History

Thorsten Ball 5a7b8f7fe3 linux: Fix restarting by waiting for sockets to be closed (#11488 ) This fixes a race-condition that showed up when trying to restart Nightly/Preview/... When running with these release channels, Zed tries to ensure that there's only one instance of Zed running. It does that by listening on a TCP socket to which other instances can connect on start. If the other instance receives a message, it knows that another Zed instance is running and exits. On Linux, though, we ran into a race condition: 1. `kill -0`, which checks whether a process is still running, returns an error, signalling that the old Zed process has exited 2. BUT: the process was still listening on the TCP port. It seems like that on Linux, process resources aren't guaranteed to be cleaned up as soon as signal handling stops working for a process. The fix is to wait until the process is no longer listening on any TCP sockets. There's a slight downside to this: GPUI processes that never listen on any TCP sockets now have to pay the cost of an additional `lsof` call when restarting. We do think that it's a reasonable tradeoff for now though, since the other options (extending the platform interface to provide callbacks, sharing the listening port in the framework, ...) seem wider-reaching only to fix a very local bug. Release Notes: - N/A Co-authored-by: Bennet <bennetbo@gmx.de>		2024-05-07 15:46:41 +02:00
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docs	Fix broken character (#9992 )	2024-03-30 14:39:45 -04:00
examples	Make `border` methods always require an explicit width (#11450 )	2024-05-06 13:22:47 -04:00
resources/windows	windows: Move manifest file to `gpui` (#11036 )	2024-04-26 13:56:48 -07:00
src	linux: Fix restarting by waiting for sockets to be closed (#11488 )	2024-05-07 15:46:41 +02:00
tests	Remove some todo!'s	2024-01-09 11:36:36 +02:00
build.rs	Use HIGH priority to wake blocked timers (#11269 )	2024-05-01 16:03:27 -06:00
Cargo.toml	x11: Cursor style support (#11237 )	2024-05-06 13:05:00 -07:00
LICENSE-APACHE	chore: Add crate licenses. (#4158 )	2024-01-23 16:56:22 +01:00
README.md	Fix some comments (#8760 )	2024-03-03 07:55:42 -05:00

README.md

Welcome to GPUI!

GPUI is a hybrid immediate and retained mode, GPU accelerated, UI framework for Rust, designed to support a wide variety of applications.

Getting Started

GPUI is still in active development as we work on the Zed code editor and isn't yet on crates.io. You'll also need to use the latest version of stable rust and be on macOS. Add the following to your Cargo.toml:

gpui = { git = "https://github.com/zed-industries/zed" }

Everything in GPUI starts with an App. You can create one with App::new(), and kick off your application by passing a callback to App::run(). Inside this callback, you can create a new window with AppContext::open_window(), and register your first root view. See gpui.rs for a complete example.

The Big Picture

GPUI offers three different registers depending on your needs:

State management and communication with Models. Whenever you need to store application state that communicates between different parts of your application, you'll want to use GPUI's models. Models are owned by GPUI and are only accessible through an owned smart pointer similar to an Rc. See the app::model_context module for more information.
High level, declarative UI with Views. All UI in GPUI starts with a View. A view is simply a model that can be rendered, via the Render trait. At the start of each frame, GPUI will call this render method on the root view of a given window. Views build a tree of elements, lay them out and style them with a tailwind-style API, and then give them to GPUI to turn into pixels. See the div element for an all purpose swiss-army knife of rendering.
Low level, imperative UI with Elements. Elements are the building blocks of UI in GPUI, and they provide a nice wrapper around an imperative API that provides as much flexibility and control as you need. Elements have total control over how they and their child elements are rendered and can be used for making efficient views into large lists, implement custom layouting for a code editor, and anything else you can think of. See the element module for more information.

Each of these registers has one or more corresponding contexts that can be accessed from all GPUI services. This context is your main interface to GPUI, and is used extensively throughout the framework.

Other Resources

In addition to the systems above, GPUI provides a range of smaller services that are useful for building complex applications:

Actions are user-defined structs that are used for converting keystrokes into logical operations in your UI. Use this for implementing keyboard shortcuts, such as cmd-q. See the action module for more information.
Platform services, such as quit the app or open a URL are available as methods on the app::AppContext.
An async executor that is integrated with the platform's event loop. See the executor module for more information.,
The [gpui::test] macro provides a convenient way to write tests for your GPUI applications. Tests also have their own kind of context, a TestAppContext which provides ways of simulating common platform input. See app::test_context and test modules for more details.

Currently, the best way to learn about these APIs is to read the Zed source code, ask us about it at a fireside hack, or drop a question in the Zed Discord. We're working on improving the documentation, creating more examples, and will be publishing more guides to GPUI on our blog.