feat(keymaps): Separate the keymapping system into its own crate

This commit is contained in:
Benedikt Peetz 2023-11-07 19:37:06 +01:00
parent 51eed5697a
commit 2b39608f85
Signed by: bpeetz
GPG Key ID: A5E94010C3A642AD
14 changed files with 742 additions and 488 deletions

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@ -6,3 +6,10 @@ edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html # See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies] [dependencies]
log = "0.4.20"
thiserror = "1.0.50"
pest = "2.7.5"
pest_derive = {version = "2.7.5", features = ["grammar-extras"]}
[dev-dependencies]
pretty_assertions = "1.4.0"

40
keymaps/src/error/mod.rs Normal file
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@ -0,0 +1,40 @@
use std::{fmt::Display, num::ParseIntError};
use thiserror::Error;
use crate::key::{key, keys, Keys};
#[derive(Error, Debug)]
pub enum TrieInsertError<V: Display> {
#[error("The key ('{0}') contains nodes, which already have a value set!")]
KeyPathBlocked(Keys),
#[error("The key ('{key}') already has a value associatet with it, which is: '{value}'")]
KeyAlreadySet { key: Keys, value: V },
#[error("The node accessed by this key ('{0}') already has children! You can not set a value for it")]
NodeHasChildren(Keys),
}
#[derive(Error, Debug)]
pub enum KeyParseError {
#[error("This key expression could not be parsed, see the error message for more: {0}")]
RawParseError(#[from] pest::error::Error<key::Rule>),
}
#[derive(Error, Debug)]
pub enum KeysParseError {
#[error(
"This chain of key expressions could not be parsed, see the error message for more: {0}"
)]
RawParseError(#[from] pest::error::Error<keys::Rule>),
}
#[derive(Error, Debug)]
pub enum KeyValueParseError {
#[error("The String ('{0}') is not a correct special key name!")]
NoMatch(String),
#[error("The number associate with the F key ('{0}') can't be parsed as u8!")]
CantParseFNumber(#[from] ParseIntError),
}

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@ -0,0 +1,68 @@
use crossterm::event::KeyCode;
impl From<KeyCode> for KeyValue {
fn from(value: KeyCode) -> Self {
match value {
KeyCode::Backspace => Self::Backspace,
KeyCode::Enter => Self::Enter,
KeyCode::Left => Self::Left,
KeyCode::Right => Self::Right,
KeyCode::Up => Self::Up,
KeyCode::Down => Self::Down,
KeyCode::Home => Self::Home,
KeyCode::End => Self::End,
KeyCode::PageUp => Self::PageUp,
KeyCode::PageDown => Self::PageDown,
KeyCode::Tab => Self::Tab,
KeyCode::BackTab => Self::BackTab,
KeyCode::Delete => Self::Delete,
KeyCode::Insert => Self::Insert,
KeyCode::F(n) => Self::F(n),
KeyCode::Char(c) => Self::Char(c),
KeyCode::Null => Self::Null,
KeyCode::Esc => Self::Esc,
KeyCode::CapsLock => Self::CapsLock,
KeyCode::ScrollLock => Self::ScrollLock,
KeyCode::NumLock => Self::NumLock,
KeyCode::PrintScreen => Self::PrintScreen,
KeyCode::Pause => Self::Pause,
KeyCode::Menu => Self::Menu,
KeyCode::KeypadBegin => Self::KeypadBegin,
// FIXME(@soispha): This reduces our information, casting a KeyCode to a KeyValue
// and back again would not equal the original KeyCode <2023-10-15>
KeyCode::Media(_) => Self::Null,
KeyCode::Modifier(_) => Self::Null,
}
}
}
impl Into<KeyCode> for KeyValue {
fn into(self) -> KeyCode {
match self {
Self::Backspace => KeyCode::Backspace,
Self::Enter => KeyCode::Enter,
Self::Left => KeyCode::Left,
Self::Right => KeyCode::Right,
Self::Up => KeyCode::Up,
Self::Down => KeyCode::Down,
Self::Home => KeyCode::Home,
Self::End => KeyCode::End,
Self::PageUp => KeyCode::PageUp,
Self::PageDown => KeyCode::PageDown,
Self::Tab => KeyCode::Tab,
Self::BackTab => KeyCode::BackTab,
Self::Delete => KeyCode::Delete,
Self::Insert => KeyCode::Insert,
Self::F(n) => KeyCode::F(n),
Self::Char(c) => KeyCode::Char(c),
Self::Null => KeyCode::Null,
Self::Esc => KeyCode::Esc,
Self::CapsLock => KeyCode::CapsLock,
Self::ScrollLock => KeyCode::ScrollLock,
Self::NumLock => KeyCode::NumLock,
Self::PrintScreen => KeyCode::PrintScreen,
Self::Pause => KeyCode::Pause,
Self::Menu => KeyCode::Menu,
Self::KeypadBegin => KeyCode::KeypadBegin,
}
}
}

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@ -1,3 +1,6 @@
#[cfg(crossterm)]
mod crossterm;
use std::{collections::VecDeque, fmt::Display}; use std::{collections::VecDeque, fmt::Display};
#[derive(Debug)] #[derive(Debug)]

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@ -1,357 +0,0 @@
use std::{fmt::Display, str::FromStr};
use anyhow::{bail, Context};
use cli_log::{debug, info};
use crossterm::event::{Event, KeyCode, KeyEvent, KeyEventKind, KeyEventState, KeyModifiers};
use super::{Chars, KeyValue, Keys};
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy)]
pub struct Key {
// Modifiers
pub(super) alt: bool,
pub(super) ctrl: bool,
pub(super) meta: bool,
pub(super) shift: bool,
pub(super) value: Option<KeyValue>,
}
impl Key {
pub fn new() -> Self {
Key {
alt: false,
ctrl: false,
meta: false,
shift: false,
value: None,
}
}
pub fn value(&self) -> Option<&KeyValue> {
self.value.as_ref()
}
pub fn to_string_repr(self) -> String {
let mut output = String::new();
if self.alt || self.ctrl || self.meta || self.shift {
output.push('<')
}
if self.alt {
output.push('A');
}
if self.ctrl {
output.push('C');
}
if self.meta {
output.push('M');
}
if self.shift {
output.push('S');
}
if self.alt || self.ctrl || self.meta || self.shift {
output.push('-')
}
output.push_str(
&self
.value
.expect("There can be no Nones here, if the Key comes from the public api")
.to_string(),
);
if self.alt || self.ctrl || self.meta || self.shift {
output.push('>')
}
output
}
fn merge_with(mut self, other: Key) -> Self {
// Modifiers
self.alt = self.alt || other.alt;
self.ctrl = self.ctrl || other.ctrl;
self.meta = self.meta || other.meta;
self.shift = self.shift || other.shift;
self.value = Some(self.value.unwrap_or(other.value.unwrap_or(KeyValue::Null)));
self
}
pub(super) fn parse(chars: &mut Chars) -> anyhow::Result<Self> {
assert_eq!(chars.pop().expect("This is a developer error"), '<');
let mut parse_buffer: Vec<char> = Vec::new();
let mut reached_non_modifier = false;
let mut output_key_filled = false;
let mut output_key = Key::new();
while let Some(char) = chars.pop() {
if char == '>' {
break;
} else {
if char.is_ascii_uppercase()
|| char.is_numeric() && !reached_non_modifier && !output_key_filled
{
parse_buffer.push(char);
} else if char == '-' && !reached_non_modifier && !output_key_filled {
// We moved to the modified char
reached_non_modifier = true;
// Our parse_buffer should only contain modifiers:
let mut alt = false;
let mut ctrl = false;
let mut meta = false;
let mut shift = false;
for char in &parse_buffer {
match char {
'A' => alt = true,
'C' => ctrl = true,
'M' => meta = true,
'S' => shift = true,
char => bail!(
"The char ('{}') is not a valid descriptor of a modifier",
char
),
}
}
output_key = Key {
alt,
ctrl,
meta,
shift,
value: None,
};
} else if reached_non_modifier && !output_key_filled {
if char == '<' {
chars.prepend('<');
let key = Key::parse(chars)?;
output_key = output_key.merge_with(key);
} else {
output_key.value = Some(KeyValue::Char(char));
}
output_key_filled = true;
} else {
bail!(
"Your can not put a this char here!
parse_buffer: '{}';
char: '{}';
chars: '{:#?}';
output_key: '{:#?}' ",
&parse_buffer.iter().collect::<String>(),
&char,
&chars,
&output_key
)
}
}
}
if output_key_filled {
Ok(output_key)
} else {
let mut parse_buffer = Chars(parse_buffer.into());
let get_output = |value: KeyValue| -> Key {
let key = Key {
alt: false,
ctrl: false,
meta: false,
shift: false,
value: Some(value),
};
return key.merge_with(output_key);
};
if let Some(char) = parse_buffer.peek() {
if char == &'F' {
let _f = parse_buffer.pop();
let number: u8 = parse_buffer.to_string().parse().with_context(|| {
format!("Failed to parse buffer ('{}') as u8", &parse_buffer)
})?;
Ok(get_output(KeyValue::F(number)))
} else {
match &parse_buffer.to_string()[..] {
"BACKSPACE" => Ok(get_output(KeyValue::Backspace)),
"ENTER" => Ok(get_output(KeyValue::Enter)),
"LEFT" => Ok(get_output(KeyValue::Left)),
"RIGHT" => Ok(get_output(KeyValue::Right)),
"UP" => Ok(get_output(KeyValue::Up)),
"DOWN" => Ok(get_output(KeyValue::Down)),
"HOME" => Ok(get_output(KeyValue::Home)),
"END" => Ok(get_output(KeyValue::End)),
"PAGEUP" => Ok(get_output(KeyValue::PageUp)),
"PAGEDOWN" => Ok(get_output(KeyValue::PageDown)),
"TAB" => Ok(get_output(KeyValue::Tab)),
"BACKTAB" => Ok(get_output(KeyValue::BackTab)),
"DELETE" => Ok(get_output(KeyValue::Delete)),
"INSERT" => Ok(get_output(KeyValue::Insert)),
"ESC" => Ok(get_output(KeyValue::Esc)),
"CAPSLOCK" => Ok(get_output(KeyValue::CapsLock)),
"SCROLLlOCK" => Ok(get_output(KeyValue::ScrollLock)),
"NUMLOCK" => Ok(get_output(KeyValue::NumLock)),
"PRINTSCREEN" => Ok(get_output(KeyValue::PrintScreen)),
"PAUSE" => Ok(get_output(KeyValue::Pause)),
"MENU" => Ok(get_output(KeyValue::Menu)),
"KEYPADBEGIN" => Ok(get_output(KeyValue::KeypadBegin)),
"DASH" => Ok(get_output(KeyValue::Char('-'))),
"ANGULAR_BRACKET_OPEN" | "ABO" => Ok(get_output(KeyValue::Char('<'))),
"ANGULAR_BRACKET_CLOSE" | "ABC" => Ok(get_output(KeyValue::Char('>'))),
other_str => bail!(
"The String ('{}') is not a correct special key name!",
other_str
),
}
}
} else {
bail!(
"You need to put something into the angulare brackets (<>)
parse_buffer: '{}';
chars: '{:#?}';",
&parse_buffer,
&chars,
)
}
}
}
}
impl Display for Key {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.write_str(&self.to_string_repr())
}
}
impl Into<Event> for Key {
fn into(self) -> Event {
let mut modifiers;
{
modifiers = KeyModifiers::all();
if !self.alt {
modifiers.remove(KeyModifiers::ALT);
}
if !self.ctrl {
modifiers.remove(KeyModifiers::CONTROL);
}
if !self.meta {
modifiers.remove(KeyModifiers::META);
modifiers.remove(KeyModifiers::SUPER);
}
if !self.shift {
modifiers.remove(KeyModifiers::SHIFT);
}
modifiers.remove(KeyModifiers::HYPER);
modifiers.remove(KeyModifiers::META);
if self.alt || self.ctrl || self.meta || self.shift {
modifiers.remove(KeyModifiers::NONE);
}
}
let output = Event::Key(KeyEvent {
code: {
// We sorta hit a edge case here, if we have a shifted char we need to tell
// crossterm about that. Thus we need to manually apply the shift modifier on the
// value.
if self.shift {
if let Some(KeyValue::Char(char)) = self.value {
let upper_case_char: char = {
let chars = char.to_uppercase().collect::<Vec<char>>();
if chars.len() != 1 {
unimplemented!(
"
I have no idea how we handle this case,
we'll just have to hope, that it never comes up.
"
);
} else {
*chars.first().expect("We checked the length")
}
};
KeyCode::Char(upper_case_char)
} else {
self.value.unwrap_or(KeyValue::Null).into()
}
} else {
self.value.unwrap_or(KeyValue::Null).into()
}
},
modifiers,
kind: KeyEventKind::Press,
state: KeyEventState::NONE,
});
output
}
}
impl TryFrom<&Event> for Key {
type Error = anyhow::Error;
fn try_from(value: &Event) -> std::result::Result<Self, Self::Error> {
let mut output_key: Key = Key::new();
match value {
Event::Key(key_event) => {
{
let key_mods = key_event.modifiers;
output_key.alt = KeyModifiers::intersects(&key_mods, KeyModifiers::ALT);
output_key.ctrl = KeyModifiers::intersects(&key_mods, KeyModifiers::CONTROL);
output_key.meta = KeyModifiers::intersects(&key_mods, KeyModifiers::META)
|| KeyModifiers::intersects(&key_mods, KeyModifiers::SUPER);
output_key.shift = KeyModifiers::intersects(&key_mods, KeyModifiers::SHIFT);
// let hyper = KeyModifiers::intersects(&key_mods, KeyModifiers::HYPER);
// let none = KeyModifiers::intersects(&key_mods, KeyModifiers::NONE);
}
{
let key_code = key_event.code;
if output_key.shift {
// We need to deal have an edge case for shift, as the value will be in the
// shifted form (for example 'A'). If we left that, we would get "<S-A>" as
// Key representation, which can't be parsed. So we simply unshift the 'A'
// here, turning the representation into: "<S-a>"
if let KeyCode::Char(char) = key_code {
let lower_case_char: char = {
let chars = char.to_lowercase().collect::<Vec<char>>();
if chars.len() != 1 {
unimplemented!(
"
I have no idea how we handle this case,
we'll just have to hope, that it never comes up.
"
);
} else {
*chars.first().expect("We checked the length")
}
};
info!(
"Had to translate key ('{}') to it's lowercase variant ('{}')",
char, lower_case_char
);
output_key.value = Some(KeyValue::Char(lower_case_char));
} else {
debug!(
"Key ('{}') is shifted but not a character!",
Into::<KeyValue>::into(key_code)
);
output_key.value = Some(key_code.into());
}
} else {
output_key.value = Some(key_code.into());
}
}
Ok(output_key)
}
Event::Mouse(_)
| Event::Paste(_)
| Event::Resize(_, _)
| Event::FocusGained
| Event::FocusLost => bail!("Only supports parsing from key event"),
}
}
}
impl FromStr for Key {
type Err = anyhow::Error;
fn from_str(s: &str) -> Result<Self, Self::Err> {
let mut keys: Keys = s.parse().context("Failed to parse string as keys")?;
if keys.0.len() == 1 {
let key = keys
.0
.pop()
.expect("The vec should have exactly one element");
return Ok(key);
} else {
bail!("The string ('{}') contains more than one key", &s);
}
}
}

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@ -0,0 +1,134 @@
use log::{debug, info};
use crossterm::event::{Event, KeyCode, KeyEvent, KeyEventKind, KeyEventState, KeyModifiers};
impl Into<Event> for Key {
fn into(self) -> Event {
let mut modifiers;
{
modifiers = KeyModifiers::all();
if !self.alt {
modifiers.remove(KeyModifiers::ALT);
}
if !self.ctrl {
modifiers.remove(KeyModifiers::CONTROL);
}
if !self.meta {
modifiers.remove(KeyModifiers::META);
modifiers.remove(KeyModifiers::SUPER);
}
if !self.shift {
modifiers.remove(KeyModifiers::SHIFT);
}
modifiers.remove(KeyModifiers::HYPER);
modifiers.remove(KeyModifiers::META);
if self.alt || self.ctrl || self.meta || self.shift {
modifiers.remove(KeyModifiers::NONE);
}
}
let output = Event::Key(KeyEvent {
code: {
// We sorta hit a edge case here, if we have a shifted char we need to tell
// crossterm about that. Thus we need to manually apply the shift modifier on the
// value.
if self.shift {
if let Some(KeyValue::Char(char)) = self.value {
let upper_case_char: char = {
let chars = char.to_uppercase().collect::<Vec<char>>();
if chars.len() != 1 {
unimplemented!(
"
I have no idea how we handle this case,
we'll just have to hope, that it never comes up.
"
);
} else {
*chars.first().expect("We checked the length")
}
};
KeyCode::Char(upper_case_char)
} else {
self.value.unwrap_or(KeyValue::Null).into()
}
} else {
self.value.unwrap_or(KeyValue::Null).into()
}
},
modifiers,
kind: KeyEventKind::Press,
state: KeyEventState::NONE,
});
output
}
}
#[cfg(crossterm)]
impl TryFrom<&Event> for Key {
type Error = anyhow::Error;
fn try_from(value: &Event) -> std::result::Result<Self, Self::Error> {
let mut output_key: Key = Key::new();
match value {
Event::Key(key_event) => {
{
let key_mods = key_event.modifiers;
output_key.alt = KeyModifiers::intersects(&key_mods, KeyModifiers::ALT);
output_key.ctrl = KeyModifiers::intersects(&key_mods, KeyModifiers::CONTROL);
output_key.meta = KeyModifiers::intersects(&key_mods, KeyModifiers::META)
|| KeyModifiers::intersects(&key_mods, KeyModifiers::SUPER);
output_key.shift = KeyModifiers::intersects(&key_mods, KeyModifiers::SHIFT);
// let hyper = KeyModifiers::intersects(&key_mods, KeyModifiers::HYPER);
// let none = KeyModifiers::intersects(&key_mods, KeyModifiers::NONE);
}
{
let key_code = key_event.code;
if output_key.shift {
// We need to deal have an edge case for shift, as the value will be in the
// shifted form (for example 'A'). If we left that, we would get "<S-A>" as
// Key representation, which can't be parsed. So we simply unshift the 'A'
// here, turning the representation into: "<S-a>"
if let KeyCode::Char(char) = key_code {
let lower_case_char: char = {
let chars = char.to_lowercase().collect::<Vec<char>>();
if chars.len() != 1 {
unimplemented!(
"
I have no idea how we handle this case,
we'll just have to hope, that it never comes up.
"
);
} else {
*chars.first().expect("We checked the length")
}
};
info!(
"Had to translate key ('{}') to it's lowercase variant ('{}')",
char, lower_case_char
);
output_key.value = Some(KeyValue::Char(lower_case_char));
} else {
debug!(
"Key ('{}') is shifted but not a character!",
Into::<KeyValue>::into(key_code)
);
output_key.value = Some(key_code.into());
}
} else {
output_key.value = Some(key_code.into());
}
}
Ok(output_key)
}
Event::Mouse(_)
| Event::Paste(_)
| Event::Resize(_, _)
| Event::FocusGained
| Event::FocusLost => bail!("Only supports parsing from key event"),
}
}
}

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@ -0,0 +1,80 @@
#[cfg(crossterm)]
mod crossterm;
mod parsing;
use std::fmt::Display;
use pest_derive::Parser;
use super::KeyValue;
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy, Default, Parser)]
#[grammar = "./key/keys.pest"]
pub struct Key {
// Modifiers
pub(super) alt: bool,
pub(super) ctrl: bool,
pub(super) meta: bool,
pub(super) shift: bool,
pub(super) value: Option<KeyValue>,
}
impl Key {
pub fn new() -> Self {
Self::default()
}
pub fn value(&self) -> Option<&KeyValue> {
self.value.as_ref()
}
pub fn to_string_repr(self) -> String {
let mut output = String::new();
if self.alt || self.ctrl || self.meta || self.shift {
output.push('<')
}
if self.alt {
output.push('A');
}
if self.ctrl {
output.push('C');
}
if self.meta {
output.push('M');
}
if self.shift {
output.push('S');
}
if self.alt || self.ctrl || self.meta || self.shift {
output.push('-')
}
output.push_str(
&self
.value
.expect("There can be no `None`s here, if the Key comes from the public api")
.to_string(),
);
if self.alt || self.ctrl || self.meta || self.shift {
output.push('>')
}
output
}
fn merge_with(mut self, other: Key) -> Self {
// Modifiers
self.alt = self.alt || other.alt;
self.ctrl = self.ctrl || other.ctrl;
self.meta = self.meta || other.meta;
self.shift = self.shift || other.shift;
self.value = Some(self.value.unwrap_or(other.value.unwrap_or(KeyValue::Null)));
self
}
}
impl Display for Key {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.write_str(&self.to_string_repr())
}
}

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@ -0,0 +1,213 @@
use std::{fmt::Debug, hash::Hash, marker, mem, str::FromStr};
use pest::{iterators::Pair, Parser};
use crate::{error, key::KeyValue};
use super::{Key, Rule};
impl Key {
pub fn from_pair<R>(pair: Pair<R>) -> Self
where
R: marker::Copy + Debug + Hash + Ord,
{
let pairs = pair.into_inner();
let mut output = Self::default();
let modifiers: Vec<_> = pairs.clone().find_tagged("modifiers").collect();
let values: Vec<_> = pairs.clone().find_tagged("value").collect();
let special_keys: Vec<_> = pairs.find_tagged("special_key").collect();
for modifier in modifiers {
match modifier.as_span().as_str() {
"A" => output.alt = true,
"C" => output.ctrl = true,
"M" => output.meta = true,
"S" => output.shift = true,
_ => unreachable!("This modifier should not have been parsed"),
}
}
if values.is_empty() {
// Check that we have parsed *something*
debug_assert!(!special_keys.is_empty());
// Check, that we have only parsed one special key
debug_assert_eq!(special_keys.len(), 1);
let special_key_value: KeyValue = special_keys
.first()
.expect("This should exist (and be the only value)")
.as_str()
.parse()
.expect("This was parsed, and should thus be a valid special_key");
output.value = Some(special_key_value);
} else {
// Check, that we have only parsed one key
debug_assert_eq!(values.len(), 1);
let key_str = values.first().expect("This should exist").as_str();
// Check that we really only have a one char &str
debug_assert_eq!(key_str.chars().count(), 1);
let key_value: KeyValue = KeyValue::Char(
key_str
.chars()
.nth(0)
.expect("This &str should have a length of exactly one char"),
);
output.value = Some(key_value);
}
output
}
// pub(super) fn parse_old(chars: &mut Chars) -> anyhow::Result<Self> {
// assert_eq!(chars.pop().expect("This is a developer error"), '<');
// let mut parse_buffer: Vec<char> = Vec::new();
//
// let mut reached_non_modifier = false;
// let mut output_key_filled = false;
// let mut output_key = Key::new();
// while let Some(char) = chars.pop() {
// if char == '>' {
// break;
// } else {
// if char.is_ascii_uppercase()
// || char.is_numeric() && !reached_non_modifier && !output_key_filled
// {
// parse_buffer.push(char);
// } else if char == '-' && !reached_non_modifier && !output_key_filled {
// // We moved to the modified char
// reached_non_modifier = true;
//
// // Our parse_buffer should only contain modifiers:
// let mut alt = false;
// let mut ctrl = false;
// let mut meta = false;
// let mut shift = false;
//
// for char in &parse_buffer {
// match char {
// 'A' => alt = true,
// 'C' => ctrl = true,
// 'M' => meta = true,
// 'S' => shift = true,
// char => bail!(
// "The char ('{}') is not a valid descriptor of a modifier",
// char
// ),
// }
// }
// output_key = Key {
// alt,
// ctrl,
// meta,
// shift,
// value: None,
// };
// } else if reached_non_modifier && !output_key_filled {
// if char == '<' {
// chars.prepend('<');
// let key = Key::parse(chars)?;
// output_key = output_key.merge_with(key);
// } else {
// output_key.value = Some(KeyValue::Char(char));
// }
// output_key_filled = true;
// } else {
// bail!(
// "Your can not put a this char here!
// parse_buffer: '{}';
// char: '{}';
// chars: '{:#?}';
// output_key: '{:#?}' ",
// &parse_buffer.iter().collect::<String>(),
// &char,
// &chars,
// &output_key
// )
// }
// }
// }
// if output_key_filled {
// Ok(output_key)
// } else {
// let mut parse_buffer = Chars(parse_buffer.into());
// let get_output = |value: KeyValue| -> Key {
// let key = Key {
// alt: false,
// ctrl: false,
// meta: false,
// shift: false,
// value: Some(value),
// };
//
// return key.merge_with(output_key);
// };
// if let Some(char) = parse_buffer.peek() {
// if char == &'F' {
// let _f = parse_buffer.pop();
// let number: u8 = parse_buffer.to_string().parse().with_context(|| {
// format!("Failed to parse buffer ('{}') as u8", &parse_buffer)
// })?;
// Ok(get_output(KeyValue::F(number)))
// } else {
// match &parse_buffer.to_string()[..] {
// "BACKSPACE" => Ok(get_output(KeyValue::Backspace)),
// "ENTER" => Ok(get_output(KeyValue::Enter)),
// "LEFT" => Ok(get_output(KeyValue::Left)),
// "RIGHT" => Ok(get_output(KeyValue::Right)),
// "UP" => Ok(get_output(KeyValue::Up)),
// "DOWN" => Ok(get_output(KeyValue::Down)),
// "HOME" => Ok(get_output(KeyValue::Home)),
// "END" => Ok(get_output(KeyValue::End)),
// "PAGEUP" => Ok(get_output(KeyValue::PageUp)),
// "PAGEDOWN" => Ok(get_output(KeyValue::PageDown)),
// "TAB" => Ok(get_output(KeyValue::Tab)),
// "BACKTAB" => Ok(get_output(KeyValue::BackTab)),
// "DELETE" => Ok(get_output(KeyValue::Delete)),
// "INSERT" => Ok(get_output(KeyValue::Insert)),
// "ESC" => Ok(get_output(KeyValue::Esc)),
// "CAPSLOCK" => Ok(get_output(KeyValue::CapsLock)),
// "SCROLLlOCK" => Ok(get_output(KeyValue::ScrollLock)),
// "NUMLOCK" => Ok(get_output(KeyValue::NumLock)),
// "PRINTSCREEN" => Ok(get_output(KeyValue::PrintScreen)),
// "PAUSE" => Ok(get_output(KeyValue::Pause)),
// "MENU" => Ok(get_output(KeyValue::Menu)),
// "KEYPADBEGIN" => Ok(get_output(KeyValue::KeypadBegin)),
//
// "DASH" => Ok(get_output(KeyValue::Char('-'))),
// "ANGULAR_BRACKET_OPEN" | "ABO" => Ok(get_output(KeyValue::Char('<'))),
// "ANGULAR_BRACKET_CLOSE" | "ABC" => Ok(get_output(KeyValue::Char('>'))),
// other_str => bail!(
// "The String ('{}') is not a correct special key name!",
// other_str
// ),
// }
// }
// } else {
// bail!(
// "You need to put something into the angulare brackets (<>)
// parse_buffer: '{}';
// chars: '{:#?}';",
// &parse_buffer,
// &chars,
// )
// }
// }
// }
}
impl FromStr for Key {
type Err = error::KeyParseError;
fn from_str(s: &str) -> Result<Self, Self::Err> {
let mut key_pairs: Vec<_> = Self::parse(Rule::key, s)?.find_tagged("key").collect();
debug_assert_eq!(key_pairs.len(), 1);
let key: Key = Self::from_pair::<Rule>(
key_pairs
.pop()
.expect("This should contain only this first (and last) element"),
);
Ok(key)
}
}

View File

@ -1,6 +1,9 @@
use std::fmt::{Display, Write}; use std::{
fmt::{Display, Write},
str::FromStr,
};
use crossterm::event::KeyCode; use crate::error;
// taken directly from crossterm // taken directly from crossterm
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy)] #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy)]
@ -21,7 +24,7 @@ pub enum KeyValue {
Insert, Insert,
F(u8), F(u8),
Char(char), Char(char),
Null, // TODO(@soispha): What is this key? <2023-10-15> Null, // TODO(@soispha): Should we keep this key (as it's effectively not a key)?<2023-10-15>
Esc, Esc,
CapsLock, CapsLock,
ScrollLock, ScrollLock,
@ -34,6 +37,50 @@ pub enum KeyValue {
// Media(MediaKeyCode), // Media(MediaKeyCode),
} }
impl FromStr for KeyValue {
type Err = error::KeyValueParseError;
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s {
"BACKSPACE" => Ok(Self::Backspace),
"ENTER" => Ok(Self::Enter),
"LEFT" => Ok(Self::Left),
"RIGHT" => Ok(Self::Right),
"UP" => Ok(Self::Up),
"DOWN" => Ok(Self::Down),
"HOME" => Ok(Self::Home),
"END" => Ok(Self::End),
"PAGEUP" => Ok(Self::PageUp),
"PAGEDOWN" => Ok(Self::PageDown),
"TAB" => Ok(Self::Tab),
"BACKTAB" => Ok(Self::BackTab),
"DELETE" => Ok(Self::Delete),
"INSERT" => Ok(Self::Insert),
"ESC" => Ok(Self::Esc),
"CAPSLOCK" => Ok(Self::CapsLock),
"SCROLLlOCK" => Ok(Self::ScrollLock),
"NUMLOCK" => Ok(Self::NumLock),
"PRINTSCREEN" => Ok(Self::PrintScreen),
"PAUSE" => Ok(Self::Pause),
"MENU" => Ok(Self::Menu),
"KEYPADBEGIN" => Ok(Self::KeypadBegin),
f_str
// FIXME(@soispha): This should check the full string, as something
// like 'FA12' would also match this case <2023-11-07>
if f_str.starts_with("F")
&& f_str.ends_with(['0', '1', '2', '3', '4', '5', '6', '7', '8', '9']) =>
{
Ok(Self::F(f_str.trim_matches('F').parse()?))
}
"DASH" => Ok(Self::Char('-')),
"ANGULAR_BRACKET_OPEN" | "ABO" => Ok(Self::Char('<')),
"ANGULAR_BRACKET_CLOSE" | "ABC" => Ok(Self::Char('>')),
other_str => return Err(Self::Err::NoMatch(other_str.to_owned())),
}
}
}
impl Display for KeyValue { impl Display for KeyValue {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let mut w = |str| return f.write_str(str); let mut w = |str| return f.write_str(str);
@ -53,14 +100,11 @@ impl Display for KeyValue {
KeyValue::Delete => w("<DELETE>"), KeyValue::Delete => w("<DELETE>"),
KeyValue::Insert => w("<INSERT>"), KeyValue::Insert => w("<INSERT>"),
KeyValue::F(n) => f.write_fmt(format_args!("<F{}>", n)), KeyValue::F(n) => f.write_fmt(format_args!("<F{}>", n)),
KeyValue::Char(c) => { KeyValue::Char(c) => match c {
match c { '<' => w("<ANGULAR_BRACKET_OPEN>"),
'<' => w("<ANGULAR_BRACKET_OPEN>"), '>' => w("<ANGULAR_BRACKET_CLOSE>"),
'>' => w("<ANGULAR_BRACKET_CLOSE>"), '-' => w("<DASH>"),
'-' => w("<DASH>"), c => f.write_char(*c),
c => f.write_char(*c),
}
}, },
KeyValue::Null => w("<NULL>"), KeyValue::Null => w("<NULL>"),
KeyValue::Esc => w("<ESC>"), KeyValue::Esc => w("<ESC>"),
@ -74,70 +118,3 @@ impl Display for KeyValue {
} }
} }
} }
impl From<KeyCode> for KeyValue {
fn from(value: KeyCode) -> Self {
match value {
KeyCode::Backspace => Self::Backspace,
KeyCode::Enter => Self::Enter,
KeyCode::Left => Self::Left,
KeyCode::Right => Self::Right,
KeyCode::Up => Self::Up,
KeyCode::Down => Self::Down,
KeyCode::Home => Self::Home,
KeyCode::End => Self::End,
KeyCode::PageUp => Self::PageUp,
KeyCode::PageDown => Self::PageDown,
KeyCode::Tab => Self::Tab,
KeyCode::BackTab => Self::BackTab,
KeyCode::Delete => Self::Delete,
KeyCode::Insert => Self::Insert,
KeyCode::F(n) => Self::F(n),
KeyCode::Char(c) => Self::Char(c),
KeyCode::Null => Self::Null,
KeyCode::Esc => Self::Esc,
KeyCode::CapsLock => Self::CapsLock,
KeyCode::ScrollLock => Self::ScrollLock,
KeyCode::NumLock => Self::NumLock,
KeyCode::PrintScreen => Self::PrintScreen,
KeyCode::Pause => Self::Pause,
KeyCode::Menu => Self::Menu,
KeyCode::KeypadBegin => Self::KeypadBegin,
// FIXME(@soispha): This reduces our information, casting a KeyCode to a KeyValue
// and back again would not equal the original KeyCode <2023-10-15>
KeyCode::Media(_) => Self::Null,
KeyCode::Modifier(_) => Self::Null,
}
}
}
impl Into<KeyCode> for KeyValue {
fn into(self) -> KeyCode {
match self {
Self::Backspace => KeyCode::Backspace,
Self::Enter => KeyCode::Enter,
Self::Left => KeyCode::Left,
Self::Right => KeyCode::Right,
Self::Up => KeyCode::Up,
Self::Down => KeyCode::Down,
Self::Home => KeyCode::Home,
Self::End => KeyCode::End,
Self::PageUp => KeyCode::PageUp,
Self::PageDown => KeyCode::PageDown,
Self::Tab => KeyCode::Tab,
Self::BackTab => KeyCode::BackTab,
Self::Delete => KeyCode::Delete,
Self::Insert => KeyCode::Insert,
Self::F(n) => KeyCode::F(n),
Self::Char(c) => KeyCode::Char(c),
Self::Null => KeyCode::Null,
Self::Esc => KeyCode::Esc,
Self::CapsLock => KeyCode::CapsLock,
Self::ScrollLock => KeyCode::ScrollLock,
Self::NumLock => KeyCode::NumLock,
Self::PrintScreen => KeyCode::PrintScreen,
Self::Pause => KeyCode::Pause,
Self::Menu => KeyCode::Menu,
Self::KeypadBegin => KeyCode::KeypadBegin,
}
}
}

60
keymaps/src/key/keys.pest Normal file
View File

@ -0,0 +1,60 @@
angular_bracket_open = _{ "<" }
abo = _{ angular_bracket_open }
angular_bracket_close = _{ ">" }
abc = _{ angular_bracket_close }
special_key = {
"BACKSPACE"
| "ENTER"
| "LEFT"
| "RIGHT"
| "UP"
| "DOWN"
| "HOME"
| "END"
| "PAGEUP"
| "PAGEDOWN"
| "TAB"
| "BACKTAB"
| "DELETE"
| "INSERT"
| "ESC"
| "CAPSLOCK"
| "SCROLLlOCK"
| "NUMLOCK"
| "PRINTSCREEN"
| "PAUSE"
| "MENU"
| "KEYPADBEGIN"
| ("F" ~ ASCII_DIGIT+)
// Aliases to make using them easier, as they are also used in the notation
| "DASH"
| "ANGULAR_BRACKET_OPEN"
| "ABO"
| "ANGULAR_BRACKET_CLOSE"
| "ABC"
}
modifier = {
"A" | // Alt
"C" | // Ctrl
"M" | // Meta
"S" // Shift
}
value = {
!abo ~ ANY
}
raw_key = {
((abo ~ (#modifiers = modifier)+ ~ "-" ~ (#special_key = (abo ~ special_key ~ abc) | #value = value) ~ abc) | #special_key = (abo ~ special_key ~ abc) | #value = value)
}
// api
key = {
SOI ~ #key = raw_key ~ EOI
}
keys = {
SOI ~ (#keys = raw_key)+ ~ EOI
}

View File

@ -1,10 +1,14 @@
use anyhow::Context; use pest::Parser;
use pest_derive::Parser;
use super::{Chars, Key, KeyValue}; use crate::error;
use super::Key;
use std::{fmt::Display, str::FromStr}; use std::{fmt::Display, str::FromStr};
#[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, Clone)] #[derive(Debug, PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Default, Parser)]
#[grammar = "./key/keys.pest"]
pub struct Keys(pub(super) Vec<Key>); pub struct Keys(pub(super) Vec<Key>);
impl Keys { impl Keys {
@ -90,28 +94,37 @@ impl Display for Keys {
} }
impl FromStr for Keys { impl FromStr for Keys {
type Err = anyhow::Error; type Err = error::KeysParseError;
fn from_str(s: &str) -> Result<Self, Self::Err> { fn from_str(s: &str) -> Result<Self, Self::Err> {
let mut output: Vec<Key> = vec![]; let mut output: Vec<Key> = vec![];
let mut chars = Chars(s.chars().collect()); let parsed = Self::parse(Rule::keys, s)?;
while let Some(char) = chars.pop() {
match char { let keys: Vec<_> = parsed.find_tagged("keys").collect();
'<' => {
chars.prepend('<'); for key in keys {
let key = Key::parse(&mut chars) let output_key: Key = Key::from_pair(key);
.with_context(|| format!("Failed to parse keymapping ('{}')", &chars))?; output.push(output_key)
output.push(key)
}
other_char => output.push(Key {
alt: false,
ctrl: false,
meta: false,
shift: false,
value: Some(KeyValue::Char(other_char)),
}),
}
} }
// let mut chars = Chars(s.chars().collect());
// while let Some(char) = chars.pop() {
// match char {
// '<' => {
// chars.prepend('<');
// let key = Key::parse(&mut chars)
// .with_context(|| format!("Failed to parse keymapping ('{}')", &chars))?;
// output.push(key)
// }
// other_char => output.push(Key {
// alt: false,
// ctrl: false,
// meta: false,
// shift: false,
// value: Some(KeyValue::Char(other_char)),
// }),
// }
// }
Ok(Keys(output)) Ok(Keys(output))
} }
} }

View File

@ -1,18 +1,15 @@
pub mod key;
pub mod keys;
pub mod chars; pub mod chars;
pub mod key;
pub mod key_value; pub mod key_value;
pub mod keys;
pub use key::*; pub use key::Key;
pub use keys::*;
pub(self) use chars::*;
pub use key_value::*; pub use key_value::*;
pub use keys::Keys;
#[cfg(test)] #[cfg(test)]
mod test { mod test {
use crate::app::keymappings::key::{Key, KeyValue}; use crate::key::{Key, KeyValue};
use anyhow::Error;
use pretty_assertions::assert_eq; use pretty_assertions::assert_eq;
use super::Keys; use super::Keys;
@ -80,7 +77,10 @@ mod test {
shift: true, shift: true,
value: Some(KeyValue::Char('<')), value: Some(KeyValue::Char('<')),
}; };
assert_eq!("<AMS-<ANGULAR_BRACKET_OPEN>>".to_owned(), key.to_string_repr()); assert_eq!(
"<AMS-<ANGULAR_BRACKET_OPEN>>".to_owned(),
key.to_string_repr()
);
} }
#[test] #[test]
@ -124,13 +124,28 @@ mod test {
#[test] #[test]
fn test_false_pattern() { fn test_false_pattern() {
let keys: Result<Keys, Error> = "<c->".parse(); let keys: Result<Keys, _> = "<c->".parse();
assert!(keys.is_err()) assert!(keys.is_err())
} }
#[test]
fn test_f_keys() {
let key: Key = "<C-<F255>>".parse().unwrap();
let expected = Key {
alt: false,
ctrl: true,
meta: false,
shift: false,
value: Some(KeyValue::F(255)),
};
assert_eq!(key, expected);
}
#[test] #[test]
fn test_complex() { fn test_complex() {
let keys: Keys = "<C-a><ACMS-<ESC>>a 🙂".parse().unwrap(); let keys: Keys = "<C-a><ACMS-<ESC>>a 🙂"
.parse()
.unwrap_or_else(|e| panic!("{}", e));
assert_eq!( assert_eq!(
keys, keys,
Keys(vec![ Keys(vec![

View File

@ -1,2 +1,3 @@
pub mod key; pub mod key;
pub mod trie; pub mod trie;
pub mod error;

View File

@ -1,19 +1,20 @@
use std::collections::HashMap; use std::collections::HashMap;
use anyhow::bail; use log::info;
use cli_log::info;
use crate::error;
use super::key::{Key, Keys}; use super::key::{Key, Keys};
#[derive(Debug, PartialEq, Eq)] #[derive(Debug, PartialEq, Eq)]
pub struct Node<V: std::fmt::Display> { pub struct Node<V: std::fmt::Display + ToOwned<Owned = V>> {
children: HashMap<Key, Box<Node<V>>>, children: HashMap<Key, Box<Node<V>>>,
value: Option<V>, value: Option<V>,
is_terminal: bool, is_terminal: bool,
is_child: bool, is_child: bool,
} }
impl<V: std::fmt::Display> Node<V> { impl<V: std::fmt::Display + ToOwned<Owned = V>> Node<V> {
pub fn new() -> Node<V> { pub fn new() -> Node<V> {
Node { Node {
children: HashMap::new(), children: HashMap::new(),
@ -87,7 +88,7 @@ impl<V: std::fmt::Display> Node<V> {
/// Insert a key value pair into the trie. The key is supplied as a string to facilitate the /// Insert a key value pair into the trie. The key is supplied as a string to facilitate the
/// creation of nested nodes. /// creation of nested nodes.
pub fn insert(&mut self, keys: &Keys, value: V) -> anyhow::Result<()> { pub fn insert(&mut self, keys: &Keys, value: V) -> Result<(), error::TrieInsertError<V>> {
let mut current_node = self; let mut current_node = self;
for char in keys { for char in keys {
let child_node = current_node let child_node = current_node
@ -95,25 +96,22 @@ impl<V: std::fmt::Display> Node<V> {
.entry(char.to_owned()) .entry(char.to_owned())
.or_insert(Box::new(Node::new_child())); .or_insert(Box::new(Node::new_child()));
if current_node.value.is_some() { if current_node.value.is_some() {
bail!( return Err(error::TrieInsertError::KeyPathBlocked(keys.to_owned()));
"The key ('{}') contains nodes, which already have a value set!",
keys
);
} }
current_node.is_terminal = false; current_node.is_terminal = false;
current_node = child_node current_node = child_node
} }
if current_node.value.is_some() { if current_node.value.is_some() {
bail!( return Err(error::TrieInsertError::KeyAlreadySet {
"The key ('{}') is already set! The value is: '{}'", key: keys.to_owned(),
keys, value: current_node
current_node.value.as_ref().expect("This should be set") .value
) .as_ref()
.expect("This should be set")
.to_owned(),
});
} else if current_node.children.len() > 0 { } else if current_node.children.len() > 0 {
bail!( return Err(error::TrieInsertError::NodeHasChildren(keys.to_owned()));
"The node accessed by this key ('{}') has children! You can't set a value for it",
keys
)
} else { } else {
current_node.value = Some(value); current_node.value = Some(value);
Ok(()) Ok(())
@ -145,7 +143,7 @@ impl<V: std::fmt::Display> Node<V> {
#[cfg(test)] #[cfg(test)]
mod test { mod test {
use crate::app::keymappings::key::{Key, Keys}; use crate::key::{Key, Keys};
use pretty_assertions::assert_eq; use pretty_assertions::assert_eq;
use super::Node; use super::Node;
@ -156,7 +154,9 @@ mod test {
fn k(str: &str) -> Key { fn k(str: &str) -> Key {
str.parse::<Key>().unwrap() str.parse::<Key>().unwrap()
} }
fn collect<V: std::fmt::Display>(nodes: Option<(Vec<&Box<Node<V>>>, bool)>) -> Vec<&V> { fn collect<V: std::fmt::Display + ToOwned<Owned = V>>(
nodes: Option<(Vec<&Box<Node<V>>>, bool)>,
) -> Vec<&V> {
let (nodes, _should_call) = nodes.unwrap(); let (nodes, _should_call) = nodes.unwrap();
nodes nodes
.iter() .iter()
@ -218,7 +218,7 @@ mod test {
output.insert(&i("ace"), true).unwrap(); output.insert(&i("ace"), true).unwrap();
let a_children = &output.children.get(&k("a")).unwrap(); let a_children = &output.children.get(&k("a")).unwrap();
let output_nodes = vec![&a_children.children[&k("a")], &a_children.children[&k("b")]]; let output_nodes = vec![&a_children.children[&k("b")], &a_children.children[&k("a")]];
let (nodes, _should_call) = trie.get(&i("a")).unwrap(); let (nodes, _should_call) = trie.get(&i("a")).unwrap();
assert_eq!(nodes, output_nodes); assert_eq!(nodes, output_nodes);