cursive/src/backend/termion.rs

365 lines
12 KiB
Rust
Raw Normal View History

2018-04-03 01:08:12 +00:00
//! Backend using the pure-rust termion library.
//!
//! Requires the `termion-backend` feature.
#![cfg(feature = "termion")]
extern crate termion;
use self::termion::color as tcolor;
use self::termion::event::Event as TEvent;
use self::termion::event::Key as TKey;
use self::termion::event::MouseButton as TMouseButton;
use self::termion::event::MouseEvent as TMouseEvent;
use self::termion::input::{MouseTerminal, TermRead};
use self::termion::raw::{IntoRawMode, RawTerminal};
2017-04-26 06:20:52 +00:00
use self::termion::screen::AlternateScreen;
use self::termion::style as tstyle;
use crossbeam_channel::{self, Receiver, Sender};
use libc;
2018-10-18 14:52:38 +00:00
#[cfg(unix)]
use signal_hook::iterator::Signals;
use backend;
use event::{Event, Key, MouseButton, MouseEvent};
use theme;
use vec::Vec2;
use std::cell::Cell;
use std::io::{Stdout, Write};
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::Arc;
use std::thread;
2018-11-09 18:40:06 +00:00
/// Backend using termion
pub struct Backend {
terminal: AlternateScreen<MouseTerminal<RawTerminal<Stdout>>>,
2017-06-13 01:31:08 +00:00
current_style: Cell<theme::ColorPair>,
}
struct InputParser {
// Inner state required to parse input
last_button: Option<MouseButton>,
event_due: bool,
requests: Sender<()>,
input: Receiver<TEvent>,
}
impl InputParser {
// Creates a non-blocking abstraction over the usual blocking input
fn new() -> Self {
let (input_sender, input_receiver) = crossbeam_channel::bounded(0);
let (request_sender, request_receiver) = crossbeam_channel::bounded(0);
2018-06-18 00:26:03 +00:00
// This thread will stop after an event when `InputParser` is dropped.
thread::spawn(move || {
let stdin = ::std::io::stdin();
let stdin = stdin.lock();
let mut events = stdin.events();
for _ in request_receiver {
let event: Result<TEvent, ::std::io::Error> =
events.next().unwrap();
input_sender.send(event.unwrap());
}
});
InputParser {
last_button: None,
input: input_receiver,
requests: request_sender,
event_due: false,
}
}
/// We pledge to want input.
///
/// If we were already expecting input, this is a NO-OP.
fn request(&mut self) {
if !self.event_due {
self.requests.send(());
self.event_due = true;
}
}
fn peek(&mut self) -> Option<Event> {
self.request();
let timeout = ::std::time::Duration::from_millis(10);
let input = select! {
recv(self.input, input) => {
input
}
recv(crossbeam_channel::after(timeout)) => return None,
};
// We got what we came for.
self.event_due = false;
Some(self.map_key(input.unwrap()))
}
fn next_event(&mut self) -> Event {
self.request();
let input = self.input.recv().unwrap();
self.event_due = false;
self.map_key(input)
}
fn map_key(&mut self, event: TEvent) -> Event {
match event {
TEvent::Unsupported(bytes) => Event::Unknown(bytes),
TEvent::Key(TKey::Esc) => Event::Key(Key::Esc),
TEvent::Key(TKey::Backspace) => Event::Key(Key::Backspace),
TEvent::Key(TKey::Left) => Event::Key(Key::Left),
TEvent::Key(TKey::Right) => Event::Key(Key::Right),
TEvent::Key(TKey::Up) => Event::Key(Key::Up),
TEvent::Key(TKey::Down) => Event::Key(Key::Down),
TEvent::Key(TKey::Home) => Event::Key(Key::Home),
TEvent::Key(TKey::End) => Event::Key(Key::End),
TEvent::Key(TKey::PageUp) => Event::Key(Key::PageUp),
TEvent::Key(TKey::PageDown) => Event::Key(Key::PageDown),
TEvent::Key(TKey::Delete) => Event::Key(Key::Del),
TEvent::Key(TKey::Insert) => Event::Key(Key::Ins),
TEvent::Key(TKey::F(i)) if i < 12 => Event::Key(Key::from_f(i)),
TEvent::Key(TKey::F(j)) => Event::Unknown(vec![j]),
TEvent::Key(TKey::Char('\n')) => Event::Key(Key::Enter),
TEvent::Key(TKey::Char('\t')) => Event::Key(Key::Tab),
TEvent::Key(TKey::Char(c)) => Event::Char(c),
TEvent::Key(TKey::Ctrl('c')) => Event::Exit,
TEvent::Key(TKey::Ctrl(c)) => Event::CtrlChar(c),
TEvent::Key(TKey::Alt(c)) => Event::AltChar(c),
TEvent::Mouse(TMouseEvent::Press(btn, x, y)) => {
let position = (x - 1, y - 1).into();
let event = match btn {
TMouseButton::Left => MouseEvent::Press(MouseButton::Left),
TMouseButton::Middle => {
MouseEvent::Press(MouseButton::Middle)
}
TMouseButton::Right => {
MouseEvent::Press(MouseButton::Right)
}
TMouseButton::WheelUp => MouseEvent::WheelUp,
TMouseButton::WheelDown => MouseEvent::WheelDown,
};
if let MouseEvent::Press(btn) = event {
self.last_button = Some(btn);
}
Event::Mouse {
event,
position,
offset: Vec2::zero(),
}
}
TEvent::Mouse(TMouseEvent::Release(x, y))
if self.last_button.is_some() =>
{
let event = MouseEvent::Release(self.last_button.unwrap());
let position = (x - 1, y - 1).into();
Event::Mouse {
event,
position,
offset: Vec2::zero(),
}
}
TEvent::Mouse(TMouseEvent::Hold(x, y))
if self.last_button.is_some() =>
{
let event = MouseEvent::Hold(self.last_button.unwrap());
let position = (x - 1, y - 1).into();
Event::Mouse {
event,
position,
offset: Vec2::zero(),
}
}
_ => Event::Unknown(vec![]),
}
}
}
trait Effectable {
fn on(&self);
fn off(&self);
}
impl Effectable for theme::Effect {
fn on(&self) {
match *self {
theme::Effect::Simple => (),
theme::Effect::Reverse => print!("{}", tstyle::Invert),
theme::Effect::Bold => print!("{}", tstyle::Bold),
theme::Effect::Italic => print!("{}", tstyle::Italic),
theme::Effect::Underline => print!("{}", tstyle::Underline),
}
}
fn off(&self) {
match *self {
theme::Effect::Simple => (),
theme::Effect::Reverse => print!("{}", tstyle::NoInvert),
theme::Effect::Bold => print!("{}", tstyle::NoBold),
theme::Effect::Italic => print!("{}", tstyle::NoItalic),
theme::Effect::Underline => print!("{}", tstyle::NoUnderline),
}
}
}
impl Backend {
2018-11-09 18:40:06 +00:00
/// Creates a new termion-based backend.
2018-06-18 00:26:03 +00:00
pub fn init() -> Box<backend::Backend> {
print!("{}", termion::cursor::Hide);
// TODO: lock stdout
let terminal = AlternateScreen::from(MouseTerminal::from(
::std::io::stdout().into_raw_mode().unwrap(),
));
let c = Backend {
terminal: terminal,
current_style: Cell::new(theme::ColorPair::from_256colors(0, 0)),
};
Box::new(c)
}
fn apply_colors(&self, colors: theme::ColorPair) {
with_color(&colors.front, |c| print!("{}", tcolor::Fg(c)));
with_color(&colors.back, |c| print!("{}", tcolor::Bg(c)));
}
}
impl backend::Backend for Backend {
fn finish(&mut self) {
print!("{}{}", termion::cursor::Show, termion::cursor::Goto(1, 1));
2017-10-12 23:38:55 +00:00
print!(
"{}[49m{}[39m{}",
27 as char,
27 as char,
termion::clear::All
);
}
fn set_color(&self, color: theme::ColorPair) -> theme::ColorPair {
let current_style = self.current_style.get();
2017-06-13 06:51:41 +00:00
if current_style != color {
self.apply_colors(color);
self.current_style.set(color);
}
return current_style;
}
fn set_effect(&self, effect: theme::Effect) {
effect.on();
}
fn unset_effect(&self, effect: theme::Effect) {
effect.off();
}
fn has_colors(&self) -> bool {
// TODO: color support detection?
true
}
2018-04-03 01:08:12 +00:00
fn screen_size(&self) -> Vec2 {
let (x, y) = termion::terminal_size().unwrap_or((1, 1));
2018-04-03 01:08:12 +00:00
(x, y).into()
}
fn clear(&self, color: theme::Color) {
2017-06-13 06:51:41 +00:00
self.apply_colors(theme::ColorPair {
front: color,
back: color,
});
print!("{}", termion::clear::All);
}
fn refresh(&mut self) {
self.terminal.flush().unwrap();
}
2018-04-03 01:08:12 +00:00
fn print_at(&self, pos: Vec2, text: &str) {
2017-10-12 23:38:55 +00:00
print!(
"{}{}",
2018-04-03 01:08:12 +00:00
termion::cursor::Goto(1 + pos.x as u16, 1 + pos.y as u16),
2017-10-12 23:38:55 +00:00
text
);
}
2018-06-16 20:23:09 +00:00
fn start_input_thread(
&mut self, event_sink: Sender<Option<Event>>,
input_request: Receiver<backend::InputRequest>,
2018-06-16 20:23:09 +00:00
) {
let running = Arc::new(AtomicBool::new(true));
#[cfg(unix)]
{
backend::resize::start_resize_thread(
Signals::new(&[libc::SIGWINCH]).unwrap(),
event_sink.clone(),
input_request.clone(),
Arc::clone(&running),
None,
);
}
2018-06-09 02:48:01 +00:00
let mut parser = InputParser::new();
thread::spawn(move || {
for req in input_request {
match req {
backend::InputRequest::Peek => {
event_sink.send(parser.peek());
}
backend::InputRequest::Block => {
event_sink.send(Some(parser.next_event()));
}
2018-06-09 02:48:01 +00:00
}
}
running.store(false, Ordering::Relaxed);
});
}
}
2017-06-13 01:31:08 +00:00
fn with_color<F, R>(clr: &theme::Color, f: F) -> R
2017-10-12 23:38:55 +00:00
where
F: FnOnce(&tcolor::Color) -> R,
2017-06-13 01:31:08 +00:00
{
match *clr {
2017-10-12 23:38:55 +00:00
theme::Color::TerminalDefault => f(&tcolor::Reset),
theme::Color::Dark(theme::BaseColor::Black) => f(&tcolor::Black),
theme::Color::Dark(theme::BaseColor::Red) => f(&tcolor::Red),
theme::Color::Dark(theme::BaseColor::Green) => f(&tcolor::Green),
theme::Color::Dark(theme::BaseColor::Yellow) => f(&tcolor::Yellow),
theme::Color::Dark(theme::BaseColor::Blue) => f(&tcolor::Blue),
theme::Color::Dark(theme::BaseColor::Magenta) => f(&tcolor::Magenta),
theme::Color::Dark(theme::BaseColor::Cyan) => f(&tcolor::Cyan),
theme::Color::Dark(theme::BaseColor::White) => f(&tcolor::White),
theme::Color::Light(theme::BaseColor::Black) => f(&tcolor::LightBlack),
theme::Color::Light(theme::BaseColor::Red) => f(&tcolor::LightRed),
theme::Color::Light(theme::BaseColor::Green) => f(&tcolor::LightGreen),
theme::Color::Light(theme::BaseColor::Yellow) => {
f(&tcolor::LightYellow)
}
theme::Color::Light(theme::BaseColor::Blue) => f(&tcolor::LightBlue),
theme::Color::Light(theme::BaseColor::Magenta) => {
f(&tcolor::LightMagenta)
}
theme::Color::Light(theme::BaseColor::Cyan) => f(&tcolor::LightCyan),
theme::Color::Light(theme::BaseColor::White) => f(&tcolor::LightWhite),
theme::Color::Rgb(r, g, b) => f(&tcolor::Rgb(r, g, b)),
theme::Color::RgbLowRes(r, g, b) => {
f(&tcolor::AnsiValue::rgb(r, g, b))
}
}
}