I have problems understanding the statement low in coupling and high in cohesion. I have googled and read a lot about this, but still finding it hard to understand.

To what I understand is High cohesion means, that we should have classes that are specialized to perform a particular function. Hope this is correct? Like a credit card validation class, which is specialized to validate credit cards only.

And still don't understand what low Coupling means?

  • 2
    For a more detailed explanation, you can prefer to the answer from this post Cohesion & Coupling – Infinity Dec 22 '12 at 7:08
  • This answer is certainly better and concise then the ones given here. – Lokesh May 2 '17 at 9:54

11 Answers 11

up vote 162 down vote accepted

What I believe is this:

Cohesion refers to the degree to which the elements of a module/class belong together, it is suggested that the related code should be close to each other, so we should strive for high cohesion and bind all related code together as close as possible. It has to do with the elements within the module/class.

Coupling refers to the degree to which the different modules/classes depend on each other, it is suggested that all modules should be independent as far as possible, that's why low coupling. It has to do with the elements among different modules/classes.

  • 9
    Our professor says "High cohesion is about making sure module doesn't do many things, it is meant to do only one particular thing". – Lokesh May 2 '17 at 9:49
  • 2
    From what I believe it is more like "making sure one module does a thing, not many modules do the same thing", by this you can ensure that only a single module specifies the behaviour, so the overall behaviour for a thing is cohesive. – sschrass Jul 8 '17 at 13:52
  • 2
    @Lokesh I think your comment muddles things. Your professor is confusing high cohesion with "Single responsibility principle". High cohesion means to keep similar and related things together. You can have high cohesion in an object or a service which is made up of many functions. – Max Hodges Mar 11 at 15:00

Cohesion in software engineering, as in real life, is how much the elements consisting a whole(in our case let's say a class) can be said that they actually belong together. Thus, it is a measure of how strongly related each piece of functionality expressed by the source code of a software module is.

One way of looking at cohesion in terms of OO is if the methods in the class are using any of the private attributes.

Now the discussion is bigger than this but High Cohesion (or the cohesion's best type - the functional cohesion) is when parts of a module are grouped because they all contribute to a single well-defined task of the module.

Coupling in simple words, is how much one component (again, imagine a class, although not necessarily) knows about the inner workings or inner elements of another one, i.e. how much knowledge it has of the other component.

Loose coupling is a method of interconnecting the components in a system or network so that those components, depend on each other to the least extent practically possible…

I wrote a blog post about this. It discusses all this in much detail, with examples etc. It also explains the benefits of why you should follow these principles.

In software design high cohesion means that class should do one thing and one thing very well. High cohesion is closely related to Single responsibility principle.

Low coupling suggest that class should have least possible dependencies. Also, dependencies that must exist should be weak dependencies - prefer dependency on interface rather than dependency on concrete class, or prefer composition over inheritance .

High Cohesion and low coupling give us better designed code that is easier to maintain.

  • You missed Dependency Injection. It is closely related to low coupling to ensure a class has the least/no dependencies. – BugHunterUK Feb 10 '16 at 8:13

Low coupling is in the context of two or many modules. If a change in one module results in many changes in other module then they are said to be highly coupled. This is where interface based programming helps. Any change within the module will not impact the other module as the interface (the mean of interaction ) between them has not changed.

High cohesion- Put the similar things together. So a class should have method or behaviors to do related job. Just to give an exaggerated bad example: An implementation of List interface should not have operation related to String. String class should have methods, fields which is relevant for String and similarly, the implementation of List should have corresponding things.

Hope that helps.

Long story short, low coupling as I understood it meant components can be swapped out without affecting the proper functioning of a system. Basicaly modulize your system into functioning components that can be updated individually without breaking the system

  • Isn't that the same as High Cohesion ? – user1315906 Dec 22 '12 at 7:11

Short and clear answer

  • High cohesion: Elements within one class/module should functionally belong together and do one particular thing.
  • Loose coupling: Among different classes/modules should be minimal dependency.

Do you have a smart phone? Is there one big app or lots of little ones? Does one app reply upon another? Can you use one app while installing, updating, and/or uninstalling another? That each app is self-contained is high cohesion. That each app is independent of the others is low coupling. DevOps favours this architecture because it means you can do discrete continuous deployment without disrupting the system entire.

  • >Does one app reply upon another? . . well yes, some do. Many apps use the Camera app, by workout app feeds heart and workout data to Health and Activities. I can share a snippet from one app to many others. My alarm app knows the time and play a track from the Music app... – Max Hodges Mar 11 at 15:03
  • @MaxHodges that thing (low cohesion and high coupling) is depreciated and should be minimized to least extent possible. In some cases, as you mentioned. This cannot be completely removed. – M. Habib Apr 12 at 10:20

Low Coupling and High Cohesion is a recommended phenomenon.

Coupling means to what extent various modules are interdependent and how the other modules are affected on changing some/considerable functionality of a module. Low coupling is emphasized as the dependency has to be maintained low so that very least/negligible changes are made to other modules.

An example might be helpful. Imagine a system which generates data and puts it into a data store, either a file on disk or a database.

High Cohesion can be achieved by separate the data store code from the data production code. (and in fact separating the disk storage from the database storage).

Low Coupling can be achieved by making sure that the data production doesn't have any unnecessary knowledge of the data store (e.g. doesn't ask the data store about filenames or db connections).

Inheritance or generalization is an example of high coupling (i.e. high interdependence). What I meant by this is that in inheritance often the parent class defines base functionalities that is used by its child class and change in methods of parent class directly impact its child classes. Hence we can say that there is a greater degree of interdependence between classes.

Realization or using interface is an example of high cohesion (i.e. low interdependence). What this means is that an interface put forward a contract for any class that implements it but each class has the right to implement methods declared in interface in its own way and changes in method declared in one class doesn't affect any other class.

Cohesion - how closely related everything is with one another. Coupling - how everything is connected to one another.

Lets take an example - We want to design a self driving car.

1) We need the motor to run properly.

2) We need the car to drive on it's own.

All of the classes and functions in (1) starting the motor and making it run work great together, but do not help the car steer. So we place those classes behind a Engine Controller.

All of the classes and functions in (2) work great to make the car steer, accelerate and brake. They do not help the car start or send gasoline to the pistons. So we place these classes behind it's own Driving Controller.

These controllers are used to communicate with all of the classes and functions that are available. The controllers then communicate only with each other. This means I can't call a function in the piston class from the gas pedal class to make the car go faster.

The pedal class has to ask the Driving Controller to talk to the Engine Controller which then tells the piston class to go faster. This allows us a programmers to be able to find issues and allows us to combine large programs without worrying. This is because the code was all working behind the controller.

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.