version 1.2, 2000/04/13 06:01:01 |
version 1.6, 2000/07/13 05:09:00 |
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/* $OpenXM: OpenXM_contrib2/asir2000/builtin/gr.c,v 1.1.1.1 1999/12/03 07:39:07 noro Exp $ */ |
/* $OpenXM: OpenXM_contrib2/asir2000/builtin/gr.c,v 1.5 2000/05/29 08:54:45 noro Exp $ */ |
#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; |
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Line 33 int TP,NBP,NMP,NFP,NDP,ZR,NZR; |
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#define NEWDP_pairs ((DP_pairs)MALLOC(sizeof(struct dp_pairs))) |
#define NEWDP_pairs ((DP_pairs)MALLOC(sizeof(struct dp_pairs))) |
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extern int (*cmpdl)(); |
extern int (*cmpdl)(); |
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extern int do_weyl; |
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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(); |
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return 0; |
return 0; |
} |
} |
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/* b[] should be cleared */ |
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void _dpmod_to_vect(f,at,b) |
void _dpmod_to_vect(f,at,b) |
DP f; |
DP f; |
DL *at; |
DL *at; |
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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; |
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dp_fcoeffs = 0; |
dp_fcoeffs = 0; |
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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); |
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_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; |
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fprintf(asir_out,"mat : %d x %d",row,col); |
fprintf(asir_out,"mat : %d x %d",row,col); |
fflush(asir_out); |
fflush(asir_out); |
} |
} |
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#if 0 |
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rank = generic_gauss_elim_hensel(mat,&nm,&dn,&rind,&cind); |
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#else |
rank = generic_gauss_elim(mat,&nm,&dn,&rind,&cind); |
rank = generic_gauss_elim(mat,&nm,&dn,&rind,&cind); |
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#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++ ) { |
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return g; |
return g; |
} |
} |
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/* initial bases are monic */ |
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NODE gb_f4_mod(f,m) |
NODE gb_f4_mod(f,m) |
NODE f; |
NODE f; |
int m; |
int m; |
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DP h,nf,f1,f2,f21,f21r,sp,sp1,sd,sdm,tdp; |
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; |
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extern struct oEGT eg_symb,eg_elim1,eg_elim2; |
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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); |
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nred++; |
nred++; |
} |
} |
} |
} |
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get_eg(&tmp1); add_eg(&eg_symb,&tmp0,&tmp1); |
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init_eg(&eg_split_symb); add_eg(&eg_split_symb,&tmp0,&tmp1); |
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/* 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++ ); |
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/* 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; |
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/* col = number of all terms */ |
for ( s = s0, col = 0; s; s = NEXT(s), col++ ); |
for ( s = s0, col = 0; s; s = NEXT(s), col++ ); |
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/* head terms of all terms */ |
at = (DL *)MALLOC(col*sizeof(DL)); |
at = (DL *)MALLOC(col*sizeof(DL)); |
for ( s = s0, i = 0; i < col; s = NEXT(s), i++ ) |
for ( s = s0, i = 0; i < col; s = NEXT(s), i++ ) |
at[i] = (DL)BDY(s); |
at[i] = (DL)BDY(s); |
mat = almat(row,col); |
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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)); |
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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++ ) |
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_dpmod_to_vect(BDY(r),at,redmat[i]); |
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/* XXX */ |
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/* reduce_reducers_mod(redmat,nred,col,m); */ |
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/* register the position of the head term */ |
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indred = (int *)MALLOC(nred*sizeof(int)); |
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bzero(indred,nred*sizeof(int)); |
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isred = (int *)MALLOC(col*sizeof(int)); |
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bzero(isred,col*sizeof(int)); |
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for ( i = 0; i < nred; i++ ) { |
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ri = redmat[i]; |
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for ( j = 0; j < col && !ri[j]; j++ ); |
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indred[i] = j; |
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isred[j] = 1; |
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} |
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spcol = col-nred; |
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/* head terms not in ht */ |
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st = (DL *)MALLOC(spcol*sizeof(DL)); |
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for ( j = 0, k = 0; j < col; j++ ) |
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if ( !isred[j] ) |
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st[k++] = at[j]; |
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/* spoly matrix; stored in reduced form; terms in ht[] are omitted */ |
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spmat = almat(nsp,spcol); |
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w = (int *)MALLOC(col*sizeof(int)); |
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for ( ; i < row; r = NEXT(r), i++ ) { |
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bzero(w,col*sizeof(int)); |
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_dpmod_to_vect(BDY(r),at,w); |
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reduce_sp_by_red_mod(w,redmat,indred,nred,col,m); |
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for ( j = 0, k = 0; j < col; j++ ) |
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if ( !isred[j] ) |
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spmat[i-nred][k++] = w[j]; |
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} |
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get_eg(&tmp0); add_eg(&eg_elim1,&tmp1,&tmp0); |
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init_eg(&eg_split_elim1); add_eg(&eg_split_elim1,&tmp1,&tmp0); |
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colstat = (int *)MALLOC_ATOMIC(spcol*sizeof(int)); |
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for ( i = 0, nonzero=0; i < nsp; i++ ) |
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for ( j = 0; j < spcol; j++ ) |
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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); |
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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); |
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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); |
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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); |
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for ( k = j+1; k < col; k++ ) |
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if ( !colstat[k] && mat[i][k] ) { |
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NEXTMP(mp0,mp); mp->dl = at[k]; |
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mp->c = STOI(mat[i][k]); |
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} |
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NEXT(mp) = 0; |
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MKDP(nv,mp0,nf); nf->sugar = dm->sugar; |
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nh = newps_mod(nf,m); |
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d = updpairs(d,g,nh); |
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g = updbase(g,nh); |
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gall = append_one(gall,nh); |
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} |
} |
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NEXT(mp) = 0; |
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MKDP(nv,mp0,nf); nf->sugar = dm->sugar; |
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nh = newps_mod(nf,m); |
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d = updpairs(d,g,nh); |
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g = updbase(g,nh); |
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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); |
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print_eg("Elim2",&eg_elim2); |
fflush(asir_out); |
fflush(asir_out); |
} |
} |
return g; |
return g; |
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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; |
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int new_sugar; |
static prev_sugar = -1; |
static prev_sugar = -1; |
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Max_mag = 0; |
Max_mag = 0; |
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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); |
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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; |
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} |
} |
} else |
} else |
dp_sp(ps[l->dp1],ps[l->dp2],&h); |
dp_sp(ps[l->dp1],ps[l->dp2],&h); |
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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(); |
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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; |
} |
} |
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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; |
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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 ) { |
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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); |
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} else if ( PrintShort ) { |
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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; |
} |
} |
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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; |
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dd = d1; |
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} |
} |
} |
} |
else |
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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 2178 register int t; |
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Line 2243 register int t; |
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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 |
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if ( do_weyl ) |
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p->sugar = dl_weight(p->lcm); |
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else |
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#endif |
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p->sugar = (ts > (s = pss[dp] - dl->td) ? ts : s) + p->lcm->td; |
} |
} |
return last; |
return last; |
} |
} |
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for ( d1 = dl1->d, d2 = dl2->d, n = CNVars; --n >= 0; d1++, d2++ ) |
for ( d1 = dl1->d, d2 = dl2->d, n = CNVars; --n >= 0; d1++, d2++ ) |
if ( *d1 < *d2 ) return 0; |
if ( *d1 < *d2 ) return 0; |
return 1; |
return 1; |
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} |
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int dl_weight(dl) |
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DL dl; |
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{ |
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int n,w,i; |
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n = CNVars/2; |
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for ( i = 0, w = 0; i < n; i++ ) |
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w += (-dl->d[i]+dl->d[n+i]); |
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return w; |
} |
} |
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int gbcheck(f) |
int gbcheck(f) |