// SPDX-License-Identifier: GPL-3.0-only use crate::{ backend::render::{element::AsGlowRenderer, IndicatorShader}, shell::{ element::{CosmicMapped, CosmicMappedRenderElement}, focus::target::{KeyboardFocusTarget, PointerFocusTarget}, }, utils::prelude::*, }; use smithay::{ backend::renderer::{ element::{AsRenderElements, RenderElement}, ImportAll, ImportMem, Renderer, }, desktop::space::SpaceElement, input::{ pointer::{ AxisFrame, ButtonEvent, GrabStartData as PointerGrabStartData, MotionEvent, PointerGrab, PointerInnerHandle, RelativeMotionEvent, }, Seat, }, output::Output, reexports::wayland_server::protocol::wl_surface::WlSurface, utils::{IsAlive, Logical, Point, Rectangle, Serial}, wayland::compositor::SurfaceData, }; use std::{cell::RefCell, collections::HashSet, time::Duration}; pub type SeatMoveGrabState = RefCell>; pub struct MoveGrabState { window: CosmicMapped, window_offset: Point, } impl MoveGrabState { pub fn render(&self, renderer: &mut R, seat: &Seat, output: &Output) -> Vec where R: Renderer + ImportAll + ImportMem + AsGlowRenderer, ::TextureId: 'static, CosmicMappedRenderElement: RenderElement, I: From>, { #[cfg(feature = "debug")] puffin::profile_function!(); let cursor_at = seat.get_pointer().unwrap().current_location(); let mut window_geo = self.window.geometry(); window_geo.loc += cursor_at.to_i32_round() + self.window_offset; if !output.geometry().intersection(window_geo).is_some() { return Vec::new(); } let scale = output.current_scale().fractional_scale().into(); let render_location = cursor_at.to_i32_round() - output.geometry().loc + self.window_offset; let mut elements: Vec = vec![CosmicMappedRenderElement::from(IndicatorShader::element( renderer, Rectangle::from_loc_and_size(render_location, self.window.geometry().size), )) .into()]; elements.extend(AsRenderElements::::render_elements::( &self.window, renderer, render_location.to_physical_precise_round(scale), scale, )); elements } pub fn send_frames( &self, output: &Output, time: impl Into, throttle: Option, primary_scan_out_output: impl FnMut(&WlSurface, &SurfaceData) -> Option + Copy, ) { self.window .active_window() .send_frame(output, time, throttle, primary_scan_out_output) } } pub struct MoveSurfaceGrab { window: CosmicMapped, start_data: PointerGrabStartData, seat: Seat, outputs: HashSet, } impl PointerGrab for MoveSurfaceGrab { fn motion( &mut self, state: &mut State, handle: &mut PointerInnerHandle<'_, State>, _focus: Option<(PointerFocusTarget, Point)>, event: &MotionEvent, ) { let borrow = self .seat .user_data() .get::() .map(|s| s.borrow()); if let Some(grab_state) = borrow.as_ref().and_then(|s| s.as_ref()) { let mut window_geo = self.window.geometry(); window_geo.loc += event.location.to_i32_round() + grab_state.window_offset; for output in state.common.shell.outputs() { if let Some(overlap) = output.geometry().intersection(window_geo) { if self.outputs.insert(output.clone()) { self.window.output_enter(output, overlap); } } else if self.outputs.remove(&output) { self.window.output_leave(output); } } } drop(borrow); // While the grab is active, no client has pointer focus handle.motion(state, None, event); if !self.window.alive() { self.ungrab(state, handle, event.serial, event.time); } } fn relative_motion( &mut self, state: &mut State, handle: &mut PointerInnerHandle<'_, State>, _focus: Option<(PointerFocusTarget, Point)>, event: &RelativeMotionEvent, ) { // While the grab is active, no client has pointer focus handle.relative_motion(state, None, event); } fn button( &mut self, state: &mut State, handle: &mut PointerInnerHandle<'_, State>, event: &ButtonEvent, ) { handle.button(state, event); if handle.current_pressed().is_empty() { self.ungrab(state, handle, event.serial, event.time); } } fn axis( &mut self, state: &mut State, handle: &mut PointerInnerHandle<'_, State>, details: AxisFrame, ) { handle.axis(state, details); } fn start_data(&self) -> &PointerGrabStartData { &self.start_data } } impl MoveSurfaceGrab { pub fn new( start_data: PointerGrabStartData, window: CosmicMapped, seat: &Seat, initial_cursor_location: Point, initial_window_location: Point, ) -> MoveSurfaceGrab { let output = seat.active_output(); let mut outputs = HashSet::new(); outputs.insert(output.clone()); window.output_enter(&output, window.geometry()); // not accurate but... let grab_state = MoveGrabState { window: window.clone(), window_offset: dbg!(initial_window_location) + output.geometry().loc - dbg!(initial_cursor_location.to_i32_round()), }; *seat .user_data() .get::() .unwrap() .borrow_mut() = Some(grab_state); MoveSurfaceGrab { window, start_data, seat: seat.clone(), outputs, } } fn ungrab( &mut self, state: &mut State, handle: &mut PointerInnerHandle<'_, State>, serial: Serial, time: u32, ) { // No more buttons are pressed, release the grab. let output = self.seat.active_output(); if let Some(grab_state) = self .seat .user_data() .get::() .and_then(|s| s.borrow_mut().take()) { if grab_state.window.alive() { let window_location = handle.current_location().to_i32_round() - output.geometry().loc + grab_state.window_offset; let workspace_handle = state.common.shell.active_space(&output).handle; for (window, _) in grab_state.window.windows() { state .common .shell .toplevel_info_state .toplevel_enter_workspace(&window, &workspace_handle); state .common .shell .toplevel_info_state .toplevel_enter_output(&window, &output); } let offset = state .common .shell .active_space(&output) .floating_layer .space .output_geometry(&output) .unwrap() .loc; grab_state.window.set_geometry(Rectangle::from_loc_and_size( window_location + offset, grab_state.window.geometry().size, )); state .common .shell .active_space_mut(&output) .floating_layer .map_internal(grab_state.window, &output, Some(window_location + offset)); } } handle.unset_grab(state, serial, time); if self.window.alive() { Common::set_focus( state, Some(&KeyboardFocusTarget::from(self.window.clone())), &self.seat, Some(serial), ) } } }