Channels and multithreading are a solution to async problems. Instead of a keyword trying to abstract away the async, you use a mechanism for communicating between coroutines. You can run Go with a single execution thread and still get benefits from goroutines and channels. In fact, Go didn’t turn on multithreading until 1.5.
Go solves async with goroutines and channels, not with an async keyword. The runtime is pretty heavy and steps in when standard library functions would block. In other words, it’s async by default since blocking IO causes another goroutines to execute.
@sugar_in_your_tea@wim
go channels and goroutines are very good and easy to work, but thei cant acquire the performance and security of #tokio. You can write good code and solutions with goroutines, but there are limitations. #Rust async is a bit more difficult to do, but its not so or too complicated or dificult, and you will choose between the two languages by kind of problems you want to solve.
Yes, there’s absolutely a lot of good reasons to use Rust over Go, even for heavily async tasks, I’m merely saying that Go supporting channels in the language makes it a lot easier to use for async tasks. There’s one proper way to send data between concurrent contexts, and that’s a channel, so it gets used a ton in library code.
Rust could get a lot of that benefit by including channels in the standard library. We could still keep the async reactor code out of the standard library, but we’d need trait definitions there so the channels could hook into them.
I personally think the Rust standard library should ship a complete async solution, with core bits being overridable (like with memory allocation), which would make it a lot easier to write clean async logic. I think the standard library should be single threaded, but be multi-threaded compatible, and then allow third party libraries to provide the multi-threaded capability.
@sugar_in_your_tea#golang is a near perfect aproach for writing concurrency and async code, indeed, but rust already has channels in standard library. My github has a lot of concurrency code using only std library, including examples in atomics, channels, mutexes, conditional variables, etc…
Huh, it has been a while since I did async in Rust. I used Actix to build a multi-protocol game server for a toy project, and the only state staring needed went through the database.
I’ll have to play with async Rust some more. I’ve looked through a lot of async code, and while it looks gross, I haven’t actually written much myself to really get a feel for the ergonomics. For other projects, I’ve just used threads and mutexes, which has been plenty. The closest I’ve gotten was messing with GUIs, but that’s been mostly GTK or IMGUI, which have their own synchronization patterns.
That’s a whole different thing to me. That’s not async, that’s channels and multithreading.
I do that in Rust as well with mcsp channels and it’s been fine.
It’s the async/await bit that I find incredibly akward all the time.
Channels and multithreading are a solution to async problems. Instead of a keyword trying to abstract away the async, you use a mechanism for communicating between coroutines. You can run Go with a single execution thread and still get benefits from goroutines and channels. In fact, Go didn’t turn on multithreading until 1.5.
Go solves async with goroutines and channels, not with an async keyword. The runtime is pretty heavy and steps in when standard library functions would block. In other words, it’s async by default since blocking IO causes another goroutines to execute.
@sugar_in_your_tea @wim
go channels and goroutines are very good and easy to work, but thei cant acquire the performance and security of #tokio. You can write good code and solutions with goroutines, but there are limitations. #Rust async is a bit more difficult to do, but its not so or too complicated or dificult, and you will choose between the two languages by kind of problems you want to solve.
Yes, there’s absolutely a lot of good reasons to use Rust over Go, even for heavily async tasks, I’m merely saying that Go supporting channels in the language makes it a lot easier to use for async tasks. There’s one proper way to send data between concurrent contexts, and that’s a channel, so it gets used a ton in library code.
Rust could get a lot of that benefit by including channels in the standard library. We could still keep the async reactor code out of the standard library, but we’d need trait definitions there so the channels could hook into them.
I personally think the Rust standard library should ship a complete async solution, with core bits being overridable (like with memory allocation), which would make it a lot easier to write clean async logic. I think the standard library should be single threaded, but be multi-threaded compatible, and then allow third party libraries to provide the multi-threaded capability.
@sugar_in_your_tea #golang is a near perfect aproach for writing concurrency and async code, indeed, but rust already has channels in standard library. My github has a lot of concurrency code using only std library, including examples in atomics, channels, mutexes, conditional variables, etc…
https://doc.rust-lang.org/rust-by-example/std_misc/channels.html
https://github.com/jcbritobr/concprog/blob/master/src/threadpool.rs
https://github.com/jcbritobr/concprog/blob/master/src/channels.rs
Huh, it has been a while since I did async in Rust. I used Actix to build a multi-protocol game server for a toy project, and the only state staring needed went through the database.
I’ll have to play with async Rust some more. I’ve looked through a lot of async code, and while it looks gross, I haven’t actually written much myself to really get a feel for the ergonomics. For other projects, I’ve just used threads and mutexes, which has been plenty. The closest I’ve gotten was messing with GUIs, but that’s been mostly GTK or IMGUI, which have their own synchronization patterns.
So maybe it’s good enough as is.