river/river/Seat.zig

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// This file is part of river, a dynamic tiling wayland compositor.
//
// Copyright 2020 The River Developers
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//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, version 3.
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//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <https://www.gnu.org/licenses/>.
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const Self = @This();
const build_options = @import("build_options");
const std = @import("std");
const assert = std.debug.assert;
const wlr = @import("wlroots");
const wl = @import("wayland").server.wl;
const xkb = @import("xkbcommon");
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const command = @import("command.zig");
const server = &@import("main.zig").server;
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const util = @import("util.zig");
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const DragIcon = @import("DragIcon.zig");
const Cursor = @import("Cursor.zig");
const InputManager = @import("InputManager.zig");
const Keyboard = @import("Keyboard.zig");
const Switch = @import("Switch.zig");
const Mapping = @import("Mapping.zig");
const LayerSurface = @import("LayerSurface.zig");
const Output = @import("Output.zig");
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const SeatStatus = @import("SeatStatus.zig");
const View = @import("View.zig");
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const ViewStack = @import("view_stack.zig").ViewStack;
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const log = std.log.scoped(.seat);
const PointerConstraint = @import("PointerConstraint.zig");
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const FocusTarget = union(enum) {
view: *View,
layer: *LayerSurface,
none: void,
};
wlr_seat: *wlr.Seat,
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/// Multiple mice are handled by the same Cursor
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cursor: Cursor = undefined,
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/// Mulitple keyboards are handled separately
keyboards: std.TailQueue(Keyboard) = .{},
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/// There are two kind of switches: lid switches and tablet mode switches
switches: std.TailQueue(Switch) = .{},
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/// ID of the current keymap mode
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mode_id: usize = 0,
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/// ID of previous keymap mode, used when returning from "locked" mode
prev_mode_id: usize = 0,
/// Timer for repeating keyboard mappings
mapping_repeat_timer: *wl.EventSource,
/// Currently repeating mapping, if any
repeating_mapping: ?*const Mapping = null,
/// Currently focused output, may be the noop output if no real output
/// is currently available for focus.
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focused_output: *Output,
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/// Currently focused view/layer surface if any
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focused: FocusTarget = .none,
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/// Stack of views in most recently focused order
/// If there is a currently focused view, it is on top.
focus_stack: ViewStack(*View) = .{},
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/// List of status tracking objects relaying changes to this seat to clients.
status_trackers: std.SinglyLinkedList(SeatStatus) = .{},
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/// True if a pointer drag is currently in progress
pointer_drag: bool = false,
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request_set_selection: wl.Listener(*wlr.Seat.event.RequestSetSelection) =
wl.Listener(*wlr.Seat.event.RequestSetSelection).init(handleRequestSetSelection),
request_start_drag: wl.Listener(*wlr.Seat.event.RequestStartDrag) =
wl.Listener(*wlr.Seat.event.RequestStartDrag).init(handleRequestStartDrag),
start_drag: wl.Listener(*wlr.Drag) = wl.Listener(*wlr.Drag).init(handleStartDrag),
pointer_drag_destroy: wl.Listener(*wlr.Drag) = wl.Listener(*wlr.Drag).init(handlePointerDragDestroy),
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request_set_primary_selection: wl.Listener(*wlr.Seat.event.RequestSetPrimarySelection) =
wl.Listener(*wlr.Seat.event.RequestSetPrimarySelection).init(handleRequestSetPrimarySelection),
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pub fn init(self: *Self, name: [*:0]const u8) !void {
const event_loop = server.wl_server.getEventLoop();
const mapping_repeat_timer = try event_loop.addTimer(*Self, handleMappingRepeatTimeout, self);
errdefer mapping_repeat_timer.remove();
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self.* = .{
// This will be automatically destroyed when the display is destroyed
.wlr_seat = try wlr.Seat.create(server.wl_server, name),
.focused_output = &server.root.noop_output,
.mapping_repeat_timer = mapping_repeat_timer,
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};
self.wlr_seat.data = @ptrToInt(self);
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try self.cursor.init(self);
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self.wlr_seat.events.request_set_selection.add(&self.request_set_selection);
self.wlr_seat.events.request_start_drag.add(&self.request_start_drag);
self.wlr_seat.events.start_drag.add(&self.start_drag);
self.wlr_seat.events.request_set_primary_selection.add(&self.request_set_primary_selection);
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}
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pub fn deinit(self: *Self) void {
self.cursor.deinit();
self.mapping_repeat_timer.remove();
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while (self.keyboards.pop()) |node| {
node.data.deinit();
util.gpa.destroy(node);
}
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while (self.switches.pop()) |node| {
node.data.deinit();
util.gpa.destroy(node);
}
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while (self.focus_stack.first) |node| {
self.focus_stack.remove(node);
util.gpa.destroy(node);
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}
self.request_set_selection.link.remove();
self.request_start_drag.link.remove();
self.start_drag.link.remove();
if (self.pointer_drag) self.pointer_drag_destroy.link.remove();
self.request_set_primary_selection.link.remove();
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}
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/// Set the current focus. If a visible view is passed it will be focused.
/// If null is passed, the first visible view in the focus stack will be focused.
pub fn focus(self: *Self, _target: ?*View) void {
var target = _target;
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// While a layer surface is focused, views may not recieve focus
if (self.focused == .layer) return;
if (target) |view| {
// If the view is not currently visible, behave as if null was passed
if (view.pending.tags & view.output.pending.tags == 0) {
target = null;
} else {
// If the view is not on the currently focused output, focus it
if (view.output != self.focused_output) self.focusOutput(view.output);
}
}
// If the target view is not fullscreen or null, then a fullscreen view
// will grab focus if visible.
if (if (target) |v| !v.pending.fullscreen else true) {
const tags = self.focused_output.pending.tags;
var it = ViewStack(*View).iter(self.focus_stack.first, .forward, tags, pendingFilter);
target = while (it.next()) |view| {
if (view.output == self.focused_output and view.pending.fullscreen) break view;
} else target;
}
if (target == null) {
// Set view to the first currently visible view in the focus stack if any
const tags = self.focused_output.pending.tags;
var it = ViewStack(*View).iter(self.focus_stack.first, .forward, tags, pendingFilter);
target = while (it.next()) |view| {
if (view.output == self.focused_output) break view;
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} else null;
}
// Focus the target view or clear the focus if target is null
if (target) |view| {
// Find the node for this view in the focus stack and move it to the top.
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var it = self.focus_stack.first;
while (it) |node| : (it = node.next) {
if (node.view == view) {
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self.focus_stack.remove(node);
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self.focus_stack.push(node);
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break;
}
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} else {
// A node is added when new Views are mapped in Seat.handleViewMap()
unreachable;
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}
self.setFocusRaw(.{ .view = view });
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} else {
self.setFocusRaw(.{ .none = {} });
}
}
fn pendingFilter(view: *View, filter_tags: u32) bool {
return view.surface != null and view.pending.tags & filter_tags != 0;
}
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/// Switch focus to the target, handling unfocus and input inhibition
/// properly. This should only be called directly if dealing with layers.
pub fn setFocusRaw(self: *Self, new_focus: FocusTarget) void {
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// If the target is already focused, do nothing
if (std.meta.eql(new_focus, self.focused)) return;
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// Obtain the target surface
const target_surface = switch (new_focus) {
.view => |target_view| target_view.surface.?,
.layer => |target_layer| target_layer.wlr_layer_surface.surface,
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.none => null,
};
// If input is not allowed on the target surface (e.g. due to an active
// input inhibitor) do not set focus. If there is no target surface we
// still clear the focus.
if (if (target_surface) |wlr_surface| server.input_manager.inputAllowed(wlr_surface) else true) {
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// First clear the current focus
switch (self.focused) {
.view => |view| {
view.pending.focus -= 1;
if (view.pending.focus == 0) view.setActivated(false);
},
.layer, .none => {},
}
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// Set the new focus
switch (new_focus) {
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.view => |target_view| {
assert(self.focused_output == target_view.output);
if (target_view.pending.focus == 0) target_view.setActivated(true);
target_view.pending.focus += 1;
target_view.pending.urgent = false;
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},
.layer => |target_layer| assert(self.focused_output == target_layer.output),
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.none => {},
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}
self.focused = new_focus;
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// Send keyboard enter/leave events and handle pointer constraints
if (target_surface) |wlr_surface| {
if (self.wlr_seat.getKeyboard()) |keyboard| {
self.wlr_seat.keyboardNotifyEnter(
wlr_surface,
&keyboard.keycodes,
keyboard.num_keycodes,
&keyboard.modifiers,
);
} else {
self.wlr_seat.keyboardNotifyEnter(wlr_surface, null, 0, null);
}
if (server.input_manager.pointer_constraints.constraintForSurface(wlr_surface, self.wlr_seat)) |constraint| {
@intToPtr(*PointerConstraint, constraint.data).setAsActive();
} else if (self.cursor.constraint) |constraint| {
PointerConstraint.warpToHint(&self.cursor);
constraint.sendDeactivated();
self.cursor.constraint = null;
}
} else {
self.wlr_seat.keyboardClearFocus();
if (self.cursor.constraint) |constraint| {
PointerConstraint.warpToHint(&self.cursor);
constraint.sendDeactivated();
self.cursor.constraint = null;
}
}
}
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// Inform any clients tracking status of the change
var it = self.status_trackers.first;
while (it) |node| : (it = node.next) node.data.sendFocusedView();
}
/// Focus the given output, notifying any listening clients of the change.
pub fn focusOutput(self: *Self, output: *Output) void {
if (self.focused_output == output) return;
var it = self.status_trackers.first;
while (it) |node| : (it = node.next) node.data.sendOutput(.unfocused);
self.focused_output = output;
it = self.status_trackers.first;
while (it) |node| : (it = node.next) node.data.sendOutput(.focused);
if (self.focused_output == &server.root.noop_output) return;
// Warp pointer to center of newly focused output (In layout coordinates),
// but only if cursor is not already on the output and this feature is enabled.
switch (server.config.warp_cursor) {
.disabled => {},
.@"on-output-change" => {
const layout_box = server.root.output_layout.getBox(output.wlr_output).?;
if (!layout_box.containsPoint(self.cursor.wlr_cursor.x, self.cursor.wlr_cursor.y)) {
const eff_res = output.getEffectiveResolution();
const lx = @intToFloat(f32, layout_box.x + @intCast(i32, eff_res.width / 2));
const ly = @intToFloat(f32, layout_box.y + @intCast(i32, eff_res.height / 2));
if (!self.cursor.wlr_cursor.warp(null, lx, ly)) {
log.err("failed to warp cursor on output change", .{});
}
}
},
}
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}
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pub fn handleActivity(self: Self) void {
server.input_manager.idle.notifyActivity(self.wlr_seat);
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}
pub fn handleViewMap(self: *Self, view: *View) !void {
const new_focus_node = try util.gpa.create(ViewStack(*View).Node);
new_focus_node.view = view;
self.focus_stack.append(new_focus_node);
self.focus(view);
}
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/// Handle the unmapping of a view, removing it from the focus stack and
/// setting the focus if needed.
pub fn handleViewUnmap(self: *Self, view: *View) void {
// Remove the node from the focus stack and destroy it.
var it = self.focus_stack.first;
while (it) |node| : (it = node.next) {
if (node.view == view) {
self.focus_stack.remove(node);
util.gpa.destroy(node);
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break;
}
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}
self.cursor.handleViewUnmap(view);
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// If the unmapped view is focused, choose a new focus
if (self.focused == .view and self.focused.view == view) self.focus(null);
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}
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/// Handle any user-defined mapping for the passed keysym and modifiers
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/// Returns true if the key was handled
pub fn handleMapping(
self: *Self,
keysym: xkb.Keysym,
modifiers: wlr.Keyboard.ModifierMask,
released: bool,
) bool {
const modes = &server.config.modes;
for (modes.items[self.mode_id].mappings.items) |*mapping| {
if (std.meta.eql(modifiers, mapping.modifiers) and keysym == mapping.keysym and released == mapping.release) {
if (mapping.repeat) {
self.repeating_mapping = mapping;
self.mapping_repeat_timer.timerUpdate(server.config.repeat_delay) catch {
log.err("failed to update mapping repeat timer", .{});
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};
}
self.runCommand(mapping.command_args);
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return true;
}
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}
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return false;
}
/// Handle any user-defined mapping for switches
pub fn handleSwitchMapping(
self: *Self,
switch_type: Switch.Type,
switch_state: Switch.State,
) void {
const modes = &server.config.modes;
for (modes.items[self.mode_id].switch_mappings.items) |mapping| {
if (std.meta.eql(mapping.switch_type, switch_type) and std.meta.eql(mapping.switch_state, switch_state)) {
self.runCommand(mapping.command_args);
}
}
}
fn runCommand(self: *Self, args: []const [:0]const u8) void {
var out: ?[]const u8 = null;
defer if (out) |s| util.gpa.free(s);
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command.run(self, args, &out) catch |err| {
const failure_message = switch (err) {
command.Error.Other => out.?,
else => command.errToMsg(err),
};
std.log.scoped(.command).err("{s}: {s}", .{ args[0], failure_message });
return;
};
if (out) |s| {
const stdout = std.io.getStdOut().writer();
stdout.print("{s}", .{s}) catch |err| {
std.log.scoped(.command).err("{s}: write to stdout failed {}", .{ args[0], err });
};
}
}
pub fn clearRepeatingMapping(self: *Self) void {
self.mapping_repeat_timer.timerUpdate(0) catch {
log.err("failed to clear mapping repeat timer", .{});
};
self.repeating_mapping = null;
}
/// Repeat key mapping
fn handleMappingRepeatTimeout(self: *Self) callconv(.C) c_int {
if (self.repeating_mapping) |mapping| {
const rate = server.config.repeat_rate;
const ms_delay = if (rate > 0) 1000 / rate else 0;
self.mapping_repeat_timer.timerUpdate(ms_delay) catch {
log.err("failed to update mapping repeat timer", .{});
};
self.runCommand(mapping.command_args);
}
return 0;
}
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/// Add a newly created input device to the seat and update the reported
/// capabilities.
pub fn addDevice(self: *Self, device: *wlr.InputDevice) void {
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switch (device.type) {
.keyboard => self.addKeyboard(device) catch return,
.pointer => self.addPointer(device),
.switch_device => self.addSwitch(device) catch return,
else => return,
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}
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// We need to let the wlr_seat know what our capabilities are, which is
// communiciated to the client. We always have a cursor, even if
// there are no pointer devices, so we always include that capability.
self.wlr_seat.setCapabilities(.{
.pointer = true,
.keyboard = self.keyboards.len > 0,
});
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}
fn addKeyboard(self: *Self, device: *wlr.InputDevice) !void {
const node = try util.gpa.create(std.TailQueue(Keyboard).Node);
node.data.init(self, device) catch |err| {
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const log_keyboard = std.log.scoped(.keyboard);
switch (err) {
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error.XkbContextFailed => log_keyboard.err("Failed to create XKB context", .{}),
error.XkbKeymapFailed => log_keyboard.err("Failed to create XKB keymap", .{}),
error.SetKeymapFailed => log_keyboard.err("Failed to set wlr keyboard keymap", .{}),
}
return;
};
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self.keyboards.append(node);
self.wlr_seat.setKeyboard(device);
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}
fn addPointer(self: Self, device: *wlr.InputDevice) void {
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// We don't do anything special with pointers. All of our pointer handling
// is proxied through wlr_cursor. On another compositor, you might take this
// opportunity to do libinput configuration on the device to set
// acceleration, etc.
self.cursor.wlr_cursor.attachInputDevice(device);
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}
fn addSwitch(self: *Self, device: *wlr.InputDevice) !void {
const node = try util.gpa.create(std.TailQueue(Switch).Node);
node.data.init(self, device);
self.switches.append(node);
}
fn handleRequestSetSelection(
listener: *wl.Listener(*wlr.Seat.event.RequestSetSelection),
event: *wlr.Seat.event.RequestSetSelection,
) void {
const self = @fieldParentPtr(Self, "request_set_selection", listener);
self.wlr_seat.setSelection(event.source, event.serial);
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}
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fn handleRequestStartDrag(
listener: *wl.Listener(*wlr.Seat.event.RequestStartDrag),
event: *wlr.Seat.event.RequestStartDrag,
) void {
const self = @fieldParentPtr(Self, "request_start_drag", listener);
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if (!self.wlr_seat.validatePointerGrabSerial(event.origin, event.serial)) {
log.debug("ignoring request to start drag, " ++
"failed to validate pointer serial {}", .{event.serial});
if (event.drag.source) |source| source.destroy();
return;
}
if (self.pointer_drag) {
log.debug("ignoring request to start pointer drag, " ++
"another pointer drag is already in progress", .{});
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return;
}
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log.debug("starting pointer drag", .{});
self.wlr_seat.startPointerDrag(event.drag, event.serial);
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}
fn handleStartDrag(listener: *wl.Listener(*wlr.Drag), wlr_drag: *wlr.Drag) void {
const self = @fieldParentPtr(Self, "start_drag", listener);
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assert(wlr_drag.grab_type == .keyboard_pointer);
self.pointer_drag = true;
wlr_drag.events.destroy.add(&self.pointer_drag_destroy);
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if (wlr_drag.icon) |wlr_drag_icon| {
const node = util.gpa.create(std.SinglyLinkedList(DragIcon).Node) catch {
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log.err("out of memory", .{});
wlr_drag.seat_client.client.postNoMemory();
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return;
};
node.data.init(self, wlr_drag_icon);
server.root.drag_icons.prepend(node);
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}
self.cursor.mode = .passthrough;
}
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fn handlePointerDragDestroy(listener: *wl.Listener(*wlr.Drag), _: *wlr.Drag) void {
const self = @fieldParentPtr(Self, "pointer_drag_destroy", listener);
self.pointer_drag_destroy.link.remove();
self.pointer_drag = false;
self.cursor.checkFocusFollowsCursor();
self.cursor.updateState();
}
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fn handleRequestSetPrimarySelection(
listener: *wl.Listener(*wlr.Seat.event.RequestSetPrimarySelection),
event: *wlr.Seat.event.RequestSetPrimarySelection,
) void {
const self = @fieldParentPtr(Self, "request_set_primary_selection", listener);
self.wlr_seat.setPrimarySelection(event.source, event.serial);
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}