ValueNode_Reciprocal::ValueNode_Reciprocal(const ValueBase &x):
LinkableValueNode(x.get_type())
{
+ Vocab ret(get_children_vocab());
+ set_children_vocab(ret);
Real value(x.get(Real()));
Real infinity(999999.0);
Real epsilon(0.000001);
return 0;
}
-int
-ValueNode_Reciprocal::link_count()const
-{
- return 3;
-}
-
-String
-ValueNode_Reciprocal::link_local_name(int i)const
-{
- assert(i>=0 && i<link_count());
-
- if(i==0) return _("Link");
- if(i==1) return _("Epsilon");
- if(i==2) return _("Infinite");
- return String();
-}
-
-String
-ValueNode_Reciprocal::link_name(int i)const
-{
- assert(i>=0 && i<link_count());
-
- if(i==0) return "link";
- if(i==1) return "epsilon";
- if(i==2) return "infinite";
- return String();
-}
-
-int
-ValueNode_Reciprocal::get_link_index_from_name(const String &name)const
-{
- if(name=="link") return 0;
- if(name=="epsilon") return 1;
- if(name=="infinite") return 2;
-
- throw Exception::BadLinkName(name);
-}
-
ValueBase
ValueNode_Reciprocal::operator()(Time t)const
{
{
return type==ValueBase::TYPE_REAL;
}
+
+LinkableValueNode::Vocab
+ValueNode_Reciprocal::get_children_vocab_vfunc()const
+{
+ if(children_vocab.size())
+ return children_vocab;
+
+ LinkableValueNode::Vocab ret;
+
+ ret.push_back(ParamDesc(ValueBase(),"link")
+ .set_local_name(_("Link"))
+ .set_description(_("The value node used to calculate its reciprocal"))
+ );
+
+ ret.push_back(ParamDesc(ValueBase(),"epsilon")
+ .set_local_name(_("Epsilon"))
+ .set_description(_("The value used to decide whether 'Link' is too small to obtain its reciprocal"))
+ );
+
+ ret.push_back(ParamDesc(ValueBase(),"infinite")
+ .set_local_name(_("Infinite"))
+ .set_description(_("The resulting value when 'Link' < 'Epsilon'"))
+ );
+
+ return ret;
+}