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Ratatui

Hello World

Demonstrates a basic hello world app.

run
git clone https://github.com/ratatui/ratatui.git --branch latest
cd ratatui
cargo run --example=hello_world --features=crossterm

hello_world

hello_world.rs
//! # [Ratatui] Hello World example
//!
//! The latest version of this example is available in the [examples] folder in the repository.
//!
//! Please note that the examples are designed to be run against the `main` branch of the Github
//! repository. This means that you may not be able to compile with the latest release version on
//! crates.io, or the one that you have installed locally.
//!
//! See the [examples readme] for more information on finding examples that match the version of the
//! library you are using.
//!
//! [Ratatui]: https://github.com/ratatui/ratatui
//! [examples]: https://github.com/ratatui/ratatui/blob/main/examples
//! [examples readme]: https://github.com/ratatui/ratatui/blob/main/examples/README.md


use std::time::Duration;


use color_eyre::{eyre::Context, Result};
use ratatui::{
    crossterm::event::{self, Event, KeyCode},
    widgets::Paragraph,
    DefaultTerminal, Frame,
};


/// This is a bare minimum example. There are many approaches to running an application loop, so
/// this is not meant to be prescriptive. It is only meant to demonstrate the basic setup and
/// teardown of a terminal application.
///
/// This example does not handle events or update the application state. It just draws a greeting
/// and exits when the user presses 'q'.
fn main() -> Result<()> {
    color_eyre::install()?; // augment errors / panics with easy to read messages
    let terminal = ratatui::init();
    let app_result = run(terminal).context("app loop failed");
    ratatui::restore();
    app_result
}


/// Run the application loop. This is where you would handle events and update the application
/// state. This example exits when the user presses 'q'. Other styles of application loops are
/// possible, for example, you could have multiple application states and switch between them based
/// on events, or you could have a single application state and update it based on events.
fn run(mut terminal: DefaultTerminal) -> Result<()> {
    loop {
        terminal.draw(draw)?;
        if should_quit()? {
            break;
        }
    }
    Ok(())
}


/// Render the application. This is where you would draw the application UI. This example draws a
/// greeting.
fn draw(frame: &mut Frame) {
    let greeting = Paragraph::new("Hello World! (press 'q' to quit)");
    frame.render_widget(greeting, frame.area());
}


/// Check if the user has pressed 'q'. This is where you would handle events. This example just
/// checks if the user has pressed 'q' and returns true if they have. It does not handle any other
/// events. There is a 250ms timeout on the event poll to ensure that the terminal is rendered at
/// least once every 250ms. This allows you to do other work in the application loop, such as
/// updating the application state, without blocking the event loop for too long.
fn should_quit() -> Result<bool> {
    if event::poll(Duration::from_millis(250)).context("event poll failed")? {
        if let Event::Key(key) = event::read().context("event read failed")? {
            return Ok(KeyCode::Char('q') == key.code);
        }
    }
    Ok(false)
}