version 1.1, 2015/08/04 05:24:44 |
version 1.9, 2015/08/20 07:45:12 |
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/* $OpenXM$ */ |
/* $OpenXM: OpenXM/src/ox_pari/ox_pari.c,v 1.8 2015/08/20 01:38:34 noro Exp $ */ |
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#include <stdio.h> |
#include <stdio.h> |
#include <stdlib.h> |
#include <stdlib.h> |
#include <string.h> |
#include <string.h> |
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#include "pari/pari.h" |
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#include "pari/paripriv.h" |
#include "gmp.h" |
#include "gmp.h" |
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#include "gmp-impl.h" |
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#include "mpfr.h" |
#include "ox_toolkit.h" |
#include "ox_toolkit.h" |
OXFILE *fd_rw; |
OXFILE *fd_rw; |
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#define MPFR_PREC(x) ((x)->_mpfr_prec) |
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#define MPFR_EXP(x) ((x)->_mpfr_exp) |
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#define MPFR_MANT(x) ((x)->_mpfr_d) |
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#define MPFR_LAST_LIMB(x) ((MPFR_PREC (x) - 1) / GMP_NUMB_BITS) |
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#define MPFR_LIMB_SIZE(x) (MPFR_LAST_LIMB (x) + 1) |
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static int stack_size = 0; |
static int stack_size = 0; |
static int stack_pointer = 0; |
static int stack_pointer = 0; |
static cmo **stack = NULL; |
static cmo **stack = NULL; |
extern int debug_print; |
extern int debug_print; |
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long paristack=10000000; |
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void init_pari(void); |
void init_pari(void); |
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cmo *GEN_to_cmo(GEN z); |
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cmo_zz *GEN_to_cmo_zz(GEN z); |
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cmo_qq *GEN_to_cmo_qq(GEN z); |
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cmo_bf *GEN_to_cmo_bf(GEN z); |
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cmo_list *GEN_to_cmo_list(GEN z); |
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cmo_complex *GEN_to_cmo_cmo_complex(GEN z); |
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cmo_polynomial_in_one_variable *GEN_to_cmo_up(GEN z); |
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cmo_recursive_polynomial *GEN_to_cmo_rp(GEN z); |
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GEN cmo_to_GEN(cmo *c); |
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GEN cmo_int32_to_GEN(cmo_int32 *c); |
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GEN cmo_zz_to_GEN(cmo_zz *c); |
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GEN cmo_qq_to_GEN(cmo_qq *c); |
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GEN cmo_bf_to_GEN(cmo_bf *c); |
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GEN cmo_list_to_GEN(cmo_list *c); |
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GEN cmo_rp_to_GEN(cmo_recursive_polynomial *c); |
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GEN cmo_up_to_GEN(cmo_polynomial_in_one_variable *c); |
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GEN cmo_complex_to_GEN(cmo_complex *c); |
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#define INIT_S_SIZE 2048 |
#define INIT_S_SIZE 2048 |
#define EXT_S_SIZE 2048 |
#define EXT_S_SIZE 2048 |
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void *gc_realloc(void *p,size_t osize,size_t nsize) |
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{ |
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return (void *)GC_realloc(p,nsize); |
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} |
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void gc_free(void *p,size_t size) |
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{ |
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GC_free(p); |
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} |
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void init_gc() |
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{ |
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GC_INIT(); |
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mp_set_memory_functions(GC_malloc,gc_realloc,gc_free); |
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} |
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void init_pari() |
void init_pari() |
{ |
{ |
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pari_init(paristack,2); |
} |
} |
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int initialize_stack() |
int initialize_stack() |
{ |
{ |
stack_pointer = 0; |
stack_pointer = 0; |
stack_size = INIT_S_SIZE; |
stack_size = INIT_S_SIZE; |
stack = MALLOC(stack_size*sizeof(cmo*)); |
stack = MALLOC(stack_size*sizeof(cmo*)); |
return 0; |
return 0; |
} |
} |
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static int extend_stack() |
static int extend_stack() |
{ |
{ |
int size2 = stack_size + EXT_S_SIZE; |
int size2 = stack_size + EXT_S_SIZE; |
cmo **stack2 = MALLOC(size2*sizeof(cmo*)); |
cmo **stack2 = MALLOC(size2*sizeof(cmo*)); |
memcpy(stack2, stack, stack_size*sizeof(cmo *)); |
memcpy(stack2, stack, stack_size*sizeof(cmo *)); |
free(stack); |
free(stack); |
stack = stack2; |
stack = stack2; |
stack_size = size2; |
stack_size = size2; |
return 0; |
return 0; |
} |
} |
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int push(cmo* m) |
int push(cmo* m) |
{ |
{ |
stack[stack_pointer] = m; |
stack[stack_pointer] = m; |
stack_pointer++; |
stack_pointer++; |
if(stack_pointer >= stack_size) { |
if(stack_pointer >= stack_size) { |
extend_stack(); |
extend_stack(); |
} |
} |
return 0; |
return 0; |
} |
} |
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cmo* pop() |
cmo* pop() |
{ |
{ |
if(stack_pointer > 0) { |
if(stack_pointer > 0) { |
stack_pointer--; |
stack_pointer--; |
return stack[stack_pointer]; |
return stack[stack_pointer]; |
} |
} |
return new_cmo_null(); |
return new_cmo_null(); |
} |
} |
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void pops(int n) |
void pops(int n) |
{ |
{ |
stack_pointer -= n; |
stack_pointer -= n; |
if(stack_pointer < 0) { |
if(stack_pointer < 0) { |
stack_pointer = 0; |
stack_pointer = 0; |
} |
} |
} |
} |
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#define OX_PARI_VERSION 20150731 |
#define OX_PARI_VERSION 20150731 |
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Line 119 void pops(int n) |
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int sm_mathcap() |
int sm_mathcap() |
{ |
{ |
mathcap_init(OX_PARI_VERSION, ID_STRING, "ox_cdd", NULL, NULL); |
mathcap_init(OX_PARI_VERSION, ID_STRING, "ox_pari", NULL, NULL); |
push((cmo*)oxf_cmo_mathcap(fd_rw)); |
push((cmo*)oxf_cmo_mathcap(fd_rw)); |
return 0; |
return 0; |
} |
} |
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int sm_popCMO() |
int sm_popCMO() |
{ |
{ |
cmo* m = pop(); |
cmo* m = pop(); |
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if(m != NULL) { |
if(m != NULL) { |
send_ox_cmo(fd_rw, m); |
send_ox_cmo(fd_rw, m); |
return 0; |
return 0; |
} |
} |
return SM_popCMO; |
return SM_popCMO; |
} |
} |
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cmo_error2 *make_error2(int code) |
cmo_error2 *make_error2(char *message) |
{ |
{ |
return (cmo_error2 *) new_cmo_int32(-1); |
return new_cmo_error2((cmo *)new_cmo_string(message)); |
} |
} |
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int get_i() |
int get_i() |
{ |
{ |
cmo *c = pop(); |
cmo *c = pop(); |
if(c->tag == CMO_INT32) { |
if(c->tag == CMO_INT32) { |
return ((cmo_int32 *)c)->i; |
return ((cmo_int32 *)c)->i; |
}else if(c->tag == CMO_ZZ) { |
}else if(c->tag == CMO_ZZ) { |
return mpz_get_si(((cmo_zz *)c)->mpz); |
return mpz_get_si(((cmo_zz *)c)->mpz); |
} |
} |
make_error2(-1); |
make_error2("get_i : invalid object"); |
return 0; |
return 0; |
} |
} |
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char *get_str() |
char *get_str() |
{ |
{ |
cmo *c = pop(); |
cmo *c = pop(); |
if(c->tag == CMO_STRING) { |
if(c->tag == CMO_STRING) { |
return ((cmo_string *)c)->s; |
return ((cmo_string *)c)->s; |
} |
} |
make_error2(-1); |
make_error2("get_str : invalid object"); |
return ""; |
return ""; |
} |
} |
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int cmo2int(cmo *c) |
GEN cmo_int32_to_GEN(cmo_int32 *c) |
{ |
{ |
if(c->tag == CMO_INT32) { |
GEN z; |
return ((cmo_int32 *)c)->i; |
int i,sgn; |
}else if(c->tag == CMO_ZZ) { |
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return mpz_get_si(((cmo_zz *)c)->mpz); |
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} else if(c->tag == CMO_NULL){ |
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return 0; |
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} |
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return 0; |
i = c->i; |
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if ( !i ) return gen_0; |
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z = cgeti(3); |
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sgn = 1; |
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if ( i < 0 ) { |
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i = -i; |
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sgn = -1; |
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} |
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z[2] = i; |
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setsigne(z,sgn); |
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setlgefint(z,lg(z)); |
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return z; |
} |
} |
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GEN cmo_zz_to_GEN(cmo_zz *c) |
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{ |
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mpz_ptr mpz; |
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GEN z; |
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long *ptr; |
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int j,sgn,len; |
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mpz = c->mpz; |
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sgn = mpz_sgn(mpz); |
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len = ABSIZ(mpz); |
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ptr = (long *)PTR(mpz); |
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z = cgeti(len+2); |
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for ( j = 0; j < len; j++ ) |
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z[len-j+1] = ptr[j]; |
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setsigne(z,sgn); |
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setlgefint(z,lg(z)); |
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return z; |
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} |
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GEN cmo_qq_to_GEN(cmo_qq *c) |
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{ |
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GEN z,nm,den; |
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z = cgetg(3,t_FRAC); |
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nm = cmo_zz_to_GEN(new_cmo_zz_set_mpz(mpq_numref(c->mpq))); |
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den = cmo_zz_to_GEN(new_cmo_zz_set_mpz(mpq_denref(c->mpq))); |
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z[1] = (long)nm; |
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z[2] = (long)den; |
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return z; |
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} |
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GEN cmo_bf_to_GEN(cmo_bf *c) |
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{ |
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mpfr_ptr mpfr; |
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GEN z; |
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int sgn,len,j; |
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long exp; |
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long *ptr; |
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mpfr = c->mpfr; |
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sgn = MPFR_SIGN(mpfr); |
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exp = MPFR_EXP(mpfr)-1; |
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len = MPFR_LIMB_SIZE(mpfr); |
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ptr = (long *)MPFR_MANT(mpfr); |
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z = cgetr(len+2); |
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for ( j = 0; j < len; j++ ) |
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z[len-j+1] = ptr[j]; |
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z[1] = evalsigne(sgn)|evalexpo(exp); |
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setsigne(z,sgn); |
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return z; |
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} |
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/* list->vector */ |
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GEN cmo_list_to_GEN(cmo_list *c) |
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{ |
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GEN z; |
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int i; |
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cell *cell; |
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z = cgetg(c->length+1,t_VEC); |
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for ( i = 0, cell = c->head->next; cell != c->head; cell = cell->next, i++ ) { |
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z[i+1] = (long)cmo_to_GEN(cell->cmo); |
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} |
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return z; |
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} |
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GEN cmo_complex_to_GEN(cmo_complex *c) |
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{ |
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GEN z; |
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z = cgetg(3,t_COMPLEX); |
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z[1] = (long)cmo_to_GEN(c->re); |
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z[2] = (long)cmo_to_GEN(c->im); |
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return z; |
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} |
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GEN cmo_up_to_GEN(cmo_polynomial_in_one_variable *c) |
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{ |
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GEN z; |
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int d,i; |
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cell *cell; |
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d = c->head->next->exp; |
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z = cgetg(d+3,t_POL); |
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setsigne(z,1); |
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setvarn(z,c->var); |
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setlgef(z,d+3); |
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for ( i = 2; i <= d+2; i++ ) |
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z[i] = (long)gen_0; |
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for ( cell = c->head->next; cell != c->head; cell = cell->next ) { |
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z[2+cell->exp] = (long)cmo_to_GEN(cell->cmo); |
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} |
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return z; |
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} |
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cmo_list *current_ringdef; |
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void register_variables(cmo_list *ringdef) |
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{ |
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current_ringdef = ringdef; |
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} |
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GEN cmo_rp_to_GEN(cmo_recursive_polynomial *c) |
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{ |
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register_variables(c->ringdef); |
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switch ( c->coef->tag ) { |
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case CMO_ZERO: |
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case CMO_NULL: |
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return gen_0; |
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case CMO_INT32: |
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return cmo_int32_to_GEN((cmo_int32 *)c->coef); |
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case CMO_ZZ: |
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return cmo_zz_to_GEN((cmo_zz *)c->coef); |
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case CMO_QQ: |
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return cmo_qq_to_GEN((cmo_qq *)c->coef); |
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case CMO_POLYNOMIAL_IN_ONE_VARIABLE: |
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return cmo_up_to_GEN((cmo_polynomial_in_one_variable *)c->coef); |
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default: |
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return 0; |
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} |
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} |
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cmo_zz *GEN_to_cmo_zz(GEN z) |
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{ |
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cmo_zz *c; |
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c = new_cmo_zz(); |
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mpz_import(c->mpz,lgef(z)-2,1,sizeof(long),0,0,&z[2]); |
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if ( signe(z) < 0 ) |
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mpz_neg(c->mpz,c->mpz); |
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return c; |
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} |
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cmo_qq *GEN_to_cmo_qq(GEN z) |
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{ |
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cmo_qq *c; |
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GEN num,den; |
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num = (GEN)z[1]; |
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den = (GEN)z[2]; |
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c = new_cmo_qq(); |
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mpz_import(mpq_numref(c->mpq),lgef(num)-2,1,sizeof(long),0,0,&num[2]); |
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mpz_import(mpq_denref(c->mpq),lgef(num)-2,1,sizeof(long),0,0,&den[2]); |
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if ( signe(num)*signe(den) < 0 ) |
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mpz_neg(mpq_numref(c->mpq),mpq_numref(c->mpq)); |
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return c; |
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} |
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cmo_bf *GEN_to_cmo_bf(GEN z) |
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{ |
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cmo_bf *c; |
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int len,prec,j; |
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long *ptr; |
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c = new_cmo_bf(); |
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len = lg(z)-2; |
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prec = len*sizeof(long)*8; |
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mpfr_init2(c->mpfr,prec); |
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ptr = (long *)MPFR_MANT(c->mpfr); |
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for ( j = 0; j < len; j++ ) |
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ptr[j] = z[len-j+1]; |
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MPFR_EXP(c->mpfr) = (long long)(expo(z)+1); |
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MPFR_SIGN(c->mpfr) = gsigne(z); |
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return c; |
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} |
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cmo_list *GEN_to_cmo_list(GEN z) |
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{ |
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cmo_list *c; |
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cmo *ob; |
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int i,len; |
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c = new_cmo_list(); |
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len = lg(z)-1; |
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for ( i = 1; i <= len; i++ ) { |
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ob = GEN_to_cmo((GEN)z[i]); |
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c = list_append(c,ob); |
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} |
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return c; |
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} |
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cmo_complex *GEN_to_cmo_complex(GEN z) |
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{ |
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cmo_complex *c; |
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c = new_cmo_complex(); |
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c->re = GEN_to_cmo((GEN)z[1]); |
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c->im = GEN_to_cmo((GEN)z[2]); |
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return c; |
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} |
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cmo_polynomial_in_one_variable *GEN_to_cmo_up(GEN z) |
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{ |
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cmo_polynomial_in_one_variable *c; |
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int i; |
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cmo *coef; |
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c = new_cmo_polynomial_in_one_variable(varn(z)); |
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for ( i = lg(z)-1; i >= 2; i-- ) |
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if ( (GEN)z[i] != gen_0 ) { |
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coef = GEN_to_cmo((GEN)z[i]); |
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list_append_monomial((cmo_list *)c, coef, i-2); |
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} |
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return c; |
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} |
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cmo_recursive_polynomial *GEN_to_cmo_rp(GEN z) |
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{ |
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cmo_recursive_polynomial *c; |
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if ( !signe(z) ) return (cmo_recursive_polynomial *)new_cmo_zero(); |
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c = new_cmo_recursive_polynomial(current_ringdef,(cmo *)GEN_to_cmo_up(z)); |
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return c; |
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} |
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GEN cmo_to_GEN(cmo *c) |
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{ |
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switch ( c->tag ) { |
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case CMO_ZERO: |
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case CMO_NULL: |
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return gen_0; |
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case CMO_ZZ: /* int */ |
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return cmo_zz_to_GEN((cmo_zz *)c); |
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case CMO_IEEE_DOUBLE_FLOAT: |
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return dbltor(((cmo_double *)c)->d); |
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case CMO_BIGFLOAT: /* bigfloat */ |
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return cmo_bf_to_GEN((cmo_bf *)c); |
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case CMO_LIST: |
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return cmo_list_to_GEN((cmo_list *)c); |
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case CMO_RECURSIVE_POLYNOMIAL: |
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return cmo_rp_to_GEN((cmo_recursive_polynomial *)c); |
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case CMO_POLYNOMIAL_IN_ONE_VARIABLE: |
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return cmo_up_to_GEN((cmo_polynomial_in_one_variable *)c); |
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default: |
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return 0; |
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} |
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} |
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cmo *GEN_to_cmo(GEN z) |
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{ |
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char buf[BUFSIZ]; |
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if ( gcmp0(z) ) |
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return new_cmo_zero(); |
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switch ( typ(z) ) { |
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case t_INT: /* int */ |
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return (cmo *)GEN_to_cmo_zz(z); |
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case t_REAL: /* bigfloat */ |
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return (cmo *)GEN_to_cmo_bf(z); |
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case t_FRAC: /* rational number */ |
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return (cmo *)GEN_to_cmo_qq(z); |
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case t_COMPLEX: /* complex */ |
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return (cmo *)GEN_to_cmo_complex(z); |
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case t_POL: |
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return (cmo *)GEN_to_cmo_rp(z); |
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case t_VEC: case t_COL: /* vector */ |
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return (cmo *)GEN_to_cmo_list(z); |
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case t_MAT: /* matrix */ |
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return (cmo *)GEN_to_cmo_list(shallowtrans(z)); |
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default: |
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sprintf(buf,"GEN_to_cmo : unsupported type=%d",(int)typ(z)); |
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return (cmo *)make_error2(buf); |
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} |
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} |
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/* type=1 : num/poly arg, type=2 : matrix arg */ |
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struct parif { |
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char *name; |
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GEN (*f)(); |
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int type; |
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} parif_tab[] = { |
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/* (ulong)allocatemoremem(ulong) */ |
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{"allocatemem",(GEN (*)())allocatemoremem,0}, |
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/* num/num */ |
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{"abs",gabs,1}, |
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{"erfc",gerfc,1}, |
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{"arg",garg,1}, |
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{"isqrt",racine,1}, |
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{"gamma",ggamma,1}, |
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{"zeta",gzeta,1}, |
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{"floor",gfloor,1}, |
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{"frac",gfrac,1}, |
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{"imag",gimag,1}, |
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{"conj",gconj,1}, |
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{"ceil",gceil,1}, |
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{"isprime",gisprime,2}, |
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{"bigomega",gbigomega,1}, |
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{"denom",denom,1}, |
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{"numer",numer,1}, |
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{"lngamma",glngamma,1}, |
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{"logagm",glogagm,1}, |
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{"classno",classno,1}, |
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{"classno2",classno2,1}, |
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{"dilog",dilog,1}, |
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{"disc",discsr,1}, |
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{"discf",discf,1}, |
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{"nextprime",nextprime,1}, |
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{"eintg1",eint1,1}, |
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{"eta",eta,1}, |
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{"issqfree",gissquarefree,1}, |
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{"issquare",gcarreparfait,1}, |
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{"gamh",ggamd,1}, |
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{"hclassno",classno3,1}, |
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/* num/array */ |
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{"binary",binaire,1}, |
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{"factorint",factorint,2}, |
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{"factor",Z_factor,1}, |
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{"cf",gcf,1}, |
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{"divisors",divisors,1}, |
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{"smallfact",smallfact,1}, |
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/* poly/poly */ |
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{"centerlift",centerlift,1}, |
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{"content",content,1}, |
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/* poly/array */ |
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{"galois",galois,1}, |
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{"roots",roots,1}, |
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/* mat/mat */ |
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{"adj",adj,2}, |
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{"lll",lll,2}, |
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{"lllgen",lllgen,2}, |
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{"lllgram",lllgram,2}, |
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{"lllgramgen",lllgramgen,2}, |
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{"lllgramint",lllgramint,2}, |
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{"lllgramkerim",lllgramkerim,2}, |
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{"lllgramkerimgen",lllgramkerimgen,2}, |
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{"lllint",lllint,2}, |
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{"lllkerim",lllkerim,2}, |
|
{"lllkerimgen",lllkerimgen,2}, |
|
{"trans",gtrans,2}, |
|
{"eigen",eigen,2}, |
|
{"hermite",hnf,2}, |
|
{"mat",gtomat,2}, |
|
{"matrixqz2",matrixqz2,2}, |
|
{"matrixqz3",matrixqz3,2}, |
|
{"hess",hess,2}, |
|
{"ker",ker,2}, |
|
{"keri",keri,2}, |
|
{"kerint",kerint,2}, |
|
{"kerintg1",kerint1,2}, |
|
|
|
/* mat/poly */ |
|
{"det",det,2}, |
|
{"det2",det2,2}, |
|
|
|
}; |
|
|
|
#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 ismatrix(GEN z) |
|
{ |
|
int len,col,i; |
|
|
|
if ( typ(z) != t_VEC ) return 0; |
|
if ( typ((GEN)z[1]) != t_VEC ) return 0; |
|
len = lg(z); col = lg((GEN)z[1]); |
|
for ( i = 2; i < len; i++ ) |
|
if ( lg((GEN)z[i]) != col ) return 0; |
|
return 1; |
|
} |
|
|
int sm_executeFunction() |
int sm_executeFunction() |
{ |
{ |
cmo_string *func = (cmo_string *)pop(); |
pari_sp av0; |
if(func->tag != CMO_STRING) { |
int ac,i; |
printf("sm_executeFunction : func->tag is not CMO_STRING");fflush(stdout); |
cmo_int32 *c; |
push((cmo*)make_error2(0)); |
cmo *av[PARI_MAX_AC]; |
return -1; |
cmo *ret; |
} |
GEN z,m; |
|
struct parif *parif; |
|
unsigned long prec; |
|
char buf[BUFSIZ]; |
|
|
if(strcmp(func->s, "factor" ) == 0) { |
if ( setjmp(GP_DATA->env) ) { |
printf("afo\n");fflush(stdout); |
sprintf(buf,"sm_executeFunction : an error occured in PARI."); |
return 0; |
push((cmo*)make_error2(buf)); |
} else if( strcmp( func->s, "exit" ) == 0 ){ |
return -1; |
pop(); |
} |
exit(0); |
cmo_string *func = (cmo_string *)pop(); |
return 0; |
if(func->tag != CMO_STRING) { |
} else { |
sprintf(buf,"sm_executeFunction : func->tag=%d is not CMO_STRING",func->tag); |
push((cmo*)make_error2(0)); |
push((cmo*)make_error2(buf)); |
return -1; |
return -1; |
} |
} |
|
|
|
c = (cmo_int32 *)pop(); |
|
ac = c->i; |
|
if ( ac > PARI_MAX_AC ) { |
|
push((cmo*)make_error2("sm_executeFunction : too many arguments")); |
|
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 ) { |
|
sprintf(buf,"%s : not implemented",func->s); |
|
push((cmo*)make_error2(buf)); |
|
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 || parif->type == 2 ) { |
|
/* one number/poly/matrix argument possibly with prec */ |
|
av0 = avma; |
|
z = cmo_to_GEN(av[0]); |
|
prec = ac==2 ? cmo_to_int(av[1])*3.32193/32+3 : precreal; |
|
if ( ismatrix(z) ) { |
|
int i,len; |
|
len = lg(z); |
|
for ( i = 1; i < len; i++ ) |
|
settyp(z[i],t_COL); |
|
settyp(z,t_MAT); |
|
z = shallowtrans(z); |
|
} |
|
printf("input : "); output(z); |
|
m = (*parif->f)(z,prec); |
|
ret = GEN_to_cmo(m); |
|
avma = av0; |
|
push(ret); |
|
return 0; |
|
} else { |
|
sprintf(buf,"%s : not implemented",func->s); |
|
push((cmo*)make_error2(buf)); |
|
return -1; |
|
} |
} |
} |
|
|
int receive_and_execute_sm_command() |
int receive_and_execute_sm_command() |
{ |
{ |
int code = receive_int32(fd_rw); |
int code = receive_int32(fd_rw); |
switch(code) { |
switch(code) { |
case SM_popCMO: |
case SM_popCMO: |
sm_popCMO(); |
sm_popCMO(); |
break; |
break; |
case SM_executeFunction: |
case SM_executeFunction: |
sm_executeFunction(); |
sm_executeFunction(); |
break; |
break; |
case SM_mathcap: |
case SM_mathcap: |
sm_mathcap(); |
sm_mathcap(); |
break; |
break; |
case SM_setMathCap: |
case SM_setMathCap: |
pop(); |
pop(); |
break; |
break; |
default: |
default: |
printf("receive_and_execute_sm_command : code=%d\n",code);fflush(stdout); |
printf("receive_and_execute_sm_command : code=%d\n",code);fflush(stdout); |
break; |
break; |
} |
} |
return 0; |
return 0; |
} |
} |
|
|
int receive() |
int receive() |
{ |
{ |
int tag; |
int tag; |
|
|
tag = receive_ox_tag(fd_rw); |
tag = receive_ox_tag(fd_rw); |
switch(tag) { |
switch(tag) { |
case OX_DATA: |
case OX_DATA: |
printf("receive : ox_data\n",tag);fflush(stdout); |
printf("receive : ox_data %d\n",tag);fflush(stdout); |
push(receive_cmo(fd_rw)); |
push(receive_cmo(fd_rw)); |
break; |
break; |
case OX_COMMAND: |
case OX_COMMAND: |
printf("receive : ox_command\n",tag);fflush(stdout); |
printf("receive : ox_command %d\n",tag);fflush(stdout); |
receive_and_execute_sm_command(); |
receive_and_execute_sm_command(); |
break; |
break; |
default: |
default: |
printf("receive : tag=%d\n",tag);fflush(stdout); |
printf("receive : tag=%d\n",tag);fflush(stdout); |
} |
} |
return 0; |
return 0; |
} |
} |
|
|
int main() |
int main() |
{ |
{ |
GC_INIT(); |
init_gc(); |
ox_stderr_init(stderr); |
ox_stderr_init(stderr); |
initialize_stack(); |
initialize_stack(); |
init_pari(); |
init_pari(); |
|
|
fprintf(stderr,"ox_pari\n"); |
fprintf(stderr,"ox_pari\n"); |
|
|
fd_rw = oxf_open(3); |
fd_rw = oxf_open(3); |
oxf_determine_byteorder_server(fd_rw); |
oxf_determine_byteorder_server(fd_rw); |
|
|
while(1){ |
while(1){ |
receive(); |
receive(); |
} |
} |
} |
} |