Invokes a method of a class. If the method
returns a value, the method call can appear anywhere that an expression
can appear, and it can also appear as a single statement, ignoring
the return value. If the method is VOID (does not return a value),
the method call must appear as a single statement.
Syntax
[ { class-type-name | object-reference } : ]
method-name ( [ parameter [ , parameter ] ... ] ) [ NO-ERROR ]
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-
class-type-name
- The name of an ABL or .NET class type that defines the
specified method as a static member. The use of class-type-name to
call a static method is optional when you call the method from within
the class hierarchy where it is defined. For more information, see
the notes for this reference entry. You cannot use class-type-name to
call an instance method. For more information on specifying class
(object) type names, see the Type-name syntax reference
entry. You can use the unqualified class name with the presence
of an appropriate USING statement.
-
object-reference
- Specifies a reference to an ABL or .NET class instance
(an object) that defines the specified method as an instance member.
The use of object-reference to call an instance
method is optional when you call the method from within the class
hierarchy where it is defined. For more information, see the notes
for this reference entry. You cannot use object-reference to
call a static method. For information on specifying object references,
see the reference entry for a Class-based object reference.
-
method-name
- Specifies the name of an ABL or .NET class method you
want to call. A class method is a named block of ABL or .NET code,
similar to a procedure or user-defined function, that is defined
in a class. An instance method is available for an instance of the
class for as long as the class instance exists. A static method
is available for the defining class type during the entire ABL session,
regardless if an instance of the class exists. A class method is
available inside or outside of the class hierarchy depending on
its access mode.
- ( [ parameter
[ , parameter ] ... ] )
- Specifies zero or more parameters passed to the method. You
must provide the parameters identified by the specified method,
matched with respect to number, data type, and mode. To invoke a
method that is overloaded in the class, you must specify sufficient
information for each parameter in order to disambiguate
methods that have similar parameter lists. Otherwise, the AVM raises
an error identifying the ambiguity.
For more information on parameter
passing syntax and on disambiguating overloaded ABL and .NET methods,
see the Parameter passing syntax 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.
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.
- To access more comprehensive error information for a .NET exception,
use a CATCH end block instead of the NO-ERROR option. For more information
on handling .NET exceptions, see the sections on .NET error handling
in OpenEdge Development: GUI for .NET Programming.
Examples
The
following code fragment shows a call to a public instance method (SetHighCustomerData( ))
on an instance of the sample class, r-CustObj:
DEFINE VARIABLE rObj AS CLASS r-CustObj NO-UNDO.
rObj = NEW r-CustObj( ) NO-ERROR.
rObj:SetHighCustomerData( ) NO-ERROR.
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This instance method initializes instance data
for the class.
The following code fragment shows a call to
a public static method (SetHighCustomerData( ))
on the sample class type, r-CustObjStatic:
r-CustObjStatic:SetHighCustomerData( ) NO-ERROR.
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This static method initializes class static
data without having to instantiate the class, as in the previous
instance code.
For more information on these methods and the
sample classes in which they are defined, see the examples in the CLASS statement reference
entry.
Notes
- Using
the appropriate syntax, you can invoke the method as a statement
(without returning a value) or invoke the method in an expression
that uses the defined return value according to its data type. For
information on ABL methods and their definition, see the METHOD statement reference
entry. For information on the definition of a .NET method,
see its entry in the Microsoft .NET, Infragistics, or other
class library that defines it. For information on how .NET data types
map to ABL data types, see the Data types reference
entry.
- If the method is defined as static, you can call the method
whether or not an instance of its defining class exists.
- If you reference an available method within a static constructor,
static method, or static property accessor that is defined in the
same class or class hierarchy as the referenced method, the referenced
method must also be defined as static; attempting to directly reference
an instance method that is defined in the same class or class hierarchy
as the referencing static member raises a compile-time error.
- In ABL, all private and protected methods are class based. A
method marked as PRIVATE can be accessed from any instance of the
class that defines it. Likewise, a PROTECTED method can be accessed
from any instance of the defining class or subclass. In other words,
an instance can access the PROTECTED method of a second instance
of a class at the same level or higher in the class hierarchy.
- From within an ABL class definition, you can typically invoke any instance method that
is defined and available within the class hierarchy by referencing its
method-name and any parameter list without a qualifying
object-reference. However, if the method name is a reserved keyword,
you must call the method using THIS-OBJECT as the object-reference. If
the instance method is defined as an OVERRIDE method, you can invoke the method
implementation that it overrides in the most derived class where it is defined using SUPER
as the object-reference. For more information, see the reference entry
for the SUPER system reference.
- From within a class definition, you can typically invoke any
static method that is defined and available within the class hierarchy
by referencing its method-name and any parameter
list without a qualifying class-type-name. However,
if the method name is a reserved keyword, you must call the method
using the qualifying class-type-name, even if
the method is called from within the class that defines it. If the
static method is defined as an OVERRIDE (redefining) method, you
can invoke any static method implementation in the class hierarchy
that it redefines by using the qualifying class-type-name of
the class that defines the particular method implementation you
want to call.
- From outside a class hierarchy, you can only invoke an available instance
method by referencing its method-name and its
parameters qualified by an object-reference to
the class instance where the method is defined; you can only invoke
an available static method by referencing its method-name and
its parameters qualified by the class-type-name of
the class that defines the method as static. The only methods defined
within a class hierarchy that are available outside the hierarchy
are methods defined as PUBLIC.
- You can call an abstract method either from within the class
that defines it or on an object-reference defined
as the type of the abstract class that defines it. Although an abstract
method is defined without an implementation, at run time, the method
is always implemented in a derived class. So, any reference to an
abstract method is always resolved by the most derived class that
implements it.
- ABL has the following limitations on the .NET methods
you can call:
- You cannot call the static method, System.Windows.Forms.Application:DoEvent( ).
In ABL, you can use the PROCESS EVENTS statement to handle both ABL and .NET events.
- You cannot call the static method, System.Windows.Forms.Application:Run( ),
outside of a WAIT-FOR statement. For more information, see the WAIT-FOR statement (.NET and ABL) reference entry.
- You cannot call the instance method, System.Windows.Forms.Form:ShowDialog( ),
outside of a WAIT-FOR statement. For more information, see the WAIT-FOR statement (.NET and ABL) reference entry.
- You cannot call a .NET generic method. Similar to a .NET generic
type, a .NET generic method has a name that is appended with
a comma-separated list of one or more type parameters enclosed in
angle brackets, for example, Add<T, S>(tVar, sVar).
In this case, you would substitute .NET data types for the
parameters T and S when you called
the method. ABL does not currently support any reference to these
methods. For more information on ABL support for .NET generic
types, see the Data types reference entry.
