Package org.omg.CORBA
ORB
, which is implemented
so that a programmer can use it as a fully-functional Object Request Broker
(ORB).
For a precise list of supported sections of official CORBA specifications with which the Java[TM] Platform, Standard Edition 6 complies, see Official Specifications for CORBA support in Java[TM] SE 6.
General Information
The information in this section is information relevant to someone who compiles Interface Definition Language (IDL) files and uses the ORB to write clients and servers.The classes and interfaces described in this section can be put into
four groups: ORB classes
, Exceptions, Helper
classes,
and Holder
classes.
The ORB
Class
An ORB handles (or brokers) method invocations between a client and the method's implementation on a server. Because the client and server may be anywhere on a network, and because the invocation and implementation may be written in different programming languages, an ORB does a great deal of work behind the scenes to accomplish this communication.
Most of what an ORB does is completely transparent to the user, and a major
portion of the CORBA
package consists of classes used by the ORB
behind the scenes. The result is that most programmers will use only a
small part of this package directly. In fact, most programmers will use
only a few methods from the ORB
class, some exceptions, and
occasionally,
a holder class.
ORB
Methods
Before an application can enter the CORBA environment, it must first:
- Be initialized into the ORB and possibly the object adapter (POA) environments.
- Get references to ORB object (for use in future ORB operations) and perhaps other objects (including the root POA or some Object Adapter objects).
The following operations are provided to initialize applications and obtain the appropriate object references:
- Operations providing access to the ORB, which are discussed in this section.
- Operations providing access to Object Adapters, Interface Repository, Naming Service, and other Object Services. These operations are described in Other Classes.
When an application requires a CORBA environment it needs a mechanism to get an ORB object reference and possibly an OA object reference (such as the root POA). This serves two purposes. First, it initializes an application into the ORB and OA environments. Second, it returns the ORB object reference and the OA object reference to the application for use in future ORB and OA operations.
In order to obtain an ORB object reference, applications call
the ORB.init
operation. The parameters to the call can comprise an
identifier for the ORB for which the object reference is required,
and an arg_list, which is used to allow environment-specific data to be
passed into the call.
These are the ORB
methods
that provide access to the ORB:
-
init()
-
init(String [] args, Properties props)
-
init(Applet app, Properties props)
Using the init()
method without parameters initiates
a singleton ORB, which can only
give typecode creation any
s needed in code generated
in Helper classes by idlj
.
Applications require a portable means by which to obtain their initial object references. References are required for the root POA, POA Current, Interface Repository, and various Object Services instances. The functionality required by the application is similar to that provided by the Naming Service. However, the OMG does not want to mandate that the Naming Service be made available to all applications in order that they may be portably initialized. Consequently, the operations shown in this section provide a simplified, local version of the Naming Service that applications can use to obtain a small, defined set of object references which are essential to its operation. Because only a small well-defined set of objects are expected with this mechanism, the naming context can be flattened to be a single-level name space. This simplification results in only two operations being defined to achieve the functionality required.
Initial references are obtained via two operations provided in the ORB object interface, providing facilities to list and resolve initial object references. These are:
-
resolve_initial_references(String name)
-
list_initial_services()
-
register_initial_reference(String id, org.omg.CORBA.Object obj)
An example that uses some of these methods is Getting Started with Java IDL.
Exceptions
Exceptions in Java IDL are similar to those in any code written in the Java programming language. If a method is defined to throw an exception, then any code using that method must have atry
/catch
block and handle that exception when it is thrown.
The documentation on Java IDL exceptions has more information and explains the difference between system exceptions and user-defined exceptions.
The following is a list of the system exceptions (which are unchecked
exceptions inheriting through
org.omg.CORBA.SystemException
from
java.lang.RuntimeException
) that are defined in the package
org.omg.CORBA
:
BAD_CONTEXT
BAD_INV_ORDER
BAD_OPERATION
BAD_PARAM
BAD_TYPECODE
COMM_FAILURE
DATA_CONVERSION
FREE_MEM
IMP_LIMIT
INITIALIZE
INTERNAL
INTF_REPOS
INVALID_TRANSACTION
INV_FLAG
INV_IDENT
INV_OBJREF
INV_POLICY
MARSHAL
NO_IMPLEMENT
NO_MEMORY
NO_PERMISSION
NO_RESOURCES
NO_RESPONSE
OBJECT_NOT_EXIST
OBJ_ADAPTER
PERSIST_STORE
TRANSACTION_REQUIRED
TRANSACTION_ROLLEDBACK
TRANSIENT
UNKNOWN
The following is a list of user-defined exceptions defined in the package
org.omg.CORBA
.
Bounds
UnknownUserException
WrongTransaction
PolicyError
Subpackages
There are some packages inside theCORBA
package with
"Package" as part of their names. These packages are generally quite small
because all they do is provide exceptions or classes for use by interfaces
and classes in the CORBA
package.
For example, the package
org.omg.CORBA.TypeCodePackage
contains
two exceptions thrown by methods in the class TypeCode
. These
exceptions are:
-
BadKind
-
Bounds
org.omg.CORBA.ORBPackage
contains two exceptions:
-
InvalidName
-
InconsistentTypeCode
Another package that is a subpackage of CORBA
is the
portable
package. It provides a set of ORB APIs that makes it
possible for code generated by one vendor's IDL compiler to run
on another vendor's ORB.
Holder classes
Support for out and inout parameter passing modes requires the use of
additional holder
classes. Because the Java programming language does not support out or
inout parameters, holder classes are needed as a means of passing a parameter
that can be modified. To support portable stubs and skeletons,
holder classes also implement the
org.omg.CORBA.portable.Streamable
interface.
Holder classes are named by appending "Holder" to the name of the type.
The name of the type refers to its name in the Java programming language. For
example, a holder class for the interface named Account
in the Java programming
language would be named AccountHolder
.
Holder classes are available for all of the basic IDL
datatypes in the org.omg.CORBA
package. So, for example,
there are already-defined classes for LongHolder
, ShortHolder
,
FloatHolder
, and so on. Classes are also generated for
all named user-defined IDL types except those defined by typedefs
.
(Note that in this context user defined includes types that are
defined in OMG specifications such as those for the Interface
Repository, and other OMG services.)
Each holder class has:
- a constructor from an instance
- a default constructor
- a public instance member,
value
which is the typed value. - a method for reading an input stream and assigning the contents to the
type's
value
field - a method for writing the value of the
value
field to an output stream - a method for getting the typecode of the type
The default constructor sets the value field to the default value for the type as defined by the Java language:
false
for boolean0
for numeric and char typesnull
for strings and object references
As an example, if the interface Account
, defined in OMG IDL,
were mapped to the Java programming language, the following holder class
would be generated:
public final class AccountHolder implements org.omg.CORBA.portable.Streamable { // field that holds an Account object public Account value = null; // default constructor public AccountHolder () { } // creates a new AccountHolder from initialValue public AccountHolder (Account initialValue) { value = initialValue; } // reads the contents of i and assigns the contents to value public void _read (org.omg.CORBA.portable.InputStream i) { value = AccountHelper.read (i); } // writes value to o public void _write (org.omg.CORBA.portable.OutputStream o) { AccountHelper.write (o, value); } // returns the typecode for Account public org.omg.CORBA.TypeCode _type () { return AccountHelper.type (); } }
For more information on Holder classes, see Chapter 1.4, Mapping for
Basic Types in the
OMG IDL to Java Language Mapping. The Holder classes defined
in the package org.omg.CORBA
are:
AnyHolder
AnySeqHolder
BooleanHolder
BooleanSeqHolder
ByteHolder
CharHolder
CharSeqHolder
CurrentHolder
DoubleHolder
DoubleSeqHolder
FixedHolder
FloatHolder
FloatSeqHolder
IntHolder
LongHolder
LongLongSeqHolder
LongSeqHolder
ObjectHolder
OctetSeqHolder
ParameterModeHolder
PolicyErrorHolder
PolicyListHolder
PrincipalHolder
ServiceInformationHolder
ShortHolder
ShortSeqHolder
StringHolder
StringSeqHolder
TypeCodeHolder
ULongLongSeqHolder
ULongSeqHolder
UnknownUserExceptionHolder
UShortSeqHolder
ValueBaseHolder
WCharSeqHolder
WrongTransactionHolder
WStringSeqHolder
Helper Classes
Helper files supply several static methods needed to manipulate the type. These include:
Any
insert and extract operations for the type- getting the repository id
- getting the typecode
- reading and writing the type from and to a stream
- implement the
ValueHelper
interface (if it is a user-defined value type)
The helper class for a mapped IDL interface or abstract interface
also include narrow operation(s). The static narrow method allows
an org.omg.CORBA.Object
to be narrowed to the object reference
of a more specific type. The IDL exception CORBA.BAD_PARAM
is thrown if the narrow fails because the object reference does not
support the requested type. A different system exception is raised
to indicate other kinds of errors. Trying to narrow a null
will always
succeed with a return value of null
.
Generally, the only helper method an application programmer uses is
the narrow
method. The other methods are normally used behind
the scenes and are transparent to the programmer.
Helper classes fall into two broad categories, helpers for value types and helpers for non value types. Because all of the helper classes in one category provide the same methods, one generic explanation of each category of helper classes is presented here.
When OMG IDL is mapped to the Java programming language,
a "helper" class is generated for each user-defined type.
This generated class will have the name of the user-defined type with
the suffix Helper
appended. For example, if the
interface Account
is defined in OMG IDL, the
idlj
compiler will automatically generate a class named
AccountHelper
. The AccountHelper
class
will contain the static methods needed for manipulating instances of the type,
in this case, Account
objects.
The narrow
Method
When an object is the return value for a method, it is returned in the
form of a generic object, either an org.omg.CORBA.Object
object
or a java.lang.Object
object. This object must be cast to its
more specific type before it can be operated on. For example, an
Account
object will be returned as a generic object and must
be narrowed to an Account
object so that Account
methods may be called on it.
The narrow
method has two forms, one that takes an
org.omg.CORBA.Object
object and one that takes a
java.lang.Object
object. Whether the interface is abstract or
not determines which narrow
method its helper class will provide.
The helper class for an interface
that is not abstract will have a narrow
method that takes a CORBA
object, whereas the narrow
method for an interface that is abstract
will take an object in the Java programming language. The helper class for a
non-abstract interface that has at least one abstract base interface will provide
both versions of the narrow
method.
The Hello World tutorial
uses a narrow
method that looks like this:
// create and initialize the ORB ORB orb = ORB.init(args, null); // get the root naming context org.omg.CORBA.Object objRef = orb.resolve_initial_references("NameService"); // Use NamingContextExt instead of NamingContext. This is // part of latest Inter-Operable naming Service. NamingContextExt ncRef = NamingContextExtHelper.narrow(objRef); // resolve the Object Reference in Naming String name = "Hello"; helloImpl = HelloHelper.narrow(ncRef.resolve_str(name));
Example of a Basic Helper Class
A basic helper class, for purposes of this explanation, is one with the methods that are provided by every helper class, plus anarrow
method if the type defined in OMG IDL maps to an interface in the Java
programming language. Types that are not value types will have a basic
helper class generated for them.
For example, assuming that the interface Account
is not a
value type IDL type and is also not an abstract interface and has no
abstract base interfaces, its AccountHelper
class will look
like this:
abstract public class AccountHelper { private static String _id = "IDL:Account:1.0"; // inserts an Account object into an Any object public static void insert (org.omg.CORBA.Any a, Account that) { org.omg.CORBA.portable.OutputStream out = a.create_output_stream (); a.type (type ()); write (out, that); a.read_value (out.create_input_stream (), type ()); } // extracts an Account object from an Any object public static Account extract (org.omg.CORBA.Any a) { return read (a.create_input_stream ()); } private static org.omg.CORBA.TypeCode __typeCode = null; // gets the typecode for this type synchronized public static org.omg.CORBA.TypeCode type () { if (__typeCode == null) { __typeCode = org.omg.CORBA.ORB.init ().create_interface_tc (AccountHelper.id (), "Account"); } return __typeCode; } // gets the repository id for this type public static String id () { return _id; } // reads an Account object from an input stream public static Account read (org.omg.CORBA.portable.InputStream istream) { return narrow (istream.read_Object (_AccountStub.class)); } // writes an Account object to an outputstream public static void write (org.omg.CORBA.portable.OutputStream ostream, Account value) { ostream.write_Object ((org.omg.CORBA.Object) value); } // converts (narrows) an Object to an Account object public static Account narrow (org.omg.CORBA.Object obj) { if (obj == null) return null; else if (obj instanceof Account) return (Account)obj; else if (!obj._is_a (id ())) throw new org.omg.CORBA.BAD_PARAM (); else { org.omg.CORBA.portable.Delegate delegate = ((org.omg.CORBA.portable.ObjectImpl)obj)._get_delegate (); _AccountStub stub = new _AccountStub (); stub._set_delegate(delegate); return stub; } } }
Value Type Helper Classes
A helper class for a value type includes different renderings of the same methods generated for non-value type methods. The main difference is that value types are types that can be passed by value as parameters or return values of a method, which means that they must be serializable.Assuming that Address
is a value type, the
AddressHelper
class will look like this:
abstract public class AddressHelper { private static String _id = "IDL:Address:1.0"; // same as for non-value type public static void insert (org.omg.CORBA.Any a, Address that) { org.omg.CORBA.portable.OutputStream out = a.create_output_stream (); a.type (type ()); write (out, that); a.read_value (out.create_input_stream (), type ()); } // same as for non-value type public static Address extract (org.omg.CORBA.Any a) { return read (a.create_input_stream ()); } private static org.omg.CORBA.TypeCode __typeCode = null; private static boolean __active = false; // getting the typecode for the type synchronized public static org.omg.CORBA.TypeCode type () { if (__typeCode == null) { synchronized (org.omg.CORBA.TypeCode.class) { if (__typeCode == null) { if (__active) { return org.omg.CORBA.ORB.init().create_recursive_tc ( _id ); } __active = true; org.omg.CORBA.ValueMember[] _members0 = new org.omg.CORBA.ValueMember[0]; org.omg.CORBA.TypeCode _tcOf_members0 = null; __typeCode = org.omg.CORBA.ORB.init ().create_value_tc (_id, "Address", org.omg.CORBA.VM_NONE.value, null, _members0); __active = false; } } } return __typeCode; } // same as for non-value type public static String id () { return _id; } // reads a serializable instance of Address from the given input stream public static Address read (org.omg.CORBA.portable.InputStream istream) { return (Address)((org.omg.CORBA_2_3.portable.InputStream) istream).read_value (id ()); } // writes a serializable instance of Address to the given output stream public static void write (org.omg.CORBA.portable.OutputStream ostream, Address value) { ((org.omg.CORBA_2_3.portable.OutputStream) ostream).write_value (value, id ()); } }
The Helper classes defined in the package org.omg.CORBA
are:
AnySeqHelper
BooleanSeqHelper
CharSeqHelper
CompletionStatusHelper
CurrentHelper
DefinitionKindHelper
DoubleSeqHelper
FieldNameHelper
FloatSeqHelper
IdentifierHelper
IDLTypeHelper
LongLongSeqHelper
LongSeqHelper
NameValuePairHelper
ObjectHelper
OctetSeqHelper
ParameterModeHelper
PolicyErrorCodeHelper
PolicyErrorHelper
PolicyHelper
PolicyListHelper
PolicyTypeHelper
RepositoryIdHelper
ServiceDetailHelper
ServiceInformationHelper
SetOverrideTypeHelper
ShortSeqHelper
StringSeqHelper
StringValueHelper
StructMemberHelper
ULongLongSeqHelper
ULongSeqHelper
UnionMemberHelper
UnknownUserExceptionHelper
UShortSeqHelper
ValueBaseHelper
ValueMemberHelper
VersionSpecHelper
VisibilityHelper
WCharSeqHelper
WrongTransactionHelper
WStringSeqHelper
WStringValueHelper
Other Classes
The other classes and interfaces in theCORBA
package, which are
used behind the scenes, can be put into four groups. Three of the groups
are used with requests in some capacity, and the fourth group, concerning
the Interface Repository, is a category by itself.
Classes Created by an ORB
The first group contains classes that are created by an ORB and contain information used in request operations.-
TCKind
-- indicates the kind (datatype) for aTypeCode
object -
TypeCode
-- indicates a datatype and possibly other information -
Any
-- contains a value and its typecode -
NamedValue
-- contains a name, anAny
object, and an argument mode flag.NamedValue
objects contain information about method arguments, method return values, or a context. -
ContextList
-- a list of strings that describe the contexts that need to be resolved and sent with an invocation -
ExceptionList
-- a list ofTypeCode
s for exceptions that may be thrown by a method -
Environment
-- a container for the exception thrown during a method invocation -
Context
-- a list ofNamedValue
objects used to pass auxiliary information from client to server -
NVList
-- a list ofNamedValue
objects, used to pass arguments or get results
Classes That Deal with Requests
The second group of classes deals with requests:-
Object
-- the base class for all CORBA object references -
Request
-- the main class in the DII, which contains methods for adding arguments to the request, for accessing information about the method being invoked (the method name, its arguments, exceptions it throws, and so on), and for making invocations on the request -
DynamicImplementation
-- the base class for server implementations using the DSI. It has the methodinvoke
, which is used by an implementation of this class to determine the state of aServerRequest
object and to set its result or exception -
ServerRequest
-- captures the explicit state of a request for the Dynamic Skeleton Interface
Interfaces That Serve as Constants
The third group contains interfaces that serve as constants. The IDL-to-Java mapping mandates that IDL enums are mapped to a Java class with the enumerated values represented as public static final fields in that class (e.g. DefinitionKind). On the other hand IDL constants defined outside of an IDL interface are mapped to a Java interface for each constant.This is why several interfaces in the org.omg.CORBA
package
consist of a single field, value
, which is a short
. This
field is a constant used for such things as an error code or value modifier.
For example, the value
field of the interface BAD_POLICY
is one of the possible reasons for the exception PolicyError
to
be thrown. To specify this error code, you would use BAD_POLICY.value
.
The exception PolicyError
uses the value
field of
the following interfaces as its possible error codes.
-
BAD_POLICY
-
BAD_POLICY_TYPE
-
BAD_POLICY_VALUE
-
UNSUPPORTED_POLICY
-
UNSUPPORTED_POLICY_VALUE
TypeCode.type_modifier
returns the value
field
of one of the following interfaces. The VM
in the names of these
interfaces stands for "value modifier."
-
VM_NONE
-
VM_ABSTRACT
-
VM_CUSTOM
-
VM_TRUNCATABLE
ValueMember
object's
access method to denote the visibility of the ValueMember
object.
-
PRIVATE_MEMBER
-
PUBLIC_MEMBER
NamedValue
objects or as parameters to methods,
are defined in the following interfaces:
-
ARG_IN
-
ARG_INOUT
-
ARG_OUT
-
CTX_RESTRICT_SCOPE
Interface Repository Interfaces and Classes
A fourth group contains the Interface Repository interfaces and classes, which are generated by theidlj
compiler from the OMG IDL
interface ir.idl
. The purpose of the Interface Repository is to
identify the interfaces stored in it so that they can be accessed by an
ORB. Each module, type, interface, attribute, operation, parameter, exception,
constant, and so on is described completely by the Interface Repository
API.
An ORB does not require that there be an interface repository, and Java
IDL does not include one. Even though this release does not include an
implementation of an interface repository, the following IR classes and
interfaces have been included for the purpose of creating typecodes (see
create_value_tc, create_struct_tc, create_union_tc and create_exception_tc
methods in interface org.omg.CORBA.ORB):
- IRObject
- IDLType
- DefinitionKind
- StructMember
- UnionMember
- ValueMember
Related Documentation
For overviews, guides, and a tutorial, please see:CORBA Features Not Implemented in Java IDL
Some of the API included in org.omg
subpackages is provided for
conformance with the current OMG CORBA specification but is not implemented
in Sun's release of the JDK™. This enables
other JDK licensees to provide implementations of this API in standard
extensions and products.
Features That Throw NO_IMPLEMENT
Some of the API included in org.omg
subpackages throw
NO_IMPLEMENT
exceptions for various reasons. Among these reasons
are:
- In some cases, for example
LocalObject
, the complete implementation according to the specification indicates that these API should throwNO_IMPLEMENT
. - In most cases, for example methods in
ORB.java
, methods that throwNO_IMPLEMENT
are actually implemented in subclasses elsewhere in the ORB code. - In some cases, for example
_get_interface_def()
and_get_interface
, API are really not yet implemented.
General Summary of Features or API Not Implemented in This Release:
- Interface Repository. An Interface Repository is not required for normal operation of Java IDL.
-
Java IDL does not support
long double
. -
Policies (
org.omg.CORBA.Policy
) and methods for getting them are not implemented. -
Domain managers (
org.omg.CORBA.DomainManager
) and methods for getting them are not implemented. -
Service Information
org.omg.CORBA.ServiceInformation
and ORB methodpublic boolean get_service_information(short service_type, ServiceInformationHolder service_info)
are not implemented. - ORB methods for supporting single-threading
(
perform_work
,work_pending
) are not implemented. - IDL contexts.
Specific List of Unimplemented Features in Package org.omg.CORBA
Unimplemented Methods in package org.omg.CORBA
:
-
ORB
-
public org.omg.CORBA.Policy create_policy(int type, org.omg.CORBA.Any val)
-
public void perform_work()
-
public boolean work_pending()
-
public org.omg.CORBA.Current get_current()
-
create_operation_list
-
get_default_context
-
get_service_information
-
obsolete
DynAnys
(deprecated in favor ofDynamicAny
package)
-
- Since:
- JDK1.2
-
Interface Summary Interface Description ARG_IN Signifies an "input" argument to an invocation, meaning that the argument is being passed from the client to the server.ARG_INOUT Signifies an argument used for both input and output in an invocation, meaning that the argument is being passed from the client to the server and then back from the server to the client.ARG_OUT A constant that signifies an "output" argument to an invocation, meaning that the argument is being passed from the server to the client.BAD_POLICY APolicyErrorCode
which would be filled in thePolicyError
exception.BAD_POLICY_TYPE APolicyErrorCode
which would be filled in thePolicyError
exception.BAD_POLICY_VALUE Contains the value used to indicate a policy value that is incorrect for a valid policy type in a call to thecreate_policy
method defined in the ORB class.CTX_RESTRICT_SCOPE A flag that can be used as the second parameter to the methodContext.get_values
to restrict the search scope.Current Interfaces derived from theCurrent
interface enable ORB and CORBA services to provide access to information (context) associated with the thread of execution in which they are running.CurrentOperations The interface forCurrent
.CustomMarshal An abstract value type that is meant to be used by the ORB, not the user.DataInputStream Defines the methods used to read primitive data types from input streams for unmarshaling custom value types.DataOutputStream Defines the methods used to write primitive data types to output streams for marshalling custom value types.DomainManager Provides mechanisms for establishing and navigating relationships to superior and subordinate domains, as well as for creating and accessing policies.DomainManagerOperations Provides theDomainManager
with the means to access policies.DynAny Deprecated. Use the new DynAny insteadDynArray Deprecated. Use the new DynArray insteadDynEnum Deprecated. Use the new DynEnum insteadDynFixed Deprecated. Use the new DynFixed insteadDynSequence Deprecated. Use the new DynSequence insteadDynStruct Deprecated. Use the new DynStruct insteadDynUnion Deprecated. Use the new DynUnion insteadDynValue Deprecated. Use the new DynValue insteadIDLType An abstract interface inherited by all Interface Repository (IR) objects that represent OMG IDL types.IDLTypeOperations This interface must be implemented by all IDLType objects.IRObject An IRObject IDL interface represents the most generic interface from which all other Interface Repository interfaces are derived, even the Repository itself.IRObjectOperations This is the Operations interface for the mapping fromIRObject
.Object The definition for a CORBA object reference.OMGVMCID The vendor minor code ID reserved for OMG.Policy Interfaces derived from thePolicy
interface allow an ORB or CORBA service access to certain choices that affect its operation.PolicyOperations Provides the operations for aPolicy
object.PRIVATE_MEMBER Constant to define a private member in theValueMember
class.PUBLIC_MEMBER Constant to define a public member in theValueMember
class.UNSUPPORTED_POLICY One of thePolicyErrorCode
s which would be filled if the requestedPolicy
is understood to be valid by the ORB, but is not currently supported.UNSUPPORTED_POLICY_VALUE APolicyErrorCode
which would be filled if the value requested for thePolicy
is of a valid type and within the valid range for that type, but this valid value is not currently supported.VM_ABSTRACT Defines the code used to represent an Abstract interface in a typecode.VM_CUSTOM Defines the code used to represent a custom marshalled value type in a typecode.VM_NONE Defines the code used to represent the one of the values of a value type in a typecode.VM_TRUNCATABLE Defines the code used to represent a truncatable value type in a typecode. -
Class Summary Class Description _IDLTypeStub The Stub forIDLType
._PolicyStub The Stub forPolicy
.Any Serves as a container for any data that can be described in IDL or for any IDL primitive type.AnyHolder The Holder forAny
.AnySeqHelper The Helper forAnySeq
.AnySeqHolder The Holder forAnySeq
.BooleanHolder The Holder forBoolean
.BooleanSeqHelper The Helper forBooleanSeq
.BooleanSeqHolder The Holder forBooleanSeq
.BoundsHelper This Helper class is used to facilitate the marshalling ofBounds
.ByteHolder The Holder forByte
.CharHolder The Holder forChar
.CharSeqHelper The Helper forCharSeq
.CharSeqHolder The Holder forCharSeq
.CompletionStatus An object that indicates whether a method had completed running when aSystemException
was thrown.CompletionStatusHelper The Helper forCompletionStatus
.Context An object used inRequest
operations to specify the context object in which context strings must be resolved before being sent along with the request invocation.ContextList An object containing a modifiable list ofString
objects that represent property names.CurrentHelper The Helper forCurrent
.CurrentHolder The Holder forCurrent
.DefinitionKind The class that provides the constants used to identify the type of an Interface Repository object.DefinitionKindHelper The Helper forDefinitionKind
.DoubleHolder The Holder forDouble
.DoubleSeqHelper The Helper forDoubleSeq
.DoubleSeqHolder The Holder forDoubleSeq
.DynamicImplementation Deprecated. org.omg.CORBA.DynamicImplementationEnvironment A container (holder) for an exception that is used inRequest
operations to make exceptions available to the client.ExceptionList An object used inRequest
operations to describe the exceptions that can be thrown by a method.FieldNameHelper The Helper forFieldName
.FixedHolder The Holder forFixed
.FloatHolder The Holder forFloat
.FloatSeqHelper The Helper forFloatSeq
.FloatSeqHolder The Holder forFloatSeq
.IdentifierHelper The Helper forIdentifier
.IDLTypeHelper The Helper forIDLType
.IntHolder The Holder forInt
.LocalObject Used as a base class for implementation of a local IDL interface in the Java language mapping.LongHolder The Holder forLong
.LongLongSeqHelper The Helper forLongLongSeq
.LongLongSeqHolder The Holder forLongLongSeq
.LongSeqHelper The Helper forLongSeqHelper
.LongSeqHolder The Holder forLongSeq
.NamedValue An object used in the DII and DSI to describe arguments and return values.NameValuePair Associates a name with a value that is an attribute of an IDL struct, and is used in theDynStruct
APIs.NameValuePairHelper The Helper forNameValuePair
.NVList A modifiable list containingNamedValue
objects.ObjectHelper ObjectHolder The Holder forObject
.OctetSeqHelper The Helper forOctetSeq
.OctetSeqHolder The Holder forOctetSeq
.ORB A class providing APIs for the CORBA Object Request Broker features.ParameterMode Enumeration of parameter modes for Parameter.ParameterModeHelper Enumeration of parameter modes for Parameter.ParameterModeHolder Enumeration of parameter modes for Parameter.PolicyErrorCodeHelper Encapsulates a reason a Policy may be invalid.PolicyErrorHelper Thrown to indicate problems with parameter values passed to theORB.create_policy
operation.PolicyErrorHolder Thrown to indicate problems with parameter values passed to theORB.create_policy
operation.PolicyHelper The Helper forPolicy
.PolicyHolder The Holder forPolicy
.PolicyListHelper The Helper forPolicyList
.PolicyListHolder The Holder forPolicyList
.PolicyTypeHelper The Helper forPolicyType
.Principal Deprecated. Deprecated by CORBA 2.2.PrincipalHolder Deprecated. Deprecated by CORBA 2.2.RepositoryIdHelper The Helper forRepositoryId
.Request An object containing the information necessary for invoking a method.ServerRequest An object that captures the explicit state of a request for the Dynamic Skeleton Interface (DSI).ServiceDetail An object that represents an ORB service: itsservice_detail_type
field contains the type of the ORB service, and itsservice_detail
field contains a description of the ORB service.ServiceDetailHelper ServiceInformation An IDL struct in the CORBA module that stores information about a CORBA service available in the ORB implementation and is obtained from theORB.get_service_information
method.ServiceInformationHelper ServiceInformationHolder The Holder forServiceInformation
.SetOverrideType The mapping of a CORBAenum
taggingSET_OVERRIDE
andADD_OVERRIDE
, which indicate whether policies should replace the existing policies of anObject
or be added to them.SetOverrideTypeHelper The Helper forSetOverrideType
.ShortHolder The Holder forShort
.ShortSeqHelper The Helper forShortSeqHelper
.ShortSeqHolder The Holder forShortSeq
.StringHolder The Holder forString
.StringSeqHelper An array of StringsStringSeqHolder An array of StringsStringValueHelper The Helper forStringValue
.StructMember Describes a member of an IDLstruct
in the Interface Repository, including the name of thestruct
member, the type of thestruct
member, and the typedef that represents the IDL type of thestruct
member described thestruct
member object.StructMemberHelper The Helper forStructMember
.TCKind The Java mapping of the IDL enumTCKind
, which specifies the kind of aTypeCode
object.TypeCode A container for information about a specific CORBA data type.TypeCodeHolder The Holder forTypeCode
.ULongLongSeqHelper The Helper forULongLongSeq
.ULongLongSeqHolder The Holder forULongLongSeq
.ULongSeqHelper The Helper forULongSeq
.ULongSeqHolder The Holder forULongSeq
.UnionMember A description in the Interface Repository of a member of an IDL union.UnionMemberHelper The Helper forUnionMember
.UnknownUserExceptionHelper The Helper forUnknownUserException
.UnknownUserExceptionHolder The Holder forUnknownUserException
.UShortSeqHelper The Helper forUShortSeq
.UShortSeqHolder The Holder forUShortSeq
.ValueBaseHelper ValueBaseHolder The Holder forValueBase
.ValueMember A description in the Interface Repository of a member of avalue
object.ValueMemberHelper The Helper forValueMember
.VersionSpecHelper The Helper forVersionSpec
.VisibilityHelper The Helper forVisibility
.WCharSeqHelper The Helper forWCharSeq
.WCharSeqHolder The Holder forWCharSeq
.WrongTransactionHelper The Helper forWrongTransaction
.WrongTransactionHolder The Holder forWrongTransaction
.WStringSeqHelper An array of WStringsWStringSeqHolder An array of WStringsWStringValueHelper org/omg/CORBA/WStringValueHelper.java Generated by the IDL-to-Java compiler (portable), version "3.0" from orb.idl 31 May 1999 22:27:30 o'clock GMT+00:00 The class definition has been modified to conform to the following OMG specifications : ORB core as defined by CORBA 2.3.1 (formal/99-10-07) IDL/Java Language Mapping as defined in ptc/00-01-08 -
Exception Summary Exception Description ACTIVITY_COMPLETED TheACTIVITY_COMPLETED
system exception may be raised on any method for which Activity context is accessed.ACTIVITY_REQUIRED TheACTIVITY_REQUIRED
system exception may be raised on any method for which an Activity context is required.BAD_CONTEXT Exception thrown when an operation is invoked by a client but the passed context does not contain the context values required by the operation.BAD_INV_ORDER This exception indicates that the caller has invoked operations in the wrong order.BAD_OPERATION Exception thrown when an object reference denotes an existing object, but that the object does not support the operation that was invoked.BAD_PARAM Exception thrown when a parameter passed to a call is out of range or otherwise considered illegal.BAD_QOS TheBAD_QOS
exception is raised whenever an object cannot support the quality of service required by an invocation parameter that has a quality of service semantics associated with it.BAD_TYPECODE Exception thrown when the ORB has encountered a malformed type code (for example, a type code with an invalidTCKind
value).Bounds A user exception thrown when a parameter is not within the legal bounds for the object that a method is trying to access.CODESET_INCOMPATIBLE This exception is raised whenever meaningful communication is not possible between client and server native code sets.COMM_FAILURE This exception is raised if communication is lost while an operation is in progress, after the request was sent by the client, but before the reply from the server has been returned to the client.DATA_CONVERSION This exception is raised if an ORB cannot convert the representation of data as marshaled into its native representation or vice-versa.FREE_MEM Exception thrown when the ORB failed in an attempt to free dynamic memory, for example because of heap corruption or memory segments being locked.IMP_LIMIT This exception indicates that an implementation limit was exceeded in the ORB run time.INITIALIZE Exception thrown when an ORB has encountered a failure during its initialization, such as failure to acquire networking resources or detecting a configuration error.INTERNAL This exception indicates an internal failure in an ORB, for example, if an ORB has detected corruption of its internal data structures.INTF_REPOS Exception raised when an ORB cannot reach the interface repository, or some other failure relating to the interface repository is detected.INV_FLAG Exception thrown when an invalid flag was passed to an operation (for example, when creating a DII request).INV_IDENT This exception indicates that an IDL identifier is syntactically invalid.INV_OBJREF This exception indicates that an object reference is internally malformed.INV_POLICY Standard exception thrown when an invocation cannot be made because of an incompatibility betweenPolicy
overrides that apply to the particular invocation.INVALID_ACTIVITY TheINVALID_ACTIVITY
system exception may be raised on the Activity or Transaction services' resume methods if a transaction or Activity is resumed in a context different to that from which it was suspended.INVALID_TRANSACTION Exception thrown when the request carried an invalid transaction context.MARSHAL A request or reply from the network is structurally invalid.NO_IMPLEMENT This exception indicates that even though the operation that was invoked exists (it has an IDL definition), no implementation for that operation exists.NO_MEMORY Exception thrown when the ORB run time has run out of memory.NO_PERMISSION Exception thrown when an invocation failed because the caller has insufficient privileges.NO_RESOURCES Exception thrown when the ORB has encountered some general resource limitation.NO_RESPONSE This exception is raised if a client attempts to retrieve the result of a deferred synchronous call, but the response for the request is not yet available.OBJ_ADAPTER This exception typically indicates an administrative mismatch, for example, a server may have made an attempt to register itself with an implementation repository under a name that is already in use, or is unknown to the repository.OBJECT_NOT_EXIST Exception raised whenever an invocation on a deleted object was performed.PERSIST_STORE This exception indicates a persistent storage failure, for example, failure to establish a database connection or corruption of a database.PolicyError A user exception thrown when a policy error occurs.REBIND REBIND
is raised when the current effective RebindPolicy, has a value of NO_REBIND or NO_RECONNECT and an invocation on a bound object reference results in a LocateReply message with status OBJECT_FORWARD or a Reply message with status LOCATION_FORWARD.SystemException The root class for all CORBA standard exceptions.TIMEOUT TIMEOUT
is raised when no delivery has been made and the specified time-to-live period has been exceeded.TRANSACTION_MODE The CORBATRANSACTION_MODE
exception is thrown by the client ORB if it detects a mismatch between the InvocationPolicy in the IOR and the chosen invocation path (i.e, direct or routed invocation).TRANSACTION_REQUIRED Exception indicates that the request carried a null transaction context, but an active transaction is required.TRANSACTION_ROLLEDBACK Exception thrown when the transaction associated with the request has already been rolled back or marked to roll back.TRANSACTION_UNAVAILABLE The CORBATRANSACTION_UNAVAILABLE
exception is thrown by the ORB when it cannot process a transaction service context because its connection to the Transaction Service has been abnormally terminated.TRANSIENT Exception thrown when the ORB attempted to reach an object and failed.UNKNOWN This exception is raised if an operation implementation throws a non-CORBA exception (such as an exception specific to the implementation's programming language), or if an operation raises a user exception that does not appear in the operation's raises expression.UnknownUserException A class that contains user exceptions returned by the server.UserException The root class for CORBA IDL-defined user exceptions.WrongTransaction The CORBAWrongTransaction
user-defined exception.