Visualize ownership and lifetimes in Rust for debugging and optimization
You can try out RustOwl on play.rustowl.rs
RustOwl visualizes ownership movement and lifetimes of variables. When you save Rust source code, it is analyzed, and the ownership and lifetimes of variables are visualized when you hover over a variable or function call.
RustOwl visualizes those by using underlines:
- π© green: variable's actual lifetime
- π¦ blue: immutable borrowing
- πͺ purple: mutable borrowing
- π§ orange: value moved / function call
- π₯ red: lifetime error
- Diff of lifetime between actual and expected, or
- Invalid overlapped lifetime of mutable and shared (immutable) references
Detailed usage is described here.
Currently, we offer VSCode extension, Neovim plugin and Emacs package. For these editors, move the text cursor over the variable or function call you want to inspect and wait for 2 seconds to visualize the information. We implemented LSP server with an extended protocol. So, RustOwl can be used easily from other editor.
If you're looking for support, please consider checking all issues, existing discussions, and starting a discussion first!
Also, you can reach out to us on the Discord server provided above.
Here we describe how to start using RustOwl.
cargoinstalled- You can install
cargousingrustupfrom this link.
- You can install
- Visual Studio Code (VS Code) installed
We tested this guide on macOS Sequoia 15.3.2 on arm64 architecture with VS Code 1.99.3 and cargo 1.89.0.
You can install VS Code extension from this link. RustOwl will be installed automatically when the extension is activated.
For more detailed configuration options, see the VS Code Configuration Guide.
You can install Vscodium extension from this link. RustOwl will be installed automatically when the extension is activated.
After installation, the extension will automatically run RustOwl when you save any Rust program in cargo workspace. The initial analysis may take some time, but from the second run onward, compile caching is used to reduce the analysis time.
Same as VS Code, see the VS Code Configuration Guide for more detailed configuration options.
We support Neovim and Emacs. You have to install RustOwl before using RustOwl with other editors.
You can also create your own LSP client. If you would like to implement a client, please refer to the The RustOwl LSP specification.
Minimal setup with lazy.nvim:
{
'cordx56/rustowl',
version = '*', -- Latest stable version
build = 'cargo install rustowl',
lazy = false, -- This plugin is already lazy
opts = {},
}For comprehensive configuration options including custom highlight colors, see the Neovim Configuration Guide.
Elpaca example:
(elpaca
(rustowl
:host github
:repo "cordx56/rustowl"))Then use-package:
(use-package rustowl
:after lsp-mode)You have to install RustOwl LSP server manually.
For more detailed configuration options, see the Emacs Configuration Guide.
There is a third-party repository that supports IntelliJ IDEs. You have to install RustOwl LSP server manually.
There is a third-party repository that supports Sublime Text.
Please see Installation for detailed installation instructions.
Please see Usage for detailed usage instructions.
In this tool, due to the limitations of VS Code's decoration specifications, characters with descenders, such as g or parentheses, may occasionally not display underlines properly.
Additionally, we observed that the println! macro sometimes produces extra output, though this does not affect usability in any significant way.
