tui-rs/examples/sparkline.rs
Florian Dehau 13e194cd26 refactor: update widgets
* all widgets use the consumable builder pattern
* `draw` on terminal expect a closure that take a frame as only arg
2018-09-04 22:23:44 +02:00

165 lines
4.2 KiB
Rust

extern crate termion;
extern crate tui;
mod util;
use util::*;
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::{Constraint, Direction, Layout, Rect};
use tui::style::{Color, Style};
use tui::widgets::{Block, Borders, Sparkline, Widget};
use tui::Terminal;
struct App {
size: Rect,
signal: RandomSignal,
data1: Vec<u64>,
data2: Vec<u64>,
data3: Vec<u64>,
}
impl App {
fn new() -> App {
let mut signal = RandomSignal::new(0, 100);
let data1 = signal.by_ref().take(200).collect::<Vec<u64>>();
let data2 = signal.by_ref().take(200).collect::<Vec<u64>>();
let data3 = signal.by_ref().take(200).collect::<Vec<u64>>();
App {
size: Rect::default(),
signal,
data1,
data2,
data3,
}
}
fn advance(&mut self) {
let value = self.signal.next().unwrap();
self.data1.pop();
self.data1.insert(0, value);
let value = self.signal.next().unwrap();
self.data2.pop();
self.data2.insert(0, value);
let value = self.signal.next().unwrap();
self.data3.pop();
self.data3.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).unwrap();
loop {
let size = terminal.size().unwrap();
if size != app.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).unwrap();
}
terminal.show_cursor().unwrap();
}
fn draw(t: &mut Terminal<MouseBackend>, app: &App) -> Result<(), io::Error> {
t.draw(|mut f| {
let chunks = Layout::default()
.direction(Direction::Vertical)
.margin(2)
.constraints(
[
Constraint::Length(3),
Constraint::Length(3),
Constraint::Length(7),
Constraint::Min(0),
].as_ref(),
)
.split(app.size);
Sparkline::default()
.block(
Block::default()
.title("Data1")
.borders(Borders::LEFT | Borders::RIGHT),
)
.data(&app.data1)
.style(Style::default().fg(Color::Yellow))
.render(&mut f, chunks[0]);
Sparkline::default()
.block(
Block::default()
.title("Data2")
.borders(Borders::LEFT | Borders::RIGHT),
)
.data(&app.data2)
.style(Style::default().bg(Color::Green))
.render(&mut f, chunks[1]);
// Multiline
Sparkline::default()
.block(
Block::default()
.title("Data3")
.borders(Borders::LEFT | Borders::RIGHT),
)
.data(&app.data3)
.style(Style::default().fg(Color::Red))
.render(&mut f, chunks[2]);
})
}