OpenXM_contrib2/asir2000/builtin/parif.c - diff

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Diff for /OpenXM_contrib2/asir2000/builtin/parif.c between version 1.6 and 1.15

version 1.6, 2000/12/05 01:24:51

version 1.15, 2009/03/16 16:43:02

Line 45

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

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/builtin/parif.c,v 1.5 2000/11/15 00:07:20 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/builtin/parif.c,v 1.14 2003/02/14 22:29:07 ohara Exp $

#include "ca.h"

#include "parse.h"

#if PARI

#if defined(PARI)

#include "genpari.h"

extern long prec;

Line 60 void patori_i(GEN,N *);

void ritopa(Obj,GEN *);

void ritopa_i(N,int,GEN *);

void Ptodouble();

void Peval(),Psetprec(),p_pi(),p_e(),p_mul(),p_gcd();

void asir_cgiv(GEN);

#if defined(INTERVAL) || 1

void Psetprecword();

#endif

struct ftab pari_tab[] = {

{"eval",Peval,-2}, {"setprec",Psetprec,-1}, {0,0,0},

{"eval",Peval,-2},

{"setprec",Psetprec,-1},

{"todouble",Ptodouble,1},

#if defined(INTERVAL) || 1

{"setprecword",Psetprecword,-1},

#endif

{0,0,0},

};

#define MKPREC(a,i,b) (argc(a)==(i)?mkprec(QTOS((Q)(b))):prec)

Line 83 void f(NODE,Obj *);\

Line 94 void f(NODE,Obj *);\

void f(ar,rp) NODE ar; Obj *rp;\

{ GEN _pt1_,_pt2_,_pt3_; CALLPARI2(pf,ARG0(ar),ARG1(ar),MKPREC(ar,3,ARG2(ar)),rp); }

#if defined(LONG_IS_32BIT)

#if defined(INTERVAL)

#define PREC_CONV pariK1

#elif SIZEOF_LONG == 4

#define PREC_CONV 0.103810253

#endif

#elif SIZEOF_LONG == 8

#if defined(LONG_IS_64BIT)

#define PREC_CONV 0.051905126

#endif

Line 104 GEN ptr;

Line 116 GEN ptr;

mkprec(p)

int p;

{

if ( p > 0 )

if ( p <= 0 )

return (int)(p*PREC_CONV+3);

p = 1;

return (int)(p*PREC_CONV+3);

}

void Ptodouble(arg,rp)

NODE arg;

Num *rp;

{

double r,i;

Real real,imag;

Num num;

asir_assert(ARG0(arg),O_N,"todouble");

num = (Num)ARG0(arg);

if ( !num ) {

*rp = 0;

return;

}

switch ( NID(num) ) {

case N_R: case N_Q: case N_B:

r = ToReal(num);

MKReal(r,real);

*rp = (Num)real;

break;

case N_C:

r = ToReal(((C)num)->r);

i = ToReal(((C)num)->i);

MKReal(r,real);

MKReal(i,imag);

reimtocplx((Num)real,(Num)imag,rp);

break;

default:

*rp = num;

break;

}

void Peval(arg,rp)

NODE arg;

Obj *rp;

Line 123 Obj *rp;

Line 169 Obj *rp;

int p;

Q q;

#if defined(INTERVAL) || 1

p = (int)((prec-2)/PREC_CONV); STOQ(p,q); *rp = (Obj)q;

if ( arg ) {

asir_assert(ARG0(arg),O_N,"setprec");

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

if ( p > 0 )

prec = (long)(p*PREC_CONV+3);

}

#else

p = (int)((prec-3)/PREC_CONV); STOQ(p,q); *rp = (Obj)q;

if ( arg ) {

asir_assert(ARG0(arg),O_N,"setprec");

prec = mkprec(QTOS((Q)ARG0(arg)));

}

#endif

}

#if defined(INTERVAL) || 1

void Psetprecword(arg,rp)

NODE arg;

Obj *rp;

{

int p;

Q q;

p = (int)((prec-2)); STOQ(p,q); *rp = (Obj)q;

if ( arg ) {

asir_assert(ARG0(arg),O_N,"setprecword");

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

if ( p > 0 ) {

prec = p + 2;

}

#endif

void p_pi(arg,rp)

NODE arg;

Obj *rp;

Line 186 NODE arg;

Line 261 NODE arg;

GEN a,v;

long ltop,lbot;

pointer r;

int ac;

int ac,opt,intarg,ret;

char buf[BUFSIZ];

Q q;

GEN (*dmy)();

if ( !f->f.binf ) {

sprintf(buf,"pari : %s undefined.",f->name);

error(buf);

/* NOTREACHED */

return 0;

}

switch ( f->type ) {

case 0: /* in/out : integer */

ac = argc(arg);

if ( ac > 2 ) {

fprintf(stderr,"argument mismatch in %s()\n",NAME(f));

error("");

/* NOTREACHED */

return 0;

}

intarg = !ac ? 0 : QTOS((Q)ARG0(arg));

dmy = (GEN (*)())f->f.binf;

ret = (int)(*dmy)(intarg);

STOQ(ret,q);

return (pointer)q;

case 1:

ac = argc(arg);

if ( !ac || ( ac > 2 ) ) {

fprintf(stderr,"argument mismatch in %s()\n",NAME(f));

error("");

/* NOTREACHED */

return 0;

}

ltop = avma;

ritopa((Obj)ARG0(arg),&a);

#if 1 || defined(__MWERKS__)

{

GEN (*dmy)();

dmy = (GEN (*)())f->f.binf;

v = (*dmy)(a,MKPREC(arg,2,ARG1(arg)));

}

#else

v = (GEN)(*f->f.binf)(a,MKPREC(arg,2,ARG1(arg)));

#endif

lbot = avma;

patori(v,(Obj *)&r); gerepile(ltop,lbot,0);

return r;

case 2:

ac = argc(arg);

if ( !ac || ( ac > 2 ) ) {

fprintf(stderr,"argument mismatch in %s()\n",NAME(f));

error("");

/* NOTREACHED */

return 0;

}

if ( ac == 1 )

opt = 0;

else

opt = QTOS((Q)ARG1(arg));

ltop = avma;

ritopa((Obj)ARG0(arg),&a);

dmy = (GEN (*)())f->f.binf;

v = (*dmy)(a,opt);

lbot = avma;

patori(v,(Obj *)&r); gerepile(ltop,lbot,0);

return r;

default:

error("evalparif : not implemented yet.");

/* NOTREACHED */

return 0;

}

Line 226 struct pariftab {

Line 336 struct pariftab {

int type;

};

* type = 1 => argc = 1, second arg = precision

* type = 2 => argc = 1, second arg = optional (long int)

struct pariftab pariftab[] = {

{"allocatemem",(GEN(*)())allocatemoremem,0},

{"abs",(GEN (*)())gabs,1},

{"adj",adj,1},

{"arg",garg,1},

Line 266 struct pariftab pariftab[] = {

Line 383 struct pariftab pariftab[] = {

{"indsort",indexsort,1},

{"initalg",initalg,1},

{"isfund",gisfundamental,1},

{"isprime",gisprime,1},

{"isprime",gisprime,2},

{"ispsp",gispsp,1},

{"isqrt",racine,1},

{"issqfree",gissquarefree,1},

Line 277 struct pariftab pariftab[] = {

Line 394 struct pariftab pariftab[] = {

{"keri",keri,1},

{"kerint",kerint,1},

{"kerintg1",kerint1,1},

{"kerint2",kerint2,1},

{"length",(GEN(*)())glength,1},

{"lexsort",lexsort,1},

{"lift",lift,1},

{"lindep",lindep,1},

{"lll",lll,1},

{"lllg1",lll1,1},

{"lllgen",lllgen,1},

{"lllgram",lllgram,1},

{"lllgramg1",lllgram1,1},

{"lllgramgen",lllgramgen,1},

{"lllgramint",lllgramint,1},

{"lllgramkerim",lllgramkerim,1},

Line 294 struct pariftab pariftab[] = {

Line 408 struct pariftab pariftab[] = {

{"lllint",lllint,1},

{"lllkerim",lllkerim,1},

{"lllkerimgen",lllkerimgen,1},

{"lllrat",lllrat,1},

{"lngamma",glngamma,1},

{"logagm",glogagm,1},

{"mat",gtomat,1},

Line 350 struct pariftab pariftab[] = {

Line 463 struct pariftab pariftab[] = {

{"wf",wf,1},

{"wf2",wf2,1},

{"zeta",gzeta,1},

{"factor",factor,1},

{"factorint",factorint,2},

{0,0,0},

};

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