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|
//! Tracking and managing windows.
use std::cmp::{min, Ordering};
use crate::{
buttons,
config::BORDER_WIDTH,
conn_info::Connection,
debug,
error::{Error, Result},
WM,
};
use xcb::{
x::{
self, ChangeProperty, ConfigWindow, ConfigWindowMask, ConfigureNotifyEvent,
ConfigureRequestEvent, ConfigureWindow, DeleteProperty, DestroyNotifyEvent, Drawable,
EventMask, GetGeometry, GetWindowAttributes, InputFocus, MapRequestEvent, PropMode,
SetInputFocus, UnmapNotifyEvent, Window,
},
xinerama, Extension,
};
pub use client::*;
pub use hints::*;
pub use monitors::*;
#[doc(hidden)]
mod client;
#[doc(hidden)]
mod hints;
#[doc(hidden)]
mod monitors;
mod tile;
/// The tag a client has, similar to a workspace in most WMs.
pub type Tag = u8;
pub type MonitorIdx = usize;
pub type ClientIdx = usize;
impl WM<'_> {
/// Perform configure requests if we're happy with them, or they're for an unmanaged window.
pub(crate) fn handle_configure_request(&mut self, e: &ConfigureRequestEvent) -> Result<()> {
if let Some(c) = self.clients.find_client_mut(e.window()) {
// Always allow setting border width
if c.floating() {
c.set_geom_from(&self.conn, e);
} else if e.value_mask().contains(ConfigWindowMask::BORDER_WIDTH) {
c.set_geom(
&self.conn,
c.x(),
c.y(),
c.height(),
c.width(),
e.border_width(),
);
}
c.configure_notify(&self.conn);
} else {
// Configure it as requested, and sort the rest when we actually map the window
self.conn.send_and_check_request(&ConfigureWindow {
window: e.window(),
value_list: &[
ConfigWindow::X(e.x().into()),
ConfigWindow::Y(e.y().into()),
ConfigWindow::Width(e.width().into()),
ConfigWindow::Height(e.height().into()),
ConfigWindow::BorderWidth(e.border_width().into()),
ConfigWindow::StackMode(e.stack_mode()),
],
})?;
}
Ok(())
}
/// Update our monitor geometry if the root window is reconfigured
pub(crate) fn handle_configure_notify(&mut self, e: &ConfigureNotifyEvent) -> Result<()> {
if e.window() == self.conn.root() {
self.clients.update_geometry(&self.conn)?;
}
Ok(())
}
/// Removing destroyed windows from the client list and rearrange.
pub(crate) fn handle_destroy_notify(&mut self, e: &DestroyNotifyEvent) {
// destroynotify gets fired twice: one with event = e.window(), and one with event = root
// so only listen to the second one
if e.event() == self.conn.root() {
self.clients.unmanage_destroyed(&self.conn, e.window());
}
}
/// Map a window, starting to manage it if needed.
pub(crate) fn handle_map_request(&mut self, e: &MapRequestEvent) -> Result<()> {
// Ignore already managed windows
if self.clients.find_client_mut(e.window()).is_some() {
return Ok(());
}
let attrs = self.conn.wait_for_reply(
self.conn
.send_request(&GetWindowAttributes { window: e.window() }),
)?;
if attrs.override_redirect() {
// Something special, or us doing actual mapping. Don't manage it just let it do its thing.
return Ok(());
}
// Start managing, and map window
self.clients.manage(&self.conn, e.window());
Ok(())
}
/// When a window is unmapped, update its state.
pub(crate) fn handle_unmap_notify(&mut self, e: &UnmapNotifyEvent) {
if let Some(c) = self.clients.find_client_mut(e.window()) {
let cookie = c.set_withdrawn(&self.conn, true);
// The above may fail if the window has already been destroyed - just discard the error here.
let _ = self.conn.check_request(cookie);
}
}
}
/// Holds state related to the window manager's clients
/// This contains a list of clients per monitor, alongside info on that monitor's screen size.
pub struct ClientState {
/// The current arranging function.
/// This function is expected to ensure that all clients are the correct size, reconfigure them if needed, and map/unmap as needed.
arrange: &'static dyn Fn(&Connection<'_>, &mut [Client], &MonitorInfo),
/// Clients attached to that monitor
pub clients: Vec<Client>,
/// Information for each monitor.
mons: Vec<MonitorInfo>,
/// Index of the currently focused client
focused_client: Option<ClientIdx>,
}
impl ClientState {
/// Start managing the given window, adding it to the client list and ensuring its configuration is valid.
pub fn manage(&mut self, conn: &Connection<'_>, window: Window) {
let mut tag = self.focused_mon().focused_tag.create_tag();
let mut floating = false;
if let Some(parent) = hints::transient_for(conn, window) {
floating = true;
if let Some(c) = self.find_client_mut(parent) {
tag = c.tag;
}
}
let Ok(geom) = conn.wait_for_reply(conn.send_request(&GetGeometry {
drawable: Drawable::Window(window),
})) else {
return; // window stopped existing, so we can't manage it
};
self.clients.push(Client::new(window, tag));
let mon_geom @ MonitorGeometry {
width: mon_width,
height: mon_height,
..
} = self.focused_mon().screen_info;
let c = &mut self.clients[0];
#[allow(clippy::cast_sign_loss)]
c.set_geom(
conn,
geom.x(),
geom.y(),
min(geom.width(), mon_width.saturating_sub(geom.x() as u16)),
min(geom.height(), mon_height.saturating_sub(geom.y() as u16)),
BORDER_WIDTH,
);
c.set_border(conn, conn.colours.border_normal());
if floating {
c.set_floating(conn);
}
c.sync_hints(conn, true);
c.apply_geometry_hints(conn, &mon_geom);
c.ensure_mapped(conn);
c.set_event_mask(
conn,
EventMask::ENTER_WINDOW
| EventMask::FOCUS_CHANGE
| EventMask::PROPERTY_CHANGE
| EventMask::STRUCTURE_NOTIFY,
);
// Add to net_client_list
conn.send_request(&ChangeProperty {
mode: xcb::x::PropMode::Append,
window: conn.root(),
property: conn.atoms.net_client_list,
r#type: x::ATOM_WINDOW,
data: &[window],
});
c.set_withdrawn(conn, false);
self.refocus(conn, self.clients.len() - 1);
self.rearrange(conn);
}
/// Stop managing the given destroyed window
pub fn unmanage_destroyed(&mut self, conn: &Connection<'_>, window: Window) {
let Some(i) = self.find_client_pos(window) else {
return;
};
let focused_mon = self.focused_mon().screen_info;
self.clients.remove(i);
self.focused_client = self.focused_client.filter(|f| *f < self.clients.len());
if self.focused_client.is_none() {
self.focused_client = self
.clients
.iter()
.position(|c| focused_mon.contains(c.x(), c.y()));
}
self.rearrange(conn);
}
/// Refocus on the client with the given co-ordinates, setting X11 properties as required.
/// If the given index is invalid, focus on the root instead.
pub fn refocus(&mut self, conn: &Connection<'_>, i: ClientIdx) {
self.unfocus(conn);
if let Some(new) = self.set_focused(i) {
new.set_border(conn, conn.colours.border_focused());
new.sync_hints(conn, true);
buttons::grab(conn, new.window(), true);
if !new.never_focus() {
conn.send_request(&SetInputFocus {
revert_to: InputFocus::PointerRoot,
focus: new.window(),
time: x::CURRENT_TIME,
});
conn.send_request(&ChangeProperty {
window: conn.root(),
mode: PropMode::Replace,
property: conn.atoms.net_active_window,
r#type: x::ATOM_WINDOW,
data: &[new.window()],
});
conn.send_event(new.window(), conn.atoms.wm_take_focus);
}
// TODO: Update focused tag
} else {
conn.send_request(&SetInputFocus {
revert_to: InputFocus::PointerRoot,
focus: conn.root(),
time: x::CURRENT_TIME,
});
conn.send_request(&DeleteProperty {
window: conn.root(),
property: conn.atoms.net_active_window,
});
}
}
/// Unfocus the currently focused window, if it exists.
pub fn unfocus(&mut self, conn: &Connection<'_>) {
if let Some(old) = self.focused_mut() {
old.set_border(conn, conn.colours.border_normal());
buttons::grab(conn, old.window(), false);
}
}
/// Go to the next or previous window in the current monitor, looping around if needed
pub fn change_focus(&mut self, conn: &Connection<'_>, increase: bool) {
if self.clients.is_empty() {
return;
}
let curr_focused = self.focused_client.unwrap_or(0);
let look_through = self
.clients
.iter()
.enumerate()
.filter(|(_, c)| self.focused_mon().screen_info.contains(c.x(), c.y()))
.map(|(i, _)| i);
let new_idx = if increase {
look_through
.cycle()
.skip_while(|i| *i != curr_focused)
.nth(1)
.unwrap_or(0)
} else {
look_through
.rev()
.cycle()
.skip_while(|i| *i != curr_focused)
.nth(1)
.unwrap_or(0)
};
self.refocus(conn, new_idx);
}
/// Toggle whether the client with the given position is floating
pub fn toggle_floating(&mut self, conn: &Connection<'_>, pos: ClientIdx) {
let c = &mut self.clients[pos];
if c.tiled() {
c.set_floating(conn);
} else {
c.set_tiled(conn);
}
self.rearrange_mon(conn, self.client_mon_idx(pos));
}
/// Toggle whether the client with the given position is fullscreen
pub fn toggle_fullscreen(&mut self, conn: &Connection<'_>, pos: ClientIdx) {
let mon = self.client_mon_idx(pos);
let mon_info = &self.mons[mon];
let c = &mut self.clients[pos];
if c.tiled() {
c.set_fullscreen(conn, &mon_info.screen_info);
} else {
c.set_tiled(conn);
}
self.rearrange_mon(conn, mon);
}
/// Set the focused tag for the given monitor
pub fn set_mon_tag_focus(
&mut self,
conn: &Connection<'_>,
mon: MonitorIdx,
tag_focus: TagFocus,
) {
// Hide windows from currently focused tag filter
let mon_info = &self.mons[mon];
let curr_focus = mon_info.focused_tag;
self.clients
.iter_mut()
.filter(|c| curr_focus.matches(c.tag))
.filter(|c| mon_info.screen_info.contains(c.x(), c.y()))
.for_each(|c| c.ensure_unmapped(conn));
debug!("setting tag focus to {:?} on mon {}", tag_focus, mon);
self.mons[mon].focused_tag = tag_focus;
self.unfocus(conn);
self.rearrange_mon(conn, mon);
}
/// Set the tag for the given client
pub fn set_client_tag(&mut self, conn: &Connection<'_>, pos: ClientIdx, tag: Tag) {
let c = self.client_mut(pos);
if c.tag == tag {
return;
}
debug!("moving client with window {:?} to tag {}", c.window(), tag);
c.tag = tag;
c.ensure_unmapped(conn);
self.unfocus(conn);
self.rearrange_mon(conn, self.client_mon_idx(pos));
}
/// Update the recorded monitors and monitor sizes, retiling if necessary.
pub fn update_geometry(&mut self, conn: &Connection<'_>) -> Result<()> {
let mut dirty = false;
if conn.active_extensions().any(|e| e == Extension::Xinerama) {
let reply = conn.wait_for_reply(conn.send_request(&xinerama::QueryScreens {}))?;
// Monitor removed, move its clients away
if reply.screen_info().len() > self.mons.len() {
dirty = true;
self.truncate_screens(reply.screen_info().len());
}
// Update screen info & add new client lists if needed
for (i, monitor) in reply.screen_info().iter().enumerate() {
dirty |= self.set_monitor_geometry(i, (*monitor).into());
}
} else {
// Only one screen
if self.mons.len() > 1 {
dirty = true;
self.truncate_screens(1);
}
// TODO: it looks like this won't actually update when the screen size changes?
let setup = conn.get_setup();
let screen = setup
.roots()
.nth(conn.screen_num())
.ok_or(Error::NoSuchScreen)?;
dirty |= self.set_monitor_geometry(
0,
MonitorGeometry {
x_org: 0,
y_org: 0,
width: screen.width_in_pixels(),
height: screen.height_in_pixels(),
},
);
}
if dirty {
self.rearrange(conn);
}
Ok(())
}
/// Set the new amount of screens
fn truncate_screens(&mut self, new_size: usize) {
match new_size.cmp(&self.mons.len()) {
Ordering::Greater => {
for _ in 0..new_size - self.mons.len() {
self.mons.push(MonitorInfo::default());
}
}
Ordering::Less => {
self.mons.drain(new_size - self.mons.len()..self.mons.len());
}
Ordering::Equal => (),
}
}
/// Set the given screen's geometry, resizing the monitor list if necessary.
/// Returns true if the new info is different from the old one.
fn set_monitor_geometry(&mut self, i: MonitorIdx, info: MonitorGeometry) -> bool {
while i >= self.mons.len() {
self.mons.push(MonitorInfo::default());
}
let dirty = self.mons[i].screen_info != info;
self.mons[i].screen_info = info;
dirty
}
/// Find the [`Client`] corresponding to the given window
pub fn find_client_mut(&mut self, window: Window) -> Option<&mut Client> {
let i = self.find_client_pos(window)?;
Some(&mut self.clients[i])
}
/// Find the position of the client with the given window, returning an index
pub fn find_client_pos(&self, window: Window) -> Option<ClientIdx> {
self.clients.iter().position(|c| c.window() == window)
}
/// Get the index of the currently focused client, if it exists
pub const fn focused_pos(&self) -> Option<ClientIdx> {
self.focused_client
}
/// Get a reference to the currently focused client, if it exists.
pub fn focused(&self) -> Option<&Client> {
self.focused_client.map(|i| self.client(i))
}
/// Get a mutable reference to the currently focused client, if it exists.
pub fn focused_mut(&mut self) -> Option<&mut Client> {
self.focused_client.map(|i| self.client_mut(i))
}
/// Get the position of the currently focused client. This position may be invalid.
pub fn is_focused(&self, e: Window) -> bool {
self.focused().is_some_and(|c| c.window() == e)
}
/// Set the currently focused client, returning a mutable reference to the client.
pub fn set_focused(&mut self, mut i: ClientIdx) -> Option<&mut Client> {
if self.clients.is_empty() {
return None;
}
if i >= self.clients.len() {
i = self.clients.len() - 1;
}
self.focused_client = Some(i);
Some(&mut self.clients[i])
}
/// Get a reference to the client at the given index
pub fn client(&self, i: ClientIdx) -> &Client {
&self.clients[i]
}
/// Get a mutable reference to the client at the given index
pub fn client_mut(&mut self, i: ClientIdx) -> &mut Client {
&mut self.clients[i]
}
/// Rearrange all clients, reconfiguring them as needed.
pub fn rearrange(&mut self, conn: &Connection<'_>) {
for mon in 0..self.mons.len() {
self.rearrange_mon(conn, mon);
}
}
/// Rearrange a specific monitor
pub fn rearrange_mon(&mut self, conn: &Connection<'_>, mon: MonitorIdx) {
(self.arrange)(conn, &mut self.clients, &self.mons[mon]);
}
/// Get the index of the currently focused monitor
pub fn focused_mon_idx(&self) -> MonitorIdx {
self.focused_client.map_or(0, |i| self.client_mon_idx(i))
}
/// Get the info for the currently focused monitor
pub fn focused_mon(&self) -> &MonitorInfo {
&self.mons[self.focused_mon_idx()]
}
/// Get the monitor info for the client with the given index
pub fn client_mon_idx(&self, pos: ClientIdx) -> MonitorIdx {
let c = self.client(pos);
self.mons
.iter()
.position(|m| m.screen_info.contains(c.x(), c.y()))
.unwrap_or_else(|| self.mons.len() - 1)
}
/// Get the monitor info for the client with the given index
pub fn client_mon(&self, pos: ClientIdx) -> &MonitorInfo {
&self.mons[self.client_mon_idx(pos)]
}
}
impl Default for ClientState {
fn default() -> Self {
Self {
arrange: &tile::tile,
mons: vec![],
clients: vec![],
focused_client: None,
}
}
}
impl std::fmt::Debug for ClientState {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_struct("ClientState")
.field("focused_client", &self.focused_client)
.field("mons", &self.mons)
.field("clients", &self.clients)
.finish_non_exhaustive()
}
}
|