OpenXM_contrib2/asir2000/builtin/dp.c - diff

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Diff for /OpenXM_contrib2/asir2000/builtin/dp.c between version 1.42 and 1.53

version 1.42, 2003/10/17 05:16:49

version 1.53, 2004/05/14 09:20:56

Line 45

* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/builtin/dp.c,v 1.41 2003/10/08 09:38:06 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/builtin/dp.c,v 1.52 2004/05/14 06:02:54 noro Exp $

#include "ca.h"

#include "base.h"

Line 54

extern int dp_nelim;

extern int dp_order_pair_length;

extern struct order_pair *dp_order_pair;

extern struct order_spec dp_current_spec;

extern struct order_spec *dp_current_spec;

extern struct modorder_spec *dp_current_modspec;

int do_weyl;

void Pdp_sort();

void Pdp_mul_trunc(),Pdp_quo();

void Pdp_ord(), Pdp_ptod(), Pdp_dtop();

void Pdp_ptozp(), Pdp_ptozp2(), Pdp_red(), Pdp_red2(), Pdp_lcm(), Pdp_redble();

Line 78 void Pdp_mbase(),Pdp_lnf_mod(),Pdp_nf_tab_mod(),Pdp_md

Line 80 void Pdp_mbase(),Pdp_lnf_mod(),Pdp_nf_tab_mod(),Pdp_md

void Pdp_vtoe(), Pdp_etov(), Pdp_dtov(), Pdp_idiv(), Pdp_sep();

void Pdp_cont();

void Pdp_gr_checklist();

void Pdp_ltod(),Pdpv_ord(),Pdpv_ht(),Pdpv_hm(),Pdpv_hc();

void Pdp_weyl_red();

void Pdp_weyl_sp();

Line 92 void Pdp_lnf_f();

Line 95 void Pdp_lnf_f();

void Pnd_gr(),Pnd_gr_trace(),Pnd_f4();

void Pnd_weyl_gr(),Pnd_weyl_gr_trace();

void Pnd_nf();

void Pdp_initial_term();

void Pdp_order();

LIST dp_initial_term();

LIST dp_order();

void parse_gr_option(LIST f,NODE opt,LIST *v,Num *homo,

int *modular,struct order_spec **ord);

LIST remove_zero_from_list(LIST);

struct ftab dp_tab[] = {

Line 128 struct ftab dp_tab[] = {

Line 138 struct ftab dp_tab[] = {

{"dp_lnf_f",Pdp_lnf_f,2},

/* Buchberger algorithm */

{"dp_gr_main",Pdp_gr_main,5},

{"dp_gr_main",Pdp_gr_main,-5},

{"dp_gr_mod_main",Pdp_gr_mod_main,5},

{"dp_gr_f_main",Pdp_gr_f_main,4},

{"dp_gr_checklist",Pdp_gr_checklist,2},

Line 160 struct ftab dp_tab[] = {

Line 170 struct ftab dp_tab[] = {

{"dp_weyl_nf_f",Pdp_weyl_nf_f,4},

/* Buchberger algorithm */

{"dp_weyl_gr_main",Pdp_weyl_gr_main,5},

{"dp_weyl_gr_main",Pdp_weyl_gr_main,-5},

{"dp_weyl_gr_mod_main",Pdp_weyl_gr_mod_main,5},

{"dp_weyl_gr_f_main",Pdp_weyl_gr_f_main,4},

Line 176 struct ftab dp_tab[] = {

Line 186 struct ftab dp_tab[] = {

struct ftab dp_supp_tab[] = {

/* setting flags */

{"dp_sort",Pdp_sort,1},

{"dp_ord",Pdp_ord,-1},

{"dpv_ord",Pdpv_ord,-2},

{"dp_set_kara",Pdp_set_kara,-1},

{"dp_nelim",Pdp_nelim,-1},

{"dp_gr_flags",Pdp_gr_flags,-1},

{"dp_gr_print",Pdp_gr_print,-1},

/* converters */

{"dp_ptod",Pdp_ptod,2},

{"dp_ptod",Pdp_ptod,-2},

{"dp_dtop",Pdp_dtop,2},

{"dp_homo",Pdp_homo,1},

{"dp_dehomo",Pdp_dehomo,1},

Line 193 struct ftab dp_supp_tab[] = {

Line 205 struct ftab dp_supp_tab[] = {

{"dp_mdtod",Pdp_mdtod,1},

{"dp_mod",Pdp_mod,3},

{"dp_rat",Pdp_rat,1},

{"dp_ltod",Pdp_ltod,-2},

/* criteria */

{"dp_cri1",Pdp_cri1,2},

Line 205 struct ftab dp_supp_tab[] = {

Line 218 struct ftab dp_supp_tab[] = {

{"dp_hm",Pdp_hm,1},

{"dp_ht",Pdp_ht,1},

{"dp_hc",Pdp_hc,1},

{"dpv_hm",Pdpv_hm,1},

{"dpv_ht",Pdpv_ht,1},

{"dpv_hc",Pdpv_hc,1},

{"dp_rest",Pdp_rest,1},

{"dp_initial_term",Pdp_initial_term,1},

{"dp_order",Pdp_order,1},

/* degree and size */

{"dp_td",Pdp_td,1},

Line 224 struct ftab dp_supp_tab[] = {

Line 242 struct ftab dp_supp_tab[] = {

{0,0,0}

};

void Pdp_sort(arg,rp)

NODE arg;

DP *rp;

{

dp_sort((DP)ARG0(arg),rp);

}

void Pdp_mdtod(arg,rp)

NODE arg;

DP *rp;

Line 407 void Pdp_ord(arg,rp)

Line 432 void Pdp_ord(arg,rp)

NODE arg;

Obj *rp;

{

struct order_spec spec;

struct order_spec *spec;

LIST v;

struct oLIST f;

Num homo;

int modular;

f.id = O_LIST; f.body = 0;

if ( !arg )

*rp = dp_current_spec.obj;

*rp = dp_current_spec->obj;

else if ( !create_order_spec((Obj)ARG0(arg),&spec) )

error("dp_ord : invalid order specification");

else {

initd(&spec); *rp = spec.obj;

if ( current_option )

parse_gr_option(&f,current_option,&v,&homo,&modular,&spec);

else if ( !create_order_spec(0,(Obj)ARG0(arg),&spec) )

error("dp_ord : invalid order specification");

initd(spec); *rp = spec->obj;

}

Line 422 void Pdp_ptod(arg,rp)

Line 454 void Pdp_ptod(arg,rp)

NODE arg;

DP *rp;

{

P p;

NODE n;

VL vl,tvl;

struct oLIST f;

int ac;

LIST v;

Num homo;

int modular;

struct order_spec *ord;

asir_assert(ARG0(arg),O_P,"dp_ptod");

asir_assert(ARG1(arg),O_LIST,"dp_ptod");

p = (P)ARG0(arg);

for ( vl = 0, n = BDY((LIST)ARG1(arg)); n; n = NEXT(n) ) {

ac = argc(arg);

if ( ac == 1 ) {

if ( current_option ) {

f.id = O_LIST; f.body = mknode(1,p);

parse_gr_option(&f,current_option,&v,&homo,&modular,&ord);

dp_current_spec = ord;

} else

error("dp_ptod : invalid argument");

} else {

asir_assert(ARG1(arg),O_LIST,"dp_ptod");

v = (LIST)ARG1(arg);

}

for ( vl = 0, n = BDY(v); n; n = NEXT(n) ) {

if ( !vl ) {

NEWVL(vl); tvl = vl;

} else {

Line 437 DP *rp;

Line 488 DP *rp;

}

if ( vl )

NEXT(tvl) = 0;

ptod(CO,vl,(P)ARG0(arg),rp);

ptod(CO,vl,p,rp);

}

void Pdp_ltod(arg,rp)

NODE arg;

DPV *rp;

{

NODE n;

VL vl,tvl;

LIST f,v;

int sugar,i,len,ac,modular;

Num homo;

struct order_spec *ord;

DP *e;

NODE nd,t;

ac = argc(arg);

asir_assert(ARG0(arg),O_LIST,"dp_ptod");

f = (LIST)ARG0(arg);

if ( ac == 1 ) {

if ( current_option ) {

parse_gr_option(f,current_option,&v,&homo,&modular,&ord);

dp_current_spec = ord;

} else

error("dp_ltod : invalid argument");

} else {

asir_assert(ARG1(arg),O_LIST,"dp_ptod");

v = (LIST)ARG1(arg);

}

for ( vl = 0, n = BDY(v); n; n = NEXT(n) ) {

if ( !vl ) {

NEWVL(vl); tvl = vl;

} else {

NEWVL(NEXT(tvl)); tvl = NEXT(tvl);

}

VR(tvl) = VR((P)BDY(n));

}

if ( vl )

NEXT(tvl) = 0;

nd = BDY(f);

len = length(nd);

e = (DP *)MALLOC(len*sizeof(DP));

sugar = 0;

for ( i = 0, t = nd; i < len; i++, t = NEXT(t) ) {

ptod(CO,vl,(P)BDY(t),&e[i]);

if ( e[i] )

sugar = MAX(sugar,e[i]->sugar);

}

MKDPV(len,e,*rp);

}

void Pdp_dtop(arg,rp)

NODE arg;

P *rp;

Line 1008 DP *rp;

Line 1108 DP *rp;

MP m,mr;

p = (DP)ARG0(arg); asir_assert(p,O_DP,"dp_ht");

if ( !p )

dp_ht(p,rp);

*rp = 0;

else {

m = BDY(p);

NEWMP(mr); mr->dl = m->dl; mr->c = (P)ONE; NEXT(mr) = 0;

MKDP(p->nv,mr,*rp); (*rp)->sugar = mr->dl->td; /* XXX */

}

void Pdp_hc(arg,rp)

Line 1065 Q *rp;

Line 1159 Q *rp;

STOQ(p->sugar,*rp);

}

void Pdp_initial_term(arg,rp)

NODE arg;

Obj *rp;

{

struct order_spec *ord;

Num homo;

int modular,is_list;

LIST v,f,l,initiallist;

NODE n;

f = (LIST)ARG0(arg);

if ( f && OID(f) == O_LIST )

is_list = 1;

else {

n = mknode(1,f); MKLIST(l,n); f = l;

is_list = 0;

}

if ( current_option )

parse_gr_option(f,current_option,&v,&homo,&modular,&ord);

else

ord = dp_current_spec;

initiallist = dp_initial_term(f,ord);

if ( !is_list )

*rp = (Obj)BDY(BDY(initiallist));

else

*rp = (Obj)initiallist;

}

void Pdp_order(arg,rp)

NODE arg;

Obj *rp;

{

struct order_spec *ord;

Num homo;

int modular,is_list;

LIST v,f,l,ordlist;

NODE n;

f = (LIST)ARG0(arg);

if ( f && OID(f) == O_LIST )

is_list = 1;

else {

n = mknode(1,f); MKLIST(l,n); f = l;

is_list = 0;

}

if ( current_option )

parse_gr_option(f,current_option,&v,&homo,&modular,&ord);

else

ord = dp_current_spec;

ordlist = dp_order(f,ord);

if ( !is_list )

*rp = (Obj)BDY(BDY(ordlist));

else

*rp = (Obj)ordlist;

}

void Pdp_set_sugar(arg,rp)

NODE arg;

Q *rp;

Line 1309 Q *rp;

Line 1459 Q *rp;

break;

case 2:

DP_Print = 0; DP_PrintShort = 1;

break;

default:

DP_Print = s; DP_PrintShort = 0;

break;

Line 1324 Q *rp;

Line 1475 Q *rp;

*rp = q;

}

void parse_gr_option(LIST f,NODE opt,LIST *v,Num *homo,

int *modular,struct order_spec **ord)

{

NODE t,p;

Q m;

char *key;

Obj value,dmy;

int ord_is_set = 0;

int modular_is_set = 0;

int homo_is_set = 0;

VL vl,vl0;

LIST vars;

char xiname[BUFSIZ];

NODE x0,x;

DP d;

P xi;

int nv,i;

/* extract vars */

vars = 0;

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

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

key = BDY((STRING)BDY(p));

value = (Obj)BDY(NEXT(p));

if ( !strcmp(key,"v") ) {

/* variable list */

vars = (LIST)value;

break;

}

if ( vars ) {

*v = vars; pltovl(vars,&vl);

} else {

for ( t = BDY(f); t; t = NEXT(t) )

if ( BDY(t) && OID((Obj)BDY(t))==O_DP )

break;

if ( t ) {

/* f is DP list */

/* create dummy var list */

d = (DP)BDY(t);

nv = NV(d);

for ( i = 0, vl0 = 0, x0 = 0; i < nv; i++ ) {

NEXTVL(vl0,vl);

NEXTNODE(x0,x);

sprintf(xiname,"x%d",i);

makevar(xiname,&xi);

x->body = (pointer)xi;

vl->v = VR((P)xi);

}

if ( vl0 ) {

NEXT(vl) = 0;

NEXT(x) = 0;

}

MKLIST(vars,x0);

*v = vars;

vl = vl0;

} else {

get_vars((Obj)f,&vl); vltopl(vl,v);

}

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

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

key = BDY((STRING)BDY(p));

value = (Obj)BDY(NEXT(p));

if ( !strcmp(key,"v") ) {

/* variable list; ignore */

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

/* order spec */

if ( !vl )

error("parse_gr_option : variables must be specified");

create_order_spec(vl,value,ord);

ord_is_set = 1;

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

create_order_spec(0,value,ord);

ord_is_set = 1;

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

create_order_spec(0,value,ord);

ord_is_set = 1;

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

/* weight */

Pdp_set_weight(NEXT(p),&dmy);

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

*homo = (Num)value;

homo_is_set = 1;

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

m = (Q)value;

if ( !m )

*modular = 0;

else if ( PL(NM(m))>1 || (PL(NM(m)) == 1

&& BD(NM(m))[0] >= 0x80000000) )

error("parse_gr_option : too large modulus");

else

*modular = QTOS(m);

modular_is_set = 1;

} else

error("parse_gr_option : not implemented");

}

if ( !ord_is_set ) create_order_spec(0,0,ord);

if ( !modular_is_set ) *modular = 0;

if ( !homo_is_set ) *homo = 0;

}

void Pdp_gr_main(arg,rp)

NODE arg;

LIST *rp;

{

LIST f,v;

VL vl;

Num homo;

Q m;

int modular;

int modular,ac;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 0;

asir_assert(ARG0(arg),O_LIST,"dp_gr_main");

asir_assert(ARG1(arg),O_LIST,"dp_gr_main");

f = (LIST)ARG0(arg);

asir_assert(ARG2(arg),O_N,"dp_gr_main");

asir_assert(ARG3(arg),O_N,"dp_gr_main");

f = (LIST)ARG0(arg); v = (LIST)ARG1(arg);

f = remove_zero_from_list(f);

if ( !BDY(f) ) {

*rp = f; return;

}

homo = (Num)ARG2(arg);

if ( (ac = argc(arg)) == 5 ) {

m = (Q)ARG3(arg);

asir_assert(ARG1(arg),O_LIST,"dp_gr_main");

if ( !m )

asir_assert(ARG2(arg),O_N,"dp_gr_main");

modular = 0;

asir_assert(ARG3(arg),O_N,"dp_gr_main");

else if ( PL(NM(m))>1 || (PL(NM(m)) == 1 && BD(NM(m))[0] >= 0x80000000) )

v = (LIST)ARG1(arg);

error("dp_gr_main : too large modulus");

homo = (Num)ARG2(arg);

m = (Q)ARG3(arg);

if ( !m )

modular = 0;

else if ( PL(NM(m))>1 || (PL(NM(m)) == 1 && BD(NM(m))[0] >= 0x80000000) )

error("dp_gr_main : too large modulus");

else

modular = QTOS(m);

create_order_spec(0,ARG4(arg),&ord);

} else if ( current_option )

parse_gr_option(f,current_option,&v,&homo,&modular,&ord);

else if ( ac == 1 )

parse_gr_option(f,0,&v,&homo,&modular,&ord);

else

modular = QTOS(m);

error("dp_gr_main : invalid argument");

create_order_spec(ARG4(arg),&ord);

dp_gr_main(f,v,homo,modular,0,ord,rp);

dp_gr_main(f,v,homo,modular,0,&ord,rp);

}

void Pdp_gr_f_main(arg,rp)

Line 1363 LIST *rp;

Line 1626 LIST *rp;

LIST f,v;

Num homo;

int m,field,t;

struct order_spec ord;

struct order_spec *ord;

NODE n;

do_weyl = 0;

Line 1381 LIST *rp;

Line 1644 LIST *rp;

m = QTOS((Q)ARG3(arg));

if ( m )

error("dp_gr_f_main : trace lifting is not implemented yet");

create_order_spec(ARG4(arg),&ord);

create_order_spec(0,ARG4(arg),&ord);

#else

m = 0;

create_order_spec(ARG3(arg),&ord);

create_order_spec(0,ARG3(arg),&ord);

#endif

field = 0;

for ( n = BDY(f); n; n = NEXT(n) ) {

Line 1398 LIST *rp;

Line 1661 LIST *rp;

else if ( t != field )

error("dp_gr_f_main : incosistent coefficients");

}

dp_gr_main(f,v,homo,m?1:0,field,&ord,rp);

dp_gr_main(f,v,homo,m?1:0,field,ord,rp);

}

void Pdp_f4_main(arg,rp)

Line 1406 NODE arg;

Line 1669 NODE arg;

LIST *rp;

{

LIST f,v;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 0;

asir_assert(ARG0(arg),O_LIST,"dp_f4_main");

Line 1416 LIST *rp;

Line 1679 LIST *rp;

if ( !BDY(f) ) {

*rp = f; return;

}

create_order_spec(ARG2(arg),&ord);

create_order_spec(0,ARG2(arg),&ord);

dp_f4_main(f,v,&ord,rp);

dp_f4_main(f,v,ord,rp);

}

/* dp_gr_checklist(list of dp) */

Line 1446 LIST *rp;

Line 1709 LIST *rp;

{

LIST f,v;

int m;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 0;

asir_assert(ARG0(arg),O_LIST,"dp_f4_mod_main");

Line 1459 LIST *rp;

Line 1722 LIST *rp;

}

if ( !m )

error("dp_f4_mod_main : invalid argument");

create_order_spec(ARG3(arg),&ord);

create_order_spec(0,ARG3(arg),&ord);

dp_f4_mod_main(f,v,m,&ord,rp);

dp_f4_mod_main(f,v,m,ord,rp);

}

void Pdp_gr_mod_main(arg,rp)

Line 1470 LIST *rp;

Line 1733 LIST *rp;

LIST f,v;

Num homo;

int m;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 0;

asir_assert(ARG0(arg),O_LIST,"dp_gr_mod_main");

Line 1485 LIST *rp;

Line 1748 LIST *rp;

homo = (Num)ARG2(arg); m = QTOS((Q)ARG3(arg));

if ( !m )

error("dp_gr_mod_main : invalid argument");

create_order_spec(ARG4(arg),&ord);

create_order_spec(0,ARG4(arg),&ord);

dp_gr_mod_main(f,v,homo,m,&ord,rp);

dp_gr_mod_main(f,v,homo,m,ord,rp);

}

void Pnd_f4(arg,rp)

Line 1495 LIST *rp;

Line 1758 LIST *rp;

{

LIST f,v;

int m,homo;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 0;

asir_assert(ARG0(arg),O_LIST,"nd_gr");

Line 1507 LIST *rp;

Line 1770 LIST *rp;

*rp = f; return;

}

m = QTOS((Q)ARG2(arg));

create_order_spec(ARG3(arg),&ord);

create_order_spec(0,ARG3(arg),&ord);

nd_gr(f,v,m,1,&ord,rp);

nd_gr(f,v,m,1,ord,rp);

}

void Pnd_gr(arg,rp)

Line 1517 LIST *rp;

Line 1780 LIST *rp;

{

LIST f,v;

int m,homo;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 0;

asir_assert(ARG0(arg),O_LIST,"nd_gr");

Line 1529 LIST *rp;

Line 1792 LIST *rp;

*rp = f; return;

}

m = QTOS((Q)ARG2(arg));

create_order_spec(ARG3(arg),&ord);

create_order_spec(0,ARG3(arg),&ord);

nd_gr(f,v,m,0,&ord,rp);

nd_gr(f,v,m,0,ord,rp);

}

void Pnd_gr_trace(arg,rp)

Line 1539 LIST *rp;

Line 1802 LIST *rp;

{

LIST f,v;

int m,homo;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 0;

asir_assert(ARG0(arg),O_LIST,"nd_gr_trace");

Line 1553 LIST *rp;

Line 1816 LIST *rp;

}

homo = QTOS((Q)ARG2(arg));

m = QTOS((Q)ARG3(arg));

create_order_spec(ARG4(arg),&ord);

create_order_spec(0,ARG4(arg),&ord);

nd_gr_trace(f,v,m,homo,&ord,rp);

nd_gr_trace(f,v,m,homo,ord,rp);

}

void Pnd_weyl_gr(arg,rp)

Line 1563 LIST *rp;

Line 1826 LIST *rp;

{

LIST f,v;

int m,homo;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 1;

asir_assert(ARG0(arg),O_LIST,"nd_weyl_gr");

Line 1575 LIST *rp;

Line 1838 LIST *rp;

*rp = f; return;

}

m = QTOS((Q)ARG2(arg));

create_order_spec(ARG3(arg),&ord);

create_order_spec(0,ARG3(arg),&ord);

nd_gr(f,v,m,0,&ord,rp);

nd_gr(f,v,m,0,ord,rp);

}

void Pnd_weyl_gr_trace(arg,rp)

Line 1585 LIST *rp;

Line 1848 LIST *rp;

{

LIST f,v;

int m,homo;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 1;

asir_assert(ARG0(arg),O_LIST,"nd_weyl_gr_trace");

Line 1599 LIST *rp;

Line 1862 LIST *rp;

}

homo = QTOS((Q)ARG2(arg));

m = QTOS((Q)ARG3(arg));

create_order_spec(ARG4(arg),&ord);

create_order_spec(0,ARG4(arg),&ord);

nd_gr_trace(f,v,m,homo,&ord,rp);

nd_gr_trace(f,v,m,homo,ord,rp);

}

void Pnd_nf(arg,rp)

Line 1609 P *rp;

Line 1872 P *rp;

{

P f;

LIST g,v;

struct order_spec ord;

struct order_spec *ord;

do_weyl = 0;

asir_assert(ARG0(arg),O_P,"nd_nf");

Line 1622 P *rp;

Line 1885 P *rp;

*rp = f; return;

}

v = (LIST)ARG2(arg);

create_order_spec(ARG3(arg),&ord);

create_order_spec(0,ARG3(arg),&ord);

nd_nf_p(f,g,v,QTOS((Q)ARG4(arg)),&ord,rp);

nd_nf_p(f,g,v,QTOS((Q)ARG4(arg)),ord,rp);

}

/* for Weyl algebra */

Line 1635 LIST *rp;

Line 1898 LIST *rp;

LIST f,v;

Num homo;

Q m;

int modular;

int modular,ac;

struct order_spec ord;

struct order_spec *ord;

asir_assert(ARG0(arg),O_LIST,"dp_weyl_gr_main");

asir_assert(ARG1(arg),O_LIST,"dp_weyl_gr_main");

f = (LIST)ARG0(arg);

asir_assert(ARG2(arg),O_N,"dp_weyl_gr_main");

asir_assert(ARG3(arg),O_N,"dp_weyl_gr_main");

f = (LIST)ARG0(arg); v = (LIST)ARG1(arg);

f = remove_zero_from_list(f);

if ( !BDY(f) ) {

*rp = f; return;

}

homo = (Num)ARG2(arg);

if ( (ac = argc(arg)) == 5 ) {

m = (Q)ARG3(arg);

asir_assert(ARG1(arg),O_LIST,"dp_weyl_gr_main");

if ( !m )

asir_assert(ARG2(arg),O_N,"dp_weyl_gr_main");

modular = 0;

asir_assert(ARG3(arg),O_N,"dp_weyl_gr_main");

else if ( PL(NM(m))>1 || (PL(NM(m)) == 1 && BD(NM(m))[0] >= 0x80000000) )

v = (LIST)ARG1(arg);

error("dp_gr_main : too large modulus");

homo = (Num)ARG2(arg);

m = (Q)ARG3(arg);

if ( !m )

modular = 0;

else if ( PL(NM(m))>1 || (PL(NM(m)) == 1 && BD(NM(m))[0] >= 0x80000000) )

error("dp_weyl_gr_main : too large modulus");

else

modular = QTOS(m);

create_order_spec(0,ARG4(arg),&ord);

} else if ( current_option )

parse_gr_option(f,current_option,&v,&homo,&modular,&ord);

else if ( ac == 1 )

parse_gr_option(f,0,&v,&homo,&modular,&ord);

else

modular = QTOS(m);

error("dp_weyl_gr_main : invalid argument");

create_order_spec(ARG4(arg),&ord);

do_weyl = 1;

dp_gr_main(f,v,homo,modular,0,&ord,rp);

dp_gr_main(f,v,homo,modular,0,ord,rp);

do_weyl = 0;

}

Line 1667 LIST *rp;

Line 1939 LIST *rp;

{

LIST f,v;

Num homo;

struct order_spec ord;

struct order_spec *ord;

asir_assert(ARG0(arg),O_LIST,"dp_weyl_gr_main");

asir_assert(ARG1(arg),O_LIST,"dp_weyl_gr_main");

Line 1679 LIST *rp;

Line 1951 LIST *rp;

*rp = f; return;

}

homo = (Num)ARG2(arg);

create_order_spec(ARG3(arg),&ord);

create_order_spec(0,ARG3(arg),&ord);

do_weyl = 1;

dp_gr_main(f,v,homo,0,1,&ord,rp);

dp_gr_main(f,v,homo,0,1,ord,rp);

do_weyl = 0;

}

Line 1690 NODE arg;

Line 1962 NODE arg;

LIST *rp;

{

LIST f,v;

struct order_spec ord;

struct order_spec *ord;

asir_assert(ARG0(arg),O_LIST,"dp_weyl_f4_main");

asir_assert(ARG1(arg),O_LIST,"dp_weyl_f4_main");

Line 1699 LIST *rp;

Line 1971 LIST *rp;

if ( !BDY(f) ) {

*rp = f; return;

}

create_order_spec(ARG2(arg),&ord);

create_order_spec(0,ARG2(arg),&ord);

do_weyl = 1;

dp_f4_main(f,v,&ord,rp);

dp_f4_main(f,v,ord,rp);

do_weyl = 0;

}

Line 1711 LIST *rp;

Line 1983 LIST *rp;

{

LIST f,v;

int m;

struct order_spec ord;

struct order_spec *ord;

asir_assert(ARG0(arg),O_LIST,"dp_weyl_f4_main");

asir_assert(ARG1(arg),O_LIST,"dp_weyl_f4_main");

Line 1723 LIST *rp;

Line 1995 LIST *rp;

}

if ( !m )

error("dp_weyl_f4_mod_main : invalid argument");

create_order_spec(ARG3(arg),&ord);

create_order_spec(0,ARG3(arg),&ord);

do_weyl = 1;

dp_f4_mod_main(f,v,m,&ord,rp);

dp_f4_mod_main(f,v,m,ord,rp);

do_weyl = 0;

}

Line 1736 LIST *rp;

Line 2008 LIST *rp;

LIST f,v;

Num homo;

int m;

struct order_spec ord;

struct order_spec *ord;

asir_assert(ARG0(arg),O_LIST,"dp_weyl_gr_mod_main");

asir_assert(ARG1(arg),O_LIST,"dp_weyl_gr_mod_main");

Line 1750 LIST *rp;

Line 2022 LIST *rp;

homo = (Num)ARG2(arg); m = QTOS((Q)ARG3(arg));

if ( !m )

error("dp_weyl_gr_mod_main : invalid argument");

create_order_spec(ARG4(arg),&ord);

create_order_spec(0,ARG4(arg),&ord);

do_weyl = 1;

dp_gr_mod_main(f,v,homo,m,&ord,rp);

dp_gr_mod_main(f,v,homo,m,ord,rp);

do_weyl = 0;

}

Line 1765 VECT *rp;

Line 2037 VECT *rp;

{

VECT v;

int i,n;

NODE node;

if ( !arg )

*rp = current_dl_weight_vector_obj;

Line 1773 VECT *rp;

Line 2046 VECT *rp;

current_dl_weight_vector = 0;

*rp = 0;

} else {

asir_assert(ARG0(arg),O_VECT,"dp_set_weight");

if ( OID(ARG0(arg)) != O_VECT && OID(ARG0(arg)) != O_LIST )

v = (VECT)ARG0(arg);

error("dp_set_weight : invalid argument");

if ( OID(ARG0(arg)) == O_VECT )

v = (VECT)ARG0(arg);

else {

node = (NODE)BDY((LIST)ARG0(arg));

n = length(node);

MKVECT(v,n);

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

BDY(v)[i] = BDY(node);

}

current_dl_weight_vector_obj = v;

n = v->len;

current_dl_weight_vector = (int *)CALLOC(n,sizeof(int));

Line 1849 int get_field_type(P p)

Line 2131 int get_field_type(P p)

return -1;

}

return type;

}

void Pdpv_ord(NODE arg,Obj *rp)

{

int ac,id;

LIST shift;

ac = argc(arg);

if ( ac ) {

id = QTOS((Q)ARG0(arg));

if ( ac > 1 && ARG1(arg) && OID((Obj)ARG1(arg))==O_LIST )

shift = (LIST)ARG1(arg);

else

shift = 0;

create_modorder_spec(id,shift,&dp_current_modspec);

}

*rp = dp_current_modspec->obj;

}

void Pdpv_ht(NODE arg,LIST *rp)

{

NODE n;

DP ht;

int pos;

DPV p;

Q q;

asir_assert(ARG0(arg),O_DPV,"dpv_ht");

p = (DPV)ARG0(arg);

pos = dpv_hp(p);

if ( pos < 0 )

ht = 0;

else

dp_ht(BDY(p)[pos],&ht);

STOQ(pos,q);

n = mknode(2,q,ht);

MKLIST(*rp,n);

}

void Pdpv_hm(NODE arg,LIST *rp)

{

NODE n;

DP ht;

int pos;

DPV p;

Q q;

asir_assert(ARG0(arg),O_DPV,"dpv_hm");

p = (DPV)ARG0(arg);

pos = dpv_hp(p);

if ( pos < 0 )

ht = 0;

else

dp_hm(BDY(p)[pos],&ht);

STOQ(pos,q);

n = mknode(2,q,ht);

MKLIST(*rp,n);

}

void Pdpv_hc(NODE arg,LIST *rp)

{

NODE n;

P hc;

int pos;

DPV p;

Q q;

asir_assert(ARG0(arg),O_DPV,"dpv_hc");

p = (DPV)ARG0(arg);

pos = dpv_hp(p);

if ( pos < 0 )

hc = 0;

else

hc = BDY(BDY(p)[pos])->c;

STOQ(pos,q);

n = mknode(2,q,hc);

MKLIST(*rp,n);

}

int dpv_hp(DPV p)

{

int len,i,maxp,maxw,w,slen;

int *shift;

DP *e;

len = p->len;

e = p->body;

slen = dp_current_modspec->len;

shift = dp_current_modspec->degree_shift;

switch ( dp_current_modspec->id ) {

case ORD_REVGRADLEX:

for ( maxp = -1, i = 0; i < len; i++ )

if ( !e[i] ) continue;

else if ( maxp < 0 ) {

maxw = BDY(e[i])->dl->td+(i<slen?shift[i]:0); maxp = i;

} else {

w = BDY(e[i])->dl->td+(i<slen?shift[i]:0);

if ( w >= maxw ) {

maxw = w; maxp = i;

}

return maxp;

case ORD_GRADLEX:

for ( maxp = -1, i = 0; i < len; i++ )

if ( !e[i] ) continue;

else if ( maxp < 0 ) {

maxw = BDY(e[i])->dl->td+(i<slen?shift[i]:0); maxp = i;

} else {

w = BDY(e[i])->dl->td+(i<slen?shift[i]:0);

if ( w > maxw ) {

maxw = w; maxp = i;

}

return maxp;

break;

case ORD_LEX:

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

if ( e[i] ) return i;

return -1;

break;

}

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