Inline Viewport
Demonstrates the
Inline Viewport.
git clone https://github.com/ratatui/ratatui.git --branch latestcd ratatuicargo run --example=inline --features=crossterm
//! # [Ratatui] Inline 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::{ collections::{BTreeMap, VecDeque}, sync::mpsc, thread, time::{Duration, Instant},};
use color_eyre::Result;use rand::distributions::{Distribution, Uniform};use ratatui::{ backend::Backend, crossterm::event, layout::{Constraint, Layout, Rect}, style::{Color, Modifier, Style}, symbols, text::{Line, Span}, widgets::{Block, Gauge, LineGauge, List, ListItem, Paragraph, Widget}, Frame, Terminal, TerminalOptions, Viewport,};
fn main() -> Result<()> { color_eyre::install()?; let mut terminal = ratatui::init_with_options(TerminalOptions { viewport: Viewport::Inline(8), });
let (tx, rx) = mpsc::channel(); input_handling(tx.clone()); let workers = workers(tx); let mut downloads = downloads();
for w in &workers { let d = downloads.next(w.id).unwrap(); w.tx.send(d).unwrap(); }
let app_result = run(&mut terminal, workers, downloads, rx);
ratatui::restore();
app_result}
const NUM_DOWNLOADS: usize = 10;
type DownloadId = usize;type WorkerId = usize;enum Event { Input(event::KeyEvent), Tick, Resize, DownloadUpdate(WorkerId, DownloadId, f64), DownloadDone(WorkerId, DownloadId),}struct Downloads { pending: VecDeque<Download>, in_progress: BTreeMap<WorkerId, DownloadInProgress>,}
impl Downloads { fn next(&mut self, worker_id: WorkerId) -> Option<Download> { match self.pending.pop_front() { Some(d) => { self.in_progress.insert( worker_id, DownloadInProgress { id: d.id, started_at: Instant::now(), progress: 0.0, }, ); Some(d) } None => None, } }}struct DownloadInProgress { id: DownloadId, started_at: Instant, progress: f64,}struct Download { id: DownloadId, size: usize,}struct Worker { id: WorkerId, tx: mpsc::Sender<Download>,}
fn input_handling(tx: mpsc::Sender<Event>) { let tick_rate = Duration::from_millis(200); thread::spawn(move || { let mut last_tick = Instant::now(); loop { // poll for tick rate duration, if no events, sent tick event. let timeout = tick_rate.saturating_sub(last_tick.elapsed()); if event::poll(timeout).unwrap() { match event::read().unwrap() { event::Event::Key(key) => tx.send(Event::Input(key)).unwrap(), event::Event::Resize(_, _) => tx.send(Event::Resize).unwrap(), _ => {} }; } if last_tick.elapsed() >= tick_rate { tx.send(Event::Tick).unwrap(); last_tick = Instant::now(); } } });}
#[allow(clippy::cast_precision_loss, clippy::needless_pass_by_value)]fn workers(tx: mpsc::Sender<Event>) -> Vec<Worker> { (0..4) .map(|id| { let (worker_tx, worker_rx) = mpsc::channel::<Download>(); let tx = tx.clone(); thread::spawn(move || { while let Ok(download) = worker_rx.recv() { let mut remaining = download.size; while remaining > 0 { let wait = (remaining as u64).min(10); thread::sleep(Duration::from_millis(wait * 10)); remaining = remaining.saturating_sub(10); let progress = (download.size - remaining) * 100 / download.size; tx.send(Event::DownloadUpdate(id, download.id, progress as f64)) .unwrap(); } tx.send(Event::DownloadDone(id, download.id)).unwrap(); } }); Worker { id, tx: worker_tx } }) .collect()}
fn downloads() -> Downloads { let distribution = Uniform::new(0, 1000); let mut rng = rand::thread_rng(); let pending = (0..NUM_DOWNLOADS) .map(|id| { let size = distribution.sample(&mut rng); Download { id, size } }) .collect(); Downloads { pending, in_progress: BTreeMap::new(), }}
#[allow(clippy::needless_pass_by_value)]fn run( terminal: &mut Terminal<impl Backend>, workers: Vec<Worker>, mut downloads: Downloads, rx: mpsc::Receiver<Event>,) -> Result<()> { let mut redraw = true; loop { if redraw { terminal.draw(|frame| draw(frame, &downloads))?; } redraw = true;
match rx.recv()? { Event::Input(event) => { if event.code == event::KeyCode::Char('q') { break; } } Event::Resize => { terminal.autoresize()?; } Event::Tick => {} Event::DownloadUpdate(worker_id, _download_id, progress) => { let download = downloads.in_progress.get_mut(&worker_id).unwrap(); download.progress = progress; redraw = false; } Event::DownloadDone(worker_id, download_id) => { let download = downloads.in_progress.remove(&worker_id).unwrap(); terminal.insert_before(1, |buf| { Paragraph::new(Line::from(vec![ Span::from("Finished "), Span::styled( format!("download {download_id}"), Style::default().add_modifier(Modifier::BOLD), ), Span::from(format!( " in {}ms", download.started_at.elapsed().as_millis() )), ])) .render(buf.area, buf); })?; match downloads.next(worker_id) { Some(d) => workers[worker_id].tx.send(d).unwrap(), None => { if downloads.in_progress.is_empty() { terminal.insert_before(1, |buf| { Paragraph::new("Done !").render(buf.area, buf); })?; break; } } }; } }; } Ok(())}
fn draw(frame: &mut Frame, downloads: &Downloads) { let area = frame.area();
let block = Block::new().title(Line::from("Progress").centered()); frame.render_widget(block, area);
let vertical = Layout::vertical([Constraint::Length(2), Constraint::Length(4)]).margin(1); let horizontal = Layout::horizontal([Constraint::Percentage(20), Constraint::Percentage(80)]); let [progress_area, main] = vertical.areas(area); let [list_area, gauge_area] = horizontal.areas(main);
// total progress let done = NUM_DOWNLOADS - downloads.pending.len() - downloads.in_progress.len(); #[allow(clippy::cast_precision_loss)] let progress = LineGauge::default() .filled_style(Style::default().fg(Color::Blue)) .label(format!("{done}/{NUM_DOWNLOADS}")) .ratio(done as f64 / NUM_DOWNLOADS as f64); frame.render_widget(progress, progress_area);
// in progress downloads let items: Vec<ListItem> = downloads .in_progress .values() .map(|download| { ListItem::new(Line::from(vec![ Span::raw(symbols::DOT), Span::styled( format!(" download {:>2}", download.id), Style::default() .fg(Color::LightGreen) .add_modifier(Modifier::BOLD), ), Span::raw(format!( " ({}ms)", download.started_at.elapsed().as_millis() )), ])) }) .collect(); let list = List::new(items); frame.render_widget(list, list_area);
#[allow(clippy::cast_possible_truncation)] for (i, (_, download)) in downloads.in_progress.iter().enumerate() { let gauge = Gauge::default() .gauge_style(Style::default().fg(Color::Yellow)) .ratio(download.progress / 100.0); if gauge_area.top().saturating_add(i as u16) > area.bottom() { continue; } frame.render_widget( gauge, Rect { x: gauge_area.left(), y: gauge_area.top().saturating_add(i as u16), width: gauge_area.width, height: 1, }, ); }}