This is a Tauri project template using Next.js,
bootstrapped by combining create-next-app
and create tauri-app
.
This template uses yarn
as the Node.js dependency
manager.
- TypeScript frontend using Next.js React framework
- TailwindCSS as a utility-first atomic CSS framework
- The example page in this template app has been updated to use only TailwindCSS
- While not included by default, consider using HeadlessUI components for completely unstyled and fully accessible UI components, which integrate nicely with TailwindCSS
- Opinionated formatting and linting already setup and enabled
- GitHub Actions to check code formatting and linting for both TypeScript and Rust
To develop and run the frontend in a Tauri window:
yarn dev
This will load the Next.js frontend directly in a Tauri webview window, in addition to
starting a development server on localhost:3000
.
To export the Next.js frontend via SSG and build the Tauri application for release:
yarn build
Please remember to change the bundle identifier in
tauri.conf.json > tauri > bundle > identifier
, as the default value will yield an
error that prevents you from building the application for release.
Next.js frontend source files are located in src/
and Tauri Rust application source
files are located in src-tauri/
. Please consult the Next.js and Tauri documentation
respectively for questions pertaining to either technology.
Next.js is a great React frontend framework which supports server-side rendering (SSR) as well as static site generation (SSG or pre-rendering). For the purposes of creating a Tauri frontend, only SSG can be used since SSR requires an active Node.js server.
Using Next.js and SSG helps to provide a quick and performant single-page-application (SPA) frontend experience. More information regarding this can be found here: https://nextjs.org/docs/basic-features/pages#pre-rendering
The next/image
component
is an enhancement over the regular <img>
HTML element with additional optimizations
built in. However, because we are not deploying the frontend onto Vercel directly, some
optimizations must be disabled to properly build and export the frontend via SSG.
As such, the
unoptimized
property
is set to true for the next/image
component in the next.config.js
configuration.
This will allow the image to be served as-is from source, without
changes to its quality, size, or format.
If you are getting this issue when trying to run yarn tauri dev
, it may be that you
have a newer version of a Rust dependency that uses an unstable feature.
yarn tauri build
should still work for production builds, but to get the dev command
working, either downgrade the dependency or use Rust nightly via
rustup override set nightly
.
If you are using Tauri's invoke
function or any OS related Tauri function from within
JavaScript, you may encounter this error when importing the function in a global,
non-browser context. This is due to the nature of Next.js' dev server effectively
running a Node.js server for SSR and hot module replacement (HMR), and Node.js does not
have a notion of window
or navigator
.
Make sure that you are calling these functions within the browser context, e.g. within a
React component inside a useEffect
hook when the DOM actually exists by then. If you
are trying to use a Tauri function in a generalized utility source file, a workaround is
to use dependency injection for the function itself to delay the actual importing of the
real function (see example below for more info).
Example using Tauri's invoke
function:
src/lib/some_tauri_functions.ts
(problematic)
// Generalized file containing all the invoke functions we need to fetch data from Rust
import { invoke } from "@tauri-apps/api/tauri"
const loadFoo = (): Promise<string> => {
return invoke<string>("invoke_handler_foo")
}
const loadBar = (): Promise<string> => {
return invoke<string>("invoke_handler_bar")
}
const loadBaz = (): Promise<string> => {
return invoke<string>("invoke_handler_baz")
}
// and so on ...
src/lib/some_tauri_functions.ts
(fixed)
// Generalized file containing all the invoke functions we need to fetch data from Rust
//
// We apply the idea of dependency injection to use a supplied invoke function as a
// function argument, rather than directly referencing the Tauri invoke function.
// Hence, don't import invoke globally in this file.
//
// import { invoke } from "@tauri-apps/api/tauri" <-- remove this!
//
import { InvokeArgs } from "@tauri-apps/api/tauri"
type InvokeFunction = <T>(cmd: string, args?: InvokeArgs | undefined) => Promise<T>
const loadFoo = (invoke: InvokeFunction): Promise<string> => {
return invoke<string>("invoke_handler_foo")
}
const loadBar = (invoke: InvokeFunction): Promise<string> => {
return invoke<string>("invoke_handler_bar")
}
const loadBaz = (invoke: InvokeFunction): Promise<string> => {
return invoke<string>("invoke_handler_baz")
}
// and so on ...
Then, when using loadFoo
/loadBar
/loadBaz
within your React components, import the
invoke function from @tauri-apps/api
and pass invoke
into the loadXXX function as
the InvokeFunction
argument. This should allow the actual Tauri API to be bundled
only within the context of a React component, so it should not be loaded by Next.js upon
initial startup until the browser has finished loading the page.
Since the Tauri API needs to read from the browser's window
and navigator
object,
this data does not exist in a Node.js and hence SSR environment. One can create an
exported function that wraps the Tauri API behind a dynamic runtime import()
call.
Example: create a src/lib/tauri.ts
to re-export invoke
import type { InvokeArgs } from "@tauri-apps/api/tauri"
const isNode = (): boolean =>
Object.prototype.toString.call(typeof process !== "undefined" ? process : 0) ===
"[object process]"
export async function invoke<T>(
cmd: string,
args?: InvokeArgs | undefined,
): Promise<T> {
if (isNode()) {
// This shouldn't ever happen when React fully loads
return Promise.resolve(undefined as unknown as T)
}
const tauriAppsApi = await import("@tauri-apps/api")
const tauriInvoke = tauriAppsApi.invoke
return tauriInvoke(cmd, args)
}
Then, instead of importing import { invoke } from "@tauri-apps/api/tauri"
, use invoke
from import { invoke } from "@/lib/tauri"
.
To learn more about Next.js, take a look at the following resources:
- Next.js Documentation - learn about Next.js features and API.
- Learn Next.js - an interactive Next.js tutorial.
And to learn more about Tauri, take a look at the following resources:
- Tauri Documentation - Guides - learn about the Tauri toolkit.