meli/src/terminal/keys.rs

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/*
* meli
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*
* Copyright 2017-2018 Manos Pitsidianakis
*
* This file is part of meli.
*
* meli is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* meli is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with meli. If not, see <http://www.gnu.org/licenses/>.
*/
use super::*;
use crossbeam::{channel::Receiver, select};
use serde::{Serialize, Serializer};
use termion::event::Event as TermionEvent;
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use termion::event::Key as TermionKey;
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#[derive(Debug, PartialEq, Eq, Clone)]
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pub enum Key {
/// Backspace.
Backspace,
/// Left arrow.
Left,
/// Right arrow.
Right,
/// Up arrow.
Up,
/// Down arrow.
Down,
/// Home key.
Home,
/// End key.
End,
/// Page Up key.
PageUp,
/// Page Down key.
PageDown,
/// Delete key.
Delete,
/// Insert key.
Insert,
/// Function keys.
///
/// Only function keys 1 through 12 are supported.
F(u8),
/// Normal character.
Char(char),
/// Alt modified character.
Alt(char),
/// Ctrl modified character.
///
/// Note that certain keys may not be modifiable with `ctrl`, due to limitations of terminals.
Ctrl(char),
/// Null byte.
Null,
/// Esc key.
Esc,
Paste(String),
}
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impl fmt::Display for Key {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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use crate::Key::*;
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match self {
F(n) => write!(f, "F{}", n),
Char('\t') => write!(f, "Tab"),
Char('\n') => write!(f, "Enter"),
Char(c) => write!(f, "{}", c),
Alt(c) => write!(f, "M-{}", c),
Ctrl(c) => write!(f, "C-{}", c),
Paste(_) => write!(f, "Pasted buf"),
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Null => write!(f, "Null byte"),
Esc => write!(f, "Esc"),
Backspace => write!(f, "Backspace"),
Left => write!(f, "Left"),
Right => write!(f, "Right"),
Up => write!(f, "Up"),
Down => write!(f, "Down"),
Home => write!(f, "Home"),
End => write!(f, "End"),
PageUp => write!(f, "PageUp"),
PageDown => write!(f, "PageDown"),
Delete => write!(f, "Delete"),
Insert => write!(f, "Insert"),
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}
}
}
impl<'a> From<&'a String> for Key {
fn from(v: &'a String) -> Self {
Key::Paste(v.to_string())
}
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}
impl From<TermionKey> for Key {
fn from(k: TermionKey) -> Self {
match k {
TermionKey::Backspace => Key::Backspace,
TermionKey::Left => Key::Left,
TermionKey::Right => Key::Right,
TermionKey::Up => Key::Up,
TermionKey::Down => Key::Down,
TermionKey::Home => Key::Home,
TermionKey::End => Key::End,
TermionKey::PageUp => Key::PageUp,
TermionKey::PageDown => Key::PageDown,
TermionKey::Delete => Key::Delete,
TermionKey::Insert => Key::Insert,
TermionKey::F(u) => Key::F(u),
TermionKey::Char(c) => Key::Char(c),
TermionKey::Alt(c) => Key::Alt(c),
TermionKey::Ctrl(c) => Key::Ctrl(c),
TermionKey::Null => Key::Null,
TermionKey::Esc => Key::Esc,
_ => Key::Char(' '),
}
}
}
impl PartialEq<Key> for &Key {
fn eq(&self, other: &Key) -> bool {
**self == *other
}
}
#[derive(PartialEq)]
/// Keep track of whether we're accepting normal user input or a pasted string.
enum InputMode {
Normal,
Paste(Vec<u8>),
}
#[derive(Debug)]
/// Main process sends commands to the input thread.
pub enum InputCommand {
/// Exit thread
Kill,
}
use nix::poll::{poll, PollFd, PollFlags};
use std::os::unix::io::{AsRawFd, RawFd};
use termion::input::TermReadEventsAndRaw;
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/*
* If we fork (for example start $EDITOR) we want the input-thread to stop reading from stdin. The
* best way I came up with right now is to send a signal to the thread that is read in the first
* input in stdin after the fork, and then the thread kills itself. The parent process spawns a new
* input-thread when the child returns.
*
* The main loop uses try_wait_on_child() to check if child has exited.
*/
/// The thread function that listens for user input and forwards it to the main event loop.
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pub fn get_events(
mut closure: impl FnMut((Key, Vec<u8>)),
rx: &Receiver<InputCommand>,
new_command_fd: RawFd,
) -> () {
let stdin = std::io::stdin();
let stdin_fd = PollFd::new(std::io::stdin().as_raw_fd(), PollFlags::POLLIN);
let new_command_pollfd = nix::poll::PollFd::new(new_command_fd, nix::poll::PollFlags::POLLIN);
let mut input_mode = InputMode::Normal;
let mut paste_buf = String::with_capacity(256);
let mut stdin_iter = stdin.events_and_raw();
'poll_while: while let Ok(_n_raw) = poll(&mut [new_command_pollfd, stdin_fd], -1) {
//debug!(_n_raw);
select! {
default => {
if stdin_fd.revents().is_some() {
'stdin_while: while let Some(c) = stdin_iter.next(){
match (c, &mut input_mode) {
(Ok((TermionEvent::Key(k), bytes)), InputMode::Normal) => {
closure((Key::from(k), bytes));
continue 'poll_while;
}
(
Ok((TermionEvent::Key(TermionKey::Char(k)), ref mut bytes)), InputMode::Paste(ref mut buf),
) => {
paste_buf.push(k);
let bytes = std::mem::replace(bytes, Vec::new());
buf.extend(bytes.into_iter());
continue 'stdin_while;
}
(Ok((TermionEvent::Unsupported(ref k), _)), _) if k.as_slice() == BRACKET_PASTE_START => {
input_mode = InputMode::Paste(Vec::new());
continue 'stdin_while;
}
(Ok((TermionEvent::Unsupported(ref k), _)), InputMode::Paste(ref mut buf))
if k.as_slice() == BRACKET_PASTE_END =>
{
let buf = std::mem::replace(buf, Vec::new());
input_mode = InputMode::Normal;
let ret = Key::from(&paste_buf);
paste_buf.clear();
closure((ret, buf));
continue 'poll_while;
}
_ => {
continue 'poll_while;
} // Mouse events or errors.
}
}
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}
},
recv(rx) -> cmd => {
use nix::sys::time::TimeValLike;
let mut buf = [0;2];
//debug!("get_events_raw will nix::unistd::read");
let mut read_fd_set = nix::sys::select::FdSet::new();
read_fd_set.insert(new_command_fd);
let mut error_fd_set = nix::sys::select::FdSet::new();
error_fd_set.insert(new_command_fd);
let timeval: nix::sys::time::TimeSpec = nix::sys::time::TimeSpec::seconds(2);
if nix::sys::select::pselect(None, Some(&mut read_fd_set), None, Some(&mut error_fd_set), Some(&timeval), None).is_err() || error_fd_set.highest() == Some(new_command_fd) || read_fd_set.highest() != Some(new_command_fd) {
continue 'poll_while;
};
let _ = nix::unistd::read(new_command_fd, buf.as_mut());
match cmd.unwrap() {
InputCommand::Kill => return,
}
}
};
}
}
impl<'de> Deserialize<'de> for Key {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
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where
D: Deserializer<'de>,
{
struct KeyVisitor;
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impl<'de> Visitor<'de> for KeyVisitor {
type Value = Key;
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fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
formatter
.write_str("a valid key value. Please consult the manual for valid key inputs.")
}
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fn visit_str<E>(self, value: &str) -> Result<Key, E>
where
E: de::Error,
{
match value {
"Backspace" | "backspace" => Ok(Key::Backspace),
"Left" | "left" => Ok(Key::Left),
"Right" | "right" => Ok(Key::Right),
"Up" | "up" => Ok(Key::Up),
"Down" | "down" => Ok(Key::Down),
"Home" | "home" => Ok(Key::Home),
"End" | "end" => Ok(Key::End),
"PageUp" | "pageup" => Ok(Key::PageUp),
"PageDown" | "pagedown" => Ok(Key::PageDown),
"Delete" | "delete" => Ok(Key::Delete),
"Insert" | "insert" => Ok(Key::Insert),
"Enter" | "enter" => Ok(Key::Char('\n')),
"Tab" | "tab" => Ok(Key::Char('\t')),
"Esc" | "esc" => Ok(Key::Esc),
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ref s if s.len() == 1 => Ok(Key::Char(s.chars().nth(0).unwrap())),
ref s if s.starts_with("F") && (s.len() == 2 || s.len() == 3) => {
use std::str::FromStr;
if let Ok(n) = u8::from_str(&s[1..]) {
if n >= 1 && n <= 12 {
return Ok(Key::F(n));
}
}
Err(de::Error::custom(format!(
"`{}` should be a number 1 <= n <= 12 instead.",
&s[1..]
)))
}
ref s if s.starts_with("M-") && s.len() == 3 => {
let c = s.as_bytes()[2] as char;
if c.is_lowercase() || c.is_numeric() {
return Ok(Key::Alt(c));
}
Err(de::Error::custom(format!(
"`{}` should be a lowercase and alphanumeric character instead.",
&s[2..]
)))
}
ref s if s.starts_with("C-") && s.len() == 3 => {
let c = s.as_bytes()[2] as char;
if c.is_lowercase() || c.is_numeric() {
return Ok(Key::Ctrl(c));
}
Err(de::Error::custom(format!(
"`{}` should be a lowercase and alphanumeric character instead.",
&s[2..]
)))
}
_ => Err(de::Error::custom(format!(
"Cannot derive shortcut from `{}`. Please consult the manual for valid key inputs.",
value
))),
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}
}
}
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deserializer.deserialize_identifier(KeyVisitor)
}
}
impl Serialize for Key {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
match self {
Key::Backspace => serializer.serialize_str("Backspace"),
Key::Left => serializer.serialize_str("Left"),
Key::Right => serializer.serialize_str("Right"),
Key::Up => serializer.serialize_str("Up"),
Key::Down => serializer.serialize_str("Down"),
Key::Home => serializer.serialize_str("Home"),
Key::End => serializer.serialize_str("End"),
Key::PageUp => serializer.serialize_str("PageUp"),
Key::PageDown => serializer.serialize_str("PageDown"),
Key::Delete => serializer.serialize_str("Delete"),
Key::Insert => serializer.serialize_str("Insert"),
Key::Esc => serializer.serialize_str("Esc"),
Key::Char('\n') => serializer.serialize_str("Enter"),
Key::Char('\t') => serializer.serialize_str("Tab"),
Key::Char(c) => serializer.serialize_char(*c),
Key::F(n) => serializer.serialize_str(&format!("F{}", n)),
Key::Alt(c) => serializer.serialize_str(&format!("M-{}", c)),
Key::Ctrl(c) => serializer.serialize_str(&format!("C-{}", c)),
Key::Null => serializer.serialize_str("Null"),
Key::Paste(s) => serializer.serialize_str(s),
}
}
}
#[test]
fn test_key_serde() {
#[derive(Debug, Deserialize, PartialEq)]
struct V {
k: Key,
}
macro_rules! test_key {
($s:literal, ok $v:expr) => {
assert_eq!(
toml::from_str::<V>(std::concat!("k = \"", $s, "\"")),
Ok(V { k: $v })
);
};
($s:literal, err $v:literal) => {
assert_eq!(
toml::from_str::<V>(std::concat!("k = \"", $s, "\""))
.unwrap_err()
.to_string(),
$v.to_string()
);
};
}
test_key!("Backspace", ok Key::Backspace);
test_key!("Left", ok Key::Left );
test_key!("Right", ok Key::Right);
test_key!("Up", ok Key::Up );
test_key!("Down", ok Key::Down );
test_key!("Home", ok Key::Home );
test_key!("End", ok Key::End );
test_key!("PageUp", ok Key::PageUp );
test_key!("PageDown", ok Key::PageDown );
test_key!("Delete", ok Key::Delete );
test_key!("Insert", ok Key::Insert );
test_key!("Enter", ok Key::Char('\n') );
test_key!("Tab", ok Key::Char('\t') );
test_key!("k", ok Key::Char('k') );
test_key!("1", ok Key::Char('1') );
test_key!("Esc", ok Key::Esc );
test_key!("C-a", ok Key::Ctrl('a') );
test_key!("C-1", ok Key::Ctrl('1') );
test_key!("M-a", ok Key::Alt('a') );
test_key!("F1", ok Key::F(1) );
test_key!("F12", ok Key::F(12) );
test_key!("C-V", err "`V` should be a lowercase and alphanumeric character instead. for key `k` at line 1 column 5");
test_key!("M-V", err "`V` should be a lowercase and alphanumeric character instead. for key `k` at line 1 column 5");
test_key!("F13", err "`13` should be a number 1 <= n <= 12 instead. for key `k` at line 1 column 5");
test_key!("Fc", err "`c` should be a number 1 <= n <= 12 instead. for key `k` at line 1 column 5");
test_key!("adsfsf", err "Cannot derive shortcut from `adsfsf`. Please consult the manual for valid key inputs. for key `k` at line 1 column 5");
}