/** * 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. * * @format */ 'use strict'; const InteractionManager = require('./InteractionManager'); const TouchHistoryMath = require('./TouchHistoryMath'); const currentCentroidXOfTouchesChangedAfter = TouchHistoryMath.currentCentroidXOfTouchesChangedAfter; const currentCentroidYOfTouchesChangedAfter = TouchHistoryMath.currentCentroidYOfTouchesChangedAfter; const previousCentroidXOfTouchesChangedAfter = TouchHistoryMath.previousCentroidXOfTouchesChangedAfter; const previousCentroidYOfTouchesChangedAfter = TouchHistoryMath.previousCentroidYOfTouchesChangedAfter; const currentCentroidX = TouchHistoryMath.currentCentroidX; const currentCentroidY = TouchHistoryMath.currentCentroidY; /** * `PanResponder` reconciles several touches into a single gesture. It makes * single-touch gestures resilient to extra touches, and can be used to * recognize simple multi-touch gestures. * * By default, `PanResponder` holds an `InteractionManager` handle to block * long-running JS events from interrupting active gestures. * * It provides a predictable wrapper of the responder handlers provided by the * [gesture responder system](docs/gesture-responder-system.html). * For each handler, it provides a new `gestureState` object alongside the * native event object: * * ``` * onPanResponderMove: (event, gestureState) => {} * ``` * * A native event is a synthetic touch event with the following form: * * - `nativeEvent` * + `changedTouches` - Array of all touch events that have changed since the last event * + `identifier` - The ID of the touch * + `locationX` - The X position of the touch, relative to the element * + `locationY` - The Y position of the touch, relative to the element * + `pageX` - The X position of the touch, relative to the root element * + `pageY` - The Y position of the touch, relative to the root element * + `target` - The node id of the element receiving the touch event * + `timestamp` - A time identifier for the touch, useful for velocity calculation * + `touches` - Array of all current touches on the screen * * A `gestureState` object has the following: * * - `stateID` - ID of the gestureState- persisted as long as there at least * one touch on screen * - `moveX` - the latest screen coordinates of the recently-moved touch * - `moveY` - the latest screen coordinates of the recently-moved touch * - `x0` - the screen coordinates of the responder grant * - `y0` - the screen coordinates of the responder grant * - `dx` - accumulated distance of the gesture since the touch started * - `dy` - accumulated distance of the gesture since the touch started * - `vx` - current velocity of the gesture * - `vy` - current velocity of the gesture * - `numberActiveTouches` - Number of touches currently on screen * * ### Basic Usage * * ``` * componentWillMount: function() { * this._panResponder = PanResponder.create({ * // Ask to be the responder: * onStartShouldSetPanResponder: (evt, gestureState) => true, * onStartShouldSetPanResponderCapture: (evt, gestureState) => true, * onMoveShouldSetPanResponder: (evt, gestureState) => true, * onMoveShouldSetPanResponderCapture: (evt, gestureState) => true, * * onPanResponderGrant: (evt, gestureState) => { * // The gesture has started. Show visual feedback so the user knows * // what is happening! * * // gestureState.d{x,y} will be set to zero now * }, * onPanResponderMove: (evt, gestureState) => { * // The most recent move distance is gestureState.move{X,Y} * * // The accumulated gesture distance since becoming responder is * // gestureState.d{x,y} * }, * onPanResponderTerminationRequest: (evt, gestureState) => true, * onPanResponderRelease: (evt, gestureState) => { * // The user has released all touches while this view is the * // responder. This typically means a gesture has succeeded * }, * onPanResponderTerminate: (evt, gestureState) => { * // Another component has become the responder, so this gesture * // should be cancelled * }, * onShouldBlockNativeResponder: (evt, gestureState) => { * // Returns whether this component should block native components from becoming the JS * // responder. Returns true by default. Is currently only supported on android. * return true; * }, * }); * }, * * render: function() { * return ( * * ); * }, * * ``` * * ### Working Example * * To see it in action, try the * [PanResponder example in RNTester](https://github.com/facebook/react-native/blob/master/RNTester/js/PanResponderExample.js) */ const PanResponder = { /** * * A graphical explanation of the touch data flow: * * +----------------------------+ +--------------------------------+ * | ResponderTouchHistoryStore | |TouchHistoryMath | * +----------------------------+ +----------+---------------------+ * |Global store of touchHistory| |Allocation-less math util | * |including activeness, start | |on touch history (centroids | * |position, prev/cur position.| |and multitouch movement etc) | * | | | | * +----^-----------------------+ +----^---------------------------+ * | | * | (records relevant history | * | of touches relevant for | * | implementing higher level | * | gestures) | * | | * +----+-----------------------+ +----|---------------------------+ * | ResponderEventPlugin | | | Your App/Component | * +----------------------------+ +----|---------------------------+ * |Negotiates which view gets | Low level | | High level | * |onResponderMove events. | events w/ | +-+-------+ events w/ | * |Also records history into | touchHistory| | Pan | multitouch + | * |ResponderTouchHistoryStore. +---------------->Responder+-----> accumulative| * +----------------------------+ attached to | | | distance and | * each event | +---------+ velocity. | * | | * | | * +--------------------------------+ * * * * Gesture that calculates cumulative movement over time in a way that just * "does the right thing" for multiple touches. The "right thing" is very * nuanced. When moving two touches in opposite directions, the cumulative * distance is zero in each dimension. When two touches move in parallel five * pixels in the same direction, the cumulative distance is five, not ten. If * two touches start, one moves five in a direction, then stops and the other * touch moves fives in the same direction, the cumulative distance is ten. * * This logic requires a kind of processing of time "clusters" of touch events * so that two touch moves that essentially occur in parallel but move every * other frame respectively, are considered part of the same movement. * * Explanation of some of the non-obvious fields: * * - moveX/moveY: If no move event has been observed, then `(moveX, moveY)` is * invalid. If a move event has been observed, `(moveX, moveY)` is the * centroid of the most recently moved "cluster" of active touches. * (Currently all move have the same timeStamp, but later we should add some * threshold for what is considered to be "moving"). If a palm is * accidentally counted as a touch, but a finger is moving greatly, the palm * will move slightly, but we only want to count the single moving touch. * - x0/y0: Centroid location (non-cumulative) at the time of becoming * responder. * - dx/dy: Cumulative touch distance - not the same thing as sum of each touch * distance. Accounts for touch moves that are clustered together in time, * moving the same direction. Only valid when currently responder (otherwise, * it only represents the drag distance below the threshold). * - vx/vy: Velocity. */ _initializeGestureState: function(gestureState) { gestureState.moveX = 0; gestureState.moveY = 0; gestureState.x0 = 0; gestureState.y0 = 0; gestureState.dx = 0; gestureState.dy = 0; gestureState.vx = 0; gestureState.vy = 0; gestureState.numberActiveTouches = 0; // All `gestureState` accounts for timeStamps up until: gestureState._accountsForMovesUpTo = 0; }, /** * This is nuanced and is necessary. It is incorrect to continuously take all * active *and* recently moved touches, find the centroid, and track how that * result changes over time. Instead, we must take all recently moved * touches, and calculate how the centroid has changed just for those * recently moved touches, and append that change to an accumulator. This is * to (at least) handle the case where the user is moving three fingers, and * then one of the fingers stops but the other two continue. * * This is very different than taking all of the recently moved touches and * storing their centroid as `dx/dy`. For correctness, we must *accumulate * changes* in the centroid of recently moved touches. * * There is also some nuance with how we handle multiple moved touches in a * single event. With the way `ReactNativeEventEmitter` dispatches touches as * individual events, multiple touches generate two 'move' events, each of * them triggering `onResponderMove`. But with the way `PanResponder` works, * all of the gesture inference is performed on the first dispatch, since it * looks at all of the touches (even the ones for which there hasn't been a * native dispatch yet). Therefore, `PanResponder` does not call * `onResponderMove` passed the first dispatch. This diverges from the * typical responder callback pattern (without using `PanResponder`), but * avoids more dispatches than necessary. */ _updateGestureStateOnMove: function(gestureState, touchHistory) { gestureState.numberActiveTouches = touchHistory.numberActiveTouches; gestureState.moveX = currentCentroidXOfTouchesChangedAfter( touchHistory, gestureState._accountsForMovesUpTo, ); gestureState.moveY = currentCentroidYOfTouchesChangedAfter( touchHistory, gestureState._accountsForMovesUpTo, ); const movedAfter = gestureState._accountsForMovesUpTo; const prevX = previousCentroidXOfTouchesChangedAfter( touchHistory, movedAfter, ); const x = currentCentroidXOfTouchesChangedAfter(touchHistory, movedAfter); const prevY = previousCentroidYOfTouchesChangedAfter( touchHistory, movedAfter, ); const y = currentCentroidYOfTouchesChangedAfter(touchHistory, movedAfter); const nextDX = gestureState.dx + (x - prevX); const nextDY = gestureState.dy + (y - prevY); // TODO: This must be filtered intelligently. const dt = touchHistory.mostRecentTimeStamp - gestureState._accountsForMovesUpTo; gestureState.vx = (nextDX - gestureState.dx) / dt; gestureState.vy = (nextDY - gestureState.dy) / dt; gestureState.dx = nextDX; gestureState.dy = nextDY; gestureState._accountsForMovesUpTo = touchHistory.mostRecentTimeStamp; }, /** * @param {object} config Enhanced versions of all of the responder callbacks * that provide not only the typical `ResponderSyntheticEvent`, but also the * `PanResponder` gesture state. Simply replace the word `Responder` with * `PanResponder` in each of the typical `onResponder*` callbacks. For * example, the `config` object would look like: * * - `onMoveShouldSetPanResponder: (e, gestureState) => {...}` * - `onMoveShouldSetPanResponderCapture: (e, gestureState) => {...}` * - `onStartShouldSetPanResponder: (e, gestureState) => {...}` * - `onStartShouldSetPanResponderCapture: (e, gestureState) => {...}` * - `onPanResponderReject: (e, gestureState) => {...}` * - `onPanResponderGrant: (e, gestureState) => {...}` * - `onPanResponderStart: (e, gestureState) => {...}` * - `onPanResponderEnd: (e, gestureState) => {...}` * - `onPanResponderRelease: (e, gestureState) => {...}` * - `onPanResponderMove: (e, gestureState) => {...}` * - `onPanResponderTerminate: (e, gestureState) => {...}` * - `onPanResponderTerminationRequest: (e, gestureState) => {...}` * - `onShouldBlockNativeResponder: (e, gestureState) => {...}` * * In general, for events that have capture equivalents, we update the * gestureState once in the capture phase and can use it in the bubble phase * as well. * * Be careful with onStartShould* callbacks. They only reflect updated * `gestureState` for start/end events that bubble/capture to the Node. * Once the node is the responder, you can rely on every start/end event * being processed by the gesture and `gestureState` being updated * accordingly. (numberActiveTouches) may not be totally accurate unless you * are the responder. */ create: function(config) { const interactionState = { handle: (null: ?number), }; const gestureState = { // Useful for debugging stateID: Math.random(), }; PanResponder._initializeGestureState(gestureState); const panHandlers = { onStartShouldSetResponder: function(e) { return config.onStartShouldSetPanResponder === undefined ? false : config.onStartShouldSetPanResponder(e, gestureState); }, onMoveShouldSetResponder: function(e) { return config.onMoveShouldSetPanResponder === undefined ? false : config.onMoveShouldSetPanResponder(e, gestureState); }, onStartShouldSetResponderCapture: function(e) { // TODO: Actually, we should reinitialize the state any time // touches.length increases from 0 active to > 0 active. if (e.nativeEvent.touches.length === 1) { PanResponder._initializeGestureState(gestureState); } gestureState.numberActiveTouches = e.touchHistory.numberActiveTouches; return config.onStartShouldSetPanResponderCapture !== undefined ? config.onStartShouldSetPanResponderCapture(e, gestureState) : false; }, onMoveShouldSetResponderCapture: function(e) { const touchHistory = e.touchHistory; // Responder system incorrectly dispatches should* to current responder // Filter out any touch moves past the first one - we would have // already processed multi-touch geometry during the first event. if ( gestureState._accountsForMovesUpTo === touchHistory.mostRecentTimeStamp ) { return false; } PanResponder._updateGestureStateOnMove(gestureState, touchHistory); return config.onMoveShouldSetPanResponderCapture ? config.onMoveShouldSetPanResponderCapture(e, gestureState) : false; }, onResponderGrant: function(e) { if (!interactionState.handle) { interactionState.handle = InteractionManager.createInteractionHandle(); } gestureState.x0 = currentCentroidX(e.touchHistory); gestureState.y0 = currentCentroidY(e.touchHistory); gestureState.dx = 0; gestureState.dy = 0; if (config.onPanResponderGrant) { config.onPanResponderGrant(e, gestureState); } // TODO: t7467124 investigate if this can be removed return config.onShouldBlockNativeResponder === undefined ? true : config.onShouldBlockNativeResponder(); }, onResponderReject: function(e) { clearInteractionHandle( interactionState, config.onPanResponderReject, e, gestureState, ); }, onResponderRelease: function(e) { clearInteractionHandle( interactionState, config.onPanResponderRelease, e, gestureState, ); PanResponder._initializeGestureState(gestureState); }, onResponderStart: function(e) { const touchHistory = e.touchHistory; gestureState.numberActiveTouches = touchHistory.numberActiveTouches; if (config.onPanResponderStart) { config.onPanResponderStart(e, gestureState); } }, onResponderMove: function(e) { const touchHistory = e.touchHistory; // Guard against the dispatch of two touch moves when there are two // simultaneously changed touches. if ( gestureState._accountsForMovesUpTo === touchHistory.mostRecentTimeStamp ) { return; } // Filter out any touch moves past the first one - we would have // already processed multi-touch geometry during the first event. PanResponder._updateGestureStateOnMove(gestureState, touchHistory); if (config.onPanResponderMove) { config.onPanResponderMove(e, gestureState); } }, onResponderEnd: function(e) { const touchHistory = e.touchHistory; gestureState.numberActiveTouches = touchHistory.numberActiveTouches; clearInteractionHandle( interactionState, config.onPanResponderEnd, e, gestureState, ); }, onResponderTerminate: function(e) { clearInteractionHandle( interactionState, config.onPanResponderTerminate, e, gestureState, ); PanResponder._initializeGestureState(gestureState); }, onResponderTerminationRequest: function(e) { return config.onPanResponderTerminationRequest === undefined ? true : config.onPanResponderTerminationRequest(e, gestureState); }, }; return { panHandlers, getInteractionHandle(): ?number { return interactionState.handle; }, }; }, }; function clearInteractionHandle( interactionState: {handle: ?number}, callback: Function, event: Object, gestureState: Object, ) { if (interactionState.handle) { InteractionManager.clearInteractionHandle(interactionState.handle); interactionState.handle = null; } if (callback) { callback(event, gestureState); } } module.exports = PanResponder;