Add a sticky mode for keymaps (#635)

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Gokul Soumya 3 years ago committed by GitHub
parent 99a753a579
commit 183dcce992
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GPG Key ID: 4AEE18F83AFDEB23

@ -4,6 +4,7 @@ use helix_core::hashmap;
use helix_view::{document::Mode, info::Info, input::KeyEvent};
use serde::Deserialize;
use std::{
borrow::Cow,
collections::HashMap,
ops::{Deref, DerefMut},
};
@ -47,13 +48,13 @@ macro_rules! keymap {
};
(@trie
{ $label:literal $($($key:literal)|+ => $value:tt,)+ }
{ $label:literal $(sticky=$sticky:literal)? $($($key:literal)|+ => $value:tt,)+ }
) => {
keymap!({ $label $($($key)|+ => $value,)+ })
keymap!({ $label $(sticky=$sticky)? $($($key)|+ => $value,)+ })
};
(
{ $label:literal $($($key:literal)|+ => $value:tt,)+ }
{ $label:literal $(sticky=$sticky:literal)? $($($key:literal)|+ => $value:tt,)+ }
) => {
// modified from the hashmap! macro
{
@ -70,7 +71,9 @@ macro_rules! keymap {
_order.push(_key);
)+
)*
$crate::keymap::KeyTrie::Node($crate::keymap::KeyTrieNode::new($label, _map, _order))
let mut _node = $crate::keymap::KeyTrieNode::new($label, _map, _order);
$( _node.is_sticky = $sticky; )?
$crate::keymap::KeyTrie::Node(_node)
}
};
}
@ -84,6 +87,8 @@ pub struct KeyTrieNode {
map: HashMap<KeyEvent, KeyTrie>,
#[serde(skip)]
order: Vec<KeyEvent>,
#[serde(skip)]
pub is_sticky: bool,
}
impl KeyTrieNode {
@ -92,6 +97,7 @@ impl KeyTrieNode {
name: name.to_string(),
map,
order,
is_sticky: false,
}
}
@ -119,12 +125,10 @@ impl KeyTrieNode {
}
}
}
}
impl From<KeyTrieNode> for Info {
fn from(node: KeyTrieNode) -> Self {
let mut body: Vec<(&str, Vec<KeyEvent>)> = Vec::with_capacity(node.len());
for (&key, trie) in node.iter() {
pub fn infobox(&self) -> Info {
let mut body: Vec<(&str, Vec<KeyEvent>)> = Vec::with_capacity(self.len());
for (&key, trie) in self.iter() {
let desc = match trie {
KeyTrie::Leaf(cmd) => cmd.doc(),
KeyTrie::Node(n) => n.name(),
@ -136,16 +140,16 @@ impl From<KeyTrieNode> for Info {
}
}
body.sort_unstable_by_key(|(_, keys)| {
node.order.iter().position(|&k| k == keys[0]).unwrap()
self.order.iter().position(|&k| k == keys[0]).unwrap()
});
let prefix = format!("{} ", node.name());
let prefix = format!("{} ", self.name());
if body.iter().all(|(desc, _)| desc.starts_with(&prefix)) {
body = body
.into_iter()
.map(|(desc, keys)| (desc.strip_prefix(&prefix).unwrap(), keys))
.collect();
}
Info::new(node.name(), body)
Info::new(self.name(), body)
}
}
@ -218,7 +222,7 @@ impl KeyTrie {
}
#[derive(Debug, Clone, PartialEq)]
pub enum KeymapResult {
pub enum KeymapResultKind {
/// Needs more keys to execute a command. Contains valid keys for next keystroke.
Pending(KeyTrieNode),
Matched(Command),
@ -229,14 +233,31 @@ pub enum KeymapResult {
Cancelled(Vec<KeyEvent>),
}
/// Returned after looking up a key in [`Keymap`]. The `sticky` field has a
/// reference to the sticky node if one is currently active.
pub struct KeymapResult<'a> {
pub kind: KeymapResultKind,
pub sticky: Option<&'a KeyTrieNode>,
}
impl<'a> KeymapResult<'a> {
pub fn new(kind: KeymapResultKind, sticky: Option<&'a KeyTrieNode>) -> Self {
Self { kind, sticky }
}
}
#[derive(Debug, Clone, PartialEq, Deserialize)]
pub struct Keymap {
/// Always a Node
#[serde(flatten)]
root: KeyTrie,
/// Stores pending keys waiting for the next key
/// Stores pending keys waiting for the next key. This is relative to a
/// sticky node if one is in use.
#[serde(skip)]
state: Vec<KeyEvent>,
/// Stores the sticky node if one is activated.
#[serde(skip)]
sticky: Option<KeyTrieNode>,
}
impl Keymap {
@ -244,6 +265,7 @@ impl Keymap {
Keymap {
root,
state: Vec::new(),
sticky: None,
}
}
@ -251,27 +273,60 @@ impl Keymap {
&self.root
}
pub fn sticky(&self) -> Option<&KeyTrieNode> {
self.sticky.as_ref()
}
/// Returns list of keys waiting to be disambiguated.
pub fn pending(&self) -> &[KeyEvent] {
&self.state
}
/// Lookup `key` in the keymap to try and find a command to execute
/// Lookup `key` in the keymap to try and find a command to execute. Escape
/// key cancels pending keystrokes. If there are no pending keystrokes but a
/// sticky node is in use, it will be cleared.
pub fn get(&mut self, key: KeyEvent) -> KeymapResult {
let &first = self.state.get(0).unwrap_or(&key);
let trie = match self.root.search(&[first]) {
Some(&KeyTrie::Leaf(cmd)) => return KeymapResult::Matched(cmd),
None => return KeymapResult::NotFound,
if let key!(Esc) = key {
if self.state.is_empty() {
self.sticky = None;
}
return KeymapResult::new(
KeymapResultKind::Cancelled(self.state.drain(..).collect()),
self.sticky(),
);
}
let first = self.state.get(0).unwrap_or(&key);
let trie_node = match self.sticky {
Some(ref trie) => Cow::Owned(KeyTrie::Node(trie.clone())),
None => Cow::Borrowed(&self.root),
};
let trie = match trie_node.search(&[*first]) {
Some(&KeyTrie::Leaf(cmd)) => {
return KeymapResult::new(KeymapResultKind::Matched(cmd), self.sticky())
}
None => return KeymapResult::new(KeymapResultKind::NotFound, self.sticky()),
Some(t) => t,
};
self.state.push(key);
match trie.search(&self.state[1..]) {
Some(&KeyTrie::Node(ref map)) => KeymapResult::Pending(map.clone()),
Some(&KeyTrie::Leaf(command)) => {
Some(&KeyTrie::Node(ref map)) => {
if map.is_sticky {
self.state.clear();
self.sticky = Some(map.clone());
}
KeymapResult::new(KeymapResultKind::Pending(map.clone()), self.sticky())
}
Some(&KeyTrie::Leaf(cmd)) => {
self.state.clear();
KeymapResult::Matched(command)
return KeymapResult::new(KeymapResultKind::Matched(cmd), self.sticky());
}
None => KeymapResult::Cancelled(self.state.drain(..).collect()),
None => KeymapResult::new(
KeymapResultKind::Cancelled(self.state.drain(..).collect()),
self.sticky(),
),
}
}
@ -602,19 +657,19 @@ fn merge_partial_keys() {
let keymap = merged_config.keys.0.get_mut(&Mode::Normal).unwrap();
assert_eq!(
keymap.get(key!('i')),
KeymapResult::Matched(Command::normal_mode),
keymap.get(key!('i')).kind,
KeymapResultKind::Matched(Command::normal_mode),
"Leaf should replace leaf"
);
assert_eq!(
keymap.get(key!('无')),
KeymapResult::Matched(Command::insert_mode),
keymap.get(key!('无')).kind,
KeymapResultKind::Matched(Command::insert_mode),
"New leaf should be present in merged keymap"
);
// Assumes that z is a node in the default keymap
assert_eq!(
keymap.get(key!('z')),
KeymapResult::Matched(Command::jump_backward),
keymap.get(key!('z')).kind,
KeymapResultKind::Matched(Command::jump_backward),
"Leaf should replace node"
);
// Assumes that `g` is a node in default keymap

@ -2,7 +2,7 @@ use crate::{
commands,
compositor::{Component, Context, EventResult},
key,
keymap::{KeymapResult, Keymaps},
keymap::{KeymapResult, KeymapResultKind, Keymaps},
ui::{Completion, ProgressSpinners},
};
@ -638,7 +638,7 @@ impl EditorView {
/// Handle events by looking them up in `self.keymaps`. Returns None
/// if event was handled (a command was executed or a subkeymap was
/// activated). Only KeymapResult::{NotFound, Cancelled} is returned
/// activated). Only KeymapResultKind::{NotFound, Cancelled} is returned
/// otherwise.
fn handle_keymap_event(
&mut self,
@ -647,29 +647,32 @@ impl EditorView {
event: KeyEvent,
) -> Option<KeymapResult> {
self.autoinfo = None;
match self.keymaps.get_mut(&mode).unwrap().get(event) {
KeymapResult::Matched(command) => command.execute(cxt),
KeymapResult::Pending(node) => self.autoinfo = Some(node.into()),
k @ KeymapResult::NotFound | k @ KeymapResult::Cancelled(_) => return Some(k),
let key_result = self.keymaps.get_mut(&mode).unwrap().get(event);
self.autoinfo = key_result.sticky.map(|node| node.infobox());
match &key_result.kind {
KeymapResultKind::Matched(command) => command.execute(cxt),
KeymapResultKind::Pending(node) => self.autoinfo = Some(node.infobox()),
KeymapResultKind::NotFound | KeymapResultKind::Cancelled(_) => return Some(key_result),
}
None
}
fn insert_mode(&mut self, cx: &mut commands::Context, event: KeyEvent) {
if let Some(keyresult) = self.handle_keymap_event(Mode::Insert, cx, event) {
match keyresult {
KeymapResult::NotFound => {
match keyresult.kind {
KeymapResultKind::NotFound => {
if let Some(ch) = event.char() {
commands::insert::insert_char(cx, ch)
}
}
KeymapResult::Cancelled(pending) => {
KeymapResultKind::Cancelled(pending) => {
for ev in pending {
match ev.char() {
Some(ch) => commands::insert::insert_char(cx, ch),
None => {
if let KeymapResult::Matched(command) =
self.keymaps.get_mut(&Mode::Insert).unwrap().get(ev)
if let KeymapResultKind::Matched(command) =
self.keymaps.get_mut(&Mode::Insert).unwrap().get(ev).kind
{
command.execute(cx);
}
@ -976,11 +979,12 @@ impl Component for EditorView {
// how we entered insert mode is important, and we should track that so
// we can repeat the side effect.
self.last_insert.0 = match self.keymaps.get_mut(&mode).unwrap().get(key) {
KeymapResult::Matched(command) => command,
// FIXME: insert mode can only be entered through single KeyCodes
_ => unimplemented!(),
};
self.last_insert.0 =
match self.keymaps.get_mut(&mode).unwrap().get(key).kind {
KeymapResultKind::Matched(command) => command,
// FIXME: insert mode can only be entered through single KeyCodes
_ => unimplemented!(),
};
self.last_insert.1.clear();
}
(Mode::Insert, Mode::Normal) => {

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