Cognitive Complexity is a measure of how hard it is to understand the control flow of a unit of code. Code with high cognitive complexity is hard
to read, understand, test, and modify.
As a rule of thumb, high cognitive complexity is a sign that the code should be refactored into smaller, easier-to-manage pieces.
Which syntax in code does impact cognitive complexity score?
Here are the core concepts:
- Cognitive complexity is incremented each time the code breaks the normal linear reading flow.
This concerns, for example,
loop structures, conditionals, catches, switches, jumps to labels, and conditions mixing multiple operators.
- Each nesting level increases complexity.
During code reading, the deeper you go through nested layers, the harder it
becomes to keep the context in mind.
- Method calls are free
A well-picked method name is a summary of multiple lines of code. A reader can first explore a
high-level view of what the code is performing then go deeper and deeper by looking at called functions content.
Note: This does not
apply to recursive calls, those will increment cognitive score.
The method of computation is fully detailed in the pdf linked in the resources.
Exceptions
equals and hashCode methods are ignored because they might be automatically generated and might end up being difficult to
understand, especially in the presence of many fields.
