548 lines
22 KiB
Rust
548 lines
22 KiB
Rust
use std::{process::Command, sync::atomic::Ordering};
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use crate::AnvilState;
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#[cfg(feature = "udev")]
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use crate::udev::UdevData;
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use smithay::{
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backend::input::{
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self, Event, InputBackend, InputEvent, KeyState, KeyboardKeyEvent, PointerAxisEvent,
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PointerButtonEvent,
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},
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reexports::wayland_server::protocol::wl_pointer,
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wayland::{
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seat::{keysyms as xkb, AxisFrame, FilterResult, Keysym, ModifiersState},
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SERIAL_COUNTER as SCOUNTER,
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},
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};
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#[cfg(any(feature = "winit", feature = "x11"))]
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use smithay::backend::input::PointerMotionAbsoluteEvent;
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#[cfg(feature = "udev")]
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use smithay::{
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backend::{
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input::{
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Device, DeviceCapability, PointerMotionEvent, ProximityState, TabletToolButtonEvent,
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TabletToolEvent, TabletToolProximityEvent, TabletToolTipEvent, TabletToolTipState,
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},
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session::Session,
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},
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utils::{Logical, Point},
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wayland::tablet_manager::{TabletDescriptor, TabletSeatTrait},
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};
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impl<Backend> AnvilState<Backend> {
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fn process_common_key_action(&mut self, action: KeyAction) {
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match action {
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KeyAction::None => (),
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KeyAction::Quit => {
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info!(self.log, "Quitting.");
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self.running.store(false, Ordering::SeqCst);
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}
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KeyAction::Run(cmd) => {
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info!(self.log, "Starting program"; "cmd" => cmd.clone());
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if let Err(e) = Command::new(&cmd).spawn() {
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error!(self.log,
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"Failed to start program";
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"cmd" => cmd,
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"err" => format!("{:?}", e)
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);
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}
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}
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_ => unreachable!(
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"Common key action handler encountered backend specific action {:?}",
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action
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),
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}
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}
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fn keyboard_key_to_action<B: InputBackend>(&mut self, evt: B::KeyboardKeyEvent) -> KeyAction {
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let keycode = evt.key_code();
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let state = evt.state();
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debug!(self.log, "key"; "keycode" => keycode, "state" => format!("{:?}", state));
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let serial = SCOUNTER.next_serial();
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let log = &self.log;
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let time = Event::time(&evt);
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let suppressed_keys = &mut self.suppressed_keys;
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self.keyboard
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.input(keycode, state, serial, time, |modifiers, handle| {
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let keysym = handle.modified_sym();
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debug!(log, "keysym";
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"state" => format!("{:?}", state),
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"mods" => format!("{:?}", modifiers),
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"keysym" => ::xkbcommon::xkb::keysym_get_name(keysym)
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);
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// If the key is pressed and triggered a action
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// we will not forward the key to the client.
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// Additionally add the key to the suppressed keys
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// so that we can decide on a release if the key
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// should be forwarded to the client or not.
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if let KeyState::Pressed = state {
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let action = process_keyboard_shortcut(*modifiers, keysym);
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if action.is_some() {
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suppressed_keys.push(keysym);
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}
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action
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.map(FilterResult::Intercept)
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.unwrap_or(FilterResult::Forward)
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} else {
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let suppressed = suppressed_keys.contains(&keysym);
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if suppressed {
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suppressed_keys.retain(|k| *k != keysym);
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FilterResult::Intercept(KeyAction::None)
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} else {
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FilterResult::Forward
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}
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}
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})
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.unwrap_or(KeyAction::None)
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}
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fn on_pointer_button<B: InputBackend>(&mut self, evt: B::PointerButtonEvent) {
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let serial = SCOUNTER.next_serial();
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let button = evt.button_code();
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let state = match evt.state() {
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input::ButtonState::Pressed => {
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// change the keyboard focus unless the pointer is grabbed
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if !self.pointer.is_grabbed() {
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let under = self
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.window_map
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.borrow_mut()
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.get_surface_and_bring_to_top(self.pointer_location);
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self.keyboard
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.set_focus(under.as_ref().map(|&(ref s, _)| s), serial);
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}
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wl_pointer::ButtonState::Pressed
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}
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input::ButtonState::Released => wl_pointer::ButtonState::Released,
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};
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self.pointer.button(button, state, serial, evt.time());
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}
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fn on_pointer_axis<B: InputBackend>(&mut self, evt: B::PointerAxisEvent) {
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let source = match evt.source() {
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input::AxisSource::Continuous => wl_pointer::AxisSource::Continuous,
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input::AxisSource::Finger => wl_pointer::AxisSource::Finger,
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input::AxisSource::Wheel | input::AxisSource::WheelTilt => wl_pointer::AxisSource::Wheel,
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};
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let horizontal_amount = evt
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.amount(input::Axis::Horizontal)
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.unwrap_or_else(|| evt.amount_discrete(input::Axis::Horizontal).unwrap() * 3.0);
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let vertical_amount = evt
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.amount(input::Axis::Vertical)
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.unwrap_or_else(|| evt.amount_discrete(input::Axis::Vertical).unwrap() * 3.0);
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let horizontal_amount_discrete = evt.amount_discrete(input::Axis::Horizontal);
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let vertical_amount_discrete = evt.amount_discrete(input::Axis::Vertical);
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{
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let mut frame = AxisFrame::new(evt.time()).source(source);
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if horizontal_amount != 0.0 {
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frame = frame.value(wl_pointer::Axis::HorizontalScroll, horizontal_amount);
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if let Some(discrete) = horizontal_amount_discrete {
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frame = frame.discrete(wl_pointer::Axis::HorizontalScroll, discrete as i32);
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}
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} else if source == wl_pointer::AxisSource::Finger {
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frame = frame.stop(wl_pointer::Axis::HorizontalScroll);
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}
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if vertical_amount != 0.0 {
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frame = frame.value(wl_pointer::Axis::VerticalScroll, vertical_amount);
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if let Some(discrete) = vertical_amount_discrete {
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frame = frame.discrete(wl_pointer::Axis::VerticalScroll, discrete as i32);
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}
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} else if source == wl_pointer::AxisSource::Finger {
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frame = frame.stop(wl_pointer::Axis::VerticalScroll);
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}
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self.pointer.axis(frame);
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}
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}
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}
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#[cfg(any(feature = "winit", feature = "x11"))]
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impl<Backend> AnvilState<Backend> {
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pub fn process_input_event_windowed<B: InputBackend>(&mut self, event: InputEvent<B>, output_name: &str) {
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match event {
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InputEvent::Keyboard { event } => match self.keyboard_key_to_action::<B>(event) {
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KeyAction::ScaleUp => {
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let current_scale = {
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self.output_map
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.borrow()
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.find_by_name(output_name)
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.map(|o| o.scale())
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.unwrap_or(1.0)
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};
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self.output_map
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.borrow_mut()
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.update_scale_by_name(current_scale + 0.25f32, output_name);
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}
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KeyAction::ScaleDown => {
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let current_scale = {
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self.output_map
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.borrow()
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.find_by_name(output_name)
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.map(|o| o.scale())
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.unwrap_or(1.0)
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};
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self.output_map
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.borrow_mut()
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.update_scale_by_name(f32::max(1.0f32, current_scale - 0.25f32), output_name);
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}
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action => match action {
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KeyAction::None | KeyAction::Quit | KeyAction::Run(_) => {
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self.process_common_key_action(action)
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}
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_ => warn!(
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self.log,
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"Key action {:?} unsupported on on output {} backend.", action, output_name
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),
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},
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},
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InputEvent::PointerMotionAbsolute { event } => {
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self.on_pointer_move_absolute_windowed::<B>(event, output_name)
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}
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InputEvent::PointerButton { event } => self.on_pointer_button::<B>(event),
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InputEvent::PointerAxis { event } => self.on_pointer_axis::<B>(event),
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_ => (), // other events are not handled in anvil (yet)
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}
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}
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fn on_pointer_move_absolute_windowed<B: InputBackend>(
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&mut self,
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evt: B::PointerMotionAbsoluteEvent,
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output_name: &str,
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) {
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let output_size = self
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.output_map
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.borrow()
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.find_by_name(output_name)
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.map(|o| o.size())
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.unwrap();
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let pos = evt.position_transformed(output_size);
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self.pointer_location = pos;
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let serial = SCOUNTER.next_serial();
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let under = self.window_map.borrow().get_surface_under(pos);
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self.pointer.motion(pos, under, serial, evt.time());
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}
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}
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#[cfg(feature = "udev")]
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impl AnvilState<UdevData> {
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pub fn process_input_event<B: InputBackend>(&mut self, event: InputEvent<B>) {
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match event {
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InputEvent::Keyboard { event, .. } => match self.keyboard_key_to_action::<B>(event) {
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#[cfg(feature = "udev")]
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KeyAction::VtSwitch(vt) => {
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info!(self.log, "Trying to switch to vt {}", vt);
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if let Err(err) = self.backend_data.session.change_vt(vt) {
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error!(self.log, "Error switching to vt {}: {}", vt, err);
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}
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}
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KeyAction::Screen(num) => {
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let geometry = self.output_map.borrow().find_by_index(num).map(|o| o.geometry());
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if let Some(geometry) = geometry {
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let x = geometry.loc.x as f64 + geometry.size.w as f64 / 2.0;
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let y = geometry.size.h as f64 / 2.0;
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self.pointer_location = (x, y).into()
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}
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}
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KeyAction::ScaleUp => {
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let mut output_map = self.output_map.borrow_mut();
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let output = output_map
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.find_by_position(self.pointer_location.to_i32_round())
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.map(|o| (o.name().to_owned(), o.location(), o.scale()));
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if let Some((name, output_location, scale)) = output {
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let new_scale = scale + 0.25;
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output_map.update_scale_by_name(new_scale, name);
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let rescale = scale as f64 / new_scale as f64;
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let output_location = output_location.to_f64();
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let mut pointer_output_location = self.pointer_location - output_location;
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pointer_output_location.x *= rescale;
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pointer_output_location.y *= rescale;
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self.pointer_location = output_location + pointer_output_location;
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let under = self.window_map.borrow().get_surface_under(self.pointer_location);
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self.pointer
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.motion(self.pointer_location, under, SCOUNTER.next_serial(), 0);
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}
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}
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KeyAction::ScaleDown => {
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let mut output_map = self.output_map.borrow_mut();
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let output = output_map
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.find_by_position(self.pointer_location.to_i32_round())
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.map(|o| (o.name().to_owned(), o.location(), o.scale()));
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if let Some((name, output_location, scale)) = output {
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let new_scale = f32::max(1.0, scale - 0.25);
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output_map.update_scale_by_name(new_scale, name);
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let rescale = scale as f64 / new_scale as f64;
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let output_location = output_location.to_f64();
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let mut pointer_output_location = self.pointer_location - output_location;
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pointer_output_location.x *= rescale;
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pointer_output_location.y *= rescale;
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self.pointer_location = output_location + pointer_output_location;
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let under = self.window_map.borrow().get_surface_under(self.pointer_location);
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self.pointer
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.motion(self.pointer_location, under, SCOUNTER.next_serial(), 0);
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}
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}
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action => match action {
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KeyAction::None | KeyAction::Quit | KeyAction::Run(_) => {
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self.process_common_key_action(action)
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}
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_ => unreachable!(),
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},
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},
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InputEvent::PointerMotion { event, .. } => self.on_pointer_move::<B>(event),
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InputEvent::PointerButton { event, .. } => self.on_pointer_button::<B>(event),
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InputEvent::PointerAxis { event, .. } => self.on_pointer_axis::<B>(event),
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InputEvent::TabletToolAxis { event, .. } => self.on_tablet_tool_axis::<B>(event),
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InputEvent::TabletToolProximity { event, .. } => self.on_tablet_tool_proximity::<B>(event),
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InputEvent::TabletToolTip { event, .. } => self.on_tablet_tool_tip::<B>(event),
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InputEvent::TabletToolButton { event, .. } => self.on_tablet_button::<B>(event),
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InputEvent::DeviceAdded { device } => {
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if device.has_capability(DeviceCapability::TabletTool) {
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self.seat
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.tablet_seat()
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.add_tablet(&TabletDescriptor::from(&device));
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}
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}
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InputEvent::DeviceRemoved { device } => {
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if device.has_capability(DeviceCapability::TabletTool) {
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let tablet_seat = self.seat.tablet_seat();
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tablet_seat.remove_tablet(&TabletDescriptor::from(&device));
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// If there are no tablets in seat we can remove all tools
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if tablet_seat.count_tablets() == 0 {
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tablet_seat.clear_tools();
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}
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}
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}
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_ => {
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// other events are not handled in anvil (yet)
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}
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}
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}
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fn on_pointer_move<B: InputBackend>(&mut self, evt: B::PointerMotionEvent) {
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let serial = SCOUNTER.next_serial();
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self.pointer_location += evt.delta();
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// clamp to screen limits
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// this event is never generated by winit
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self.pointer_location = self.clamp_coords(self.pointer_location);
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let under = self.window_map.borrow().get_surface_under(self.pointer_location);
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self.pointer
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.motion(self.pointer_location, under, serial, evt.time());
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}
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fn on_tablet_tool_axis<B: InputBackend>(&mut self, evt: B::TabletToolAxisEvent) {
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let output_map = self.output_map.borrow();
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let pointer_location = &mut self.pointer_location;
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let tablet_seat = self.seat.tablet_seat();
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let window_map = self.window_map.borrow();
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let output_geometry = output_map.with_primary().map(|o| o.geometry());
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if let Some(rect) = output_geometry {
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*pointer_location = evt.position_transformed(rect.size) + rect.loc.to_f64();
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let under = window_map.get_surface_under(*pointer_location);
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let tablet = tablet_seat.get_tablet(&TabletDescriptor::from(&evt.device()));
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let tool = tablet_seat.get_tool(&evt.tool());
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if let (Some(tablet), Some(tool)) = (tablet, tool) {
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if evt.pressure_has_changed() {
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tool.pressure(evt.pressure());
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}
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if evt.distance_has_changed() {
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tool.distance(evt.distance());
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}
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if evt.tilt_has_changed() {
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tool.tilt(evt.tilt());
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}
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if evt.slider_has_changed() {
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tool.slider_position(evt.slider_position());
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}
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if evt.rotation_has_changed() {
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tool.rotation(evt.rotation());
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}
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if evt.wheel_has_changed() {
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tool.wheel(evt.wheel_delta(), evt.wheel_delta_discrete());
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}
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tool.motion(
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*pointer_location,
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under,
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&tablet,
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SCOUNTER.next_serial(),
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evt.time(),
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);
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}
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}
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}
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fn on_tablet_tool_proximity<B: InputBackend>(&mut self, evt: B::TabletToolProximityEvent) {
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let output_map = self.output_map.borrow();
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let pointer_location = &mut self.pointer_location;
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let tablet_seat = self.seat.tablet_seat();
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let window_map = self.window_map.borrow();
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let output_geometry = output_map.with_primary().map(|o| o.geometry());
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if let Some(rect) = output_geometry {
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let tool = evt.tool();
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tablet_seat.add_tool(&tool);
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*pointer_location = evt.position_transformed(rect.size) + rect.loc.to_f64();
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let under = window_map.get_surface_under(*pointer_location);
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let tablet = tablet_seat.get_tablet(&TabletDescriptor::from(&evt.device()));
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let tool = tablet_seat.get_tool(&tool);
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if let (Some(under), Some(tablet), Some(tool)) = (under, tablet, tool) {
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match evt.state() {
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ProximityState::In => tool.proximity_in(
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*pointer_location,
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under,
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&tablet,
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SCOUNTER.next_serial(),
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evt.time(),
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),
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ProximityState::Out => tool.proximity_out(evt.time()),
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}
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}
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}
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}
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fn on_tablet_tool_tip<B: InputBackend>(&mut self, evt: B::TabletToolTipEvent) {
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let tool = self.seat.tablet_seat().get_tool(&evt.tool());
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if let Some(tool) = tool {
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match evt.tip_state() {
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TabletToolTipState::Down => {
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tool.tip_down(SCOUNTER.next_serial(), evt.time());
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// change the keyboard focus unless the pointer is grabbed
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if !self.pointer.is_grabbed() {
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let under = self
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.window_map
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.borrow_mut()
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.get_surface_and_bring_to_top(self.pointer_location);
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let serial = SCOUNTER.next_serial();
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self.keyboard
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.set_focus(under.as_ref().map(|&(ref s, _)| s), serial);
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}
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}
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TabletToolTipState::Up => {
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tool.tip_up(evt.time());
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}
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}
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}
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}
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fn on_tablet_button<B: InputBackend>(&mut self, evt: B::TabletToolButtonEvent) {
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let tool = self.seat.tablet_seat().get_tool(&evt.tool());
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if let Some(tool) = tool {
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tool.button(
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evt.button(),
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evt.button_state(),
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SCOUNTER.next_serial(),
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evt.time(),
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|
);
|
|
}
|
|
}
|
|
|
|
fn clamp_coords(&self, pos: Point<f64, Logical>) -> Point<f64, Logical> {
|
|
if self.output_map.borrow().is_empty() {
|
|
return pos;
|
|
}
|
|
|
|
let (pos_x, pos_y) = pos.into();
|
|
let output_map = self.output_map.borrow();
|
|
let max_x = output_map.width();
|
|
let clamped_x = pos_x.max(0.0).min(max_x as f64);
|
|
let max_y = output_map.height(clamped_x as i32);
|
|
|
|
if let Some(max_y) = max_y {
|
|
let clamped_y = pos_y.max(0.0).min(max_y as f64);
|
|
|
|
(clamped_x, clamped_y).into()
|
|
} else {
|
|
(clamped_x, pos_y).into()
|
|
}
|
|
}
|
|
}
|
|
|
|
/// Possible results of a keyboard action
|
|
#[derive(Debug)]
|
|
enum KeyAction {
|
|
/// Quit the compositor
|
|
Quit,
|
|
/// Trigger a vt-switch
|
|
VtSwitch(i32),
|
|
/// run a command
|
|
Run(String),
|
|
/// Switch the current screen
|
|
Screen(usize),
|
|
ScaleUp,
|
|
ScaleDown,
|
|
/// Do nothing more
|
|
None,
|
|
}
|
|
|
|
fn process_keyboard_shortcut(modifiers: ModifiersState, keysym: Keysym) -> Option<KeyAction> {
|
|
if modifiers.ctrl && modifiers.alt && keysym == xkb::KEY_BackSpace
|
|
|| modifiers.logo && keysym == xkb::KEY_q
|
|
{
|
|
// ctrl+alt+backspace = quit
|
|
// logo + q = quit
|
|
Some(KeyAction::Quit)
|
|
} else if (xkb::KEY_XF86Switch_VT_1..=xkb::KEY_XF86Switch_VT_12).contains(&keysym) {
|
|
// VTSwicth
|
|
Some(KeyAction::VtSwitch(
|
|
(keysym - xkb::KEY_XF86Switch_VT_1 + 1) as i32,
|
|
))
|
|
} else if modifiers.logo && keysym == xkb::KEY_Return {
|
|
// run terminal
|
|
Some(KeyAction::Run("weston-terminal".into()))
|
|
} else if modifiers.logo && keysym >= xkb::KEY_1 && keysym <= xkb::KEY_9 {
|
|
Some(KeyAction::Screen((keysym - xkb::KEY_1) as usize))
|
|
} else if modifiers.logo && modifiers.shift && keysym == xkb::KEY_M {
|
|
Some(KeyAction::ScaleDown)
|
|
} else if modifiers.logo && modifiers.shift && keysym == xkb::KEY_P {
|
|
Some(KeyAction::ScaleUp)
|
|
} else {
|
|
None
|
|
}
|
|
}
|