To elaborate: I had originally linked the user to a related question that did not answer their question directly, but found two later. So I'm not saying it's a dupe of the first one I linked in the comments, but either of stackoverflow.com/q/46829539/3650362 or stackoverflow.com/q/55868434/3650362 work IMO
It is a no_std environment, but my team import most of the core libs, and some of the alloc::*, so I have alloc::vec to use. Thank you for your reply! 🙏 — Jimmy Chu3 mins ago
It's so hard for me to understand async/await… If I'm not wrong, I cannot wrap a synchronous IO bound operation so that it becomes asynchronous, right?
When an IO bound operation is launched, it is "forgotten" temporarily, so that the thread can do something else. When the operation is finished, the code continues past this point.
I've created some futures, but it's still somehow "magic" to me :P
I know what a thread pool is, and how to use it. As per green threads, it allows to write concurrent code AFAIK, by switching from a context to another
Right, my understanding of this is that the main idea is the following: the runtime is taking care of spawning the threads (and joining them at the end) but these threads are not doing specific things but all of them are executing the same thing: waiting for tasks to execute from the task-manager (part of the runtime). It is therefore heavier than 1:1 (a.k.a OS-level) threads, but they require less setup and management and boilerplate -- these are all taken care of
now, there must be a way to define tasks for the runtime, and that's where futures/promises/observables/etc are all coming into play
with async/await you describe them as plain "imperative" code, instead of nested callback hells
and basically that's that in a nut-shell
(I'm probably not the right person today to explain all the bits and pieces in detail today, as I have a splitting-headache, hence I'm typing things in the chat instead of my text editor..) -- but I'm happy to get back to you tomorrow if no one else is taking over explaining things in depth.. sorry :/ )
@FrenchBoiethios I don't know if you know Node.js, but just like in this one, you can call a synchronous function (e.g. fs.readFileSync ) inside an asynchronous function, but it will still block on that call.
That's why I originally wanted to explain how things work under hood -- there's no magic there, these are still just threads and if a function call blocks a thread, it will block the chain of tasks ("stream") in an async runtime as well
and that's the main reason why you want to have and prefer non-blocking IO operations in the first place
but all in all, async/await won't turn blocking things into non-block magically
@E_net4saysReinstate the principles are the same as with concurrent programming -- there's obviously an overhead of managing threads and other related resources under the hood which may or may not cost more than the benefit of doing things in parallel
(I'm happy to be corrected, I mainly did traditional threading before -- quite a lot actually -- and I briefly used AIO things before. I have no hands on experience with Rust's async/await as of yet, though I used async/await runtimes with Python and JavaScript before)
@DenysSéguret but something has to poll at the end
I mean, maybe I'm totally wrong here, but at the lowest levels
something has to indicate that a task has been completed, and something has to actively check if that actually happened..