PowerBuilder provides full support for inheritance, encapsulation, and polymorphism in both visual and nonvisual objects.
Creating reusable objects
In most cases, the person developing reusable objects is not the same person using the objects in applications. This discussion describes defining and creating reusable objects. It does not address usage.
PowerBuilder makes it easy to create descendant objects. You implement inheritance in PowerBuilder by using a painter to inherit from a specified ancestor object.
For examples of inheritance in visual objects, see the w_employee window and u_employee_object in the Code Examples sample application.
Example of ancestor service object
One example of using inheritance in custom class user objects is creating an ancestor service object that performs basic services and several descendant service objects. These descendant objects perform specialized services, as well as having access to the ancestor's services:
Figure: Ancestor service object
Example of virtual function in ancestor object
Another example of using inheritance in custom class user objects is creating an ancestor object containing functions for all platforms and then creating descendant objects that perform platform-specific functions. In this case, the ancestor object contains a virtual function (uf_change_dir in this example) so that developers can create descendant objects using the ancestor's datatype.
Figure: Virtual function in ancestor object
For more on virtual functions, see Other techniques.
Encapsulation allows you to insulate your object's data, restricting access by declaring instance variables as private or protected. You then write object functions to provide selective access to the instance variables.
One approach
One approach to encapsulating processing and data is as follows:
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Define instance variables as public, private, or protected, depending on the desired degree of outside access. To ensure complete encapsulation, define instance variables as either private or protected.
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Define object functions to perform processing and provide access to the object's data.
To do this
Provide this function
Example
Perform processing
uf_do_operation
uf_do_retrieve (which retrieves rows from the database)
Modify instance variables
uf_set_variablename
uf_set_style (which modifies the is_style string variable)
Read instance variables
uf_get_variablename
uf_get_style (which returns the is_style string variable)
(Optional) Read boolean instance variables
uf_is_variablename
uf_is_protected (which returns the ib_protected boolean variable)
Another approach
Another approach to encapsulating processing and data is to provide a single entry point, in which the developer specifies the action to be performed:
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Define instance variables as private or protected, depending on the desired degree of outside access
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Define private or protected object functions to perform processing
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Define a single public function whose arguments indicate the type of processing to perform
Figure: Defining a public function for encapsulation
For an example, see the uo_sales_order user object in the Code Examples sample application.
Polymorphism refers to a programming language's ability to process objects differently depending on their datatype or class. Polymorphism means that functions with the same name behave differently depending on the referenced object. Although there is some discussion over an exact definition for polymorphism, many people find it helpful to think of it as follows:
Operational polymorphism
Separate, unrelated objects define functions with the same name. Each function performs the appropriate processing for its object type:
Figure: Operational polymorphism
For an example, see the u_external_functions user object and its descendants in the Code Examples sample application.
Inclusional polymorphism
Various objects in an inheritance chain define functions with the same name.
With inclusional polymorphism PowerBuilder determines which version of a function to execute, based on where the current object fits in the inheritance hierarchy. When the object is a descendant, PowerBuilder executes the descendant version of the function, overriding the ancestor version:
Figure: Inclusional polymorphism
For an example, see the u_employee_object user object in the Code Examples sample application.