nlopt_result
NLOPT_STDCALL nlopt_add_inequality_mconstraint(nlopt_opt opt, unsigned m,
					       nlopt_mfunc fc, void *fc_data,
					       const double *tol)
{
     nlopt_result ret;
     if (!m) { /* empty constraints are always ok */
	  if (opt && opt->munge_on_destroy) opt->munge_on_destroy(fc_data);
	  return NLOPT_SUCCESS;
     }
     if (!opt || !inequality_ok(opt->algorithm)) ret = NLOPT_INVALID_ARGS;
     else ret = add_constraint(&opt->m, &opt->m_alloc, &opt->fc,
			       m, NULL, fc, NULL, fc_data, tol);
     if (ret < 0 && opt && opt->munge_on_destroy)
	  opt->munge_on_destroy(fc_data);
     return ret;
}
示例#2
0
nlopt_result
NLOPT_STDCALL nlopt_add_inequality_constraint(nlopt_opt opt,
					      nlopt_func fc, void *fc_data,
					      double tol)
{
     nlopt_result ret;
     if (!opt || !inequality_ok(opt->algorithm)) ret = NLOPT_INVALID_ARGS;
     else ret = add_constraint(&opt->m, &opt->m_alloc, &opt->fc,
			       1, fc, NULL, fc_data, &tol);
     if (ret < 0 && opt && opt->munge_on_destroy)
	  opt->munge_on_destroy(fc_data);
     return ret;
}
示例#3
0
nlopt_result NLOPT_STDCALL nlopt_set_max_objective(nlopt_opt opt, 
						   nlopt_func f, void *f_data)
{
     if (opt) {
	  if (opt->munge_on_destroy) opt->munge_on_destroy(opt->f_data);
	  opt->f = f; opt->f_data = f_data;
	  opt->maximize = 1;
	  if (nlopt_isinf(opt->stopval) && opt->stopval < 0)
	       opt->stopval = +HUGE_VAL; /* switch default from min to max */
	  return NLOPT_SUCCESS;
     }
     return NLOPT_INVALID_ARGS;
}
nlopt_result NLOPT_STDCALL nlopt_set_precond_min_objective(nlopt_opt opt,
							   nlopt_func f, 
							   nlopt_precond pre,
							   void *f_data)
{
     if (opt) {
	  if (opt->munge_on_destroy) opt->munge_on_destroy(opt->f_data);
	  opt->f = f; opt->f_data = f_data; opt->pre = pre;
	  opt->maximize = 0;
	  if (nlopt_isinf(opt->stopval) && opt->stopval > 0)
	       opt->stopval = -HUGE_VAL; /* switch default from max to min */
	  return NLOPT_SUCCESS;
     }
     return NLOPT_INVALID_ARGS;
}
nlopt_result
NLOPT_STDCALL nlopt_add_precond_equality_constraint(nlopt_opt opt,
						    nlopt_func fc,
						    nlopt_precond pre,
						    void *fc_data,
						    double tol)
{
     nlopt_result ret;
     if (!opt || !equality_ok(opt->algorithm)
	 || nlopt_count_constraints(opt->p, opt->h) + 1 > opt->n)
	  ret = NLOPT_INVALID_ARGS;
     else ret = add_constraint(&opt->p, &opt->p_alloc, &opt->h,
			       1, fc, NULL, pre, fc_data, &tol);
     if (ret < 0 && opt && opt->munge_on_destroy)
	  opt->munge_on_destroy(fc_data);
     return ret;
}