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A summary of OO Priciples

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25 Oct 20047 min read 103.3K   42   25
This article is a very brief collection of OO-rules that can guide us in writing well designed code

Introduction

OO Design is more than just using an OO language. Over the years many bright programmers have built up a collection of rules that help to build well designed maintainable code. This article lists the main rules of OO programming. The intention is to inspire the reader to think about these rules and make further reading. There is a lot of material on the web that drills down into more details with plenty of examples.

Ivar Jacabson said ”All systems change during their life cycles. This must be borne in mind when developing systems expected to last longer than the first version”. In other words software requirements change with time. The goal of Object Orientated Design is to program in such a way that such changes to the software are predictable and do not make a large impact in the program. In other words it should be stable in the presence of change

Bad design is characterized by

  • A single change affects many other parts of the system (Rigidity)
  • A single change affects unexpected parts of the system (Fragility)
  • It is hard to reuse in another application (Immobility)

The Dependency Inversion Principle DIP

Imagine you have a simple database program. You don’t want to change the entire application when changing the database. This principle is targeted at removing such unwanted interdependency that can cause a design to be fragile. The rule states

  • High level modules should not depend upon low level modules. Both should depend upon abstractions
  • Abstractions should not depend upon details. Details should depend upon abstractions

Booch said “All well structured object orientated architectures have clearly-defined layers with each layer providing some coherent set of services through a well defined and controlled interface.”

In other words design applications in layers where high level layers call lower level layers using Abstract interfaces. To conform to the principle of dependency inversion, we must isolate abstraction from the details of the problem. Then we must direct the dependencies of the design upon the abstractions.

Good dependencies are extremely unlikely to change. In other words they are stable. We would like to base our architectural design around stable, non-volatile modules.

The Open-Close Principle OCP

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

In other words design classes that never change. When a new requirements come add new code and don’t edit existing code. It is not possible to close against all possible changes. Therefore an experienced developer needs to understand the possible future wishes of users in order to make Strategic Closure. There are two ways of closure:

  • Using Abstraction to gain explicit closure - This means the programmer applies abstraction to those parts of the programmer the designer feels are subject to change.
  • Using Data Driven Approach to achieve closure

Liskov Substitution Principle LSP

Every function that operates upon a reference or pointer to a base class should be able to operate on derivatives of that base class without knowing it. This means that virtual member functions of the derived class must expect only all the corresponding member functions of the base class. In other words any function that uses a base class must not be confused when a derived class is substituted for the base class

This is a difficult principle to apply. To conform avoid overwriting base class functions because this involves programming with details, instead try to program in abstractions

If this is violated then functions that operate on the pointers must first check the type of the actual object in order to work correctly.

Heuristics and Conventions

Make all member variables Private: Otherwise no function that calls the class can be closed to change. For example a status variable can change from Boolean to an enumeration, if this is not handled as a property then we cannot close status. This is called encapsulation.

No Global Variables. Because misbehaving modules may write erroneous data to such global variables whose effect can be felt in many places throughout the program. Sometimes Global variables are useful e.g. cout and cin in c++. If they do not violate the open close principle then sometimes they are worth the style violation

Stability Dependencies Principle SDP

The dependencies between packages in a design should be in the direction of stability of the packages. A package should only depend upon packages that are more stable than it is.

Some volatility is necessary if the design is to be maintained. This is achieved by using the Common Closure Principle, in this way we design packages to be volatile and we expect them to change. Any package that we expect to be volatile should not be depended upon by a package that is difficult to change.

Some things we don’t want to change. For example architectural decisions should be stable and not at all volatile. Therefore classes that encapsulate the high level design should be stable.

The stable Abstractions Principle SAP

Packages that are maximally stable should be maximally abstract. Instable packages should be concrete. The abstraction of a package should be in proportion to it's stability

Common Reuse Principle CRP

If you reuse one class of a package, you reuse them all. This because any package delivered contains a released set of classes, therefore a change in any class means a new release of the entire package.

The Reuse / Release Equivalence Principle REP

The granule of reuse is the granule of release. Only components that are released through a tracking system can be effectively reused. This principle is important when there are several teams working on an application. To avoid one team disrupting another all packages used are tested and released. In this way the introduction of modified packages is in a controlled way.

The Common Closure Principle CCP

The classes in a package should be closed together against the same kinds of changes. Any change in a package affects all classes in the package. Just like a well organized team has a common goal because they all have to work together. This principle means that you should have a common strategic closure concept used through all classes in a package because they have to be released all together.

The stability Dependencies Principle SDP

The dependencies between packages in a design should be in the direction of stability of the packages. A package should only depend upon packages that are more stable than it is.

Designs that are highly interdependent tend to be rigid, not reusable and hard to maintain

The Acyclic Dependencies Principle (ADP)

The dependency structure between package must be a Direct Acyclic Graph (DAG). This means that if you plot out all packages it should be possible to arrange the dependencies to always point from top to bottom. Also it should not be possible to follow any lines of dependence and end up back at the same package. Because such packages would have to be released all at the same time defeating the object of having them as separate packages

The Interface Segregation Principle ISP

Clients should not be forced to depend upon interfaces that they don’t use.

This principle deals with the disadvantages of fat interfaces. Fat interfaces are not cohesive. In other words the interfaces of classes should be broken into groups of member functions. Each groups servers a different set of clients. Separation can be achieved by:

  • Separation through Delegation
  • Separation through multiple inheritance

If this principle is violated then there is a coupling between all clients

Polyad vs Monad

Monad is when properties are grouped into 1 single object that is then passed in a function parameter. Unfortunately this brings a dependency across all properties in that single object. Therefore its better to pass smaller objects (Polyad), in this way the dependencies are broken into smaller groups.

Interface Pollution

As we build up classes there is a tendency for us to add functionality that is specific for a particular implementation. In this way the interface gets populated by functions and properties that are not required if the class was in a different context, thus making the interface fat. In this way this violates the Liskov Substitution principle. Separate Clients means separate interfaces

There is a backward force applied by clients upon interfaces. For example a user may wish to add a trivial extra function that cannot be exactly positioned in existing interfaces.

License

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Written By
Software Developer (Senior)
Switzerland Switzerland
I am a Software Engineer currently working in a Re Insurance company.

Comments and Discussions

 
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Vivi Chellappa4-Nov-04 0:20
professionalVivi Chellappa4-Nov-04 0:20 
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Vivi Chellappa27-Oct-04 3:25
professionalVivi Chellappa27-Oct-04 3:25 
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Nigel-Findlater27-Oct-04 22:21
Nigel-Findlater27-Oct-04 22:21 
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Nigel-Findlater26-Oct-04 20:05
Nigel-Findlater26-Oct-04 20:05 
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David Pritchard3-Nov-04 7:31
David Pritchard3-Nov-04 7:31 
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Malicious Demon6-Nov-04 23:29
Malicious Demon6-Nov-04 23:29 
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Vivi Chellappa7-Nov-04 1:45
professionalVivi Chellappa7-Nov-04 1:45 
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Malicious Demon7-Nov-04 2:13
Malicious Demon7-Nov-04 2:13 
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Chris Keeble8-Nov-04 2:16
Chris Keeble8-Nov-04 2:16 
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Vivi Chellappa8-Nov-04 23:00
professionalVivi Chellappa8-Nov-04 23:00 
General[Message Deleted] Pin
Chris Keeble9-Nov-04 1:01
Chris Keeble9-Nov-04 1:01 
GeneralRe: So what does all this buy us? Pin
Vivi Chellappa9-Nov-04 3:38
professionalVivi Chellappa9-Nov-04 3:38 
GeneralRe: So what does all this buy us? Pin
Nigel-Findlater9-Nov-04 4:30
Nigel-Findlater9-Nov-04 4:30 
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Vivi Chellappa9-Nov-04 12:17
professionalVivi Chellappa9-Nov-04 12:17 
GeneralNice Summary Pin
Tomaž Štih25-Oct-04 21:37
Tomaž Štih25-Oct-04 21:37 

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