OpenXM_contrib2/asir2000/builtin/int.c - diff

Return to int.c CVS log

Up to [local] / OpenXM_contrib2 / asir2000 / builtin

Diff for /OpenXM_contrib2/asir2000/builtin/int.c between version 1.7 and 1.13

version 1.7, 2000/12/08 02:39:05

version 1.13, 2015/08/14 13:51:54

Line 45

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

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/builtin/int.c,v 1.6 2000/12/05 01:24:50 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/builtin/int.c,v 1.12 2015/08/06 10:01:52 fujimoto Exp $

#include "ca.h"

#include "parse.h"

Line 57 void Pup2_init_eg(), Pup2_show_eg();

void Piqr(), Pprime(), Plprime(), Pinttorat();

void Piand(), Pior(), Pixor(), Pishift();

void Pisqrt();

void iand(), ior(), ixor();

void isqrt();

void Plrandom();

void Pset_upkara(), Pset_uptkara(), Pset_up2kara(), Pset_upfft();

void Pmt_save(), Pmt_load();

Line 66 void Psmall_jacobi();

Line 64 void Psmall_jacobi();

void Pdp_set_mpi();

void Pntoint32(),Pint32ton();

#ifdef HMEXT

void Pigcdbin(), Pigcdbmod(), PigcdEuc(), Pigcdacc(), Pigcdcntl();

void Pihex();

void Pimaxrsh(), Pilen();

void Ptype_t_NB();

#endif /* HMEXT */

struct ftab int_tab[] = {

{"dp_set_mpi",Pdp_set_mpi,-1},

{"isqrt",Pisqrt,1},

Line 105 struct ftab int_tab[] = {

Line 100 struct ftab int_tab[] = {

{"ixor",Pixor,2},

{"ishift",Pishift,2},

{"small_jacobi",Psmall_jacobi,2},

#ifdef HMEXT

{"igcdbin",Pigcdbin,2}, /* HM@CCUT extension */

{"igcdbmod",Pigcdbmod,2}, /* HM@CCUT extension */

{"igcdeuc",PigcdEuc,2}, /* HM@CCUT extension */

{"igcdacc",Pigcdacc,2}, /* HM@CCUT extension */

{"igcdcntl",Pigcdcntl,-1}, /* HM@CCUT extension */

{"ihex",Pihex,1}, /* HM@CCUT extension */

{"imaxrsh",Pimaxrsh,1}, /* HM@CCUT extension */

{"ilen",Pilen,1}, /* HM@CCUT extension */

#endif /* HMEXT */

{"mt_save",Pmt_save,1},

{"mt_load",Pmt_load,1},

{"ntoint32",Pntoint32,1},

Line 127 static unsigned int gcd_small(unsigned int,unsigned in

Line 119 static unsigned int gcd_small(unsigned int,unsigned in

int TypeT_NB_check(unsigned int, unsigned int);

int mpi_mag;

void Pntoint32(arg,rp)

void Pntoint32(NODE arg,USINT *rp)

NODE arg;

USINT *rp;

{

Q q;

unsigned int t;

Line 144 USINT *rp;

Line 134 USINT *rp;

error("ntoint32 : invalid argument");

t = BD(NM(q))[0];

if ( SGN(q) < 0 )

t = -t;

t = -(int)t;

MKUSINT(*rp,t);

}

void Pint32ton(arg,rp)

void Pint32ton(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

int t;

Line 159 Q *rp;

Line 147 Q *rp;

STOQ(t,*rp);

}

void Pdp_set_mpi(arg,rp)

void Pdp_set_mpi(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

if ( arg ) {

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

Line 170 Q *rp;

Line 156 Q *rp;

STOQ(mpi_mag,*rp);

}

void Psmall_jacobi(arg,rp)

void Psmall_jacobi(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

Q a,m;

int a0,m0,s;

Line 193 Q *rp;

Line 177 Q *rp;

}

int small_jacobi(a,m)

int small_jacobi(int a,int m)

int a,m;

{

int m4,m8,a4,j1,i,s;

Line 220 int a,m;

Line 203 int a,m;

}

void Ptype_t_NB(arg,rp)

void Ptype_t_NB(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

if ( TypeT_NB_check(QTOS((Q)ARG0(arg)),QTOS((Q)ARG1(arg))))

*rp = ONE;

Line 293 static unsigned int gcd_small(unsigned int a,unsigned

Line 274 static unsigned int gcd_small(unsigned int a,unsigned

}

void Pmt_save(arg,rp)

void Pmt_save(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

int ret;

Line 303 Q *rp;

Line 282 Q *rp;

STOQ(ret,*rp);

}

void Pmt_load(arg,rp)

void Pmt_load(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

int ret;

Line 313 Q *rp;

Line 290 Q *rp;

STOQ(ret,*rp);

}

void Pisqrt(arg,rp)

void Pisqrt(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

Q a;

N r;

Line 332 Q *rp;

Line 307 Q *rp;

}

void Pidiv(arg,rp)

void Pidiv(NODE arg,Obj *rp)

NODE arg;

Obj *rp;

{

N q,r;

Q a;

Line 353 Obj *rp;

Line 326 Obj *rp;

}

void Pirem(arg,rp)

void Pirem(NODE arg,Obj *rp)

NODE arg;

Obj *rp;

{

N q,r;

Q a;

Line 374 Obj *rp;

Line 345 Obj *rp;

}

void Piqr(arg,rp)

void Piqr(NODE arg,LIST *rp)

NODE arg;

LIST *rp;

{

N q,r;

Q a,b;

Line 400 LIST *rp;

Line 369 LIST *rp;

MKNODE(node2,b,0); MKNODE(node1,a,node2); MKLIST(*rp,node1);

}

void Pinttorat(arg,rp)

void Pinttorat(NODE arg,LIST *rp)

NODE arg;

LIST *rp;

{

Q cq,qq,t,u1,v1,r1,nm;

N m,b,q,r,c,u2,v2,r2;

Line 441 LIST *rp;

Line 408 LIST *rp;

}

void Pigcd(arg,rp)

void Pigcd(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

N g;

Q n1,n2,a;

Line 465 Q *rp;

Line 430 Q *rp;

}

int comp_n(a,b)

int comp_n(N *a,N *b)

N *a,*b;

{

return cmpn(*a,*b);

}

void iqrv(a,dvr,rp)

void iqrv(VECT a,Q dvr,LIST *rp)

VECT a;

Q dvr;

LIST *rp;

{

int i,n;

VECT q,r;

Line 505 LIST *rp;

Line 466 LIST *rp;

* gcd = GCD(a,b), ca = a/g, cb = b/g

void igcd_cofactor(a,b,gcd,ca,cb)

void igcd_cofactor(Q a,Q b,Q *gcd,Q *ca,Q *cb)

Q a,b;

Q *gcd,*ca,*cb;

{

N gn,tn;

Line 530 Q *gcd,*ca,*cb;

Line 489 Q *gcd,*ca,*cb;

}

void igcdv(a,rp)

void igcdv(VECT a,Q *rp)

VECT a;

Q *rp;

{

int i,j,n,nz;

N g,gt,q,r;

Line 551 Q *rp;

Line 508 Q *rp;

NTOQ(*c,1,*rp); return;

}

gcdn(c[0],c[1],&g);

#if 0

for ( i = 2; i < n; i++ ) {

divn(c[i],g,&q,&r);

gcdn(g,r,&gt);

Line 563 Q *rp;

Line 521 Q *rp;

} else

g = gt;

}

#else

for ( i = 2; i < n; i++ ) {

gcdn(g,c[i],&gt); g = gt;

}

#endif

NTOQ(g,1,*rp);

}

void igcdv_estimate(a,rp)

void igcdv_estimate(VECT a,Q *rp)

VECT a;

Q *rp;

{

int n,i,m;

N s,t,u,g;

Line 589 Q *rp;

Line 550 Q *rp;

gcdn(s,t,&g); NTOQ(g,1,*rp);

}

void Pilcm(arg,rp)

void Pilcm(NODE arg,Obj *rp)

NODE arg;

Obj *rp;

{

N g,q,r,l;

Q n1,n2,a;

Line 607 Obj *rp;

Line 566 Obj *rp;

}

void Piand(arg,rp)

void Piand(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

N g;

Q n1,n2,a;

Line 625 Q *rp;

Line 582 Q *rp;

}

void Pior(arg,rp)

void Pior(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

N g;

Q n1,n2,a;

Line 645 Q *rp;

Line 600 Q *rp;

}

void Pixor(arg,rp)

void Pixor(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

N g;

Q n1,n2,a;

Line 665 Q *rp;

Line 618 Q *rp;

}

void Pishift(arg,rp)

void Pishift(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

N g;

Q n1,s,a;

Line 685 Q *rp;

Line 636 Q *rp;

}

void isqrt(a,r)

void isqrt(N a,N *r)

N a,*r;

{

int k;

N x,t,x2,xh,quo,rem;

Line 714 N a,*r;

Line 664 N a,*r;

}

void iand(n1,n2,r)

void iand(N n1,N n2,N *r)

N n1,n2,*r;

{

int d1,d2,d,i;

N nr;

Line 734 N n1,n2,*r;

Line 683 N n1,n2,*r;

}

void ior(n1,n2,r)

void ior(N n1,N n2,N *r)

N n1,n2,*r;

{

int d1,d2,i;

N nr;

Line 758 N n1,n2,*r;

Line 706 N n1,n2,*r;

}

void ixor(n1,n2,r)

void ixor(N n1,N n2,N *r)

N n1,n2,*r;

{

int d1,d2,i;

N nr;

Line 782 N n1,n2,*r;

Line 729 N n1,n2,*r;

}

void Pup2_init_eg(rp)

void Pup2_init_eg(Obj *rp)

Obj *rp;

{

up2_init_eg();

*rp = 0;

}

void Pup2_show_eg(rp)

void Pup2_show_eg(Obj *rp)

Obj *rp;

{

up2_show_eg();

*rp = 0;

}

void Pgf2nton(arg,rp)

void Pgf2nton(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

if ( !ARG0(arg) )

*rp = 0;

Line 806 Q *rp;

Line 749 Q *rp;

up2ton(((GF2N)ARG0(arg))->body,rp);

}

void Pntogf2n(arg,rp)

void Pntogf2n(NODE arg,GF2N *rp)

NODE arg;

GF2N *rp;

{

UP2 t;

Line 816 GF2N *rp;

Line 757 GF2N *rp;

MKGF2N(t,*rp);

}

void Pup2_inv(arg,rp)

void Pup2_inv(NODE arg,P *rp)

NODE arg;

P *rp;

{

UP2 a,b,t;

Line 828 P *rp;

Line 767 P *rp;

up2top(t,rp);

}

void Pinv(arg,rp)

void Pinv(NODE arg,Num *rp)

NODE arg;

Num *rp;

{

Num n;

Q mod;

Line 857 Num *rp;

Line 794 Num *rp;

}

void Pfac(arg,rp)

void Pfac(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

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

factorial(QTOS((Q)ARG0(arg)),rp);

}

void Plrandom(arg,rp)

void Plrandom(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

N r;

Line 876 Q *rp;

Line 809 Q *rp;

NTOQ(r,1,*rp);

}

void Prandom(arg,rp)

void Prandom(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

unsigned int r;

Line 897 Q *rp;

Line 828 Q *rp;

UTOQ(r,*rp);

}

#if defined(VISUAL)

#if defined(VISUAL) || defined(__MINGW32__)

void srandom(unsigned int);

static unsigned int R_Next;

Line 908 unsigned int random() {

Line 839 unsigned int random() {

return R_Next = (R_Next * 1103515245 + 12345);

}

void srandom(s)

void srandom(unsigned int s)

unsigned int s;

{

if ( s )

R_Next = s;

Line 918 unsigned int s;

Line 848 unsigned int s;

}

#endif

void Pprime(arg,rp)

void Pprime(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

int i;

Line 932 Q *rp;

Line 860 Q *rp;

STOQ(sprime[i],*rp);

}

void Plprime(arg,rp)

void Plprime(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

int i;

int i,p;

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

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

if ( i < 0 || i >= 1000 )

if ( i < 0 )

*rp = 0;

else

STOQ(lprime[i],*rp);

p = get_lprime(i);

STOQ(p,*rp);

}

extern int up_kara_mag, up_tkara_mag, up_fft_mag;

void Pset_upfft(arg,rp)

void Pset_upfft(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

if ( arg ) {

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

Line 959 Q *rp;

Line 884 Q *rp;

STOQ(up_fft_mag,*rp);

}

void Pset_upkara(arg,rp)

void Pset_upkara(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

if ( arg ) {

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

Line 970 Q *rp;

Line 893 Q *rp;

STOQ(up_kara_mag,*rp);

}

void Pset_uptkara(arg,rp)

void Pset_uptkara(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

if ( arg ) {

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

Line 983 Q *rp;

Line 904 Q *rp;

extern int up2_kara_mag;

void Pset_up2kara(arg,rp)

void Pset_up2kara(NODE arg,Q *rp)

NODE arg;

Q *rp;

{

if ( arg ) {

asir_assert(ARG0(arg),O_N,"set_up2kara");

Line 994 Q *rp;

Line 913 Q *rp;

STOQ(up2_kara_mag,*rp);

}

#ifdef HMEXT

void Pigcdbin(NODE arg,Obj *rp)

void Pigcdbin(arg,rp)

NODE arg;

Obj *rp;

{

N g;

Q n1,n2,a;

Line 1015 Obj *rp;

Line 931 Obj *rp;

}

void Pigcdbmod(arg,rp)

void Pigcdbmod(NODE arg,Obj *rp)

NODE arg;

Obj *rp;

{

N g;

Q n1,n2,a;

Line 1035 Obj *rp;

Line 949 Obj *rp;

}

void Pigcdacc(arg,rp)

void Pigcdacc(NODE arg,Obj *rp)

NODE arg;

Obj *rp;

{

N g;

Q n1,n2,a;

Line 1055 Obj *rp;

Line 967 Obj *rp;

}

void PigcdEuc(arg,rp)

void PigcdEuc(NODE arg,Obj *rp)

NODE arg;

Obj *rp;

{

N g;

Q n1,n2,a;

Line 1094 extern int igcdacc_thre;

Line 1004 extern int igcdacc_thre;

* > igcdacc_thre, "bmod" reduction is done.

void Pigcdcntl(arg,rp)

void Pigcdcntl(NODE arg,Obj *rp)

NODE arg;

Obj *rp;

{

Obj p;

Q a;

Line 1145 Obj *rp;

Line 1053 Obj *rp;

*rp = (Obj)a;

return;

}

void Pimaxrsh(arg,rp)

NODE arg;

LIST *rp;

{

N n1, n2;

Q q;

NODE node1, node2;

int bits;

N maxrshn();

q = (Q)ARG0(arg);

asir_assert(q,O_N,"imaxrsh");

if ( !q ) n1 = n2 = 0;

else {

n1 = maxrshn( NM(q), &bits );

STON( bits, n2 );

}

NTOQ( n2, 1, q );

MKNODE( node2, q, 0 );

NTOQ( n1, 1, q );

MKNODE( node1, q, node2 );

MKLIST( *rp, node1 );

}

void Pilen(arg,rp)

NODE arg;

Obj *rp;

{

Q q;

int l;

q = (Q)ARG0(arg);

asir_assert(q,O_N,"ilenh");

if ( !q ) l = 0;

else l = PL(NM(q));

STOQ(l,q);

*rp = (Obj)q;

}

void Pihex(arg,rp)

NODE arg;

Obj *rp;

{

Q n1;

n1 = (Q)ARG0(arg);

asir_assert(n1,O_N,"ihex");

if ( n1 ) {

int i, l = PL(NM(n1)), *p = BD(NM(n1));

for ( i = 0; i < l; i++ ) printf( " 0x%08x", p[i] );

printf( "\n" );

} else printf( " 0x%08x\n", 0 );

*rp = (Obj)n1;

}

#endif /* HMEXT */

FreeBSD-CVSweb <freebsd-cvsweb@FreeBSD.org>