Okay, after some fiddling with threads and studying contributions by apeiros and asQuirreL, i came up with a solution that suits me.
I'll show sample usage first, source code in the end.
Example 1: simple non-blocking execution
First, a JS example that i'm trying to mimic:
setTimeout( functio...
Suppose you have multiple threads accessing 2 completely independent arrays. With one mutex, accessing one will block the other, whereas having one mutex per array allows as much concurrency as you can afford whilst maintaining safety.
I've updated the code to allow multiple mutexes. Please see the source and the second example. Note how you don't have to instantiate each mutex manually, they are created lazily when you use them. What do you think?
From my point of view, my class does not break SRP because the one task it is aimed to solve is to automate monotonous scaffolding required to fire blocks asynchronously.
a responsibility is any task that could cause the codebase to change
in this case there are two: the asynchronous calling of blacks, and the provisioning of mutexes
From a maintainability point of view, it is worth differentiating when you first instantiate a mutex, and when you are using it
s/blacks/blocks
from a testability point of view, single responsibility principle makes it easier to test, because every responsibility you add, results in an combinatorial increase in scenarios to test
Really, if you want to modify ann array inside an asynchronous block, you should create a ThreadSafeArray class, which does the locking for you
like I said, there is no "one size fits all" solution to use mutexes, so in my books, that is not a monotonous problem, but one that requires careful thought and consideration
My goal was to reduce the scaffolding required to do what JS does with a single setTimeout() call. It is intended for most simple use cases only. If i happen to need complex mutex manipulation, i would indeed build the scaffolding manually.
