Can any one describe the exact difference between loose coupling and tight coupling in Object oriented paradigm?
Tight coupling is when a group of classes are highly dependent on one another.
This scenario arises when a class assumes too many responsibilities, or when one concern is spread over many classes rather than having its own class.
Loose coupling is achieved by means of a design that promotes single-responsibility and separation of concerns.
A loosely-coupled class can be consumed and tested independently of other (concrete) classes.
Interfaces are a powerful tool to use for decoupling. Classes can communicate through interfaces rather than other concrete classes, and any class can be on the other end of that communication simply by implementing the interface.
Example of tight coupling:
Example of loose coupling:
Another example here.
In object oriented design, the amount of coupling refers to how much the design of one class depends on the design of another class. In other words, how often do changes in class A force related changes in class B? Tight coupling means the two classes often change together, loose coupling means they are mostly independent. In general, loose coupling is recommended because it's easier to test and maintain.
You may find this paper by Martin Fowler (PDF) helpful.
In general Tight Coupling is bad in but most of the time, because it reduces flexibility and re-usability of code, it makes changes much more difficult, it impedes testability etc.
Tightly Coupled Object is an object need to know quite a bit about each other and are usually highly dependent on each other interfaces. Changing one object in a tightly coupled application often requires changes to a number of other objects, In small application we can easily identify the changes and there is less chance to miss anything. But in large applications these inter-dependencies are not always known by every programmer or chance is there to miss changes. But each set of loosely coupled objects are not dependent on others.
In short we can say, loose coupling is a design goal that seeks to reduce the interdependencies between components of a system with the goal of reducing the risk that changes in one component will require changes in any other component. Loose coupling is a much more generic concept intended to increase the flexibility of a system, make it more maintainable, and make the entire framework more 'stable'.
Coupling refers to the degree of direct knowledge that one element has of another. we can say an eg: A and B, only B change its behavior only when A change its behavior. A loosely coupled system can be easily broken down into definable elements.
When two objects are loosely coupled, they can interact but have very little knowledge of each other.
Loosely coupled designs allow us to build flexible OO systems that can handle change.
Observer design pattern is a good example for making classes loosely coupled, you can have a look on it in Wikipedia.
The way I understand it is, that tightly coupled architecture does not provide a lot of flexibility for change when compared to loosely coupled architecture.
But in case of loosely coupled architectures, message formats or operating platforms or revamping the business logic does not impact the other end. If the system is taken down for a revamp, of course the other end will not be able to access the service for a while but other than that, the unchanged end can resume message exchange as it was before the revamp.
There are certain tools that provide dependency injection through their library, for example in .net we have ninject Library .
If you are going further in java then spring provides this capabilities.
Loosly coupled objects can be made by introducing Interfaces in your code, thats what these sources do.
Say in your code you are writing
now this statement in your method says that you are dependent on
Tight Coupling Between Java Objects
Loose Coupling Between Java Objects
//====================Multiple class implement vehicle interface. First class====
Loose coupling is and answer to to old style hardcoded dependencies and related issues issues like frequent recompilation when anything changes and code reuse. It stresses on implementing the worker logic in components and avoiding solution specific wire up code there.
An extract from my blog post on coupling:
What is Tight Coupling:-
As par above definition a Tightly Coupled Object is an object that needs to know about other objects and are usually highly dependent on each other's interfaces.
When we change one object in a tightly coupled application often it requires changes to a number of other objects. There is no problem in a small application we can easily identify the change. But in the case of a large applications these inter-dependencies are not always known by every consumer or other developers or there is many chance of future changes.
Let’s take a shopping cart demo code to understand the tight coupling:
Problems with the above example
Tight Coupling creates some difficulties.
Think of your skin. It's stuck to your body. It fits like a glove. But what if you wanted to change your skin colour? Can you imagine just how painful it would be to peel off your skin, dye it, and then to paste it back on? Changing your skin is difficult because it is tightly coupled to your body. You just can't make changes easily. You would have to fundamentally redesign a human being in order to make this possible.
God was not a good object orientated programmer.
Now think of getting dressed in the morning. You don't like blue? No problems: you can put a red shirt on instead. You can do this easily and effortlessly because the shirt is not really connected to your body the same way as your skin. The shirt doesn't know or care about what body it is going on. Clothes can easily and painlessly be changed. Perfect example of loose coupling.
I hope this helps! Because I thought long and hard about a simple way to explain it all