OpenXM/src/ox_toolkit/cmo.c - diff

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Diff for /OpenXM/src/ox_toolkit/cmo.c between version 1.7 and 1.12

version 1.7, 2003/01/17 07:40:10

version 1.12, 2003/06/03 16:06:48

Line 1

/* -*- mode: C; coding: euc-japan -*- */

/* $OpenXM: OpenXM/src/ox_toolkit/cmo.c,v 1.6 2003/01/17 06:49:53 ohara Exp $ */

/* $OpenXM: OpenXM/src/ox_toolkit/cmo.c,v 1.11 2003/06/02 10:25:56 ohara Exp $ */

This module includes functions for sending/receiveng CMO's.

Line 14

#include "ox_toolkit.h"

#include "parse.h"

static cell* new_cell();

static cell* new_cell(cmo *ob, int e);

static char* new_string_set_cmo_null();

static char* new_string_set_cmo_int32(int integer);

static char* new_string_set_cmo_list(cmo_list *c);

Line 22 static char* new_string_set_cmo_zz(cmo_zz *c);

static char* new_string_set_cmo_double(cmo_double *m);

/* functions for a cmo_list */

static cell* new_cell(cmo *ob)

static cell* new_cell(cmo *ob, int e)

{

cell* h = malloc(sizeof(cell));

cell* h = MALLOC(sizeof(cell));

h->next = NULL;

h->prev = NULL;

h->cmo = ob;

h->exp = e;

return h;

}

Line 63 static void list_cons(cell *head, cell *new)

Line 64 static void list_cons(cell *head, cell *new)

cmo_list *list_append(cmo_list* this, cmo* ob)

{

list_cons(this->head, new_cell(ob));

list_cons(this->head, new_cell(ob, 0));

this->length++;

return this;

}

cmo_list *list_append_monomial(cmo_list* this, cmo* coef, int exp)

{

list_cons(this->head, new_cell(coef, exp));

this->length++;

return this;

}

/* call as list_appendl(List, ob1, ob2, ob3, NULL) */

cmo_list *list_appendl(cmo_list* this, ...)

{

Line 112 void resize_mpz(mpz_ptr mpz, int size)

Line 120 void resize_mpz(mpz_ptr mpz, int size)

/* functions named new_cmo_*. */

cmo_null* new_cmo_null()

{

cmo_null* m = malloc(sizeof(cmo_null));

cmo_null* m = MALLOC(sizeof(cmo_null));

m->tag = CMO_NULL;

return m;

}

Line 120 cmo_null* new_cmo_null()

Line 128 cmo_null* new_cmo_null()

cmo_int32* new_cmo_int32(int i)

{

cmo_int32* c;

c = malloc(sizeof(cmo_int32));

c = MALLOC(sizeof(cmo_int32));

c->tag = CMO_INT32;

c->i = i;

return c;

Line 128 cmo_int32* new_cmo_int32(int i)

Line 136 cmo_int32* new_cmo_int32(int i)

cmo_string* new_cmo_string(char* s)

{

cmo_string* c = malloc(sizeof(cmo_string));

cmo_string* c = MALLOC(sizeof(cmo_string));

c->tag = CMO_STRING;

if (s != NULL) {

c->s = malloc(strlen(s)+1);

c->s = MALLOC(strlen(s)+1);

strcpy(c->s, s);

}else {

c->s = NULL;

Line 141 cmo_string* new_cmo_string(char* s)

Line 149 cmo_string* new_cmo_string(char* s)

cmo_mathcap* new_cmo_mathcap(cmo* ob)

{

cmo_mathcap* c = malloc(sizeof(cmo_mathcap));

cmo_mathcap* c = MALLOC(sizeof(cmo_mathcap));

c->tag = CMO_MATHCAP;

c->ob = ob;

return c;

Line 149 cmo_mathcap* new_cmo_mathcap(cmo* ob)

Line 157 cmo_mathcap* new_cmo_mathcap(cmo* ob)

cmo_list* new_cmo_list()

{

cmo_list* c = malloc(sizeof(cmo_list));

cmo_list* c = MALLOC(sizeof(cmo_list));

c->tag = CMO_LIST;

c->length = 0;

c->head->next = c->head;

Line 159 cmo_list* new_cmo_list()

Line 167 cmo_list* new_cmo_list()

cmo_monomial32* new_cmo_monomial32()

{

cmo_monomial32* c = malloc(sizeof(cmo_monomial32));

cmo_monomial32* c = MALLOC(sizeof(cmo_monomial32));

c->tag = CMO_MONOMIAL32;

return c;

}

Line 169 cmo_monomial32* new_cmo_monomial32_size(int size)

Line 177 cmo_monomial32* new_cmo_monomial32_size(int size)

cmo_monomial32* c = new_cmo_monomial32();

if (size>0) {

c->length = size;

c->exps = malloc(sizeof(int)*size);

c->exps = MALLOC(sizeof(int)*size);

}

return c;

}

cmo_zz* new_cmo_zz()

{

cmo_zz* c = malloc(sizeof(cmo_zz));

cmo_zz* c = MALLOC(sizeof(cmo_zz));

c->tag = CMO_ZZ;

mpz_init(c->mpz);

return c;

Line 184 cmo_zz* new_cmo_zz()

Line 192 cmo_zz* new_cmo_zz()

cmo_zz* new_cmo_zz_noinit()

{

cmo_zz* c = malloc(sizeof(cmo_zz));

cmo_zz* c = MALLOC(sizeof(cmo_zz));

c->tag = CMO_ZZ;

return c;

}

Line 219 cmo_zz* new_cmo_zz_size(int size)

Line 227 cmo_zz* new_cmo_zz_size(int size)

cmo_zero* new_cmo_zero()

{

cmo_zero* m = malloc(sizeof(cmo_zero));

cmo_zero* m = MALLOC(sizeof(cmo_zero));

m->tag = CMO_ZERO;

return m;

}

cmo_double *new_cmo_double(double d)

{

cmo_double* m = malloc(sizeof(cmo_double));

cmo_double* m = MALLOC(sizeof(cmo_double));

m->tag = CMO_64BIT_MACHINE_DOUBLE;

m->d = d;

return m;

Line 234 cmo_double *new_cmo_double(double d)

Line 242 cmo_double *new_cmo_double(double d)

cmo_dms_generic* new_cmo_dms_generic()

{

cmo_dms_generic* m = malloc(sizeof(cmo_dms_generic));

cmo_dms_generic* m = MALLOC(sizeof(cmo_dms_generic));

m->tag = CMO_DMS_GENERIC;

return m;

}

cmo_ring_by_name* new_cmo_ring_by_name(cmo* ob)

{

cmo_ring_by_name* c = malloc(sizeof(cmo_ring_by_name));

cmo_ring_by_name* c = MALLOC(sizeof(cmo_ring_by_name));

c->tag = CMO_RING_BY_NAME;

c->ob = ob;

return c;

Line 249 cmo_ring_by_name* new_cmo_ring_by_name(cmo* ob)

Line 257 cmo_ring_by_name* new_cmo_ring_by_name(cmo* ob)

cmo_indeterminate* new_cmo_indeterminate(cmo* ob)

{

cmo_indeterminate* c = malloc(sizeof(cmo_indeterminate));

cmo_indeterminate* c = MALLOC(sizeof(cmo_indeterminate));

c->tag = CMO_INDETERMINATE;

c->ob = ob;

return c;

Line 257 cmo_indeterminate* new_cmo_indeterminate(cmo* ob)

Line 265 cmo_indeterminate* new_cmo_indeterminate(cmo* ob)

cmo_distributed_polynomial* new_cmo_distributed_polynomial()

{

cmo_distributed_polynomial* c = malloc(sizeof(cmo_distributed_polynomial));

cmo_distributed_polynomial* c = MALLOC(sizeof(cmo_distributed_polynomial));

c->tag = CMO_DISTRIBUTED_POLYNOMIAL;

c->length = 0;

c->head->next = c->head;

Line 268 cmo_distributed_polynomial* new_cmo_distributed_polyno

Line 276 cmo_distributed_polynomial* new_cmo_distributed_polyno

cmo_error2* new_cmo_error2(cmo* ob)

{

cmo_error2* c = malloc(sizeof(cmo_error2));

cmo_error2* c = MALLOC(sizeof(cmo_error2));

c->tag = CMO_ERROR2;

c->ob = ob;

return c;

Line 293 static char *new_string_set_cmo_int32(int integer)

Line 301 static char *new_string_set_cmo_int32(int integer)

char *s;

sprintf(buff, "%d", integer);

s = malloc(strlen(buff)+1);

s = MALLOC(strlen(buff)+1);

strcpy(s, buff);

return s;

Line 305 static char *new_string_set_cmo_list(cmo_list *m)

Line 313 static char *new_string_set_cmo_list(cmo_list *m)

int i;

int size = 0;

int len = list_length(m);

char **sp = malloc(len*sizeof(cmo *));

char **sp = ALLOCA(len*sizeof(cmo *));

cell* cp = list_first(m);

for(i = 0; i < len; i++) {

Line 313 static char *new_string_set_cmo_list(cmo_list *m)

Line 321 static char *new_string_set_cmo_list(cmo_list *m)

size += strlen(sp[i]) + 3;

cp = list_next(cp);

}

s = malloc(size+2);

s = MALLOC(size+2);

strcpy(s, "[ ");

for(i = 0; i < len - 1; i++) {

strcat(s, sp[i]);

Line 321 static char *new_string_set_cmo_list(cmo_list *m)

Line 329 static char *new_string_set_cmo_list(cmo_list *m)

}

strcat(s, sp[len-1]);

strcat(s, " ]");

free(sp);

return s;

}

Line 331 static char *new_string_set_cmo_double(cmo_double *m)

Line 338 static char *new_string_set_cmo_double(cmo_double *m)

char *s;

sprintf(buff, "%lf", m->d);

s = malloc(strlen(buff)+1);

s = MALLOC(strlen(buff)+1);

strcpy(s, buff);

return s;

Line 339 static char *new_string_set_cmo_double(cmo_double *m)

Line 346 static char *new_string_set_cmo_double(cmo_double *m)

char *new_string_set_cmo(cmo *m)

{

symbol_t symp;

switch(m->tag) {

case CMO_ZZ:

return new_string_set_cmo_zz((cmo_zz *)m);

Line 354 char *new_string_set_cmo(cmo *m)

Line 360 char *new_string_set_cmo(cmo *m)

case CMO_64BIT_MACHINE_DOUBLE:

return new_string_set_cmo_int32(m);

default:

#ifdef DEBUG

ox_printf("unconvertible <%s>\n", get_symbol_by_tag(m->tag));

symp = lookup_by_tag(m->tag);

ox_printf("I do not know how to convert %s to a string.\n", symp->key);

#endif

/* yet not implemented. */

return NULL;

}

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