MeshCentral/public/novnc/core/input/gesturehandler.js
2021-11-29 12:08:15 -08:00

568 lines
18 KiB
JavaScript

/*
* noVNC: HTML5 VNC client
* Copyright (C) 2020 The noVNC Authors
* Licensed under MPL 2.0 (see LICENSE.txt)
*
* See README.md for usage and integration instructions.
*
*/
const GH_NOGESTURE = 0;
const GH_ONETAP = 1;
const GH_TWOTAP = 2;
const GH_THREETAP = 4;
const GH_DRAG = 8;
const GH_LONGPRESS = 16;
const GH_TWODRAG = 32;
const GH_PINCH = 64;
const GH_INITSTATE = 127;
const GH_MOVE_THRESHOLD = 50;
const GH_ANGLE_THRESHOLD = 90; // Degrees
// Timeout when waiting for gestures (ms)
const GH_MULTITOUCH_TIMEOUT = 250;
// Maximum time between press and release for a tap (ms)
const GH_TAP_TIMEOUT = 1000;
// Timeout when waiting for longpress (ms)
const GH_LONGPRESS_TIMEOUT = 1000;
// Timeout when waiting to decide between PINCH and TWODRAG (ms)
const GH_TWOTOUCH_TIMEOUT = 50;
export default class GestureHandler {
constructor() {
this._target = null;
this._state = GH_INITSTATE;
this._tracked = [];
this._ignored = [];
this._waitingRelease = false;
this._releaseStart = 0.0;
this._longpressTimeoutId = null;
this._twoTouchTimeoutId = null;
this._boundEventHandler = this._eventHandler.bind(this);
}
attach(target) {
this.detach();
this._target = target;
this._target.addEventListener('touchstart',
this._boundEventHandler);
this._target.addEventListener('touchmove',
this._boundEventHandler);
this._target.addEventListener('touchend',
this._boundEventHandler);
this._target.addEventListener('touchcancel',
this._boundEventHandler);
}
detach() {
if (!this._target) {
return;
}
this._stopLongpressTimeout();
this._stopTwoTouchTimeout();
this._target.removeEventListener('touchstart',
this._boundEventHandler);
this._target.removeEventListener('touchmove',
this._boundEventHandler);
this._target.removeEventListener('touchend',
this._boundEventHandler);
this._target.removeEventListener('touchcancel',
this._boundEventHandler);
this._target = null;
}
_eventHandler(e) {
let fn;
e.stopPropagation();
e.preventDefault();
switch (e.type) {
case 'touchstart':
fn = this._touchStart;
break;
case 'touchmove':
fn = this._touchMove;
break;
case 'touchend':
case 'touchcancel':
fn = this._touchEnd;
break;
}
for (let i = 0; i < e.changedTouches.length; i++) {
let touch = e.changedTouches[i];
fn.call(this, touch.identifier, touch.clientX, touch.clientY);
}
}
_touchStart(id, x, y) {
// Ignore any new touches if there is already an active gesture,
// or we're in a cleanup state
if (this._hasDetectedGesture() || (this._state === GH_NOGESTURE)) {
this._ignored.push(id);
return;
}
// Did it take too long between touches that we should no longer
// consider this a single gesture?
if ((this._tracked.length > 0) &&
((Date.now() - this._tracked[0].started) > GH_MULTITOUCH_TIMEOUT)) {
this._state = GH_NOGESTURE;
this._ignored.push(id);
return;
}
// If we're waiting for fingers to release then we should no longer
// recognize new touches
if (this._waitingRelease) {
this._state = GH_NOGESTURE;
this._ignored.push(id);
return;
}
this._tracked.push({
id: id,
started: Date.now(),
active: true,
firstX: x,
firstY: y,
lastX: x,
lastY: y,
angle: 0
});
switch (this._tracked.length) {
case 1:
this._startLongpressTimeout();
break;
case 2:
this._state &= ~(GH_ONETAP | GH_DRAG | GH_LONGPRESS);
this._stopLongpressTimeout();
break;
case 3:
this._state &= ~(GH_TWOTAP | GH_TWODRAG | GH_PINCH);
break;
default:
this._state = GH_NOGESTURE;
}
}
_touchMove(id, x, y) {
let touch = this._tracked.find(t => t.id === id);
// If this is an update for a touch we're not tracking, ignore it
if (touch === undefined) {
return;
}
// Update the touches last position with the event coordinates
touch.lastX = x;
touch.lastY = y;
let deltaX = x - touch.firstX;
let deltaY = y - touch.firstY;
// Update angle when the touch has moved
if ((touch.firstX !== touch.lastX) ||
(touch.firstY !== touch.lastY)) {
touch.angle = Math.atan2(deltaY, deltaX) * 180 / Math.PI;
}
if (!this._hasDetectedGesture()) {
// Ignore moves smaller than the minimum threshold
if (Math.hypot(deltaX, deltaY) < GH_MOVE_THRESHOLD) {
return;
}
// Can't be a tap or long press as we've seen movement
this._state &= ~(GH_ONETAP | GH_TWOTAP | GH_THREETAP | GH_LONGPRESS);
this._stopLongpressTimeout();
if (this._tracked.length !== 1) {
this._state &= ~(GH_DRAG);
}
if (this._tracked.length !== 2) {
this._state &= ~(GH_TWODRAG | GH_PINCH);
}
// We need to figure out which of our different two touch gestures
// this might be
if (this._tracked.length === 2) {
// The other touch is the one where the id doesn't match
let prevTouch = this._tracked.find(t => t.id !== id);
// How far the previous touch point has moved since start
let prevDeltaMove = Math.hypot(prevTouch.firstX - prevTouch.lastX,
prevTouch.firstY - prevTouch.lastY);
// We know that the current touch moved far enough,
// but unless both touches moved further than their
// threshold we don't want to disqualify any gestures
if (prevDeltaMove > GH_MOVE_THRESHOLD) {
// The angle difference between the direction of the touch points
let deltaAngle = Math.abs(touch.angle - prevTouch.angle);
deltaAngle = Math.abs(((deltaAngle + 180) % 360) - 180);
// PINCH or TWODRAG can be eliminated depending on the angle
if (deltaAngle > GH_ANGLE_THRESHOLD) {
this._state &= ~GH_TWODRAG;
} else {
this._state &= ~GH_PINCH;
}
if (this._isTwoTouchTimeoutRunning()) {
this._stopTwoTouchTimeout();
}
} else if (!this._isTwoTouchTimeoutRunning()) {
// We can't determine the gesture right now, let's
// wait and see if more events are on their way
this._startTwoTouchTimeout();
}
}
if (!this._hasDetectedGesture()) {
return;
}
this._pushEvent('gesturestart');
}
this._pushEvent('gesturemove');
}
_touchEnd(id, x, y) {
// Check if this is an ignored touch
if (this._ignored.indexOf(id) !== -1) {
// Remove this touch from ignored
this._ignored.splice(this._ignored.indexOf(id), 1);
// And reset the state if there are no more touches
if ((this._ignored.length === 0) &&
(this._tracked.length === 0)) {
this._state = GH_INITSTATE;
this._waitingRelease = false;
}
return;
}
// We got a touchend before the timer triggered,
// this cannot result in a gesture anymore.
if (!this._hasDetectedGesture() &&
this._isTwoTouchTimeoutRunning()) {
this._stopTwoTouchTimeout();
this._state = GH_NOGESTURE;
}
// Some gestures don't trigger until a touch is released
if (!this._hasDetectedGesture()) {
// Can't be a gesture that relies on movement
this._state &= ~(GH_DRAG | GH_TWODRAG | GH_PINCH);
// Or something that relies on more time
this._state &= ~GH_LONGPRESS;
this._stopLongpressTimeout();
if (!this._waitingRelease) {
this._releaseStart = Date.now();
this._waitingRelease = true;
// Can't be a tap that requires more touches than we current have
switch (this._tracked.length) {
case 1:
this._state &= ~(GH_TWOTAP | GH_THREETAP);
break;
case 2:
this._state &= ~(GH_ONETAP | GH_THREETAP);
break;
}
}
}
// Waiting for all touches to release? (i.e. some tap)
if (this._waitingRelease) {
// Were all touches released at roughly the same time?
if ((Date.now() - this._releaseStart) > GH_MULTITOUCH_TIMEOUT) {
this._state = GH_NOGESTURE;
}
// Did too long time pass between press and release?
if (this._tracked.some(t => (Date.now() - t.started) > GH_TAP_TIMEOUT)) {
this._state = GH_NOGESTURE;
}
let touch = this._tracked.find(t => t.id === id);
touch.active = false;
// Are we still waiting for more releases?
if (this._hasDetectedGesture()) {
this._pushEvent('gesturestart');
} else {
// Have we reached a dead end?
if (this._state !== GH_NOGESTURE) {
return;
}
}
}
if (this._hasDetectedGesture()) {
this._pushEvent('gestureend');
}
// Ignore any remaining touches until they are ended
for (let i = 0; i < this._tracked.length; i++) {
if (this._tracked[i].active) {
this._ignored.push(this._tracked[i].id);
}
}
this._tracked = [];
this._state = GH_NOGESTURE;
// Remove this touch from ignored if it's in there
if (this._ignored.indexOf(id) !== -1) {
this._ignored.splice(this._ignored.indexOf(id), 1);
}
// We reset the state if ignored is empty
if ((this._ignored.length === 0)) {
this._state = GH_INITSTATE;
this._waitingRelease = false;
}
}
_hasDetectedGesture() {
if (this._state === GH_NOGESTURE) {
return false;
}
// Check to see if the bitmask value is a power of 2
// (i.e. only one bit set). If it is, we have a state.
if (this._state & (this._state - 1)) {
return false;
}
// For taps we also need to have all touches released
// before we've fully detected the gesture
if (this._state & (GH_ONETAP | GH_TWOTAP | GH_THREETAP)) {
if (this._tracked.some(t => t.active)) {
return false;
}
}
return true;
}
_startLongpressTimeout() {
this._stopLongpressTimeout();
this._longpressTimeoutId = setTimeout(() => this._longpressTimeout(),
GH_LONGPRESS_TIMEOUT);
}
_stopLongpressTimeout() {
clearTimeout(this._longpressTimeoutId);
this._longpressTimeoutId = null;
}
_longpressTimeout() {
if (this._hasDetectedGesture()) {
throw new Error("A longpress gesture failed, conflict with a different gesture");
}
this._state = GH_LONGPRESS;
this._pushEvent('gesturestart');
}
_startTwoTouchTimeout() {
this._stopTwoTouchTimeout();
this._twoTouchTimeoutId = setTimeout(() => this._twoTouchTimeout(),
GH_TWOTOUCH_TIMEOUT);
}
_stopTwoTouchTimeout() {
clearTimeout(this._twoTouchTimeoutId);
this._twoTouchTimeoutId = null;
}
_isTwoTouchTimeoutRunning() {
return this._twoTouchTimeoutId !== null;
}
_twoTouchTimeout() {
if (this._tracked.length === 0) {
throw new Error("A pinch or two drag gesture failed, no tracked touches");
}
// How far each touch point has moved since start
let avgM = this._getAverageMovement();
let avgMoveH = Math.abs(avgM.x);
let avgMoveV = Math.abs(avgM.y);
// The difference in the distance between where
// the touch points started and where they are now
let avgD = this._getAverageDistance();
let deltaTouchDistance = Math.abs(Math.hypot(avgD.first.x, avgD.first.y) -
Math.hypot(avgD.last.x, avgD.last.y));
if ((avgMoveV < deltaTouchDistance) &&
(avgMoveH < deltaTouchDistance)) {
this._state = GH_PINCH;
} else {
this._state = GH_TWODRAG;
}
this._pushEvent('gesturestart');
this._pushEvent('gesturemove');
}
_pushEvent(type) {
let detail = { type: this._stateToGesture(this._state) };
// For most gesture events the current (average) position is the
// most useful
let avg = this._getPosition();
let pos = avg.last;
// However we have a slight distance to detect gestures, so for the
// first gesture event we want to use the first positions we saw
if (type === 'gesturestart') {
pos = avg.first;
}
// For these gestures, we always want the event coordinates
// to be where the gesture began, not the current touch location.
switch (this._state) {
case GH_TWODRAG:
case GH_PINCH:
pos = avg.first;
break;
}
detail['clientX'] = pos.x;
detail['clientY'] = pos.y;
// FIXME: other coordinates?
// Some gestures also have a magnitude
if (this._state === GH_PINCH) {
let distance = this._getAverageDistance();
if (type === 'gesturestart') {
detail['magnitudeX'] = distance.first.x;
detail['magnitudeY'] = distance.first.y;
} else {
detail['magnitudeX'] = distance.last.x;
detail['magnitudeY'] = distance.last.y;
}
} else if (this._state === GH_TWODRAG) {
if (type === 'gesturestart') {
detail['magnitudeX'] = 0.0;
detail['magnitudeY'] = 0.0;
} else {
let movement = this._getAverageMovement();
detail['magnitudeX'] = movement.x;
detail['magnitudeY'] = movement.y;
}
}
let gev = new CustomEvent(type, { detail: detail });
this._target.dispatchEvent(gev);
}
_stateToGesture(state) {
switch (state) {
case GH_ONETAP:
return 'onetap';
case GH_TWOTAP:
return 'twotap';
case GH_THREETAP:
return 'threetap';
case GH_DRAG:
return 'drag';
case GH_LONGPRESS:
return 'longpress';
case GH_TWODRAG:
return 'twodrag';
case GH_PINCH:
return 'pinch';
}
throw new Error("Unknown gesture state: " + state);
}
_getPosition() {
if (this._tracked.length === 0) {
throw new Error("Failed to get gesture position, no tracked touches");
}
let size = this._tracked.length;
let fx = 0, fy = 0, lx = 0, ly = 0;
for (let i = 0; i < this._tracked.length; i++) {
fx += this._tracked[i].firstX;
fy += this._tracked[i].firstY;
lx += this._tracked[i].lastX;
ly += this._tracked[i].lastY;
}
return { first: { x: fx / size,
y: fy / size },
last: { x: lx / size,
y: ly / size } };
}
_getAverageMovement() {
if (this._tracked.length === 0) {
throw new Error("Failed to get gesture movement, no tracked touches");
}
let totalH, totalV;
totalH = totalV = 0;
let size = this._tracked.length;
for (let i = 0; i < this._tracked.length; i++) {
totalH += this._tracked[i].lastX - this._tracked[i].firstX;
totalV += this._tracked[i].lastY - this._tracked[i].firstY;
}
return { x: totalH / size,
y: totalV / size };
}
_getAverageDistance() {
if (this._tracked.length === 0) {
throw new Error("Failed to get gesture distance, no tracked touches");
}
// Distance between the first and last tracked touches
let first = this._tracked[0];
let last = this._tracked[this._tracked.length - 1];
let fdx = Math.abs(last.firstX - first.firstX);
let fdy = Math.abs(last.firstY - first.firstY);
let ldx = Math.abs(last.lastX - first.lastX);
let ldy = Math.abs(last.lastY - first.lastY);
return { first: { x: fdx, y: fdy },
last: { x: ldx, y: ldy } };
}
}