4 releases (2 breaking)
0.2.0 | Feb 20, 2024 |
---|---|
0.1.1 | Dec 7, 2023 |
0.1.0 | Dec 7, 2023 |
0.0.0 | Nov 12, 2023 |
#1961 in Web programming
Used in 2 crates
26KB
421 lines
RCSS - Reusable CSS in the Rust app.
RCSS allows you to write styles directly in Rust code, mostly without quotes.
let css = css!{
.container {
background-color: black;
}
#id {
color: red;
}
button {
border: 1px solid black;
}
};
assert!(css.container.starts_with("container"));
RCSS uses LightningCSS (browser-grade CSS preprocessors) to parse and generate CSS code. It can bundle all CSS into static files, or generate inline CSS content.
It uses an approach similar to css_modules from JS world to expose CSS classes in a type-safe manner. For a selector that doesn't use class names, it uses a scoped-style approach (add a custom class with unique name).
Styles defined with RCSS can be extended and reused in other components.
// Declare a public module name foo;
css!{
@rcss(pub struct Foo);
.container {
color: green;
background-color: black;
}
};
// Component define what type of css it needs.
fn hello_world<C>(css: C) -> String
C: rcss::ScopeChain<Root = Foo>
{
// use ScopeChain to include style chain. Checkout rcss-layers for details.
format!(r#"<div class="{}">Hello</div>"#, css.container)
}
...
// Extend style from module foo, typecheck that no new classes, ids or types are added.
let css = css!{
@rcss(extend ::path::to::Foo);
.container {
background-color: red;
}
};
let html = hello_world(css);
To better control cascading and avoid conflicts, RCSS provides crate rcss-layers
that can save extended styles into CSS @layer
.
Usage:
[dependencies]
rcss = "0.2"
RCSS is not focused on any specific web framework, it can be used even without frameworks, just with format!
, but to make it more convenient, this repository
will also include integration with popular web frameworks.
Currently, there is only one integration crate: rcss-leptos
for leptos
Usage with leptos:
To use rcss with leptos, add this to your Cargo.toml
:
[dependencies]
rcss = "0.2"
rcss-leptos = "0.2"
then in component, you can use css!
macro to define styles.
use rcss::css;
use leptos::*;
#[component]
fn hello_world() -> Node {
let css = css!{
.container {
background-color: black;
color: white;
}
};
rcss_leptos::register_style(css.clone());
view! {
<div class=css.container>Hello</div>
}
}
More examples can be found in examples/leptos
directory.
Bundling CSS:
RCSS can bundle all CSS into a static file.
To do that one can use rcss-bundler
crate in build.rs.
[build-dependencies]
rcss-bundler = "0.2"
fn main() {
rcss_bundler::bundle_build_rs();
}
By default, the bundler will save CSS into $OUT_DIR/styles.css
. However, this can be customized through cargo metadata.
[package.metadata.rcss]
output-path = "style/counters.css" # Path to save styles
disable-styles = false # If set to true will force `rcss-macro` to remove style strings from macro output.
Note: disable-styles
can be ignored by rcss-macro
if rcss-bundler
was added after the first build.
One can use cargo clean -p rcss-macro
or cargo clean -p rcss-macro --target-dir target/front
(in case of cargo-leptos) to force cargo rebuild rcss-macro
.
Known issues:
-
rcss-bundler
should be used only from one root crate. If you have multiple crates that usercss-bundler
, or workspace that share building artifacts of multiple root crates in one target directory - it will cause a conflict with configuring. For example, if one root crate setsdisable-styles=true
and one does not, thercss-bundler
will throw a warning and usedisable-styles=false
for all workspace/crates. -
Currently, CSS parsing errors are not fully integrated with rust diagnostics messages, so if you have invalid CSS syntax it will just throw a generic error, without highlighting the exact place of the error.
-
Unquoted text in macros has a few limitations like it can't contain single quotes
'
or unfinished braces (like{
or(
). This is because of the way Rust provides TokenStream to macro. -
Unquoted text doesn't work well with
em
units and some hex numbers that start with number and has lettere
(like#0ed
) because rust parses them as exponential number literals, and expecting a number aftere
instead of a letter "m".
For problems 3-4, one can use interpolation as workaround #{"3em"}
with quoted text inside.
Macro implementation details:
There are two ways of writing function macros in Rust.
- One is to handle
TokenStream
from proc-macro. This way saves links to the original code, therefore IDE and compiler can show errors linked to the original code, variables can be resolved and so on. ButTokenStream
in Rust is specialized for Rust syntax and it's harder to support foreign syntax in it.
Check out rstml::RawText or rstml::NodeName both of these structs provide a hacky way to parse HTML-specific syntax, like dash-seperated-idents or unquoted text.
- The other way is to handle macro input as a regular string. This way is more flexible because you can use any parser you want, but you lose all the benefits of `TokenStream`` and have to write your parser.
Unlike HTML templating where you need some way to mix reactive variables from Rust and templates - CSS usually contains static predefined content, which rarely needs to be generated at runtime. Therefore link between the original code and IDE is less important. Instead, most of the users just want to write CSS for their components near its implementation.
So instead of writing a custom parser on top of proc-macro::TokenStream
, this library tries to convert macro calls into strings and work with convenient CSS preprocessors.
Dependencies
~12MB
~171K SLoC