Good abstractions are important for the code to be readable. An AbstractEventHandlerManager is probably not a good abstraction.
The original commenter said that their code was "generic with lot of interfaces and polymorphism" - it sounds like they chose abstractions which hindered maintainability and readability.
How do abstractions help with that? Can you tell, from the symptoms, which "level of abstraction" contains the bug? Or do you need to read through all six (or however many) "levels", across multiple modules and functions, to find the error?
I usually start from the lowest abstraction, where the stack trace points me and don't need to look at the rest, because my code is written well.
If there are 6 subfunctions, that means there's 6 levels of abstraction (assuming the method extraction was not done blindly), which further suggests that maybe they should actually be part of a different class (or classes). Why would you be interested in 6 levels of abstraction at once?
But we're arguing hypotheticals here. Of course you can make the method implementations a complete mess, the book cannot guarantee that the person applying the principles used their brain, as well.
I never claimed it's not important, I'm just saying it's not relevant here, as there is no context to where this method was put in the code.
As I said, it might be top-level. You have to mutate state somewhere, because that's what applications ultimately do. You just don't want state mutations everywhere, because that makes bad code.
As it happens, it's just an example to illustrate specifically the "extract to method" issues the author had.
Of course, in a real world scenario we want to limit mutating state, so it's likely this method would return a Commission list, which would then be used by a Use Case class which persists it.
I'm fairly sure the advice about limiting mutating state is also in the book, though.
At the same time, you're likely going to have a void somewhere, because some use cases are only about mutatimg something (e.g. changing something in the database).
Robert Martin's "Clean Code" is an incredibly useful book which helps write code that Fits In Your Head, and, so far, is the closest to making your code look like instructions for an AI instead of random incantations directed at an elder being.
The principle that the author of this article argues against seems to be the very principle which helps abstract away the logic which is not necessary to understand the method.
java
public void calculateCommissions() {
calculateDefaultCommissions();
if(hasExtraCommissions()) {
calculateExtraCommissions();
}
}
Tells me all I need to know about what the method does - it calculates default commissions, and, if there are extra commissions, it calculates those, too. It doesn't matter if there's 30 private methods inside the class because I don't read the whole class top to bottom.
Instead, I may be interested in how exactly the extra commissions are calculated, in which case I will go one level down, to the calculateExtraCommissions() method.
From a decade of experience I can say that applying clean code principles results in code which is easier to work with and more robust.
Edit:
To be clear, I am not condoning the use of global state that is present in some examples in the book, or even speaking of the objective quality of some of the examples. However, the author of the article is throwing a very valuable baby with the bathwater, as the actual advice given in the book is great.
I suppose that is par for the course, though, as the aforementioned author seems to disagree with the usefulness of TDD, claiming it's not always possible...
dandi8 @ dandi8 @fedia.io 帖子 0评论 102加入于 1 yr. ago
Over my dead body.