class-type-name object-reference :method-name ( parameter , parameter ) NO-ERRORThe 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.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.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.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.
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.
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.
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.
For more information on these methods and the sample classes in which they are defined, see the examples in the CLASS statement reference entry.
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.
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.
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.
© 2013 Progress Software Corporation and/or its subsidiaries or affiliates. |