" vector components."));
const unsigned int n_components = this->n_components();
-
- FiniteElementDomination::Domination domination = FiniteElementDomination::no_requirements;
-
+
+ FiniteElementDomination::Domination domination =
+ FiniteElementDomination::no_requirements;
+
for (unsigned int c = 0; c < n_components; ++c)
{
- const unsigned int base_element_index_in_fe_sys_this = this->component_to_base_index(c).first;
- const unsigned int base_element_index_in_fe_sys_other = fe_sys_other->component_to_base_index(c).first;
-
- Assert(this->base_element(base_element_index_in_fe_sys_this).n_components() ==
- fe_sys_other->base_element(base_element_index_in_fe_sys_other).n_components(),
+ const unsigned int base_element_index_in_fe_sys_this =
+ this->component_to_base_index(c).first;
+ const unsigned int base_element_index_in_fe_sys_other =
+ fe_sys_other->component_to_base_index(c).first;
+
+ Assert(this->base_element(base_element_index_in_fe_sys_this)
+ .n_components() ==
+ fe_sys_other
+ ->base_element(base_element_index_in_fe_sys_other)
+ .n_components(),
ExcNotImplemented());
- Assert(this->element_multiplicity(base_element_index_in_fe_sys_this) ==
- fe_sys_other->element_multiplicity(base_element_index_in_fe_sys_other),
+ Assert(this->element_multiplicity(
+ base_element_index_in_fe_sys_this) ==
+ fe_sys_other->element_multiplicity(
+ base_element_index_in_fe_sys_other),
ExcNotImplemented());
// for this pair of base elements, check who dominates and combine
// with previous result
const FiniteElementDomination::Domination base_domination =
- (this->base_element(base_element_index_in_fe_sys_this).compare_for_domination(
- fe_sys_other->base_element(base_element_index_in_fe_sys_other), codim));
+ (this->base_element(base_element_index_in_fe_sys_this)
+ .compare_for_domination(fe_sys_other->base_element(
+ base_element_index_in_fe_sys_other),
+ codim));
domination = domination & base_domination;
}