# Development FlightCore uses [Tauri](https://tauri.app/) as its UI framework. This means it is split into a **backend** written in [Rust](https://www.rust-lang.org/) and a **frontend** written in [Vue](https://vuejs.org/) and [TypeScript](https://www.typescriptlang.org/). ## Design goals In general FlightCore should _just work™_ for the majority of people using it. All errors should be caught and handled where possible. Thanks to CI and auto-updating, releases are easy to deploy and should be made whenever new features are available. Pro-user and developer oriented features should be hidden by default to avoid users activating them by accident but still easy enough to access such that it doesn't become a hassle using them. As for splitting logic between _frontend_ and _backend_, state and UI related logic should be done in frontend while all the remaining logic is done in backend. The backend should not hold state to avoid any concurrency issues in regards to asynchronous and multithreaded calls into the backend. ## Setup Make sure you have the necessary dependencies for Tauri installed as described in this link: https://tauri.app/v1/guides/getting-started/prerequisites Then, install `npm` dependencies with ```sh npm install ``` Install UI dependencies too ```sh cd src-vue && npm install ``` Then for developing ```sh npx tauri dev ``` Automatic recompiling on save is enabled for both the Rust and the Typescript/Vue code. ## Tauri An introduction to Tauri can be seen in this short YouTube video: https://youtu.be/-X8evddpu7M A longer Tauri tutorial can be found here: https://youtu.be/kRoGYgAuZQE ## Tips Note that you can adjust the behaviour of Tauri windows in `tauri.conf.json`, e.g. ```json "windows": [ { "fullscreen": false, "resizable": true, "alwaysOnTop": true, "x": 1200, "y": 0, "height": 500, "width": 300, "title": "FlightCore" } ] ``` ## Docs If you have any questions about the code please reach out via GitHub issues, DMs, or pinging `@Gecko` or `@Alystrasz` on the Northstar Discord. A lot of code was written in the process of learning Rust and Vue/Typescript so it might not always follow best practices. If you notice ways to improve it, please feel encouraged to open a PR with the change or open an issue pointing out potential points for improvement. ### Frontend styling For Vue components FlightCore uses the [Element Plus](https://element-plus.org/) library. A list of available components can be found [here](https://element-plus.org/en-US/component/button.html). ### Interacting between frontend and backend The main way the frontend calls the backend is via the `invoke()` function provided by Tauri. So assuming you have a backend function ```Rust fn my_func(some_string: String, some_int: u32) {} ``` You can call it from the frontend with: ```Typescript await invoke("my_func", { someString: "Hello, World!", someInt: random_int }) ``` Note the change between `snake_case` and `camelCase` in the function argument names. This is imposed by Tauri. For returning values after the function call using the `Result` type in Rust is recommended. This means you'll have a function ```Rust fn other_func() -> Result {} ``` which returns `Result` Now in the frontend when calling it you can for example ```Typescript await invoke("other_func") .then((message) => { // Success console.log(`Call returned: ${message}`) }) .catch((error) => { // Error console.log(error) }); ``` but also ```Typescript // Store return in `result` on success let result = await invoke("other_func") .catch((error) => { // Error console.log(error) }); ``` For more info, see the Tauri docs: https://tauri.app/v1/guides/features/command/ For periodic calls between backend and frontend you can use events. See the Tauri docs here: https://tauri.app/v1/guides/features/events/ ### Persistent store In regards to storing persistent data, FlightCore uses [`tauri-plugin-store`](https://github.com/tauri-apps/tauri-plugin-store). It's a key-value store accessed in frontend to load and store small amounts of data. The goal is to store as little data in there as possible and instead get the necessary info on app launch. For example the install path of Titanfall2 should be inferred everytime on launch using Steam library or Origin, so that if the player changes the install location, there's no need to sync it up with the persistent store again. The exception to this is when Steam/Origin is unable to find the install location and the user manually selected a location instead. In this case, we don't want to re-prompt the user on every launch of FlightCore to enter the Titanfall2 install location. **Usage example for `tauri-plugin-store`:** ```typescript // Import the lib import { Store } from 'tauri-plugin-store-api'; // Define a store based on filename to write to const persistentStore = new Store('flight-core-settings.json'); // Save change in persistent store await persistentStore.set('northstar-release-canal', { value: "NorthstarReleasecandidate" }); // Grab Northstar release canal value from store if exists var persistent_northstar_release_canal = (await persistentStore.get('northstar-release-canal')) as any; if(persistent_northstar_release_canal) { // For some reason, the plugin-store doesn't throw an eror but simply returns `null` when key not found // Put value from peristent store into current store state.northstar_release_canal = persistent_northstar_release_canal.value as string; } else { console.log("Value not found in store"); } ``` ## Other This repo uses [EditorConfig](https://editorconfig.org/) to define some basic formatting rules. Find a plugin for your IDE [here](https://editorconfig.org/#download). ## Additional info Based on source code for the [Rust Tauri Introduction Video](https://www.youtube.com/watch?v=kRoGYgAuZQE&list=PL7r-PXl6ZPcCIOFaL7nVHXZvBmHNhrh_Q)