extern crate tui; #[macro_use] extern crate log; extern crate log4rs; extern crate termion; extern crate rand; use std::io; use std::thread; use std::env; use std::time; use std::sync::mpsc; use rand::distributions::{IndependentSample, Range}; use termion::event; use termion::input::TermRead; use log::LogLevelFilter; use log4rs::append::file::FileAppender; use log4rs::encode::pattern::PatternEncoder; use log4rs::config::{Appender, Config, Root}; use tui::{Terminal, TermionBackend}; use tui::widgets::{Widget, Block, List, Gauge, Sparkline, Paragraph, border, Chart, Axis, Dataset, BarChart, Marker, Tabs, Table}; use tui::widgets::canvas::{Canvas, Map, MapResolution, Line}; use tui::layout::{Group, Direction, Size, Rect}; use tui::style::{Style, Color, Modifier}; #[derive(Clone)] struct RandomSignal { range: Range, rng: rand::ThreadRng, } impl RandomSignal { fn new(r: Range) -> RandomSignal { RandomSignal { range: r, rng: rand::thread_rng(), } } } impl Iterator for RandomSignal { type Item = u64; fn next(&mut self) -> Option { Some(self.range.ind_sample(&mut self.rng)) } } #[derive(Clone)] struct SinSignal { x: f64, interval: f64, period: f64, scale: f64, } impl SinSignal { fn new(interval: f64, period: f64, scale: f64) -> SinSignal { SinSignal { x: 0.0, interval: interval, period: period, scale: scale, } } } impl Iterator for SinSignal { type Item = (f64, f64); fn next(&mut self) -> Option { let point = (self.x, (self.x * 1.0 / self.period).sin() * self.scale); self.x += self.interval; Some(point) } } struct Server<'a> { name: &'a str, location: &'a str, coords: (f64, f64), status: &'a str, } struct MyTabs { titles: [&'static str; 2], selection: usize, } impl MyTabs { fn next(&mut self) { self.selection = (self.selection + 1) % self.titles.len(); } fn previous(&mut self) { if self.selection > 0 { self.selection -= 1; } } } struct App<'a> { size: Rect, items: Vec<&'a str>, items2: Vec<&'a str>, selected: usize, tabs: MyTabs, show_chart: bool, progress: u16, data: Vec, data2: Vec<(f64, f64)>, data3: Vec<(f64, f64)>, data4: Vec<(&'a str, u64)>, window: [f64; 2], colors: [Color; 2], color_index: usize, servers: Vec>, } enum Event { Input(event::Key), Tick, } fn main() { for argument in env::args() { if argument == "--log" { let log = FileAppender::builder() .encoder(Box::new(PatternEncoder::new("{l} / {d(%H:%M:%S)} / \ {M}:{L}{n}{m}{n}{n}"))) .build("demo.log") .unwrap(); let config = Config::builder() .appender(Appender::builder().build("log", Box::new(log))) .build(Root::builder().appender("log").build(LogLevelFilter::Debug)) .unwrap(); log4rs::init_config(config).unwrap(); } } info!("Start"); let mut rand_signal = RandomSignal::new(Range::new(0, 100)); let mut sin_signal = SinSignal::new(0.2, 3.0, 18.0); let mut sin_signal2 = SinSignal::new(0.1, 2.0, 10.0); let mut app = App { size: Rect::default(), items: vec!["Item1", "Item2", "Item3", "Item4", "Item5", "Item6", "Item7", "Item8", "Item9", "Item10", "Item11", "Item12", "Item13", "Item14", "Item15", "Item16", "Item17", "Item18", "Item19", "Item20", "Item21", "Item22", "Item23", "Item24"], items2: vec!["Event1", "Event2", "Event3", "Event4", "Event5", "Event6", "Event7", "Event8", "Event9", "Event10", "Event11", "Event12", "Event13", "Event14", "Event15", "Event16", "Event17", "Event18", "Event19", "Event20", "Event21", "Event22", "Event23", "Event24", "Event25", "Event26"], selected: 0, tabs: MyTabs { titles: ["Tab0", "Tab1"], selection: 0, }, show_chart: true, progress: 0, data: rand_signal.clone().take(300).collect(), data2: sin_signal.clone().take(100).collect(), data3: sin_signal2.clone().take(200).collect(), data4: 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)], window: [0.0, 20.0], colors: [Color::Magenta, Color::Red], color_index: 0, servers: vec![Server { name: "NorthAmerica-1", location: "New York City", coords: (40.71, -74.00), status: "Up", }, Server { name: "Europe-1", location: "Paris", coords: (48.85, 2.35), status: "Failure", }, Server { name: "SouthAmerica-1", location: "São Paulo", coords: (-23.54, -46.62), status: "Up", }, Server { name: "Asia-1", location: "Singapore", coords: (1.35, 103.86), status: "Up", }], }; let (tx, rx) = mpsc::channel(); let input_tx = tx.clone(); for _ in 0..100 { sin_signal.next(); } for _ in 0..200 { sin_signal2.next(); } 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; } } }); thread::spawn(move || { let tx = tx.clone(); loop { tx.send(Event::Tick).unwrap(); thread::sleep(time::Duration::from_millis(200)); } }); let mut terminal = Terminal::new(TermionBackend::new().unwrap()).unwrap(); terminal.clear().unwrap(); terminal.hide_cursor().unwrap(); loop { let size = terminal.size().unwrap(); if size != app.size { terminal.resize(size).unwrap(); app.size = size; } draw(&mut terminal, &app).unwrap(); let evt = rx.recv().unwrap(); match evt { Event::Input(input) => { match input { event::Key::Char('q') => { break; } event::Key::Up => { if app.selected > 0 { app.selected -= 1 }; } event::Key::Down => { if app.selected < app.items.len() - 1 { app.selected += 1; } } event::Key::Left => { app.tabs.previous(); } event::Key::Right => { app.tabs.next(); } event::Key::Char('t') => { app.show_chart = !app.show_chart; } _ => {} } } Event::Tick => { app.progress += 5; if app.progress > 100 { app.progress = 0; } app.data.insert(0, rand_signal.next().unwrap()); app.data.pop(); for _ in 0..5 { app.data2.remove(0); app.data2.push(sin_signal.next().unwrap()); } for _ in 0..10 { app.data3.remove(0); app.data3.push(sin_signal2.next().unwrap()); } let i = app.data4.pop().unwrap(); app.data4.insert(0, i); app.window[0] += 1.0; app.window[1] += 1.0; let i = app.items2.pop().unwrap(); app.items2.insert(0, i); app.color_index += 1; if app.color_index >= app.colors.len() { app.color_index = 0; } } } } terminal.show_cursor().unwrap(); } fn draw(t: &mut Terminal, app: &App) -> Result<(), io::Error> { Group::default() .direction(Direction::Vertical) .sizes(&[Size::Fixed(3), Size::Min(0)]) .render(t, &app.size, |t, chunks| { Tabs::default() .block(Block::default().borders(border::ALL).title("Tabs")) .titles(&app.tabs.titles) .style(Style::default().fg(Color::Green)) .highlight_style(Style::default().fg(Color::Yellow)) .select(app.tabs.selection) .render(t, &chunks[0]); match app.tabs.selection { 0 => { draw_main(t, app, &chunks[1]); } 1 => { Group::default() .direction(Direction::Horizontal) .sizes(&[Size::Percent(30), Size::Percent(70)]) .render(t, &chunks[1], |t, chunks| { Table::default() .block(Block::default() .title("Servers") .borders(border::ALL)) .header(&["Server", "Location", "Status"]) .header_style(Style::default().fg(Color::Red)) .widths(&[15, 15, 10]) .rows(app.servers .iter() .map(|s| vec![s.name, s.location, s.status]) .collect::>>()) .render(t, &chunks[0]); Canvas::default() .block(Block::default().title("World").borders(border::ALL)) .paint(|ctx| { ctx.draw(&Map { color: Color::White, resolution: MapResolution::High, }); ctx.layer(); for (i, s1) in app.servers.iter().enumerate() { for s2 in &app.servers[i + 1..] { ctx.draw(&Line { x1: s1.coords.1, y1: s1.coords.0, y2: s2.coords.0, x2: s2.coords.1, color: Color::Yellow, }); } } for server in &app.servers { let color = if server.status == "Up" { Color::Green } else { Color::Red }; ctx.print(server.coords.1, server.coords.0, "X", color); } }) .x_bounds([-180.0, 180.0]) .y_bounds([-90.0, 90.0]) .render(t, &chunks[1]); }) } _ => {} }; }); try!(t.draw()); Ok(()) } fn draw_main(t: &mut Terminal, app: &App, area: &Rect) { Group::default() .direction(Direction::Vertical) .sizes(&[Size::Fixed(7), Size::Min(7), Size::Fixed(7)]) .render(t, area, |t, chunks| { Block::default() .borders(border::ALL) .title("Graphs") .render(t, &chunks[0]); Group::default() .direction(Direction::Vertical) .margin(1) .sizes(&[Size::Fixed(2), Size::Fixed(3)]) .render(t, &chunks[0], |t, chunks| { Gauge::default() .block(Block::default().title("Gauge:")) .style(Style::default().fg(Color::Magenta).bg(Color::Black).modifier(Modifier::Italic)) .percent(app.progress) .render(t, &chunks[0]); Sparkline::default() .block(Block::default().title("Sparkline:")) .style(Style::default().fg(Color::Green)) .data(&app.data) .render(t, &chunks[1]); }); let sizes = if app.show_chart { vec![Size::Percent(50), Size::Percent(50)] } else { vec![Size::Percent(100)] }; Group::default() .direction(Direction::Horizontal) .sizes(&sizes) .render(t, &chunks[1], |t, chunks| { Group::default() .direction(Direction::Vertical) .sizes(&[Size::Percent(50), Size::Percent(50)]) .render(t, &chunks[0], |t, chunks| { Group::default() .direction(Direction::Horizontal) .sizes(&[Size::Percent(50), Size::Percent(50)]) .render(t, &chunks[0], |t, chunks| { List::default() .block(Block::default() .borders(border::ALL) .title("List")) .items(&app.items) .select(app.selected) .highlight_style(Style::default().fg(Color::Yellow).modifier(Modifier::Bold)) .highlight_symbol(">") .render(t, &chunks[0]); List::default() .block(Block::default() .borders(border::ALL) .title("List")) .items(&app.items2) .render(t, &chunks[1]); }); BarChart::default() .block(Block::default() .borders(border::ALL) .title("Bar chart")) .data(&app.data4) .bar_width(3) .bar_gap(2) .value_style(Style::default().fg(Color::Black).bg(Color::Green).modifier(Modifier::Italic)) .label_style(Style::default().fg(Color::Yellow)) .style(Style::default().fg(Color::Green)) .render(t, &chunks[1]); }); if app.show_chart { Chart::default() .block(Block::default() .title("Chart") .title_style(Style::default() .fg(Color::Cyan) .modifier(Modifier::Bold)) .borders(border::ALL)) .x_axis(Axis::default() .title("X Axis") .style(Style::default().fg(Color::Gray)) .labels_style(Style::default().modifier(Modifier::Italic)) .bounds(app.window) .labels(&[&format!("{}", app.window[0]), &format!("{}", (app.window[0] + app.window[1]) / 2.0), &format!("{}", app.window[1])])) .y_axis(Axis::default() .title("Y Axis") .style(Style::default().fg(Color::Gray)) .labels_style(Style::default().modifier(Modifier::Italic)) .bounds([-20.0, 20.0]) .labels(&["-20", "0", "20"])) .datasets(&[Dataset::default() .name("data2") .marker(Marker::Dot) .style(Style::default().fg(Color::Cyan)) .data(&app.data2), Dataset::default() .name("data3") .marker(Marker::Braille) .style(Style::default().fg(Color::Yellow)) .data(&app.data3)]) .render(t, &chunks[1]); } }); Paragraph::default() .block(Block::default() .borders(border::ALL) .title("Footer") .title_style(Style::default().fg(Color::Magenta).modifier(Modifier::Bold))) .wrap(true) .text("This is a paragraph with several lines.\nYou can change the color.\nUse \ \\{fg=[color];bg=[color];mod=[modifier] [text]} to highlight the text with a color. For example, {fg=red \ u}{fg=green n}{fg=yellow d}{fg=magenta e}{fg=cyan r} {fg=gray t}{fg=light_gray h}{fg=light_red \ e} {fg=light_green r}{fg=light_yellow a}{fg=light_magenta i}{fg=light_cyan n}{fg=white \ b}{fg=red o}{fg=green w}.\nOh, and if you didn't {mod=italic notice} you can {mod=bold automatically} \ {mod=invert wrap} your {mod=underline text} =).\nOne more thing is that it should display unicode \ characters properly: 日本国, ٩(-̮̮̃-̃)۶ ٩(●̮̮̃•̃)۶ ٩(͡๏̯͡๏)۶ ٩(-̮̮̃•̃).") .render(t, &chunks[2]); }); }