OpenXM_contrib2/asir2000/parse/puref.c - diff

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Diff for /OpenXM_contrib2/asir2000/parse/puref.c between version 1.3 and 1.13

version 1.3, 2000/08/22 05:04:27

version 1.13, 2018/03/27 06:29:19

Line 45

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

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/parse/puref.c,v 1.2 2000/08/21 08:31:47 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/parse/puref.c,v 1.12 2015/08/14 13:51:56 fujimoto Exp $

#include "ca.h"

#include "parse.h"

void instoobj(PFINS ins,Obj *rp);

NODE pflist;

void searchpf(name,fp)

void searchpf(char *name,FUNC *fp)

char *name;

FUNC *fp;

{

NODE node;

PF pf;

Line 65 FUNC *fp;

pf = (PF)node->body;

*fp = t = (FUNC)MALLOC(sizeof(struct oFUNC));

t->name = name; t->id = A_PURE; t->argc = pf->argc;

t->f.puref = pf;

t->f.puref = pf; t->fullname = name;

return;

}

*fp = 0;

}

void searchc(name,fp)

void searchc(char *name,FUNC *fp)

char *name;

FUNC *fp;

{

NODE node;

PF pf;

Line 85 FUNC *fp;

Line 83 FUNC *fp;

pf = (PF)node->body;

*fp = t = (FUNC)MALLOC(sizeof(struct oFUNC));

t->name = name; t->id = A_PURE; t->argc = pf->argc;

t->f.puref = pf;

t->f.puref = pf; t->fullname = name;

return;

}

*fp = 0;

}

void mkpf(name,body,argc,args,parif,libmf,simp,pfp)

void mkpf(char *name,Obj body,int argc,V *args,

char *name;

int (*parif)(),double (*libmf)(), int (*simp)(),PF *pfp)

Obj body;

int argc;

V *args;

int (*parif)(),(*simp)();

double (*libmf)();

PF *pfp;

{

PF pf;

NODE node;

Line 123 PF *pfp;

Line 115 PF *pfp;

each arg.

void mkpfins(pf,args,vp)

void mkpfins(PF pf,V *args,V *vp)

PF pf;

V *args;

V *vp;

{

V v;

PFINS ins;

Line 147 V *vp;

Line 136 V *vp;

/* the same as above. Argements are given as an array of Obj */

void _mkpfins(pf,args,vp)

void _mkpfins(PF pf,Obj *args,V *vp)

PF pf;

Obj *args;

V *vp;

{

V v;

PFINS ins;

Line 170 V *vp;

Line 156 V *vp;

/* the same as above. darray is also given */

void _mkpfins_with_darray(pf,args,darray,vp)

void _mkpfins_with_darray(PF pf,Obj *args,int *darray,V *vp)

PF pf;

Obj *args;

int *darray;

V *vp;

{

V v;

PFINS ins;

Line 192 V *vp;

Line 174 V *vp;

appendpfins(v,vp);

}

void appendpfins(v,vp)

void appendpfins(V v,V *vp)

V v;

V *vp;

{

PF fdef;

PFAD ad,tad;

Line 205 V *vp;

Line 185 V *vp;

for ( node = fdef->ins; node; node = NEXT(node) ) {

for ( i = 0, tad = ((PFINS)((V)node->body)->priv)->ad;

i < fdef->argc; i++ )

if ( (ad[i].d != tad[i].d) || compr(CO,ad[i].arg,tad[i].arg) )

if ( (ad[i].d != tad[i].d) || !equalr(CO,ad[i].arg,tad[i].arg) )

break;

if ( i == fdef->argc ) {

*vp = (V)node->body;

Line 216 V *vp;

Line 196 V *vp;

fdef->ins = node; appendvar(CO,v); *vp = v;

}

void duppfins(v,vp)

void duppfins(V v,V *vp)

V v;

V *vp;

{

V tv;

PFINS tins;

Line 231 V *vp;

Line 209 V *vp;

*vp = tv;

}

void derivvar(vl,pf,v,a)

void derivvar(VL vl,V pf,V v,Obj *a)

VL vl;

V pf,v;

Obj *a;

{

Obj t,s,u,w,u1;

P p;

Line 264 Obj *a;

Line 239 Obj *a;

}

void derivr(vl,a,v,b)

void derivr(VL vl,Obj a,V v,Obj *b)

VL vl;

V v;

Obj a,*b;

{

VL tvl,svl;

Obj r,s,t,u,nm,dn,dnm,ddn,m;

Line 314 Obj a,*b;

Line 286 Obj a,*b;

}

void substr(vl,partial,a,v,b,c)

void simple_derivr(VL vl,Obj a,V v,Obj *b)

VL vl;

int partial;

Obj a;

V v;

Obj b;

Obj *c;

{

Obj r,s,t,u,nm,dn;

if ( !a || NUM(a) )

*b = 0;

else

switch ( OID(a) ) {

case O_P:

pderivr(vl,a,v,b); break;

case O_R:

nm = (Obj)NM((R)a); dn = (Obj)DN((R)a);

/* (nm/dn)' = nm'/dn - dn'/dn*nm/dn */

pderivr(vl,nm,v,&s); divr(vl,s,dn,&u); reductr(vl,u,&t);

pderivr(vl,dn,v,&s); divr(vl,s,dn,&u); reductr(vl,u,&s); mulr(vl,s,a,&u);

subr(vl,t,u,&s); reductr(vl,s,b);

break;

default:

error("simple_derivr : invalid argument");

}

int obj_is_dependent(Obj a,V v)

{

if ( !a || OID(a) <= O_N ) return 0;

else if ( OID(a) == O_P ) return poly_is_dependent((P)a,v);

else if ( OID(a) == O_R ) return poly_is_dependent(NM((R)a),v)

|| poly_is_dependent(DN((R)a),v);

else

error("obj_is_dependent : not implemented");

}

int poly_is_dependent(P p,V v)

{

DCP dc;

if ( !p || OID(p) <= O_N ) return 0;

else if ( v == VR(p) ) return 1;

else {

for ( dc = DC(p); dc; dc = NEXT(dc) )

if ( poly_is_dependent(COEF(dc),v) ) return 1;

return 0;

}

void gen_pwrr(VL vl,Obj a,Obj d,Obj *r)

{

if ( INT(d) )

pwrr(vl,a,d,r);

else

mkpow(vl,a,d,r);

}

void substr(VL vl,int partial,Obj a,V v,Obj b,Obj *c)

{

Obj nm,dn,t;

if ( !a )

Line 343 Obj *c;

Line 362 Obj *c;

}

void substpr(vl,partial,p,v0,p0,pr)

void substpr(VL vl,int partial,Obj p,V v0,Obj p0,Obj *pr)

VL vl;

int partial;

V v0;

Obj p;

Obj p0;

Obj *pr;

{

P x;

Obj t,m,c,s,a;

Line 380 Obj *pr;

Line 393 Obj *pr;

for ( c = 0, dc = DC((P)p); dc; dc = NEXT(dc) ) {

substpr(vl,partial,(Obj)COEF(dc),v0,p0,&t);

if ( DEG(dc) ) {

pwrp(vl,x,DEG(dc),(P *)&s); mulr(vl,s,t,&m);

gen_pwrr(vl,(Obj)x,(Obj)DEG(dc),&s);

mulr(vl,s,t,&m);

addr(vl,m,c,&a); c = a;

} else {

addr(vl,t,c,&a); c = a;

Line 394 Obj *pr;

Line 408 Obj *pr;

else

c = (Obj)COEF(dc);

for ( d = DEG(dc), dc = NEXT(dc); dc; d = DEG(dc), dc = NEXT(dc) ) {

subq(d,DEG(dc),(Q *)&t); pwrr(vl,p0,t,&s); mulr(vl,s,c,&m);

subq(d,DEG(dc),(Q *)&t);

gen_pwrr(vl,p0,t,&s); mulr(vl,s,c,&m);

if ( !partial )

substpr(vl,partial,(Obj)COEF(dc),v0,p0,&t);

else

Line 402 Obj *pr;

Line 417 Obj *pr;

addr(vl,m,t,&c);

}

if ( d ) {

pwrr(vl,p0,(Obj)d,&t); mulr(vl,t,c,&m);

gen_pwrr(vl,p0,(Obj)d,&t);

mulr(vl,t,c,&m);

c = m;

}

*pr = c;

}

void evalr(vl,a,prec,c)

void evalr(VL vl,Obj a,int prec,Obj *c)

VL vl;

Obj a;

int prec;

Obj *c;

{

Obj nm,dn;

Line 435 Obj *c;

Line 447 Obj *c;

}

void evalp(vl,p,prec,pr)

void evalp(VL vl,P p,int prec,P *pr)

VL vl;

P p;

int prec;

P *pr;

{

P t;

DCP dc,dcr0,dcr;

Line 467 P *pr;

Line 475 P *pr;

}

void evalv(vl,v,prec,rp)

void evalv(VL vl,V v,int prec,Obj *rp)

VL vl;

V v;

int prec;

Obj *rp;

{

PFINS ins,tins;

PFAD ad,tad;

Line 492 Obj *rp;

Line 496 Obj *rp;

}

void evalins(ins,prec,rp)

void evalins(PFINS ins,int prec,Obj *rp)

PFINS ins;

int prec;

Obj *rp;

{

PF pf;

PFAD ad;

PFINS tins;

PFAD ad,tad;

int i;

Q q;

V v;

Line 506 Obj *rp;

Line 508 Obj *rp;

NODE n0,n;

pf = ins->pf; ad = ins->ad;

tins = (PFINS)CALLOC(1,sizeof(PF)+pf->argc*sizeof(struct oPFAD));

tins->pf = pf; tad = tins->ad;

for ( i = 0; i < pf->argc; i++ ) {

tad[i].d = ad[i].d; evalr(CO,ad[i].arg,prec,&tad[i].arg);

}

for ( i = 0; i < pf->argc; i++ )

if ( ad[i].d || (ad[i].arg && !NUM(ad[i].arg)) )

if ( tad[i].d || (tad[i].arg && !NUM(tad[i].arg)) ) break;

break;

if ( (i != pf->argc) || !pf->pari ) {

instov(ins,&v); MKV(v,x); *rp = (Obj)x;

instoobj(tins,rp);

} else {

for ( n0 = 0, i = 0; i < pf->argc; i++ ) {

NEXTNODE(n0,n); BDY(n) = (pointer)ad[i].arg;

NEXTNODE(n0,n); BDY(n) = (pointer)tad[i].arg;

}

if ( prec ) {

NEXTNODE(n0,n); STOQ(prec,q); BDY(n) = (pointer)q;

Line 524 Obj *rp;

Line 530 Obj *rp;

}

void devalins(PFINS,Obj *);

void devalr(VL vl,Obj a,Obj *c)

void devalv(VL,V,Obj *);

void devalp(VL,P,P *);

void devalr(VL,Obj,Obj *);

void devalr(vl,a,c)

VL vl;

Obj a;

Obj *c;

{

Obj nm,dn;

double d;

Real r;

Real r,re,im;

C z;

int nid;

if ( !a )

*c = 0;

else {

switch ( OID(a) ) {

case O_N:

d = ToReal(a);

nid = NID((Num)a);

MKReal(d,r);

if ( nid == N_C ) {

*c = (Obj)r;

d = ToReal(((C)a)->r); MKReal(d,re);

d = ToReal(((C)a)->i); MKReal(d,im);

reimtocplx(re,im,&z);

*c = (Obj)z;

} else if ( nid == N_Q || nid == N_R || nid == N_B ) {

d = ToReal(a);

MKReal(d,r);

*c = (Obj)r;

} else

error("devalr : unsupported");

break;

case O_P:

devalp(vl,(P)a,(P *)c); break;

Line 560 Obj *c;

Line 569 Obj *c;

}

void devalp(vl,p,pr)

void devalp(VL vl,P p,P *pr)

VL vl;

P p;

P *pr;

{

P t;

DCP dc,dcr0,dcr;

Line 606 P *pr;

Line 612 P *pr;

}

void devalv(vl,v,rp)

void devalv(VL vl,V v,Obj *rp)

VL vl;

V v;

Obj *rp;

{

PFINS ins,tins;

PFAD ad,tad;

PF pf;

P t;

Obj s;

int i;

if ( (vid)v->attr != V_PF ) {

Line 631 Obj *rp;

Line 633 Obj *rp;

}

void devalins(ins,rp)

void devalins(PFINS ins,Obj *rp)

PFINS ins;

Obj *rp;

{

PFINS tins;

PF pf;

PFAD ad;

PFAD ad,tad;

int i;

Real r;

double d;

Q q;

V v;

P x;

pf = ins->pf; ad = ins->ad;

tins = (PFINS)CALLOC(1,sizeof(PF)+pf->argc*sizeof(struct oPFAD));

tins->pf = pf; tad = tins->ad;

for ( i = 0; i < pf->argc; i++ ) {

tad[i].d = ad[i].d; devalr(CO,ad[i].arg,&tad[i].arg);

}

for ( i = 0; i < pf->argc; i++ )

if ( ad[i].d || (ad[i].arg && !NUM(ad[i].arg)) )

if ( tad[i].d || (tad[i].arg && !NUM(tad[i].arg)) ) break;

break;

if ( (i != pf->argc) || !pf->libm ) {

instov(ins,&v); MKV(v,x); *rp = (Obj)x;

instoobj(tins,rp);

} else {

for ( i = 0; i < pf->argc; i++ )

if ( tad[i].arg && NID((Num)tad[i].arg) == N_C )

error("devalins : not supported");

switch ( pf->argc ) {

case 0:

d = (*pf->libm)(); break;

case 1:

d = (*pf->libm)(ToReal(ad[0].arg)); break;

d = (*pf->libm)(ToReal(tad[0].arg)); break;

case 2:

d = (*pf->libm)(ToReal(ad[0].arg),ToReal(ad[1].arg)); break;

d = (*pf->libm)(ToReal(tad[0].arg),ToReal(tad[1].arg)); break;

case 3:

d = (*pf->libm)(ToReal(ad[0].arg),ToReal(ad[1].arg),

d = (*pf->libm)(ToReal(tad[0].arg),ToReal(tad[1].arg),

ToReal(ad[2].arg)); break;

ToReal(tad[2].arg)); break;

case 4:

d = (*pf->libm)(ToReal(ad[0].arg),ToReal(ad[1].arg),

d = (*pf->libm)(ToReal(tad[0].arg),ToReal(tad[1].arg),

ToReal(ad[2].arg),ToReal(ad[3].arg)); break;

ToReal(tad[2].arg),ToReal(tad[3].arg)); break;

default:

error("devalv : not supported");

error("devalins : not supported");

}

MKReal(d,r); *rp = (Obj)r;

}

void simplify_ins(ins,rp)

extern int evalef,bigfloat;

PFINS ins;

Obj *rp;

void simplify_elemfunc_ins(PFINS ins,Obj *rp)

{

if ( evalef ) {

if ( bigfloat ) evalins(ins,0,rp);

else devalins(ins,rp);

} else instoobj(ins,rp);

}

void simplify_ins(PFINS ins,Obj *rp)

{

V v;

P t;

if ( ins->pf->simplify )

(*ins->pf->simplify)(ins,rp);

else {

instov(ins,&v); MKV(v,t); *rp = (Obj)t;

instoobj(ins,rp);

}

void instov(ins,vp)

void instoobj(PFINS ins,Obj *rp)

PFINS ins;

V *vp;

{

V v;

V v,newv;

P t;

NEWV(v); NAME(v) = 0;

v->attr = (pointer)V_PF; v->priv = (pointer)ins;

appendpfins(v,vp);

appendpfins(v,&newv);

MKV(newv,t);

*rp = (Obj)t;

}

void substfr(vl,a,u,f,c)

void substfr(VL vl,Obj a,PF u,PF f,Obj *c)

VL vl;

Obj a;

PF u,f;

Obj *c;

{

Obj nm,dn;

Line 722 Obj *c;

Line 734 Obj *c;

}

void substfp(vl,p,u,f,pr)

void substfp(VL vl,Obj p,PF u,PF f,Obj *pr)

VL vl;

Obj p;

PF u,f;

Obj *pr;

{

V v;

DCP dc;

Line 745 Obj *pr;

Line 753 Obj *pr;

for ( c = 0; dc; dc = NEXT(dc) ) {

substfp(vl,(Obj)COEF(dc),u,f,&t);

if ( DEG(dc) ) {

pwrp(vl,x,DEG(dc),(P *)&s); mulr(vl,s,t,&m);

gen_pwrr(vl,(Obj)x,(Obj)DEG(dc),&s);

mulr(vl,s,t,&m);

addr(vl,m,c,&a); c = a;

} else {

addr(vl,t,c,&a); c = a;

Line 755 Obj *pr;

Line 764 Obj *pr;

substfv(vl,v,u,f,&p0);

substfp(vl,(Obj)COEF(dc),u,f,&c);

for ( d = DEG(dc), dc = NEXT(dc); dc; d = DEG(dc), dc = NEXT(dc) ) {

subq(d,DEG(dc),(Q *)&t); pwrr(vl,p0,t,&s); mulr(vl,s,c,&m);

subq(d,DEG(dc),(Q *)&t);

gen_pwrr(vl,p0,t,&s); mulr(vl,s,c,&m);

substfp(vl,(Obj)COEF(dc),u,f,&t); addr(vl,m,t,&c);

}

if ( d ) {

pwrr(vl,p0,(Obj)d,&t); mulr(vl,t,c,&m);

gen_pwrr(vl,p0,(Obj)d,&t); mulr(vl,t,c,&m);

c = m;

}

Line 767 Obj *pr;

Line 777 Obj *pr;

}

void substfv(vl,v,u,f,c)

void substfv(VL vl,V v,PF u,PF f,Obj *c)

VL vl;

V v;

PF u,f;

Obj *c;

{

P t;

Obj r,s,w;

Line 802 Obj *c;

Line 808 Obj *c;

for ( i = 0; i < f->argc; i++ ) {

tad[i].d = ad[i].d; substfr(vl,ad[i].arg,u,f,&tad[i].arg);

}

instov(tins,&v); MKV(v,t); *c = (Obj)t;

instoobj(tins,c);

}

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