Principles of Software Engineering (2022)

Table Of Contents

show

  • Introduction
  • What is Software Engineering?
    • Why are Software Engineering Principles important?
  • Principles of Software Engineering
    • KISS (Keep It Simple, Stupid)
    • DRY (Don’t Repeat Yourself)
    • YAGNI (You Aren’t Gonna Need It)
    • BDUF (Big Design Upfront)
    • SOLID
    • Occam’s Razor
    • Law of Demeter
    • Avoid Premature Optimization
    • Measure Twice and Cut Once
    • Principle of Least Astonishment
  • Conclusion
  • Additional Resource

Introduction

Anyone ever created a real-life project that followed all Best Practices, had no stumbling blocks, and had nothing to complain about? Certainly not! Developers, architects, and managers have to contend with many issues, such as not paying attention, stupid code errors and misprints, personal problems, and bad moods. Therefore, it is crucial to follow a set of software engineering principles that are critical to the design, development, and creation of the software.

Principles of Software Engineering (1)

The principles of software engineering provide engineers with guidelines about how they should write error-free, clear, and maintainable code. While engineers cannot cast a magic wand that turns a jumble of variables, classes, and functions into perfect code, they can use some principles to determine whether they are doing things the correct way or not.

(Video) Software Engineering Principles

In this article, we’ll look at principles of software engineering that can be useful in the development of quality software. Before continuing, let’s first understand what software engineering is all about, and why software engineering principles matter.

What is Software Engineering?

The term “Software engineering” is composed of two words, software and engineering. In computing, the software is a program or set of programs containing instructions especially designed to accomplish a specific task. Essentially, engineering is the process of designing, building, and testing something (like machines, processes, structures, etc.) to serve a specific purpose and solve a problem in a cost-effective manner.

Software Engineering entails understanding and analyzing user requirements, then designing, developing, and testing software applications to meet those needs using scientific principles, procedures and methods. Ultimately, software engineering results in an effective, reliable, and high-quality software product that meets user requirements. Those who create such software applications are known as software engineers or developers. As some engineers develop software applications for clients and companies after analyzing the users’ requirements, others develop the system software for running devices and controlling networks. Organizations and businesses employ it for the development of larger and more complex software systems.

Why are Software Engineering Principles important?

Fundamental principles and practices are the cornerstones of any engineering field which when followed properly, ensure reliability, stability, and ease of use for its users. Software engineering principles are a collection of approaches, styles, philosophies, and best practices recommended by world-renown software engineers and authors. As part of software development, these principles serve as guidelines to ensure the final version of a piece of software fulfils its purpose. The following are some advantages of applying software engineering principles:

  • Reduces the level of complexity associated with multiple engineering processes.
  • This will prevent the team from making unnecessary mistakes and errors.
  • Software engineering teams can achieve their intended goals in the shortest, wisest, and most efficient way possible by using this approach.
  • Foster efficiency, speed, quality, and prudence in product development.
  • When applied consistently and properly throughout your project, your software development process will run smoothly, efficiently, and lead to top-notch (high-quality) applications.
  • Team members will be better acquainted with how software is built and how they each contribute to it.

Now, what are these principles of software engineering? Let’s take a look at the Top 10 Software Engineering Principles curated for you.

Principles of Software Engineering

The following are the principles and tactics we must employ to stay grounded and to make reasonable technical choices based upon requirements, budgets, timelines, and expectations. Living by these principles will help your project progress seamlessly.

KISS (Keep It Simple, Stupid)

Principles of Software Engineering (2)

The principle of simplicity states that codes should be as simple as possible without a complicated structure, otherwise debugging and maintenance might be more difficult. Moreover, another programmer will have a harder time understanding the code logic, which will entail more time and effort. Do you want to add that complexity? When coding your next big project, make sure you write simple and easily comprehensible code.

  • It’s best if your methods are small, not exceeding 40-50 lines.
  • All the crucial/critical methods should have a commented doc for better understanding for other dev.
  • Methods should only address one problem at a time.
  • Your project has a lot of conditions, right? Break up the codes into smaller blocks as you go.
  • If possible, use simple constructions that solve the problem without a lot of branching, deep nesting, or complex class structures.

You, along with co-workers, can identify bugs faster with Always Keep It Simple, Stupid (KISS). The principle also makes it easier to modify and improve code. Remember what Edsger W. Dijkstra said: “Simplicity is a prerequisite for reliability”.

(Video) Principles of Software Engineering (66661) || Lecture-01

DRY (Don’t Repeat Yourself)

Principles of Software Engineering (3)

In a nutshell, the principle of DRY states that we shouldn’t repeat the same thing too many times in too many places. In software systems, it aims to reduce repetitive code and effort. Developers unknowingly re-write code repeatedly. When writing your code, don’t copy-paste the same code repeatedly. ​If you don’t, then you’ll need to keep them in sync; any change in code at one place will need to be done at other places. It will take extra time, effort, and attention (which isn’t always easy).

  • Make sure not only that your code is error-free, but that it is free of duplicate lines.
  • If a piece of code appears more than twice in the codebase, it should be moved to a separate function.
  • You should create a separate method even if you find that it is repeated a second time.
  • As a bonus, automate any manual processes you can in order to keep the code lean.

These steps will facilitate the reusability of software code, preventing it from having to be repeated. As a result, the code becomes more reusable, more extensible, and less buggy.

YAGNI (You Aren’t Gonna Need It)

In accordance with this principle, programmers should not include functionality unless it is absolutely necessary. ​It states that you shouldn’t introduce things to solve future problems that don’t exist yet. In most cases, programmers try to implement all the functionality at once, right from the beginning. Eventually, most of these functionalities are rendered useless. Additionally, the absence of YAGNI may lead to disorganized code and very extensive rework.

  • It’s always a good idea to add only a few methods to a class at the beginning. You should not add dead code to the project.
  • Once your project begins taking shape and new needs arise, you can add more functionality. Consequently, you’ll get lean software development.
  • As a result, you save unnecessary time, effort, and costs associated with trying to understand or debug the code.

It is recommended to implement only the essential features first, and then, as necessary, expand them. YAGNI also avoids complexity, specifically that which comes from adding features that may be necessary for the future.

BDUF (Big Design Upfront)

Principles of Software Engineering (4)

According to this principle, a developer should design the project first, create the flow of the diagram, and then implement it later. Before developing functionality, we should first think about the architecture and design of the whole system to the smallest details, and then follow the steps outlined in our plan to implement it.

This helps uncover issues at the requirements stage and resolve them quickly. It is possible, however, that software requirements may change during the project’s life cycle and such changes to software requirements may result in difficulties or may even render the design obsolete. The best way to handle this would be by designing the architecture first, then dividing the requirements into stages according to their priority. Develop from the highest priority stage to the lowest during the development process. Prior to coding, implement the BDUF principle at each step.

SOLID

Principles of Software Engineering (5)

SOLID is an acronym for a collection of object-oriented design principles. Each letter in the”SOLID” stands for one of the following principles:

(Video) 2.2 Sofware engineering 7 principles by Devid hookers

S – SRP (Single Responsibility Principle): According to the Single Responsibility Principle, a class, function, module, or service must have only one reason to change, i.e., it must have only one responsibility. Yet why is this so important?

  • When you write classes or functions that are dedicated to a single functionality, it becomes easier to understand, maintain, and modify your code.
  • If you want to modify the functionality of the system, you would know the exact DRY location where you have to modify the code.
  • It makes the code more organized and readable. It also makes reusing the code easier.

O – OCP (Open Closed Principle): In software development, we work in phases. As a team, we implement a bunch of functionalities, test them, and then deliver them to the users. We then move on to implementing the next set of functionalities. When it comes to developing new functionality, the last thing we want to do is to change the existing functionality, which has been tested and is working. Therefore, we try to add new functionality on top of existing ones.

This idea is facilitated by the Open-Closed principle. According to it, our functions, classes, and modules should be designed in such a way that they’re open for extension, but closed for modification.

  • Open for Extension: New functionality can be added to classes and modules without breaking the existing code. Composition and inheritance can be used to accomplish this.
  • Closed for Modification: It’s ideal not to make changes that break current functionality, as doing so would require refactoring a lot of existing code and writing several tests to ensure the changes work.

L – LSP (Liskov Substitution Principle): According to the Liskov Substitution Principle, all child/derived classes should be replaceable for their parent/base classes without affecting or breaking the program’s correctness. Thus, objects in your subclass (derived/child class) should behave similarly to objects in your superclass (parent/base class). Therefore, you should use inheritance carefully in your projects. While inheritance can be beneficial, it is advisable to use it moderately and contextually. Before you can perform inheritance, you have to consider the postconditions and preconditions of the class.

I – ISP (Interface Segregation Principle): According to the Interface Segregation Principle, clients shouldn’t be forced to depend or rely on methods that they don’t use. How can this be achieved? Simple: make your interfaces short or small and focused. An interface with a lot of behaviors is hard to maintain and evolve. Therefore, Separate large interfaces into smaller ones, each focused on a specific set of functions, so that choose to depend or rely only on the functionalities that they require

D – DIP (Dependency Inversion Principle): This Principle seeks to eliminate tight coupling between software modules. According to this principle, high-level modules should not depend on lower-level modules, but rather on their abstractions. We can break it down into two parts:

  • A high-level module must be independent of a low-level module. Both should rely on abstractions
  • The abstraction should be independent of the details, while the details should be dependent upon the abstractions.

Why do we follow this principle? The reason is that abstractions are pretty stable. As a result, you can easily modify the behavior of your open-source or closed-source code. Therefore, you can improve its future evolution.

Occam’s Razor

This is a very common philosophy-based idea found in programming. The principle is named after English monk William of Ockham. The principle is interpreted as follows: don’t create extra entities unless they’re needed. It’s crucial to consider the benefits of adding a new method/class/tool/process before implementing it. The bottom line is this: if adding a method/class/tool/procedure does not result in any benefits, but adds complexity, what’s the point?

  • Start by writing the most straightforward possible code in accordance with Lean Software Development. Once you’ve added those, you can add the more complicated ones only when they’re necessary.
  • It is much easier to develop, test, and correct a product step-by-step with simple codes. Simple codes also enable the program to run faster and are considerably less likely to cause bugs.

Efficiency is at the core of engineering principles, which often results in simplicity. “Keeping things simple is always the best approach.” This idea is important not only for software development but also for everyday life. Occam’s Razor, however, is not an excuse for software engineers to ignore attributes in the name of simple solutions.

(Video) 10 Design Principles For Software Engineers

Law of Demeter

The Law of the Demeter principle states that an object should never know the internal details of another object. It is intended to promote loose coupling among software components. The more tightly coupled the software components are, the more difficult it is to modify them. The idea comes from the phrase “talk only with your friends.” It is highly recommendable to:

  • Ensure that software components are independent of one another.
  • Boosts code reuse, eases maintenance, and makes testing easier by reducing dependencies.
  • Communication and coupling between classes can be reduced.
  • Keep related classes into one package/module/directory to achieve cohesion

If you adhere to this idea, your application will be easier to maintain, more understandable, and more flexible.

Avoid Premature Optimization

Principles of Software Engineering (6)

Premature optimization was said to be the root of all evil in programming by Donald Knuth. As a whole, we agree that optimization (improving the quality and efficiency of code) increases development speed while reducing resource use. It may, however, be detrimental if done too early.

  • A major reason for this is that the development of the optimized code takes more time and effort.
  • Moreover, when the most optimal approach is implemented, software requirements may change. When this happens, your program ends up in the trash or becomes difficult to change.
  • Additionally, regression tests are often needed to confirm the correctness of the whole system.

It is, therefore, best to use a simple approach at first, though it might not be optimal. Later on, after estimating how much this approach slows down the application, you might switch to a faster or less resource-intensive algorithm.

Measure Twice and Cut Once

The golden rule in engineering is to measure twice and cut once. In essence, this principle says you must plan and prepare thoroughly and carefully before you take an action. Whenever you are creating a new system, be sure it is useful, desirable, easily accessible, and credible. The requirement stage of the development life cycle can cause more than 50 percent of coding issues if not done correctly. Thus, you should adopt a systematic approach to the coding process.

  • Verify that you haven’t omitted or added too many requirements in your code.
  • Develop blueprints that will allow high-quality coding to be achieved throughout the process.
  • Test your project from the start to ensure it’s working correctly.

Principle of Least Astonishment

Principles of Software Engineering (7)

It is also called the Principle of Least Surprise, and it has been around for a long time. Ideally, a feature should not have a high-astonishment factor, according to the principle of least astonishment. It means that you should write code that is intuitive and obvious so that it doesn’t surprise others when they review it. Components of your system should behave as expected by end-users. Otherwise, users are unlikely to use features or structures that astonish them, surprise them, or confuse them. Making a method named making_Patties but resulting in tomato objects instead would be a total surprise and clearly bad, no matter what its name may be. The naming convention for methods, classes, variables, parameters is very much required for software maintenance.

Software products are what you make for people to use. Therefore, you can reap a great deal by creating user-friendly features. Try to comply with human mental models, experiences, and expectations. Remember to grab the user’s attention as quickly as you can, as the average user’s attention span has declined.

(Video) L3 Software Engineering Principles (David Hooker)

Conclusion

As you apply these software engineering principles, you’ll be able to steer your engineering tasks in the right direction and achieve your engineering goals in the shortest time frame possible. If done correctly, your software solution is almost certain to run as smoothly and efficiently as you intended. Further, it aligns the entire team on how things should be built, along with the right process to follow. ​The above software engineering principles can help software engineers stay on top of their game. In addition to fostering unity among professionals, these guidelines can also help professionals serve their clients better.

Don’t forget to apply these principles to your daily tasks. ​If you find yourself struggling to remember any of the principles above, bookmark this page so you can easily access it.

Found these engineering principles useful, didn’t you?

Additional Resource

  • Practice Coding
  • Blog
  • Software Engineering MCQ
  • Software Engineer Salary in New York
  • Amazon Software Engineer Salary
  • Apple Software Engineer Salary
  • Facebook Software Engineer Salary
  • Full Stack Engineer Salary
  • Software Engineer Salary in India
  • Software Engineering Books
  • Software Engineering Resume
  • Software Engineering Projects
  • Characteristics of Software
  • How To Become a Software Engineer
  • IT Companies In India

FAQs

Principles of Software Engineering? ›

Seven basic principles of software engineering
  • (1) manage using a phased life-cycle plan.
  • (2) perform continuous validation.
  • (3) maintain disciplined product control.
  • (4) use modern programming practices.
  • (5) maintain clear accountability for results.
  • (6) use better and fewer people.

What are the basic principles of a software explain? ›

These are: (1) manage using a phased life-cycle plan; (2) perform continuous validation; (3) maintain disciplined product control; (4) use modern programming practices; (5) maintain clear accountability for results: (6) use better and fewer people; and (7) maintain a commitment to improve the process.

What is first principle software engineering? ›

First principle thinking is the scientific questioning of various preconceived statements, which are generally assumed to be scientific. It does not assume preconceptions and biasness in its approach. It allows one to construct a solution bottoms-up, starting with the fundamental pieces.

What are engineering principles? ›

"What are Engineering Principles?" By engineering principles we mean the ideas, rules, or concepts that need to be kept in mind when solving an engineering problem. However, there is no one specific list of engineering principles that can be written down or posted up on the web.

What is the principle of software development? ›

Big Design Up Front (BDUF)

This software engineering principle affirms that a developer should complete the project's design first. After that, they can now implement it. Proponents argue that this helps in discovering issues at the requirements stage and solving them quickly.

What are the 7 principles of software engineering? ›

These are:
  • (1) manage using a phased life-cycle plan.
  • (2) perform continuous validation.
  • (3) maintain disciplined product control.
  • (4) use modern programming practices.
  • (5) maintain clear accountability for results.
  • (6) use better and fewer people.

What is the principle aim of software engineering? ›

The main aim of software engineering is to develop reliable and efficient softwares. Software engineering is committed to delivering quality software.

Why is it important to use software engineering principles? ›

Software engineering principles, when executed consistently and properly, ensure that your software development process continually runs smoothly, efficiently and delivers high-quality applications.

What are the first principles of programming? ›

First principle — Proof that code works. First principle — Principle of least astonishment. First principle — Principle of least knowledge. First principle — Separation of concerns.

What are the 3 main principles of engineering design? ›

The principles are: Keep it Simple – avoid unnecessary complexity. Use thought-provoking processes – avoid design processes that you don't need to think about. Communicate efficiently – Avoid long reports.

What are the six steps of engineering? ›

The engineering method (also known as engineering design) is a systematic approach used to reach the desired solution to a problem. There are six steps (or phases): idea, concept, planning, design, development, and launch from problem definition to desired result.

What are the types of design principles? ›

There are twelve basic principles of design: contrast, balance, emphasis, proportion, hierarchy, repetition, rhythm, pattern, white space, movement, variety, and unity. These principles work together to create visually appealing and functional designs that make sense to users.

How many engineering principles are there? ›

SOLID Principles. SOLID is a list of 5 software engineering principles. It is a meta acronym where each letter corresponds to another acronym: S - SRP (Single Responsibility Principle)

What are communication principles explain their meaning? ›

The. principles of communication make provision of knowledge and understanding among the. individuals in terms of communication skills that are needed to live one's lives well and. achieve the desired goals and objectives.

What is the principal aim of the software engineering discipline explain briefly? ›

The main aim of software engineering is to develop reliable and efficient softwares. Software engineering is committed to delivering quality software.

Videos

1. PRINCIPLES OF SOFTWARE ENGINEERING
(GAURAV KUMAR VERMA (NO NOISE ONLY PERFORMANCE))
2. Principles of Software Engineering || Software Engineering
(K.S Easy Solutions)
3. Software Engineering - Principles of Software Engineering Practice
(Marc Anthony Bautista)
4. Top 5 Programming Principles that any software engineer should follow
(Holistic Developer)
5. Principles Of Software Engineering || Lecture-02
(School of Engineers)
6. A Philosophy of Software Design | John Ousterhout | Talks at Google
(Talks at Google)

Top Articles

You might also like

Latest Posts

Article information

Author: Prof. An Powlowski

Last Updated: 11/22/2022

Views: 6153

Rating: 4.3 / 5 (64 voted)

Reviews: 95% of readers found this page helpful

Author information

Name: Prof. An Powlowski

Birthday: 1992-09-29

Address: Apt. 994 8891 Orval Hill, Brittnyburgh, AZ 41023-0398

Phone: +26417467956738

Job: District Marketing Strategist

Hobby: Embroidery, Bodybuilding, Motor sports, Amateur radio, Wood carving, Whittling, Air sports

Introduction: My name is Prof. An Powlowski, I am a charming, helpful, attractive, good, graceful, thoughtful, vast person who loves writing and wants to share my knowledge and understanding with you.