extern crate cursive; use cursive::{Cursive, Printer}; use cursive::vec::Vec2; use cursive::traits::*; use std::sync::mpsc; use std::thread; use std::time::Duration; use std::iter::Chain; use std::slice::Iter; fn main() { // As usual, create the Cursive root let mut siv = Cursive::new(); // We want to refresh the page even when no input is given. siv.set_fps(10); siv.add_global_callback('q', |s| s.quit()); // A channel will communicate data from our running task to the UI. let (tx, rx) = mpsc::channel(); // Generate data in a separate thread. thread::spawn(move || { generate_logs(&tx); }); // And sets the view to read from the other end of the channel. siv.add_layer(BufferView::new(200, rx).full_screen()); siv.run(); } // We will only simulate log generation here. // In real life, this may come from a running task, a separate process, ... fn generate_logs(tx: &mpsc::Sender) { let mut i = 1; loop { let line = format!("Interesting log line {}", i); i += 1; // The send will fail when the other side is dropped. // (When the application ends). if tx.send(line).is_err() { return; } thread::sleep(Duration::from_millis(30)); } } // Let's define a buffer view, that shows the last lines from a stream. struct BufferView { // We will emulate a ring buffer buffer: Vec, // Current position in the buffer pos: usize, // Receiving end of the stream rx: mpsc::Receiver, } impl BufferView { // Creates a new view with the given buffer size fn new(size: usize, rx: mpsc::Receiver) -> Self { BufferView { rx: rx, buffer: (0..size).map(|_| String::new()).collect(), pos: 0, } } // Reads available data from the stream into the buffer fn update(&mut self) { let mut i = self.pos; while let Ok(line) = self.rx.try_recv() { self.buffer[i] = line; i = (i + 1) % self.buffer.len(); } self.pos = i; } // Chain together the two parts of the buffer to appear as a circular one. // TODO: Use `-> impl Iterator`... fn ring(&self) -> Chain, Iter> { // The main buffer is "circular" starting at self.pos // So we chain the two parts as one self.buffer[self.pos..].iter().chain(self.buffer[..self.pos].iter()) } } impl View for BufferView { fn layout(&mut self, _: Vec2) { // Before drawing, we'll want to update the buffer self.update(); } fn draw(&self, printer: &Printer) { // If the buffer is large, we'll discard the beginning and keep the end. // If the buffer is too small, only print a part of it with an offset. let (discard, offset) = if self.buffer.len() > printer.size.y as usize { (self.buffer.len() - printer.size.y as usize, 0) } else { (0, printer.size.y - self.buffer.len()) }; for (i, line) in self.ring().skip(discard).enumerate() { printer.print((0, offset + i), line); } } }