CSC/ECE 517 Fall 2012/ch2b 2w69 as: Difference between revisions

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== Description ==
== Description ==
Every module obeying open-closed principle have the following key attributes:
* They are “Open For Extension”.
This means that the behavior of the module can be extended. That we can make the module behave in new and different ways as the requirements of the application change, or to meet the needs of new applications.
*They are “Closed for Modification”.
The source code of such a module is inviolate. No one is allowed to make source code changes to it.


== Example ==
== Example ==

Revision as of 18:42, 18 November 2012

The Open/Closed principle

Introduction

In object-oriented programming the Open/Closed principle states<ref name = meyer />,

Software entities (Classes, Modules, Functions, etc.) should be open for extension, but closed for modification.

It sounds like a contradiction in terms, but it's not. All it means is that you should structure an application so that you can add new functionality with minimal modification to existing code. All systems change during their life cycles. One should keep this in mind when designing systems that are expected to last longer than the initial version. What you want to avoid is to have one simple change ripple through the various classes of your application. That makes the system fragile, prone to regression problems, and expensive to extend. To isolate the changes, you want to write classes and methods in such a way that they never need to change once they are written<ref name = microsoft />.

Open/Closed principle is one of the five principles basic of object-oriented design(OOD) which are defined as the S.O.L.I.D.. The principles of SOLID are guidelines that can be applied while working on software to remove code smells by causing the programmer to refactor the software's source code until it is both legible and extensible. It is typically used with test-driven development, and is part of an overall strategy of agile and adaptive programming<ref name = openclosed_video />.

Motivation

All software systems are subject to change. Thus designing a system which is stable is a very crucial task. When a single change to a program results in a cascade of changes to dependent modules, that program exhibits the undesirable attributes that we have come to associate with “bad” design. The program becomes fragile, rigid, unpredictable and unreusable. The open-closed principle attacks this in a very straightforward way. Open-closed principle states that the code should be designed in such a way that it should not change. Whenever requirements change, the existing code should be extended by adding new code and leave the old working code intact.

Most of the times it easier to write all new code rather thank making changes to existing code. Modifying old code adds the risk of breaking existing functionality. With new code you generally only have to test the new functionality. When you modify old code you have to both test your changes and then perform a set of regression tests to make sure you did not break any of the existing code.

The Open Close Principle states that the design and writing of the code should be done in a way that new functionality should be added with minimum changes in the existing code. The design should be done in a way to allow the adding of new functionality as new classes, keeping as much as possible existing code unchanged. Thus following open-closed principle leads to good software design.

Description

Every module obeying open-closed principle have the following key attributes:

  • They are “Open For Extension”.

This means that the behavior of the module can be extended. That we can make the module behave in new and different ways as the requirements of the application change, or to meet the needs of new applications.

  • They are “Closed for Modification”.

The source code of such a module is inviolate. No one is allowed to make source code changes to it.

Example

Suppose you are writing a module to approve personal loans and before doing that you want to validate the personal information, code wise we can depict the situation as:

public class LoanApprovalHandler
{
  public void approveLoan(PersonalValidator validator)
{ if ( validator.isValid()) { //Process the loan. } } } public class PersonalLoanValidator { public boolean isValid() { //Validation logic } }

So far so good. As we have already discussed, the requirements always change and now we are required to approve vehicle loans as well. So one approach to solve this requirement is to:

public class LoanApprovalHandler
{
 public void approvePersonalLoan (PersonalLoanValidator validator)
 {
   if ( validator.isValid())
   {
     //Process the loan.
   }
 }
 public void approveVehicleLoan (VehicleLoanValidator validator )
 {
   if ( validator.isValid())
   {
     //Process the loan.
   }
 }
 // Method for approving other loans.
}
public class PersonalLoanValidator
{
 public boolean isValid()
 {
   //Validation logic
 }
}
public class VehicleLoanValidator
{
 public boolean isValid()
 {
   //Validation logic
 }
}

We have edited the existing class to accommodate the new requirement and in the process we ended up changing the name of the existing method and also adding new methods for different types of loan approval. This clearly violates the Open/Closed principle. Lets try to implement the requirement in a different way

/**
* Interface Validator class Extended to add different validators for different loan type
*/
public interface Validator
{
 public boolean isValid();
}
/**
* Personal loan validator
*/
public class PersonalLoanValidator
 implements Validator
{
 public boolean isValid()
 {
   //Validation logic.
 }
}
/**
* Vehicle loan validator
*/
public class VehicleLoanValidator
 implements Validator
{
 public boolean isValid()
 {
   //Validation logic.
 }
}
/*
* Similarly any new type of validation can
* be accommodated by creating a new subclass
* of Validator
*/

Now using the above validators we can write a LoanApprovalHandler to use the Validator abstraction.

public class LoanApprovalHandler
{
 public void approveLoan(Validator validator)
 {
   if ( validator.isValid())
   {
     //Process the loan.
   }
 }
}

So to accommodate any type of loan validators we would just have create a subclass of Validator and then pass it to the approveLoan method. That way the class is CLOSED for modification but OPEN for extension.

Conclusion

In reality, achieving Open/Closed principle-compliance system-wide is not possible. There will always exist some change that the system is not closed against. Therefore, this principle must be applied judiciously to the areas of the system that are most complex and dynamic. Even partial Open Closed principle compliance results in more resilient systems. Isolating violations of Open Closed principles to specific classes, such as object factories, certainly serves to reduce the overall maintenance efforts.<ref name = journal/>

This principle is at the heart of object oriented design in many ways, it motivated many heuristics associated with object oriented design<ref name = pdf/>. For example, “all member variables should be private”, or “global variables should be avoided”. Conformance to this principle yields some of the great benefits such as the application will be more robust because we are not changing already tested code, flexible because we can easily accommodate new requirements. Yet conformance to this principle is not achieved simply by using an object oriented programming language. Rather, it requires a dedication on the part of the designer to apply abstraction to those parts of the program that the designer feels are going to be subject to change.

See Also

Below are some of the patterns and principles that are used to structure code to isolate changes.

References

<references> <ref name = meyer> Meyer, Bertrand (1988). Object-Oriented Software Construction. Prentice Hall. ISBN 0-13-629049-3. </ref> <ref name = pdf> Martin, R.C. (2000). "Design Principles and Design Patterns." http://www.objectmentor.com </ref> <ref name = microsoft> http://msdn.microsoft.com/en-us/magazine/cc546578.aspx Patterns in Practice: The Open Closed Principle </ref> <ref name = openclosed_video> http://ruby-toolbox.com/categories/testing_frameworks.html </ref> <ref name = journal> http://www2.sys-con.com/ITSG/VirtualCD_Spring05/Java/archives/0702/knoernschild/index.html </ref> </references>