}
bool
-ValueNode_Reciprocal::set_link_vfunc(int i,ValueNode::Handle x)
+ValueNode_Reciprocal::set_link_vfunc(int i,ValueNode::Handle value)
{
- assert(i >= 0 && i < link_count());
+ assert(i>=0 && i<link_count());
+
switch(i)
{
- case 0: link_ = x; break;
- case 1: epsilon_ = x; break;
- case 2: infinite_ = x; break;
- default: return false;
+ case 0: CHECK_TYPE_AND_SET_VALUE(link_, ValueBase::TYPE_REAL);
+ case 1: CHECK_TYPE_AND_SET_VALUE(epsilon_, ValueBase::TYPE_REAL);
+ case 2: CHECK_TYPE_AND_SET_VALUE(infinite_, ValueBase::TYPE_REAL);
}
-
- signal_child_changed()(i);
- signal_value_changed()();
- return true;
+ return false;
}
ValueNode::LooseHandle
ValueNode_Reciprocal::get_link_vfunc(int i)const
{
- assert(i >= 0 && i < link_count());
+ assert(i>=0 && i<link_count());
+
if(i==0) return link_;
if(i==1) return epsilon_;
if(i==2) return infinite_;
String
ValueNode_Reciprocal::link_local_name(int i)const
{
- assert(i >= 0 && i < link_count());
+ assert(i>=0 && i<link_count());
+
if(i==0) return _("Link");
if(i==1) return _("Epsilon");
if(i==2) return _("Infinite");
String
ValueNode_Reciprocal::link_name(int i)const
{
- assert(i >= 0 && i < link_count());
+ assert(i>=0 && i<link_count());
+
if(i==0) return "link";
if(i==1) return "epsilon";
if(i==2) return "infinite";