Creates an instance of a class (object) whose
class type is specified by a run-time expression, and assigns its
object reference to an appropriately defined ABL data element. Once
assigned, you can use the object reference to access this class
instance and its PUBLIC data members, properties, and methods. For
more information on object references, see the reference entry for
a Class-based object reference.
Syntax
object-reference = DYNAMIC-NEW expression
( [ parameter [ , parameter ]... ] ) [ NO-ERROR ]
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-
object-reference
- The name of an ABL data element to which you want to assign the object reference of a
new instance of the class specified by expression. This data element
must be defined as a compatible class or interface type, and can be one of the following:
To be compatible, the data type of object-reference must
be:
- The same class as the class specified by expression
- A super class of the class specified by expression
- An interface that is implemented by the class specified by
expression
-
expression
- A character expression that evaluates to a fully qualified class type name for the ABL
or .NET class you want to instantiate. This expression must specify a class type name as
described in the Type-name syntax reference entry,
except that you must always specify the complete type name; any present USING statement
has no effect. If no package (or namespace for a .NET class) is specified, the class
name must represent the complete type name.
This expression cannot evaluate
to:
- An ABL built-in class type name, such as Progress.Lang.Object
- The type name of an interface or abstract class
- ( [
parameter
[ , parameter
]...
] )
- Specifies zero or more parameters passed to a PUBLIC instance constructor
that is defined for the class. You must provide the parameters identified
by the specified constructor, matched with respect to number, data
type, and mode.
For information on the parameter passing syntax,
see the Parameter passing syntax reference entry.
For information on defining
a constructor for a class, see the CONSTRUCTOR statement reference entry.
- NO-ERROR
- Suppresses ABL errors or error messages that would otherwise
occur and diverts them to the ERROR-STATUS system handle. If an error occurs, the action of the statement
is not done and execution continues with the next statement. If
the statement fails, any persistent side-effects of the statement
are backed out. If the statement includes an expression that contains
other executable elements, like methods, the work performed by these
elements may or may not be done, depending on the order the AVM
resolves the expression elements and the occurrence of the error.
For
the DYNAMIC-NEW statement with NO-ERROR, if ERROR is raised, then
the object-reference remains unchanged. If a RETURN statement or
an UNDO statement with
the THROW or RETURN ERROR options in a constructor raises ERROR
and also returns an error string, you can obtain this string value
after the assignment statement completes using the RETURN-VALUE function.
To
check for errors after a statement that uses the NO-ERROR option:
- Check the ERROR-STATUS:ERROR attribute to see if the AVM raised
the ERROR condition.
- Check if the ERROR-STATUS:NUM-MESSAGES attribute is greater than
zero to see if the AVM generated error messages. ABL handle methods
used in a block without a CATCH end block treat errors as
warnings and do not raise ERROR, do not set the ERROR-STATUS:ERROR
attribute, but do add messages to the ERROR-STATUS system handle.
Therefore, this test is the better test for code using handle methods
without CATCH end blocks. ABL handle methods used in a block with a
CATCH end block raise ERROR and add messages to the error object
generated by the AVM. In this case, the AVM does not update the
ERROR-STATUS system handle.
- Use ERROR-STATUS:GET-MESSAGE( message-num )
to retrieve a particular message, where message-num is
1 for the first message.
If the statement does not include
the NO-ERROR option, you can use a CATCH end block to handle errors
raised by the statement.
Some other important usage notes
on the NO-ERROR option:
- NO-ERROR does not suppress errors
that raise the STOP or QUIT condition.
- A CATCH statement, which introduces a CATCH end block, is analogous
to a NO-ERROR option in that it also suppresses errors, but it does so
for an entire block of code. It is different in that the error messages
are contained in a class-based error object (generated by the AVM
or explicitly thrown), as opposed to the ERROR-STATUS system handle.
Also, if errors raised in the block are not handled by a compatible
CATCH block, ON ERROR phrase, or UNDO statement, then the error
is not suppressed, but handled with the default error processing
for that block type.
- When a statement contains the NO-ERROR option and resides in
a block with a CATCH end block, the NO-ERROR option takes precedence over
the CATCH block. That is, an error raised on the statement with
the NO-ERROR option will not be handled by a compatible CATCH end block.
The error is redirected to the ERROR-STATUS system handle as normal.
- If an error object is thrown to a statement that includes the NO-ERROR
option, then the information and messages in the error object will
be used to set the ERROR-STATUS system handle. This interoperability
feature is important for those integrating code that uses the traditional
NO-ERROR technique with the newer, structured error handling that
features error objects and CATCH end blocks.
Example
The
following contrived (non-compiling) procedure fragment shows the instantiation
of a new class type specified with a variable:
/* Can be set to a subclass type name */
DEFINE INPUT PARAMETER myBusObjParm AS CHARACTER NO-UNDO.
/* Procedure only knows about the base class */
DEFINE VARIABLE myBusObj AS CLASS acme.myObjs.BusObj NO-UNDO.
myBusObj = DYNAMIC-NEW myBusObjParm ( ). /* Create the passed subclass */
myBusObj:getData( ). /* Invoke base class method
polymorphically on subclass */
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In this case, the procedure assumes that it
is operating on a class, acme.myObjs.BusObj, that
is the base class for several subclasses, each of which implements
the same set of operations for its own purposes, such as the getData( ) method
shown. When the procedure is called, its INPUT parameter is passed
a character string that evaluates to a subclass type name, such
as "acme.myObjs.CustObj", which it then uses to instantiate
a class of that type using the DYNAMIC-NEW statement. Thus, the same
procedure can be called to instantiate and operate on different
subclasses of the same base class, as determined by run-time conditions.
Notes
- Unlike
NEW, you cannot use DYNAMIC-NEW as a function in an expression.
You can use it only as a statement.
- After the assignment, object-reference contains a
copy of the object reference value returned by DYNAMIC-NEW, which points
to the same object instance, not a copy of the object created by DYNAMIC-NEW.
- Although you can assign an object reference to a temp-table
field defined as a Progress.Lang.Object class type, you cannot assign an object reference to
a field in a database table. For more information, see OpenEdge
Development: Object-oriented Programming.
- The ABL Virtual Machine (AVM) automatically deletes (garbage collects)
any class instance that you create with this statement some time after
no reference to that object exists in the ABL session. However,
you can force any class instance to be deleted immediately by using
the DELETE OBJECT statement. For more information on garbage collection for
class instances, see the DELETE OBJECT statement reference entry.
- If expression specifies a .NET object,
note that in ABL you cannot instantiate the following .NET classes:
- Any .NET class that is defined in the default namespace, that
is, where the class name is the complete object type name
- System.Threading.Thread or any class derived
from it
- System.Delegate or any delegate type derived
from it
- If expression specifies a GUI or non-GUI .NET object
type, you can instantiate it within a non-GUI ABL session on
Windows, including a:
- Character mode (CHUI) client
- Batch-mode client
- AppServer agent session
- WebSpeed agent session
However, you cannot block
for any .NET object events or visualize any GUI objects in
a non-GUI ABL session.
- This statement can raise errors during the execution of constructors for
the class being instantiated, or for any class in its inherited
class hierarchy. For example:
- A constructor in the class
hierarchy executes the RETURN statement with
the ERROR option or the UNDO statement with
the THROW or RETURN ERROR options.
- The class definition file for the class, a super class, or an
interface could not be found.
- The run-time parameters of the constructor for the class, or
a constructor for a class in the inherited class hierarchy, are
not compatible.
When the AVM encounters one of these
errors, and the constructor cannot create the class instance or
its inherited class hierarchy, the AVM automatically invokes the
destructor for any class that has already been constructed while
building the class hierarchy for the object.
For more information
on errors raised by instantiating classes, see OpenEdge Development:
Object-oriented Programming.
- The New( ) method of the Progress.Lang.Class class
provides similar functionality to the DYNAMIC-NEW function. The
advantage to the latter is that it has a fixed, compile-time parameter
list and does not require the creation of a Progress.Lang.ParameterList object
at run time.
See also
Assignment (=) statement, Class-based object reference, CLASS statement, DYNAMIC-CAST function, DYNAMIC-INVOKE function, Invoke( ) method (Class), NEW function (classes), New( ) method, NEW statement, Parameter passing syntax, Progress.Lang.ParameterList class
