void GenerateNewCSInit(const Uml::Diagram &diagram, ostream &output, string fname)
{
output << "\t" << "public class Init" << endl;
output << "\t" << "{" << endl;
output << "\t\t" << "public static bool initialized = false;" << endl;
output << "\t\t" << "public static Udm.DataNetwork dn = null;" << endl;
output << "\t\t" << "public static Uml.Diagram umldiagram = null;" << endl;
output << "\t\t" << "static Init()" << endl;
output << "\t\t" << "{"<<endl;
output << "\t\t\t" << "if(initialized) return;" << endl;
output << "\t\t\t" << "initialized = true;" << endl;
output << "\t\t\t" << "if(!Uml.Init.initialized) throw new Udm.udm_exception(\"UML Diagram is not yet initialized!\");" << endl;
string hname = diagram.name();
output << "\t\t\t" << "dn = new Static.StaticDataNetwork(Uml.Init.dn.GetRootMeta());" << endl;
output << "\t\t\t" << "dn.CreateNew(\"" << hname << ".mem\", \"\",ref Uml.Diagram.meta, Udm.BackEndSemantics.CHANGES_LOST_DEFAULT);"<< endl;
output << "\t\t\t" << "umldiagram = Uml.Diagram.Cast(dn.GetRootObject());" << endl;
output << "\t\t\t" << "umldiagram.name =\"" << hname << "\";" << endl;
set<Uml::Class> classes = diagram.classes();
set<Uml::Class>::iterator c;
//classes
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
output << "\t\t\t" << cl.name() << ".meta = Uml.Class.Create(umldiagram);" << endl;
}
//attributes
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
set<Uml::Attribute> attributes = cl.attributes();
//todo: non-persistent attributes
for( set<Uml::Attribute>::iterator i = attributes.begin(); i != attributes.end(); i++)
{
output << "\t\t\t" << cl.name() << ".meta_" << (*i).name() << " = Uml.Attribute.Create(" << cl.name()<<".meta);" << endl;
}
}
//class attributes
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
string ster;
if(((string)cl.stereotype()).length()) ster = string(", \"")+(string)cl.stereotype()+"\"";
output << "\t\t\t" << cl.name() << ".meta.name = \"" << cl.name() << "\";" <<endl;
output << "\t\t\t" << cl.name() << ".meta.isAbstract = " << (cl.isAbstract() ? "true" : "false") << ";" << endl;
if (!ster.empty())
output << "\t\t\t" << cl.name() << ".meta.stereotype = \"" << cl.stereotype() << "\";" <<endl;
}
//attribute attributes ;-)
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
// Uml::Class tempcl(Uml::classByName(tempdiagram, cl.name()));
set<Uml::Attribute> attributes = cl.attributes();
for(set<Uml::Attribute>::iterator att_i = attributes.begin(); att_i != attributes.end(); att_i++)
//nonpersistent is false for attributes coming from the real diagram
att_i->nonpersistent() = false;
for( set<Uml::Attribute>::iterator i = attributes.begin(); i != attributes.end(); i++)
{
output << "\t\t\t" << cl.name() << ".meta_" << (*i).name() << ".name = \"" << (*i).name() << "\";" << endl;
output << "\t\t\t" << cl.name() << ".meta_" << (*i).name() << ".type = \"" << (*i).type() << "\";" << endl;
output << "\t\t\t" << cl.name() << ".meta_" << (*i).name() << ".min = " << (*i).min() << ";" << endl;
output << "\t\t\t" << cl.name() << ".meta_" << (*i).name() << ".max = " << (*i).max() << ";" << endl;
output << "\t\t\t" << cl.name() << ".meta_" << (*i).name() << ".nonpersistent = " << ((*i).nonpersistent() ? "true" : "false") << ";" << endl;
}
}
//associations
{
const set<Uml::Association> &asss = diagram.associations();
set<Uml::Association>::const_iterator a;
for(a = asss.begin(); a != asss.end(); a++ )
{
set<Uml::AssociationRole> ar = a->roles();
ASSERT(ar.size() == 2);
output << "\t\t\t{" << endl;
output << "\t\t\t\tUml.Association ass = Uml.Association.Create(umldiagram);" << endl;
Uml::Class aclass = a->assocClass();
if (!((string)a->name()).empty())
output << "\t\t\t\tass.name = \"" << a->name() << "\";" <<endl;
if(aclass)
{
output << "\t\t\t\tass.assocClass = " << aclass.name() << ".meta;" << endl;
}
set<Uml::AssociationRole> roles = a->roles();
for( set<Uml::AssociationRole>::iterator i = roles.begin(); i != roles.end(); i++) {
Uml::AssociationRole zz = Uml::theOther(*i);
string aname(MakeRoleName(zz));
Uml::Class cl = i->target();
output << "\t\t\t\t" << cl.name() << ".meta_" << aname << " = Uml.AssociationRole.Create(ass);" <<endl;
output << "\t\t\t\t" << cl.name() << ".meta_" << aname << ".name = \"" << aname << "\";" <<endl;
output << "\t\t\t\t" << cl.name() << ".meta_" << aname << ".min = " << zz.min() << ";" <<endl;
output << "\t\t\t\t" << cl.name() << ".meta_" << aname << ".max = " << zz.max() << ";" <<endl;
output << "\t\t\t\t" << cl.name() << ".meta_" << aname << ".isNavigable = " << (zz.isNavigable() ? "true":"false") << ";" <<endl;
output << "\t\t\t\t" << cl.name() << ".meta_" << aname << ".isPrimary = " << (zz.isPrimary() ? "true":"false") << ";" <<endl;
output << "\t\t\t\t" << cl.name() << ".meta_" << aname << ".target = " << ((Uml::Class)zz.target()).name() << ".meta;" <<endl;
Uml::Class aclass = a->assocClass();
if(aclass)
{
Uml::Class cl2 = zz.target();
output << "\t\t\t\t" << aclass.name() << ".meta_" << aname << "_end_ = " <<
cl2.name() << ".meta_" << MakeRoleName(*i) << "_rev = " <<
cl.name() << ".meta_" << aname << ";" << endl;
}
}
output << "\t\t\t}" << endl;
}
}
//compositions
{
const set<Uml::Composition> &comps = diagram.compositions();
set<Uml::Composition>::const_iterator c;
for(c = comps.begin(); c != comps.end(); c++ )
{
output << "\t\t\t{" << endl;
output << "\t\t\t\tUml.Composition comp = Uml.Composition.Create(umldiagram);" << endl;
if (!((string)c->name()).empty())
output << "\t\t\t\tcomp.name =\"" << c->name() << "\";" <<endl;
output << "\t\t\t\tcomp.nonpersistent =" << (c->nonpersistent() ? "true" : "false") << ";" << endl;
output << "\t\t" << endl;
Uml::CompositionParentRole x1 = (*c).parentRole();
Uml::CompositionChildRole x2 = (*c).childRole();
Uml::CompositionParentRole zzp = c->parentRole();
Uml::CompositionChildRole zzc = c->childRole();
string aname(MakeRoleName(zzp));
output << "\t\t\t\t" << ((Uml::Class)zzc.target()).name() << ".meta_" << aname <<
" = Uml.CompositionParentRole.Create(comp);" << endl;
output << "\t\t\t\t" << ((Uml::Class)zzc.target()).name() << ".meta_" << aname <<
".name = \"" << aname << "\";" << endl;
output << "\t\t\t\t" << ((Uml::Class)zzc.target()).name() << ".meta_" << aname <<
".isNavigable = " << (zzp.isNavigable() ? "true;" : "false;") << endl;
output << "\t\t\t\t" << ((Uml::Class)zzc.target()).name() << ".meta_" << aname <<
".target = " << ((Uml::Class)zzp.target()).name() << ".meta;" << endl;
string cname(MakeRoleName(zzc));
output << "\t\t\t\t" << ((Uml::Class)zzp.target()).name() << ".meta_" << cname <<
" = Uml.CompositionChildRole.Create(comp);" << endl;
output << "\t\t\t\t" << ((Uml::Class)zzp.target()).name() << ".meta_" << cname <<
".name = \"" << MakeShortRoleName(zzc) << "\";" << endl;
output << "\t\t\t\t" << ((Uml::Class)zzp.target()).name() << ".meta_" << cname <<
".min = " << zzc.min() << ";"<< endl;
output << "\t\t\t\t" << ((Uml::Class)zzp.target()).name() << ".meta_" << cname <<
".max = " << zzc.max() << ";"<< endl;
output << "\t\t\t\t" << ((Uml::Class)zzp.target()).name() << ".meta_" << cname <<
".isNavigable = " << (zzc.isNavigable() ? "true;" : "false;") << endl;
output << "\t\t\t\t" << ((Uml::Class)zzp.target()).name() << ".meta_" << cname <<
".target = " << ((Uml::Class)zzc.target()).name() << ".meta;" << endl;
output << "\t\t\t}" << endl;
}
}
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
set<Uml::Class> st = cl.subTypes();
if (st.size())
{
output << "\t\t\t" <<"Hashtable " << (string)cl.name() << "_meta_subtypes = new Hashtable();" << endl;
for( set<Uml::Class>::iterator i = st.begin(); i != st.end(); i++)
{
output << "\t\t\t" << cl.name() << "_meta_subtypes[" << (*i).name() << ".meta] = " <<(*i).name() << ".meta;" << endl;
}
output << "\t\t\t" << cl.name() << ".meta.subTypes = " << cl.name() << "_meta_subtypes;" << endl;
output << endl;
}
}
output << "\t\t" << "}"<<endl; //end of Init.init();
output << "\t" << "}"<<endl; //end of class Init();
output << "}" << endl; //end of namespace
}
void GenerateCSInit(const Uml::Diagram &diagram, ostream &output, string fname)
{
output << "\t" << "public class Init" << endl;
output << "\t" << "{" << endl;
output << "\t\t" << "public static bool initialized = false;" << endl;
output << "\t\t" << "public static Udm.DataNetwork dn = null;" << endl;
output << "\t\t" << "public static Uml.Diagram umldiagram = null;" << endl;
output << "\t\t" << "static Init()" << endl;
output << "\t\t" << "{"<<endl;
output << "\t\t\t" << "if(initialized) return;" << endl;
output << "\t\t\t" << "initialized = true;" << endl;
output << "\t\t\t" << "if(!Uml.Init.initialized) throw new Udm.udm_exception(\"UML Diagram is not yet initialized!\");" << endl;
output << "\t\t\t" << "umldiagram = Uml.UmlExt.CreateDiagram();" << endl;
set<Uml::Class> classes = diagram.classes();
set<Uml::Class>::iterator c;
//create classes
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
output << "\t\t\t" << cl.name() << ".meta = Uml.UmlExt.CreateClass();" << endl;
}
//create attributes
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
set<Uml::Attribute> attributes = cl.attributes();
//todo Non-persistent attribute support for C# UDM
for( set<Uml::Attribute>::iterator i = attributes.begin(); i != attributes.end(); i++)
{
output << "\t\t\t" << cl.name() << ".meta_" << (*i).name() << " = Uml.UmlExt.CreateAttribute();" << endl;
}
}
//create association roles
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
set<Uml::AssociationRole> assocs = cl.associationRoles();
for( set<Uml::AssociationRole>::iterator i = assocs.begin(); i != assocs.end(); i++)
{
string aname(MakeRoleName(Uml::theOther(*i)));
output << "\t\t\t" << cl.name() << ".meta_" << aname << " = Uml.UmlExt.CreateAssociationRole();" << endl;
}
}
//create composition parent roles
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
set<Uml::CompositionChildRole> children = cl.childRoles();
for( set<Uml::CompositionChildRole>::iterator i = children.begin(); i != children.end(); i++)
{
string aname(MakeRoleName(Uml::theOther(*i)));
output << "\t\t\t" << cl.name() << ".meta_" << aname << " = Uml.UmlExt.CreateCompositionParentRole();" << endl;
}
}
//create composition child roles
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
set<Uml::CompositionParentRole> children = cl.parentRoles();
for( set<Uml::CompositionParentRole>::iterator i = children.begin(); i != children.end(); i++)
{
string aname(MakeRoleName(Uml::theOther(*i)));
output << "\t\t\t" << cl.name() << ".meta_" << aname << " = Uml.UmlExt.CreateCompositionChildRole();" << endl;
}
}
//end of creations,
output << "\t\t\t" << "Udm.Object.SolveMetaDependencies();"<< endl;
//init part
//diagram
output << "\t\t\tUml.UmlExt.InitDiagram(umldiagram, \"" << diagram.name() << "\");" << endl << endl;
//classes
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
string ster;
if(((string)cl.stereotype()).length()) ster = string(", \"")+(string)cl.stereotype()+"\"";
string from;
if(((string)cl.from()).length()) from = string(", \"")+(string)cl.from()+"\"";
output << "\t\t\tUml.UmlExt.InitClass(" << cl.name() << ".meta, umldiagram, \"" <<
cl.name() << "\", " << (cl.isAbstract() ? "true" : "false")<< ster << from << ");" << endl;
}
output << "\t\t" << endl;
//atributes
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
// Uml::Class tempcl(Uml::classByName(tempdiagram, cl.name()));
set<Uml::Attribute> attributes = cl.attributes();
for( set<Uml::Attribute>::iterator i = attributes.begin(); i != attributes.end(); i++)
{
output << "\t\t\tUml.UmlExt.InitAttribute(" << cl.name() << ".meta_" << (*i).name() << ", " <<
cl.name() << ".meta, \"" << (*i).name() << "\", \"" << (*i).type() << "\", " <<
((*i).nonpersistent() ? "true" : "false") << ", " << (*i).min() << ", " << (*i).max() << ");" << endl;
}
}
output << "\t\t" << endl;
//associations
{
const set<Uml::Association> &asss = diagram.associations();
set<Uml::Association>::const_iterator a;
for(a = asss.begin(); a != asss.end(); a++ )
{
set<Uml::AssociationRole> ar = a->roles();
ASSERT(ar.size() == 2);
// {
output << "\t\t\t{" << endl;
// Uml::Association ass = Uml::CreateAssociation();
output << "\t\t\t\tUml.Association ass = Uml.UmlExt.CreateAssociation();" << endl;
// Uml::InitAssociation(ass, diagram, "AtoB");
// or : Uml::InitAssociationClass(ass, C::meta);
Uml::Class aclass = a->assocClass();
output << "\t\t\t\tUml.UmlExt.InitAssociation(ass , umldiagram, \"" << a->name() << "\");" << endl;
if(aclass) {
output << "\t\t\tUml.UmlExt.InitAssociationClass(ass, " << aclass.name() << ".meta);" << endl;
}
// Uml::InitAssociationRole(A::meta_dst, ass, "dst", 0, 1, B::meta);
// C:: meta_dst_end_ = B:meta_src_rev = A::meta_dst;
set<Uml::AssociationRole> roles = a->roles();
for( set<Uml::AssociationRole>::iterator i = roles.begin(); i != roles.end(); i++) {
Uml::AssociationRole zz = Uml::theOther(*i);
string aname(MakeRoleName(zz));
Uml::Class cl = i->target();
output << "\t\t\t\tUml.UmlExt.InitAssociationRole(" << cl.name() << ".meta_" << aname
<< ", ass, \"" << aname << "\", " <<
(zz.isNavigable() ? "true, " : "false, ") <<
(zz.isPrimary() ? "true, " : "false, ") <<
zz.min() << ", " << zz.max() << ", " << ((Uml::Class)zz.target()).name() << ".meta);" << endl;
Uml::Class aclass = a->assocClass();
if(aclass) {
Uml::Class cl2 = zz.target();
output << "\t\t\t" << aclass.name() << ".meta_" << aname << "_end_ = " <<
cl2.name() << ".meta_" << MakeRoleName(*i) << "_rev = " <<
cl.name() << ".meta_" << aname << ";" << endl;
}
}
// }
output << "\t\t\t}" << endl;
}
}
//compositions
{
const set<Uml::Composition> &comps = diagram.compositions();
set<Uml::Composition>::const_iterator c;
for(c = comps.begin(); c != comps.end(); c++ ) {
// {
output << "\t\t\t{" << endl;
// Uml::Composition comp = Uml::CreateComposition();
output << "\t\t\t\tUml.Composition comp = Uml.UmlExt.CreateComposition();" << endl;
// Uml::InitComposition(comp, diagram, "DtoA");
output << "\t\t\t\tUml.UmlExt.InitComposition(comp , umldiagram, \"" <<
c->name() << "\");" << endl;
output << "\t\t" << endl;
Uml::CompositionParentRole x1 = (*c).parentRole();
Uml::CompositionChildRole x2 = (*c).childRole();
// Uml::InitCompositionParentRole(A::meta_parent, comp, "parent", D::meta);
Uml::CompositionParentRole zzp = c->parentRole();
Uml::CompositionChildRole zzc = c->childRole();
string aname(MakeRoleName(zzp));
output << "\t\t\t\tUml.UmlExt.InitCompositionParentRole(" << ((Uml::Class)zzc.target()).name() << ".meta_" << aname <<
", comp, \""<< aname << "\", " <<
(zzp.isNavigable() ? "true, " : "false, ") <<
((Uml::Class)zzp.target()).name() << ".meta);" << endl;
// Uml::InitCompositionChildRole(D::meta_as, comp, "as", true, 0, -1, A::meta);
string cname(MakeRoleName(zzc));
output << "\t\t\t\tUml.UmlExt.InitCompositionChildRole(" << ((Uml::Class)zzp.target()).name() << ".meta_" << cname <<
", comp, \""<< MakeShortRoleName(zzc) << "\", " <<
(zzc.isNavigable() ? "true, " : "false, ") <<
zzc.min() << ", " << zzc.max() << ", " <<
((Uml::Class)zzc.target()).name() << ".meta);" << endl;
// }
output << "\t\t\t}" << endl;
}
}
//inheritence
// Uml::AddInheritance(A::meta, C::meta);
for(c = classes.begin(); c != classes.end(); c++ )
{
Uml::Class cl = *c;
set<Uml::Class> st = cl.subTypes();
for( set<Uml::Class>::iterator i = st.begin(); i != st.end(); i++)
{
output << "\t\t\tUml.UmlExt.AddInheritance(" << cl.name() << ".meta, " << (*i).name() << ".meta);" << endl;
}
}
output << endl;
output << "\t\t\t" << "Static.StaticDataNetwork sdn = new Static.StaticDataNetwork(umldiagram);" << endl;
output << "\t\t\t" << "sdn.CreateFromRootObj(\"" << diagram.name() <<"\", umldiagram, Udm.BackEndSemantics.CHANGES_LOST_DEFAULT);" << endl;
output << "\t\t\t" << "dn = sdn;" << endl;
output << "\t\t" << "}"<<endl; //end of Init.init();
output << "\t" << "}"<<endl; //end of class Init();
output << "}" << endl; //end of namespace
}
