use std::io;
use std::sync::atomic::{self, AtomicBool};
use std::sync::Arc;
use std::time::SystemTime;
use helix_core::file_watcher::{EventType, FileSystemDidChange};
use helix_event::register_hook;
use helix_view::editor::Config;
use helix_view::events::ConfigDidChange;
use crate::job;
struct AutoReload {
enable: AtomicBool,
prompt_if_modified: AtomicBool,
}
impl AutoReload {
pub fn refresh_config(&self, config: &Config) {
self.enable
.store(config.file_watcher.enable, atomic::Ordering::Relaxed);
self.prompt_if_modified
.store(config.file_watcher.enable, atomic::Ordering::Relaxed);
}
fn on_file_did_change(&self, event: &mut FileSystemDidChange) {
if !self.enable.load(atomic::Ordering::Relaxed) {
return;
}
let fs_events = event.fs_events.clone();
if !fs_events
.iter()
.any(|event| event.ty == EventType::Modified)
{
return;
}
job::dispatch_blocking(move |editor, _| {
let config = editor.config();
let mut vcs_reload = false;
for fs_event in &*fs_events {
if fs_event.ty != EventType::Modified {
continue;
}
vcs_reload |= editor.diff_providers.needs_reload(fs_event);
let Some(doc_id) = editor.document_id_by_path(fs_event.path.as_std_path()) else {
return;
};
let doc = doc_mut!(editor, &doc_id);
let mtime = match doc.path().unwrap().metadata() {
Ok(meta) => meta.modified().unwrap_or(SystemTime::now()),
Err(err) if err.kind() == io::ErrorKind::NotFound => continue,
Err(_) => SystemTime::now(),
};
if mtime == doc.last_saved_time {
continue;
}
if doc.is_modified() {
let msg = format!(
"{} auto-reload failed due to unsaved changes, use :reload to refresh",
doc.relative_path().unwrap().display()
);
editor.set_warning(msg);
} else {
let scrolloff = config.scrolloff;
let view = view_mut!(editor);
match doc.reload(view, &editor.diff_providers) {
Ok(_) => {
view.ensure_cursor_in_view(doc, scrolloff);
let msg = format!(
"{} auto-reload external changes",
doc.relative_path().unwrap().display()
);
editor.set_status(msg);
}
Err(err) => {
let doc = doc!(editor, &doc_id);
let msg = format!(
"{} auto-reload failed: {err}",
doc.relative_path().unwrap().display()
);
editor.set_error(msg);
}
}
}
}
if vcs_reload {
for doc in editor.documents.values_mut() {
let Some(path) = doc.path() else {
continue;
};
match editor.diff_providers.get_diff_base(path) {
Some(diff_base) => doc.set_diff_base(diff_base),
None => doc.diff_handle = None,
}
}
}
});
}
}
pub(super) fn register_hooks(config: &Config) {
let handler = Arc::new(AutoReload {
enable: config.auto_reload.enable.into(),
prompt_if_modified: config.auto_reload.prompt_if_modified.into(),
});
let handler_ = handler.clone();
register_hook!(move |event: &mut ConfigDidChange<'_>| {
// when a document is initially opened, request colors for it
handler_.refresh_config(event.new);
Ok(())
});
register_hook!(move |event: &mut FileSystemDidChange| {
// when a document is initially opened, request colors for it
handler.on_file_did_change(event);
Ok(())
});
}