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.
delimited
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Monoio – A thread-per-core Rust async runtime with io_uring
Oh, I have written my own share of userspace C context switching libraries, I know all the gory the details :). For example see my minimalist [1] stackful coroutine library: the full context switching logic is three inline asm instructions (99% of the complexity in that code is to transparently support throwing exceptions across coroutine boundaries with no overhead in the happy path).
You need compiler help for the custom calling convention support and possibly to optimize away the context switching overhead for stackful coroutines, which is something that compilers can already do for stackless coroutines.
The duff device is just a way to simulate stackless coroutines (i.e. async/await or whateverer) in plain C, in a way that the compiler can still optimize quite well.
[1] https://github.com/gpderetta/delimited/blob/master/delimited...
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Declarative, non-intrusive, compile-time C++ reflection for audio plug-ins
Using gcc extended asm you can pass literal constants to the asm and they will be expanded textually (or at least their address will). I don't think the details are fully documented anywhere and I had to use intel syntax to make it work, but it might be possible even wit AT&T syntax.
Take a look a this[1] for example. See how trampoline, the destructor and the size are passed in with the 'i' constraint and are referred to their value with the %cX constraint (yes, the code is write only and even with a lot of comments I have only the most vague idea of what I was trying to do here).
Probably more work is require for PIC though.
[1] https://github.com/gpderetta/delimited/blob/7e755d643ee45897...
crater
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Semver violations are common, better tooling is the answer
yup, they reference it as an inspiration: https://github.com/rust-lang/crater
it's probably impossible to automate an entire ecosystem, and there is value to enabling a tighter integration within a project ecosystem (a subset of the language ecosystem).
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Trip Summer ISO C++ standards meeting (Varna, Bulgaria)
Rather than hypothesising about an imagined tool you could look at the actual tool which of course is in Rust's source code repo: https://github.com/rust-lang/crater
> new proposed C++ changes - are checked against only easily and "well-known" accessible package.
Now that I have, so to say, shown you mine, lets see yours. Where is the tool to perform these checks in C++?
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GCC 13 and the state of gccrs
The "break things" part of "move fast" is not essential, Rust cares so much about breakage they literally compile and run the tests for every crate on crates.io and github using a tool called Crater. They do this just to test changes, even for stuff thats documented to be unstable, because thats just courtesy. And tooling makes it trivial to switch between Rust versions.
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Do one thing, and do it well, or not.
The bot's named Crater if you want to look into it more.
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Improving Rust compile times to enable adoption of memory safety
See https://github.com/rust-lang/crater
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Discussion about the state of neovim's plugin ecosystem
Rust compiler developers use a tool called Crater to test potentially breaking compiler changes on all crates (Rust's name for libraries) uploaded to the official repository. If plugin stability is the issue, maybe a solution along these lines would be better than merging these plugins to Neovim's core?
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Experienced C++ users: what do you like about Rust? How would you sell it to other C++ users?
https://github.com/rust-lang/crater is the bot they use to test proposed compiler/stdlib changes against slices of the crates.io library up to and including "all of it".
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Data-driven performance optimization with Rust and Miri
The tool you're referring to is called Crater: https://github.com/rust-lang/crater.
- GHC 9.4.2 regresses being able to do math on aarch64
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Rust for Linux officially merged
I'm pretty certain this isn't actually true. You should look at the editions, etc. Rust also has an insane guarantee which I am certain C/C++ don't offer: It rebuilds its entire library ecosystem each time it ships to make sure nothing breaks (https://crater.rust-lang.org). I've never seen an instance were old code didn't compile on a new compiler. Rust isn't forwards compatible (new code compiles on an old compiler) of course, but what is?
What are some alternatives?
actix-net - A collection of lower-level libraries for composable network services.
FluentValidation - A popular .NET validation library for building strongly-typed validation rules.
wg-async - Working group dedicated to improving the foundations of Async I/O in Rust
monoio - Rust async runtime based on io-uring.
Dapper - Dapper - a simple object mapper for .Net [Moved to: https://github.com/DapperLib/Dapper]
vst3_public_sdk - VST 3 Implementation Helper Classes And Examples
AutoMapper - A convention-based object-object mapper in .NET.
Fundamental
rust-prehistory - historical archive of rust pre-publication development
essentia - C++ library for audio and music analysis, description and synthesis, including Python bindings
NUnit - NUnit Framework