extern crate termion; extern crate tui; use std::io; use std::sync::mpsc; use std::thread; use std::time; use termion::event; use termion::input::TermRead; use tui::backend::MouseBackend; use tui::layout::{Direction, Group, Rect, Size}; use tui::style::{Color, Modifier, Style}; use tui::widgets::{BarChart, Block, Borders, Widget}; use tui::Terminal; struct App<'a> { size: Rect, data: Vec<(&'a str, u64)>, } impl<'a> App<'a> { fn new() -> App<'a> { App { size: Rect::default(), data: vec![ ("B1", 9), ("B2", 12), ("B3", 5), ("B4", 8), ("B5", 2), ("B6", 4), ("B7", 5), ("B8", 9), ("B9", 14), ("B10", 15), ("B11", 1), ("B12", 0), ("B13", 4), ("B14", 6), ("B15", 4), ("B16", 6), ("B17", 4), ("B18", 7), ("B19", 13), ("B20", 8), ("B21", 11), ("B22", 9), ("B23", 3), ("B24", 5), ], } } fn advance(&mut self) { let value = self.data.pop().unwrap(); self.data.insert(0, value); } } enum Event { Input(event::Key), Tick, } fn main() { // Terminal initialization let backend = MouseBackend::new().unwrap(); let mut terminal = Terminal::new(backend).unwrap(); // Channels let (tx, rx) = mpsc::channel(); let input_tx = tx.clone(); let clock_tx = tx.clone(); // Input thread::spawn(move || { let stdin = io::stdin(); for c in stdin.keys() { let evt = c.unwrap(); input_tx.send(Event::Input(evt)).unwrap(); if evt == event::Key::Char('q') { break; } } }); // Tick thread::spawn(move || loop { clock_tx.send(Event::Tick).unwrap(); thread::sleep(time::Duration::from_millis(500)); }); // App let mut app = App::new(); // First draw call terminal.clear().unwrap(); terminal.hide_cursor().unwrap(); app.size = terminal.size().unwrap(); draw(&mut terminal, &app); loop { let size = terminal.size().unwrap(); if app.size != size { terminal.resize(size).unwrap(); app.size = size; } let evt = rx.recv().unwrap(); match evt { Event::Input(input) => if input == event::Key::Char('q') { break; }, Event::Tick => { app.advance(); } } draw(&mut terminal, &app); } terminal.show_cursor().unwrap(); } fn draw(t: &mut Terminal, app: &App) { Group::default() .direction(Direction::Vertical) .margin(2) .sizes(&[Size::Percent(50), Size::Percent(50)]) .render(t, &app.size, |t, chunks| { BarChart::default() .block(Block::default().title("Data1").borders(Borders::ALL)) .data(&app.data) .bar_width(9) .style(Style::default().fg(Color::Yellow)) .value_style(Style::default().fg(Color::Black).bg(Color::Yellow)) .render(t, &chunks[0]); Group::default() .direction(Direction::Horizontal) .sizes(&[Size::Percent(50), Size::Percent(50)]) .render(t, &chunks[1], |t, chunks| { BarChart::default() .block(Block::default().title("Data2").borders(Borders::ALL)) .data(&app.data) .bar_width(5) .bar_gap(3) .style(Style::default().fg(Color::Green)) .value_style(Style::default().bg(Color::Green).modifier(Modifier::Bold)) .render(t, &chunks[0]); BarChart::default() .block(Block::default().title("Data3").borders(Borders::ALL)) .data(&app.data) .style(Style::default().fg(Color::Red)) .bar_width(7) .bar_gap(0) .value_style(Style::default().bg(Color::Red)) .label_style(Style::default().fg(Color::Cyan).modifier(Modifier::Italic)) .render(t, &chunks[1]); }) }); t.draw().unwrap(); }