accesskit
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accesskit | rust | |
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24 | 2,680 | |
914 | 92,627 | |
2.5% | 2.4% | |
8.8 | 10.0 | |
8 days ago | 3 days ago | |
Rust | Rust | |
BSD 3-clause "New" or "Revised" License | GNU General Public License v3.0 or later |
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accesskit
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Looking for this. html + css rendering through wgpu.
If you were to implement this yourself, i'd look into either swash or cosmic-text for the text rendering stack (this is one of the things you really don't want to write from the ground up). For accessibility, AccessKit has quickly become the standard for communicating with crossplatform accessibility APIs in rust GUI. lightningcss (or its lower level counterpart cssparser) are both decent options for CSS parsing. Taffy handles some of what browsers offer for a layout engine, but is still being worked on.
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JetBrains Noria
> Fleet relies on the Java AWT/Swing framework to get a window from an operating system, but it doesn’t use the Java platform for managing its GUI components besides one JFrame and JPanel on top of it.
This is a terrible decision that is going to bite them in the long run. Doing things this way makes it far, far more difficult to implement accessibility, and regulations on this are only going to get stricter.
Implementing accessibility for a framework like that would involve three separate implementations for three separate platforms and the need to interface with D-Bus, COM and Objective C, from Java. I imagine that the latter two would be particularly difficult, considering how bad Java's FFI support is. It's not just calling methods either, you'd actually need to implement your own classes that conform to the relevant COM interfaces / Objective C protocols. There are libraries that can help with this[1], but I don't think they would work particularly well for something as complex as a code editor.
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fltk-accesskit: AccessKit integration for fltk
fltk-accesskit is an accesskit integration crate for fltk-rs, the gui crate. It's implemented as an external crate to allow for more experimentation before stabilizing the api, especially since fltk is at version 1.4.
- AccessKit - Cross-platform accessibility infrastructure
- Emerging Rust GUI libraries in a WASM world
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We're building a browser when it's supposed to be impossible
Libraries for a lot of this stuff exist (albeit in many cases not very mature yet):
- https://github.com/pop-os/cosmic-text does text layout (which Taffy explicitly considers out of scope)
- https://github.com/AccessKit/accesskit does accessibility
- https://github.com/servo/rust-cssparser does value-agnostic CSS parsing (it will parse the general syntax but leaves value parsing up to the user, meaning you can easily add support for whatever properties you what). Libraries like https://github.com/parcel-bundler/lightningcss implement parsing for the standard css properties.
- There are crates like https://github.com/BurntSushi/bstr and https://docs.rs/wtf8/latest/wtf8/ for working with non-unicode text
We are planning to add a C API to Taffy, but tbh I feel like C is not very good for this kind of modularised approach. You really want to be able to expose complex APIs with enforced type safety and this isn't possible with C.
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XUL Layout has been removed from Firefox
There are a number of up-and-coming Rust-based frameworks in this niche:
- https://github.com/iced-rs/iced (probably the most usable today)
- https://github.com/vizia/vizia
- https://github.com/marc2332/freya
- https://github.com/linebender/xilem (currently very incomplete but exciting because it's from a team with a strong track record)
What is also exciting to me is that the Rust GUI ecosystem is in many cases building itself up with modular libraries. So while we have umpteen competing frameworks they are to a large degree all building and collaborating on the same foundations. For example, we have:
- https://github.com/rust-windowing/winit (cross-platform window creation)
- https://github.com/gfx-rs/wgpu (abstraction on top of vulkan/metal/dx12)
- https://github.com/linebender/vello (a canvas like imperative drawing API on top of wgpu)
- https://github.com/DioxusLabs/taffy (UI layout algorithms)
- https://github.com/pop-os/cosmic-text (text rendering and editing)
- https://github.com/AccessKit/accesskit (cross-platform accessibility APIs)
In many cases there a see https://blessed.rs/crates#section-graphics-subsection-gui for a more complete list of frameworks and foundational libraries)
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A new open-sourcing project launches!!! A declarative, compose-based and cross-platform GUI
Using HarfBuzz makes sense. But if you're looking for a pure-Rust alternative, I hear cosmic-text (made by Pop!_OS) is good. There's also AccessKit for accessibility.
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GPU-Backed User Interfaces
There are efforts to support a cross platform accessibility library:
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Egui 0.20 Released
egui is an easy-to-use immediate mode GUI for Rust, and I just released 0.20. It's a big release!
There is now support for AccessKit (https://github.com/AccessKit/accesskit) which brings accessibility to egui (a first for an immediate mode GUI?).
There is also better table support, nicer keyboard shortcut handling, better looking text in light mode (still not great, but better).
See more in the changelog: https://github.com/emilk/egui/blob/master/CHANGELOG.md
Try it out at www.egui.rs
rust
- Rust Weird Exprs
- Critical safety flaw found in Rust on Windows (CVE-2024-24576)
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Unformat Rust code into perfect rectangles
Almost fixed the compiler: https://github.com/rust-lang/rust/pull/123325
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Implement React v18 from Scratch Using WASM and Rust - [1] Build the Project
Rust: A secure, efficient, and modern programming language (omitting ten thousand words). You can simply follow the installation instructions provided on the official website.
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Show HN: Fancy-ANSI – Small JavaScript library for converting ANSI to HTML
Recently did something similar in Rust but for generating SVGs. We've adopted it for snapshot testing of cargo and rustc's output. Don't have a good PR handy for showing Github's rendering of changes in the SVG (text, side-by-side, swiping) but https://github.com/rust-lang/rust/pull/121877/files has newly added SVGs.
To see what is supported, see the screenshot in the docs: https://docs.rs/anstyle-svg/latest/anstyle_svg/
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Upgrading Hundreds of Kubernetes Clusters
We strongly believe in Rust as a powerful language for building production-grade software, especially for systems like ours that run alongside Kubernetes.
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What Are Const Generics and How Are They Used in Rust?
The above Assert<{N % 2 == 1}> requires #![feature(generic_const_exprs)] and the nightly toolchain. See https://github.com/rust-lang/rust/issues/76560 for more info.
- Enable frame pointers for the Rust standard library
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Learning Rust: Structuring Data with Structs
Another week, another dive into Rust. This time, we're delving into structs. Structs bear resemblance to interfaces in TypeScript, enabling the grouping of intricate data sets within an object, much like TypeScript/JavaScript. Rust also accommodates functions within these structs, offering a semblance of classes, albeit with distinctions. Let's delve into this topic.
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Algorithms for Modern Hardware
There’s also other reasons. For example, take binary search:
* prefetch + cmov. These should be part of the STL but languages and compilers struggle to emit the cmov properly (Rust’s been broken for 6 years: https://github.com/rust-lang/rust/issues/53823). Prefetch is an interesting one because while you do optimize the binary search in a micro benchmark, you’re potentially putting extra pressure on the cache with “garbage” data which means it’s a greedy optimization that might hurt surrounding code. Probably should have separate implementations as binary search isn’t necessarily always in the hot path.
* Eytzinger layout has additional limitations that are often not discussed when pointing out “hey this is faster”. Adding elements is non-trivial since you first have to add + sort (as you would for binary search) and then rebuild a new parallel eytzinger layout from scratch (i.e. you’d have it be an index of pointers rather than the values themselves which adds memory overhead + indirection for the comparisons). You can’t find the “insertion” position for non-existent elements which means it can’t be used for std::lower_bound (i.e. if the element doesn’t exist, you just get None back instead of Err(position where it can be slotted in to maintain order).
Basically, optimizations can sometimes rely on changing the problem domain so that you can trade off features of the algorithm against the runtime. These kinds of algorithms can be a bad fit for a standard library which aims to be a toolbox of “good enough” algorithms and data structures for problems that appear very very frequently. Or they could be part of the standard library toolkit just under a different name but you also have to balance that against maintenance concerns.
What are some alternatives?
widevine-l3-guesser
carbon-lang - Carbon Language's main repository: documents, design, implementation, and related tools. (NOTE: Carbon Language is experimental; see README)
elm-architecture-tutorial - How to create modular Elm code that scales nicely with your app
zig - General-purpose programming language and toolchain for maintaining robust, optimal, and reusable software.
gyroflow - Video stabilization using gyroscope data
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).
femtovg
Odin - Odin Programming Language
chibi-scheme - Official chibi-scheme repository
Elixir - Elixir is a dynamic, functional language for building scalable and maintainable applications
workflows - Workflows make it easy to browse, search, execute and share commands (or a series of commands)--without needing to leave your terminal.
Rustup - The Rust toolchain installer