if (coeff.csgn() == -1) c.s << '-';
first = false;
}
- if (!coeff.is_equal(_num1) &&
- !coeff.is_equal(_num_1)) {
+ if (!coeff.is_equal(*_num1_p) &&
+ !coeff.is_equal(*_num_1_p)) {
if (coeff.is_rational()) {
if (coeff.is_negative())
(-coeff).print(c);
} else if (it->coeff.is_equal(_ex_1)) {
c.s << "-";
it->rest.print(c, precedence());
- } else if (ex_to<numeric>(it->coeff).numer().is_equal(_num1)) {
+ } else if (ex_to<numeric>(it->coeff).numer().is_equal(*_num1_p)) {
it->rest.print(c, precedence());
c.s << "/";
ex_to<numeric>(it->coeff).denom().print(c, precedence());
- } else if (ex_to<numeric>(it->coeff).numer().is_equal(_num_1)) {
+ } else if (ex_to<numeric>(it->coeff).numer().is_equal(*_num_1_p)) {
c.s << "-";
it->rest.print(c, precedence());
c.s << "/";
++it;
if (it != itend
&& (is_a<print_csrc_cl_N>(c) || !it->coeff.info(info_flags::real) // sign inside ctor arguments
- || !(it->coeff.info(info_flags::negative) || (it->coeff.is_equal(_num1) && is_exactly_a<numeric>(it->rest) && it->rest.info(info_flags::negative)))))
+ || !(it->coeff.info(info_flags::negative) || (it->coeff.is_equal(*_num1_p) && is_exactly_a<numeric>(it->rest) && it->rest.info(info_flags::negative)))))
c.s << "+";
}
GINAC_ASSERT(is_exactly_a<numeric>(c));
if (is_exactly_a<numeric>(p.rest)) {
- GINAC_ASSERT(ex_to<numeric>(p.coeff).is_equal(_num1)); // should be normalized
+ GINAC_ASSERT(ex_to<numeric>(p.coeff).is_equal(*_num1_p)); // should be normalized
return expair(ex_to<numeric>(p.rest).mul_dyn(ex_to<numeric>(c)),_ex1);
}
ex add::recombine_pair_to_ex(const expair & p) const
{
- if (ex_to<numeric>(p.coeff).is_equal(_num1))
+ if (ex_to<numeric>(p.coeff).is_equal(*_num1_p))
return p.rest;
else
return (new mul(p.rest,p.coeff))->setflag(status_flags::dynallocated);