@DenysSéguret Well, spawn a thread to drop memory is very funny and "make your code 10000 times faster" is really really funny and false
look like a newbie that "discover" a "wonderful" way to make all code faster, but doesn't understand why he is wrong, and still advice the word of that amazing discovery
What might be possible is that dropping is a heavy enough operation to justify doing it after rendering the result or on another thread while you render. The title is clickbait but there's something to consider
There aren't many cases where it can make sense, sure
I was wondering for broot, due to the very big tree which is built in memory during the construction of the very small one which is kept. But due to lifetime things it's not easy to measure. It's already in an arena so I suspect there's not much to gain but I would have liked to check
But parallel diving in the tree of all your disk's files and keeping search ranking for all those files can't really be done without allocation. The arena helps, of course.
I will survive ^^, I just have all symptoms of being very sick without actually being really sick... some years it's worse than other but I think the last time where I was this bad it was 5-6 years ago.
Coming from Java, I am used to idioms along the lines of
while (true) {
try {
someBlockingOperation();
} catch (InterruptedException e) {
Thread.currentThread.interrupt(); // re-set the interrupted flag
cleanup(); // whatever is necessary
break;
}
}
This works, as far as ...
@Stargateur I am working with a system that may have parts of it's data that are unreadable, or given a lot of time, be able to determine the data. I want to interrupt the slow reads, get the quick reads through, and then do a second pass or the slow reads
@Stargateur From outside the thread, maybe via a timeout. unsafe code...
> Tasks run by worker threads should not block, as this could delay servicing reactor events. Portable filesystem operations are blocking, however. This module offers adapters which use a blocking annotation to inform the runtime that a blocking operation is required. When necessary, this allows the runtime to convert the current thread from a worker to a backup thread, where blocking is acceptable.
> rt-core -> rt-threaded only means the capability of more than 1 core/worker threads; fs uses spawn_blocking which will use multiple threads regardless of the runtime type
@Shepmaster No it can't be done in one thread. It is always going to have to be done by something or someone else – user, another theard, process, daemon...
> Note that if you are using the basic scheduler, this function will still spawn additional threads for blocking operations. The basic scheduler's single thread is only used for asynchronous code.
Just about any system call on Linux can return EINTR if the system call is interrupted.
From the man page (emphasis mine):
sem_wait() decrements (locks) the semaphore pointed to by sem. If
the semaphore's value is greater than zero, then the decrement
proceeds, and the fun...
you might be able to use pthread_kill to send a signal to a thread.
@Shepmaster then that particalur bit of data will get zeroed out, not written as such, but will be null, until a second pass comes around allowing for a longer time
@Shepmaster If it's FIFO, I'd rather it just skip the bad data and give me much of the good data as it can. It can later spend time on the bad data and try error correcting.
@Shepmaster You're not wrong, but I think we are talking slightly at cross-purposes. You can have a single-threaded tokio app and use IO without spawning new threads. But your blocking operations will necessarily block the main thread. You can't avoid that without spawning another thread - which is what spawn_blocking will do.
And you can still do non-blocking IO in that single thread.
From what I can tell, that is why we appeared to disagree: I'm saying that you can do non-blocking IO in a single thread (it should be obvious that you can also do blocking IO in a single thread), and I think you are just saying that you need a second thread to avoid a blocking operation from blocking the main thread.
by the way he used the same argument I used about rustc requirement breaking change
"People with restrictive hardware shouldn't make it more inconvenient for people who have better resources."
> And yes, we do use wide tabs, because that makes indentation something you can visually see in the structure at a glance and on a whole-function basis, rather than something you have to try to visually "line up" things for or count spaces.