* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, PUNITIVE OR CONSEQUENTIAL |
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* DAMAGES OF ANY CHARACTER, INCLUDING, WITHOUT LIMITATION, DAMAGES |
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* ARISING OUT OF OR RELATING TO THE SOFTWARE OR THIS AGREEMENT, DAMAGES |
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* FOR LOSS OF GOODWILL, WORK STOPPAGE, OR LOSS OF DATA, OR FOR ANY |
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* DAMAGES, EVEN IF FLL SHALL HAVE BEEN INFORMED OF THE POSSIBILITY OF |
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* SUCH DAMAGES, OR FOR ANY CLAIM BY ANY OTHER PARTY. EVEN IF A PART |
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* OF THE SOFTWARE HAS BEEN DEVELOPED BY A THIRD PARTY, THE THIRD PARTY |
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* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
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* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
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* |
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* $OpenXM: OpenXM_contrib2/asir2000/builtin/gr.c,v 1.7 2000/07/14 08:26:39 noro Exp $ |
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*/ |
| #include "ca.h" |
#include "ca.h" |
| #include "parse.h" |
#include "parse.h" |
| #include "base.h" |
#include "base.h" |
| Line 33 int TP,NBP,NMP,NFP,NDP,ZR,NZR; |
|
| Line 81 int TP,NBP,NMP,NFP,NDP,ZR,NZR; |
|
| #define NEWDP_pairs ((DP_pairs)MALLOC(sizeof(struct dp_pairs))) |
#define NEWDP_pairs ((DP_pairs)MALLOC(sizeof(struct dp_pairs))) |
| |
|
| extern int (*cmpdl)(); |
extern int (*cmpdl)(); |
| |
extern int do_weyl; |
| |
|
| void Pdp_gr_flags(), Pdp_gr_print(); |
void Pdp_gr_flags(), Pdp_gr_print(); |
| void Pdp_gr_main(),Pdp_gr_mod_main(),Pdp_f4_main(),Pdp_f4_mod_main(); |
void Pdp_gr_main(),Pdp_gr_mod_main(),Pdp_f4_main(),Pdp_f4_mod_main(); |
| Line 41 void print_stat(void); |
|
| Line 90 void print_stat(void); |
|
| void init_stat(void); |
void init_stat(void); |
| int dp_load_t(int,DP *); |
int dp_load_t(int,DP *); |
| void dp_load(int,DP *); |
void dp_load(int,DP *); |
| void dp_save(int,DP); |
void dp_save(int,Obj,char *); |
| void dp_make_flaglist(LIST *); |
void dp_make_flaglist(LIST *); |
| void dp_set_flag(Obj,Obj); |
void dp_set_flag(Obj,Obj); |
| int membercheck(NODE,NODE); |
int membercheck(NODE,NODE); |
| Line 93 void dp_gr_main(LIST,LIST,Num,int,struct order_spec *, |
|
| Line 142 void dp_gr_main(LIST,LIST,Num,int,struct order_spec *, |
|
| void dp_f4_main(LIST,LIST,struct order_spec *,LIST *); |
void dp_f4_main(LIST,LIST,struct order_spec *,LIST *); |
| void dp_f4_mod_main(LIST,LIST,int,struct order_spec *,LIST *); |
void dp_f4_mod_main(LIST,LIST,int,struct order_spec *,LIST *); |
| double get_rtime(); |
double get_rtime(); |
| void dp_symb(DP,DP *); |
|
| void _dpmod_to_vect(DP,DL *,int *); |
void _dpmod_to_vect(DP,DL *,int *); |
| void dp_to_vect(DP,DL *,Q *); |
void dp_to_vect(DP,DL *,Q *); |
| |
NODE dp_dllist(DP f),symb_merge(NODE,NODE,int); |
| |
|
| extern int dp_nelim; |
extern int dp_nelim; |
| extern int dp_fcoeffs; |
extern int dp_fcoeffs; |
| Line 126 static char *Demand = 0; |
|
| Line 175 static char *Demand = 0; |
|
| static int PtozpRA = 0; |
static int PtozpRA = 0; |
| LIST Dist = 0; |
LIST Dist = 0; |
| int NoGCD = 0; |
int NoGCD = 0; |
| |
int GenTrace = 0; |
| |
int OXCheck = -1; |
| int doing_f4; |
int doing_f4; |
| |
NODE TraceList; |
| |
|
| void Pdp_gr_flags(arg,rp) |
void Pdp_gr_flags(arg,rp) |
| NODE arg; |
NODE arg; |
|
|
| return 0; |
return 0; |
| } |
} |
| |
|
| |
/* b[] should be cleared */ |
| |
|
| void _dpmod_to_vect(f,at,b) |
void _dpmod_to_vect(f,at,b) |
| DP f; |
DP f; |
| DL *at; |
DL *at; |
|
|
| } |
} |
| } |
} |
| |
|
| void dp_symb(f,rp) |
NODE dp_dllist(f) |
| DP f; |
DP f; |
| DP *rp; |
|
| { |
{ |
| MP mp,mp0,m; |
MP m; |
| DP r; |
NODE mp,mp0; |
| |
|
| if ( !f ) { |
if ( !f ) |
| *rp = 0; return; |
return 0; |
| } |
|
| mp0 = 0; |
mp0 = 0; |
| for ( m = BDY(f); m; m = NEXT(m) ) { |
for ( m = BDY(f); m; m = NEXT(m) ) { |
| NEXTMP(mp0,mp); mp->dl = m->dl; mp->c = (P)ONE; |
NEXTNODE(mp0,mp); BDY(mp) = (pointer)m->dl; |
| } |
} |
| NEXT(mp) = 0; |
NEXT(mp) = 0; |
| MKDP(f->nv,mp0,r); r->sugar = f->sugar; |
return mp0; |
| *rp = r; |
|
| } |
} |
| |
|
| |
void pdl(f) |
| |
NODE f; |
| |
{ |
| |
while ( f ) { |
| |
printdl(BDY(f)); f = NEXT(f); |
| |
} |
| |
fflush(stdout); |
| |
printf("\n"); |
| |
} |
| |
|
| void dp_gr_main(f,v,homo,modular,ord,rp) |
void dp_gr_main(f,v,homo,modular,ord,rp) |
| LIST f,v; |
LIST f,v; |
| Num homo; |
Num homo; |
|
|
| int i; |
int i; |
| struct order_spec ord1; |
struct order_spec ord1; |
| VL fv,vv,vc; |
VL fv,vv,vc; |
| DP b,c; |
DP b,c,c1; |
| NODE fd,fd0,fi,fi0,r,r0,t,subst,x,s,xx; |
NODE fd,fd0,fi,fi0,r,r0,t,subst,x,s,xx; |
| |
|
| dp_fcoeffs = 0; |
dp_fcoeffs = 0; |
|
|
| for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) { |
for ( fd0 = 0, t = BDY(f); t; t = NEXT(t) ) { |
| ptod(CO,vv,(P)BDY(t),&b); |
ptod(CO,vv,(P)BDY(t),&b); |
| _dp_mod(b,m,0,&c); |
_dp_mod(b,m,0,&c); |
| |
_dp_monic(c,m,&c1); |
| if ( c ) { |
if ( c ) { |
| NEXTNODE(fd0,fd); BDY(fd) = (pointer)c; |
NEXTNODE(fd0,fd); BDY(fd) = (pointer)c1; |
| } |
} |
| } |
} |
| if ( fd0 ) NEXT(fd) = 0; |
if ( fd0 ) NEXT(fd) = 0; |
|
|
| { |
{ |
| int i,j,k,nh,row,col,nv; |
int i,j,k,nh,row,col,nv; |
| NODE r,g,gall; |
NODE r,g,gall; |
| |
NODE s,s0; |
| DP_pairs d,dm,dr,t; |
DP_pairs d,dm,dr,t; |
| DP h,nf,nf1,s,s0,s1,f1,f2,f21,f21r,sp,sp1,sd,sdm; |
DP h,nf,nf1,f1,f2,f21,f21r,sp,sp1,sd,sdm,tdp; |
| MP mp,mp0; |
MP mp,mp0; |
| NODE blist,bt,nt; |
NODE blist,bt,nt; |
| DL *ht,*at; |
DL *ht,*at; |
|
|
| dp_sp(ps[t->dp1],ps[t->dp2],&sp); |
dp_sp(ps[t->dp1],ps[t->dp2],&sp); |
| if ( sp ) { |
if ( sp ) { |
| MKNODE(bt,sp,blist); blist = bt; |
MKNODE(bt,sp,blist); blist = bt; |
| dp_symb(sp,&sp1); |
s0 = symb_merge(s0,dp_dllist(sp),nv); |
| symb_addd(s0,sp1,&s1); s0 = s1; |
|
| } |
} |
| } |
} |
| /* s0 : all the terms appeared in symbolic redunction */ |
/* s0 : all the terms appeared in symbolic redunction */ |
| s = s0; |
for ( s = s0, nred = 0; s; s = NEXT(s) ) { |
| nred = 0; |
|
| while ( s ) { |
|
| for ( r = gall; r; r = NEXT(r) ) |
for ( r = gall; r; r = NEXT(r) ) |
| if ( dp_redble(s,ps[(int)BDY(r)] ) ) |
if ( _dl_redble(BDY(ps[(int)BDY(r)])->dl,BDY(s),nv) ) |
| break; |
break; |
| if ( r ) { |
if ( r ) { |
| dp_subd(s,ps[(int)BDY(r)],&sd); |
dltod(BDY(s),nv,&tdp); |
| |
dp_subd(tdp,ps[(int)BDY(r)],&sd); |
| muld(CO,sd,ps[(int)BDY(r)],&f2); |
muld(CO,sd,ps[(int)BDY(r)],&f2); |
| MKNODE(bt,f2,blist); blist = bt; |
MKNODE(bt,f2,blist); blist = bt; |
| dp_symb(f2,&f21); symb_addd(s0,f21,&s1); s0 = s1; |
s = symb_merge(s,dp_dllist(f2),nv); |
| dp_rest(f21,&f21r); |
|
| dp_rest(s,&s1); symb_addd(s1,f21r,&s); |
|
| nred++; |
nred++; |
| } else { |
|
| dp_rest(s,&s1); s = s1; |
|
| } |
} |
| } |
} |
| |
|
|
|
| ht = (DL *)MALLOC(nred*sizeof(DL)); |
ht = (DL *)MALLOC(nred*sizeof(DL)); |
| for ( r = blist, i = 0; i < nred; r = NEXT(r), i++ ) |
for ( r = blist, i = 0; i < nred; r = NEXT(r), i++ ) |
| ht[i] = BDY((DP)BDY(r))->dl; |
ht[i] = BDY((DP)BDY(r))->dl; |
| for ( mp = BDY(s0), col = 0; mp; mp = NEXT(mp), col++ ); |
for ( s = s0, col = 0; s; s = NEXT(s), col++ ); |
| at = (DL *)MALLOC(col*sizeof(DL)); |
at = (DL *)MALLOC(col*sizeof(DL)); |
| for ( mp = BDY(s0), i = 0; i < col; mp = NEXT(mp), i++ ) |
for ( s = s0, i = 0; i < col; s = NEXT(s), i++ ) |
| at[i] = mp->dl; |
at[i] = (DL)BDY(s); |
| MKMAT(mat,row,col); |
MKMAT(mat,row,col); |
| for ( i = 0, r = blist; i < row; r = NEXT(r), i++ ) |
for ( i = 0, r = blist; i < row; r = NEXT(r), i++ ) |
| dp_to_vect(BDY(r),at,(Q *)mat->body[i]); |
dp_to_vect(BDY(r),at,(Q *)mat->body[i]); |
|
|
| fprintf(asir_out,"mat : %d x %d",row,col); |
fprintf(asir_out,"mat : %d x %d",row,col); |
| fflush(asir_out); |
fflush(asir_out); |
| } |
} |
| |
#if 0 |
| |
rank = generic_gauss_elim_hensel(mat,&nm,&dn,&rind,&cind); |
| |
#else |
| rank = generic_gauss_elim(mat,&nm,&dn,&rind,&cind); |
rank = generic_gauss_elim(mat,&nm,&dn,&rind,&cind); |
| |
#endif |
| if ( Print ) |
if ( Print ) |
| fprintf(asir_out,"done rank = %d\n",rank,row,col); |
fprintf(asir_out,"done rank = %d\n",rank,row,col); |
| for ( i = 0; i < rank; i++ ) { |
for ( i = 0; i < rank; i++ ) { |
|
|
| return g; |
return g; |
| } |
} |
| |
|
| |
/* initial bases are monic */ |
| |
|
| NODE gb_f4_mod(f,m) |
NODE gb_f4_mod(f,m) |
| NODE f; |
NODE f; |
| int m; |
int m; |
| { |
{ |
| int i,j,k,nh,row,col,nv; |
int i,j,k,nh,row,col,nv; |
| NODE r,g,gall; |
NODE r,g,gall; |
| |
NODE s,s0; |
| DP_pairs d,dm,dr,t; |
DP_pairs d,dm,dr,t; |
| DP h,nf,s,s0,s1,f1,f2,f21,f21r,sp,sp1,sd,sdm; |
DP h,nf,f1,f2,f21,f21r,sp,sp1,sd,sdm,tdp; |
| MP mp,mp0; |
MP mp,mp0; |
| NODE blist,bt,nt; |
NODE blist,bt,nt; |
| DL *ht,*at; |
DL *ht,*at,*st; |
| int **mat; |
int **spmat,**redmat; |
| int *colstat; |
int *colstat,*w; |
| int rank,nred,nonzero; |
int rank,nred,nsp,nonzero,spcol; |
| struct oEGT tmp0,tmp1,tmp2,eg_split_symb,eg_split_elim; |
int *indred,*isred,*ri; |
| extern struct oEGT eg_symb,eg_elim; |
struct oEGT tmp0,tmp1,tmp2,eg_split_symb,eg_split_elim1,eg_split_elim2; |
| |
extern struct oEGT eg_symb,eg_elim1,eg_elim2; |
| |
|
| init_eg(&eg_symb); init_eg(&eg_elim); |
init_eg(&eg_symb); init_eg(&eg_elim1); init_eg(&eg_elim2); |
| for ( gall = g = 0, d = 0, r = f; r; r = NEXT(r) ) { |
for ( gall = g = 0, d = 0, r = f; r; r = NEXT(r) ) { |
| i = (int)BDY(r); |
i = (int)BDY(r); |
| d = updpairs(d,g,i); |
d = updpairs(d,g,i); |
|
|
| _dp_sp_mod(ps[t->dp1],ps[t->dp2],m,&sp); |
_dp_sp_mod(ps[t->dp1],ps[t->dp2],m,&sp); |
| if ( sp ) { |
if ( sp ) { |
| MKNODE(bt,sp,blist); blist = bt; |
MKNODE(bt,sp,blist); blist = bt; |
| dp_symb(sp,&sp1); |
s0 = symb_merge(s0,dp_dllist(sp),nv); |
| addd(CO,s0,sp1,&s1); s0 = s1; |
|
| } |
} |
| } |
} |
| /* s0 : all the terms appeared in symbolic redunction */ |
/* s0 : all the terms appeared in symbolic redunction */ |
| s = s0; |
for ( s = s0, nred = 0; s; s = NEXT(s) ) { |
| nred = 0; |
|
| while ( s ) { |
|
| for ( r = gall; r; r = NEXT(r) ) |
for ( r = gall; r; r = NEXT(r) ) |
| if ( dp_redble(s,ps[(int)BDY(r)] ) ) |
if ( _dl_redble(BDY(ps[(int)BDY(r)])->dl,BDY(s),nv) ) |
| break; |
break; |
| if ( r ) { |
if ( r ) { |
| dp_subd(s,ps[(int)BDY(r)],&sd); |
dltod(BDY(s),nv,&tdp); |
| |
dp_subd(tdp,ps[(int)BDY(r)],&sd); |
| _dp_mod(sd,m,0,&sdm); |
_dp_mod(sd,m,0,&sdm); |
| _mulmd(CO,m,sdm,ps[(int)BDY(r)],&f2); |
_mulmd(CO,m,sdm,ps[(int)BDY(r)],&f2); |
| MKNODE(bt,f2,blist); blist = bt; |
MKNODE(bt,f2,blist); blist = bt; |
| dp_symb(f2,&f21); addd(CO,s0,f21,&s1); s0 = s1; |
s = symb_merge(s,dp_dllist(f2),nv); |
| dp_rest(f21,&f21r); |
|
| dp_rest(s,&s1); addd(CO,s1,f21r,&s); |
|
| nred++; |
nred++; |
| } else { |
|
| dp_rest(s,&s1); s = s1; |
|
| } |
} |
| } |
} |
| |
|
| |
get_eg(&tmp1); add_eg(&eg_symb,&tmp0,&tmp1); |
| |
init_eg(&eg_split_symb); add_eg(&eg_split_symb,&tmp0,&tmp1); |
| |
|
| /* the first nred polys in blist are reducers */ |
/* the first nred polys in blist are reducers */ |
| /* row = the number of all the polys */ |
/* row = the number of all the polys */ |
| for ( r = blist, row = 0; r; r = NEXT(r), row++ ); |
for ( r = blist, row = 0; r; r = NEXT(r), row++ ); |
| |
|
| |
/* head terms of reducers */ |
| ht = (DL *)MALLOC(nred*sizeof(DL)); |
ht = (DL *)MALLOC(nred*sizeof(DL)); |
| for ( r = blist, i = 0; i < nred; r = NEXT(r), i++ ) |
for ( r = blist, i = 0; i < nred; r = NEXT(r), i++ ) |
| ht[i] = BDY((DP)BDY(r))->dl; |
ht[i] = BDY((DP)BDY(r))->dl; |
| for ( mp = BDY(s0), col = 0; mp; mp = NEXT(mp), col++ ); |
|
| |
/* col = number of all terms */ |
| |
for ( s = s0, col = 0; s; s = NEXT(s), col++ ); |
| |
|
| |
/* head terms of all terms */ |
| at = (DL *)MALLOC(col*sizeof(DL)); |
at = (DL *)MALLOC(col*sizeof(DL)); |
| for ( mp = BDY(s0), i = 0; i < col; mp = NEXT(mp), i++ ) |
for ( s = s0, i = 0; i < col; s = NEXT(s), i++ ) |
| at[i] = mp->dl; |
at[i] = (DL)BDY(s); |
| mat = almat(row,col); |
|
| for ( i = 0, r = blist; i < row; r = NEXT(r), i++ ) |
/* store coefficients separately in spmat and redmat */ |
| _dpmod_to_vect(BDY(r),at,mat[i]); |
nsp = row-nred; |
| colstat = (int *)MALLOC_ATOMIC(col*sizeof(int)); |
|
| for ( i = 0, nonzero=0; i < row; i++ ) |
/* reducer matrix */ |
| for ( j = 0; j < col; j++ ) |
redmat = (int **)almat(nred,col); |
| if ( mat[i][j] ) |
for ( i = 0, r = blist; i < nred; r = NEXT(r), i++ ) |
| |
_dpmod_to_vect(BDY(r),at,redmat[i]); |
| |
/* XXX */ |
| |
/* reduce_reducers_mod(redmat,nred,col,m); */ |
| |
/* register the position of the head term */ |
| |
indred = (int *)MALLOC(nred*sizeof(int)); |
| |
bzero(indred,nred*sizeof(int)); |
| |
isred = (int *)MALLOC(col*sizeof(int)); |
| |
bzero(isred,col*sizeof(int)); |
| |
for ( i = 0; i < nred; i++ ) { |
| |
ri = redmat[i]; |
| |
for ( j = 0; j < col && !ri[j]; j++ ); |
| |
indred[i] = j; |
| |
isred[j] = 1; |
| |
} |
| |
|
| |
spcol = col-nred; |
| |
/* head terms not in ht */ |
| |
st = (DL *)MALLOC(spcol*sizeof(DL)); |
| |
for ( j = 0, k = 0; j < col; j++ ) |
| |
if ( !isred[j] ) |
| |
st[k++] = at[j]; |
| |
|
| |
/* spoly matrix; stored in reduced form; terms in ht[] are omitted */ |
| |
spmat = almat(nsp,spcol); |
| |
w = (int *)MALLOC(col*sizeof(int)); |
| |
for ( ; i < row; r = NEXT(r), i++ ) { |
| |
bzero(w,col*sizeof(int)); |
| |
_dpmod_to_vect(BDY(r),at,w); |
| |
reduce_sp_by_red_mod(w,redmat,indred,nred,col,m); |
| |
for ( j = 0, k = 0; j < col; j++ ) |
| |
if ( !isred[j] ) |
| |
spmat[i-nred][k++] = w[j]; |
| |
} |
| |
|
| |
get_eg(&tmp0); add_eg(&eg_elim1,&tmp1,&tmp0); |
| |
init_eg(&eg_split_elim1); add_eg(&eg_split_elim1,&tmp1,&tmp0); |
| |
|
| |
colstat = (int *)MALLOC_ATOMIC(spcol*sizeof(int)); |
| |
for ( i = 0, nonzero=0; i < nsp; i++ ) |
| |
for ( j = 0; j < spcol; j++ ) |
| |
if ( spmat[i][j] ) |
| nonzero++; |
nonzero++; |
| if ( Print ) |
if ( Print ) |
| fprintf(asir_out,"mat : %d x %d (nonzero=%f%%)...", |
fprintf(asir_out,"spmat : %d x %d (nonzero=%f%%)...", |
| row,col,((double)nonzero*100)/(row*col)); |
nsp,spcol,((double)nonzero*100)/(nsp*spcol)); |
| get_eg(&tmp1); add_eg(&eg_symb,&tmp0,&tmp1); |
rank = generic_gauss_elim_mod(spmat,nsp,spcol,m,colstat); |
| init_eg(&eg_split_symb); add_eg(&eg_split_symb,&tmp0,&tmp1); |
|
| rank = generic_gauss_elim_mod(mat,row,col,m,colstat); |
get_eg(&tmp1); add_eg(&eg_elim2,&tmp0,&tmp1); |
| get_eg(&tmp2); add_eg(&eg_elim,&tmp1,&tmp2); |
init_eg(&eg_split_elim2); add_eg(&eg_split_elim2,&tmp0,&tmp1); |
| init_eg(&eg_split_elim); add_eg(&eg_split_elim,&tmp1,&tmp2); |
|
| if ( Print ) { |
if ( Print ) { |
| fprintf(asir_out,"done rank = %d\n",rank,row,col); |
fprintf(asir_out,"done rank = %d\n",rank,row,col); |
| print_eg("Symb",&eg_split_symb); |
print_eg("Symb",&eg_split_symb); |
| print_eg("Elim",&eg_split_elim); |
print_eg("Elim1",&eg_split_elim1); |
| |
print_eg("Elim2",&eg_split_elim2); |
| fprintf(asir_out,"\n"); |
fprintf(asir_out,"\n"); |
| } |
} |
| for ( j = 0, i = 0; j < col; j++ ) |
for ( j = 0, i = 0; j < spcol; j++ ) |
| if ( colstat[j] ) { |
if ( colstat[j] ) { |
| for ( k = 0; k < nred; k++ ) |
mp0 = 0; |
| if ( !cmpdl(nv,at[j],ht[k]) ) |
NEXTMP(mp0,mp); mp->dl = st[j]; mp->c = STOI(1); |
| break; |
for ( k = j+1; k < spcol; k++ ) |
| if ( k == nred ) { |
if ( !colstat[k] && spmat[i][k] ) { |
| /* this is a new base */ |
NEXTMP(mp0,mp); mp->dl = st[k]; |
| mp0 = 0; |
mp->c = STOI(spmat[i][k]); |
| NEXTMP(mp0,mp); mp->dl = at[j]; mp->c = STOI(1); |
|
| for ( k = j+1; k < col; k++ ) |
|
| if ( !colstat[k] && mat[i][k] ) { |
|
| NEXTMP(mp0,mp); mp->dl = at[k]; |
|
| mp->c = STOI(mat[i][k]); |
|
| } |
|
| NEXT(mp) = 0; |
|
| MKDP(nv,mp0,nf); nf->sugar = dm->sugar; |
|
| nh = newps_mod(nf,m); |
|
| d = updpairs(d,g,nh); |
|
| g = updbase(g,nh); |
|
| gall = append_one(gall,nh); |
|
| } |
} |
| |
NEXT(mp) = 0; |
| |
MKDP(nv,mp0,nf); nf->sugar = dm->sugar; |
| |
nh = newps_mod(nf,m); |
| |
d = updpairs(d,g,nh); |
| |
g = updbase(g,nh); |
| |
gall = append_one(gall,nh); |
| i++; |
i++; |
| } |
} |
| } |
} |
| if ( Print ) { |
if ( Print ) { |
| print_eg("Symb",&eg_symb); |
print_eg("Symb",&eg_symb); |
| print_eg("Elim",&eg_elim); |
print_eg("Elim1",&eg_elim1); |
| |
print_eg("Elim2",&eg_elim2); |
| fflush(asir_out); |
fflush(asir_out); |
| } |
} |
| return g; |
return g; |
|
|
| int m; |
int m; |
| { |
{ |
| int i; |
int i; |
| NODE s,s0; |
NODE s,s0,f0; |
| |
|
| f = NODE_sortb(f,1); |
f0 = f = NODE_sortb(f,1); |
| psn = length(f); pslen = 2*psn; |
psn = length(f); pslen = 2*psn; |
| ps = (DP *)MALLOC(pslen*sizeof(DP)); |
ps = (DP *)MALLOC(pslen*sizeof(DP)); |
| psh = (DL *)MALLOC(pslen*sizeof(DL)); |
psh = (DL *)MALLOC(pslen*sizeof(DL)); |
|
|
| for ( i = 0; i < psn; i++, f = NEXT(f) ) { |
for ( i = 0; i < psn; i++, f = NEXT(f) ) { |
| prim_part((DP)BDY(f),m,&ps[i]); |
prim_part((DP)BDY(f),m,&ps[i]); |
| if ( Demand ) |
if ( Demand ) |
| dp_save(i,ps[i]); |
dp_save(i,(Obj)ps[i],0); |
| psh[i] = BDY(ps[i])->dl; |
psh[i] = BDY(ps[i])->dl; |
| pss[i] = ps[i]->sugar; |
pss[i] = ps[i]->sugar; |
| psc[i] = BDY(ps[i])->c; |
psc[i] = BDY(ps[i])->c; |
| } |
} |
| |
if ( GenTrace && (OXCheck >= 0) ) { |
| |
Q q; |
| |
STRING fname; |
| |
LIST input; |
| |
NODE arg; |
| |
Obj dmy; |
| |
|
| |
STOQ(OXCheck,q); |
| |
MKSTR(fname,"register_input"); |
| |
MKLIST(input,f0); |
| |
arg = mknode(3,q,fname,input); |
| |
Pox_cmo_rpc(arg,&dmy); |
| |
} |
| for ( s0 = 0, i = 0; i < psn; i++ ) { |
for ( s0 = 0, i = 0; i < psn; i++ ) { |
| NEXTNODE(s0,s); BDY(s) = (pointer)i; |
NEXTNODE(s0,s); BDY(s) = (pointer)i; |
| } |
} |
| Line 929 void prim_part(f,m,r) |
|
| Line 1047 void prim_part(f,m,r) |
|
| DP f,*r; |
DP f,*r; |
| int m; |
int m; |
| { |
{ |
| |
P d,t; |
| |
|
| if ( m > 0 ) { |
if ( m > 0 ) { |
| if ( PCoeffs ) |
if ( PCoeffs ) |
| dp_prim_mod(f,m,r); |
dp_prim_mod(f,m,r); |
|
|
| dp_prim(f,r); |
dp_prim(f,r); |
| else |
else |
| dp_ptozp(f,r); |
dp_ptozp(f,r); |
| |
if ( GenTrace && TraceList ) { |
| |
divsp(CO,BDY(f)->c,BDY(*r)->c,&d); |
| |
mulp(CO,(P)ARG3(BDY((LIST)BDY(TraceList))),d,&t); |
| |
ARG3(BDY((LIST)BDY(TraceList))) = t; |
| |
} |
| } |
} |
| } |
} |
| |
|
|
|
| } |
} |
| get_eg(&tmp0); |
get_eg(&tmp0); |
| dp_load(w[i],&ps[w[i]]); |
dp_load(w[i],&ps[w[i]]); |
| _dp_nf(top,ps[w[i]],ps,1,&g); |
|
| |
|
| |
if ( GenTrace ) { |
| |
Q q; |
| |
NODE node; |
| |
LIST hist; |
| |
|
| |
STOQ(w[i],q); |
| |
node = mknode(4,ONE,q,ONE,ONE); |
| |
MKLIST(hist,node); |
| |
MKNODE(TraceList,hist,0); |
| |
} |
| if ( !PtozpRA || !Multiple ) |
if ( !PtozpRA || !Multiple ) |
| _dp_nf(top,ps[w[i]],ps,1,&g); |
_dp_nf(top,ps[w[i]],ps,1,&g); |
| else |
else |
|
|
| ps[psn] = a; |
ps[psn] = a; |
| else |
else |
| ps[psn] = 0; |
ps[psn] = 0; |
| dp_save(psn,a); |
dp_save(psn,(Obj)a,0); |
| } else |
} else |
| ps[psn] = a; |
ps[psn] = a; |
| psh[psn] = BDY(a)->dl; |
psh[psn] = BDY(a)->dl; |
|
|
| psc[psn] = BDY(a)->c; |
psc[psn] = BDY(a)->c; |
| if ( m ) |
if ( m ) |
| _dp_mod(a,m,subst,&psm[psn]); |
_dp_mod(a,m,subst,&psm[psn]); |
| |
if ( GenTrace ) { |
| |
NODE tn,tr,tr1; |
| |
LIST trace; |
| |
|
| |
/* reverse the TraceList */ |
| |
tn = TraceList; |
| |
for ( tr = 0; tn; tn = NEXT(tn) ) { |
| |
MKNODE(tr1,BDY(tn),tr); tr = tr1; |
| |
} |
| |
MKLIST(trace,tr); |
| |
if ( OXCheck >= 0 ) { |
| |
NODE arg; |
| |
Q q1,q2; |
| |
STRING fname; |
| |
Obj dmy; |
| |
|
| |
STOQ(OXCheck,q1); |
| |
MKSTR(fname,"check_trace"); |
| |
STOQ(psn,q2); |
| |
arg = mknode(5,q1,fname,a,q2,trace); |
| |
Pox_cmo_rpc(arg,&dmy); |
| |
} else |
| |
dp_save(psn,(Obj)trace,"t"); |
| |
TraceList = 0; |
| |
} |
| return psn++; |
return psn++; |
| } |
} |
| |
|
|
|
| } |
} |
| for ( top = 0, i = n-1; i >= 0; i-- ) |
for ( top = 0, i = n-1; i >= 0; i-- ) |
| if ( r[i] >= 0 ) { |
if ( r[i] >= 0 ) { |
| dp_load(r[i],&ps[r[i]]); dp_dehomo(ps[r[i]],&u); j = newps(u,0,0); |
dp_load(r[i],&ps[r[i]]); dp_dehomo(ps[r[i]],&u); |
| |
if ( GenTrace ) { |
| |
Q q; |
| |
LIST hist; |
| |
NODE node; |
| |
|
| |
STOQ(r[i],q); |
| |
node = mknode(4,0,q,0,0); |
| |
MKLIST(hist,node); |
| |
MKNODE(TraceList,hist,0); |
| |
} |
| |
j = newps(u,0,0); |
| MKNODE(t,j,top); top = t; |
MKNODE(t,j,top); top = t; |
| } |
} |
| *g = top; |
*g = top; |
|
|
| struct oEGT tnf0,tnf1,tnfm0,tnfm1,tpz0,tpz1,tsp0,tsp1,tspm0,tspm1,tnp0,tnp1,tmp0,tmp1; |
struct oEGT tnf0,tnf1,tnfm0,tnfm1,tpz0,tpz1,tsp0,tsp1,tspm0,tspm1,tnp0,tnp1,tmp0,tmp1; |
| int skip_nf_flag; |
int skip_nf_flag; |
| double t_0; |
double t_0; |
| |
Q q; |
| |
int new_sugar; |
| static prev_sugar = -1; |
static prev_sugar = -1; |
| |
|
| Max_mag = 0; |
Max_mag = 0; |
|
|
| get_eg(&tmp1); add_eg(&eg_mp,&tmp0,&tmp1); |
get_eg(&tmp1); add_eg(&eg_mp,&tmp0,&tmp1); |
| if ( m ) { |
if ( m ) { |
| get_eg(&tspm0); |
get_eg(&tspm0); |
| _dp_sp_mod(psm[l->dp1],psm[l->dp2],m,&h); |
_dp_sp_mod_dup(psm[l->dp1],psm[l->dp2],m,&h); |
| |
new_sugar = h->sugar; |
| get_eg(&tspm1); add_eg(&eg_spm,&tspm0,&tspm1); |
get_eg(&tspm1); add_eg(&eg_spm,&tspm0,&tspm1); |
| get_eg(&tnfm0); |
get_eg(&tnfm0); |
| _dp_nf_mod(gall,h,psm,m,0,&nfm); |
_dp_nf_mod_destructive(gall,h,psm,m,0,&nfm); |
| get_eg(&tnfm1); add_eg(&eg_nfm,&tnfm0,&tnfm1); |
get_eg(&tnfm1); add_eg(&eg_nfm,&tnfm0,&tnfm1); |
| } else |
} else |
| nfm = (DP)1; |
nfm = (DP)1; |
|
|
| } |
} |
| } else |
} else |
| dp_sp(ps[l->dp1],ps[l->dp2],&h); |
dp_sp(ps[l->dp1],ps[l->dp2],&h); |
| |
if ( GenTrace ) { |
| |
STOQ(l->dp1,q); ARG1(BDY((LIST)BDY(NEXT(TraceList)))) = q; |
| |
STOQ(l->dp2,q); ARG1(BDY((LIST)BDY(TraceList))) = q; |
| |
} |
| |
new_sugar = h->sugar; |
| get_eg(&tsp1); add_eg(&eg_sp,&tsp0,&tsp1); |
get_eg(&tsp1); add_eg(&eg_sp,&tsp0,&tsp1); |
| get_eg(&tnf0); |
get_eg(&tnf0); |
| t_0 = get_rtime(); |
t_0 = get_rtime(); |
|
|
| add_eg(&eg_znfm,&tnfm0,&tnfm1); |
add_eg(&eg_znfm,&tnfm0,&tnfm1); |
| ZR++; |
ZR++; |
| if ( Print || PrintShort ) { |
if ( Print || PrintShort ) { |
| if ( h && (h->sugar != prev_sugar) ) { |
if ( new_sugar != prev_sugar ) { |
| fprintf(asir_out,"[%d]",h->sugar); |
fprintf(asir_out,"[%d]",new_sugar); |
| prev_sugar = h->sugar; |
prev_sugar = new_sugar; |
| } |
} |
| fprintf(asir_out,"."); fflush(asir_out); prev = 0; |
fprintf(asir_out,"."); fflush(asir_out); prev = 0; |
| } |
} |
|
|
| l->dp2 = QTOS((Q)BDY(pair)); |
l->dp2 = QTOS((Q)BDY(pair)); |
| if ( m ) { |
if ( m ) { |
| get_eg(&tspm0); |
get_eg(&tspm0); |
| _dp_sp_mod(psm[l->dp1],psm[l->dp2],m,&h); |
_dp_sp_mod_dup(ps[l->dp1],ps[l->dp2],m,&h); |
| get_eg(&tspm1); add_eg(&eg_spm,&tspm0,&tspm1); |
get_eg(&tspm1); add_eg(&eg_spm,&tspm0,&tspm1); |
| get_eg(&tnfm0); |
get_eg(&tnfm0); |
| _dp_nf_mod(gall,h,psm,m,0,&nfm); |
_dp_nf_mod_destructive(gall,h,ps,m,!Top,&nf); |
| get_eg(&tnfm1); add_eg(&eg_nfm,&tnfm0,&tnfm1); |
get_eg(&tnfm1); add_eg(&eg_nfm,&tnfm0,&tnfm1); |
| } else |
} else |
| nfm = (DP)1; |
nfm = (DP)1; |
|
|
| get_eg(&tspm1); add_eg(&eg_spm,&tspm0,&tspm1); get_eg(&tnfm0); |
get_eg(&tspm1); add_eg(&eg_spm,&tspm0,&tspm1); get_eg(&tnfm0); |
| dp_nf_mod(gall,h,ps,m,!Top,&nf); |
dp_nf_mod(gall,h,ps,m,!Top,&nf); |
| } else { |
} else { |
| _dp_sp_mod(ps[l->dp1],ps[l->dp2],m,&h); |
_dp_sp_mod_dup(ps[l->dp1],ps[l->dp2],m,&h); |
| get_eg(&tspm1); add_eg(&eg_spm,&tspm0,&tspm1); get_eg(&tnfm0); |
get_eg(&tspm1); add_eg(&eg_spm,&tspm0,&tspm1); get_eg(&tnfm0); |
| _dp_nf_mod(gall,h,ps,m,!Top,&nf); |
_dp_nf_mod_destructive(gall,h,ps,m,!Top,&nf); |
| } |
} |
| get_eg(&tnfm1); add_eg(&eg_nfm,&tnfm0,&tnfm1); |
get_eg(&tnfm1); add_eg(&eg_nfm,&tnfm0,&tnfm1); |
| if ( nf ) { |
if ( nf ) { |
|
|
| print_split_eg(&tnfm0,&tnfm1); fflush(asir_out); |
print_split_eg(&tnfm0,&tnfm1); fflush(asir_out); |
| fprintf(asir_out,"(%d,%d),nb=%d,nab=%d,rp=%d,sugar=%d",l->dp1,l->dp2,length(g),length(gall),DPPlength(d),pss[nh]); |
fprintf(asir_out,"(%d,%d),nb=%d,nab=%d,rp=%d,sugar=%d",l->dp1,l->dp2,length(g),length(gall),DPPlength(d),pss[nh]); |
| printdl(psh[nh]); fprintf(asir_out,"\n"); fflush(asir_out); |
printdl(psh[nh]); fprintf(asir_out,"\n"); fflush(asir_out); |
| |
} else if ( PrintShort ) { |
| |
fprintf(asir_out,"+"); fflush(asir_out); |
| } |
} |
| prev = 1; |
prev = 1; |
| } else { |
} else { |
| add_eg(&eg_znfm,&tnfm0,&tnfm1); |
add_eg(&eg_znfm,&tnfm0,&tnfm1); |
| ZR++; |
ZR++; |
| if ( Print ) { |
if ( Print || PrintShort ) { |
| fprintf(asir_out,"."); fflush(asir_out); prev = 0; |
fprintf(asir_out,"."); fflush(asir_out); prev = 0; |
| } |
} |
| } |
} |
| } |
} |
| if ( Print ) |
if ( Print || PrintShort ) |
| fprintf(asir_out,"gb_mod done\n"); |
fprintf(asir_out,"gb_mod done\n"); |
| return g; |
return g; |
| } |
} |
|
|
| int full; |
int full; |
| DP *rp; |
DP *rp; |
| { |
{ |
| DP u,p,d,s,t; |
DP u,p,d,s,t,mult; |
| P dmy; |
P coef; |
| NODE l; |
NODE l; |
| MP m,mr; |
MP m,mr; |
| int sugar,psugar; |
int sugar,psugar; |
|
|
| for ( u = 0, l = b; l; l = NEXT(l) ) { |
for ( u = 0, l = b; l; l = NEXT(l) ) { |
| if ( dl_redble(BDY(g)->dl,psh[(int)BDY(l)]) ) { |
if ( dl_redble(BDY(g)->dl,psh[(int)BDY(l)]) ) { |
| dp_load((int)BDY(l),&p); |
dp_load((int)BDY(l),&p); |
| dp_red(d,g,p,&t,&u,&dmy); |
/* t+u = coef*(d+g) - mult*p (t = coef*d) */ |
| |
dp_red(d,g,p,&t,&u,&coef,&mult); |
| psugar = (BDY(g)->dl->td - BDY(p)->dl->td) + p->sugar; |
psugar = (BDY(g)->dl->td - BDY(p)->dl->td) + p->sugar; |
| sugar = MAX(sugar,psugar); |
sugar = MAX(sugar,psugar); |
| |
if ( GenTrace ) { |
| |
LIST hist; |
| |
Q cq; |
| |
NODE node,node0; |
| |
|
| |
STOQ((int)BDY(l),cq); |
| |
node0 = mknode(4,coef,cq,mult,ONE); |
| |
MKLIST(hist,node0); |
| |
MKNODE(node,hist,TraceList); TraceList = node; |
| |
} |
| if ( !u ) { |
if ( !u ) { |
| if ( d ) |
if ( d ) |
| d->sugar = sugar; |
d->sugar = sugar; |
|
|
| |
|
| double pz_t_e, pz_t_d, pz_t_d1, pz_t_c, im_t_s, im_t_r; |
double pz_t_e, pz_t_d, pz_t_d1, pz_t_c, im_t_s, im_t_r; |
| |
|
| |
extern int GenTrace; |
| |
extern NODE TraceList; |
| |
|
| void _dp_nf_ptozp(b,g,ps,full,multiple,r) |
void _dp_nf_ptozp(b,g,ps,full,multiple,r) |
| NODE b; |
NODE b; |
| DP g; |
DP g; |
|
|
| extern int kara_mag; |
extern int kara_mag; |
| double get_rtime(); |
double get_rtime(); |
| double t_0,t_00,tt,ttt,t_p,t_m,t_m1,t_m2,t_s,t_g,t_a; |
double t_0,t_00,tt,ttt,t_p,t_m,t_m1,t_m2,t_s,t_g,t_a; |
| |
LIST hist; |
| |
NODE node; |
| |
Q rcred,mrcred; |
| |
|
| if ( !g ) { |
if ( !g ) { |
| *r = 0; return; |
*r = 0; return; |
|
|
| dc = 0; dp = 0; rc = ONE; rp = g; |
dc = 0; dp = 0; rc = ONE; rp = g; |
| MKSTR(imul,"dp_imul_index"); |
MKSTR(imul,"dp_imul_index"); |
| |
|
| |
/* g = dc*dp+rc*rp */ |
| for ( ; rp; ) { |
for ( ; rp; ) { |
| for ( u = 0, l = b; l; l = NEXT(l) ) { |
for ( u = 0, l = b; l; l = NEXT(l) ) { |
| if ( dl_redble(BDY(rp)->dl,psh[(int)BDY(l)]) ) { |
if ( dl_redble(BDY(rp)->dl,psh[(int)BDY(l)]) ) { |
|
|
| |
|
| psugar = (BDY(rp)->dl->td - BDY(red)->dl->td) + red->sugar; |
psugar = (BDY(rp)->dl->td - BDY(red)->dl->td) + red->sugar; |
| sugar = MAX(sugar,psugar); |
sugar = MAX(sugar,psugar); |
| |
if ( GenTrace ) { |
| |
/* u = cr*rp + (-cred)*shift*red */ |
| |
STOQ((int)BDY(l),cq); |
| |
node = mknode(4,cr,cq,0,0); |
| |
mulq(cred,rc,&rcred); |
| |
chsgnnum((Num)rcred,(Num *)&mrcred); |
| |
muldc(CO,shift,(P)mrcred,(DP *)&ARG2(node)); |
| |
MKLIST(hist,node); |
| |
} |
| if ( !u ) { |
if ( !u ) { |
| if ( dp ) |
if ( dp ) |
| dp->sugar = sugar; |
dp->sugar = sugar; |
| *r = dp; |
*r = dp; |
| |
if ( GenTrace ) { |
| |
ARG3(BDY(hist)) = ONE; |
| |
MKNODE(node,hist,TraceList); TraceList = node; |
| |
} |
| goto final; |
goto final; |
| } |
} |
| break; |
break; |
|
|
| tt = get_rtime()-t_0; t_a += tt; |
tt = get_rtime()-t_0; t_a += tt; |
| rp = t; |
rp = t; |
| hmag = multiple*HMAG(rp)/denom; |
hmag = multiple*HMAG(rp)/denom; |
| |
if ( GenTrace ) { |
| |
NTOQ(gn,1,gcd); |
| |
ARG3(BDY(hist)) = (pointer)gcd; |
| |
MKNODE(node,hist,TraceList); TraceList = node; |
| |
} |
| } else { |
} else { |
| t_0 = get_rtime(); |
t_0 = get_rtime(); |
| mulq(cr,dc,&dcq); dc = dcq; |
mulq(cr,dc,&dcq); dc = dcq; |
| tt = get_rtime()-t_0; t_a += tt; |
tt = get_rtime()-t_0; t_a += tt; |
| rp = u; |
rp = u; |
| |
if ( GenTrace ) { |
| |
ARG3(BDY(hist)) = (pointer)ONE; |
| |
MKNODE(node,hist,TraceList); TraceList = node; |
| |
} |
| } |
} |
| } else if ( !full ) { |
} else if ( !full ) { |
| if ( rp ) { |
if ( rp ) { |
|
|
| tt = get_rtime()-t_0; t_a += tt; |
tt = get_rtime()-t_0; t_a += tt; |
| } |
} |
| } |
} |
| |
if ( GenTrace ) { |
| |
mulq(ARG3(BDY((LIST)BDY(TraceList))),dc,&cq); |
| |
ARG3(BDY((LIST)BDY(TraceList))) = (pointer)cq; |
| |
} |
| if ( dp ) |
if ( dp ) |
| dp->sugar = sugar; |
dp->sugar = sugar; |
| *r = dp; |
*r = dp; |
|
|
| dl1 = DPPlength(d1); NFP += (dl-dl1); dl = dl1; |
dl1 = DPPlength(d1); NFP += (dl-dl1); dl = dl1; |
| } else |
} else |
| dl = 1; |
dl = 1; |
| for ( dd = 0; d1; d1 = nd ) { |
if ( !do_weyl ) |
| nd = NEXT(d1); |
for ( dd = 0; d1; d1 = nd ) { |
| if ( !criterion_2( d1->dp1, d1->dp2 ) ) { |
nd = NEXT(d1); |
| NEXT(d1) = dd; |
if ( !criterion_2( d1->dp1, d1->dp2 ) ) { |
| dd = d1; |
NEXT(d1) = dd; |
| |
dd = d1; |
| |
} |
| } |
} |
| } |
else |
| |
dd = d1; |
| dl1 = DPPlength(dd); NDP += (dl-dl1); |
dl1 = DPPlength(dd); NDP += (dl-dl1); |
| get_eg(&tup1); |
get_eg(&tup1); |
| add_eg(&eg_up,&tup0,&tup1); |
add_eg(&eg_up,&tup0,&tup1); |
| Line 2181 register int t; |
|
| Line 2408 register int t; |
|
| last = p; |
last = p; |
| dp = p->dp1 = (int)BDY(r); p->dp2 = t; |
dp = p->dp1 = (int)BDY(r); p->dp2 = t; |
| p->lcm = lcm_of_DL(CNVars, dl = psh[dp], tdl, (DL)0 ); |
p->lcm = lcm_of_DL(CNVars, dl = psh[dp], tdl, (DL)0 ); |
| p->sugar = (ts > (s = pss[dp] - dl->td) ? ts : s) + p->lcm->td; |
#if 0 |
| |
if ( do_weyl ) |
| |
p->sugar = dl_weight(p->lcm); |
| |
else |
| |
#endif |
| |
p->sugar = (ts > (s = pss[dp] - dl->td) ? ts : s) + p->lcm->td; |
| } |
} |
| return last; |
return last; |
| } |
} |
|
|
| return 1; |
return 1; |
| } |
} |
| |
|
| |
int dl_weight(dl) |
| |
DL dl; |
| |
{ |
| |
int n,w,i; |
| |
|
| |
n = CNVars/2; |
| |
for ( i = 0, w = 0; i < n; i++ ) |
| |
w += (-dl->d[i]+dl->d[n+i]); |
| |
return w; |
| |
} |
| |
|
| int gbcheck(f) |
int gbcheck(f) |
| NODE f; |
NODE f; |
| { |
{ |
| Line 2471 Obj name,value; |
|
| Line 2714 Obj name,value; |
|
| Denominator = v; |
Denominator = v; |
| else if ( !strcmp(n,"PtozpRA") ) |
else if ( !strcmp(n,"PtozpRA") ) |
| PtozpRA = v; |
PtozpRA = v; |
| |
else if ( !strcmp(n,"GenTrace") ) |
| |
GenTrace = v; |
| |
else if ( !strcmp(n,"OXCheck") ) |
| |
OXCheck = v; |
| } |
} |
| |
|
| void dp_make_flaglist(list) |
void dp_make_flaglist(list) |
|
|
| STOQ(Reverse,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Reverse"); MKNODE(n1,name,n); n = n1; |
STOQ(Reverse,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Reverse"); MKNODE(n1,name,n); n = n1; |
| STOQ(Stat,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Stat"); MKNODE(n1,name,n); n = n1; |
STOQ(Stat,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Stat"); MKNODE(n1,name,n); n = n1; |
| STOQ(Print,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Print"); MKNODE(n1,name,n); n = n1; |
STOQ(Print,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Print"); MKNODE(n1,name,n); n = n1; |
| |
STOQ(OXCheck,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"OXCheck"); MKNODE(n1,name,n); n = n1; |
| |
STOQ(GenTrace,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"GenTrace"); MKNODE(n1,name,n); n = n1; |
| STOQ(PtozpRA,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"PtozpRA"); MKNODE(n1,name,n); n = n1; |
STOQ(PtozpRA,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"PtozpRA"); MKNODE(n1,name,n); n = n1; |
| STOQ(ShowMag,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"ShowMag"); MKNODE(n1,name,n); n = n1; |
STOQ(ShowMag,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"ShowMag"); MKNODE(n1,name,n); n = n1; |
| STOQ(Top,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Top"); MKNODE(n1,name,n); n = n1; |
STOQ(Top,v); MKNODE(n1,v,n); n = n1; MKSTR(name,"Top"); MKNODE(n1,name,n); n = n1; |
|
|
| #define DELIM ':' |
#define DELIM ':' |
| #endif |
#endif |
| |
|
| void dp_save(index,p) |
void dp_save(index,p,prefix) |
| int index; |
int index; |
| DP p; |
Obj p; |
| |
char *prefix; |
| { |
{ |
| FILE *fp; |
FILE *fp; |
| char path[BUFSIZ]; |
char path[BUFSIZ]; |
| |
|
| sprintf(path,"%s%c%d",Demand,DELIM,index); |
if ( prefix ) |
| |
sprintf(path,"%s%c%s%d",Demand,DELIM,prefix,index); |
| |
else |
| |
sprintf(path,"%s%c%d",Demand,DELIM,index); |
| #if defined(VISUAL) || defined(THINK_C) |
#if defined(VISUAL) || defined(THINK_C) |
| if ( !(fp = fopen(path,"wb") ) ) |
if ( !(fp = fopen(path,"wb") ) ) |
| #else |
#else |
| if ( !(fp = fopen(path,"w") ) ) |
if ( !(fp = fopen(path,"w") ) ) |
| #endif |
#endif |
| error("dp_save : cannot open a file"); |
error("dp_save : cannot open a file"); |
| savevl(fp,VC); saveobj(fp,(Obj)p); fclose(fp); |
savevl(fp,VC); saveobj(fp,p); fclose(fp); |
| } |
} |
| |
|
| void dp_load(index,p) |
void dp_load(index,p) |
|
|
| int full,multiple; |
int full,multiple; |
| DP *rp; |
DP *rp; |
| { |
{ |
| DP u,p,d,s,t,dmy; |
P dmy; |
| |
DP u,p,d,s,t,dmy1; |
| NODE l; |
NODE l; |
| MP m,mr; |
MP m,mr; |
| int i,n; |
int i,n; |
|
|
| for ( u = 0, l = b; l; l = NEXT(l) ) { |
for ( u = 0, l = b; l; l = NEXT(l) ) { |
| if ( dl_redble(BDY(g)->dl,psh[(int)BDY(l)]) ) { |
if ( dl_redble(BDY(g)->dl,psh[(int)BDY(l)]) ) { |
| dp_load((int)BDY(l),&p); |
dp_load((int)BDY(l),&p); |
| dp_red(d,g,p,&t,&u,&dmy); |
dp_red(d,g,p,&t,&u,&dmy,&dmy1); |
| psugar = (BDY(g)->dl->td - BDY(p)->dl->td) + p->sugar; |
psugar = (BDY(g)->dl->td - BDY(p)->dl->td) + p->sugar; |
| sugar = MAX(sugar,psugar); |
sugar = MAX(sugar,psugar); |
| if ( !u ) { |
if ( !u ) { |
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