Rustler
zig
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Rustler | zig | |
---|---|---|
35 | 808 | |
4,130 | 29,799 | |
2.3% | 4.5% | |
8.6 | 10.0 | |
1 day ago | about 12 hours ago | |
Rust | Zig | |
Apache License 2.0 | MIT License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
Rustler
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AI Toolkit: Give a brain to your game's NPCs, a header-only C++ library
For performance intensive tasks, you could rely on Rust NIFs, there is this great project: https://github.com/rusterlium/rustler
My last project with Elixir was using Elixir merely as an orchestrator of static binaries (developed in golang) which were talking in JSON via stdin/stdout.
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Building Apps with Tauri and Elixir
From the moment we discovered Tauri, we really felt like this was the perfect fit. The API is really solid, the configuration files are minimal and easy to understand, and the usage of Rust makes it way easier to add new functionalities and think about interesting ways of interoperating with Elixir via the Rustler library.
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Async Rust Is A Bad Language
Elixir/Rust is the new Python/C++, and Rustler makes the communicating between the 2 languages super easy: https://github.com/rusterlium/rustler
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Why elixir over Golang
Rustler is so awesome for this. Write Elixir NIFs in Rust? Yes, please!
- Is RUST a good choice for building web browsers?
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Why do you enjoy systems programming languages?
But really, I would suggest thinking about what you want to build before "how" or "with which tool" - one of the signs of a person becoming a good engineer is having an array of tools at their disposal and being able to choose a correct tool for the correct task. Rust also excels in integrating with other languages - with JS via WebAssembly (a bit of self-promotion, for example), with Elixir via Rustler, with Python via PyO3 and PyOxidizer, etc. So you absolutely can start writing a frontend app with JS, or a distributed system with Elixir, or a data processing/ML app with Python and use Rust to speed up critical parts of those. Or, in reverse, you can start with Rust & add new capabilities to whatever you're building, that being a frontend, a resilient chat interface, or an ML model.
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PasswordRs 0.1.0 released (Rust NIF for password hashing)
I created a elixir (wrapper) library to generate password hashes. Other Elixir libraries use a C NIF to generate password hashes. This libary uses a Rust NIF (using Rustler) and the Rust libraries the generate the different hashes. Additionally this library uses RustlerPrecompiled so you don't need to have a Rust compiler installed to use this library. It supports argon2, scrypt, brypt and pbkdf2.
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Elixir and Rust is a good mix
> I guess, why not use Rust entirely instead of as a FFI into Elixir or other backend language?
Because Rust brings none of the benefits of the BEAM ecosystem to the table.
I was an early Elixir adopter, not working currently as an Elixir developer, but I have deployed one of the largest Elixir applications for a private company in my country.
I know it has limits, but the language itself is only a small part of the whole.
Take ML, Jose Valim and Sean Moriarity have studied the problem, made a plan to tackle it and started solving it piece by piece [1] in a tightly integrated manner, it feels natural, as if Elixir always had those capabilities in a way that no other language does and to put the icing on the cake the community released Livebook [2] to interactively explore code and use the new tools in the simplest way possible, something that Python notebooks only dream of being capable of, after a decade of progress
That's not to say that Elixir is superior as a language, but that the ecosystem is flourishing and the community is able to extract the 100% of the benefits from the tools and create new marvellously crafted ones, that push the limits forward every time, in such a simple manner, that it looks like magic.
And going back to Rust, you can write Rust if you need speed or for whatever reason you feel it's the right tool for the job, it's totally integrated [3][4], again in a way that many other languages can only dream of, and it's in fact the reason I've learned Rust in the first place.
The opposite is not true, if you write Rust, you write Rust, and that's it. You can't take advantage of the many features the BEAM offers, OTP, hot code reloading, full inspection of running systems, distribution, scalability, fault tolerance, soft real time etc. etc. etc.
But of course if you don't see any advantage in them, it means you probably don't need them (one other option is that you still don't know you want them :] ). In that case Rust is as good as any other language, but for a backend, even though I gently despise it, Java (or Kotlin) might be a better option.
[1] https://github.com/elixir-nx/nx https://github.com/elixir-nx/axon
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It's legos all the way down
unfortunately as of the time of this writing, rustler does not support generic type intefaces so I guess this is impossible?
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When Rust Hurts
One thing that drew me to Rust was actually Elixir/Erlang calling out to it for certain specialized needs. Within Elixir/Erlang you get best of breed concurrency but exiting the BEAM to run other code is unsafe. Calling out to Rust, however, comes with great safety guarantees.
Managing concurrency outside of Rust and then calling Rust for the more focused and specialized work is a good combination IMO.
zig
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Zig, Rust, and Other Languages
https://github.com/ziglang/zig/blob/5cd7fef17faa2a40c8da23f0...
Generally speaking, it’s as mentioned just a convention. A zig library might not allow its users to pass allocators for example.
In C++, stl containers can take an allocator as a template parameter. Recent C++ versions also provide several polymorphic allocators in the stdlib. You can also override the global allocator or a specific class’ allocator (override placement new).
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Nanos – A Unikernel
We need to remove that. We did have a channel on freenode a while back but got rid of it.
Outside of gh discussions there is also https://forums.nanovms.com/. We made a decision a while ago to follow Zig's lead here and have no 'official' community space (https://github.com/ziglang/zig?tab=readme-ov-file#community) instead letting people form their own spaces.
Zig also has an IRC channel on libera (#zig) that is moderated by Andrew Kelley.[1]
- Ask HN: What Underrated Open Source Project Deserves More Recognition?
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Top Paying Programming Technologies 2024
1. ZIG - $103,611
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MicroZig: Unified abstraction layer and HAL for Zig on several microcontrollers
ESP32 and STM32 support is very welcome!
I have been following https://github.com/ziglang/zig/issues/5467 for a while and progress seemed to have slowed significantly
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Asynchronous Clean-Up (in Rust)
I have never used it directly, take what I say with a grain of salt.
As far as I know at least part of the idea was to eliminate the function coloring problem by letting the compiler do some nifty compile-time deductions. This had some issues (I don't know if this is still planned, it seems like the kind of thing that should not work in practice). Additionally, there were all sorts of hard technical issues with LLVM, debugging, etc.
I recommend checking the issue tracker, eg. https://github.com/ziglang/zig/issues/6025
I personally don't understand the domain well enough at all, but honestly, I feel like (if possible) Zig should try to double down on its allocator approach.
Instead of trying to use some compile-time deduction magic explicitly pass around an "async runtime/executor" struct which you explicitly have to interact with. Why not?
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Show HN: Tokamak – A Dependency Injection-Centric Server-Side Framework for Zig
Atop your readme, you point out that nginx or another reverse proxy should be used. Kudos for that.
As for performance, I'd be curious what gains you get using `std.http.Server` with keepalive and a threadpool. Possibly you can re-use your ThreadContext - having 1 per thread in the threadpool that you can re-using. `std.Thread.Pool` is also very poorly tuned for a large number of small batch jobs, but that's a place to start.
[1] https://github.com/ziglang/zig/blob/b3aed4e2c8b4d48b8b12f606...
Yes, fundamentally. In Rust if you take a parameter of generic type T without any bounds, you cannot call anything on it except for things which are defined for all types. If you specify bounds, only things required by the bounds can be called (+ the ones for all types). Another difference is where you get an error when you try pass something which doesn't adhere to a certain trait. In Rust you will get an error at the call site, not at the place of use (except if you don't specify any bounds).
Zig is doing just fine without any trait mechanism and it simplifies the language a lot but it does come up from time to time. The usual solution is to just get type information via @typeInfo and error out if the type is something you're not expecting [0]. Not everybody is happy about it though [1] because, among other things, it makes it more difficult to discover what the required type actually is.
[0] https://github.com/ziglang/zig/blob/b3aed4e2c8b4d48b8b12f606...
What are some alternatives?
Nim - Nim is a statically typed compiled systems programming language. It combines successful concepts from mature languages like Python, Ada and Modula. Its design focuses on efficiency, expressiveness, and elegance (in that order of priority).
Odin - Odin Programming Language
v - Simple, fast, safe, compiled language for developing maintainable software. Compiles itself in <1s with zero library dependencies. Supports automatic C => V translation. https://vlang.io
rust - Empowering everyone to build reliable and efficient software.
go - The Go programming language
rust - Rust for the xtensa architecture. Built in targets for the ESP32 and ESP8266
ssr-proxy-js - A Server-Side Rendering Proxy focused on customization and flexibility!
TinyGo - Go compiler for small places. Microcontrollers, WebAssembly (WASM/WASI), and command-line tools. Based on LLVM.
crystal - The Crystal Programming Language
regex - An implementation of regular expressions for Rust. This implementation uses finite automata and guarantees linear time matching on all inputs.
llvm-project - The LLVM Project is a collection of modular and reusable compiler and toolchain technologies.
Beef - Beef Programming Language