+ public:
+ make_flat_inserter(const epvector &epv, bool b): do_renaming(b)
+ {
+ if (!do_renaming)
+ return;
+ for (epvector::const_iterator i=epv.begin(); i!=epv.end(); ++i)
+ if(are_ex_trivially_equal(i->coeff, 1))
+ combine_indices(i->rest.get_free_indices());
+ }
+ make_flat_inserter(const exvector &v, bool b): do_renaming(b)
+ {
+ if (!do_renaming)
+ return;
+ for (exvector::const_iterator i=v.begin(); i!=v.end(); ++i)
+ combine_indices(i->get_free_indices());
+ }
+ ex handle_factor(const ex &x, const ex &coeff)
+ {
+ if (!do_renaming)
+ return x;
+ exvector dummies_of_factor;
+ if (is_a<numeric>(coeff) && coeff.is_equal(GiNaC::numeric(1)))
+ dummies_of_factor = get_all_dummy_indices_safely(x);
+ else if (is_a<numeric>(coeff) && coeff.is_equal(GiNaC::numeric(2)))
+ dummies_of_factor = x.get_free_indices();
+ else
+ return x;
+ if (dummies_of_factor.size() == 0)
+ return x;
+ sort(dummies_of_factor.begin(), dummies_of_factor.end(), ex_is_less());
+ ex new_factor = rename_dummy_indices_uniquely(used_indices,
+ dummies_of_factor, x);
+ combine_indices(dummies_of_factor);
+ return new_factor;
+ }
+ private:
+ void combine_indices(const exvector &dummies_of_factor)
+ {
+ exvector new_dummy_indices;
+ set_union(used_indices.begin(), used_indices.end(),
+ dummies_of_factor.begin(), dummies_of_factor.end(),
+ std::back_insert_iterator<exvector>(new_dummy_indices), ex_is_less());
+ used_indices.swap(new_dummy_indices);
+ }
+ bool do_renaming;
+ exvector used_indices;
+};