// $Id$ #include "iad.hpp" namespace CIAO { namespace Config_Handlers { // NamedImplementationArtifact // NamedImplementationArtifact:: NamedImplementationArtifact (::XMLSchema::string< char > const& name__, ::CIAO::Config_Handlers::ImplementationArtifactDescription const& referencedArtifact__) : name_ (new ::XMLSchema::string< char > (name__)), referencedArtifact_ (new ::CIAO::Config_Handlers::ImplementationArtifactDescription (referencedArtifact__)), regulator__ () { name_->container (this); referencedArtifact_->container (this); } NamedImplementationArtifact:: NamedImplementationArtifact (::CIAO::Config_Handlers::NamedImplementationArtifact const& s) : name_ (new ::XMLSchema::string< char > (*s.name_)), referencedArtifact_ (new ::CIAO::Config_Handlers::ImplementationArtifactDescription (*s.referencedArtifact_)), regulator__ () { name_->container (this); referencedArtifact_->container (this); } ::CIAO::Config_Handlers::NamedImplementationArtifact& NamedImplementationArtifact:: operator= (::CIAO::Config_Handlers::NamedImplementationArtifact const& s) { name (s.name ()); referencedArtifact (s.referencedArtifact ()); return *this; } // NamedImplementationArtifact // ::XMLSchema::string< char > const& NamedImplementationArtifact:: name () const { return *name_; } ::XMLSchema::string< char >& NamedImplementationArtifact:: name () { return *name_; } void NamedImplementationArtifact:: name (::XMLSchema::string< char > const& e) { *name_ = e; } // NamedImplementationArtifact // ::CIAO::Config_Handlers::ImplementationArtifactDescription const& NamedImplementationArtifact:: referencedArtifact () const { return *referencedArtifact_; } ::CIAO::Config_Handlers::ImplementationArtifactDescription& NamedImplementationArtifact:: referencedArtifact () { return *referencedArtifact_; } void NamedImplementationArtifact:: referencedArtifact (::CIAO::Config_Handlers::ImplementationArtifactDescription const& e) { *referencedArtifact_ = e; } // ImplementationArtifactDescription // ImplementationArtifactDescription:: ImplementationArtifactDescription () : regulator__ () { } ImplementationArtifactDescription:: ImplementationArtifactDescription (::CIAO::Config_Handlers::ImplementationArtifactDescription const& s) : label_ (s.label_.get () ? new ::XMLSchema::string< char > (*s.label_) : 0), UUID_ (s.UUID_.get () ? new ::XMLSchema::string< char > (*s.UUID_) : 0), execParameter_ (s.execParameter_.get () ? new ::CIAO::Config_Handlers::Property (*s.execParameter_) : 0), deployRequirement_ (s.deployRequirement_.get () ? new ::CIAO::Config_Handlers::Requirement (*s.deployRequirement_) : 0), infoProperty_ (s.infoProperty_.get () ? new ::CIAO::Config_Handlers::Property (*s.infoProperty_) : 0), contentLocation_ (s.contentLocation_.get () ? new ::XMLSchema::string< char > (*s.contentLocation_) : 0), regulator__ () { if (label_.get ()) label_->container (this); if (UUID_.get ()) UUID_->container (this); location_.reserve (s.location_.size ()); { for (location_const_iterator i (s.location_.begin ()); i != s.location_.end (); ++i) add_location (*i); } if (execParameter_.get ()) execParameter_->container (this); if (deployRequirement_.get ()) deployRequirement_->container (this); dependsOn_.reserve (s.dependsOn_.size ()); { for (dependsOn_const_iterator i (s.dependsOn_.begin ()); i != s.dependsOn_.end (); ++i) add_dependsOn (*i); } if (infoProperty_.get ()) infoProperty_->container (this); if (contentLocation_.get ()) contentLocation_->container (this); } ::CIAO::Config_Handlers::ImplementationArtifactDescription& ImplementationArtifactDescription:: operator= (::CIAO::Config_Handlers::ImplementationArtifactDescription const& s) { if (s.label_.get ()) label (*(s.label_)); else label_ = ::std::auto_ptr< ::XMLSchema::string< char > > (0); if (s.UUID_.get ()) UUID (*(s.UUID_)); else UUID_ = ::std::auto_ptr< ::XMLSchema::string< char > > (0); location_.clear (); location_.reserve (s.location_.size ()); { for (location_const_iterator i (s.location_.begin ()); i != s.location_.end (); ++i) add_location (*i); } if (s.execParameter_.get ()) execParameter (*(s.execParameter_)); else execParameter_ = ::std::auto_ptr< ::CIAO::Config_Handlers::Property > (0); if (s.deployRequirement_.get ()) deployRequirement (*(s.deployRequirement_)); else deployRequirement_ = ::std::auto_ptr< ::CIAO::Config_Handlers::Requirement > (0); dependsOn_.clear (); dependsOn_.reserve (s.dependsOn_.size ()); { for (dependsOn_const_iterator i (s.dependsOn_.begin ()); i != s.dependsOn_.end (); ++i) add_dependsOn (*i); } if (s.infoProperty_.get ()) infoProperty (*(s.infoProperty_)); else infoProperty_ = ::std::auto_ptr< ::CIAO::Config_Handlers::Property > (0); if (s.contentLocation_.get ()) contentLocation (*(s.contentLocation_)); else contentLocation_ = ::std::auto_ptr< ::XMLSchema::string< char > > (0); return *this; } // ImplementationArtifactDescription // bool ImplementationArtifactDescription:: label_p () const { return label_.get () != 0; } ::XMLSchema::string< char > const& ImplementationArtifactDescription:: label () const { return *label_; } ::XMLSchema::string< char >& ImplementationArtifactDescription:: label () { return *label_; } void ImplementationArtifactDescription:: label (::XMLSchema::string< char > const& e) { if (label_.get ()) { *label_ = e; } else { label_ = ::std::auto_ptr< ::XMLSchema::string< char > > (new ::XMLSchema::string< char > (e)); label_->container (this); } } // ImplementationArtifactDescription // bool ImplementationArtifactDescription:: UUID_p () const { return UUID_.get () != 0; } ::XMLSchema::string< char > const& ImplementationArtifactDescription:: UUID () const { return *UUID_; } ::XMLSchema::string< char >& ImplementationArtifactDescription:: UUID () { return *UUID_; } void ImplementationArtifactDescription:: UUID (::XMLSchema::string< char > const& e) { if (UUID_.get ()) { *UUID_ = e; } else { UUID_ = ::std::auto_ptr< ::XMLSchema::string< char > > (new ::XMLSchema::string< char > (e)); UUID_->container (this); } } // ImplementationArtifactDescription // ImplementationArtifactDescription::location_iterator ImplementationArtifactDescription:: begin_location () { return location_.begin (); } ImplementationArtifactDescription::location_iterator ImplementationArtifactDescription:: end_location () { return location_.end (); } ImplementationArtifactDescription::location_const_iterator ImplementationArtifactDescription:: begin_location () const { return location_.begin (); } ImplementationArtifactDescription::location_const_iterator ImplementationArtifactDescription:: end_location () const { return location_.end (); } void ImplementationArtifactDescription:: add_location (::XMLSchema::string< char > const& e) { if (location_.capacity () < location_.size () + 1) { ::std::vector< ::XMLSchema::string< char > > v; v.reserve (location_.size () + 1); while (location_.size ()) { //@@ VC6 ::XMLSchema::string< char >& t = location_.back (); t.container (0); v.push_back (t); v.back ().container (this); location_.pop_back (); } location_.swap (v); } location_.push_back (e); location_.back ().container (this); } // ImplementationArtifactDescription // bool ImplementationArtifactDescription:: execParameter_p () const { return execParameter_.get () != 0; } ::CIAO::Config_Handlers::Property const& ImplementationArtifactDescription:: execParameter () const { return *execParameter_; } ::CIAO::Config_Handlers::Property& ImplementationArtifactDescription:: execParameter () { return *execParameter_; } void ImplementationArtifactDescription:: execParameter (::CIAO::Config_Handlers::Property const& e) { if (execParameter_.get ()) { *execParameter_ = e; } else { execParameter_ = ::std::auto_ptr< ::CIAO::Config_Handlers::Property > (new ::CIAO::Config_Handlers::Property (e)); execParameter_->container (this); } } // ImplementationArtifactDescription // bool ImplementationArtifactDescription:: deployRequirement_p () const { return deployRequirement_.get () != 0; } ::CIAO::Config_Handlers::Requirement const& ImplementationArtifactDescription:: deployRequirement () const { return *deployRequirement_; } ::CIAO::Config_Handlers::Requirement& ImplementationArtifactDescription:: deployRequirement () { return *deployRequirement_; } void ImplementationArtifactDescription:: deployRequirement (::CIAO::Config_Handlers::Requirement const& e) { if (deployRequirement_.get ()) { *deployRequirement_ = e; } else { deployRequirement_ = ::std::auto_ptr< ::CIAO::Config_Handlers::Requirement > (new ::CIAO::Config_Handlers::Requirement (e)); deployRequirement_->container (this); } } // ImplementationArtifactDescription // ImplementationArtifactDescription::dependsOn_iterator ImplementationArtifactDescription:: begin_dependsOn () { return dependsOn_.begin (); } ImplementationArtifactDescription::dependsOn_iterator ImplementationArtifactDescription:: end_dependsOn () { return dependsOn_.end (); } ImplementationArtifactDescription::dependsOn_const_iterator ImplementationArtifactDescription:: begin_dependsOn () const { return dependsOn_.begin (); } ImplementationArtifactDescription::dependsOn_const_iterator ImplementationArtifactDescription:: end_dependsOn () const { return dependsOn_.end (); } void ImplementationArtifactDescription:: add_dependsOn (::CIAO::Config_Handlers::NamedImplementationArtifact const& e) { if (dependsOn_.capacity () < dependsOn_.size () + 1) { ::std::vector< ::CIAO::Config_Handlers::NamedImplementationArtifact > v; v.reserve (dependsOn_.size () + 1); while (dependsOn_.size ()) { //@@ VC6 ::CIAO::Config_Handlers::NamedImplementationArtifact& t = dependsOn_.back (); t.container (0); v.push_back (t); v.back ().container (this); dependsOn_.pop_back (); } dependsOn_.swap (v); } dependsOn_.push_back (e); dependsOn_.back ().container (this); } // ImplementationArtifactDescription // bool ImplementationArtifactDescription:: infoProperty_p () const { return infoProperty_.get () != 0; } ::CIAO::Config_Handlers::Property const& ImplementationArtifactDescription:: infoProperty () const { return *infoProperty_; } ::CIAO::Config_Handlers::Property& ImplementationArtifactDescription:: infoProperty () { return *infoProperty_; } void ImplementationArtifactDescription:: infoProperty (::CIAO::Config_Handlers::Property const& e) { if (infoProperty_.get ()) { *infoProperty_ = e; } else { infoProperty_ = ::std::auto_ptr< ::CIAO::Config_Handlers::Property > (new ::CIAO::Config_Handlers::Property (e)); infoProperty_->container (this); } } // ImplementationArtifactDescription // bool ImplementationArtifactDescription:: contentLocation_p () const { return contentLocation_.get () != 0; } ::XMLSchema::string< char > const& ImplementationArtifactDescription:: contentLocation () const { return *contentLocation_; } ::XMLSchema::string< char >& ImplementationArtifactDescription:: contentLocation () { return *contentLocation_; } void ImplementationArtifactDescription:: contentLocation (::XMLSchema::string< char > const& e) { if (contentLocation_.get ()) { *contentLocation_ = e; } else { contentLocation_ = ::std::auto_ptr< ::XMLSchema::string< char > > (new ::XMLSchema::string< char > (e)); contentLocation_->container (this); } } } } namespace CIAO { namespace Config_Handlers { // NamedImplementationArtifact // NamedImplementationArtifact:: NamedImplementationArtifact (::XSCRT::XML::Element< char > const& e) :Base__ (e), regulator__ () { ::XSCRT::Parser< char > p (e); while (p.more_elements ()) { ::XSCRT::XML::Element< char > e (p.next_element ()); ::std::basic_string< char > n (::XSCRT::XML::uq_name (e.name ())); if (n == "name") { name_ = ::std::auto_ptr< ::XMLSchema::string< char > > (new ::XMLSchema::string< char > (e)); name_->container (this); } else if (n == "referencedArtifact") { referencedArtifact_ = ::std::auto_ptr< ::CIAO::Config_Handlers::ImplementationArtifactDescription > (new ::CIAO::Config_Handlers::ImplementationArtifactDescription (e)); referencedArtifact_->container (this); } else { } } } // ImplementationArtifactDescription // ImplementationArtifactDescription:: ImplementationArtifactDescription (::XSCRT::XML::Element< char > const& e) :Base__ (e), regulator__ () { ::XSCRT::Parser< char > p (e); while (p.more_elements ()) { ::XSCRT::XML::Element< char > e (p.next_element ()); ::std::basic_string< char > n (::XSCRT::XML::uq_name (e.name ())); if (n == "label") { ::XMLSchema::string< char > t (e); label (t); } else if (n == "UUID") { ::XMLSchema::string< char > t (e); UUID (t); } else if (n == "location") { ::XMLSchema::string< char > t (e); add_location (t); } else if (n == "execParameter") { ::CIAO::Config_Handlers::Property t (e); execParameter (t); } else if (n == "deployRequirement") { ::CIAO::Config_Handlers::Requirement t (e); deployRequirement (t); } else if (n == "dependsOn") { ::CIAO::Config_Handlers::NamedImplementationArtifact t (e); add_dependsOn (t); } else if (n == "infoProperty") { ::CIAO::Config_Handlers::Property t (e); infoProperty (t); } else if (n == "contentLocation") { ::XMLSchema::string< char > t (e); contentLocation (t); } else { } } } } } namespace CIAO { namespace Config_Handlers { } } #include namespace CIAO { namespace Config_Handlers { namespace { ::XMLSchema::TypeInfoInitializer < char > XMLSchemaTypeInfoInitializer_ (::XSCRT::extended_type_info_map ()); struct NamedImplementationArtifactTypeInfoInitializer { NamedImplementationArtifactTypeInfoInitializer () { ::XSCRT::TypeId id (typeid (NamedImplementationArtifact)); ::XSCRT::ExtendedTypeInfo nf (id); nf.add_base (::XSCRT::ExtendedTypeInfo::Access::public_, false, typeid (::XSCRT::Type)); ::XSCRT::extended_type_info_map ().insert (::std::make_pair (id, nf)); } }; NamedImplementationArtifactTypeInfoInitializer NamedImplementationArtifactTypeInfoInitializer_; struct ImplementationArtifactDescriptionTypeInfoInitializer { ImplementationArtifactDescriptionTypeInfoInitializer () { ::XSCRT::TypeId id (typeid (ImplementationArtifactDescription)); ::XSCRT::ExtendedTypeInfo nf (id); nf.add_base (::XSCRT::ExtendedTypeInfo::Access::public_, false, typeid (::XSCRT::Type)); ::XSCRT::extended_type_info_map ().insert (::std::make_pair (id, nf)); } }; ImplementationArtifactDescriptionTypeInfoInitializer ImplementationArtifactDescriptionTypeInfoInitializer_; } } } namespace CIAO { namespace Config_Handlers { namespace Traversal { // NamedImplementationArtifact // // void NamedImplementationArtifact:: traverse (Type& o) { pre (o); name (o); referencedArtifact (o); post (o); } void NamedImplementationArtifact:: traverse (Type const& o) { pre (o); name (o); referencedArtifact (o); post (o); } void NamedImplementationArtifact:: pre (Type&) { } void NamedImplementationArtifact:: pre (Type const&) { } void NamedImplementationArtifact:: name (Type& o) { dispatch (o.name ()); } void NamedImplementationArtifact:: name (Type const& o) { dispatch (o.name ()); } void NamedImplementationArtifact:: referencedArtifact (Type& o) { dispatch (o.referencedArtifact ()); } void NamedImplementationArtifact:: referencedArtifact (Type const& o) { dispatch (o.referencedArtifact ()); } void NamedImplementationArtifact:: post (Type&) { } void NamedImplementationArtifact:: post (Type const&) { } // ImplementationArtifactDescription // // void ImplementationArtifactDescription:: traverse (Type& o) { pre (o); if (o.label_p ()) label (o); else label_none (o); if (o.UUID_p ()) UUID (o); else UUID_none (o); location (o); if (o.execParameter_p ()) execParameter (o); else execParameter_none (o); if (o.deployRequirement_p ()) deployRequirement (o); else deployRequirement_none (o); dependsOn (o); if (o.infoProperty_p ()) infoProperty (o); else infoProperty_none (o); if (o.contentLocation_p ()) contentLocation (o); else contentLocation_none (o); post (o); } void ImplementationArtifactDescription:: traverse (Type const& o) { pre (o); if (o.label_p ()) label (o); else label_none (o); if (o.UUID_p ()) UUID (o); else UUID_none (o); location (o); if (o.execParameter_p ()) execParameter (o); else execParameter_none (o); if (o.deployRequirement_p ()) deployRequirement (o); else deployRequirement_none (o); dependsOn (o); if (o.infoProperty_p ()) infoProperty (o); else infoProperty_none (o); if (o.contentLocation_p ()) contentLocation (o); else contentLocation_none (o); post (o); } void ImplementationArtifactDescription:: pre (Type&) { } void ImplementationArtifactDescription:: pre (Type const&) { } void ImplementationArtifactDescription:: label (Type& o) { dispatch (o.label ()); } void ImplementationArtifactDescription:: label (Type const& o) { dispatch (o.label ()); } void ImplementationArtifactDescription:: label_none (Type&) { } void ImplementationArtifactDescription:: label_none (Type const&) { } void ImplementationArtifactDescription:: UUID (Type& o) { dispatch (o.UUID ()); } void ImplementationArtifactDescription:: UUID (Type const& o) { dispatch (o.UUID ()); } void ImplementationArtifactDescription:: UUID_none (Type&) { } void ImplementationArtifactDescription:: UUID_none (Type const&) { } void ImplementationArtifactDescription:: location (Type& o) { // VC6 anathema strikes again // ImplementationArtifactDescription::Type::location_iterator b (o.begin_location()), e (o.end_location()); if (b != e) { location_pre (o); for (; b != e; ) { dispatch (*b); if (++b != e) location_next (o); } location_post (o); } else location_none (o); } void ImplementationArtifactDescription:: location (Type const& o) { // VC6 anathema strikes again // ImplementationArtifactDescription::Type::location_const_iterator b (o.begin_location()), e (o.end_location()); if (b != e) { location_pre (o); for (; b != e; ) { dispatch (*b); if (++b != e) location_next (o); } location_post (o); } else location_none (o); } void ImplementationArtifactDescription:: location_pre (Type&) { } void ImplementationArtifactDescription:: location_pre (Type const&) { } void ImplementationArtifactDescription:: location_next (Type&) { } void ImplementationArtifactDescription:: location_next (Type const&) { } void ImplementationArtifactDescription:: location_post (Type&) { } void ImplementationArtifactDescription:: location_post (Type const&) { } void ImplementationArtifactDescription:: location_none (Type&) { } void ImplementationArtifactDescription:: location_none (Type const&) { } void ImplementationArtifactDescription:: execParameter (Type& o) { dispatch (o.execParameter ()); } void ImplementationArtifactDescription:: execParameter (Type const& o) { dispatch (o.execParameter ()); } void ImplementationArtifactDescription:: execParameter_none (Type&) { } void ImplementationArtifactDescription:: execParameter_none (Type const&) { } void ImplementationArtifactDescription:: deployRequirement (Type& o) { dispatch (o.deployRequirement ()); } void ImplementationArtifactDescription:: deployRequirement (Type const& o) { dispatch (o.deployRequirement ()); } void ImplementationArtifactDescription:: deployRequirement_none (Type&) { } void ImplementationArtifactDescription:: deployRequirement_none (Type const&) { } void ImplementationArtifactDescription:: dependsOn (Type& o) { // VC6 anathema strikes again // ImplementationArtifactDescription::Type::dependsOn_iterator b (o.begin_dependsOn()), e (o.end_dependsOn()); if (b != e) { dependsOn_pre (o); for (; b != e; ) { dispatch (*b); if (++b != e) dependsOn_next (o); } dependsOn_post (o); } else dependsOn_none (o); } void ImplementationArtifactDescription:: dependsOn (Type const& o) { // VC6 anathema strikes again // ImplementationArtifactDescription::Type::dependsOn_const_iterator b (o.begin_dependsOn()), e (o.end_dependsOn()); if (b != e) { dependsOn_pre (o); for (; b != e; ) { dispatch (*b); if (++b != e) dependsOn_next (o); } dependsOn_post (o); } else dependsOn_none (o); } void ImplementationArtifactDescription:: dependsOn_pre (Type&) { } void ImplementationArtifactDescription:: dependsOn_pre (Type const&) { } void ImplementationArtifactDescription:: dependsOn_next (Type&) { } void ImplementationArtifactDescription:: dependsOn_next (Type const&) { } void ImplementationArtifactDescription:: dependsOn_post (Type&) { } void ImplementationArtifactDescription:: dependsOn_post (Type const&) { } void ImplementationArtifactDescription:: dependsOn_none (Type&) { } void ImplementationArtifactDescription:: dependsOn_none (Type const&) { } void ImplementationArtifactDescription:: infoProperty (Type& o) { dispatch (o.infoProperty ()); } void ImplementationArtifactDescription:: infoProperty (Type const& o) { dispatch (o.infoProperty ()); } void ImplementationArtifactDescription:: infoProperty_none (Type&) { } void ImplementationArtifactDescription:: infoProperty_none (Type const&) { } void ImplementationArtifactDescription:: contentLocation (Type& o) { dispatch (o.contentLocation ()); } void ImplementationArtifactDescription:: contentLocation (Type const& o) { dispatch (o.contentLocation ()); } void ImplementationArtifactDescription:: contentLocation_none (Type&) { } void ImplementationArtifactDescription:: contentLocation_none (Type const&) { } void ImplementationArtifactDescription:: post (Type&) { } void ImplementationArtifactDescription:: post (Type const&) { } } } } namespace CIAO { namespace Config_Handlers { namespace Writer { // NamedImplementationArtifact // // NamedImplementationArtifact:: NamedImplementationArtifact (::XSCRT::XML::Element< char >& e) : ::XSCRT::Writer< char > (e) { } NamedImplementationArtifact:: NamedImplementationArtifact () { } void NamedImplementationArtifact:: traverse (Type const& o) { Traversal::NamedImplementationArtifact::traverse (o); } void NamedImplementationArtifact:: name (Type const& o) { push_ (::XSCRT::XML::Element< char > ("name", top_ ())); Traversal::NamedImplementationArtifact::name (o); pop_ (); } void NamedImplementationArtifact:: referencedArtifact (Type const& o) { push_ (::XSCRT::XML::Element< char > ("referencedArtifact", top_ ())); Traversal::NamedImplementationArtifact::referencedArtifact (o); pop_ (); } // ImplementationArtifactDescription // // ImplementationArtifactDescription:: ImplementationArtifactDescription (::XSCRT::XML::Element< char >& e) : ::XSCRT::Writer< char > (e) { } ImplementationArtifactDescription:: ImplementationArtifactDescription () { } void ImplementationArtifactDescription:: traverse (Type const& o) { Traversal::ImplementationArtifactDescription::traverse (o); } void ImplementationArtifactDescription:: label (Type const& o) { push_ (::XSCRT::XML::Element< char > ("label", top_ ())); Traversal::ImplementationArtifactDescription::label (o); pop_ (); } void ImplementationArtifactDescription:: UUID (Type const& o) { push_ (::XSCRT::XML::Element< char > ("UUID", top_ ())); Traversal::ImplementationArtifactDescription::UUID (o); pop_ (); } void ImplementationArtifactDescription:: location_pre (Type const&) { push_ (::XSCRT::XML::Element< char > ("location", top_ ())); } void ImplementationArtifactDescription:: location_next (Type const& o) { location_post (o); location_pre (o); } void ImplementationArtifactDescription:: location_post (Type const&) { pop_ (); } void ImplementationArtifactDescription:: execParameter (Type const& o) { push_ (::XSCRT::XML::Element< char > ("execParameter", top_ ())); Traversal::ImplementationArtifactDescription::execParameter (o); pop_ (); } void ImplementationArtifactDescription:: deployRequirement (Type const& o) { push_ (::XSCRT::XML::Element< char > ("deployRequirement", top_ ())); Traversal::ImplementationArtifactDescription::deployRequirement (o); pop_ (); } void ImplementationArtifactDescription:: dependsOn_pre (Type const&) { push_ (::XSCRT::XML::Element< char > ("dependsOn", top_ ())); } void ImplementationArtifactDescription:: dependsOn_next (Type const& o) { dependsOn_post (o); dependsOn_pre (o); } void ImplementationArtifactDescription:: dependsOn_post (Type const&) { pop_ (); } void ImplementationArtifactDescription:: infoProperty (Type const& o) { push_ (::XSCRT::XML::Element< char > ("infoProperty", top_ ())); Traversal::ImplementationArtifactDescription::infoProperty (o); pop_ (); } void ImplementationArtifactDescription:: contentLocation (Type const& o) { push_ (::XSCRT::XML::Element< char > ("contentLocation", top_ ())); Traversal::ImplementationArtifactDescription::contentLocation (o); pop_ (); } } } } namespace CIAO { namespace Config_Handlers { } }