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Diff for /OpenXM/src/ox_gsl/ox_gsl.c between version 1.4 and 1.13

version 1.4, 2018/03/30 08:48:23 version 1.13, 2018/06/07 11:13:05
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Line 1 
 /* $OpenXM: OpenXM/src/ox_gsl/ox_gsl.c,v 1.3 2018/03/30 04:43:16 takayama Exp $  /* $OpenXM: OpenXM/src/ox_gsl/ox_gsl.c,v 1.12 2018/06/07 01:53:33 takayama Exp $
 */  */
   
 #include <stdio.h>  #include <stdio.h>
Line 6 
Line 6 
 #include <setjmp.h>  #include <setjmp.h>
 #include <string.h>  #include <string.h>
 #include <unistd.h>  #include <unistd.h>
   #include <signal.h>
 #include <math.h>  #include <math.h>
 #include "ox_gsl.h"  #include "ox_gsl.h"
 #include "call_gsl.h" // need only when you bind call_gsl functions.  #include "call_gsl.h" // need only when you bind call_gsl functions.
Line 40  void gc_free(void *p,size_t size)
Line 41  void gc_free(void *p,size_t size)
 void init_gc()  void init_gc()
 { GC_INIT();  { GC_INIT();
   mp_set_memory_functions(GC_malloc,gc_realloc,gc_free);    mp_set_memory_functions(GC_malloc,gc_realloc,gc_free);
     init_dic();  // initialize ox_eval.c
 }  }
   
 void initialize_stack()  void initialize_stack()
Line 110  int sm_mathcap()
Line 112  int sm_mathcap()
 //    CMO_DISTRIBUTED_POLYNOMIAL,  //    CMO_DISTRIBUTED_POLYNOMIAL,
 //    CMO_RECURSIVE_POLYNOMIAL,  //    CMO_RECURSIVE_POLYNOMIAL,
 //    CMO_POLYNOMIAL_IN_ONE_VARIABLE,  //    CMO_POLYNOMIAL_IN_ONE_VARIABLE,
       CMO_TREE,
     CMO_ERROR2,      CMO_ERROR2,
     0};      0};
   int available_sm_command[]={    int available_sm_command[]={
Line 291  char *get_string() {
Line 294  char *get_string() {
   return(NULL);    return(NULL);
 }  }
   
   void test_ox_eval() {
     cmo *c;
     double d=0;
     pop();
     c=pop();
     if (Debug) {
       ox_printf("cmo *c="); print_cmo(c); ox_printf("\n");
     }
     init_dic();
     register_entry("x",1.25);
     if (eval_cmo(c,&d) == 0) myhandler("eval_cmo failed",NULL,0,-1);
     push((cmo *)new_cmo_double(d));
   }
   
 int sm_executeFunction()  int sm_executeFunction()
 {  {
     cmo_string *func = (cmo_string *)pop();      cmo_string *func = (cmo_string *)pop();
Line 298  int sm_executeFunction()
Line 315  int sm_executeFunction()
         push(make_error2("sm_executeFunction, not CMO_STRING",NULL,0,-1));          push(make_error2("sm_executeFunction, not CMO_STRING",NULL,0,-1));
         return -1;          return -1;
     }      }
       init_dic();
     // Test functions      // Test functions
     if (strcmp(func->s, "add_int32") == 0) {      if (strcmp(func->s, "add_int32") == 0) {
         my_add_int32();          my_add_int32();
Line 307  int sm_executeFunction()
Line 325  int sm_executeFunction()
         show_double_list();          show_double_list();
     }else if (strcmp(func->s,"restart")==0) {      }else if (strcmp(func->s,"restart")==0) {
         pop(); restart();          pop(); restart();
       }else if (strcmp(func->s,"test_ox_eval")==0) {
           test_ox_eval();
     // The following functions are defined in call_gsl.c      // The following functions are defined in call_gsl.c
     }else if (strcmp(func->s,"gsl_sf_lngamma_complex_e")==0) {      }else if (strcmp(func->s,"gsl_sf_lngamma_complex_e")==0) {
         call_gsl_sf_lngamma_complex_e();          call_gsl_sf_lngamma_complex_e();
       }else if (strcmp(func->s,"gsl_integration_qags")==0) {
           call_gsl_integration_qags();
       }else if (strcmp(func->s,"gsl_monte_plain_integrate")==0) {
           call_gsl_monte_plain_miser_vegas_integrate(0);
       }else if (strcmp(func->s,"gsl_monte_miser_integrate")==0) {
           call_gsl_monte_plain_miser_vegas_integrate(1);
       }else if (strcmp(func->s,"gsl_monte_vegas_integrate")==0) {
           call_gsl_monte_plain_miser_vegas_integrate(2);
     }else {      }else {
         push(make_error2("sm_executeFunction, unknown function",NULL,0,-1));          push(make_error2("sm_executeFunction, unknown function",NULL,0,-1));
         return -1;          return -1;
Line 433  int main()
Line 461  int main()
     fd_rw = oxf_open(3);      fd_rw = oxf_open(3);
     oxf_determine_byteorder_server(fd_rw);      oxf_determine_byteorder_server(fd_rw);
   }    }
   #if defined(__CYGWIN__)
     void *mysignal(int sig,void (*handler)(int m));
     mysignal(SIGUSR1,usr1_handler);
   #else
   signal(SIGUSR1,usr1_handler);    signal(SIGUSR1,usr1_handler);
   #endif
   
   while(1) {    while(1) {
     receive();      receive();
   }    }
   return(0);    return(0);
   }
   
   cmo *element_of_at(cmo *list,int k) {
     int length;
     static cmo * saved_list = NULL;
     static cmo **dic;
     int i;
     cell *cellp;
     if (list == NULL) {
       ox_printf("element_of_at: list is NULL.\n");
       return( (cmo *)NULL);
     }
     if (list->tag != CMO_LIST) {
       ox_printf("element_of_at: list is not list.\n");
       return((cmo *)NULL);
     }
     length = list_length((cmo_list *)list);
     if ((k < 0) || (k >= length)) {
       ox_printf("element_of_at: out of bound length=%d, k=%d.\n",length,k);
       return((cmo *)NULL);
     }
     if (list == saved_list) return(dic[k]);
     saved_list = list;
     dic = (cmo **)GC_malloc(sizeof(cmo *)*(length+1));
     if (dic == NULL) return((cmo *)NULL); // no more memory.
     cellp = list_first((cmo_list *)list);
     for (i=0; i<length; i++) {
       dic[i] = cellp->cmo;
       cellp = list_next(cellp);
     }
     return(dic[k]);
 }  }
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  Added in v.1.13
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