File: [local] / OpenXM / src / ox_pari / ox_pari.c (download)
Revision 1.3, Mon Aug 17 05:18:35 2015 UTC (8 years, 9 months ago) by noro
Branch: MAIN
Changes since 1.2: +130 -20
lines
Fixed bugs in ox_toolkit.
Modifed evalparif() in asir and sm_executeFunction() in ox_pari
so that functions can be easily added.
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/* $OpenXM: OpenXM/src/ox_pari/ox_pari.c,v 1.3 2015/08/17 05:18:35 noro Exp $ */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "pari/pari.h"
#include "pari/paripriv.h"
#include "gmp.h"
#include "gmp-impl.h"
#include "mpfr.h"
#include "ox_toolkit.h"
OXFILE *fd_rw;
#define MPFR_PREC(x) ((x)->_mpfr_prec)
#define MPFR_EXP(x) ((x)->_mpfr_exp)
#define MPFR_MANT(x) ((x)->_mpfr_d)
#define MPFR_LAST_LIMB(x) ((MPFR_PREC (x) - 1) / GMP_NUMB_BITS)
#define MPFR_LIMB_SIZE(x) (MPFR_LAST_LIMB (x) + 1)
static int stack_size = 0;
static int stack_pointer = 0;
static cmo **stack = NULL;
extern int debug_print;
long paristack=10000000;
void init_pari(void);
cmo *GEN_to_cmo(GEN z);
cmo_zz *GEN_to_cmo_zz(GEN z);
cmo_bf *GEN_to_cmo_bf(GEN z);
cmo_list *GEN_to_cmo_list(GEN z);
GEN cmo_to_GEN(cmo *c);
GEN cmo_zz_to_GEN(cmo_zz *c);
GEN cmo_bf_to_GEN(cmo_bf *c);
#define INIT_S_SIZE 2048
#define EXT_S_SIZE 2048
void *gc_realloc(void *p,size_t osize,size_t nsize)
{
return (void *)GC_realloc(p,nsize);
}
void gc_free(void *p,size_t size)
{
GC_free(p);
}
void init_gc()
{
GC_INIT();
mp_set_memory_functions(GC_malloc,gc_realloc,gc_free);
}
void init_pari()
{
pari_init(paristack,2);
}
int initialize_stack()
{
stack_pointer = 0;
stack_size = INIT_S_SIZE;
stack = MALLOC(stack_size*sizeof(cmo*));
return 0;
}
static int extend_stack()
{
int size2 = stack_size + EXT_S_SIZE;
cmo **stack2 = MALLOC(size2*sizeof(cmo*));
memcpy(stack2, stack, stack_size*sizeof(cmo *));
free(stack);
stack = stack2;
stack_size = size2;
return 0;
}
int push(cmo* m)
{
stack[stack_pointer] = m;
stack_pointer++;
if(stack_pointer >= stack_size) {
extend_stack();
}
return 0;
}
cmo* pop()
{
if(stack_pointer > 0) {
stack_pointer--;
return stack[stack_pointer];
}
return new_cmo_null();
}
void pops(int n)
{
stack_pointer -= n;
if(stack_pointer < 0) {
stack_pointer = 0;
}
}
#define OX_PARI_VERSION 20150731
#define ID_STRING "2015/07/31 15:00:00"
int sm_mathcap()
{
mathcap_init(OX_PARI_VERSION, ID_STRING, "ox_pari", NULL, NULL);
push((cmo*)oxf_cmo_mathcap(fd_rw));
return 0;
}
int sm_popCMO()
{
cmo* m = pop();
if(m != NULL) {
send_ox_cmo(fd_rw, m);
return 0;
}
return SM_popCMO;
}
cmo_error2 *make_error2(int code)
{
return (cmo_error2 *) new_cmo_int32(code);
}
int get_i()
{
cmo *c = pop();
if(c->tag == CMO_INT32) {
return ((cmo_int32 *)c)->i;
}else if(c->tag == CMO_ZZ) {
return mpz_get_si(((cmo_zz *)c)->mpz);
}
make_error2(-1);
return 0;
}
char *get_str()
{
cmo *c = pop();
if(c->tag == CMO_STRING) {
return ((cmo_string *)c)->s;
}
make_error2(-1);
return "";
}
int cmo2int(cmo *c)
{
if(c->tag == CMO_INT32) {
return ((cmo_int32 *)c)->i;
}else if(c->tag == CMO_ZZ) {
return mpz_get_si(((cmo_zz *)c)->mpz);
} else if(c->tag == CMO_NULL){
return 0;
}
return 0;
}
GEN cmo_zz_to_GEN(cmo_zz *c)
{
mpz_ptr mpz;
GEN z;
long *ptr;
int j,sgn,len;
mpz = c->mpz;
sgn = mpz_sgn(mpz);
len = ABSIZ(mpz);
ptr = (long *)PTR(mpz);
z = cgeti(len+2);
for ( j = 0; j < len; j++ )
z[len-j+1] = ptr[j];
setsigne(z,sgn);
setlgefint(z,lg(z));
return z;
}
GEN cmo_bf_to_GEN(cmo_bf *c)
{
mpfr_ptr mpfr;
GEN z;
int sgn,len,j;
long exp;
long *ptr;
mpfr = c->mpfr;
sgn = MPFR_SIGN(mpfr);
exp = MPFR_EXP(mpfr)-1;
len = MPFR_LIMB_SIZE(mpfr);
ptr = (long *)MPFR_MANT(mpfr);
z = cgetr(len+2);
for ( j = 0; j < len; j++ )
z[len-j+1] = ptr[j];
z[1] = evalsigne(sgn)|evalexpo(exp);
setsigne(z,sgn);
return z;
}
cmo_zz *GEN_to_cmo_zz(GEN z)
{
cmo_zz *c;
c = new_cmo_zz();
mpz_import(c->mpz,lgef(z)-2,1,sizeof(long),0,0,&z[2]);
if ( signe(z) < 0 )
mpz_neg(c->mpz,c->mpz);
return c;
}
cmo_bf *GEN_to_cmo_bf(GEN z)
{
cmo_bf *c;
int len,prec,j;
long *ptr;
c = new_cmo_bf();
len = lg(z)-2;
prec = len*sizeof(long)*8;
mpfr_init2(c->mpfr,prec);
ptr = (long *)MPFR_MANT(c->mpfr);
for ( j = 0; j < len; j++ )
ptr[j] = z[len-j+1];
MPFR_EXP(c->mpfr) = (long long)(expo(z)+1);
MPFR_SIGN(c->mpfr) = gsigne(z);
return c;
}
cmo_list *GEN_to_cmo_list(GEN z)
{
cmo_list *c;
cmo *ob;
int i,len;
c = new_cmo_list();
len = lg(z)-1;
for ( i = 1; i <= len; i++ ) {
ob = GEN_to_cmo((GEN)z[i]);
c = list_append(c,ob);
}
return c;
}
GEN cmo_to_GEN(cmo *c)
{
switch ( c->tag ) {
case CMO_ZERO:
return gen_0;
case CMO_ZZ: /* int */
return cmo_zz_to_GEN((cmo_zz *)c);
case CMO_BIGFLOAT: /* bigfloat */
return cmo_bf_to_GEN((cmo_bf *)c);
default:
return 0;
}
}
cmo *GEN_to_cmo(GEN z)
{
if ( gcmp0(z) )
return new_cmo_zero();
switch ( typ(z) ) {
case 1: /* int */
return (cmo *)GEN_to_cmo_zz(z);
case 2: /* bigfloat */
return (cmo *)GEN_to_cmo_bf(z);
case 17: case 18: /* vector */
return (cmo *)GEN_to_cmo_list(z);
case 19: /* matrix */
return (cmo *)GEN_to_cmo_list(shallowtrans(z));
default:
return (cmo *)make_error2(typ(z));
}
}
struct parif {
char *name;
int type;
GEN (*f)();
} parif_tab[] = {
{"erfc",1,gerfc},
{"factor",1,Z_factor},
{"isqrt",1,racine},
{"nextprime",1,nextprime},
{"det",1,det},
{"allocatemem",0,(GEN (*)())allocatemoremem},
};
#define PARI_MAX_AC 64
struct parif *search_parif(char *name)
{
int tablen,i;
tablen = sizeof(parif_tab)/sizeof(struct parif);
for ( i = 0; i < tablen; i++ ) {
if ( !strcmp(parif_tab[i].name,name) )
return &parif_tab[i];
}
return 0;
}
int sm_executeFunction()
{
long ltop,lbot;
int ac,i;
cmo_int32 *c;
cmo *av[PARI_MAX_AC];
cmo *ret;
GEN z,m;
struct parif *parif;
if ( setjmp(GP_DATA->env) ) {
printf("sm_executeFunction : an error occured.\n");fflush(stdout);
push((cmo*)make_error2(0));
return -1;
}
cmo_string *func = (cmo_string *)pop();
if(func->tag != CMO_STRING) {
printf("sm_executeFunction : func->tag is not CMO_STRING");fflush(stdout);
push((cmo*)make_error2(0));
return -1;
}
c = (cmo_int32 *)pop();
ac = c->i;
if ( ac > PARI_MAX_AC ) {
push((cmo*)make_error2(0));
return -1;
}
for ( i = 0; i < ac; i++ ) {
av[i] = (cmo *)pop();
fprintf(stderr,"arg%d:",i);
print_cmo(av[i]);
fprintf(stderr,"\n");
}
if( strcmp( func->s, "exit" ) == 0 )
exit(0);
parif =search_parif(func->s);
if ( !parif ) {
push((cmo*)make_error2(0));
return -1;
} else if ( parif->type == 0 ) {
/* one long int variable */
int a = cmo_to_int(av[0]);
a = (int)(*parif->f)(a);
ret = (cmo *)new_cmo_int32(a);
push(ret);
return 0;
} else if ( parif->type == 1 ) {
/* one variable possibly with prec */
unsigned long prec;
ltop = avma;
z = cmo_to_GEN(av[0]);
if ( ac == 2 ) {
prec = cmo_to_int(av[1])*3.32193/32+3;
} else
prec = precreal;
m = (*parif->f)(z,prec);
lbot = avma;
ret = GEN_to_cmo(m);
// gerepile(ltop,lbot,0);
push(ret);
return 0;
} else {
push((cmo*)make_error2(0));
return -1;
}
}
int receive_and_execute_sm_command()
{
int code = receive_int32(fd_rw);
switch(code) {
case SM_popCMO:
sm_popCMO();
break;
case SM_executeFunction:
sm_executeFunction();
break;
case SM_mathcap:
sm_mathcap();
break;
case SM_setMathCap:
pop();
break;
default:
printf("receive_and_execute_sm_command : code=%d\n",code);fflush(stdout);
break;
}
return 0;
}
int receive()
{
int tag;
tag = receive_ox_tag(fd_rw);
switch(tag) {
case OX_DATA:
printf("receive : ox_data %d\n",tag);fflush(stdout);
push(receive_cmo(fd_rw));
break;
case OX_COMMAND:
printf("receive : ox_command %d\n",tag);fflush(stdout);
receive_and_execute_sm_command();
break;
default:
printf("receive : tag=%d\n",tag);fflush(stdout);
}
return 0;
}
int main()
{
init_gc();
ox_stderr_init(stderr);
initialize_stack();
init_pari();
fprintf(stderr,"ox_pari\n");
fd_rw = oxf_open(3);
oxf_determine_byteorder_server(fd_rw);
while(1){
receive();
}
}
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