Topcoat is a modular, batteries-included Rust framework for building fullstack apps. It prioritizes simplicity and productivity. See the Getting started guide to set up a new project.
Early-stage and experimental. Expect breaking changes.
use topcoat::{ Result, router::{Router, RouterBuilderDiscoverExt, page}, view::{component, view}, }; #[tokio::main] async fn main() { topcoat::start(Router::builder().discover().build()).await.unwrap(); } #[page("/")] async fn home() -> Result { view! { <!DOCTYPE html> <html> <body> hello(name: "World") </body> </html> } } #[component] async fn hello(name: &str) -> Result { view! { <h1>"Hello, " (name) "!"</h1> } }
Topcoat renders all markup on the server: components can be async and query the database directly, eliminating all the traditional boilerplate needed for a separate API layer. Interactivity does not have to cost a round-trip, though. A $(...) expression is ordinary type-checked Rust that Topcoat evaluates on the server for the initial render and also translates to JavaScript, so it re-runs instantly in the browser. No wasm bundle, no client build step:
view! { signal open = false; // Runs entirely in the browser; no server round-trip. <button @click=$(|_e| open.set(!open.get()))>"What is Topcoat?"</button> <p :hidden=$(!open.get())>"A fullstack Rust framework."</p> }
When an update does need the server, like fresh search results, mark the component as a #[shard]. Topcoat re-renders it on the server whenever one of its $(...) arguments changes and swaps the new HTML in place:
#[component] async fn search() -> Result { view! { signal query = String::new(); <input @input=$(|e: Event| query.set(e.target.value))> // Updates as the user types. search_results(query: $(query.get())) } } #[shard] async fn search_results(cx: &Cx, query: String) -> Result { view! { <ul> // Your own server-side code, like a database query: for product in search_products(cx, &query).await? { <li>(product.name)</li> } </ul> } }
The view! macro stays true to HTML and Rust. Use familiar Rust control flow as part of your templates:
view! { <nav> for item in nav_items { <a href=(item.url) if item.url == current_path { aria-current="page" class="active" } > (item.label) </a> } </nav> }
Use the topcoat fmt CLI command to automatically format view! snippets (and other macros) across your codebase.
Topcoat can optionally infer your route tree from your app's module structure (without a build step):
src/
|-- app.rs -> / (and the root <html> layout)
`-- app/
|-- about.rs -> /about
|-- _marketing.rs (layout, no URL segment)
|-- _marketing/
| `-- pricing.rs -> /pricing
|-- posts.rs -> /posts
|-- posts/
| `-- id.rs -> /posts/{post_id}
`-- api/
`-- health.rs -> GET /api/health
The bundler scans your compiled binary for asset! calls, copies (or even downloads) every file into a local asset directory, and allows Topcoat to serve them efficiently with aggressive browser caching.
const FERRIS: Asset = asset!("./ferris.png"); view! { <img src=(FERRIS)> }
Topcoat also ships with utilities for web fonts and icons, as well as easy integrations for Fontsource (Google Fonts) and Iconify.
Enabled the tailwind feature to integrate Tailwind into your project effortlessly:
view! { <link rel="stylesheet" href=(topcoat::tailwind::stylesheet!())> }
Start here
- Getting started: create a new project, install the CLI, run the dev server.
- Source code formatting:
topcoat fmtfor macro bodies.
Rendering
- The
view!macro: templating syntax, control flow, conditional attributes. - The
#[component]macro: async functions as components, with child content. - The
attributes!macro: reusable runtime attribute fragments. - The
class!macro: space-separated class lists from static and conditional entries.
Routing
- Router: pages, layouts, and API routes; manual and auto-discovered.
- Module-based routing: derive the route table from your module tree.
Working with requests
- Request context (
Cx): the value pages, layouts, and components read from. - App context: share long-lived values across requests, keyed by type.
- Memoization:
#[memoize]for per-request caching and fan-out dedup. - Functions, not middlewares: the recommended way to model auth and other request-scoped concerns.
- Cookies: read and write the request cookie jar, with signed, encrypted, and prefixed cookies.
- Sessions: bring-your-own-storage session authentication: login/logout lifecycle, sliding expiration, and token rotation.
Asset system
- Assets: declare assets in Rust, serve them with content-hashed URLs.
- Fonts: bundle and serve web fonts.
- Icons: download Iconify icon sets or declare your own.
Client reactivity
- The runtime: signals,
$(...)expressions,@event handlers, and:bind attributes. - Expressions: the dual Rust/JavaScript expression language and its vocabulary.
- Procedures: async server functions callable from the browser.
- Shards: components that re-render on the server when their arguments change.
Third-party integrations