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?
To add on what CesarGon has mentioned,
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:
Example of High Cohesion:
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.
It's a bit more complex than that. :-)
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.
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
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):
Some where else in your codebase you could have a module that processes questions regardless of what they are:
I generally see cohesion as where all methods in my class sound similar, and are often overloaded. eg: