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What is the difference between cohesion and coupling?

How can coupling and cohesion lead to either good or poor software design?

What are some examples that outline the difference between the two, and their impact on overall code quality?

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check it out: – Inv3r53 Jun 21 '10 at 14:03
It's more of OOAD, rather than Java. Object Oriented Analysis and Design (OOAD) is platform/language independent. – mauris Jun 21 '10 at 14:05
I would like to point out to this article: S.O.L.I.D. Software Development, One Step at a Time. Grz, Kris. – XIII Jun 21 '10 at 14:40
This is latest post on this subject – janisz Sep 2 '15 at 12:22
@janisz The article that you have mentioned is great. Thanks – Saveendra Ekanayake Sep 5 '15 at 10:51

10 Answers 10

up vote 158 down vote accepted

Cohesion refers to what the class (or module) will do. Low cohesion would mean that the class does a great variety of actions and is not focused on what it should do. High cohesion would then mean that the class is focused on what it should be doing, i.e. only methods relating to the intention of the class.

Example of Low Cohesion:

| Staff           |
| checkEmail()    |
| sendEmail()     |
| emailValidate() |
| PrintLetter()   |

Example of High Cohesion:

| Staff                   |
| -salary                 |
| -emailAddr              |
| setSalary(newSalary)    |
| getSalary()             |
| setEmailAddr(newEmail)  |
| getEmailAddr()          |

As for coupling, it refers to how related are two classes / modules and how dependent they are on each other. Being low coupling would mean that changing something major in one class should not affect the other. High coupling would make your code difficult to make changes as well as to maintain it, as classes are coupled closely together, making a change could mean an entire system revamp.

All good software design will go for high cohesion and low coupling.

share|improve this answer I am trying to wrap my head around how low is low coupling and how high should Cohesion be. I have a quick question. Lets say I am building a REST API. If a part of a REST URL is represented by one class A, and other calls off of this part are spread out in separate classes, considering these form a subtree S, is it safe to say the class A represents low coupling and high cohesion if it is also treated as a group that binds the subtree S within it? i.e. Can I have the calls to classes representing the different endpoints off of A, within A itself? I hope I am not vague. – Setafire Aug 5 '14 at 22:57 Or can A be a builder that represents a REST call by itself, but also acts as a group for its subtree S? Sorry this question might seem long but the former is something my Team Lead insists on doing although I don't really get the value from it. – Setafire Aug 5 '14 at 23:03
I don't see how removing a few methods, and adding a few others increases cohesion. Can someone help here please? – Saket Jain Jan 27 at 9:44
@SaketJain it's not just removing some methods and adding some others. it's how the methods are related to the purpose of the class (if that explanation is clearer). – mauris Jan 27 at 9:46
@mauris I understand that. But it wasn't clear (at least to me), how the methods are now increasing cohesion. Could you perhaps list where the other methods might go? – Saket Jain Jan 27 at 9:59

High cohesion within modules and low coupling between modules are often regarded as related to high quality in OO programming languages.

For example, the code inside each Java class must have high internal cohesion, but be as loosely coupled as possible to the code in other Java classes.

Chapter 3 of Meyer's Object-Oriented Software Construction (2nd edition) is a great description of these issues.

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This is the best answer – HepaKKes Sep 6 '14 at 13:33

Increased cohesion and decreased coupling do lead to good software design.

Cohesion partitions your functionality so that it is concise and closest to the data relevant to it, whilst decoupling ensures that the functional implementation is isolated from the rest of the system.

Decoupling allows you to change the implementation without affecting other parts of your software.

Cohesion ensures that the implementation more specific to functionality and at the same time easier to maintain.

The most effective method of decreasing coupling and increasing cohesion is design by interface.

That is major functional objects should only 'know' each other through the interface(s) that they implement. The implementation of an interface introduces cohesion as a natural consequence.

Whilst not realistic in some senarios it should be a design goal to work by.

Example (very sketchy):

public interface IStackoverFlowQuestion
      void SetAnswered(IUserProfile user);
      void VoteUp(IUserProfile user);
      void VoteDown(IUserProfile user);

public class NormalQuestion implements IStackoverflowQuestion {
      protected Integer vote_ = new Integer(0);
      protected IUserProfile user_ = null;
      protected IUserProfile answered_ = null;

      public void VoteUp(IUserProfile user) {
           // code to ... add to user profile

      public void VoteDown(IUserProfile user) {
          decrement and update profile

      public SetAnswered(IUserProfile answer) {
           answered_ = answer
           // update u

public class CommunityWikiQuestion implements IStackoverflowQuestion {
     public void VoteUp(IUserProfile user) { // do not update profile }
     public void VoteDown(IUserProfile user) { // do not update profile }
     public void SetAnswered(IUserProfile user) { // do not update profile }

Some where else in your codebase you could have a module that processes questions regardless of what they are:

public class OtherModuleProcessor {
    public void Process(List<IStackoverflowQuestion> questions) {
       ... process each question.
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Let's give an extreme example of tight coupling to get the picture: you've developed a tic tac toe game and everything is been put inside the main() method. There are no other classes or methods. The code in the main() method is in no way reuseable and has probably lot of repeated code. This is a bad design. Splitting and refactoring the tasks/responsibilities over classes/methods will improve cohesion and coupling.

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...To enable you to use parts of tic-tac-toe in other programs you write? I'm not sure this is the best example. :-) – Ken Jun 21 '10 at 15:08
@Ken: doh, to reuse the parts in the very same program. – BalusC Jun 21 '10 at 15:19

Cohesion in software engineering is the degree to which the elements of a certain module 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.

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.

I wrote a blog post about this, if you want to read up in a little bit more details with examples and drawings. I think it answers most of your questions.

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best explanation of Cohesion comes from Uncle Bob's Clean Code:

Classes should have a small number of instance variables. Each of the methods of a class should manipulate one or more of those variables. In general the more variables a method manipulates the more cohesive that method is to its class. A class in which each variable is used by each method is maximally cohesive.

In general it is neither advisable nor possible to create such maximally cohesive classes; on the other hand, we would like cohesion to be high. When cohesion is high, it means that the methods and variables of the class are co-dependent and hang together as a logical whole.

The strategy of keeping functions small and keeping parameter lists short can sometimes lead to a proliferation of instance variables that are used by a subset of methods. When this happens, it almost always means that there is at least one other class trying to get out of the larger class. You should try to separate the variables and methods into two or more classes such that the new classes are more cohesive.

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Cohesion is an indication of how related and focused the responsibilities of an software element are.

Coupling refers to how strongly a software element is connected to other elements.

The software element could be class, package, component, subsystem or a system. And while designing the systems it is recommended to have software elements that have High cohesion and support Low coupling.

Low cohesion results in monolithic classes that are difficult to maintain, understand and reduces re-usablity. Similarly High Coupling results in classes that are tightly coupled and changes tend not be non-local, difficult to change and reduces the reuse.

We can take a hypothetical scenario where we are designing an typical monitor-able ConnectionPool with the following requirements. Note that, it might look too much for a simple class like ConnectionPool but the basic intent is just to demonstrate low coupling and high cohesion with some simple example and I think should help.

  1. support getting a connection
  2. release a connection
  3. get stats about connection vs usage count
  4. get stats about connection vs time
  5. Store the connection retrieval and release information to a database for reporting later.

With low cohesion we could design a ConnectionPool class by forcefully stuffing all this functionality/responsibilities into a single class as below. We can see that this single class is responsible for connection management, interacting with database as well maintaining connection stats.

Low Cohesion Connection Pool

With high cohesion we can assign these responsibility across the classes and make it more maintainable and reusable.

High Cohesion Connection Pool

To demonstrate Low coupling we will continue with the high cohesion ConnectionPool diagram above. If we look at the above diagram although it supports high cohesion, the ConnectionPool is tightly coupled with ConnectionStatistics class and PersistentStore it interacts with them directly. Instead to reduce the coupling we could introduce a ConnectionListener interface and let these two classes implement the interface and let them register with ConnectionPool class. And the ConnectionPool will iterate through these listeners and notify them of connection get and release events and allows less coupling.

Low Coupling ConnectionPool

Note/Word or Caution: For this simple scenario it may look like an overkill but if we imagine a real-time scenario where our application needs to interact with multiple third party services to complete a transaction: Directly coupling our code with the third party services would mean that any changes in the third party service could result in changes to our code at multiple places, instead we could have Facade that interacts with these multiple services internally and any changes to the services become local to the Facade and enforce low coupling with the third party services.

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Excellent answer! If possible, could you use some other example? Connection Pooling might not be clear to everyone. Regardless, it really helped me. So thanks! – Saket Jain Jan 27 at 9:56

I think the differences can be put as the following:

  • Cohesion represents the degree to which a part of a code base forms a logically single, atomic unit.
  • Coupling represents the degree to which a single unit is independent from others.
  • It’s impossible to archive full decoupling without damaging cohesion, and vice versa.

In this blog post I write about it in more detail.

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Generally cohesion is where all methods in a class sound similar, and are often overloaded. eg:

MyClass {

    display(Vehicle v)
    display(Vehicle v, Country c)
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Cohesion is an indication of the relative functional strength of a module.

  • A cohesive module performs a single task, requiring little interaction with other components in other parts of a program. Stated simply, a cohesive module should (ideally) do just one thing.
  • Conventional view:

    the “single-mindedness” of a module

  • OO view:

    cohesion implies that a component or class encapsulates only attributes and operations that are closely related to one another and to the class or component itself

  • Levels of cohesion








Coupling is an indication of the relative interdependence among modules.

  • Coupling depends on the interface complexity between modules, the point at which entry or reference is made to a module, and what data pass across the interface.

  • Conventional View : The degree to which a component is connected to other components and to the external world

  • OO view: a qualitative measure of the degree to which classes are connected to one another

  • Level of coupling






    Routine call

    Type use

    Inclusion or import

    External #

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