OpenXM_contrib2/asir2000/builtin/strobj.c - diff

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Diff for /OpenXM_contrib2/asir2000/builtin/strobj.c between version 1.110 and 1.119

version 1.110, 2005/12/14 09:06:54

version 1.119, 2008/09/04 01:42:25

Line 45

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

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/builtin/strobj.c,v 1.109 2005/12/14 06:07:30 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/builtin/strobj.c,v 1.118 2007/04/15 11:01:01 noro Exp $

#include "ca.h"

#include "parse.h"

Line 76 struct TeXSymbol {

#define IS_BINARYPWR(f) (((f)->id==I_BOP) &&(OPNAME(f)=='^'))

#define IS_NARYADD(f) (((f)->id==I_NARYOP) &&(OPNAME(f)=='+'))

#define IS_NARYMUL(f) (((f)->id==I_NARYOP) &&(OPNAME(f)=='*'))

#define IS_MUL(f) (((f)->id==I_NARYOP||(f)->id==I_BOP) &&(OPNAME(f)=='*'))

extern char *parse_strp;

Line 96 void Pqt_is_integer(),Pqt_is_rational(),Pqt_is_number(

Line 97 void Pqt_is_integer(),Pqt_is_rational(),Pqt_is_number(

void Pqt_is_dependent(),Pqt_is_function(),Pqt_is_var();

void Pqt_set_ord(),Pqt_set_coef(),Pqt_set_weight();

void Pqt_normalize();

void Pnqt_comp();

void Pnqt_comp(),Pnqt_weight();

void Pnqt_match();

void Pnqt_match_rewrite();

void Pqt_to_nbp();

void Pshuffle_mul(), Pharmonic_mul();

void Pnbp_hm(), Pnbp_ht(), Pnbp_hc(), Pnbp_rest();

void Pnbm_deg();

void Pnbp_tm(), Pnbp_tt(), Pnbp_tc(), Pnbp_trest();

void Pnbm_deg(), Pnbm_index();

void Pnbm_hp_rest();

void Pnbm_hxky(), Pnbm_xky_rest();

void Pnbm_hv(), Pnbm_rest();

void Pnbm_hv(), Pnbm_tv(), Pnbm_rest(),Pnbm_trest();

void Pquote_to_funargs(),Pfunargs_to_quote(),Pget_function_name();

void Pqt_match(),Pget_quote_id();

Line 170 struct ftab str_tab[] = {

Line 172 struct ftab str_tab[] = {

{"qt_match",Pqt_match,2},

{"nqt_match_rewrite",Pnqt_match_rewrite,3},

{"nqt_weight",Pnqt_weight,1},

{"nqt_comp",Pnqt_comp,2},

{"nqt_match",Pnqt_match,-3},

{"qt_to_nbp",Pqt_to_nbp,1},

Line 180 struct ftab str_tab[] = {

Line 183 struct ftab str_tab[] = {

{"nbp_ht", Pnbp_ht,1},

{"nbp_hc", Pnbp_hc,1},

{"nbp_rest", Pnbp_rest,1},

{"nbp_tm", Pnbp_tm,1},

{"nbp_tt", Pnbp_tt,1},

{"nbp_tc", Pnbp_tc,1},

{"nbp_trest", Pnbp_trest,1},

{"nbm_deg", Pnbm_deg,1},

{"nbm_index", Pnbm_index,1},

{"nbm_hxky", Pnbm_hxky,1},

{"nbm_xky_rest", Pnbm_xky_rest,1},

{"nbm_hp_rest", Pnbm_hp_rest,1},

{"nbm_hv", Pnbm_hv,1},

{"nbm_tv", Pnbm_tv,1},

{"nbm_rest", Pnbm_rest,1},

{"nbm_trest", Pnbm_trest,1},

{"qt_to_nary",Pqt_to_nary,1},

{"qt_to_bin",Pqt_to_bin,2},

Line 460 int register_conv_func(Obj arg)

Line 470 int register_conv_func(Obj arg)

if ( !arg ) {

convfunc = 0;

return 1;

} else if ( OID(arg) == O_P && (int)(VR((P)arg))->attr == V_SR ) {

} else if ( OID(arg) == O_P && (long)(VR((P)arg))->attr == V_SR ) {

convfunc = (FUNC)(VR((P)arg)->priv);

/* f must be a function which takes single argument */

return 1;

Line 839 void do_assign(NODE arg)

Line 849 void do_assign(NODE arg)

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

pair = BDY((LIST)BDY(t));

pv = (int)FA0((FNODE)BDY((QUOTE)BDY(pair)));

pv = (long)FA0((FNODE)BDY((QUOTE)BDY(pair)));

value = (QUOTE)(BDY(NEXT(pair)));

ASSPV(pv,value);

}

Line 1278 NODE arg;

Line 1288 NODE arg;

Obj *rp;

{

FNODE fnode;

SNODE snode;

char *cmd;

#if defined(PARI)

void recover(int);

Line 1291 Obj *rp;

Line 1302 Obj *rp;

# endif

#endif

cmd = BDY((STRING)ARG0(arg));

#if 0

exprparse_create_var(0,cmd,&fnode);

*rp = eval(fnode);

#else

exprparse_create_var(0,cmd,&snode);

*rp = evalstat(snode);

#endif

}

void Prtostr(arg,rp)

Line 1430 void Pget_function_name(NODE arg,STRING *rp)

Line 1446 void Pget_function_name(NODE arg,STRING *rp)

}

FNODE strip_paren(FNODE);

void objtotex_tb(Obj obj,TB tb);

void fnodetotex_tb(FNODE f,TB tb)

{

Line 1438 void fnodetotex_tb(FNODE f,TB tb)

Line 1455 void fnodetotex_tb(FNODE f,TB tb)

char *opname,*vname_conv,*prefix_conv;

Obj obj;

int i,len,allzero,elen,elen2,si;

C cplx;

char *r;

FNODE fi,f2,f1;

Line 1506 void fnodetotex_tb(FNODE f,TB tb)

Line 1522 void fnodetotex_tb(FNODE f,TB tb)

write_tb("}",tb);

break;

case '^':

fnodetotex_tb((FNODE)FA1(f),tb);

f1 = (FNODE)FA1(f);

if ( fnode_is_var(f1) )

fnodetotex_tb(f1,tb);

else {

write_tb("(",tb);

fnodetotex_tb(f1,tb);

write_tb(")",tb);

}

write_tb("^{",tb);

fnodetotex_tb(strip_paren((FNODE)FA2(f)),tb);

write_tb("} ",tb);

Line 1523 void fnodetotex_tb(FNODE f,TB tb)

Line 1546 void fnodetotex_tb(FNODE f,TB tb)

break;

case I_NARYOP:

args = (NODE)FA1(f);

write_tb("(",tb);

switch ( OPNAME(f) ) {

case '+':

fnodetotex_tb((FNODE)BDY(args),tb);

for ( args = NEXT(args); args; args = NEXT(args) ) {

write_tb("+",tb);

fnodetotex_tb((FNODE)BDY(args),tb);

f1 = (FNODE)BDY(args);

/* if ( fnode_is_var(f1) || IS_MUL(f1) )

fnodetotex_tb(f1,tb);

else */ {

write_tb("(",tb);

fnodetotex_tb(f1,tb);

write_tb(")",tb);

}

break;

case '*':

f1 = (FNODE)BDY(args);

if ( f1->id == I_FORMULA && MUNIQ(FA0(f1)) )

if ( f1->id == I_FORMULA && MUNIQ(FA0(f1)) ) {

write_tb("-",tb);

write_tb("- ",tb); args = NEXT(args);

else

}

fnodetotex_tb(f1,tb);

for ( ; args; args = NEXT(args) ) {

write_tb(" ",tb);

for ( args = NEXT(args); args; args = NEXT(args) ) {

/* XXX special care for DP */

f2 = (FNODE)BDY(args);

if ( f2->id == I_EV ) {

if ( fnode_is_var(f2) || IS_BINARYPWR(f2) )

n = (NODE)FA0(f2);

for ( i = 0; n; n = NEXT(n), i++ ) {

fi = (FNODE)BDY(n);

if ( fi->id != I_FORMULA || FA0(fi) )

break;

}

if ( n )

fnodetotex_tb(f2,tb);

} else

fnodetotex_tb(f2,tb);

else {

write_tb("(",tb);

fnodetotex_tb(f2,tb);

write_tb(")",tb);

}

break;

default:

error("invalid nary op");

break;

}

write_tb(")",tb);

break;

case I_COP:

Line 1784 void fnodetotex_tb(FNODE f,TB tb)

Line 1805 void fnodetotex_tb(FNODE f,TB tb)

/* internal object */

case I_FORMULA:

obj = (Obj)FA0(f);

objtotex_tb((Obj)FA0(f),tb);

if ( !obj )

write_tb("0",tb);

else if ( OID(obj) == O_N && NID(obj) == N_C ) {

cplx = (C)obj;

write_tb("(",tb);

if ( cplx->r ) {

r = objtostr((Obj)cplx->r); write_tb(r,tb);

}

if ( cplx->i ) {

if ( cplx->r && compnum(0,cplx->i,0) > 0 ) {

write_tb("+",tb);

if ( !UNIQ(cplx->i) ) {

r = objtostr((Obj)cplx->i); write_tb(r,tb);

}

} else if ( MUNIQ(cplx->i) )

write_tb("-",tb);

else if ( !UNIQ(cplx->i) ) {

r = objtostr((Obj)cplx->i); write_tb(r,tb);

}

write_tb("\\sqrt{-1}",tb);

}

write_tb(")",tb);

} else if ( OID(obj) == O_P )

write_tb(conv_rule(VR((P)obj)->name),tb);

else

write_tb(objtostr(obj),tb);

break;

/* program variable */

Line 1826 void fnodetotex_tb(FNODE f,TB tb)

Line 1821 void fnodetotex_tb(FNODE f,TB tb)

}

void objtotex_tb(Obj obj,TB tb)

{

C cplx;

char *r;

P t;

DCP dc;

char *v;

if ( !obj ) {

write_tb("0",tb);

return;

}

switch ( OID(obj) ) {

case O_N:

switch ( NID(obj) ) {

case N_C:

cplx = (C)obj;

write_tb("(",tb);

if ( cplx->r ) {

r = objtostr((Obj)cplx->r); write_tb(r,tb);

}

if ( cplx->i ) {

if ( cplx->r && compnum(0,cplx->i,0) > 0 ) {

write_tb("+",tb);

if ( !UNIQ(cplx->i) ) {

r = objtostr((Obj)cplx->i); write_tb(r,tb);

}

} else if ( MUNIQ(cplx->i) )

write_tb("-",tb);

else if ( !UNIQ(cplx->i) ) {

r = objtostr((Obj)cplx->i); write_tb(r,tb);

}

write_tb("\\sqrt{-1}",tb);

}

write_tb(")",tb);

break;

default:

write_tb(objtostr(obj),tb);

break;

}

break;

case O_P:

v = conv_rule(VR((P)obj)->name);

for ( dc = DC((P)obj); dc; dc = NEXT(dc) ) {

if ( !DEG(dc) )

objtotex_tb((Obj)COEF(dc),tb);

else {

if ( NUM(COEF(dc)) && UNIQ((Q)COEF(dc)) )

;

else if ( NUM(COEF(dc)) && MUNIQ((Q)COEF(dc)) )

write_tb("-",tb);

else if ( NUM(COEF(dc)) || !NEXT(DC(COEF(dc))))

objtotex_tb((Obj)COEF(dc),tb);

else {

write_tb("(",tb); objtotex_tb((Obj)COEF(dc),tb);

write_tb(")",tb);

}

write_tb(v,tb);

if ( cmpq(DEG(dc),ONE) ) {

write_tb("^",tb);

if ( INT(DEG(dc)) && SGN(DEG(dc))>0 ) {

write_tb("{",tb);

objtotex_tb((Obj)DEG(dc),tb);

write_tb("}",tb);

} else {

write_tb("{",tb); objtotex_tb((Obj)DEG(dc),tb);

write_tb("}",tb);

}

if ( NEXT(dc) ) {

t = COEF(NEXT(dc));

if ( !DEG(NEXT(dc)) ) {

if ( NUM(t) ) {

if ( !mmono(t) ) write_tb("+",tb);

} else {

if ( !mmono(COEF(DC(t))) ) write_tb("+",tb);

}

} else {

if ( !mmono(t) ) write_tb("+",tb);

}

break;

case O_R:

write_tb("\\frac{",tb);

objtotex_tb((Obj)NM((R)obj),tb);

write_tb("}{",tb);

objtotex_tb((Obj)DN((R)obj),tb);

write_tb("}",tb);

break;

default:

write_tb(objtostr(obj),tb);

break;

}

char *objtostr(Obj obj)

{

int len;

Line 1941 int top_is_minus(FNODE f)

Line 2033 int top_is_minus(FNODE f)

case O_N:

return mmono((P)obj);

case O_P:

#if 0

/* must be a variable */

opname = conv_rule(VR((P)obj)->name);

return opname[0]=='-';

#else

return mmono((P)obj);

#endif

default:

/* ??? */

len = estimate_length(CO,obj);

Line 2328 void Pnbp_ht(NODE arg, NBP *rp)

Line 2424 void Pnbp_ht(NODE arg, NBP *rp)

else {

m = (NBM)BDY(BDY(p));

NEWNBM(m1);

m1->d = m->d; m1->c = ONE; m1->b = m->b;

m1->d = m->d; m1->c = (P)ONE; m1->b = m->b;

MKNODE(n,m1,0);

MKNBP(*rp,n);

}

void Pnbp_hc(NODE arg, Q *rp)

void Pnbp_hc(NODE arg, P *rp)

{

NBP p;

NBM m;

Line 2362 void Pnbp_rest(NODE arg, NBP *rp)

Line 2458 void Pnbp_rest(NODE arg, NBP *rp)

}

void Pnbp_tm(NODE arg, NBP *rp)

{

NBP p;

NODE n;

NBM m;

p = (NBP)ARG0(arg);

if ( !p ) *rp = 0;

else {

for ( n = BDY(p); NEXT(n); n = NEXT(n) );

m = (NBM)BDY(n);

MKNODE(n,m,0);

MKNBP(*rp,n);

}

void Pnbp_tt(NODE arg, NBP *rp)

{

NBP p;

NODE n;

NBM m,m1;

p = (NBP)ARG0(arg);

if ( !p ) *rp = 0;

else {

for ( n = BDY(p); NEXT(n); n = NEXT(n) );

m = (NBM)BDY(n);

NEWNBM(m1);

m1->d = m->d; m1->c = (P)ONE; m1->b = m->b;

MKNODE(n,m1,0);

MKNBP(*rp,n);

}

void Pnbp_tc(NODE arg, P *rp)

{

NBP p;

NBM m;

NODE n;

p = (NBP)ARG0(arg);

if ( !p ) *rp = 0;

else {

for ( n = BDY(p); NEXT(n); n = NEXT(n) );

m = (NBM)BDY(n);

*rp = m->c;

}

void Pnbp_trest(NODE arg, NBP *rp)

{

NBP p;

NODE n,r,r0;

p = (NBP)ARG0(arg);

if ( !p ) *rp = 0;

else {

n = BDY(p);

for ( r0 = 0; NEXT(n); n = NEXT(n) ) {

NEXTNODE(r0,r);

BDY(r) = (pointer)BDY(n);

}

if ( r0 ) {

NEXT(r) = 0;

MKNBP(*rp,r0);

} else

*rp = 0;

}

void Pnbm_deg(NODE arg, Q *rp)

{

NBP p;

Line 2376 void Pnbm_deg(NODE arg, Q *rp)

Line 2542 void Pnbm_deg(NODE arg, Q *rp)

}

void Pnbm_index(NODE arg, Q *rp)

{

NBP p;

NBM m;

unsigned int *b;

int d,i,r;

p = (NBP)ARG0(arg);

if ( !p )

STOQ(0,*rp);

else {

m = (NBM)BDY(BDY(p));

d = m->d;

if ( d > 32 )

error("nbm_index : weight too large");

b = m->b;

for ( r = 0, i = d-2; i > 0; i-- )

if ( !NBM_GET(b,i) ) r |= (1<<(d-2-i));

STOQ(r,*rp);

}

void Pnbm_hp_rest(NODE arg, LIST *rp)

{

NBP p,h,r;

Line 2397 void Pnbm_hp_rest(NODE arg, LIST *rp)

Line 2585 void Pnbm_hp_rest(NODE arg, LIST *rp)

for ( i = 1; i < d; i++ )

if ( NBM_GET(b,i) != v ) break;

NEWNBM(m1); NEWNBMBDY(m1,i);

b1 = m1->b; m1->d = i; m1->c = ONE;

b1 = m1->b; m1->d = i; m1->c = (P)ONE;

if ( v ) for ( j = 0; j < i; j++ ) NBM_SET(b1,j);

else for ( j = 0; j < i; j++ ) NBM_CLR(b1,j);

MKNODE(n,m1,0); MKNBP(h,n);

d1 = d-i;

NEWNBM(m1); NEWNBMBDY(m1,d1);

b1 = m1->b; m1->d = d1; m1->c = ONE;

b1 = m1->b; m1->d = d1; m1->c = (P)ONE;

for ( j = 0, k = i; j < d1; j++, k++ )

if ( NBM_GET(b,k) ) NBM_SET(b1,j);

else NBM_CLR(b1,j);

Line 2459 void Pnbm_rest(NODE arg, NBP *rp)

Line 2647 void Pnbm_rest(NODE arg, NBP *rp)

separate_nbm((NBM)BDY(BDY(p)),0,0,rp);

}

void Pnbm_tv(NODE arg, NBP *rp)

{

NBP p;

p = (NBP)ARG0(arg);

if ( !p )

*rp = 0;

else

separate_tail_nbm((NBM)BDY(BDY(p)),0,0,rp);

}

void Pnbm_trest(NODE arg, NBP *rp)

{

NBP p;

p = (NBP)ARG0(arg);

if ( !p )

*rp = 0;

else

separate_tail_nbm((NBM)BDY(BDY(p)),0,rp,0);

}

NBP fnode_to_nbp(FNODE f)

{

Q r;

Line 2472 NBP fnode_to_nbp(FNODE f)

Line 2682 NBP fnode_to_nbp(FNODE f)

r = eval(f);

NEWNBM(m);

if ( OID(r) == O_N ) {

m->d = 0; m->c = (Q)r; m->b = 0;

m->d = 0; m->c = (P)r; m->b = 0;

} else {

v = VR((P)r);

m->d = 1; m->c = ONE; NEWNBMBDY(m,1);

m->d = 1; m->c = (P)ONE; NEWNBMBDY(m,1);

if ( !strcmp(NAME(v),"x") ) NBM_SET(m->b,0);

else NBM_CLR(m->b,0);

}

Line 2503 NBP fnode_to_nbp(FNODE f)

Line 2713 NBP fnode_to_nbp(FNODE f)

}

void Pnqt_weight(NODE arg,Q *rp)

{

QUOTE q;

FNODE f;

int w;

q = (QUOTE)ARG0(arg); f = (FNODE)BDY(q);

f = fnode_normalize(f,0);

w = nfnode_weight(qt_weight_tab,f);

STOQ(w,*rp);

}

void Pnqt_comp(NODE arg,Q *rp)

{

QUOTE q1,q2;

Line 2560 int fnode_is_coef(FNODE f)

Line 2782 int fnode_is_coef(FNODE f)

else if ( OID(obj) == O_P || OID(obj) == O_R) {

get_vars_recursive(obj,&vl);

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

if ( t->v->attr == (pointer)V_PF ) continue;

for ( s = qt_current_coef; s; s = NEXT(s) )

if ( t->v == s->v ) break;

if ( !s ) return 0;

if ( !s )

return 0;

}

return 1;

} else return 0;

Line 2921 FNODE nfnode_mul(FNODE f1,FNODE f2,int expand)

Line 3145 FNODE nfnode_mul(FNODE f1,FNODE f2,int expand)

m = (FNODE *)ALLOCA(l*sizeof(FNODE));

for ( r = n1, i = 0; i < l1; r = NEXT(r), i++ ) m[i] = BDY(r);

for ( r = n2; r; r = NEXT(r) ) {

if ( i == 0 || (expand == 2) )

if ( i == 0 )

m[i++] = BDY(r);

else {

fnode_base_exp(m[i-1],&b1,&e1); fnode_base_exp(BDY(r),&b2,&e2);

if ( compfnode(b1,b2) ) break;

arf_add(CO,eval(e1),eval(e2),&e);

if ( !e ) i--;

else if ( UNIQ(e) )

else if ( expand == 2 ) {

if ( INT(e) && SGN((Q)e) < 0 ) {

t1 = mkfnode(3,I_BOP,pwrfs,b1,mkfnode(1,I_FORMULA,e));

/* r=(r0|rest)->(r0,t1|rest) */

t = BDY(r);

MKNODE(r1,t1,NEXT(r));

MKNODE(r,t,r1);

i--;

} else

m[i++] = BDY(r);

} else if ( UNIQ(e) )

m[i-1] = b1;

else

m[i-1] = mkfnode(3,I_BOP,pwrfs,b1,mkfnode(1,I_FORMULA,e));

Line 3134 int nfnode_weight(struct wtab *tab,FNODE f)

Line 3368 int nfnode_weight(struct wtab *tab,FNODE f)

case I_FORMULA:

if ( fnode_is_coef(f) ) return 0;

else if ( fnode_is_var(f) ) {

if ( !tab ) return 0;

v = VR((P)FA0(f));

for ( i = 0; tab[i].v; i++ )

if ( v == tab[i].v ) return tab[i].w;

return w;

return 0;

} else return 0;

/* XXX */

Line 3194 int nfnode_comp_lex(FNODE f1,FNODE f2)

Line 3429 int nfnode_comp_lex(FNODE f1,FNODE f2)

NODE n1,n2;

int r,i1,i2,ret;

char *nm1,*nm2;

FNODE b1,b2,e1,e2,g,a1,a2,fn1,fn2;

FNODE b1,b2,e1,e2,g,a1,a2,fn1,fn2,h1,h2;

Num ee,ee1;

Obj c1,c2;

int w1,w2;

Line 3202 int nfnode_comp_lex(FNODE f1,FNODE f2)

Line 3437 int nfnode_comp_lex(FNODE f1,FNODE f2)

if ( IS_NARYADD(f1) || IS_NARYADD(f2) ) {

f1 = to_naryadd(f1); f2 = to_naryadd(f2);

n1 = (NODE)FA1(f1); n2 = (NODE)FA1(f2);

while ( n1 && n2 )

for ( ; n1 && n2; n1 = NEXT(n1), n2 = NEXT(n2) ) {

if ( r = nfnode_comp_lex(BDY(n1),BDY(n2)) ) return r;

r = nfnode_comp_lex(BDY(n1),BDY(n2));

else {

if ( r ) return r;

n1 = NEXT(n1); n2 = NEXT(n2);

}

if ( !n1 && !n2 ) return 0;

return n1?1:(n2?-1:0);

h1 = n1 ? (FNODE)BDY(n1) : mkfnode(1,I_FORMULA,0);

h2 = n2 ? (FNODE)BDY(n2) : mkfnode(1,I_FORMULA,0);

return nfnode_comp_lex(h1,h2);

}

if ( IS_NARYMUL(f1) || IS_NARYMUL(f2) ) {

fnode_coef_body(f1,&c1,&b1);

Line 3215 int nfnode_comp_lex(FNODE f1,FNODE f2)

Line 3452 int nfnode_comp_lex(FNODE f1,FNODE f2)

if ( !compfnode(b1,b2) ) return arf_comp(CO,c1,c2);

b1 = to_narymul(b1); b2 = to_narymul(b2);

n1 = (NODE)FA1(b1); n2 = (NODE)FA1(b2);

while ( 1 ) {

for ( ; n1 && n2; n1 = NEXT(n1), n2 = NEXT(n2) ) {

while ( n1 && n2 && !compfnode(BDY(n1),BDY(n2)) ) {

r = nfnode_comp_lex(BDY(n1),BDY(n2));

n1 = NEXT(n1); n2 = NEXT(n2);

if ( r ) return r;

}

if ( !n1 || !n2 ) {

return n1?1:(n2?-1:0);

}

fnode_base_exp(BDY(n1),&b1,&e1);

fnode_base_exp(BDY(n2),&b2,&e2);

if ( r = nfnode_comp_lex(b1,b2) ) {

if ( r > 0 )

return nfnode_comp_lex(e1,mkfnode(1,I_FORMULA,0));

else if ( r < 0 )

return nfnode_comp_lex(mkfnode(1,I_FORMULA,0),e2);

} else {

n1 = NEXT(n1); n2 = NEXT(n2);

if ( fnode_is_number(e1) && fnode_is_number(e2) ) {

/* f1 = t b^e1 ... , f2 = t b^e2 ... */

subnum(0,eval(e1),eval(e2),&ee);

r = compnum(0,ee,0);

if ( r > 0 ) {

g = mkfnode(3,I_BOP,pwrfs,b1,mkfnode(1,I_FORMULA,ee));

MKNODE(n1,g,n1);

} else if ( r < 0 ) {

chsgnnum(ee,&ee1);

g = mkfnode(3,I_BOP,pwrfs,b1,mkfnode(1,I_FORMULA,ee1));

MKNODE(n2,g,n2);

}

} else {

r = nfnode_comp_lex(e1,e2);

if ( r > 0 ) return 1;

else if ( r < 0 ) return -1;

}

if ( !n1 && !n2 ) return 0;

h1 = n1 ? (FNODE)BDY(n1) : mkfnode(1,I_FORMULA,ONE);

h2 = n2 ? (FNODE)BDY(n2) : mkfnode(1,I_FORMULA,ONE);

return nfnode_comp_lex(h1,h2);

}

if ( IS_BINARYPWR(f1) || IS_BINARYPWR(f2) ) {

fnode_base_exp(f1,&b1,&e1);

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