any
at
runtime, and extraction of the primitive constituents of the data value.See: Description
Interface | Description |
---|---|
DynAny |
Any values can be dynamically interpreted (traversed) and constructed through DynAny objects.
|
DynAnyFactory |
DynAny objects can be created by invoking operations on the DynAnyFactory object.
|
DynAnyFactoryOperations |
DynAny objects can be created by invoking operations on the DynAnyFactory object.
|
DynAnyOperations |
Any values can be dynamically interpreted (traversed) and constructed through DynAny objects.
|
DynArray |
DynArray objects support the manipulation of IDL arrays.
|
DynArrayOperations |
DynArray objects support the manipulation of IDL arrays.
|
DynEnum |
DynEnum objects support the manipulation of IDL enumerated values.
|
DynEnumOperations |
DynEnum objects support the manipulation of IDL enumerated values.
|
DynFixed |
DynFixed objects support the manipulation of IDL fixed values.
|
DynFixedOperations |
DynFixed objects support the manipulation of IDL fixed values.
|
DynSequence |
DynSequence objects support the manipulation of IDL sequences.
|
DynSequenceOperations |
DynSequence objects support the manipulation of IDL sequences.
|
DynStruct |
DynStruct objects support the manipulation of IDL struct and exception values.
|
DynStructOperations |
DynStruct objects support the manipulation of IDL struct and exception values.
|
DynUnion |
DynUnion objects support the manipulation of IDL unions.
|
DynUnionOperations |
DynUnion objects support the manipulation of IDL unions.
|
DynValue |
DynValue objects support the manipulation of IDL non-boxed value types.
|
DynValueBox |
DynValueBox objects support the manipulation of IDL boxed value types.
|
DynValueBoxOperations |
DynValueBox objects support the manipulation of IDL boxed value types.
|
DynValueCommon |
DynValueCommon provides operations supported by both the DynValue and DynValueBox interfaces.
|
DynValueCommonOperations |
DynValueCommon provides operations supported by both the DynValue and DynValueBox interfaces.
|
DynValueOperations |
DynValue objects support the manipulation of IDL non-boxed value types.
|
Class | Description |
---|---|
_DynAnyFactoryStub |
DynAny objects can be created by invoking operations on the DynAnyFactory object.
|
_DynAnyStub |
Any values can be dynamically interpreted (traversed) and constructed through DynAny objects.
|
_DynArrayStub |
DynArray objects support the manipulation of IDL arrays.
|
_DynEnumStub |
DynEnum objects support the manipulation of IDL enumerated values.
|
_DynFixedStub |
DynFixed objects support the manipulation of IDL fixed values.
|
_DynSequenceStub |
DynSequence objects support the manipulation of IDL sequences.
|
_DynStructStub |
DynStruct objects support the manipulation of IDL struct and exception values.
|
_DynUnionStub |
DynUnion objects support the manipulation of IDL unions.
|
_DynValueStub |
DynValue objects support the manipulation of IDL non-boxed value types.
|
AnySeqHelper |
org/omg/DynamicAny/AnySeqHelper.java .
|
DynAnyFactoryHelper |
DynAny objects can be created by invoking operations on the DynAnyFactory object.
|
DynAnyHelper |
Any values can be dynamically interpreted (traversed) and constructed through DynAny objects.
|
DynAnySeqHelper |
org/omg/DynamicAny/DynAnySeqHelper.java .
|
DynArrayHelper |
DynArray objects support the manipulation of IDL arrays.
|
DynEnumHelper |
DynEnum objects support the manipulation of IDL enumerated values.
|
DynFixedHelper |
DynFixed objects support the manipulation of IDL fixed values.
|
DynSequenceHelper |
DynSequence objects support the manipulation of IDL sequences.
|
DynStructHelper |
DynStruct objects support the manipulation of IDL struct and exception values.
|
DynUnionHelper |
DynUnion objects support the manipulation of IDL unions.
|
DynValueHelper |
DynValue objects support the manipulation of IDL non-boxed value types.
|
FieldNameHelper |
org/omg/DynamicAny/FieldNameHelper.java .
|
NameDynAnyPair |
org/omg/DynamicAny/NameDynAnyPair.java .
|
NameDynAnyPairHelper |
org/omg/DynamicAny/NameDynAnyPairHelper.java .
|
NameDynAnyPairSeqHelper |
org/omg/DynamicAny/NameDynAnyPairSeqHelper.java .
|
NameValuePair |
org/omg/DynamicAny/NameValuePair.java .
|
NameValuePairHelper |
org/omg/DynamicAny/NameValuePairHelper.java .
|
NameValuePairSeqHelper |
org/omg/DynamicAny/NameValuePairSeqHelper.java .
|
Provides classes and interfaces that enable traversal of the data value
associated with an any
at
runtime, and extraction of the primitive constituents of the data value.
An any
can be passed to a program that doesn't have any static information
for the type of the any
(code generated for the type by an IDL compiler has not
been compiled with the object implementation). As a result, the object receiving the
any
does not have a portable method of using it.
DynAny
s enable traversal of the data value associated with an
any
at runtime, and extraction of the primitive constituents of the data value.
This is especially helpful for writing powerful generic servers (bridges, event channels
supporting filtering). Similarly, this facility enables the construction of an
any
at runtime, without having static knowledge of its type. This is especially
helpful for writing generic clients (bridges, browsers, debuggers, user interface tools).
Any
values can be dynamically interpreted (traversed) and constructed through
DynAny objects. A DynAny object is associated with a data
value which corresponds to a copy of the value inserted into an Any. A
DynAny object may be viewed as an ordered collection of component
DynAnys. For DynAnys representing a basic type, such as long
,
or a type without components, such as an empty exception, the ordered collection of
components is empty.
Each DynAny object maintains the notion of a current position into its collection
of component DynAnys. The current position is identified by an index value that runs
from 0 to n-1, where n is the number of components. The special index value -1
indicates a current position that points nowhere.
For values that cannot have a current position (such as an empty exception),
the index value is fixed at -1.
If a DynAny
is initialized with a value that has components, the index is
initialized to 0.
After creation of an uninitialized DynAny
(that is, a DynAny
that
has no value but a TypeCode
that permits components), the current position depends on the type of value represented by
the DynAny
. (The current position is set to 0 or -1, depending on whether the
new DynAny
gets default values for its components.)
The iteration operations rewind
, seek
, and next
can be used to change the current position
and the current_component
operation returns the component at the current
position.
The component_count
operation returns the number of components of a
DynAny
.
Collectively, these operations enable iteration over the components of a
DynAny
, for example,
to (recursively) examine its contents.
A constructed DynAny
object is a DynAny
object associated with
a constructed type.
There is a different interface, inheriting from the DynAny
interface,
associated with
each kind of constructed type in IDL (fixed, enum, struct, sequence, union, array,
exception, and value type). A constructed DynAny
object exports operations
that enable the creation of new DynAny
objects,
each of them associated with a component of the constructed data value.
As an example, a DynStruct
is associated with a struct
value. This
means that the DynStruct
may be seen as owning an ordered collection of components, one for each structure member.
The DynStruct
object exports operations that enable the creation of new
DynAny
objects,
each of them associated with a member of the struct
.
If a DynAny
object has been obtained from another (constructed)
DynAny
object,
such as a DynAny
representing a structure member that was created from a
DynStruct
,
the member DynAny
is logically contained in the DynStruct
.
Calling an insert
or get
operation leaves the current position
unchanged.
Destroying a top-level DynAny
object (one that was not obtained as a component
of another DynAny
)
also destroys any component DynAny
objects obtained from it.
Destroying a non-top level DynAny
object does nothing.
Invoking operations on a destroyed top-level DynAny
or any of its descendants
raises OBJECT_NOT_EXIST.
If the programmer wants to destroy a DynAny
object but still wants to
manipulate some component
of the data value associated with it, then he or she should first create a
DynAny
for the component
and, after that, make a copy of the created DynAny
object.
The behavior of DynAny
objects has been defined in order to enable efficient
implementations
in terms of allocated memory space and speed of access. DynAny
objects are
intended to be used
for traversing values extracted from any
s or constructing values of
any
s at runtime.
Their use for other purposes is not recommended.
Insert
and get
operations are necessary to handle basic
DynAny
objects
but are also helpful to handle constructed DynAny
objects.
Inserting a basic data type value into a constructed DynAny
object
implies initializing the current component of the constructed data value
associated with the DynAny
object. For example, invoking
insert_boolean
on a
DynStruct
implies inserting a boolean
data value at the current
position
of the associated struct
data value.
A type is consistent for inserting or extracting a value if its TypeCode
is
equivalent to
the TypeCode
contained in the DynAny
or, if the
DynAny
has components, is equivalent to the TypeCode
of the DynAny
at the current position.
Basic operations include:
DynAny
and DynAnyFactory
objects are intended to be local to
the process in which they are
created and used. This means that references to DynAny
and
DynAnyFactory
objects cannot be exported
to other processes, or externalized with ORB.object_to_string()
.
If any attempt is made to do so, the offending operation will raise a MARSHAL system
exception.
Since their interfaces are specified in IDL, DynAny
objects export operations
defined in the standard
org.omg.CORBA.Object
interface. However, any attempt to invoke operations
exported through the Object
interface may raise the standard NO_IMPLEMENT exception.
An attempt to use a DynAny
object with the DII may raise the NO_IMPLEMENT
exception.
For a precise list of supported sections of official specifications with which the Java[tm] Platform, Standard Edition 6 ORB complies, see Official Specifications for CORBA support in Java[tm] SE 6.
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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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