gnome-shell/js/ui/swipeTracker.js
Alexander Mikhaylenko f48e58a81a swipeTracker: Reset before emitting 'end' and not after
If the actor is unmapped in the handler, the touch gesture will cancel.
Since we haven't reset the state yet, it will still work and will actually
cancel the gesture, so reset before that instead.

Fixes overview cancelling when trying to open it with a swipe.

Part-of: <https://gitlab.gnome.org/GNOME/gnome-shell/-/merge_requests/1731>
2021-03-13 18:08:24 +00:00

793 lines
26 KiB
JavaScript

// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*-
/* exported SwipeTracker */
const { Clutter, Gio, GObject, Meta } = imports.gi;
const Main = imports.ui.main;
const Params = imports.misc.params;
// FIXME: ideally these values matches physical touchpad size. We can get the
// correct values for gnome-shell specifically, since mutter uses libinput
// directly, but GTK apps cannot get it, so use an arbitrary value so that
// it's consistent with apps.
const TOUCHPAD_BASE_HEIGHT = 300;
const TOUCHPAD_BASE_WIDTH = 400;
const EVENT_HISTORY_THRESHOLD_MS = 150;
const SCROLL_MULTIPLIER = 10;
const SWIPE_MULTIPLIER = 0.5;
const MIN_ANIMATION_DURATION = 100;
const MAX_ANIMATION_DURATION = 400;
const VELOCITY_THRESHOLD_TOUCH = 0.3;
const VELOCITY_THRESHOLD_TOUCHPAD = 0.6;
const DECELERATION_TOUCH = 0.998;
const DECELERATION_TOUCHPAD = 0.997;
const VELOCITY_CURVE_THRESHOLD = 2;
const DECELERATION_PARABOLA_MULTIPLIER = 0.35;
const DRAG_THRESHOLD_DISTANCE = 16;
// Derivative of easeOutCubic at t=0
const DURATION_MULTIPLIER = 3;
const ANIMATION_BASE_VELOCITY = 0.002;
const EPSILON = 0.005;
const GESTURE_FINGER_COUNT = 3;
const State = {
NONE: 0,
SCROLLING: 1,
};
const TouchpadState = {
NONE: 0,
PENDING: 1,
HANDLING: 2,
IGNORED: 3,
};
const EventHistory = class {
constructor() {
this.reset();
}
reset() {
this._data = [];
}
trim(time) {
const thresholdTime = time - EVENT_HISTORY_THRESHOLD_MS;
const index = this._data.findIndex(r => r.time >= thresholdTime);
this._data.splice(0, index);
}
append(time, delta) {
this.trim(time);
this._data.push({ time, delta });
}
calculateVelocity() {
if (this._data.length < 2)
return 0;
const firstTime = this._data[0].time;
const lastTime = this._data[this._data.length - 1].time;
if (firstTime === lastTime)
return 0;
const totalDelta = this._data.slice(1).map(a => a.delta).reduce((a, b) => a + b);
const period = lastTime - firstTime;
return totalDelta / period;
}
};
const TouchpadSwipeGesture = GObject.registerClass({
Properties: {
'enabled': GObject.ParamSpec.boolean(
'enabled', 'enabled', 'enabled',
GObject.ParamFlags.READWRITE,
true),
'orientation': GObject.ParamSpec.enum(
'orientation', 'orientation', 'orientation',
GObject.ParamFlags.READWRITE,
Clutter.Orientation, Clutter.Orientation.HORIZONTAL),
},
Signals: {
'begin': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE, GObject.TYPE_DOUBLE] },
'update': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE, GObject.TYPE_DOUBLE] },
'end': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE] },
},
}, class TouchpadSwipeGesture extends GObject.Object {
_init(allowedModes) {
super._init();
this._allowedModes = allowedModes;
this._state = TouchpadState.NONE;
this._cumulativeX = 0;
this._cumulativeY = 0;
this._touchpadSettings = new Gio.Settings({
schema_id: 'org.gnome.desktop.peripherals.touchpad',
});
this._stageCaptureEvent =
global.stage.connect('captured-event::touchpad', this._handleEvent.bind(this));
}
_handleEvent(actor, event) {
if (event.type() !== Clutter.EventType.TOUCHPAD_SWIPE)
return Clutter.EVENT_PROPAGATE;
if (event.get_gesture_phase() === Clutter.TouchpadGesturePhase.BEGIN)
this._state = TouchpadState.NONE;
if (event.get_touchpad_gesture_finger_count() !== GESTURE_FINGER_COUNT)
return Clutter.EVENT_PROPAGATE;
if ((this._allowedModes & Main.actionMode) === 0)
return Clutter.EVENT_PROPAGATE;
if (!this.enabled)
return Clutter.EVENT_PROPAGATE;
if (this._state === TouchpadState.IGNORED)
return Clutter.EVENT_PROPAGATE;
let time = event.get_time();
const [x, y] = event.get_coords();
let [dx, dy] = event.get_gesture_motion_delta();
if (this._state === TouchpadState.NONE) {
if (dx === 0 && dy === 0)
return Clutter.EVENT_PROPAGATE;
this._cumulativeX = 0;
this._cumulativeY = 0;
this._state = TouchpadState.PENDING;
}
if (this._state === TouchpadState.PENDING) {
this._cumulativeX += dx * SWIPE_MULTIPLIER;
this._cumulativeY += dy * SWIPE_MULTIPLIER;
const cdx = this._cumulativeX;
const cdy = this._cumulativeY;
const distance = Math.sqrt(cdx * cdx + cdy * cdy);
if (distance >= DRAG_THRESHOLD_DISTANCE) {
const gestureOrientation = Math.abs(cdx) > Math.abs(cdy)
? Clutter.Orientation.HORIZONTAL
: Clutter.Orientation.VERTICAL;
this._cumulativeX = 0;
this._cumulativeY = 0;
if (gestureOrientation === this.orientation) {
this._state = TouchpadState.HANDLING;
this.emit('begin', time, x, y);
} else {
this._state = TouchpadState.IGNORED;
return Clutter.EVENT_PROPAGATE;
}
} else {
return Clutter.EVENT_PROPAGATE;
}
}
const vertical = this.orientation === Clutter.Orientation.VERTICAL;
let delta = (vertical ? dy : dx) * SWIPE_MULTIPLIER;
const distance = vertical ? TOUCHPAD_BASE_HEIGHT : TOUCHPAD_BASE_WIDTH;
switch (event.get_gesture_phase()) {
case Clutter.TouchpadGesturePhase.BEGIN:
case Clutter.TouchpadGesturePhase.UPDATE:
if (this._touchpadSettings.get_boolean('natural-scroll'))
delta = -delta;
this.emit('update', time, delta, distance);
break;
case Clutter.TouchpadGesturePhase.END:
case Clutter.TouchpadGesturePhase.CANCEL:
this.emit('end', time, distance);
this._state = TouchpadState.NONE;
break;
}
return this._state === TouchpadState.HANDLING
? Clutter.EVENT_STOP
: Clutter.EVENT_PROPAGATE;
}
destroy() {
if (this._stageCaptureEvent) {
global.stage.disconnect(this._stageCaptureEvent);
delete this._stageCaptureEvent;
}
}
});
const TouchSwipeGesture = GObject.registerClass({
Properties: {
'distance': GObject.ParamSpec.double(
'distance', 'distance', 'distance',
GObject.ParamFlags.READWRITE,
0, Infinity, 0),
'orientation': GObject.ParamSpec.enum(
'orientation', 'orientation', 'orientation',
GObject.ParamFlags.READWRITE,
Clutter.Orientation, Clutter.Orientation.HORIZONTAL),
},
Signals: {
'begin': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE, GObject.TYPE_DOUBLE] },
'update': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE, GObject.TYPE_DOUBLE] },
'end': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE] },
'cancel': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE] },
},
}, class TouchSwipeGesture extends Clutter.GestureAction {
_init(allowedModes, nTouchPoints, thresholdTriggerEdge) {
super._init();
this.set_n_touch_points(nTouchPoints);
this.set_threshold_trigger_edge(thresholdTriggerEdge);
this._allowedModes = allowedModes;
this._distance = global.screen_height;
global.display.connect('grab-op-begin', () => {
this.cancel();
});
this._lastPosition = 0;
}
get distance() {
return this._distance;
}
set distance(distance) {
if (this._distance === distance)
return;
this._distance = distance;
this.notify('distance');
}
vfunc_gesture_prepare(actor) {
if (!super.vfunc_gesture_prepare(actor))
return false;
if ((this._allowedModes & Main.actionMode) === 0)
return false;
let time = this.get_last_event(0).get_time();
let [xPress, yPress] = this.get_press_coords(0);
let [x, y] = this.get_motion_coords(0);
const [xDelta, yDelta] = [x - xPress, y - yPress];
const swipeOrientation = Math.abs(xDelta) > Math.abs(yDelta)
? Clutter.Orientation.HORIZONTAL : Clutter.Orientation.VERTICAL;
if (swipeOrientation !== this.orientation)
return false;
this._lastPosition =
this.orientation === Clutter.Orientation.VERTICAL ? y : x;
this.emit('begin', time, xPress, yPress);
return true;
}
vfunc_gesture_progress(_actor) {
let [x, y] = this.get_motion_coords(0);
let pos = this.orientation === Clutter.Orientation.VERTICAL ? y : x;
let delta = pos - this._lastPosition;
this._lastPosition = pos;
let time = this.get_last_event(0).get_time();
this.emit('update', time, -delta, this._distance);
return true;
}
vfunc_gesture_end(_actor) {
let time = this.get_last_event(0).get_time();
this.emit('end', time, this._distance);
}
vfunc_gesture_cancel(_actor) {
let time = Clutter.get_current_event_time();
this.emit('cancel', time, this._distance);
}
});
const ScrollGesture = GObject.registerClass({
Properties: {
'enabled': GObject.ParamSpec.boolean(
'enabled', 'enabled', 'enabled',
GObject.ParamFlags.READWRITE,
true),
'orientation': GObject.ParamSpec.enum(
'orientation', 'orientation', 'orientation',
GObject.ParamFlags.READWRITE,
Clutter.Orientation, Clutter.Orientation.HORIZONTAL),
'scroll-modifiers': GObject.ParamSpec.flags(
'scroll-modifiers', 'scroll-modifiers', 'scroll-modifiers',
GObject.ParamFlags.READWRITE,
Clutter.ModifierType, 0),
},
Signals: {
'begin': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE, GObject.TYPE_DOUBLE] },
'update': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE, GObject.TYPE_DOUBLE] },
'end': { param_types: [GObject.TYPE_UINT, GObject.TYPE_DOUBLE] },
},
}, class ScrollGesture extends GObject.Object {
_init(actor, allowedModes) {
super._init();
this._allowedModes = allowedModes;
this._began = false;
this._enabled = true;
actor.connect('scroll-event', this._handleEvent.bind(this));
}
get enabled() {
return this._enabled;
}
set enabled(enabled) {
if (this._enabled === enabled)
return;
this._enabled = enabled;
this._began = false;
this.notify('enabled');
}
canHandleEvent(event) {
if (event.type() !== Clutter.EventType.SCROLL)
return false;
if (event.get_scroll_source() !== Clutter.ScrollSource.FINGER &&
event.get_source_device().get_device_type() !== Clutter.InputDeviceType.TOUCHPAD_DEVICE)
return false;
if (!this.enabled)
return false;
if ((this._allowedModes & Main.actionMode) === 0)
return false;
if (this.scrollModifiers !== 0 &&
(event.get_state() & this.scrollModifiers) === 0)
return false;
return true;
}
_handleEvent(actor, event) {
if (!this.canHandleEvent(event))
return Clutter.EVENT_PROPAGATE;
if (event.get_scroll_direction() !== Clutter.ScrollDirection.SMOOTH)
return Clutter.EVENT_PROPAGATE;
const vertical = this.orientation === Clutter.Orientation.VERTICAL;
const distance = vertical ? TOUCHPAD_BASE_HEIGHT : TOUCHPAD_BASE_WIDTH;
let time = event.get_time();
let [dx, dy] = event.get_scroll_delta();
if (dx === 0 && dy === 0) {
this.emit('end', time, distance);
this._began = false;
return Clutter.EVENT_STOP;
}
if (!this._began) {
let [x, y] = event.get_coords();
this.emit('begin', time, x, y);
this._began = true;
}
const delta = (vertical ? dy : dx) * SCROLL_MULTIPLIER;
this.emit('update', time, delta, distance);
return Clutter.EVENT_STOP;
}
});
// USAGE:
//
// To correctly implement the gesture, there must be handlers for the following
// signals:
//
// begin(tracker, monitor)
// The handler should check whether a deceleration animation is currently
// running. If it is, it should stop the animation (without resetting
// progress). Then it should call:
// tracker.confirmSwipe(distance, snapPoints, currentProgress, cancelProgress)
// If it's not called, the swipe would be ignored.
// The parameters are:
// * distance: the page size;
// * snapPoints: an (sorted with ascending order) array of snap points;
// * currentProgress: the current progress;
// * cancelprogress: a non-transient value that would be used if the gesture
// is cancelled.
// If no animation was running, currentProgress and cancelProgress should be
// same. The handler may set 'orientation' property here.
//
// update(tracker, progress)
// The handler should set the progress to the given value.
//
// end(tracker, duration, endProgress)
// The handler should animate the progress to endProgress. If endProgress is
// 0, it should do nothing after the animation, otherwise it should change the
// state, e.g. change the current page or switch workspace.
// NOTE: duration can be 0 in some cases, in this case it should finish
// instantly.
/** A class for handling swipe gestures */
var SwipeTracker = GObject.registerClass({
Properties: {
'enabled': GObject.ParamSpec.boolean(
'enabled', 'enabled', 'enabled',
GObject.ParamFlags.READWRITE,
true),
'orientation': GObject.ParamSpec.enum(
'orientation', 'orientation', 'orientation',
GObject.ParamFlags.READWRITE,
Clutter.Orientation, Clutter.Orientation.HORIZONTAL),
'distance': GObject.ParamSpec.double(
'distance', 'distance', 'distance',
GObject.ParamFlags.READWRITE,
0, Infinity, 0),
'allow-long-swipes': GObject.ParamSpec.boolean(
'allow-long-swipes', 'allow-long-swipes', 'allow-long-swipes',
GObject.ParamFlags.READWRITE,
false),
'scroll-modifiers': GObject.ParamSpec.flags(
'scroll-modifiers', 'scroll-modifiers', 'scroll-modifiers',
GObject.ParamFlags.READWRITE,
Clutter.ModifierType, 0),
},
Signals: {
'begin': { param_types: [GObject.TYPE_UINT] },
'update': { param_types: [GObject.TYPE_DOUBLE] },
'end': { param_types: [GObject.TYPE_UINT64, GObject.TYPE_DOUBLE] },
},
}, class SwipeTracker extends GObject.Object {
_init(actor, orientation, allowedModes, params) {
super._init();
params = Params.parse(params, { allowDrag: true, allowScroll: true });
this.orientation = orientation;
this._allowedModes = allowedModes;
this._enabled = true;
this._allowLongSwipes = false;
this._distance = global.screen_height;
this._history = new EventHistory();
this._reset();
this._touchpadGesture = new TouchpadSwipeGesture(allowedModes);
this._touchpadGesture.connect('begin', this._beginGesture.bind(this));
this._touchpadGesture.connect('update', this._updateGesture.bind(this));
this._touchpadGesture.connect('end', this._endTouchpadGesture.bind(this));
this.bind_property('enabled', this._touchpadGesture, 'enabled', 0);
this.bind_property('orientation', this._touchpadGesture, 'orientation',
GObject.BindingFlags.SYNC_CREATE);
this._touchGesture = new TouchSwipeGesture(allowedModes,
GESTURE_FINGER_COUNT,
Clutter.GestureTriggerEdge.AFTER);
this._touchGesture.connect('begin', this._beginTouchSwipe.bind(this));
this._touchGesture.connect('update', this._updateGesture.bind(this));
this._touchGesture.connect('end', this._endTouchGesture.bind(this));
this._touchGesture.connect('cancel', this._cancelTouchGesture.bind(this));
this.bind_property('enabled', this._touchGesture, 'enabled', 0);
this.bind_property('orientation', this._touchGesture, 'orientation',
GObject.BindingFlags.SYNC_CREATE);
this.bind_property('distance', this._touchGesture, 'distance', 0);
global.stage.add_action(this._touchGesture);
if (params.allowDrag) {
this._dragGesture = new TouchSwipeGesture(allowedModes, 1,
Clutter.GestureTriggerEdge.AFTER);
this._dragGesture.connect('begin', this._beginGesture.bind(this));
this._dragGesture.connect('update', this._updateGesture.bind(this));
this._dragGesture.connect('end', this._endTouchGesture.bind(this));
this._dragGesture.connect('cancel', this._cancelTouchGesture.bind(this));
this.bind_property('enabled', this._dragGesture, 'enabled', 0);
this.bind_property('orientation', this._dragGesture, 'orientation',
GObject.BindingFlags.SYNC_CREATE);
this.bind_property('distance', this._dragGesture, 'distance', 0);
actor.add_action(this._dragGesture);
} else {
this._dragGesture = null;
}
if (params.allowScroll) {
this._scrollGesture = new ScrollGesture(actor, allowedModes);
this._scrollGesture.connect('begin', this._beginGesture.bind(this));
this._scrollGesture.connect('update', this._updateGesture.bind(this));
this._scrollGesture.connect('end', this._endTouchpadGesture.bind(this));
this.bind_property('enabled', this._scrollGesture, 'enabled', 0);
this.bind_property('orientation', this._scrollGesture, 'orientation',
GObject.BindingFlags.SYNC_CREATE);
this.bind_property('scroll-modifiers',
this._scrollGesture, 'scroll-modifiers', 0);
} else {
this._scrollGesture = null;
}
}
/**
* canHandleScrollEvent:
* @param {Clutter.Event} scrollEvent: an event to check
* @returns {bool} whether the event can be handled by the tracker
*
* This function can be used to combine swipe gesture and mouse
* scrolling.
*/
canHandleScrollEvent(scrollEvent) {
if (!this.enabled || this._scrollGesture === null)
return false;
return this._scrollGesture.canHandleEvent(scrollEvent);
}
get enabled() {
return this._enabled;
}
set enabled(enabled) {
if (this._enabled === enabled)
return;
this._enabled = enabled;
if (!enabled && this._state === State.SCROLLING)
this._interrupt();
this.notify('enabled');
}
get distance() {
return this._distance;
}
set distance(distance) {
if (this._distance === distance)
return;
this._distance = distance;
this.notify('distance');
}
_reset() {
this._state = State.NONE;
this._snapPoints = [];
this._initialProgress = 0;
this._cancelProgress = 0;
this._prevOffset = 0;
this._progress = 0;
this._cancelled = false;
this._history.reset();
}
_interrupt() {
this.emit('end', 0, this._cancelProgress);
this._reset();
}
_beginTouchSwipe(gesture, time, x, y) {
if (this._dragGesture)
this._dragGesture.cancel();
this._beginGesture(gesture, time, x, y);
}
_beginGesture(gesture, time, x, y) {
if (this._state === State.SCROLLING)
return;
this._history.append(time, 0);
let rect = new Meta.Rectangle({ x, y, width: 1, height: 1 });
let monitor = global.display.get_monitor_index_for_rect(rect);
this.emit('begin', monitor);
}
_findClosestPoint(pos) {
const distances = this._snapPoints.map(x => Math.abs(x - pos));
const min = Math.min(...distances);
return distances.indexOf(min);
}
_findNextPoint(pos) {
return this._snapPoints.findIndex(p => p >= pos);
}
_findPreviousPoint(pos) {
const reversedIndex = this._snapPoints.slice().reverse().findIndex(p => p <= pos);
return this._snapPoints.length - 1 - reversedIndex;
}
_findPointForProjection(pos, velocity) {
const initial = this._findClosestPoint(this._initialProgress);
const prev = this._findPreviousPoint(pos);
const next = this._findNextPoint(pos);
if ((velocity > 0 ? prev : next) === initial)
return velocity > 0 ? next : prev;
return this._findClosestPoint(pos);
}
_getBounds(pos) {
if (this.allowLongSwipes)
return [this._snapPoints[0], this._snapPoints[this._snapPoints.length - 1]];
const closest = this._findClosestPoint(pos);
let prev, next;
if (Math.abs(this._snapPoints[closest] - pos) < EPSILON) {
prev = next = closest;
} else {
prev = this._findPreviousPoint(pos);
next = this._findNextPoint(pos);
}
const lowerIndex = Math.max(prev - 1, 0);
const upperIndex = Math.min(next + 1, this._snapPoints.length - 1);
return [this._snapPoints[lowerIndex], this._snapPoints[upperIndex]];
}
_updateGesture(gesture, time, delta, distance) {
if (this._state !== State.SCROLLING)
return;
if ((this._allowedModes & Main.actionMode) === 0 || !this.enabled) {
this._interrupt();
return;
}
if (this.orientation === Clutter.Orientation.HORIZONTAL &&
Clutter.get_default_text_direction() === Clutter.TextDirection.RTL)
delta = -delta;
this._progress += delta / distance;
this._history.append(time, delta);
this._progress = Math.clamp(this._progress, ...this._getBounds(this._initialProgress));
this.emit('update', this._progress);
}
_getEndProgress(velocity, distance, isTouchpad) {
if (this._cancelled)
return this._cancelProgress;
const threshold = isTouchpad ? VELOCITY_THRESHOLD_TOUCHPAD : VELOCITY_THRESHOLD_TOUCH;
if (Math.abs(velocity) < threshold)
return this._snapPoints[this._findClosestPoint(this._progress)];
const decel = isTouchpad ? DECELERATION_TOUCHPAD : DECELERATION_TOUCH;
const slope = decel / (1.0 - decel) / 1000.0;
let pos;
if (Math.abs(velocity) > VELOCITY_CURVE_THRESHOLD) {
const c = slope / 2 / DECELERATION_PARABOLA_MULTIPLIER;
const x = Math.abs(velocity) - VELOCITY_CURVE_THRESHOLD + c;
pos = slope * VELOCITY_CURVE_THRESHOLD +
DECELERATION_PARABOLA_MULTIPLIER * x * x -
DECELERATION_PARABOLA_MULTIPLIER * c * c;
} else {
pos = Math.abs(velocity) * slope;
}
pos = pos * Math.sign(velocity) + this._progress;
pos = Math.clamp(pos, ...this._getBounds(this._initialProgress));
const index = this._findPointForProjection(pos, velocity);
return this._snapPoints[index];
}
_endTouchGesture(_gesture, time, distance) {
this._endGesture(time, distance, false);
}
_endTouchpadGesture(_gesture, time, distance) {
this._endGesture(time, distance, true);
}
_endGesture(time, distance, isTouchpad) {
if (this._state !== State.SCROLLING)
return;
if ((this._allowedModes & Main.actionMode) === 0 || !this.enabled) {
this._interrupt();
return;
}
this._history.trim(time);
let velocity = this._history.calculateVelocity();
const endProgress = this._getEndProgress(velocity, distance, isTouchpad);
velocity /= distance;
if ((endProgress - this._progress) * velocity <= 0)
velocity = ANIMATION_BASE_VELOCITY;
const nPoints = Math.max(1, Math.ceil(Math.abs(this._progress - endProgress)));
const maxDuration = MAX_ANIMATION_DURATION * Math.log2(1 + nPoints);
let duration = Math.abs((this._progress - endProgress) / velocity * DURATION_MULTIPLIER);
if (duration > 0)
duration = Math.clamp(duration, MIN_ANIMATION_DURATION, maxDuration);
this._reset();
this.emit('end', duration, endProgress);
}
_cancelTouchGesture(_gesture, time, distance) {
if (this._state !== State.SCROLLING)
return;
this._cancelled = true;
this._endGesture(time, distance, false);
}
/**
* confirmSwipe:
* @param {number} distance: swipe distance in pixels
* @param {number[]} snapPoints:
* An array of snap points, sorted in ascending order
* @param {number} currentProgress: initial progress value
* @param {number} cancelProgress: the value to be used on cancelling
*
* Confirms a swipe. User has to call this in 'begin' signal handler,
* otherwise the swipe wouldn't start. If there's an animation running,
* it should be stopped first.
*
* @cancel_progress must always be a snap point, or a value matching
* some other non-transient state.
*/
confirmSwipe(distance, snapPoints, currentProgress, cancelProgress) {
this.distance = distance;
this._snapPoints = snapPoints;
this._initialProgress = currentProgress;
this._progress = currentProgress;
this._cancelProgress = cancelProgress;
this._state = State.SCROLLING;
}
destroy() {
if (this._touchpadGesture) {
this._touchpadGesture.destroy();
delete this._touchpadGesture;
}
if (this._touchGesture) {
global.stage.remove_action(this._touchGesture);
delete this._touchGesture;
}
}
});