Package | Description |
---|---|
org.omg.CosNaming |
Provides a naming service for Java IDL.
|
org.omg.PortableServer |
Provides classes and interfaces for making the server side of your applications
portable across multivendor ORBs.
|
org.omg.PortableServer.portable |
Provides classes and interfaces for making the server side of your applications
portable across multivendor ORBs.
|
Modifier and Type | Class and Description |
---|---|
class |
BindingIteratorPOA
The BindingIterator interface allows a client to iterate through
the bindings using the next_one or next_n operations.
|
class |
NamingContextExtPOA
NamingContextExt is the extension of NamingContext
which
contains a set of name bindings in which each name is unique and is
part of Interoperable Naming Service. |
class |
NamingContextPOA
A naming context is an object that contains a set of name bindings in
which each name is unique.
|
Modifier and Type | Class and Description |
---|---|
class |
DynamicImplementation
Allows dynamic handling of object invocations.
|
class |
ServantActivatorPOA
When the POA has the RETAIN policy it uses servant
managers that are ServantActivators.
|
class |
ServantLocatorPOA
When the POA has the NON_RETAIN policy it uses servant
managers that are ServantLocators.
|
Modifier and Type | Method and Description |
---|---|
Servant |
POAOperations.get_servant()
This operation returns the default servant associated
with the POA.
|
Servant |
POAOperations.id_to_servant(byte[] oid)
If the POA has the RETAIN policy and the specified
ObjectId is in the Active Object Map, this operation
returns the servant associated with that object in
the Active Object Map.
|
Servant |
_ServantActivatorStub.incarnate(byte[] oid,
POA adapter)
This operation is invoked by the POA whenever the
POA receives a request for an object that is not
currently active, assuming the POA has the
USE_SERVANT_MANAGER and RETAIN policies.
|
Servant |
ServantActivatorOperations.incarnate(byte[] oid,
POA adapter)
This operation is invoked by the POA whenever the
POA receives a request for an object that is not
currently active, assuming the POA has the
USE_SERVANT_MANAGER and RETAIN policies.
|
Servant |
_ServantLocatorStub.preinvoke(byte[] oid,
POA adapter,
String operation,
CookieHolder the_cookie)
This operations is used to get a servant that will be
used to process the request that caused preinvoke to
be called.
|
Servant |
ServantLocatorOperations.preinvoke(byte[] oid,
POA adapter,
String operation,
CookieHolder the_cookie)
This operations is used to get a servant that will be
used to process the request that caused preinvoke to
be called.
|
Servant |
POAOperations.reference_to_servant(Object reference)
If the POA has the RETAIN policy and the specified
object is present in the Active Object Map, this
operation returns the servant associated with that
object in the Active Object Map.
|
Modifier and Type | Method and Description |
---|---|
void |
POAOperations.activate_object_with_id(byte[] id,
Servant p_servant)
This operation enters an association between the
specified Object Id and the specified servant in the
Active Object Map.
|
byte[] |
POAOperations.activate_object(Servant p_servant)
This operation generates an Object Id and enters
the Object Id and the specified servant in the
Active Object Map.
|
void |
_ServantActivatorStub.etherealize(byte[] oid,
POA adapter,
Servant serv,
boolean cleanup_in_progress,
boolean remaining_activations)
This operation is invoked whenever a servant for
an object is deactivated, assuming the POA has
the USE_SERVANT_MANAGER and RETAIN policies.
|
void |
ServantActivatorOperations.etherealize(byte[] oid,
POA adapter,
Servant serv,
boolean cleanup_in_progress,
boolean remaining_activations)
This operation is invoked whenever a servant for
an object is deactivated, assuming the POA has
the USE_SERVANT_MANAGER and RETAIN policies.
|
void |
_ServantLocatorStub.postinvoke(byte[] oid,
POA adapter,
String operation,
Object the_cookie,
Servant the_servant)
This operation is invoked whenener a servant completes
a request.
|
void |
ServantLocatorOperations.postinvoke(byte[] oid,
POA adapter,
String operation,
Object the_cookie,
Servant the_servant)
This operation is invoked whenener a servant completes
a request.
|
byte[] |
POAOperations.servant_to_id(Servant p_servant)
This operation has four possible behaviors.
|
Object |
POAOperations.servant_to_reference(Servant p_servant)
This operation requires the RETAIN policy and either
the UNIQUE_ID or IMPLICIT_ACTIVATION policies if
invoked outside the context of an operation dispatched
by this POA.
|
void |
POAOperations.set_servant(Servant p_servant)
This operation registers the specified servant with
the POA as the default servant.
|
Modifier and Type | Method and Description |
---|---|
POA |
Delegate.default_POA(Servant Self)
The default behavior of this function is to return the
root POA from the ORB instance associated with the servant.
|
Object |
Delegate.get_interface_def(Servant self)
This operation returns an object in the Interface Repository
which provides type information that may be useful to a program.
|
boolean |
Delegate.is_a(Servant Self,
String Repository_Id)
This method checks to see if the specified repid is present
on the list returned by _all_interfaces() or is the
repository id for the generic CORBA Object.
|
boolean |
Delegate.non_existent(Servant Self)
This operation is used to check for the existence of the
Object.
|
byte[] |
Delegate.object_id(Servant Self)
The method _object_id() is equivalent
to calling PortableServer::Current::get_object_id.
|
ORB |
Delegate.orb(Servant Self)
Convenience method that returns the instance of the ORB
currently associated with the Servant.
|
POA |
Delegate.poa(Servant Self)
The method _poa() is equivalent to
calling PortableServer::Current:get_POA.
|
Object |
Delegate.this_object(Servant Self)
This allows the servant to obtain the object reference for
the target CORBA Object it is incarnating for that request.
|
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For further API reference and developer documentation, see Java SE Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
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