and leaving those for-loops theoretically increases the method complexity and therefore its readability and maintainability.
This is obvious horsepuckey.
x.forEach(foo -> bar) is not 'cognitively simpler' than
for (var foo : x) bar; - you can map each AST node straight over from one to the other.
If a definition is being used to define complexity which concludes that one is significantly more complex than the other, then the only correct conclusion is that the definition is silly and should be fixed or abandoned.
To make it practical: Yes, introducing
AtomicInteger, whilst performance wise it won't make one iota of difference, does make the code way more complicated.
AtomicInteger's simple existence in the code suggests that concurrency is relevant here. It isn't, so you'd have to add a comment to explain why you're using it. Comments are evil. (They imply the code does not speak for itself, and they cannot be tested in any way). They are often the least evil, but evil they are nonetheless.
The general 'trick' for keeping lambda-based code cognitively easily followed is to embrace the pipeline:
- You write some code that 'forms' a stream. This can be as simple as
list.stream(), but sometimes you do some stream joining or flatmapping a collection of collections.
- You have a pipeline of operations that operate on single elements in the stream and do not refer to the whole or to any neighbour.
- At the end, you reduce (using
max - some terminator) such that the reducing method returns what you need.
The above model (and the other answer follows it precisely) tends to result in code that is as readable/complex as the 'old style' code, and rarely (but sometimes!) more readable, and significantly less complicated. Deviate from it and the result is virtually always considerably more complicated - a clear loser.
Not all for loops in java fit the above model. If it doesn't fit, then trying to force that particular square peg into the round hole will take a lot of effort and almost always results in code that is significantly worse: Either an order of magnitude slower or considerably more cognitively complicated.
It also means that it is virtually never 'worth' rewriting perfectly fine readable non-stream based code into stream based code; at best it becomes a percentage point more readable according to some personal tastes, with no significant universally agreed upon improvement.
Turn off that silly linter rule. The fact that it considers the above 'less' complex, and that it evidently determines that
for (var foo : x) bar; is 'more complicated' than
x.forEach(foo -> bar) is proof enough that it's hurting way more than it is helping.