/** * Copyright (c) Facebook, Inc. and its affiliates. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. * * @flow strict-local * @format */ 'use strict'; import {isHoverEnabled} from './HoverState'; import invariant from 'invariant'; import SoundManager from '../Components/Sound/SoundManager'; import {normalizeRect, type RectOrSize} from '../StyleSheet/Rect'; import type { BlurEvent, FocusEvent, PressEvent, MouseEvent, } from '../Types/CoreEventTypes'; import Platform from '../Utilities/Platform'; import UIManager from '../ReactNative/UIManager'; import type {HostComponent} from '../Renderer/shims/ReactNativeTypes'; import * as React from 'react'; export type PressabilityConfig = $ReadOnly<{| /** * Whether a press gesture can be interrupted by a parent gesture such as a * scroll event. Defaults to true. */ cancelable?: ?boolean, /** * Whether to disable initialization of the press gesture. */ disabled?: ?boolean, /** * Amount to extend the `VisualRect` by to create `HitRect`. */ hitSlop?: ?RectOrSize, /** * Amount to extend the `HitRect` by to create `PressRect`. */ pressRectOffset?: ?RectOrSize, /** * Whether to disable the systemm sound when `onPress` fires on Android. **/ android_disableSound?: ?boolean, /** * Duration to wait after hover in before calling `onHoverIn`. */ delayHoverIn?: ?number, /** * Duration to wait after hover out before calling `onHoverOut`. */ delayHoverOut?: ?number, /** * Duration (in addition to `delayPressIn`) after which a press gesture is * considered a long press gesture. Defaults to 500 (milliseconds). */ delayLongPress?: ?number, /** * Duration to wait after press down before calling `onPressIn`. */ delayPressIn?: ?number, /** * Duration to wait after letting up before calling `onPressOut`. */ delayPressOut?: ?number, /** * Minimum duration to wait between calling `onPressIn` and `onPressOut`. */ minPressDuration?: ?number, /** * Called after the element loses focus. */ onBlur?: ?(event: BlurEvent) => mixed, /** * Called after the element is focused. */ onFocus?: ?(event: FocusEvent) => mixed, /** * Called when the hover is activated to provide visual feedback. */ onHoverIn?: ?(event: MouseEvent) => mixed, /** * Called when the hover is deactivated to undo visual feedback. */ onHoverOut?: ?(event: MouseEvent) => mixed, /** * Called when a long press gesture has been triggered. */ onLongPress?: ?(event: PressEvent) => mixed, /** * Called when a press gestute has been triggered. */ onPress?: ?(event: PressEvent) => mixed, /** * Called when the press is activated to provide visual feedback. */ onPressIn?: ?(event: PressEvent) => mixed, /** * Called when the press location moves. (This should rarely be used.) */ onPressMove?: ?(event: PressEvent) => mixed, /** * Called when the press is deactivated to undo visual feedback. */ onPressOut?: ?(event: PressEvent) => mixed, /** * Returns whether a long press gesture should cancel the press gesture. * Defaults to true. */ onLongPressShouldCancelPress_DEPRECATED?: ?() => boolean, /** * If `cancelable` is set, this will be ignored. * * Returns whether to yield to a lock termination request (e.g. if a native * scroll gesture attempts to steal the responder lock). */ onResponderTerminationRequest_DEPRECATED?: ?() => boolean, /** * If `disabled` is set, this will be ignored. * * Returns whether to start a press gesture. * * @deprecated */ onStartShouldSetResponder_DEPRECATED?: ?() => boolean, |}>; export type EventHandlers = $ReadOnly<{| onBlur: (event: BlurEvent) => void, onClick: (event: PressEvent) => void, onFocus: (event: FocusEvent) => void, onMouseEnter?: (event: MouseEvent) => void, onMouseLeave?: (event: MouseEvent) => void, onResponderGrant: (event: PressEvent) => void, onResponderMove: (event: PressEvent) => void, onResponderRelease: (event: PressEvent) => void, onResponderTerminate: (event: PressEvent) => void, onResponderTerminationRequest: () => boolean, onStartShouldSetResponder: () => boolean, |}>; type TouchState = | 'NOT_RESPONDER' | 'RESPONDER_INACTIVE_PRESS_IN' | 'RESPONDER_INACTIVE_PRESS_OUT' | 'RESPONDER_ACTIVE_PRESS_IN' | 'RESPONDER_ACTIVE_PRESS_OUT' | 'RESPONDER_ACTIVE_LONG_PRESS_IN' | 'RESPONDER_ACTIVE_LONG_PRESS_OUT' | 'ERROR'; type TouchSignal = | 'DELAY' | 'RESPONDER_GRANT' | 'RESPONDER_RELEASE' | 'RESPONDER_TERMINATED' | 'ENTER_PRESS_RECT' | 'LEAVE_PRESS_RECT' | 'LONG_PRESS_DETECTED'; const Transitions = Object.freeze({ NOT_RESPONDER: { DELAY: 'ERROR', RESPONDER_GRANT: 'RESPONDER_INACTIVE_PRESS_IN', RESPONDER_RELEASE: 'ERROR', RESPONDER_TERMINATED: 'ERROR', ENTER_PRESS_RECT: 'ERROR', LEAVE_PRESS_RECT: 'ERROR', LONG_PRESS_DETECTED: 'ERROR', }, RESPONDER_INACTIVE_PRESS_IN: { DELAY: 'RESPONDER_ACTIVE_PRESS_IN', RESPONDER_GRANT: 'ERROR', RESPONDER_RELEASE: 'NOT_RESPONDER', RESPONDER_TERMINATED: 'NOT_RESPONDER', ENTER_PRESS_RECT: 'RESPONDER_INACTIVE_PRESS_IN', LEAVE_PRESS_RECT: 'RESPONDER_INACTIVE_PRESS_OUT', LONG_PRESS_DETECTED: 'ERROR', }, RESPONDER_INACTIVE_PRESS_OUT: { DELAY: 'RESPONDER_ACTIVE_PRESS_OUT', RESPONDER_GRANT: 'ERROR', RESPONDER_RELEASE: 'NOT_RESPONDER', RESPONDER_TERMINATED: 'NOT_RESPONDER', ENTER_PRESS_RECT: 'RESPONDER_INACTIVE_PRESS_IN', LEAVE_PRESS_RECT: 'RESPONDER_INACTIVE_PRESS_OUT', LONG_PRESS_DETECTED: 'ERROR', }, RESPONDER_ACTIVE_PRESS_IN: { DELAY: 'ERROR', RESPONDER_GRANT: 'ERROR', RESPONDER_RELEASE: 'NOT_RESPONDER', RESPONDER_TERMINATED: 'NOT_RESPONDER', ENTER_PRESS_RECT: 'RESPONDER_ACTIVE_PRESS_IN', LEAVE_PRESS_RECT: 'RESPONDER_ACTIVE_PRESS_OUT', LONG_PRESS_DETECTED: 'RESPONDER_ACTIVE_LONG_PRESS_IN', }, RESPONDER_ACTIVE_PRESS_OUT: { DELAY: 'ERROR', RESPONDER_GRANT: 'ERROR', RESPONDER_RELEASE: 'NOT_RESPONDER', RESPONDER_TERMINATED: 'NOT_RESPONDER', ENTER_PRESS_RECT: 'RESPONDER_ACTIVE_PRESS_IN', LEAVE_PRESS_RECT: 'RESPONDER_ACTIVE_PRESS_OUT', LONG_PRESS_DETECTED: 'ERROR', }, RESPONDER_ACTIVE_LONG_PRESS_IN: { DELAY: 'ERROR', RESPONDER_GRANT: 'ERROR', RESPONDER_RELEASE: 'NOT_RESPONDER', RESPONDER_TERMINATED: 'NOT_RESPONDER', ENTER_PRESS_RECT: 'RESPONDER_ACTIVE_LONG_PRESS_IN', LEAVE_PRESS_RECT: 'RESPONDER_ACTIVE_LONG_PRESS_OUT', LONG_PRESS_DETECTED: 'RESPONDER_ACTIVE_LONG_PRESS_IN', }, RESPONDER_ACTIVE_LONG_PRESS_OUT: { DELAY: 'ERROR', RESPONDER_GRANT: 'ERROR', RESPONDER_RELEASE: 'NOT_RESPONDER', RESPONDER_TERMINATED: 'NOT_RESPONDER', ENTER_PRESS_RECT: 'RESPONDER_ACTIVE_LONG_PRESS_IN', LEAVE_PRESS_RECT: 'RESPONDER_ACTIVE_LONG_PRESS_OUT', LONG_PRESS_DETECTED: 'ERROR', }, ERROR: { DELAY: 'NOT_RESPONDER', RESPONDER_GRANT: 'RESPONDER_INACTIVE_PRESS_IN', RESPONDER_RELEASE: 'NOT_RESPONDER', RESPONDER_TERMINATED: 'NOT_RESPONDER', ENTER_PRESS_RECT: 'NOT_RESPONDER', LEAVE_PRESS_RECT: 'NOT_RESPONDER', LONG_PRESS_DETECTED: 'NOT_RESPONDER', }, }); const isActiveSignal = signal => signal === 'RESPONDER_ACTIVE_PRESS_IN' || signal === 'RESPONDER_ACTIVE_LONG_PRESS_IN'; const isActivationSignal = signal => signal === 'RESPONDER_ACTIVE_PRESS_OUT' || signal === 'RESPONDER_ACTIVE_PRESS_IN'; const isPressInSignal = signal => signal === 'RESPONDER_INACTIVE_PRESS_IN' || signal === 'RESPONDER_ACTIVE_PRESS_IN' || signal === 'RESPONDER_ACTIVE_LONG_PRESS_IN'; const isTerminalSignal = signal => signal === 'RESPONDER_TERMINATED' || signal === 'RESPONDER_RELEASE'; const DEFAULT_LONG_PRESS_DELAY_MS = 500; const DEFAULT_PRESS_RECT_OFFSETS = { bottom: 30, left: 20, right: 20, top: 20, }; const DEFAULT_MIN_PRESS_DURATION = 130; /** * Pressability implements press handling capabilities. * * =========================== Pressability Tutorial =========================== * * The `Pressability` class helps you create press interactions by analyzing the * geometry of elements and observing when another responder (e.g. ScrollView) * has stolen the touch lock. It offers hooks for your component to provide * interaction feedback to the user: * * - When a press has activated (e.g. highlight an element) * - When a press has deactivated (e.g. un-highlight an element) * - When a press sould trigger an action, meaning it activated and deactivated * while within the geometry of the element without the lock being stolen. * * A high quality interaction isn't as simple as you might think. There should * be a slight delay before activation. Moving your finger beyond an element's * bounds should trigger deactivation, but moving the same finger back within an * element's bounds should trigger reactivation. * * In order to use `Pressability`, do the following: * * 1. Instantiate `Pressability` and store it on your component's state. * * state = { * pressability: new Pressability({ * // ... * }), * }; * * 2. Choose the rendered component who should collect the press events. On that * element, spread `pressability.getEventHandlers()` into its props. * * return ( * * ); * * 3. Reset `Pressability` when your component unmounts. * * componentWillUnmount() { * this.state.pressability.reset(); * } * * ==================== Pressability Implementation Details ==================== * * `Pressability` only assumes that there exists a `HitRect` node. The `PressRect` * is an abstract box that is extended beyond the `HitRect`. * * # Geometry * * ┌────────────────────────┐ * │ ┌──────────────────┐ │ - Presses start anywhere within `HitRect`, which * │ │ ┌────────────┐ │ │ is expanded via the prop `hitSlop`. * │ │ │ VisualRect │ │ │ * │ │ └────────────┘ │ │ - When pressed down for sufficient amount of time * │ │ HitRect │ │ before letting up, `VisualRect` activates for * │ └──────────────────┘ │ as long as the press stays within `PressRect`. * │ PressRect o │ * └────────────────────│───┘ * Out Region └────── `PressRect`, which is expanded via the prop * `pressRectOffset`, allows presses to move * beyond `HitRect` while maintaining activation * and being eligible for a "press". * * # State Machine * * ┌───────────────┐ ◀──── RESPONDER_RELEASE * │ NOT_RESPONDER │ * └───┬───────────┘ ◀──── RESPONDER_TERMINATED * │ * │ RESPONDER_GRANT (HitRect) * │ * ▼ * ┌─────────────────────┐ ┌───────────────────┐ ┌───────────────────┐ * │ RESPONDER_INACTIVE_ │ DELAY │ RESPONDER_ACTIVE_ │ T + DELAY │ RESPONDER_ACTIVE_ │ * │ PRESS_IN ├────────▶ │ PRESS_IN ├────────────▶ │ LONG_PRESS_IN │ * └─┬───────────────────┘ └─┬─────────────────┘ └─┬─────────────────┘ * │ ▲ │ ▲ │ ▲ * │LEAVE_ │ │LEAVE_ │ │LEAVE_ │ * │PRESS_RECT │ENTER_ │PRESS_RECT │ENTER_ │PRESS_RECT │ENTER_ * │ │PRESS_RECT │ │PRESS_RECT │ │PRESS_RECT * ▼ │ ▼ │ ▼ │ * ┌─────────────┴───────┐ ┌─────────────┴─────┐ ┌─────────────┴─────┐ * │ RESPONDER_INACTIVE_ │ DELAY │ RESPONDER_ACTIVE_ │ │ RESPONDER_ACTIVE_ │ * │ PRESS_OUT ├────────▶ │ PRESS_OUT │ │ LONG_PRESS_OUT │ * └─────────────────────┘ └───────────────────┘ └───────────────────┘ * * T + DELAY => LONG_PRESS_DELAY + DELAY * * Not drawn are the side effects of each transition. The most important side * effect is the invocation of `onPress` and `onLongPress` that occur when a * responder is release while in the "press in" states. */ export default class Pressability { _config: PressabilityConfig; _eventHandlers: ?EventHandlers = null; _hoverInDelayTimeout: ?TimeoutID = null; _hoverOutDelayTimeout: ?TimeoutID = null; _isHovered: boolean = false; _longPressDelayTimeout: ?TimeoutID = null; _pressDelayTimeout: ?TimeoutID = null; _pressOutDelayTimeout: ?TimeoutID = null; _responderID: ?number | React.ElementRef> = null; _responderRegion: ?$ReadOnly<{| bottom: number, left: number, right: number, top: number, |}> = null; _touchActivatePosition: ?$ReadOnly<{| pageX: number, pageY: number, |}>; _touchActivateTime: ?number; _touchState: TouchState = 'NOT_RESPONDER'; constructor(config: PressabilityConfig) { this.configure(config); } configure(config: PressabilityConfig): void { this._config = config; } /** * Resets any pending timers. This should be called on unmount. */ reset(): void { this._cancelHoverInDelayTimeout(); this._cancelHoverOutDelayTimeout(); this._cancelLongPressDelayTimeout(); this._cancelPressDelayTimeout(); this._cancelPressOutDelayTimeout(); } /** * Returns a set of props to spread into the interactive element. */ getEventHandlers(): EventHandlers { if (this._eventHandlers == null) { this._eventHandlers = this._createEventHandlers(); } return this._eventHandlers; } _createEventHandlers(): EventHandlers { const focusEventHandlers = { onBlur: (event: BlurEvent): void => { const {onBlur} = this._config; if (onBlur != null) { onBlur(event); } }, onFocus: (event: FocusEvent): void => { const {onFocus} = this._config; if (onFocus != null) { onFocus(event); } }, }; const responderEventHandlers = { onStartShouldSetResponder: (): boolean => { const {disabled} = this._config; if (disabled == null) { const {onStartShouldSetResponder_DEPRECATED} = this._config; return onStartShouldSetResponder_DEPRECATED == null ? true : onStartShouldSetResponder_DEPRECATED(); } return !disabled; }, onResponderGrant: (event: PressEvent): void => { event.persist(); this._cancelPressOutDelayTimeout(); this._responderID = event.currentTarget; this._touchState = 'NOT_RESPONDER'; this._receiveSignal('RESPONDER_GRANT', event); const delayPressIn = normalizeDelay(this._config.delayPressIn); if (delayPressIn > 0) { this._pressDelayTimeout = setTimeout(() => { this._receiveSignal('DELAY', event); }, delayPressIn); } else { this._receiveSignal('DELAY', event); } const delayLongPress = normalizeDelay( this._config.delayLongPress, 10, DEFAULT_LONG_PRESS_DELAY_MS - delayPressIn, ); this._longPressDelayTimeout = setTimeout(() => { this._handleLongPress(event); }, delayLongPress + delayPressIn); }, onResponderMove: (event: PressEvent): void => { if (this._config.onPressMove != null) { this._config.onPressMove(event); } // Region may not have finished being measured, yet. const responderRegion = this._responderRegion; if (responderRegion == null) { return; } const touch = getTouchFromPressEvent(event); if (touch == null) { this._cancelLongPressDelayTimeout(); this._receiveSignal('LEAVE_PRESS_RECT', event); return; } if (this._touchActivatePosition != null) { const deltaX = this._touchActivatePosition.pageX - touch.pageX; const deltaY = this._touchActivatePosition.pageY - touch.pageY; if (Math.hypot(deltaX, deltaY) > 10) { this._cancelLongPressDelayTimeout(); } } if (this._isTouchWithinResponderRegion(touch, responderRegion)) { this._receiveSignal('ENTER_PRESS_RECT', event); } else { this._cancelLongPressDelayTimeout(); this._receiveSignal('LEAVE_PRESS_RECT', event); } }, onResponderRelease: (event: PressEvent): void => { this._receiveSignal('RESPONDER_RELEASE', event); }, onResponderTerminate: (event: PressEvent): void => { this._receiveSignal('RESPONDER_TERMINATED', event); }, onResponderTerminationRequest: (): boolean => { const {cancelable} = this._config; if (cancelable == null) { const {onResponderTerminationRequest_DEPRECATED} = this._config; return onResponderTerminationRequest_DEPRECATED == null ? true : onResponderTerminationRequest_DEPRECATED(); } return cancelable; }, onClick: (event: PressEvent): void => { const {onPress} = this._config; if (onPress != null) { onPress(event); } }, }; if (process.env.NODE_ENV === 'test') { // We are setting this in order to find this node in ReactNativeTestTools responderEventHandlers.onStartShouldSetResponder.testOnly_pressabilityConfig = () => this._config; } const mouseEventHandlers = Platform.OS === 'ios' || Platform.OS === 'android' ? null : { onMouseEnter: (event: MouseEvent): void => { if (isHoverEnabled()) { this._isHovered = true; this._cancelHoverOutDelayTimeout(); const {onHoverIn} = this._config; if (onHoverIn != null) { const delayHoverIn = normalizeDelay( this._config.delayHoverIn, ); if (delayHoverIn > 0) { this._hoverInDelayTimeout = setTimeout(() => { onHoverIn(event); }, delayHoverIn); } else { onHoverIn(event); } } } }, onMouseLeave: (event: MouseEvent): void => { if (this._isHovered) { this._isHovered = false; this._cancelHoverInDelayTimeout(); const {onHoverOut} = this._config; if (onHoverOut != null) { const delayHoverOut = normalizeDelay( this._config.delayHoverOut, ); if (delayHoverOut > 0) { this._hoverInDelayTimeout = setTimeout(() => { onHoverOut(event); }, delayHoverOut); } else { onHoverOut(event); } } } }, }; return { ...focusEventHandlers, ...responderEventHandlers, ...mouseEventHandlers, }; } /** * Receives a state machine signal, performs side effects of the transition * and stores the new state. Validates the transition as well. */ _receiveSignal(signal: TouchSignal, event: PressEvent): void { const prevState = this._touchState; const nextState = Transitions[prevState]?.[signal]; if (this._responderID == null && signal === 'RESPONDER_RELEASE') { return; } invariant( nextState != null && nextState !== 'ERROR', 'Pressability: Invalid signal `%s` for state `%s` on responder: %s', signal, prevState, typeof this._responderID === 'number' ? this._responderID : '<>', ); if (prevState !== nextState) { this._performTransitionSideEffects(prevState, nextState, signal, event); this._touchState = nextState; } } /** * Performs a transition between touchable states and identify any activations * or deactivations (and callback invocations). */ _performTransitionSideEffects( prevState: TouchState, nextState: TouchState, signal: TouchSignal, event: PressEvent, ): void { if (isTerminalSignal(signal)) { this._touchActivatePosition = null; this._cancelLongPressDelayTimeout(); } const isInitialTransition = prevState === 'NOT_RESPONDER' && nextState === 'RESPONDER_INACTIVE_PRESS_IN'; const isActivationTransiton = !isActivationSignal(prevState) && isActivationSignal(nextState); if (isInitialTransition || isActivationTransiton) { this._measureResponderRegion(); } if (isPressInSignal(prevState) && signal === 'LONG_PRESS_DETECTED') { const {onLongPress} = this._config; if (onLongPress != null) { onLongPress(event); } } const isPrevActive = isActiveSignal(prevState); const isNextActive = isActiveSignal(nextState); if (!isPrevActive && isNextActive) { this._activate(event); } else if (isPrevActive && !isNextActive) { this._deactivate(event); } if (isPressInSignal(prevState) && signal === 'RESPONDER_RELEASE') { const {onLongPress, onPress, android_disableSound} = this._config; if (onPress != null) { const isPressCanceledByLongPress = onLongPress != null && prevState === 'RESPONDER_ACTIVE_LONG_PRESS_IN' && this._shouldLongPressCancelPress(); if (!isPressCanceledByLongPress) { // If we never activated (due to delays), activate and deactivate now. if (!isNextActive && !isPrevActive) { this._activate(event); this._deactivate(event); } if (Platform.OS === 'android' && android_disableSound !== true) { SoundManager.playTouchSound(); } onPress(event); } } } this._cancelPressDelayTimeout(); } _activate(event: PressEvent): void { const {onPressIn} = this._config; const touch = getTouchFromPressEvent(event); this._touchActivatePosition = { pageX: touch.pageX, pageY: touch.pageY, }; this._touchActivateTime = Date.now(); if (onPressIn != null) { onPressIn(event); } } _deactivate(event: PressEvent): void { const {onPressOut} = this._config; if (onPressOut != null) { const minPressDuration = normalizeDelay( this._config.minPressDuration, 0, DEFAULT_MIN_PRESS_DURATION, ); const pressDuration = Date.now() - (this._touchActivateTime ?? 0); const delayPressOut = Math.max( minPressDuration - pressDuration, normalizeDelay(this._config.delayPressOut), ); if (delayPressOut > 0) { this._pressOutDelayTimeout = setTimeout(() => { onPressOut(event); }, delayPressOut); } else { onPressOut(event); } } this._touchActivateTime = null; } _measureResponderRegion(): void { if (this._responderID == null) { return; } if (typeof this._responderID === 'number') { UIManager.measure(this._responderID, this._measureCallback); } else { this._responderID.measure(this._measureCallback); } } _measureCallback = (left, top, width, height, pageX, pageY) => { if (!left && !top && !width && !height && !pageX && !pageY) { return; } this._responderRegion = { bottom: pageY + height, left: pageX, right: pageX + width, top: pageY, }; }; _isTouchWithinResponderRegion( touch: $PropertyType, responderRegion: $ReadOnly<{| bottom: number, left: number, right: number, top: number, |}>, ): boolean { const hitSlop = normalizeRect(this._config.hitSlop); const pressRectOffset = normalizeRect(this._config.pressRectOffset); let regionBottom = responderRegion.bottom; let regionLeft = responderRegion.left; let regionRight = responderRegion.right; let regionTop = responderRegion.top; if (hitSlop != null) { if (hitSlop.bottom != null) { regionBottom += hitSlop.bottom; } if (hitSlop.left != null) { regionLeft -= hitSlop.left; } if (hitSlop.right != null) { regionRight += hitSlop.right; } if (hitSlop.top != null) { regionTop -= hitSlop.top; } } regionBottom += pressRectOffset?.bottom ?? DEFAULT_PRESS_RECT_OFFSETS.bottom; regionLeft -= pressRectOffset?.left ?? DEFAULT_PRESS_RECT_OFFSETS.left; regionRight += pressRectOffset?.right ?? DEFAULT_PRESS_RECT_OFFSETS.right; regionTop -= pressRectOffset?.top ?? DEFAULT_PRESS_RECT_OFFSETS.top; return ( touch.pageX > regionLeft && touch.pageX < regionRight && touch.pageY > regionTop && touch.pageY < regionBottom ); } _handleLongPress(event: PressEvent): void { if ( this._touchState === 'RESPONDER_ACTIVE_PRESS_IN' || this._touchState === 'RESPONDER_ACTIVE_LONG_PRESS_IN' ) { this._receiveSignal('LONG_PRESS_DETECTED', event); } } _shouldLongPressCancelPress(): boolean { return ( this._config.onLongPressShouldCancelPress_DEPRECATED == null || this._config.onLongPressShouldCancelPress_DEPRECATED() ); } _cancelHoverInDelayTimeout(): void { if (this._hoverInDelayTimeout != null) { clearTimeout(this._hoverInDelayTimeout); this._hoverInDelayTimeout = null; } } _cancelHoverOutDelayTimeout(): void { if (this._hoverOutDelayTimeout != null) { clearTimeout(this._hoverOutDelayTimeout); this._hoverOutDelayTimeout = null; } } _cancelLongPressDelayTimeout(): void { if (this._longPressDelayTimeout != null) { clearTimeout(this._longPressDelayTimeout); this._longPressDelayTimeout = null; } } _cancelPressDelayTimeout(): void { if (this._pressDelayTimeout != null) { clearTimeout(this._pressDelayTimeout); this._pressDelayTimeout = null; } } _cancelPressOutDelayTimeout(): void { if (this._pressOutDelayTimeout != null) { clearTimeout(this._pressOutDelayTimeout); this._pressOutDelayTimeout = null; } } } function normalizeDelay(delay: ?number, min = 0, fallback = 0): number { return Math.max(min, delay ?? fallback); } const getTouchFromPressEvent = (event: PressEvent) => { const {changedTouches, touches} = event.nativeEvent; if (touches != null && touches.length > 0) { return touches[0]; } if (changedTouches != null && changedTouches.length > 0) { return changedTouches[0]; } return event.nativeEvent; };