What Is Code Quality? Overview + How to Improve Code Quality
Code quality metrics defines code that is good (high quality) — and code that is bad (low quality).
This — quality, good, bad — is all subjective. Different teams may use different definitions, based on context. Code that is considered high quality may mean one thing for an automotive developer. And it may mean another for a web application developer.
For that reason, we explain what is code quality, how to improve code quality, what are important code quality metrics, and how code quality tools can help.
Read along or jump ahead to the section that interests you the most:
- Why Code Quality Matters
- How to Measure Code Quality
- How to Improve Code Quality
- How to Get Started with Code Quality Analysis
What Is Code Quality? Why Code Quality Matters
The code quality is important, as it impacts the overall software quality. And quality impacts how safe, secure, and reliable your codebase is.
High quality is critical for many development teams today. And it's especially important for those developing safety-critical systems.
📕 Related Resource: How Code Quality Impacts Software Quality
Code Quality Analysis: Good Code vs Bad Code
Good code is high quality. And it’s clean code. It stands the test of time. Bad code is low quality. It won’t last long.
Essentially, code that is considered good:
- Does what it should.
- Follows a consistent style.
- It is easy to understand.
- Has been well-documented.
- It can be tested.
Testing Isn’t Enough
Programmers aren’t perfect. Manual code reviews and testing will never find every error in the code.
A study on “” found that individual programmers are less than 50% efficient at finding bugs in their own software. And most forms of testing are only 35% efficient. This makes it difficult to determine quality.
Coding Errors Lead to Risk
The quality of code in programming is important. When code is low quality, it might introduce safety or . If the software fails — due to a security violation or safety flaw — the results can be catastrophic or fatal.
Quality Is Everyone’s Responsibility
Quality is everyone’s job. The developer. The tester. The manager. High quality should be the goal throughout the development process.
How to Measure Code Quality? Code Quality Metrics
There’s no one way to measure the quality of your code. What you measure may be different from what other development team measures.
Key Code Quality Aspects to Measure
Here are five of the key traits to measure for higher quality.
Reliability measures the probability that a system will run without failure over a specific period of operation. It relates to the number of defects and availability of the software.
Maintainability measures how easily software can be maintained. It relates to the size, consistency, structure, and complexity of the codebase. And ensuring maintainable source code relies on a number of factors, such as testability and understandability.
You can’t use a single metric to ensure maintainability. Some metrics you may consider to improve maintainability are the number of stylistic warnings and Halstead complexity measures. Both automation and human reviewers are essential for developing maintainable codebases.
Testability measures how well the software supports testing efforts. It relies on how well you can control, observe, isolate, and automate testing, among other factors.
Testability can be measured based on how many test cases you need to find potential faults in the system. Size and complexity of the software can impact testability. So, applying methods at the code level — such as cyclomatic complexity — can help you improve the testability of the component.
Portability measures how usable the same software is in different environments. It relates to platform independency.
There isn’t a specific measure of portability. But there are several ways you can ensure portable code. It’s important to regularly test code on different platforms, rather than waiting until the end of development. It’s also a good idea to set your compiler warning levels as high as possible — and use at least two compilers. Enforcing a coding standard also helps with portability.
Reusability measures whether existing assets — such as code — can be used again. Assets are more easily reused if they have characteristics such as modularity or loose coupling.
Reusability can be measured by the number of interdependencies. Running a static analyzer can help you identify these interdependencies.
📕 Related Resource: How to efficiently measure software quality metrics.
Which Code Quality Metrics to Use
There are several metrics you can use to quantify the quality of your code.
The number of defects — and severity of those defects — are important metrics of overall quality.
- Identification of the stage in which the defect originates.
- Number of open defect reports.
- Time to identify and correct defects.
- Defect density (e.g., number of defects per lines of code).
Complexity metrics can help in measuring quality.
measures of the number of linearly independent paths through a program’s source code.
Another way to understand quality is by calculating Halstead complexity measures. These measure:
- Program vocabulary
- Program length
- Calculated program length
How to Improve Code Quality and Code Quality Analysis
Measuring quality helps you understand where you’re at. After you’ve measured, you can take steps to improve overall quality.
Here are four ways you can improve the quality of your code:
1. Use a coding standard.
2. Analyze code — before code reviews.
3. Follow code review best practices.
4. Refactor legacy code (when necessary)
How to Improve Code Quality: A Closer Look
1. Use a Coding Standard
A coding standard makes sure everyone uses the right style. It improves consistency and readability of the codebase. This is key for lower complexity and higher quality.
How to Do It
The best way to use a coding standard is to:
- Train your developers
- Help them to comply with it
2. Analyze Code — Before Code Reviews
Quality should be a priority from the very start of development. There isn’t always the luxury of time as development progresses. That’s why it’s important to analyze code before code reviews begin. And it’s best to analyze code as soon as it’s written.
In , code analysis takes place during the create phase. Static analyzers can be run over code as soon as it’s written. This creates an automated feedback loop, so developers can improve code before it goes to the code review phase.
After all, the earlier you find errors, the faster, easier, and cheaper they are to resolve.
How to Do It
The best way to automatically. By running a static analyzer over code early and often, you’ll make sure the code that gets to the code review phase is the highest quality possible. Plus, you can use static analyzers (such as and Klocwork) to monitor key quality metrics.
3. Follow Code Review Best Practices
Manual code reviews are still important for verifying the intent of the code. When code reviews are done well, they improve overall software quality.
How to Do It
4. Refactor Legacy Code (When Necessary)
One way to improve the quality of an existing codebase is through refactoring. Refactoring legacy code can help you clean up your codebase and lower its complexity.
How to Do It
Get Started with Code Quality Analysis
Analyzing and measuring quality can be tricky, as quality can be subjective. You can use some metrics to objectively evaluate code, including cyclomatic complexity. And there are several ways you can lower complexity and improve quality.
Quality coding might take more time and effort on the first pass. But by introducing quality early on, you’ll lower the cost of maintenance and bug fixes in the long-term. And you’ll reduce your technical debt.
Choosing the Right Code Quality Tools
- Applying coding standards.
- Analyzing code automatically.
- Following coding best practices.
- Refactoring legacy code.
Plus, you'll be able to monitor the quality of your codebase over time, using metrics like cyclomatic complexity.