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Architecture Code Design

9 Guidelines for Creating Expressive Names

Naming is subjective and situational, it’s an art, and with most art, we discover patterns.  I’ve learned a lot through the reading of other’s code.  In this article, I’ve compiled 9 guidelines I wished others had followed when I read their code. 

When a software engineer opens a class, she should know, based on the names, the class’s responsibilities. Yes, I know naming is only one spoke of the wheel, physical and logical structures also play a significant role in understanding the code as does complexity. In this article, I’m only focusing on naming because I feel it’s the most significant impact on understanding the code.

Don’t Include Type Unless it Clarifies the Intent

A type can be anything from a programming type (string, int, decimal) to a grouping of responsibilities (Util, Helper, Validator, Event, etc.). Often it’s a classification which doesn’t express intent.

Let’s look at an example: The name StringHelper doesn’t express much. A string is a system type, and Helper is vague, StringHelper speaks more to the “how” than the intent. If instead, we change the name to DisplayNameFormatter we are given a clearer picture of intent. DisplayName is very specific, and Formatter expresses outcome. Formatter may or may not be a type, but it doesn’t matter, because it expresses intent. 

There are always exceptions; for example, in ASP.Net MVC, controllers must end in “Controller” or the application doesn’t function. Using paradigms such as Domain Driven Design (DDD), names like “Services,” “Repository,” “ValueType” and “Model” have meaning in DDD and express responsibility.

 For example, UserRespository implies that user data is retrieved and save to a data store.

Avoid Metaphors

Metaphors are cultural, and engineers from other cultures might not understand the intent.

Common metaphors in the United States:

  • Beating a dead horse
  • Chicken or the egg
  • Elephant in the room

Common metaphors in New Zealand:

  • Spit the dummy
  • Knackered
  • Hard yakka

Use Verbs

Steve Yegge wrote a (very long) blog post about using verbs over nouns.

His point is to use verbs, applications are composed of nouns, but nouns don’t do things. Systems are useless with only nouns, instead express action in names of methods.

For example, UserAuthentication(noun).AuthenticateUser(action/verb) expresses the action of verifying a user’s credentials.

Be Descriptive

Be descriptive, the more detail, the better — express the responsibility in the name. 

Ask yourself, what is the one thing this class or function does well?

If you have difficulty finding a name, the class or function might have more than one responsibility and thus violating the Single Responsibility Principle.

Don’t Lean on Comments for Intent

Comments are a great way to provide additional context to the code but don’t lean on comments. The names of classes and methods should stand on their own.

In Refactoring: Improving the Design of Existing Code by Martin Fowler, Kent Beck, John Brant, William Opdyke, and Don Roberts:

… comments are often used as a deodorant. It’s surprising how often you look at thickly commented code and notice that the comments are there because the code is bad.

Another wonderful quote from the “In Refactoring” authors:

When you feel the need to write a comment, first try to refactor the code so that any comment becomes superfluous. Page 88

Many times when the code is refactored and encapsulated into a method, you’ll find other locations where it’s possible to leverage the new method, places you never anticipated in using the new method. 

Sometimes when calling a method the consumer needs to know something particular about the method, if that particularness is a part of the name, then the consumer doesn’t need to review the source code.

Here’s an example of incorporating a comment into a name.

With comments:

// without tracking
var user = GetUserByUserId(userId);

Refactored to include the comment in the method name:

var userWithOutTracking = GetUserByUserIdWithoutTracking(userId);

Other engineers now know this method doesn’t have tracking before they’d need to either read the source code or find the comment.

Comments should be your last line of defense when possible lean other ways to express intent including using physical and logic structure and names to convey intent.

Refrain From Using Names with Ambiguous Meaning

Avoid names with ambiguous meanings. The meaning of ambiguous names changes from project to project which makes understanding intent harder for a new engineer. 

Here’s a list of common ambiguous names:

  • Helper
  • Input
  • Item
  • Logic
  • Manager
  • Minder
  • Moniker
  • Nanny
  • Overseer
  • Processor
  • Shepherd
  • Supervisor
  • Thingy
  • Utility
  • Widget

Use the Same Language as the Business Domain

Use the same terminology in the code as in the business domain. This allows engineers and subject matter experts (SME) to easily communicate ideas because they share the same vocabulary. When there isn’t a shared vocabulary translation happen which invariably leads to misunderstandings.

In one project I worked on, the business started with “Pupil” and then switched to “Student.” The software engineers never updated the software to reflect the change in terminology. When new engineers joined the project most believed Pupil and Student were different concepts.

Use Industry Speak

When possible, use terminology that has meaning across the software industry.

Most software engineers, when they see something name “factory,” they immediately think of the factory pattern.

Using existing application paradigms such as “Clean Architecture” and “Domain Driven Design” facilitates idea sharing and creates a common language for engineers to communicate ideas among themselves.

The worst possible naming is co-opting industry-wide terminology and giving it a different meaning.

When Naming Booleans…

Boolean names should always be an answer to a question with its value of either true or false.

For example, isUserAutheticated, the answer is either yes (true) or no (false)

Use words like:

  • Has
  • Does
  • Is
  • Can

Avoid negated names, for example:

A negated variable name:

var IsNotDeleted = true; // this is confusing

if(!IsNotDeleted) { // it gets even more confusing when the value is negated
  //Do magic
}

Without negated variable name:

var IsDeleted = true; // this is confusing

if(!IsDeleted) { 
  //Do magic
}

In Closing

Choosing expressive names is crucial in communicating intent, design, and domain knowledge to the next engineer. Often we work on code to fix defects or incorporate new features, and we’re continually compiling code in our head trying to understand how it works. Naming gives us hints as to what the previous engineer was thinking, without this communication between the past and the future engineers we handicap ourselves in growing of the application. Potentially dooming the project to failure.

Categories
Code

With or Without Curly Braces?

There’s a heated debate around single statements and whether they should have curly braces or not.

In C++, C#, Java, and Javascript a single line statement without curly braces is valid, some take advantage of this feature, while others don’t.

For Example

if(ifTrue) 
  MowTheLawn();

for(var index; index > 10; index++)
  ChopWood();

foreach(var dollar in money)
  BuyLollipop();

while(untilTheEnd)
  Read();

Arguments Against Single Line Curly-Braces

The argument against curly-braces are it’s terser syntax, it’s fewer characters to type, and it’s valid syntax. Why not take advantage of it?

Arguments For Single Line Curly-Braces

The argument for curly-braces is consistency, fewer bugs and more natural to mentally parse.

In an article written by Jon Abrams titled Single-line ‘if’ statements, Jon explains how a defect in Apple’s TLS implementation was introduced as a result of a single line if statement without curly-braces. Jon goes on to say while omitting curly braces in single-line statements is terser, preventing defects is more important than terseness.

Jon proposes a compromise, to allow single-line statements if they are truly on a single line:

if(ifTrue) MowTheLawn();

I echo Jon’s thoughts, omitting the curly-braces in single lines isn’t worth the benefit it offers. It forces the software engineer to consider two variations of valid syntax. It may not seem so bad, but it’s taxing to make this determination each time you happen upon an if statement. The next effect is the engineer saves a few keystrokes and passes the burden on to future readers to parse their code.

For the C# Software Engineers, Microsoft has taken a side in their coding conventions, which call for curly braces.

When we use curly-braces in all cases regardless of the number of lines, what’s in scope and what’s out of scope is very clear. This makes the code less error-prone and more consistent, although some might argue this point, I find it easier to read.