&& !(options & series_options::suppress_branchcut))
throw (std::domain_error("step_series(): on imaginary axis"));
- epvector seq;
- seq.push_back(expair(step(arg_pt), _ex0));
- return pseries(rel,seq);
+ epvector seq { expair(step(arg_pt), _ex0) };
+ return pseries(rel, std::move(seq));
}
static ex step_conjugate(const ex& arg)
&& !(options & series_options::suppress_branchcut))
throw (std::domain_error("csgn_series(): on imaginary axis"));
- epvector seq;
- seq.push_back(expair(csgn(arg_pt), _ex0));
- return pseries(rel,seq);
+ epvector seq { expair(csgn(arg_pt), _ex0) };
+ return pseries(rel, std::move(seq));
}
static ex csgn_conjugate(const ex& arg)
(y_pt.info(info_flags::numeric) && y_pt.info(info_flags::negative)) ||
((x_pt*y_pt).info(info_flags::numeric) && (x_pt*y_pt).info(info_flags::negative)))
throw (std::domain_error("eta_series(): on discontinuity"));
- epvector seq;
- seq.push_back(expair(eta(x_pt,y_pt), _ex0));
- return pseries(rel,seq);
+ epvector seq { expair(eta(x_pt,y_pt), _ex0) };
+ return pseries(rel, std::move(seq));
}
static ex eta_conjugate(const ex & x, const ex & y)
// substitute the argument's series expansion
ser = ser.subs(s==x.series(rel, order), subs_options::no_pattern);
// maybe that was terminating, so add a proper order term
- epvector nseq;
- nseq.push_back(expair(Order(_ex1), order));
- ser += pseries(rel, nseq);
+ epvector nseq { expair(Order(_ex1), order) };
+ ser += pseries(rel, std::move(nseq));
// reexpanding it will collapse the series again
return ser.series(rel, order);
// NB: Of course, this still does not allow us to compute anything
// substitute the argument's series expansion
ser = ser.subs(s==x.series(rel, order), subs_options::no_pattern);
// maybe that was terminating, so add a proper order term
- epvector nseq;
- nseq.push_back(expair(Order(_ex1), order));
- ser += pseries(rel, nseq);
+ epvector nseq { expair(Order(_ex1), order) };
+ ser += pseries(rel, std::move(nseq));
// reexpanding it will collapse the series again
return ser.series(rel, order);
}
seq.push_back(expair((replarg.op(i)/power(s-foo,i)).series(foo==point,1,options).op(0).subs(foo==s, subs_options::no_pattern),i));
// append an order term:
seq.push_back(expair(Order(_ex1), replarg.nops()-1));
- return pseries(rel, seq);
+ return pseries(rel, std::move(seq));
}
}
// all other cases should be safe, by now:
static ex Order_series(const ex & x, const relational & r, int order, unsigned options)
{
// Just wrap the function into a pseries object
- epvector new_seq;
GINAC_ASSERT(is_a<symbol>(r.lhs()));
const symbol &s = ex_to<symbol>(r.lhs());
- new_seq.push_back(expair(Order(_ex1), numeric(std::min(x.ldegree(s), order))));
- return pseries(r, new_seq);
+ epvector new_seq { expair(Order(_ex1), numeric(std::min(x.ldegree(s), order))) };
+ return pseries(r, std::move(new_seq));
}
static ex Order_conjugate(const ex & x)