CSC/ECE 517 Fall 2007/wiki2 7 an

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Cohesion and coupling. Cohesion and coupling are concepts that are reasonably easy to understand, but nonetheless, it is challenging to find good examples that are succinct. Browse the hundreds of Web pages that attempt to explain these concepts, picking your favorite examples. Many of these pages mention related concepts; list some of them and explain how they relate to cohesion and coupling. Be sure to mention the metrics that can be used to measure how well a program conforms to the principles of high cohesion and low coupling.

What is coupling?

Coupling is the degree to which each program module relies on each one of the other modules. Unnecessary object coupling needlessly decreases the reusability of the coupled objects and also increases the chances of system corruption when changes are made to one or more of the coupled objects.

Thus the design goal is to minimize coupling and improve reusability. Coupling is broadly divided into two types-low coupling and high coupling. Low coupling refers to a relationship in which one module interacts with another module through a stable interface and does not need to be concerned with the other module's internal implementation With low coupling, a change in one module will not require a change in the implementation of another module. Low coupling is often a sign of a well-structured computer system, and when combined with high cohesion, supports the general goals of high readability and maintainability.


On the other hand, systems with high coupling face the following problems

• Change in one module forces a ripple of changes in other modules.

• Modules are difficult to understand in isolation.

• Modules are difficult to reuse or test because dependent modules must be included.


Thus it is evident that low coupling tends to produce reusable methods. But it is also not possible to write completely decoupled methods since the program will not work.

Examples of coupling

High coupling

A perfect example of high coupling is the human body. Every organ can be considered as an independent module which is intricately dependent on many other organs for its functioning. An irregularity in the working or performance of any organ affects almost the entire body. Thus the modules can be considered to be tightly coupled in this case. A direct consequence of this high coupling is that reuse of modules is extremely difficult. Imagine doing a liver transplant without having to worry about organ rejection!!! This is unfortunately not possible due to the highly coupled nature of the human body.

Low coupling

An example of a low coupled system is the modern plumbing system. Almost every part of the system can be replaced with ease since the modules hardly depend on each other.

Types of coupling

Content coupling

In this type of coupling, one module modifies or relies on the working of another module. Therefore any change in the second module leads to a change in the working of the dependent module. An example of this type of coupling would be case in which one module refers to some data in another module by a fixed offset. Thus as the data in the module changes the value accessed by the dependent module also changes.

Content coupling is bad and should be avoided. The reasons are

• Changes in the called module may require corresponding changes in the calling module too.

• Since the two modules are inextricably linked, it is not possible too reuse the calling module without including the called module.


Common coupling

Control coupling

Stamp coupling

Data coupling

What is cohesion?

Examples of cohesion

Low cohesion

High cohesion

Types of cohesion

Logical cohesion

Temporal cohesion

Procedural cohesion

Communicational cohesion

Sequential cohesion

Functional cohesion

Cohesion v/s Coupling

Metrics to measure cohesion and coupling

Depth of Inheritance Tree

Number of Children

Coupling between objects

Response for a Class

Weighted Methods per Class

Lack of Cohesion in Methods (LCOM) metrics

References

External Links