/** * Copyright 2013-present, Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD-style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. * * @noflow * @providesModule ReactNativeStack-dev */ "use strict"; var invariant = require("fbjs/lib/invariant"); require("InitializeCore"); var warning = require("fbjs/lib/warning"), RCTEventEmitter = require("RCTEventEmitter"), emptyFunction = require("fbjs/lib/emptyFunction"), UIManager = require("UIManager"), React = require("react"), ExecutionEnvironment = require("fbjs/lib/ExecutionEnvironment"), performanceNow = require("fbjs/lib/performanceNow"), emptyObject = require("fbjs/lib/emptyObject"), checkPropTypes = require("prop-types/checkPropTypes"), shallowEqual = require("fbjs/lib/shallowEqual"), deepDiffer = require("deepDiffer"), flattenStyle = require("flattenStyle"), TextInputState = require("TextInputState"), deepFreezeAndThrowOnMutationInDev = require("deepFreezeAndThrowOnMutationInDev"), instanceCache = {}, instanceProps = {}; function getRenderedHostOrTextFromComponent(component) { for (var rendered; rendered = component._renderedComponent; ) component = rendered; return component; } function precacheNode(inst, tag) { var nativeInst = getRenderedHostOrTextFromComponent(inst); instanceCache[tag] = nativeInst; } function precacheFiberNode(hostInst, tag) { instanceCache[tag] = hostInst; } function uncacheNode(inst) { var tag = inst._rootNodeID; tag && delete instanceCache[tag]; } function uncacheFiberNode(tag) { delete instanceCache[tag], delete instanceProps[tag]; } function getInstanceFromTag(tag) { return instanceCache[tag] || null; } function getTagFromInstance(inst) { var tag = "number" != typeof inst.tag ? inst._rootNodeID : inst.stateNode._nativeTag; return invariant(tag, "All native instances should have a tag."), tag; } function getFiberCurrentPropsFromNode(stateNode) { return instanceProps[stateNode._nativeTag] || null; } function updateFiberProps(tag, props) { instanceProps[tag] = props; } var ReactNativeComponentTree = { getClosestInstanceFromNode: getInstanceFromTag, getInstanceFromNode: getInstanceFromTag, getNodeFromInstance: getTagFromInstance, precacheFiberNode: precacheFiberNode, precacheNode: precacheNode, uncacheFiberNode: uncacheFiberNode, uncacheNode: uncacheNode, getFiberCurrentPropsFromNode: getFiberCurrentPropsFromNode, updateFiberProps: updateFiberProps }, ReactNativeComponentTree_1 = ReactNativeComponentTree, eventPluginOrder = null, namesToPlugins = {}; function recomputePluginOrdering() { if (eventPluginOrder) for (var pluginName in namesToPlugins) { var pluginModule = namesToPlugins[pluginName], pluginIndex = eventPluginOrder.indexOf(pluginName); if (invariant(pluginIndex > -1, "EventPluginRegistry: Cannot inject event plugins that do not exist in " + "the plugin ordering, `%s`.", pluginName), !EventPluginRegistry.plugins[pluginIndex]) { invariant(pluginModule.extractEvents, "EventPluginRegistry: Event plugins must implement an `extractEvents` " + "method, but `%s` does not.", pluginName), EventPluginRegistry.plugins[pluginIndex] = pluginModule; var publishedEvents = pluginModule.eventTypes; for (var eventName in publishedEvents) invariant(publishEventForPlugin(publishedEvents[eventName], pluginModule, eventName), "EventPluginRegistry: Failed to publish event `%s` for plugin `%s`.", eventName, pluginName); } } } function publishEventForPlugin(dispatchConfig, pluginModule, eventName) { invariant(!EventPluginRegistry.eventNameDispatchConfigs.hasOwnProperty(eventName), "EventPluginHub: More than one plugin attempted to publish the same " + "event name, `%s`.", eventName), EventPluginRegistry.eventNameDispatchConfigs[eventName] = dispatchConfig; var phasedRegistrationNames = dispatchConfig.phasedRegistrationNames; if (phasedRegistrationNames) { for (var phaseName in phasedRegistrationNames) if (phasedRegistrationNames.hasOwnProperty(phaseName)) { var phasedRegistrationName = phasedRegistrationNames[phaseName]; publishRegistrationName(phasedRegistrationName, pluginModule, eventName); } return !0; } return !!dispatchConfig.registrationName && (publishRegistrationName(dispatchConfig.registrationName, pluginModule, eventName), !0); } function publishRegistrationName(registrationName, pluginModule, eventName) { invariant(!EventPluginRegistry.registrationNameModules[registrationName], "EventPluginHub: More than one plugin attempted to publish the same " + "registration name, `%s`.", registrationName), EventPluginRegistry.registrationNameModules[registrationName] = pluginModule, EventPluginRegistry.registrationNameDependencies[registrationName] = pluginModule.eventTypes[eventName].dependencies; var lowerCasedName = registrationName.toLowerCase(); EventPluginRegistry.possibleRegistrationNames[lowerCasedName] = registrationName, "onDoubleClick" === registrationName && (EventPluginRegistry.possibleRegistrationNames.ondblclick = registrationName); } var EventPluginRegistry = { plugins: [], eventNameDispatchConfigs: {}, registrationNameModules: {}, registrationNameDependencies: {}, possibleRegistrationNames: {}, injectEventPluginOrder: function(injectedEventPluginOrder) { invariant(!eventPluginOrder, "EventPluginRegistry: Cannot inject event plugin ordering more than " + "once. You are likely trying to load more than one copy of React."), eventPluginOrder = Array.prototype.slice.call(injectedEventPluginOrder), recomputePluginOrdering(); }, injectEventPluginsByName: function(injectedNamesToPlugins) { var isOrderingDirty = !1; for (var pluginName in injectedNamesToPlugins) if (injectedNamesToPlugins.hasOwnProperty(pluginName)) { var pluginModule = injectedNamesToPlugins[pluginName]; namesToPlugins.hasOwnProperty(pluginName) && namesToPlugins[pluginName] === pluginModule || (invariant(!namesToPlugins[pluginName], "EventPluginRegistry: Cannot inject two different event plugins " + "using the same name, `%s`.", pluginName), namesToPlugins[pluginName] = pluginModule, isOrderingDirty = !0); } isOrderingDirty && recomputePluginOrdering(); } }, EventPluginRegistry_1 = EventPluginRegistry, caughtError = null, invokeGuardedCallback = function(name, func, context, a, b, c, d, e, f) { var funcArgs = Array.prototype.slice.call(arguments, 3); try { func.apply(context, funcArgs); } catch (error) { return error; } return null; }; if ("undefined" != typeof window && "function" == typeof window.dispatchEvent && "undefined" != typeof document && "function" == typeof document.createEvent) { var fakeNode = document.createElement("react"), depth = 0; invokeGuardedCallback = function(name, func, context, a, b, c, d, e, f) { depth++; var thisDepth = depth, funcArgs = Array.prototype.slice.call(arguments, 3), boundFunc = function() { func.apply(context, funcArgs); }, fakeEventError = null, onFakeEventError = function(event) { depth === thisDepth && (fakeEventError = event.error); }, evtType = "react-" + (name || "invokeguardedcallback") + "-" + depth; window.addEventListener("error", onFakeEventError), fakeNode.addEventListener(evtType, boundFunc, !1); var evt = document.createEvent("Event"); return evt.initEvent(evtType, !1, !1), fakeNode.dispatchEvent(evt), fakeNode.removeEventListener(evtType, boundFunc, !1), window.removeEventListener("error", onFakeEventError), depth--, fakeEventError; }; } var rethrowCaughtError = function() { if (caughtError) { var error = caughtError; throw caughtError = null, error; } }, ReactErrorUtils = { injection: { injectErrorUtils: function(injectedErrorUtils) { invariant("function" == typeof injectedErrorUtils.invokeGuardedCallback, "Injected invokeGuardedCallback() must be a function."), invokeGuardedCallback = injectedErrorUtils.invokeGuardedCallback; } }, invokeGuardedCallback: function(name, func, context, a, b, c, d, e, f) { return invokeGuardedCallback.apply(this, arguments); }, invokeGuardedCallbackAndCatchFirstError: function(name, func, context, a, b, c, d, e, f) { var error = ReactErrorUtils.invokeGuardedCallback.apply(this, arguments); null !== error && null === caughtError && (caughtError = error); }, rethrowCaughtError: function() { return rethrowCaughtError.apply(this, arguments); } }, ReactErrorUtils_1 = ReactErrorUtils, ComponentTree, injection = { injectComponentTree: function(Injected) { ComponentTree = Injected, warning(Injected && Injected.getNodeFromInstance && Injected.getInstanceFromNode, "EventPluginUtils.injection.injectComponentTree(...): Injected " + "module is missing getNodeFromInstance or getInstanceFromNode."); } }; function isEndish(topLevelType) { return "topMouseUp" === topLevelType || "topTouchEnd" === topLevelType || "topTouchCancel" === topLevelType; } function isMoveish(topLevelType) { return "topMouseMove" === topLevelType || "topTouchMove" === topLevelType; } function isStartish(topLevelType) { return "topMouseDown" === topLevelType || "topTouchStart" === topLevelType; } var validateEventDispatches; validateEventDispatches = function(event) { var dispatchListeners = event._dispatchListeners, dispatchInstances = event._dispatchInstances, listenersIsArr = Array.isArray(dispatchListeners), listenersLen = listenersIsArr ? dispatchListeners.length : dispatchListeners ? 1 : 0, instancesIsArr = Array.isArray(dispatchInstances), instancesLen = instancesIsArr ? dispatchInstances.length : dispatchInstances ? 1 : 0; warning(instancesIsArr === listenersIsArr && instancesLen === listenersLen, "EventPluginUtils: Invalid `event`."); }; function executeDispatch(event, simulated, listener, inst) { var type = event.type || "unknown-event"; event.currentTarget = EventPluginUtils.getNodeFromInstance(inst), ReactErrorUtils_1.invokeGuardedCallbackAndCatchFirstError(type, listener, void 0, event), event.currentTarget = null; } function executeDispatchesInOrder(event, simulated) { var dispatchListeners = event._dispatchListeners, dispatchInstances = event._dispatchInstances; if (validateEventDispatches(event), Array.isArray(dispatchListeners)) for (var i = 0; i < dispatchListeners.length && !event.isPropagationStopped(); i++) executeDispatch(event, simulated, dispatchListeners[i], dispatchInstances[i]); else dispatchListeners && executeDispatch(event, simulated, dispatchListeners, dispatchInstances); event._dispatchListeners = null, event._dispatchInstances = null; } function executeDispatchesInOrderStopAtTrueImpl(event) { var dispatchListeners = event._dispatchListeners, dispatchInstances = event._dispatchInstances; if (validateEventDispatches(event), Array.isArray(dispatchListeners)) { for (var i = 0; i < dispatchListeners.length && !event.isPropagationStopped(); i++) if (dispatchListeners[i](event, dispatchInstances[i])) return dispatchInstances[i]; } else if (dispatchListeners && dispatchListeners(event, dispatchInstances)) return dispatchInstances; return null; } function executeDispatchesInOrderStopAtTrue(event) { var ret = executeDispatchesInOrderStopAtTrueImpl(event); return event._dispatchInstances = null, event._dispatchListeners = null, ret; } function executeDirectDispatch(event) { validateEventDispatches(event); var dispatchListener = event._dispatchListeners, dispatchInstance = event._dispatchInstances; invariant(!Array.isArray(dispatchListener), "executeDirectDispatch(...): Invalid `event`."), event.currentTarget = dispatchListener ? EventPluginUtils.getNodeFromInstance(dispatchInstance) : null; var res = dispatchListener ? dispatchListener(event) : null; return event.currentTarget = null, event._dispatchListeners = null, event._dispatchInstances = null, res; } function hasDispatches(event) { return !!event._dispatchListeners; } var EventPluginUtils = { isEndish: isEndish, isMoveish: isMoveish, isStartish: isStartish, executeDirectDispatch: executeDirectDispatch, executeDispatchesInOrder: executeDispatchesInOrder, executeDispatchesInOrderStopAtTrue: executeDispatchesInOrderStopAtTrue, hasDispatches: hasDispatches, getFiberCurrentPropsFromNode: function(node) { return ComponentTree.getFiberCurrentPropsFromNode(node); }, getInstanceFromNode: function(node) { return ComponentTree.getInstanceFromNode(node); }, getNodeFromInstance: function(node) { return ComponentTree.getNodeFromInstance(node); }, injection: injection }, EventPluginUtils_1 = EventPluginUtils; function accumulateInto(current, next) { return invariant(null != next, "accumulateInto(...): Accumulated items must not be null or undefined."), null == current ? next : Array.isArray(current) ? Array.isArray(next) ? (current.push.apply(current, next), current) : (current.push(next), current) : Array.isArray(next) ? [ current ].concat(next) : [ current, next ]; } var accumulateInto_1 = accumulateInto; function forEachAccumulated(arr, cb, scope) { Array.isArray(arr) ? arr.forEach(cb, scope) : arr && cb.call(scope, arr); } var forEachAccumulated_1 = forEachAccumulated, eventQueue = null, executeDispatchesAndRelease = function(event, simulated) { event && (EventPluginUtils_1.executeDispatchesInOrder(event, simulated), event.isPersistent() || event.constructor.release(event)); }, executeDispatchesAndReleaseSimulated = function(e) { return executeDispatchesAndRelease(e, !0); }, executeDispatchesAndReleaseTopLevel = function(e) { return executeDispatchesAndRelease(e, !1); }; function isInteractive(tag) { return "button" === tag || "input" === tag || "select" === tag || "textarea" === tag; } function shouldPreventMouseEvent(name, type, props) { switch (name) { case "onClick": case "onClickCapture": case "onDoubleClick": case "onDoubleClickCapture": case "onMouseDown": case "onMouseDownCapture": case "onMouseMove": case "onMouseMoveCapture": case "onMouseUp": case "onMouseUpCapture": return !(!props.disabled || !isInteractive(type)); default: return !1; } } var EventPluginHub = { injection: { injectEventPluginOrder: EventPluginRegistry_1.injectEventPluginOrder, injectEventPluginsByName: EventPluginRegistry_1.injectEventPluginsByName }, getListener: function(inst, registrationName) { var listener; if ("number" == typeof inst.tag) { var stateNode = inst.stateNode; if (!stateNode) return null; var props = EventPluginUtils_1.getFiberCurrentPropsFromNode(stateNode); if (!props) return null; if (listener = props[registrationName], shouldPreventMouseEvent(registrationName, inst.type, props)) return null; } else { var currentElement = inst._currentElement; if ("string" == typeof currentElement || "number" == typeof currentElement) return null; if (!inst._rootNodeID) return null; var _props = currentElement.props; if (listener = _props[registrationName], shouldPreventMouseEvent(registrationName, currentElement.type, _props)) return null; } return invariant(!listener || "function" == typeof listener, "Expected %s listener to be a function, instead got type %s", registrationName, typeof listener), listener; }, extractEvents: function(topLevelType, targetInst, nativeEvent, nativeEventTarget) { for (var events, plugins = EventPluginRegistry_1.plugins, i = 0; i < plugins.length; i++) { var possiblePlugin = plugins[i]; if (possiblePlugin) { var extractedEvents = possiblePlugin.extractEvents(topLevelType, targetInst, nativeEvent, nativeEventTarget); extractedEvents && (events = accumulateInto_1(events, extractedEvents)); } } return events; }, enqueueEvents: function(events) { events && (eventQueue = accumulateInto_1(eventQueue, events)); }, processEventQueue: function(simulated) { var processingEventQueue = eventQueue; eventQueue = null, simulated ? forEachAccumulated_1(processingEventQueue, executeDispatchesAndReleaseSimulated) : forEachAccumulated_1(processingEventQueue, executeDispatchesAndReleaseTopLevel), invariant(!eventQueue, "processEventQueue(): Additional events were enqueued while processing " + "an event queue. Support for this has not yet been implemented."), ReactErrorUtils_1.rethrowCaughtError(); } }, EventPluginHub_1 = EventPluginHub, ReactTypeOfWork = { IndeterminateComponent: 0, FunctionalComponent: 1, ClassComponent: 2, HostRoot: 3, HostPortal: 4, HostComponent: 5, HostText: 6, CoroutineComponent: 7, CoroutineHandlerPhase: 8, YieldComponent: 9, Fragment: 10 }, HostComponent = ReactTypeOfWork.HostComponent; function getParent(inst) { if (void 0 !== inst._hostParent) return inst._hostParent; if ("number" == typeof inst.tag) { do { inst = inst.return; } while (inst && inst.tag !== HostComponent); if (inst) return inst; } return null; } function getLowestCommonAncestor(instA, instB) { for (var depthA = 0, tempA = instA; tempA; tempA = getParent(tempA)) depthA++; for (var depthB = 0, tempB = instB; tempB; tempB = getParent(tempB)) depthB++; for (;depthA - depthB > 0; ) instA = getParent(instA), depthA--; for (;depthB - depthA > 0; ) instB = getParent(instB), depthB--; for (var depth = depthA; depth--; ) { if (instA === instB || instA === instB.alternate) return instA; instA = getParent(instA), instB = getParent(instB); } return null; } function isAncestor(instA, instB) { for (;instB; ) { if (instA === instB || instA === instB.alternate) return !0; instB = getParent(instB); } return !1; } function getParentInstance(inst) { return getParent(inst); } function traverseTwoPhase(inst, fn, arg) { for (var path = []; inst; ) path.push(inst), inst = getParent(inst); var i; for (i = path.length; i-- > 0; ) fn(path[i], "captured", arg); for (i = 0; i < path.length; i++) fn(path[i], "bubbled", arg); } function traverseEnterLeave(from, to, fn, argFrom, argTo) { for (var common = from && to ? getLowestCommonAncestor(from, to) : null, pathFrom = []; from && from !== common; ) pathFrom.push(from), from = getParent(from); for (var pathTo = []; to && to !== common; ) pathTo.push(to), to = getParent(to); var i; for (i = 0; i < pathFrom.length; i++) fn(pathFrom[i], "bubbled", argFrom); for (i = pathTo.length; i-- > 0; ) fn(pathTo[i], "captured", argTo); } var ReactTreeTraversal = { isAncestor: isAncestor, getLowestCommonAncestor: getLowestCommonAncestor, getParentInstance: getParentInstance, traverseTwoPhase: traverseTwoPhase, traverseEnterLeave: traverseEnterLeave }, getListener = EventPluginHub_1.getListener; function listenerAtPhase(inst, event, propagationPhase) { var registrationName = event.dispatchConfig.phasedRegistrationNames[propagationPhase]; return getListener(inst, registrationName); } function accumulateDirectionalDispatches(inst, phase, event) { warning(inst, "Dispatching inst must not be null"); var listener = listenerAtPhase(inst, event, phase); listener && (event._dispatchListeners = accumulateInto_1(event._dispatchListeners, listener), event._dispatchInstances = accumulateInto_1(event._dispatchInstances, inst)); } function accumulateTwoPhaseDispatchesSingle(event) { event && event.dispatchConfig.phasedRegistrationNames && ReactTreeTraversal.traverseTwoPhase(event._targetInst, accumulateDirectionalDispatches, event); } function accumulateTwoPhaseDispatchesSingleSkipTarget(event) { if (event && event.dispatchConfig.phasedRegistrationNames) { var targetInst = event._targetInst, parentInst = targetInst ? ReactTreeTraversal.getParentInstance(targetInst) : null; ReactTreeTraversal.traverseTwoPhase(parentInst, accumulateDirectionalDispatches, event); } } function accumulateDispatches(inst, ignoredDirection, event) { if (inst && event && event.dispatchConfig.registrationName) { var registrationName = event.dispatchConfig.registrationName, listener = getListener(inst, registrationName); listener && (event._dispatchListeners = accumulateInto_1(event._dispatchListeners, listener), event._dispatchInstances = accumulateInto_1(event._dispatchInstances, inst)); } } function accumulateDirectDispatchesSingle(event) { event && event.dispatchConfig.registrationName && accumulateDispatches(event._targetInst, null, event); } function accumulateTwoPhaseDispatches(events) { forEachAccumulated_1(events, accumulateTwoPhaseDispatchesSingle); } function accumulateTwoPhaseDispatchesSkipTarget(events) { forEachAccumulated_1(events, accumulateTwoPhaseDispatchesSingleSkipTarget); } function accumulateEnterLeaveDispatches(leave, enter, from, to) { ReactTreeTraversal.traverseEnterLeave(from, to, accumulateDispatches, leave, enter); } function accumulateDirectDispatches(events) { forEachAccumulated_1(events, accumulateDirectDispatchesSingle); } var EventPropagators = { accumulateTwoPhaseDispatches: accumulateTwoPhaseDispatches, accumulateTwoPhaseDispatchesSkipTarget: accumulateTwoPhaseDispatchesSkipTarget, accumulateDirectDispatches: accumulateDirectDispatches, accumulateEnterLeaveDispatches: accumulateEnterLeaveDispatches }, EventPropagators_1 = EventPropagators, oneArgumentPooler = function(copyFieldsFrom) { var Klass = this; if (Klass.instancePool.length) { var instance = Klass.instancePool.pop(); return Klass.call(instance, copyFieldsFrom), instance; } return new Klass(copyFieldsFrom); }, twoArgumentPooler = function(a1, a2) { var Klass = this; if (Klass.instancePool.length) { var instance = Klass.instancePool.pop(); return Klass.call(instance, a1, a2), instance; } return new Klass(a1, a2); }, threeArgumentPooler = function(a1, a2, a3) { var Klass = this; if (Klass.instancePool.length) { var instance = Klass.instancePool.pop(); return Klass.call(instance, a1, a2, a3), instance; } return new Klass(a1, a2, a3); }, fourArgumentPooler = function(a1, a2, a3, a4) { var Klass = this; if (Klass.instancePool.length) { var instance = Klass.instancePool.pop(); return Klass.call(instance, a1, a2, a3, a4), instance; } return new Klass(a1, a2, a3, a4); }, standardReleaser = function(instance) { var Klass = this; invariant(instance instanceof Klass, "Trying to release an instance into a pool of a different type."), instance.destructor(), Klass.instancePool.length < Klass.poolSize && Klass.instancePool.push(instance); }, DEFAULT_POOL_SIZE = 10, DEFAULT_POOLER = oneArgumentPooler, addPoolingTo = function(CopyConstructor, pooler) { var NewKlass = CopyConstructor; return NewKlass.instancePool = [], NewKlass.getPooled = pooler || DEFAULT_POOLER, NewKlass.poolSize || (NewKlass.poolSize = DEFAULT_POOL_SIZE), NewKlass.release = standardReleaser, NewKlass; }, PooledClass = { addPoolingTo: addPoolingTo, oneArgumentPooler: oneArgumentPooler, twoArgumentPooler: twoArgumentPooler, threeArgumentPooler: threeArgumentPooler, fourArgumentPooler: fourArgumentPooler }, PooledClass_1 = PooledClass, didWarnForAddedNewProperty = !1, isProxySupported = "function" == typeof Proxy, shouldBeReleasedProperties = [ "dispatchConfig", "_targetInst", "nativeEvent", "isDefaultPrevented", "isPropagationStopped", "_dispatchListeners", "_dispatchInstances" ], EventInterface = { type: null, target: null, currentTarget: emptyFunction.thatReturnsNull, eventPhase: null, bubbles: null, cancelable: null, timeStamp: function(event) { return event.timeStamp || Date.now(); }, defaultPrevented: null, isTrusted: null }; function SyntheticEvent(dispatchConfig, targetInst, nativeEvent, nativeEventTarget) { delete this.nativeEvent, delete this.preventDefault, delete this.stopPropagation, this.dispatchConfig = dispatchConfig, this._targetInst = targetInst, this.nativeEvent = nativeEvent; var Interface = this.constructor.Interface; for (var propName in Interface) if (Interface.hasOwnProperty(propName)) { delete this[propName]; var normalize = Interface[propName]; normalize ? this[propName] = normalize(nativeEvent) : "target" === propName ? this.target = nativeEventTarget : this[propName] = nativeEvent[propName]; } var defaultPrevented = null != nativeEvent.defaultPrevented ? nativeEvent.defaultPrevented : !1 === nativeEvent.returnValue; return this.isDefaultPrevented = defaultPrevented ? emptyFunction.thatReturnsTrue : emptyFunction.thatReturnsFalse, this.isPropagationStopped = emptyFunction.thatReturnsFalse, this; } Object.assign(SyntheticEvent.prototype, { preventDefault: function() { this.defaultPrevented = !0; var event = this.nativeEvent; event && (event.preventDefault ? event.preventDefault() : "unknown" != typeof event.returnValue && (event.returnValue = !1), this.isDefaultPrevented = emptyFunction.thatReturnsTrue); }, stopPropagation: function() { var event = this.nativeEvent; event && (event.stopPropagation ? event.stopPropagation() : "unknown" != typeof event.cancelBubble && (event.cancelBubble = !0), this.isPropagationStopped = emptyFunction.thatReturnsTrue); }, persist: function() { this.isPersistent = emptyFunction.thatReturnsTrue; }, isPersistent: emptyFunction.thatReturnsFalse, destructor: function() { var Interface = this.constructor.Interface; for (var propName in Interface) Object.defineProperty(this, propName, getPooledWarningPropertyDefinition(propName, Interface[propName])); for (var i = 0; i < shouldBeReleasedProperties.length; i++) this[shouldBeReleasedProperties[i]] = null; Object.defineProperty(this, "nativeEvent", getPooledWarningPropertyDefinition("nativeEvent", null)), Object.defineProperty(this, "preventDefault", getPooledWarningPropertyDefinition("preventDefault", emptyFunction)), Object.defineProperty(this, "stopPropagation", getPooledWarningPropertyDefinition("stopPropagation", emptyFunction)); } }), SyntheticEvent.Interface = EventInterface, SyntheticEvent.augmentClass = function(Class, Interface) { var Super = this, E = function() {}; E.prototype = Super.prototype; var prototype = new E(); Object.assign(prototype, Class.prototype), Class.prototype = prototype, Class.prototype.constructor = Class, Class.Interface = Object.assign({}, Super.Interface, Interface), Class.augmentClass = Super.augmentClass, PooledClass_1.addPoolingTo(Class, PooledClass_1.fourArgumentPooler); }, isProxySupported && (SyntheticEvent = new Proxy(SyntheticEvent, { construct: function(target, args) { return this.apply(target, Object.create(target.prototype), args); }, apply: function(constructor, that, args) { return new Proxy(constructor.apply(that, args), { set: function(target, prop, value) { return "isPersistent" === prop || target.constructor.Interface.hasOwnProperty(prop) || -1 !== shouldBeReleasedProperties.indexOf(prop) || (warning(didWarnForAddedNewProperty || target.isPersistent(), "This synthetic event is reused for performance reasons. If you're " + "seeing this, you're adding a new property in the synthetic event object. " + "The property is never released. See " + "https://fb.me/react-event-pooling for more information."), didWarnForAddedNewProperty = !0), target[prop] = value, !0; } }); } })), PooledClass_1.addPoolingTo(SyntheticEvent, PooledClass_1.fourArgumentPooler); var SyntheticEvent_1 = SyntheticEvent; function getPooledWarningPropertyDefinition(propName, getVal) { var isFunction = "function" == typeof getVal; return { configurable: !0, set: set, get: get }; function set(val) { return warn(isFunction ? "setting the method" : "setting the property", "This is effectively a no-op"), val; } function get() { return warn(isFunction ? "accessing the method" : "accessing the property", isFunction ? "This is a no-op function" : "This is set to null"), getVal; } function warn(action, result) { warning(!1, "This synthetic event is reused for performance reasons. If you're seeing this, " + "you're %s `%s` on a released/nullified synthetic event. %s. " + "If you must keep the original synthetic event around, use event.persist(). " + "See https://fb.me/react-event-pooling for more information.", action, propName, result); } } var _extends = Object.assign || function(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) Object.prototype.hasOwnProperty.call(source, key) && (target[key] = source[key]); } return target; }, customBubblingEventTypes = UIManager.customBubblingEventTypes, customDirectEventTypes = UIManager.customDirectEventTypes, allTypesByEventName = {}; for (var bubblingTypeName in customBubblingEventTypes) allTypesByEventName[bubblingTypeName] = customBubblingEventTypes[bubblingTypeName]; for (var directTypeName in customDirectEventTypes) warning(!customBubblingEventTypes[directTypeName], "Event cannot be both direct and bubbling: %s", directTypeName), allTypesByEventName[directTypeName] = customDirectEventTypes[directTypeName]; var ReactNativeBridgeEventPlugin = { eventTypes: _extends({}, customBubblingEventTypes, customDirectEventTypes), extractEvents: function(topLevelType, targetInst, nativeEvent, nativeEventTarget) { var bubbleDispatchConfig = customBubblingEventTypes[topLevelType], directDispatchConfig = customDirectEventTypes[topLevelType], event = SyntheticEvent_1.getPooled(bubbleDispatchConfig || directDispatchConfig, targetInst, nativeEvent, nativeEventTarget); if (bubbleDispatchConfig) EventPropagators_1.accumulateTwoPhaseDispatches(event); else { if (!directDispatchConfig) return null; EventPropagators_1.accumulateDirectDispatches(event); } return event; } }, ReactNativeBridgeEventPlugin_1 = ReactNativeBridgeEventPlugin; function runEventQueueInBatch(events) { EventPluginHub_1.enqueueEvents(events), EventPluginHub_1.processEventQueue(!1); } var ReactEventEmitterMixin = { handleTopLevel: function(topLevelType, targetInst, nativeEvent, nativeEventTarget) { runEventQueueInBatch(EventPluginHub_1.extractEvents(topLevelType, targetInst, nativeEvent, nativeEventTarget)); } }, ReactEventEmitterMixin_1 = ReactEventEmitterMixin, INITIAL_TAG_COUNT = 1, ReactNativeTagHandles = { tagsStartAt: INITIAL_TAG_COUNT, tagCount: INITIAL_TAG_COUNT, allocateTag: function() { for (;this.reactTagIsNativeTopRootID(ReactNativeTagHandles.tagCount); ) ReactNativeTagHandles.tagCount++; var tag = ReactNativeTagHandles.tagCount; return ReactNativeTagHandles.tagCount++, tag; }, assertRootTag: function(tag) { invariant(this.reactTagIsNativeTopRootID(tag), "Expect a native root tag, instead got %s", tag); }, reactTagIsNativeTopRootID: function(reactTag) { return reactTag % 10 == 1; } }, ReactNativeTagHandles_1 = ReactNativeTagHandles, fiberHostComponent = null, ReactControlledComponentInjection = { injectFiberControlledHostComponent: function(hostComponentImpl) { fiberHostComponent = hostComponentImpl; } }, restoreTarget = null, restoreQueue = null; function restoreStateOfTarget(target) { var internalInstance = EventPluginUtils_1.getInstanceFromNode(target); if (internalInstance) { if ("number" == typeof internalInstance.tag) { invariant(fiberHostComponent && "function" == typeof fiberHostComponent.restoreControlledState, "Fiber needs to be injected to handle a fiber target for controlled " + "events."); var props = EventPluginUtils_1.getFiberCurrentPropsFromNode(internalInstance.stateNode); return void fiberHostComponent.restoreControlledState(internalInstance.stateNode, internalInstance.type, props); } invariant("function" == typeof internalInstance.restoreControlledState, "The internal instance must be a React host component."), internalInstance.restoreControlledState(); } } var ReactControlledComponent = { injection: ReactControlledComponentInjection, enqueueStateRestore: function(target) { restoreTarget ? restoreQueue ? restoreQueue.push(target) : restoreQueue = [ target ] : restoreTarget = target; }, restoreStateIfNeeded: function() { if (restoreTarget) { var target = restoreTarget, queuedTargets = restoreQueue; if (restoreTarget = null, restoreQueue = null, restoreStateOfTarget(target), queuedTargets) for (var i = 0; i < queuedTargets.length; i++) restoreStateOfTarget(queuedTargets[i]); } } }, ReactControlledComponent_1 = ReactControlledComponent, stackBatchedUpdates = function(fn, a, b, c, d, e) { return fn(a, b, c, d, e); }, fiberBatchedUpdates = function(fn, bookkeeping) { return fn(bookkeeping); }; function performFiberBatchedUpdates(fn, bookkeeping) { return fiberBatchedUpdates(fn, bookkeeping); } function batchedUpdates(fn, bookkeeping) { return stackBatchedUpdates(performFiberBatchedUpdates, fn, bookkeeping); } var isNestingBatched = !1; function batchedUpdatesWithControlledComponents(fn, bookkeeping) { if (isNestingBatched) return batchedUpdates(fn, bookkeeping); isNestingBatched = !0; try { return batchedUpdates(fn, bookkeeping); } finally { isNestingBatched = !1, ReactControlledComponent_1.restoreStateIfNeeded(); } } var ReactGenericBatchingInjection = { injectStackBatchedUpdates: function(_batchedUpdates) { stackBatchedUpdates = _batchedUpdates; }, injectFiberBatchedUpdates: function(_batchedUpdates) { fiberBatchedUpdates = _batchedUpdates; } }, ReactGenericBatching = { batchedUpdates: batchedUpdatesWithControlledComponents, injection: ReactGenericBatchingInjection }, ReactGenericBatching_1 = ReactGenericBatching, _extends$1 = Object.assign || function(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) Object.prototype.hasOwnProperty.call(source, key) && (target[key] = source[key]); } return target; }, EMPTY_NATIVE_EVENT = {}, touchSubsequence = function(touches, indices) { for (var ret = [], i = 0; i < indices.length; i++) ret.push(touches[indices[i]]); return ret; }, removeTouchesAtIndices = function(touches, indices) { for (var rippedOut = [], temp = touches, i = 0; i < indices.length; i++) { var index = indices[i]; rippedOut.push(touches[index]), temp[index] = null; } for (var fillAt = 0, j = 0; j < temp.length; j++) { var cur = temp[j]; null !== cur && (temp[fillAt++] = cur); } return temp.length = fillAt, rippedOut; }, ReactNativeEventEmitter = _extends$1({}, ReactEventEmitterMixin_1, { registrationNames: EventPluginRegistry_1.registrationNameModules, getListener: EventPluginHub_1.getListener, _receiveRootNodeIDEvent: function(rootNodeID, topLevelType, nativeEventParam) { var nativeEvent = nativeEventParam || EMPTY_NATIVE_EVENT, inst = ReactNativeComponentTree_1.getInstanceFromNode(rootNodeID); ReactGenericBatching_1.batchedUpdates(function() { ReactNativeEventEmitter.handleTopLevel(topLevelType, inst, nativeEvent, nativeEvent.target); }); }, receiveEvent: function(tag, topLevelType, nativeEventParam) { var rootNodeID = tag; ReactNativeEventEmitter._receiveRootNodeIDEvent(rootNodeID, topLevelType, nativeEventParam); }, receiveTouches: function(eventTopLevelType, touches, changedIndices) { for (var changedTouches = "topTouchEnd" === eventTopLevelType || "topTouchCancel" === eventTopLevelType ? removeTouchesAtIndices(touches, changedIndices) : touchSubsequence(touches, changedIndices), jj = 0; jj < changedTouches.length; jj++) { var touch = changedTouches[jj]; touch.changedTouches = changedTouches, touch.touches = touches; var nativeEvent = touch, rootNodeID = null, target = nativeEvent.target; null !== target && void 0 !== target && (target < ReactNativeTagHandles_1.tagsStartAt ? warning(!1, "A view is reporting that a touch occurred on tag zero.") : rootNodeID = target), ReactNativeEventEmitter._receiveRootNodeIDEvent(rootNodeID, eventTopLevelType, nativeEvent); } } }), ReactNativeEventEmitter_1 = ReactNativeEventEmitter, ReactNativeEventPluginOrder = [ "ResponderEventPlugin", "ReactNativeBridgeEventPlugin" ], ReactNativeEventPluginOrder_1 = ReactNativeEventPluginOrder, ReactNativeGlobalResponderHandler = { onChange: function(from, to, blockNativeResponder) { if (null !== to) { var tag = "number" != typeof to.tag ? to._rootNodeID : to.stateNode._nativeTag; UIManager.setJSResponder(tag, blockNativeResponder); } else UIManager.clearJSResponder(); } }, ReactNativeGlobalResponderHandler_1 = ReactNativeGlobalResponderHandler, ResponderEventInterface = { touchHistory: function(nativeEvent) { return null; } }; function ResponderSyntheticEvent(dispatchConfig, dispatchMarker, nativeEvent, nativeEventTarget) { return SyntheticEvent_1.call(this, dispatchConfig, dispatchMarker, nativeEvent, nativeEventTarget); } SyntheticEvent_1.augmentClass(ResponderSyntheticEvent, ResponderEventInterface); var ResponderSyntheticEvent_1 = ResponderSyntheticEvent, isEndish$2 = EventPluginUtils_1.isEndish, isMoveish$2 = EventPluginUtils_1.isMoveish, isStartish$2 = EventPluginUtils_1.isStartish, MAX_TOUCH_BANK = 20, touchBank = [], touchHistory = { touchBank: touchBank, numberActiveTouches: 0, indexOfSingleActiveTouch: -1, mostRecentTimeStamp: 0 }; function timestampForTouch(touch) { return touch.timeStamp || touch.timestamp; } function createTouchRecord(touch) { return { touchActive: !0, startPageX: touch.pageX, startPageY: touch.pageY, startTimeStamp: timestampForTouch(touch), currentPageX: touch.pageX, currentPageY: touch.pageY, currentTimeStamp: timestampForTouch(touch), previousPageX: touch.pageX, previousPageY: touch.pageY, previousTimeStamp: timestampForTouch(touch) }; } function resetTouchRecord(touchRecord, touch) { touchRecord.touchActive = !0, touchRecord.startPageX = touch.pageX, touchRecord.startPageY = touch.pageY, touchRecord.startTimeStamp = timestampForTouch(touch), touchRecord.currentPageX = touch.pageX, touchRecord.currentPageY = touch.pageY, touchRecord.currentTimeStamp = timestampForTouch(touch), touchRecord.previousPageX = touch.pageX, touchRecord.previousPageY = touch.pageY, touchRecord.previousTimeStamp = timestampForTouch(touch); } function getTouchIdentifier(_ref) { var identifier = _ref.identifier; return invariant(null != identifier, "Touch object is missing identifier."), warning(identifier <= MAX_TOUCH_BANK, "Touch identifier %s is greater than maximum supported %s which causes " + "performance issues backfilling array locations for all of the indices.", identifier, MAX_TOUCH_BANK), identifier; } function recordTouchStart(touch) { var identifier = getTouchIdentifier(touch), touchRecord = touchBank[identifier]; touchRecord ? resetTouchRecord(touchRecord, touch) : touchBank[identifier] = createTouchRecord(touch), touchHistory.mostRecentTimeStamp = timestampForTouch(touch); } function recordTouchMove(touch) { var touchRecord = touchBank[getTouchIdentifier(touch)]; touchRecord ? (touchRecord.touchActive = !0, touchRecord.previousPageX = touchRecord.currentPageX, touchRecord.previousPageY = touchRecord.currentPageY, touchRecord.previousTimeStamp = touchRecord.currentTimeStamp, touchRecord.currentPageX = touch.pageX, touchRecord.currentPageY = touch.pageY, touchRecord.currentTimeStamp = timestampForTouch(touch), touchHistory.mostRecentTimeStamp = timestampForTouch(touch)) : console.error("Cannot record touch move without a touch start.\n" + "Touch Move: %s\n", "Touch Bank: %s", printTouch(touch), printTouchBank()); } function recordTouchEnd(touch) { var touchRecord = touchBank[getTouchIdentifier(touch)]; touchRecord ? (touchRecord.touchActive = !1, touchRecord.previousPageX = touchRecord.currentPageX, touchRecord.previousPageY = touchRecord.currentPageY, touchRecord.previousTimeStamp = touchRecord.currentTimeStamp, touchRecord.currentPageX = touch.pageX, touchRecord.currentPageY = touch.pageY, touchRecord.currentTimeStamp = timestampForTouch(touch), touchHistory.mostRecentTimeStamp = timestampForTouch(touch)) : console.error("Cannot record touch end without a touch start.\n" + "Touch End: %s\n", "Touch Bank: %s", printTouch(touch), printTouchBank()); } function printTouch(touch) { return JSON.stringify({ identifier: touch.identifier, pageX: touch.pageX, pageY: touch.pageY, timestamp: timestampForTouch(touch) }); } function printTouchBank() { var printed = JSON.stringify(touchBank.slice(0, MAX_TOUCH_BANK)); return touchBank.length > MAX_TOUCH_BANK && (printed += " (original size: " + touchBank.length + ")"), printed; } var ResponderTouchHistoryStore = { recordTouchTrack: function(topLevelType, nativeEvent) { if (isMoveish$2(topLevelType)) nativeEvent.changedTouches.forEach(recordTouchMove); else if (isStartish$2(topLevelType)) nativeEvent.changedTouches.forEach(recordTouchStart), touchHistory.numberActiveTouches = nativeEvent.touches.length, 1 === touchHistory.numberActiveTouches && (touchHistory.indexOfSingleActiveTouch = nativeEvent.touches[0].identifier); else if (isEndish$2(topLevelType) && (nativeEvent.changedTouches.forEach(recordTouchEnd), touchHistory.numberActiveTouches = nativeEvent.touches.length, 1 === touchHistory.numberActiveTouches)) { for (var i = 0; i < touchBank.length; i++) { var touchTrackToCheck = touchBank[i]; if (null != touchTrackToCheck && touchTrackToCheck.touchActive) { touchHistory.indexOfSingleActiveTouch = i; break; } } var activeRecord = touchBank[touchHistory.indexOfSingleActiveTouch]; warning(null != activeRecord && activeRecord.touchActive, "Cannot find single active touch."); } }, touchHistory: touchHistory }, ResponderTouchHistoryStore_1 = ResponderTouchHistoryStore; function accumulate(current, next) { return invariant(null != next, "accumulate(...): Accumulated items must be not be null or undefined."), null == current ? next : Array.isArray(current) ? current.concat(next) : Array.isArray(next) ? [ current ].concat(next) : [ current, next ]; } var accumulate_1 = accumulate, isStartish$1 = EventPluginUtils_1.isStartish, isMoveish$1 = EventPluginUtils_1.isMoveish, isEndish$1 = EventPluginUtils_1.isEndish, executeDirectDispatch$1 = EventPluginUtils_1.executeDirectDispatch, hasDispatches$1 = EventPluginUtils_1.hasDispatches, executeDispatchesInOrderStopAtTrue$1 = EventPluginUtils_1.executeDispatchesInOrderStopAtTrue, responderInst = null, trackedTouchCount = 0, previousActiveTouches = 0, changeResponder = function(nextResponderInst, blockHostResponder) { var oldResponderInst = responderInst; responderInst = nextResponderInst, null !== ResponderEventPlugin.GlobalResponderHandler && ResponderEventPlugin.GlobalResponderHandler.onChange(oldResponderInst, nextResponderInst, blockHostResponder); }, eventTypes = { startShouldSetResponder: { phasedRegistrationNames: { bubbled: "onStartShouldSetResponder", captured: "onStartShouldSetResponderCapture" } }, scrollShouldSetResponder: { phasedRegistrationNames: { bubbled: "onScrollShouldSetResponder", captured: "onScrollShouldSetResponderCapture" } }, selectionChangeShouldSetResponder: { phasedRegistrationNames: { bubbled: "onSelectionChangeShouldSetResponder", captured: "onSelectionChangeShouldSetResponderCapture" } }, moveShouldSetResponder: { phasedRegistrationNames: { bubbled: "onMoveShouldSetResponder", captured: "onMoveShouldSetResponderCapture" } }, responderStart: { registrationName: "onResponderStart" }, responderMove: { registrationName: "onResponderMove" }, responderEnd: { registrationName: "onResponderEnd" }, responderRelease: { registrationName: "onResponderRelease" }, responderTerminationRequest: { registrationName: "onResponderTerminationRequest" }, responderGrant: { registrationName: "onResponderGrant" }, responderReject: { registrationName: "onResponderReject" }, responderTerminate: { registrationName: "onResponderTerminate" } }; function setResponderAndExtractTransfer(topLevelType, targetInst, nativeEvent, nativeEventTarget) { var shouldSetEventType = isStartish$1(topLevelType) ? eventTypes.startShouldSetResponder : isMoveish$1(topLevelType) ? eventTypes.moveShouldSetResponder : "topSelectionChange" === topLevelType ? eventTypes.selectionChangeShouldSetResponder : eventTypes.scrollShouldSetResponder, bubbleShouldSetFrom = responderInst ? ReactTreeTraversal.getLowestCommonAncestor(responderInst, targetInst) : targetInst, skipOverBubbleShouldSetFrom = bubbleShouldSetFrom === responderInst, shouldSetEvent = ResponderSyntheticEvent_1.getPooled(shouldSetEventType, bubbleShouldSetFrom, nativeEvent, nativeEventTarget); shouldSetEvent.touchHistory = ResponderTouchHistoryStore_1.touchHistory, skipOverBubbleShouldSetFrom ? EventPropagators_1.accumulateTwoPhaseDispatchesSkipTarget(shouldSetEvent) : EventPropagators_1.accumulateTwoPhaseDispatches(shouldSetEvent); var wantsResponderInst = executeDispatchesInOrderStopAtTrue$1(shouldSetEvent); if (shouldSetEvent.isPersistent() || shouldSetEvent.constructor.release(shouldSetEvent), !wantsResponderInst || wantsResponderInst === responderInst) return null; var extracted, grantEvent = ResponderSyntheticEvent_1.getPooled(eventTypes.responderGrant, wantsResponderInst, nativeEvent, nativeEventTarget); grantEvent.touchHistory = ResponderTouchHistoryStore_1.touchHistory, EventPropagators_1.accumulateDirectDispatches(grantEvent); var blockHostResponder = !0 === executeDirectDispatch$1(grantEvent); if (responderInst) { var terminationRequestEvent = ResponderSyntheticEvent_1.getPooled(eventTypes.responderTerminationRequest, responderInst, nativeEvent, nativeEventTarget); terminationRequestEvent.touchHistory = ResponderTouchHistoryStore_1.touchHistory, EventPropagators_1.accumulateDirectDispatches(terminationRequestEvent); var shouldSwitch = !hasDispatches$1(terminationRequestEvent) || executeDirectDispatch$1(terminationRequestEvent); if (terminationRequestEvent.isPersistent() || terminationRequestEvent.constructor.release(terminationRequestEvent), shouldSwitch) { var terminateEvent = ResponderSyntheticEvent_1.getPooled(eventTypes.responderTerminate, responderInst, nativeEvent, nativeEventTarget); terminateEvent.touchHistory = ResponderTouchHistoryStore_1.touchHistory, EventPropagators_1.accumulateDirectDispatches(terminateEvent), extracted = accumulate_1(extracted, [ grantEvent, terminateEvent ]), changeResponder(wantsResponderInst, blockHostResponder); } else { var rejectEvent = ResponderSyntheticEvent_1.getPooled(eventTypes.responderReject, wantsResponderInst, nativeEvent, nativeEventTarget); rejectEvent.touchHistory = ResponderTouchHistoryStore_1.touchHistory, EventPropagators_1.accumulateDirectDispatches(rejectEvent), extracted = accumulate_1(extracted, rejectEvent); } } else extracted = accumulate_1(extracted, grantEvent), changeResponder(wantsResponderInst, blockHostResponder); return extracted; } function canTriggerTransfer(topLevelType, topLevelInst, nativeEvent) { return topLevelInst && ("topScroll" === topLevelType && !nativeEvent.responderIgnoreScroll || trackedTouchCount > 0 && "topSelectionChange" === topLevelType || isStartish$1(topLevelType) || isMoveish$1(topLevelType)); } function noResponderTouches(nativeEvent) { var touches = nativeEvent.touches; if (!touches || 0 === touches.length) return !0; for (var i = 0; i < touches.length; i++) { var activeTouch = touches[i], target = activeTouch.target; if (null !== target && void 0 !== target && 0 !== target) { var targetInst = EventPluginUtils_1.getInstanceFromNode(target); if (ReactTreeTraversal.isAncestor(responderInst, targetInst)) return !1; } } return !0; } var ResponderEventPlugin = { _getResponder: function() { return responderInst; }, eventTypes: eventTypes, extractEvents: function(topLevelType, targetInst, nativeEvent, nativeEventTarget) { if (isStartish$1(topLevelType)) trackedTouchCount += 1; else if (isEndish$1(topLevelType)) { if (!(trackedTouchCount >= 0)) return console.error("Ended a touch event which was not counted in `trackedTouchCount`."), null; trackedTouchCount -= 1; } ResponderTouchHistoryStore_1.recordTouchTrack(topLevelType, nativeEvent); var extracted = canTriggerTransfer(topLevelType, targetInst, nativeEvent) ? setResponderAndExtractTransfer(topLevelType, targetInst, nativeEvent, nativeEventTarget) : null, isResponderTouchStart = responderInst && isStartish$1(topLevelType), isResponderTouchMove = responderInst && isMoveish$1(topLevelType), isResponderTouchEnd = responderInst && isEndish$1(topLevelType), incrementalTouch = isResponderTouchStart ? eventTypes.responderStart : isResponderTouchMove ? eventTypes.responderMove : isResponderTouchEnd ? eventTypes.responderEnd : null; if (incrementalTouch) { var gesture = ResponderSyntheticEvent_1.getPooled(incrementalTouch, responderInst, nativeEvent, nativeEventTarget); gesture.touchHistory = ResponderTouchHistoryStore_1.touchHistory, EventPropagators_1.accumulateDirectDispatches(gesture), extracted = accumulate_1(extracted, gesture); } var isResponderTerminate = responderInst && "topTouchCancel" === topLevelType, isResponderRelease = responderInst && !isResponderTerminate && isEndish$1(topLevelType) && noResponderTouches(nativeEvent), finalTouch = isResponderTerminate ? eventTypes.responderTerminate : isResponderRelease ? eventTypes.responderRelease : null; if (finalTouch) { var finalEvent = ResponderSyntheticEvent_1.getPooled(finalTouch, responderInst, nativeEvent, nativeEventTarget); finalEvent.touchHistory = ResponderTouchHistoryStore_1.touchHistory, EventPropagators_1.accumulateDirectDispatches(finalEvent), extracted = accumulate_1(extracted, finalEvent), changeResponder(null); } var numberActiveTouches = ResponderTouchHistoryStore_1.touchHistory.numberActiveTouches; return ResponderEventPlugin.GlobalInteractionHandler && numberActiveTouches !== previousActiveTouches && ResponderEventPlugin.GlobalInteractionHandler.onChange(numberActiveTouches), previousActiveTouches = numberActiveTouches, extracted; }, GlobalResponderHandler: null, GlobalInteractionHandler: null, injection: { injectGlobalResponderHandler: function(GlobalResponderHandler) { ResponderEventPlugin.GlobalResponderHandler = GlobalResponderHandler; }, injectGlobalInteractionHandler: function(GlobalInteractionHandler) { ResponderEventPlugin.GlobalInteractionHandler = GlobalInteractionHandler; } } }, ResponderEventPlugin_1 = ResponderEventPlugin; function inject() { RCTEventEmitter.register(ReactNativeEventEmitter_1), EventPluginHub_1.injection.injectEventPluginOrder(ReactNativeEventPluginOrder_1), EventPluginUtils_1.injection.injectComponentTree(ReactNativeComponentTree_1), ResponderEventPlugin_1.injection.injectGlobalResponderHandler(ReactNativeGlobalResponderHandler_1), EventPluginHub_1.injection.injectEventPluginsByName({ ResponderEventPlugin: ResponderEventPlugin_1, ReactNativeBridgeEventPlugin: ReactNativeBridgeEventPlugin_1 }); } var ReactNativeInjection = { inject: inject }, ReactInvalidSetStateWarningHook = {}, processingChildContext = !1, warnInvalidSetState = function() { warning(!processingChildContext, "setState(...): Cannot call setState() inside getChildContext()"); }; ReactInvalidSetStateWarningHook = { onBeginProcessingChildContext: function() { processingChildContext = !0; }, onEndProcessingChildContext: function() { processingChildContext = !1; }, onSetState: function() { warnInvalidSetState(); } }; var ReactInvalidSetStateWarningHook_1 = ReactInvalidSetStateWarningHook, ReactHostOperationHistoryHook = null, history = []; ReactHostOperationHistoryHook = { onHostOperation: function(operation) { history.push(operation); }, clearHistory: function() { ReactHostOperationHistoryHook._preventClearing || (history = []); }, getHistory: function() { return history; } }; var ReactHostOperationHistoryHook_1 = ReactHostOperationHistoryHook, ReactInternals = React.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED, ReactGlobalSharedState = { ReactCurrentOwner: ReactInternals.ReactCurrentOwner }; Object.assign(ReactGlobalSharedState, { ReactComponentTreeHook: ReactInternals.ReactComponentTreeHook, ReactDebugCurrentFrame: ReactInternals.ReactDebugCurrentFrame }); var ReactGlobalSharedState_1 = ReactGlobalSharedState, ReactComponentTreeHook = ReactGlobalSharedState_1.ReactComponentTreeHook, ReactDebugTool$1 = null, hooks = [], didHookThrowForEvent = {}, callHook = function(event, fn, context, arg1, arg2, arg3, arg4, arg5) { try { fn.call(context, arg1, arg2, arg3, arg4, arg5); } catch (e) { warning(didHookThrowForEvent[event], "Exception thrown by hook while handling %s: %s", event, e + "\n" + e.stack), didHookThrowForEvent[event] = !0; } }, emitEvent = function(event, arg1, arg2, arg3, arg4, arg5) { for (var i = 0; i < hooks.length; i++) { var hook = hooks[i], fn = hook[event]; fn && callHook(event, fn, hook, arg1, arg2, arg3, arg4, arg5); } }, isProfiling = !1, flushHistory = [], lifeCycleTimerStack = [], currentFlushNesting = 0, currentFlushMeasurements = [], currentFlushStartTime = 0, currentTimerDebugID = null, currentTimerStartTime = 0, currentTimerNestedFlushDuration = 0, currentTimerType = null, lifeCycleTimerHasWarned = !1, clearHistory = function() { ReactComponentTreeHook.purgeUnmountedComponents(), ReactHostOperationHistoryHook_1.clearHistory(); }, getTreeSnapshot = function(registeredIDs) { return registeredIDs.reduce(function(tree, id) { var ownerID = ReactComponentTreeHook.getOwnerID(id), parentID = ReactComponentTreeHook.getParentID(id); return tree[id] = { displayName: ReactComponentTreeHook.getDisplayName(id), text: ReactComponentTreeHook.getText(id), updateCount: ReactComponentTreeHook.getUpdateCount(id), childIDs: ReactComponentTreeHook.getChildIDs(id), ownerID: ownerID || parentID && ReactComponentTreeHook.getOwnerID(parentID) || 0, parentID: parentID }, tree; }, {}); }, resetMeasurements = function() { var previousStartTime = currentFlushStartTime, previousMeasurements = currentFlushMeasurements, previousOperations = ReactHostOperationHistoryHook_1.getHistory(); if (0 === currentFlushNesting) return currentFlushStartTime = 0, currentFlushMeasurements = [], void clearHistory(); if (previousMeasurements.length || previousOperations.length) { var registeredIDs = ReactComponentTreeHook.getRegisteredIDs(); flushHistory.push({ duration: performanceNow() - previousStartTime, measurements: previousMeasurements || [], operations: previousOperations || [], treeSnapshot: getTreeSnapshot(registeredIDs) }); } clearHistory(), currentFlushStartTime = performanceNow(), currentFlushMeasurements = []; }, checkDebugID = function(debugID) { arguments.length > 1 && void 0 !== arguments[1] && arguments[1] && 0 === debugID || debugID || warning(!1, "ReactDebugTool: debugID may not be empty."); }, beginLifeCycleTimer = function(debugID, timerType) { 0 !== currentFlushNesting && (currentTimerType && !lifeCycleTimerHasWarned && (warning(!1, "There is an internal error in the React performance measurement code." + "\n\nDid not expect %s timer to start while %s timer is still in " + "progress for %s instance.", timerType, currentTimerType || "no", debugID === currentTimerDebugID ? "the same" : "another"), lifeCycleTimerHasWarned = !0), currentTimerStartTime = performanceNow(), currentTimerNestedFlushDuration = 0, currentTimerDebugID = debugID, currentTimerType = timerType); }, endLifeCycleTimer = function(debugID, timerType) { 0 !== currentFlushNesting && (currentTimerType === timerType || lifeCycleTimerHasWarned || (warning(!1, "There is an internal error in the React performance measurement code. " + "We did not expect %s timer to stop while %s timer is still in " + "progress for %s instance. Please report this as a bug in React.", timerType, currentTimerType || "no", debugID === currentTimerDebugID ? "the same" : "another"), lifeCycleTimerHasWarned = !0), isProfiling && currentFlushMeasurements.push({ timerType: timerType, instanceID: debugID, duration: performanceNow() - currentTimerStartTime - currentTimerNestedFlushDuration }), currentTimerStartTime = 0, currentTimerNestedFlushDuration = 0, currentTimerDebugID = null, currentTimerType = null); }, pauseCurrentLifeCycleTimer = function() { var currentTimer = { startTime: currentTimerStartTime, nestedFlushStartTime: performanceNow(), debugID: currentTimerDebugID, timerType: currentTimerType }; lifeCycleTimerStack.push(currentTimer), currentTimerStartTime = 0, currentTimerNestedFlushDuration = 0, currentTimerDebugID = null, currentTimerType = null; }, resumeCurrentLifeCycleTimer = function() { var _lifeCycleTimerStack$ = lifeCycleTimerStack.pop(), startTime = _lifeCycleTimerStack$.startTime, nestedFlushStartTime = _lifeCycleTimerStack$.nestedFlushStartTime, debugID = _lifeCycleTimerStack$.debugID, timerType = _lifeCycleTimerStack$.timerType, nestedFlushDuration = performanceNow() - nestedFlushStartTime; currentTimerStartTime = startTime, currentTimerNestedFlushDuration += nestedFlushDuration, currentTimerDebugID = debugID, currentTimerType = timerType; }, lastMarkTimeStamp = 0, canUsePerformanceMeasure = "undefined" != typeof performance && "function" == typeof performance.mark && "function" == typeof performance.clearMarks && "function" == typeof performance.measure && "function" == typeof performance.clearMeasures, shouldMark = function(debugID) { if (!isProfiling || !canUsePerformanceMeasure) return !1; var element = ReactComponentTreeHook.getElement(debugID); return null != element && "object" == typeof element && !("string" == typeof element.type); }, markBegin = function(debugID, markType) { if (shouldMark(debugID)) { var markName = debugID + "::" + markType; lastMarkTimeStamp = performanceNow(), performance.mark(markName); } }, markEnd = function(debugID, markType) { if (shouldMark(debugID)) { var markName = debugID + "::" + markType, displayName = ReactComponentTreeHook.getDisplayName(debugID) || "Unknown"; if (performanceNow() - lastMarkTimeStamp > .1) { var measurementName = displayName + " [" + markType + "]"; performance.measure(measurementName, markName); } performance.clearMarks(markName), measurementName && performance.clearMeasures(measurementName); } }; ReactDebugTool$1 = { addHook: function(hook) { hooks.push(hook); }, removeHook: function(hook) { for (var i = 0; i < hooks.length; i++) hooks[i] === hook && (hooks.splice(i, 1), i--); }, isProfiling: function() { return isProfiling; }, beginProfiling: function() { isProfiling || (isProfiling = !0, flushHistory.length = 0, resetMeasurements(), ReactDebugTool$1.addHook(ReactHostOperationHistoryHook_1)); }, endProfiling: function() { isProfiling && (isProfiling = !1, resetMeasurements(), ReactDebugTool$1.removeHook(ReactHostOperationHistoryHook_1)); }, getFlushHistory: function() { return flushHistory; }, onBeginFlush: function() { currentFlushNesting++, resetMeasurements(), pauseCurrentLifeCycleTimer(), emitEvent("onBeginFlush"); }, onEndFlush: function() { resetMeasurements(), currentFlushNesting--, resumeCurrentLifeCycleTimer(), emitEvent("onEndFlush"); }, onBeginLifeCycleTimer: function(debugID, timerType) { checkDebugID(debugID), emitEvent("onBeginLifeCycleTimer", debugID, timerType), markBegin(debugID, timerType), beginLifeCycleTimer(debugID, timerType); }, onEndLifeCycleTimer: function(debugID, timerType) { checkDebugID(debugID), endLifeCycleTimer(debugID, timerType), markEnd(debugID, timerType), emitEvent("onEndLifeCycleTimer", debugID, timerType); }, onBeginProcessingChildContext: function() { emitEvent("onBeginProcessingChildContext"); }, onEndProcessingChildContext: function() { emitEvent("onEndProcessingChildContext"); }, onHostOperation: function(operation) { checkDebugID(operation.instanceID), emitEvent("onHostOperation", operation); }, onSetState: function() { emitEvent("onSetState"); }, onSetChildren: function(debugID, childDebugIDs) { checkDebugID(debugID), childDebugIDs.forEach(checkDebugID), emitEvent("onSetChildren", debugID, childDebugIDs); }, onBeforeMountComponent: function(debugID, element, parentDebugID) { checkDebugID(debugID), checkDebugID(parentDebugID, !0), emitEvent("onBeforeMountComponent", debugID, element, parentDebugID), markBegin(debugID, "mount"); }, onMountComponent: function(debugID) { checkDebugID(debugID), markEnd(debugID, "mount"), emitEvent("onMountComponent", debugID); }, onBeforeUpdateComponent: function(debugID, element) { checkDebugID(debugID), emitEvent("onBeforeUpdateComponent", debugID, element), markBegin(debugID, "update"); }, onUpdateComponent: function(debugID) { checkDebugID(debugID), markEnd(debugID, "update"), emitEvent("onUpdateComponent", debugID); }, onBeforeUnmountComponent: function(debugID) { checkDebugID(debugID), emitEvent("onBeforeUnmountComponent", debugID), markBegin(debugID, "unmount"); }, onUnmountComponent: function(debugID) { checkDebugID(debugID), markEnd(debugID, "unmount"), emitEvent("onUnmountComponent", debugID); }, onTestEvent: function() { emitEvent("onTestEvent"); } }, ReactDebugTool$1.addHook(ReactInvalidSetStateWarningHook_1), ReactDebugTool$1.addHook(ReactComponentTreeHook); var url = ExecutionEnvironment.canUseDOM && window.location.href || ""; /[?&]react_perf\b/.test(url) && ReactDebugTool$1.beginProfiling(); var ReactDebugTool_1 = ReactDebugTool$1, debugTool = null, ReactDebugTool = ReactDebugTool_1; debugTool = ReactDebugTool; var ReactInstrumentation = { debugTool: debugTool }; function ReactNativeContainerInfo(tag) { return { _tag: tag }; } var ReactNativeContainerInfo_1 = ReactNativeContainerInfo, ClassComponent = ReactTypeOfWork.ClassComponent; function isValidOwner(object) { return !(!object || "function" != typeof object.attachRef || "function" != typeof object.detachRef); } var ReactOwner = { addComponentAsRefTo: function(component, ref, owner) { if (owner && owner.tag === ClassComponent) { var inst = owner.stateNode; (inst.refs === emptyObject ? inst.refs = {} : inst.refs)[ref] = component.getPublicInstance(); } else invariant(isValidOwner(owner), "addComponentAsRefTo(...): Only a ReactOwner can have refs. You might " + "be adding a ref to a component that was not created inside a component's " + "`render` method, or you have multiple copies of React loaded " + "(details: https://fb.me/react-refs-must-have-owner)."), owner.attachRef(ref, component); }, removeComponentAsRefFrom: function(component, ref, owner) { if (owner && owner.tag === ClassComponent) { var inst = owner.stateNode; inst && inst.refs[ref] === component.getPublicInstance() && delete inst.refs[ref]; } else { invariant(isValidOwner(owner), "removeComponentAsRefFrom(...): Only a ReactOwner can have refs. You might " + "be removing a ref to a component that was not created inside a component's " + "`render` method, or you have multiple copies of React loaded " + "(details: https://fb.me/react-refs-must-have-owner)."); var ownerPublicInstance = owner.getPublicInstance(); ownerPublicInstance && ownerPublicInstance.refs[ref] === component.getPublicInstance() && owner.detachRef(ref); } } }, ReactOwner_1 = ReactOwner, ReactCompositeComponentTypes$1 = { ImpureClass: 0, PureClass: 1, StatelessFunctional: 2 }, ReactRef = {}, ReactCompositeComponentTypes = ReactCompositeComponentTypes$1, _require$1 = ReactGlobalSharedState_1, ReactComponentTreeHook$1 = _require$1.ReactComponentTreeHook, warning$2 = warning, warnedAboutStatelessRefs = {}; function attachRef(ref, component, owner) { if (component._compositeType === ReactCompositeComponentTypes.StatelessFunctional) { var info = "", ownerName = void 0; owner && ("function" == typeof owner.getName && (ownerName = owner.getName()), ownerName && (info += "\n\nCheck the render method of `" + ownerName + "`.")); var warningKey = ownerName || component._debugID, element = component._currentElement; element && element._source && (warningKey = element._source.fileName + ":" + element._source.lineNumber), warnedAboutStatelessRefs[warningKey] || (warnedAboutStatelessRefs[warningKey] = !0, warning$2(!1, "Stateless function components cannot be given refs. " + "Attempts to access this ref will fail.%s%s", info, ReactComponentTreeHook$1.getStackAddendumByID(component._debugID))); } "function" == typeof ref ? ref(component.getPublicInstance()) : ReactOwner_1.addComponentAsRefTo(component, ref, owner); } function detachRef(ref, component, owner) { "function" == typeof ref ? ref(null) : ReactOwner_1.removeComponentAsRefFrom(component, ref, owner); } ReactRef.attachRefs = function(instance, element) { if (null !== element && "object" == typeof element) { var ref = element.ref; null != ref && attachRef(ref, instance, element._owner); } }, ReactRef.shouldUpdateRefs = function(prevElement, nextElement) { var prevRef = null, prevOwner = null; null !== prevElement && "object" == typeof prevElement && (prevRef = prevElement.ref, prevOwner = prevElement._owner); var nextRef = null, nextOwner = null; return null !== nextElement && "object" == typeof nextElement && (nextRef = nextElement.ref, nextOwner = nextElement._owner), prevRef !== nextRef || "string" == typeof nextRef && nextOwner !== prevOwner; }, ReactRef.detachRefs = function(instance, element) { if (null !== element && "object" == typeof element) { var ref = element.ref; null != ref && detachRef(ref, instance, element._owner); } }; var ReactRef_1 = ReactRef; function attachRefs() { ReactRef_1.attachRefs(this, this._currentElement); } var ReactReconciler = { mountComponent: function(internalInstance, transaction, hostParent, hostContainerInfo, context, parentDebugID) { 0 !== internalInstance._debugID && ReactInstrumentation.debugTool.onBeforeMountComponent(internalInstance._debugID, internalInstance._currentElement, parentDebugID); var markup = internalInstance.mountComponent(transaction, hostParent, hostContainerInfo, context, parentDebugID); return internalInstance._currentElement && null != internalInstance._currentElement.ref && transaction.getReactMountReady().enqueue(attachRefs, internalInstance), 0 !== internalInstance._debugID && ReactInstrumentation.debugTool.onMountComponent(internalInstance._debugID), markup; }, getHostNode: function(internalInstance) { return internalInstance.getHostNode(); }, unmountComponent: function(internalInstance, safely, skipLifecycle) { 0 !== internalInstance._debugID && ReactInstrumentation.debugTool.onBeforeUnmountComponent(internalInstance._debugID), ReactRef_1.detachRefs(internalInstance, internalInstance._currentElement), internalInstance.unmountComponent(safely, skipLifecycle), 0 !== internalInstance._debugID && ReactInstrumentation.debugTool.onUnmountComponent(internalInstance._debugID); }, receiveComponent: function(internalInstance, nextElement, transaction, context) { var prevElement = internalInstance._currentElement; if (nextElement !== prevElement || context !== internalInstance._context) { 0 !== internalInstance._debugID && ReactInstrumentation.debugTool.onBeforeUpdateComponent(internalInstance._debugID, nextElement); var refsChanged = ReactRef_1.shouldUpdateRefs(prevElement, nextElement); refsChanged && ReactRef_1.detachRefs(internalInstance, prevElement), internalInstance.receiveComponent(nextElement, transaction, context), refsChanged && internalInstance._currentElement && null != internalInstance._currentElement.ref && transaction.getReactMountReady().enqueue(attachRefs, internalInstance), 0 !== internalInstance._debugID && ReactInstrumentation.debugTool.onUpdateComponent(internalInstance._debugID); } }, performUpdateIfNecessary: function(internalInstance, transaction, updateBatchNumber) { if (internalInstance._updateBatchNumber !== updateBatchNumber) return void warning(null == internalInstance._updateBatchNumber || internalInstance._updateBatchNumber === updateBatchNumber + 1, "performUpdateIfNecessary: Unexpected batch number (current %s, " + "pending %s)", updateBatchNumber, internalInstance._updateBatchNumber); 0 !== internalInstance._debugID && ReactInstrumentation.debugTool.onBeforeUpdateComponent(internalInstance._debugID, internalInstance._currentElement), internalInstance.performUpdateIfNecessary(transaction), 0 !== internalInstance._debugID && ReactInstrumentation.debugTool.onUpdateComponent(internalInstance._debugID); } }, ReactReconciler_1 = ReactReconciler, ReactInstanceMap = { remove: function(key) { key._reactInternalInstance = void 0; }, get: function(key) { return key._reactInternalInstance; }, has: function(key) { return void 0 !== key._reactInternalInstance; }, set: function(key, value) { key._reactInternalInstance = value; } }, ReactInstanceMap_1 = ReactInstanceMap, OBSERVED_ERROR = {}, TransactionImpl = { reinitializeTransaction: function() { this.transactionWrappers = this.getTransactionWrappers(), this.wrapperInitData ? this.wrapperInitData.length = 0 : this.wrapperInitData = [], this._isInTransaction = !1; }, _isInTransaction: !1, getTransactionWrappers: null, isInTransaction: function() { return !!this._isInTransaction; }, perform: function(method, scope, a, b, c, d, e, f) { invariant(!this.isInTransaction(), "Transaction.perform(...): Cannot initialize a transaction when there " + "is already an outstanding transaction."); var errorThrown, ret; try { this._isInTransaction = !0, errorThrown = !0, this.initializeAll(0), ret = method.call(scope, a, b, c, d, e, f), errorThrown = !1; } finally { try { if (errorThrown) try { this.closeAll(0); } catch (err) {} else this.closeAll(0); } finally { this._isInTransaction = !1; } } return ret; }, initializeAll: function(startIndex) { for (var transactionWrappers = this.transactionWrappers, i = startIndex; i < transactionWrappers.length; i++) { var wrapper = transactionWrappers[i]; try { this.wrapperInitData[i] = OBSERVED_ERROR, this.wrapperInitData[i] = wrapper.initialize ? wrapper.initialize.call(this) : null; } finally { if (this.wrapperInitData[i] === OBSERVED_ERROR) try { this.initializeAll(i + 1); } catch (err) {} } } }, closeAll: function(startIndex) { invariant(this.isInTransaction(), "Transaction.closeAll(): Cannot close transaction when none are open."); for (var transactionWrappers = this.transactionWrappers, i = startIndex; i < transactionWrappers.length; i++) { var errorThrown, wrapper = transactionWrappers[i], initData = this.wrapperInitData[i]; try { errorThrown = !0, initData !== OBSERVED_ERROR && wrapper.close && wrapper.close.call(this, initData), errorThrown = !1; } finally { if (errorThrown) try { this.closeAll(i + 1); } catch (e) {} } } this.wrapperInitData.length = 0; } }, Transaction = TransactionImpl, dirtyComponents = [], updateBatchNumber = 0, batchingStrategy = null; function ensureInjected() { invariant(ReactUpdates.ReactReconcileTransaction && batchingStrategy, "ReactUpdates: must inject a reconcile transaction class and batching " + "strategy"); } var NESTED_UPDATES = { initialize: function() { this.dirtyComponentsLength = dirtyComponents.length; }, close: function() { this.dirtyComponentsLength !== dirtyComponents.length ? (dirtyComponents.splice(0, this.dirtyComponentsLength), flushBatchedUpdates()) : dirtyComponents.length = 0; } }, TRANSACTION_WRAPPERS = [ NESTED_UPDATES ]; function ReactUpdatesFlushTransaction() { this.reinitializeTransaction(), this.dirtyComponentsLength = null, this.reconcileTransaction = ReactUpdates.ReactReconcileTransaction.getPooled(!0); } Object.assign(ReactUpdatesFlushTransaction.prototype, Transaction, { getTransactionWrappers: function() { return TRANSACTION_WRAPPERS; }, destructor: function() { this.dirtyComponentsLength = null, ReactUpdates.ReactReconcileTransaction.release(this.reconcileTransaction), this.reconcileTransaction = null; }, perform: function(method, scope, a) { return Transaction.perform.call(this, this.reconcileTransaction.perform, this.reconcileTransaction, method, scope, a); } }), PooledClass_1.addPoolingTo(ReactUpdatesFlushTransaction); function batchedUpdates$1(callback, a, b, c, d, e) { return ensureInjected(), batchingStrategy.batchedUpdates(callback, a, b, c, d, e); } function mountOrderComparator(c1, c2) { return c1._mountOrder - c2._mountOrder; } function runBatchedUpdates(transaction) { var len = transaction.dirtyComponentsLength; invariant(len === dirtyComponents.length, "Expected flush transaction's stored dirty-components length (%s) to " + "match dirty-components array length (%s).", len, dirtyComponents.length), dirtyComponents.sort(mountOrderComparator), updateBatchNumber++; for (var i = 0; i < len; i++) { var component = dirtyComponents[i]; ReactReconciler_1.performUpdateIfNecessary(component, transaction.reconcileTransaction, updateBatchNumber); } } var flushBatchedUpdates = function() { for (;dirtyComponents.length; ) { var transaction = ReactUpdatesFlushTransaction.getPooled(); transaction.perform(runBatchedUpdates, null, transaction), ReactUpdatesFlushTransaction.release(transaction); } }; function enqueueUpdate$1(component) { if (ensureInjected(), !batchingStrategy.isBatchingUpdates) return void batchingStrategy.batchedUpdates(enqueueUpdate$1, component); dirtyComponents.push(component), null == component._updateBatchNumber && (component._updateBatchNumber = updateBatchNumber + 1); } var ReactUpdatesInjection = { injectReconcileTransaction: function(ReconcileTransaction) { invariant(ReconcileTransaction, "ReactUpdates: must provide a reconcile transaction class"), ReactUpdates.ReactReconcileTransaction = ReconcileTransaction; }, injectBatchingStrategy: function(_batchingStrategy) { invariant(_batchingStrategy, "ReactUpdates: must provide a batching strategy"), invariant("function" == typeof _batchingStrategy.batchedUpdates, "ReactUpdates: must provide a batchedUpdates() function"), invariant("boolean" == typeof _batchingStrategy.isBatchingUpdates, "ReactUpdates: must provide an isBatchingUpdates boolean attribute"), batchingStrategy = _batchingStrategy; }, getBatchingStrategy: function() { return batchingStrategy; } }, ReactUpdates = { ReactReconcileTransaction: null, batchedUpdates: batchedUpdates$1, enqueueUpdate: enqueueUpdate$1, flushBatchedUpdates: flushBatchedUpdates, injection: ReactUpdatesInjection }, ReactUpdates_1 = ReactUpdates, ReactCurrentOwner = ReactGlobalSharedState_1.ReactCurrentOwner, warning$3 = warning, warnOnInvalidCallback = function(callback, callerName) { warning$3(null === callback || "function" == typeof callback, "%s(...): Expected the last optional `callback` argument to be a " + "function. Instead received: %s.", callerName, "" + callback); }; function enqueueUpdate(internalInstance) { ReactUpdates_1.enqueueUpdate(internalInstance); } function getInternalInstanceReadyForUpdate(publicInstance, callerName) { var internalInstance = ReactInstanceMap_1.get(publicInstance); if (!internalInstance) { var ctor = publicInstance.constructor; return warning$3(!1, "Can only update a mounted or mounting component. This usually means " + "you called setState, replaceState, or forceUpdate on an unmounted " + "component. This is a no-op.\n\nPlease check the code for the " + "%s component.", ctor && (ctor.displayName || ctor.name) || "ReactClass"), null; } return warning$3(null == ReactCurrentOwner.current, "Cannot update during an existing state transition (such as within " + "`render` or another component's constructor). Render methods should " + "be a pure function of props and state; constructor side-effects are " + "an anti-pattern, but can be moved to `componentWillMount`."), internalInstance; } var ReactUpdateQueue = { isMounted: function(publicInstance) { var owner = ReactCurrentOwner.current; null !== owner && (warning$3(owner._warnedAboutRefsInRender, "%s is accessing isMounted inside its render() function. " + "render() should be a pure function of props and state. It should " + "never access something that requires stale data from the previous " + "render, such as refs. Move this logic to componentDidMount and " + "componentDidUpdate instead.", owner.getName() || "A component"), owner._warnedAboutRefsInRender = !0); var internalInstance = ReactInstanceMap_1.get(publicInstance); return !!internalInstance && !!internalInstance._renderedComponent; }, enqueueCallbackInternal: function(internalInstance, callback) { internalInstance._pendingCallbacks ? internalInstance._pendingCallbacks.push(callback) : internalInstance._pendingCallbacks = [ callback ], enqueueUpdate(internalInstance); }, enqueueForceUpdate: function(publicInstance, callback, callerName) { var internalInstance = getInternalInstanceReadyForUpdate(publicInstance); internalInstance && (callback = void 0 === callback ? null : callback, null !== callback && (warnOnInvalidCallback(callback, callerName), internalInstance._pendingCallbacks ? internalInstance._pendingCallbacks.push(callback) : internalInstance._pendingCallbacks = [ callback ]), internalInstance._pendingForceUpdate = !0, enqueueUpdate(internalInstance)); }, enqueueReplaceState: function(publicInstance, completeState, callback, callerName) { var internalInstance = getInternalInstanceReadyForUpdate(publicInstance); internalInstance && (internalInstance._pendingStateQueue = [ completeState ], internalInstance._pendingReplaceState = !0, callback = void 0 === callback ? null : callback, null !== callback && (warnOnInvalidCallback(callback, callerName), internalInstance._pendingCallbacks ? internalInstance._pendingCallbacks.push(callback) : internalInstance._pendingCallbacks = [ callback ]), enqueueUpdate(internalInstance)); }, enqueueSetState: function(publicInstance, partialState, callback, callerName) { ReactInstrumentation.debugTool.onSetState(), warning$3(null != partialState, "setState(...): You passed an undefined or null state object; " + "instead, use forceUpdate()."); var internalInstance = getInternalInstanceReadyForUpdate(publicInstance); if (internalInstance) { (internalInstance._pendingStateQueue || (internalInstance._pendingStateQueue = [])).push(partialState), callback = void 0 === callback ? null : callback, null !== callback && (warnOnInvalidCallback(callback, callerName), internalInstance._pendingCallbacks ? internalInstance._pendingCallbacks.push(callback) : internalInstance._pendingCallbacks = [ callback ]), enqueueUpdate(internalInstance); } }, enqueueElementInternal: function(internalInstance, nextElement, nextContext) { internalInstance._pendingElement = nextElement, internalInstance._context = nextContext, enqueueUpdate(internalInstance); } }, ReactUpdateQueue_1 = ReactUpdateQueue, injected = !1, ReactComponentEnvironment = { replaceNodeWithMarkup: null, processChildrenUpdates: null, injection: { injectEnvironment: function(environment) { invariant(!injected, "ReactCompositeComponent: injectEnvironment() can only be called once."), ReactComponentEnvironment.replaceNodeWithMarkup = environment.replaceNodeWithMarkup, ReactComponentEnvironment.processChildrenUpdates = environment.processChildrenUpdates, injected = !0; } } }, ReactComponentEnvironment_1 = ReactComponentEnvironment, ReactNodeTypes = { HOST: 0, COMPOSITE: 1, EMPTY: 2, getType: function(node) { return null === node || !1 === node ? ReactNodeTypes.EMPTY : React.isValidElement(node) ? "function" == typeof node.type ? ReactNodeTypes.COMPOSITE : ReactNodeTypes.HOST : void invariant(!1, "Unexpected node: %s", node); } }, ReactNodeTypes_1 = ReactNodeTypes; function shouldUpdateReactComponent(prevElement, nextElement) { var prevEmpty = null === prevElement || !1 === prevElement, nextEmpty = null === nextElement || !1 === nextElement; if (prevEmpty || nextEmpty) return prevEmpty === nextEmpty; var prevType = typeof prevElement, nextType = typeof nextElement; return "string" === prevType || "number" === prevType ? "string" === nextType || "number" === nextType : "object" === nextType && prevElement.type === nextElement.type && prevElement.key === nextElement.key; } var shouldUpdateReactComponent_1 = shouldUpdateReactComponent, ReactCurrentOwner$1 = ReactGlobalSharedState_1.ReactCurrentOwner, _require2 = ReactGlobalSharedState_1, ReactDebugCurrentFrame = _require2.ReactDebugCurrentFrame, warningAboutMissingGetChildContext = {}; function StatelessComponent(Component) {} StatelessComponent.prototype.render = function() { return (0, ReactInstanceMap_1.get(this)._currentElement.type)(this.props, this.context, this.updater); }; function shouldConstruct(Component) { return !(!Component.prototype || !Component.prototype.isReactComponent); } function isPureComponent(Component) { return !(!Component.prototype || !Component.prototype.isPureReactComponent); } function measureLifeCyclePerf(fn, debugID, timerType) { if (0 === debugID) return fn(); ReactInstrumentation.debugTool.onBeginLifeCycleTimer(debugID, timerType); try { return fn(); } finally { ReactInstrumentation.debugTool.onEndLifeCycleTimer(debugID, timerType); } } var nextMountID = 1, ReactCompositeComponent = { construct: function(element) { this._currentElement = element, this._rootNodeID = 0, this._compositeType = null, this._instance = null, this._hostParent = null, this._hostContainerInfo = null, this._updateBatchNumber = null, this._pendingElement = null, this._pendingStateQueue = null, this._pendingReplaceState = !1, this._pendingForceUpdate = !1, this._renderedNodeType = null, this._renderedComponent = null, this._context = null, this._mountOrder = 0, this._topLevelWrapper = null, this._pendingCallbacks = null, this._calledComponentWillUnmount = !1, this._warnedAboutRefsInRender = !1; }, mountComponent: function(transaction, hostParent, hostContainerInfo, context) { var _this = this; this._context = context, this._mountOrder = nextMountID++, this._hostParent = hostParent, this._hostContainerInfo = hostContainerInfo; var renderedElement, publicProps = this._currentElement.props, publicContext = this._processContext(context), Component = this._currentElement.type, updateQueue = transaction.getUpdateQueue(), doConstruct = shouldConstruct(Component), inst = this._constructComponent(doConstruct, publicProps, publicContext, updateQueue); doConstruct || null != inst && null != inst.render ? isPureComponent(Component) ? this._compositeType = ReactCompositeComponentTypes$1.PureClass : this._compositeType = ReactCompositeComponentTypes$1.ImpureClass : (renderedElement = inst, warning(!Component.childContextTypes, "%s(...): childContextTypes cannot be defined on a functional component.", Component.displayName || Component.name || "Component"), invariant(null === inst || !1 === inst || React.isValidElement(inst), "%s(...): A valid React element (or null) must be returned. You may have " + "returned undefined, an array or some other invalid object.", Component.displayName || Component.name || "Component"), inst = new StatelessComponent(Component), this._compositeType = ReactCompositeComponentTypes$1.StatelessFunctional), null == inst.render && warning(!1, "%s(...): No `render` method found on the returned component " + "instance: you may have forgotten to define `render`.", Component.displayName || Component.name || "Component"); var propsMutated = inst.props !== publicProps, componentName = Component.displayName || Component.name || "Component"; warning(void 0 === inst.props || !propsMutated, "%s(...): When calling super() in `%s`, make sure to pass " + "up the same props that your component's constructor was passed.", componentName, componentName), inst.props = publicProps, inst.context = publicContext, inst.refs = emptyObject, inst.updater = updateQueue, this._instance = inst, ReactInstanceMap_1.set(inst, this), warning(!inst.getInitialState || inst.getInitialState.isReactClassApproved || inst.state, "getInitialState was defined on %s, a plain JavaScript class. " + "This is only supported for classes created using React.createClass. " + "Did you mean to define a state property instead?", this.getName() || "a component"), warning(!inst.getDefaultProps || inst.getDefaultProps.isReactClassApproved, "getDefaultProps was defined on %s, a plain JavaScript class. " + "This is only supported for classes created using React.createClass. " + "Use a static property to define defaultProps instead.", this.getName() || "a component"), warning(!inst.propTypes, "propTypes was defined as an instance property on %s. Use a static " + "property to define propTypes instead.", this.getName() || "a component"), warning(!inst.contextTypes, "contextTypes was defined as an instance property on %s. Use a " + "static property to define contextTypes instead.", this.getName() || "a component"), warning("function" != typeof inst.componentShouldUpdate, "%s has a method called " + "componentShouldUpdate(). Did you mean shouldComponentUpdate()? " + "The name is phrased as a question because the function is " + "expected to return a value.", this.getName() || "A component"), warning("function" != typeof inst.componentDidUnmount, "%s has a method called " + "componentDidUnmount(). But there is no such lifecycle method. " + "Did you mean componentWillUnmount()?", this.getName() || "A component"), warning("function" != typeof inst.componentWillRecieveProps, "%s has a method called " + "componentWillRecieveProps(). Did you mean componentWillReceiveProps()?", this.getName() || "A component"), isPureComponent(Component) && void 0 !== inst.shouldComponentUpdate && warning(!1, "%s has a method called shouldComponentUpdate(). " + "shouldComponentUpdate should not be used when extending React.PureComponent. " + "Please extend React.Component if shouldComponentUpdate is used.", this.getName() || "A pure component"), warning(!inst.defaultProps, "Setting defaultProps as an instance property on %s is not supported and will be ignored." + " Instead, define defaultProps as a static property on %s.", this.getName() || "a component", this.getName() || "a component"); var initialState = inst.state; void 0 === initialState && (inst.state = initialState = null), invariant("object" == typeof initialState && !Array.isArray(initialState), "%s.state: must be set to an object or null", this.getName() || "ReactCompositeComponent"), this._pendingStateQueue = null, this._pendingReplaceState = !1, this._pendingForceUpdate = !1, inst.componentWillMount && (measureLifeCyclePerf(function() { return inst.componentWillMount(); }, this._debugID, "componentWillMount"), this._pendingStateQueue && (inst.state = this._processPendingState(inst.props, inst.context))); var markup; markup = inst.unstable_handleError ? this.performInitialMountWithErrorHandling(renderedElement, hostParent, hostContainerInfo, transaction, context) : this.performInitialMount(renderedElement, hostParent, hostContainerInfo, transaction, context), inst.componentDidMount && transaction.getReactMountReady().enqueue(function() { measureLifeCyclePerf(function() { return inst.componentDidMount(); }, _this._debugID, "componentDidMount"); }); var callbacks = this._pendingCallbacks; if (callbacks) { this._pendingCallbacks = null; for (var i = 0; i < callbacks.length; i++) transaction.getReactMountReady().enqueue(callbacks[i], inst); } return markup; }, _constructComponent: function(doConstruct, publicProps, publicContext, updateQueue) { ReactCurrentOwner$1.current = this; try { return this._constructComponentWithoutOwner(doConstruct, publicProps, publicContext, updateQueue); } finally { ReactCurrentOwner$1.current = null; } }, _constructComponentWithoutOwner: function(doConstruct, publicProps, publicContext, updateQueue) { var Component = this._currentElement.type; return doConstruct ? measureLifeCyclePerf(function() { return new Component(publicProps, publicContext, updateQueue); }, this._debugID, "ctor") : measureLifeCyclePerf(function() { return Component(publicProps, publicContext, updateQueue); }, this._debugID, "render"); }, performInitialMountWithErrorHandling: function(renderedElement, hostParent, hostContainerInfo, transaction, context) { var markup, checkpoint = transaction.checkpoint(); try { markup = this.performInitialMount(renderedElement, hostParent, hostContainerInfo, transaction, context); } catch (e) { transaction.rollback(checkpoint), this._instance.unstable_handleError(e), this._pendingStateQueue && (this._instance.state = this._processPendingState(this._instance.props, this._instance.context)), checkpoint = transaction.checkpoint(), this._renderedComponent.unmountComponent(!0, !0), transaction.rollback(checkpoint), markup = this.performInitialMount(renderedElement, hostParent, hostContainerInfo, transaction, context); } return markup; }, performInitialMount: function(renderedElement, hostParent, hostContainerInfo, transaction, context) { void 0 === renderedElement && (renderedElement = this._renderValidatedComponent()); var nodeType = ReactNodeTypes_1.getType(renderedElement); this._renderedNodeType = nodeType; var child = this._instantiateReactComponent(renderedElement, nodeType !== ReactNodeTypes_1.EMPTY); this._renderedComponent = child; var debugID = 0; debugID = this._debugID; var markup = ReactReconciler_1.mountComponent(child, transaction, hostParent, hostContainerInfo, this._processChildContext(context), debugID); if (0 !== debugID) { var childDebugIDs = 0 !== child._debugID ? [ child._debugID ] : []; ReactInstrumentation.debugTool.onSetChildren(debugID, childDebugIDs); } return markup; }, getHostNode: function() { return ReactReconciler_1.getHostNode(this._renderedComponent); }, unmountComponent: function(safely, skipLifecycle) { if (this._renderedComponent) { var inst = this._instance; if (inst.componentWillUnmount && !inst._calledComponentWillUnmount) if (inst._calledComponentWillUnmount = !0, safely) { if (!skipLifecycle) { var name = this.getName() + ".componentWillUnmount()"; ReactErrorUtils_1.invokeGuardedCallbackAndCatchFirstError(name, inst.componentWillUnmount, inst); } } else measureLifeCyclePerf(function() { return inst.componentWillUnmount(); }, this._debugID, "componentWillUnmount"); this._renderedComponent && (ReactReconciler_1.unmountComponent(this._renderedComponent, safely, skipLifecycle), this._renderedNodeType = null, this._renderedComponent = null, this._instance = null), this._pendingStateQueue = null, this._pendingReplaceState = !1, this._pendingForceUpdate = !1, this._pendingCallbacks = null, this._pendingElement = null, this._context = null, this._rootNodeID = 0, this._topLevelWrapper = null, ReactInstanceMap_1.remove(inst); } }, _maskContext: function(context) { var Component = this._currentElement.type, contextTypes = Component.contextTypes; if (!contextTypes) return emptyObject; var maskedContext = {}; for (var contextName in contextTypes) maskedContext[contextName] = context[contextName]; return maskedContext; }, _processContext: function(context) { var maskedContext = this._maskContext(context), Component = this._currentElement.type; return Component.contextTypes && this._checkContextTypes(Component.contextTypes, maskedContext, "context"), maskedContext; }, _processChildContext: function(currentContext) { var childContext, Component = this._currentElement.type, inst = this._instance; if ("function" == typeof inst.getChildContext) { ReactInstrumentation.debugTool.onBeginProcessingChildContext(); try { childContext = inst.getChildContext(); } finally { ReactInstrumentation.debugTool.onEndProcessingChildContext(); } invariant("object" == typeof Component.childContextTypes, "%s.getChildContext(): childContextTypes must be defined in order to " + "use getChildContext().", this.getName() || "ReactCompositeComponent"), this._checkContextTypes(Component.childContextTypes, childContext, "child context"); for (var name in childContext) invariant(name in Component.childContextTypes, '%s.getChildContext(): key "%s" is not defined in childContextTypes.', this.getName() || "ReactCompositeComponent", name); return Object.assign({}, currentContext, childContext); } var componentName = this.getName(); return warningAboutMissingGetChildContext[componentName] || (warningAboutMissingGetChildContext[componentName] = !0, warning(!Component.childContextTypes, "%s.childContextTypes is specified but there is no getChildContext() method " + "on the instance. You can either define getChildContext() on %s or remove " + "childContextTypes from it.", componentName, componentName)), currentContext; }, _checkContextTypes: function(typeSpecs, values, location) { ReactDebugCurrentFrame.current = this._debugID, checkPropTypes(typeSpecs, values, location, this.getName(), ReactDebugCurrentFrame.getStackAddendum), ReactDebugCurrentFrame.current = null; }, receiveComponent: function(nextElement, transaction, nextContext) { var prevElement = this._currentElement, prevContext = this._context; this._pendingElement = null, this.updateComponent(transaction, prevElement, nextElement, prevContext, nextContext); }, performUpdateIfNecessary: function(transaction) { if (null != this._pendingElement) ReactReconciler_1.receiveComponent(this, this._pendingElement, transaction, this._context); else if (null !== this._pendingStateQueue || this._pendingForceUpdate) this.updateComponent(transaction, this._currentElement, this._currentElement, this._context, this._context); else { var callbacks = this._pendingCallbacks; if (this._pendingCallbacks = null, callbacks) for (var j = 0; j < callbacks.length; j++) transaction.getReactMountReady().enqueue(callbacks[j], this.getPublicInstance()); this._updateBatchNumber = null; } }, updateComponent: function(transaction, prevParentElement, nextParentElement, prevUnmaskedContext, nextUnmaskedContext) { var inst = this._instance; invariant(null != inst, "Attempted to update component `%s` that has already been unmounted " + "(or failed to mount).", this.getName() || "ReactCompositeComponent"); var nextContext, willReceive = !1; this._context === nextUnmaskedContext ? nextContext = inst.context : (nextContext = this._processContext(nextUnmaskedContext), willReceive = !0); var prevProps = prevParentElement.props, nextProps = nextParentElement.props; if (prevParentElement !== nextParentElement && (willReceive = !0), willReceive && inst.componentWillReceiveProps) { var beforeState = inst.state; measureLifeCyclePerf(function() { return inst.componentWillReceiveProps(nextProps, nextContext); }, this._debugID, "componentWillReceiveProps"); var afterState = inst.state; beforeState !== afterState && (inst.state = beforeState, inst.updater.enqueueReplaceState(inst, afterState), warning(!1, "%s.componentWillReceiveProps(): Assigning directly to " + "this.state is deprecated (except inside a component's " + "constructor). Use setState instead.", this.getName() || "ReactCompositeComponent")); } var callbacks = this._pendingCallbacks; this._pendingCallbacks = null; var nextState = this._processPendingState(nextProps, nextContext), shouldUpdate = !0; if (!this._pendingForceUpdate) { var prevState = inst.state; shouldUpdate = willReceive || nextState !== prevState, inst.shouldComponentUpdate ? shouldUpdate = measureLifeCyclePerf(function() { return inst.shouldComponentUpdate(nextProps, nextState, nextContext); }, this._debugID, "shouldComponentUpdate") : this._compositeType === ReactCompositeComponentTypes$1.PureClass && (shouldUpdate = !shallowEqual(prevProps, nextProps) || !shallowEqual(inst.state, nextState)); } if (warning(void 0 !== shouldUpdate, "%s.shouldComponentUpdate(): Returned undefined instead of a " + "boolean value. Make sure to return true or false.", this.getName() || "ReactCompositeComponent"), this._updateBatchNumber = null, shouldUpdate ? (this._pendingForceUpdate = !1, this._performComponentUpdate(nextParentElement, nextProps, nextState, nextContext, transaction, nextUnmaskedContext)) : (this._currentElement = nextParentElement, this._context = nextUnmaskedContext, inst.props = nextProps, inst.state = nextState, inst.context = nextContext), callbacks) for (var j = 0; j < callbacks.length; j++) transaction.getReactMountReady().enqueue(callbacks[j], this.getPublicInstance()); }, _processPendingState: function(props, context) { var inst = this._instance, queue = this._pendingStateQueue, replace = this._pendingReplaceState; if (this._pendingReplaceState = !1, this._pendingStateQueue = null, !queue) return inst.state; if (replace && 1 === queue.length) return queue[0]; for (var nextState = replace ? queue[0] : inst.state, dontMutate = !0, i = replace ? 1 : 0; i < queue.length; i++) { var partial = queue[i], partialState = "function" == typeof partial ? partial.call(inst, nextState, props, context) : partial; partialState && (dontMutate ? (dontMutate = !1, nextState = Object.assign({}, nextState, partialState)) : Object.assign(nextState, partialState)); } return nextState; }, _performComponentUpdate: function(nextElement, nextProps, nextState, nextContext, transaction, unmaskedContext) { var prevProps, prevState, _this2 = this, inst = this._instance, hasComponentDidUpdate = !!inst.componentDidUpdate; hasComponentDidUpdate && (prevProps = inst.props, prevState = inst.state), inst.componentWillUpdate && measureLifeCyclePerf(function() { return inst.componentWillUpdate(nextProps, nextState, nextContext); }, this._debugID, "componentWillUpdate"), this._currentElement = nextElement, this._context = unmaskedContext, inst.props = nextProps, inst.state = nextState, inst.context = nextContext, inst.unstable_handleError ? this._updateRenderedComponentWithErrorHandling(transaction, unmaskedContext) : this._updateRenderedComponent(transaction, unmaskedContext), hasComponentDidUpdate && transaction.getReactMountReady().enqueue(function() { measureLifeCyclePerf(inst.componentDidUpdate.bind(inst, prevProps, prevState), _this2._debugID, "componentDidUpdate"); }); }, _updateRenderedComponentWithErrorHandling: function(transaction, context) { var checkpoint = transaction.checkpoint(); try { this._updateRenderedComponent(transaction, context); } catch (e) { transaction.rollback(checkpoint), this._instance.unstable_handleError(e), this._pendingStateQueue && (this._instance.state = this._processPendingState(this._instance.props, this._instance.context)), checkpoint = transaction.checkpoint(), this._updateRenderedComponentWithNextElement(transaction, context, null, !0), this._updateRenderedComponent(transaction, context); } }, _updateRenderedComponent: function(transaction, context) { var nextRenderedElement = this._renderValidatedComponent(); this._updateRenderedComponentWithNextElement(transaction, context, nextRenderedElement, !1); }, _updateRenderedComponentWithNextElement: function(transaction, context, nextRenderedElement, safely) { var prevComponentInstance = this._renderedComponent, prevRenderedElement = prevComponentInstance._currentElement, debugID = 0; if (debugID = this._debugID, shouldUpdateReactComponent_1(prevRenderedElement, nextRenderedElement)) ReactReconciler_1.receiveComponent(prevComponentInstance, nextRenderedElement, transaction, this._processChildContext(context)); else { var oldHostNode = ReactReconciler_1.getHostNode(prevComponentInstance), nodeType = ReactNodeTypes_1.getType(nextRenderedElement); this._renderedNodeType = nodeType; var child = this._instantiateReactComponent(nextRenderedElement, nodeType !== ReactNodeTypes_1.EMPTY); this._renderedComponent = child; var nextMarkup = ReactReconciler_1.mountComponent(child, transaction, this._hostParent, this._hostContainerInfo, this._processChildContext(context), debugID); if (ReactReconciler_1.unmountComponent(prevComponentInstance, safely, !1), 0 !== debugID) { var childDebugIDs = 0 !== child._debugID ? [ child._debugID ] : []; ReactInstrumentation.debugTool.onSetChildren(debugID, childDebugIDs); } this._replaceNodeWithMarkup(oldHostNode, nextMarkup, prevComponentInstance); } }, _replaceNodeWithMarkup: function(oldHostNode, nextMarkup, prevInstance) { ReactComponentEnvironment_1.replaceNodeWithMarkup(oldHostNode, nextMarkup, prevInstance); }, _renderValidatedComponentWithoutOwnerOrContext: function() { var renderedElement, inst = this._instance; return renderedElement = measureLifeCyclePerf(function() { return inst.render(); }, this._debugID, "render"), void 0 === renderedElement && inst.render._isMockFunction && (renderedElement = null), renderedElement; }, _renderValidatedComponent: function() { var renderedElement; if (0 && this._compositeType === ReactCompositeComponentTypes$1.StatelessFunctional) renderedElement = this._renderValidatedComponentWithoutOwnerOrContext(); else { ReactCurrentOwner$1.current = this; try { renderedElement = this._renderValidatedComponentWithoutOwnerOrContext(); } finally { ReactCurrentOwner$1.current = null; } } return invariant(null === renderedElement || !1 === renderedElement || React.isValidElement(renderedElement), "%s.render(): A valid React element (or null) must be returned. You may have " + "returned undefined, an array or some other invalid object.", this.getName() || "ReactCompositeComponent"), renderedElement; }, attachRef: function(ref, component) { var inst = this.getPublicInstance(); invariant(null != inst, "Stateless function components cannot have refs."); var publicComponentInstance = component.getPublicInstance(); (inst.refs === emptyObject ? inst.refs = {} : inst.refs)[ref] = publicComponentInstance; }, detachRef: function(ref) { delete this.getPublicInstance().refs[ref]; }, getName: function() { var type = this._currentElement.type, constructor = this._instance && this._instance.constructor; return type.displayName || constructor && constructor.displayName || type.name || constructor && constructor.name || null; }, getPublicInstance: function() { var inst = this._instance; return this._compositeType === ReactCompositeComponentTypes$1.StatelessFunctional ? null : inst; }, _instantiateReactComponent: null }, ReactCompositeComponent_1 = ReactCompositeComponent, emptyComponentFactory, ReactEmptyComponentInjection = { injectEmptyComponentFactory: function(factory) { emptyComponentFactory = factory; } }, ReactEmptyComponent = { create: function(instantiate) { return emptyComponentFactory(instantiate); } }; ReactEmptyComponent.injection = ReactEmptyComponentInjection; var ReactEmptyComponent_1 = ReactEmptyComponent, genericComponentClass = null, textComponentClass = null, ReactHostComponentInjection = { injectGenericComponentClass: function(componentClass) { genericComponentClass = componentClass; }, injectTextComponentClass: function(componentClass) { textComponentClass = componentClass; } }; function createInternalComponent(element) { return invariant(genericComponentClass, "There is no registered component for the tag %s", element.type), new genericComponentClass(element); } function createInstanceForText(text) { return new textComponentClass(text); } function isTextComponent(component) { return component instanceof textComponentClass; } var ReactHostComponent = { createInternalComponent: createInternalComponent, createInstanceForText: createInstanceForText, isTextComponent: isTextComponent, injection: ReactHostComponentInjection }, ReactHostComponent_1 = ReactHostComponent, nextDebugID = 1, ReactCompositeComponentWrapper = function(element) { this.construct(element); }; function getDeclarationErrorAddendum(owner) { if (owner) { var name = owner.getName(); if (name) return "\n\nCheck the render method of `" + name + "`."; } return ""; } function isInternalComponentType(type) { return "function" == typeof type && void 0 !== type.prototype && "function" == typeof type.prototype.mountComponent && "function" == typeof type.prototype.receiveComponent; } function instantiateReactComponent(node, shouldHaveDebugID) { var instance; if (null === node || !1 === node) instance = ReactEmptyComponent_1.create(instantiateReactComponent); else if ("object" == typeof node) { var element = node, type = element.type; if ("function" != typeof type && "string" != typeof type) { var info = ""; (void 0 === type || "object" == typeof type && null !== type && 0 === Object.keys(type).length) && (info += " You likely forgot to export your component from the file " + "it's defined in."), info += getDeclarationErrorAddendum(element._owner), invariant(!1, "Element type is invalid: expected a string (for built-in components) " + "or a class/function (for composite components) but got: %s.%s", null == type ? type : typeof type, info); } "string" == typeof element.type ? instance = ReactHostComponent_1.createInternalComponent(element) : isInternalComponentType(element.type) ? (instance = new element.type(element), instance.getHostNode || (instance.getHostNode = instance.getNativeNode)) : instance = new ReactCompositeComponentWrapper(element); } else "string" == typeof node || "number" == typeof node ? instance = ReactHostComponent_1.createInstanceForText(node) : invariant(!1, "Encountered invalid React node of type %s", typeof node); return warning("function" == typeof instance.mountComponent && "function" == typeof instance.receiveComponent && "function" == typeof instance.getHostNode && "function" == typeof instance.unmountComponent, "Only React Components can be mounted."), instance._mountIndex = 0, instance._mountImage = null, instance._debugID = shouldHaveDebugID ? nextDebugID++ : 0, Object.preventExtensions && Object.preventExtensions(instance), instance; } Object.assign(ReactCompositeComponentWrapper.prototype, ReactCompositeComponent_1, { _instantiateReactComponent: instantiateReactComponent }); var instantiateReactComponent_1 = instantiateReactComponent, DevOnlyStubShim = null, ReactNativeFeatureFlags = require("ReactNativeFeatureFlags"), ReactCurrentOwner$2 = ReactGlobalSharedState_1.ReactCurrentOwner, injectedFindNode = ReactNativeFeatureFlags.useFiber ? function(fiber) { return DevOnlyStubShim.findHostInstance(fiber); } : function(instance) { return instance; }; function findNodeHandle(componentOrHandle) { var owner = ReactCurrentOwner$2.current; if (null !== owner && (warning(owner._warnedAboutRefsInRender, "%s is accessing findNodeHandle inside its render(). " + "render() should be a pure function of props and state. It should " + "never access something that requires stale data from the previous " + "render, such as refs. Move this logic to componentDidMount and " + "componentDidUpdate instead.", owner.getName() || "A component"), owner._warnedAboutRefsInRender = !0), null == componentOrHandle) return null; if ("number" == typeof componentOrHandle) return componentOrHandle; var component = componentOrHandle, internalInstance = ReactInstanceMap_1.get(component); return internalInstance ? injectedFindNode(internalInstance) : component || (invariant("object" == typeof component && ("_rootNodeID" in component || "_nativeTag" in component) || null != component.render && "function" == typeof component.render, "findNodeHandle(...): Argument is not a component " + "(type: %s, keys: %s)", typeof component, Object.keys(component)), void invariant(!1, "findNodeHandle(...): Unable to find node handle for unmounted " + "component.")); } var findNodeHandle_1 = findNodeHandle, TopLevelWrapper = function() {}; TopLevelWrapper.prototype.isReactComponent = {}, TopLevelWrapper.displayName = "TopLevelWrapper", TopLevelWrapper.prototype.render = function() { return this.props.child; }, TopLevelWrapper.isReactTopLevelWrapper = !0; function mountComponentIntoNode(componentInstance, containerTag, transaction) { var markup = ReactReconciler_1.mountComponent(componentInstance, transaction, null, ReactNativeContainerInfo_1(containerTag), emptyObject, 0); componentInstance._renderedComponent._topLevelWrapper = componentInstance, ReactNativeMount._mountImageIntoNode(markup, containerTag); } function batchedMountComponentIntoNode(componentInstance, containerTag) { var transaction = ReactUpdates_1.ReactReconcileTransaction.getPooled(); transaction.perform(mountComponentIntoNode, null, componentInstance, containerTag, transaction), ReactUpdates_1.ReactReconcileTransaction.release(transaction); } var ReactNativeMount = { _instancesByContainerID: {}, findNodeHandle: findNodeHandle_1, renderComponent: function(nextElement, containerTag, callback) { var nextWrappedElement = React.createElement(TopLevelWrapper, { child: nextElement }), topRootNodeID = containerTag, prevComponent = ReactNativeMount._instancesByContainerID[topRootNodeID]; if (prevComponent) { var prevWrappedElement = prevComponent._currentElement, prevElement = prevWrappedElement.props.child; if (shouldUpdateReactComponent_1(prevElement, nextElement)) return ReactUpdateQueue_1.enqueueElementInternal(prevComponent, nextWrappedElement, emptyObject), callback && ReactUpdateQueue_1.enqueueCallbackInternal(prevComponent, callback), prevComponent; ReactNativeMount.unmountComponentAtNode(containerTag); } if (!ReactNativeTagHandles_1.reactTagIsNativeTopRootID(containerTag)) return console.error("You cannot render into anything but a top root"), null; ReactNativeTagHandles_1.assertRootTag(containerTag); var instance = instantiateReactComponent_1(nextWrappedElement, !1); if (ReactNativeMount._instancesByContainerID[containerTag] = instance, callback) { var nonNullCallback = callback; instance._pendingCallbacks = [ function() { nonNullCallback.call(instance._renderedComponent.getPublicInstance()); } ]; } return ReactUpdates_1.batchedUpdates(batchedMountComponentIntoNode, instance, containerTag), instance._renderedComponent.getPublicInstance(); }, _mountImageIntoNode: function(mountImage, containerID) { var childTag = mountImage; UIManager.setChildren(containerID, [ childTag ]); }, unmountComponentAtNodeAndRemoveContainer: function(containerTag) { ReactNativeMount.unmountComponentAtNode(containerTag), UIManager.removeRootView(containerTag); }, unmountComponentAtNode: function(containerTag) { if (!ReactNativeTagHandles_1.reactTagIsNativeTopRootID(containerTag)) return console.error("You cannot render into anything but a top root"), !1; var instance = ReactNativeMount._instancesByContainerID[containerTag]; return !!instance && (ReactInstrumentation.debugTool.onBeginFlush(), ReactNativeMount.unmountComponentFromNode(instance, containerTag), delete ReactNativeMount._instancesByContainerID[containerTag], ReactInstrumentation.debugTool.onEndFlush(), !0); }, unmountComponentFromNode: function(instance, containerID) { ReactReconciler_1.unmountComponent(instance), UIManager.removeSubviewsFromContainerWithID(containerID); } }, ReactNativeMount_1 = ReactNativeMount, RESET_BATCHED_UPDATES = { initialize: emptyFunction, close: function() { ReactDefaultBatchingStrategy.isBatchingUpdates = !1; } }, FLUSH_BATCHED_UPDATES = { initialize: emptyFunction, close: ReactUpdates_1.flushBatchedUpdates.bind(ReactUpdates_1) }, TRANSACTION_WRAPPERS$1 = [ FLUSH_BATCHED_UPDATES, RESET_BATCHED_UPDATES ]; function ReactDefaultBatchingStrategyTransaction() { this.reinitializeTransaction(); } Object.assign(ReactDefaultBatchingStrategyTransaction.prototype, Transaction, { getTransactionWrappers: function() { return TRANSACTION_WRAPPERS$1; } }); var transaction = new ReactDefaultBatchingStrategyTransaction(), ReactDefaultBatchingStrategy = { isBatchingUpdates: !1, batchedUpdates: function(callback, a, b, c, d, e) { var alreadyBatchingUpdates = ReactDefaultBatchingStrategy.isBatchingUpdates; return ReactDefaultBatchingStrategy.isBatchingUpdates = !0, alreadyBatchingUpdates ? callback(a, b, c, d, e) : transaction.perform(callback, null, a, b, c, d, e); } }, ReactDefaultBatchingStrategy_1 = ReactDefaultBatchingStrategy, dangerouslyProcessChildrenUpdates = function(inst, childrenUpdates) { if (childrenUpdates.length) { for (var moveFromIndices, moveToIndices, addChildTags, addAtIndices, removeAtIndices, containerTag = ReactNativeComponentTree_1.getNodeFromInstance(inst), i = 0; i < childrenUpdates.length; i++) { var update = childrenUpdates[i]; if ("MOVE_EXISTING" === update.type) (moveFromIndices || (moveFromIndices = [])).push(update.fromIndex), (moveToIndices || (moveToIndices = [])).push(update.toIndex); else if ("REMOVE_NODE" === update.type) (removeAtIndices || (removeAtIndices = [])).push(update.fromIndex); else if ("INSERT_MARKUP" === update.type) { var mountImage = update.content, tag = mountImage; (addAtIndices || (addAtIndices = [])).push(update.toIndex), (addChildTags || (addChildTags = [])).push(tag); } } UIManager.manageChildren(containerTag, moveFromIndices, moveToIndices, addChildTags, addAtIndices, removeAtIndices); } }, ReactNativeDOMIDOperations = { dangerouslyProcessChildrenUpdates: dangerouslyProcessChildrenUpdates, dangerouslyReplaceNodeWithMarkupByID: function(id, mountImage) { var oldTag = id; UIManager.replaceExistingNonRootView(oldTag, mountImage); } }, ReactNativeDOMIDOperations_1 = ReactNativeDOMIDOperations; function validateCallback(callback) { invariant(!callback || "function" == typeof callback, "Invalid argument passed as callback. Expected a function. Instead " + "received: %s", callback); } var validateCallback_1 = validateCallback; function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) throw new TypeError("Cannot call a class as a function"); } var CallbackQueue = function() { function CallbackQueue() { _classCallCheck(this, CallbackQueue), this._callbacks = null, this._contexts = null; } return CallbackQueue.prototype.enqueue = function(callback, context) { this._callbacks = this._callbacks || [], this._callbacks.push(callback), this._contexts = this._contexts || [], this._contexts.push(context); }, CallbackQueue.prototype.notifyAll = function() { var callbacks = this._callbacks, contexts = this._contexts; if (callbacks && contexts) { invariant(callbacks.length === contexts.length, "Mismatched list of contexts in callback queue"), this._callbacks = null, this._contexts = null; for (var i = 0; i < callbacks.length; i++) validateCallback_1(callbacks[i]), callbacks[i].call(contexts[i]); callbacks.length = 0, contexts.length = 0; } }, CallbackQueue.prototype.checkpoint = function() { return this._callbacks ? this._callbacks.length : 0; }, CallbackQueue.prototype.rollback = function(len) { this._callbacks && this._contexts && (this._callbacks.length = len, this._contexts.length = len); }, CallbackQueue.prototype.reset = function() { this._callbacks = null, this._contexts = null; }, CallbackQueue.prototype.destructor = function() { this.reset(); }, CallbackQueue; }(), CallbackQueue_1 = PooledClass_1.addPoolingTo(CallbackQueue), ON_DOM_READY_QUEUEING = { initialize: function() { this.reactMountReady.reset(); }, close: function() { this.reactMountReady.notifyAll(); } }, TRANSACTION_WRAPPERS$2 = [ ON_DOM_READY_QUEUEING ]; TRANSACTION_WRAPPERS$2.push({ initialize: ReactInstrumentation.debugTool.onBeginFlush, close: ReactInstrumentation.debugTool.onEndFlush }); function ReactNativeReconcileTransaction() { this.reinitializeTransaction(), this.reactMountReady = CallbackQueue_1.getPooled(); } var Mixin = { getTransactionWrappers: function() { return TRANSACTION_WRAPPERS$2; }, getReactMountReady: function() { return this.reactMountReady; }, getUpdateQueue: function() { return ReactUpdateQueue_1; }, checkpoint: function() { return this.reactMountReady.checkpoint(); }, rollback: function(checkpoint) { this.reactMountReady.rollback(checkpoint); }, destructor: function() { CallbackQueue_1.release(this.reactMountReady), this.reactMountReady = null; } }; Object.assign(ReactNativeReconcileTransaction.prototype, Transaction, ReactNativeReconcileTransaction, Mixin), PooledClass_1.addPoolingTo(ReactNativeReconcileTransaction); var ReactNativeReconcileTransaction_1 = ReactNativeReconcileTransaction, ReactNativeComponentEnvironment = { processChildrenUpdates: ReactNativeDOMIDOperations_1.dangerouslyProcessChildrenUpdates, replaceNodeWithMarkup: ReactNativeDOMIDOperations_1.dangerouslyReplaceNodeWithMarkupByID, clearNode: function() {}, ReactReconcileTransaction: ReactNativeReconcileTransaction_1 }, ReactNativeComponentEnvironment_1 = ReactNativeComponentEnvironment, ReactNativeTextComponent = function(text) { this._currentElement = text, this._stringText = "" + text, this._hostParent = null, this._rootNodeID = 0; }; Object.assign(ReactNativeTextComponent.prototype, { mountComponent: function(transaction, hostParent, hostContainerInfo, context) { invariant(context.isInAParentText, 'RawText "%s" must be wrapped in an explicit component.', this._stringText), this._hostParent = hostParent; var tag = ReactNativeTagHandles_1.allocateTag(); this._rootNodeID = tag; var nativeTopRootTag = hostContainerInfo._tag; return UIManager.createView(tag, "RCTRawText", nativeTopRootTag, { text: this._stringText }), ReactNativeComponentTree_1.precacheNode(this, tag), tag; }, getHostNode: function() { return this._rootNodeID; }, receiveComponent: function(nextText, transaction, context) { if (nextText !== this._currentElement) { this._currentElement = nextText; var nextStringText = "" + nextText; nextStringText !== this._stringText && (this._stringText = nextStringText, UIManager.updateView(this._rootNodeID, "RCTRawText", { text: this._stringText })); } }, unmountComponent: function() { ReactNativeComponentTree_1.uncacheNode(this), this._currentElement = null, this._stringText = null, this._rootNodeID = 0; } }); var ReactNativeTextComponent_1 = ReactNativeTextComponent, ReactSimpleEmptyComponent = function(placeholderElement, instantiate) { this._currentElement = null, this._renderedComponent = instantiate(placeholderElement); }; Object.assign(ReactSimpleEmptyComponent.prototype, { mountComponent: function(transaction, hostParent, hostContainerInfo, context, parentDebugID) { return ReactReconciler_1.mountComponent(this._renderedComponent, transaction, hostParent, hostContainerInfo, context, parentDebugID); }, receiveComponent: function() {}, getHostNode: function() { return ReactReconciler_1.getHostNode(this._renderedComponent); }, unmountComponent: function(safely, skipLifecycle) { ReactReconciler_1.unmountComponent(this._renderedComponent, safely, skipLifecycle), this._renderedComponent = null; } }); var ReactSimpleEmptyComponent_1 = ReactSimpleEmptyComponent; function inject$1() { ReactGenericBatching_1.injection.injectStackBatchedUpdates(ReactUpdates_1.batchedUpdates), ReactUpdates_1.injection.injectReconcileTransaction(ReactNativeComponentEnvironment_1.ReactReconcileTransaction), ReactUpdates_1.injection.injectBatchingStrategy(ReactDefaultBatchingStrategy_1), ReactComponentEnvironment_1.injection.injectEnvironment(ReactNativeComponentEnvironment_1); var EmptyComponent = function(instantiate) { var View = require("View"); return new ReactSimpleEmptyComponent_1(React.createElement(View, { collapsable: !0, style: { position: "absolute" } }), instantiate); }; ReactEmptyComponent_1.injection.injectEmptyComponentFactory(EmptyComponent), ReactHostComponent_1.injection.injectTextComponentClass(ReactNativeTextComponent_1), ReactHostComponent_1.injection.injectGenericComponentClass(function(tag) { var info = ""; "string" == typeof tag && /^[a-z]/.test(tag) && (info += " Each component name should start with an uppercase letter."), invariant(!1, "Expected a component class, got %s.%s", tag, info); }); } var ReactNativeStackInjection = { inject: inject$1 }; function getComponentName(instanceOrFiber) { if ("function" == typeof instanceOrFiber.getName) { return instanceOrFiber.getName(); } if ("number" == typeof instanceOrFiber.tag) { var fiber = instanceOrFiber, type = fiber.type; if ("string" == typeof type) return type; if ("function" == typeof type) return type.displayName || type.name; } return null; } var getComponentName_1 = getComponentName, getInspectorDataForViewTag = void 0, traverseOwnerTreeUp = function(hierarchy, instance) { instance && (hierarchy.unshift(instance), traverseOwnerTreeUp(hierarchy, instance._currentElement._owner)); }, getOwnerHierarchy = function(instance) { var hierarchy = []; return traverseOwnerTreeUp(hierarchy, instance), hierarchy; }, lastNotNativeInstance = function(hierarchy) { for (var i = hierarchy.length - 1; i > 1; i--) { var instance = hierarchy[i]; if (!instance.viewConfig) return instance; } return hierarchy[0]; }, getHostProps = function(component) { var instance = component._instance; return instance ? instance.props || emptyObject : emptyObject; }, createHierarchy = function(componentHierarchy) { return componentHierarchy.map(function(component) { return { name: getComponentName_1(component), getInspectorData: function() { return { measure: function(callback) { return UIManager.measure(component.getHostNode(), callback); }, props: getHostProps(component), source: component._currentElement && component._currentElement._source }; } }; }); }; getInspectorDataForViewTag = function(viewTag) { var component = ReactNativeComponentTree_1.getClosestInstanceFromNode(viewTag); if (!component) return { hierarchy: [], props: emptyObject, selection: null, source: null }; var componentHierarchy = getOwnerHierarchy(component), instance = lastNotNativeInstance(componentHierarchy), hierarchy = createHierarchy(componentHierarchy), props = getHostProps(instance), source = instance._currentElement && instance._currentElement._source; return { hierarchy: hierarchy, props: props, selection: componentHierarchy.indexOf(instance), source: source }; }; var ReactNativeStackInspector = { getInspectorDataForViewTag: getInspectorDataForViewTag }, findNumericNodeHandleStack = function(componentOrHandle) { var nodeHandle = findNodeHandle_1(componentOrHandle); return null == nodeHandle || "number" == typeof nodeHandle ? nodeHandle : nodeHandle.getHostNode(); }; function _classCallCheck$2(instance, Constructor) { if (!(instance instanceof Constructor)) throw new TypeError("Cannot call a class as a function"); } var objects = {}, uniqueID = 1, emptyObject$3 = {}, ReactNativePropRegistry = function() { function ReactNativePropRegistry() { _classCallCheck$2(this, ReactNativePropRegistry); } return ReactNativePropRegistry.register = function(object) { var id = ++uniqueID; return Object.freeze(object), objects[id] = object, id; }, ReactNativePropRegistry.getByID = function(id) { if (!id) return emptyObject$3; var object = objects[id]; return object || (console.warn("Invalid style with id `" + id + "`. Skipping ..."), emptyObject$3); }, ReactNativePropRegistry; }(), ReactNativePropRegistry_1 = ReactNativePropRegistry, emptyObject$2 = {}, removedKeys = null, removedKeyCount = 0; function defaultDiffer(prevProp, nextProp) { return "object" != typeof nextProp || null === nextProp || deepDiffer(prevProp, nextProp); } function resolveObject(idOrObject) { return "number" == typeof idOrObject ? ReactNativePropRegistry_1.getByID(idOrObject) : idOrObject; } function restoreDeletedValuesInNestedArray(updatePayload, node, validAttributes) { if (Array.isArray(node)) for (var i = node.length; i-- && removedKeyCount > 0; ) restoreDeletedValuesInNestedArray(updatePayload, node[i], validAttributes); else if (node && removedKeyCount > 0) { var obj = resolveObject(node); for (var propKey in removedKeys) if (removedKeys[propKey]) { var nextProp = obj[propKey]; if (void 0 !== nextProp) { var attributeConfig = validAttributes[propKey]; if (attributeConfig) { if ("function" == typeof nextProp && (nextProp = !0), void 0 === nextProp && (nextProp = null), "object" != typeof attributeConfig) updatePayload[propKey] = nextProp; else if ("function" == typeof attributeConfig.diff || "function" == typeof attributeConfig.process) { var nextValue = "function" == typeof attributeConfig.process ? attributeConfig.process(nextProp) : nextProp; updatePayload[propKey] = nextValue; } removedKeys[propKey] = !1, removedKeyCount--; } } } } } function diffNestedArrayProperty(updatePayload, prevArray, nextArray, validAttributes) { var i, minLength = prevArray.length < nextArray.length ? prevArray.length : nextArray.length; for (i = 0; i < minLength; i++) updatePayload = diffNestedProperty(updatePayload, prevArray[i], nextArray[i], validAttributes); for (;i < prevArray.length; i++) updatePayload = clearNestedProperty(updatePayload, prevArray[i], validAttributes); for (;i < nextArray.length; i++) updatePayload = addNestedProperty(updatePayload, nextArray[i], validAttributes); return updatePayload; } function diffNestedProperty(updatePayload, prevProp, nextProp, validAttributes) { return updatePayload || prevProp !== nextProp ? prevProp && nextProp ? Array.isArray(prevProp) || Array.isArray(nextProp) ? Array.isArray(prevProp) && Array.isArray(nextProp) ? diffNestedArrayProperty(updatePayload, prevProp, nextProp, validAttributes) : Array.isArray(prevProp) ? diffProperties(updatePayload, flattenStyle(prevProp), resolveObject(nextProp), validAttributes) : diffProperties(updatePayload, resolveObject(prevProp), flattenStyle(nextProp), validAttributes) : diffProperties(updatePayload, resolveObject(prevProp), resolveObject(nextProp), validAttributes) : nextProp ? addNestedProperty(updatePayload, nextProp, validAttributes) : prevProp ? clearNestedProperty(updatePayload, prevProp, validAttributes) : updatePayload : updatePayload; } function addNestedProperty(updatePayload, nextProp, validAttributes) { if (!nextProp) return updatePayload; if (!Array.isArray(nextProp)) return addProperties(updatePayload, resolveObject(nextProp), validAttributes); for (var i = 0; i < nextProp.length; i++) updatePayload = addNestedProperty(updatePayload, nextProp[i], validAttributes); return updatePayload; } function clearNestedProperty(updatePayload, prevProp, validAttributes) { if (!prevProp) return updatePayload; if (!Array.isArray(prevProp)) return clearProperties(updatePayload, resolveObject(prevProp), validAttributes); for (var i = 0; i < prevProp.length; i++) updatePayload = clearNestedProperty(updatePayload, prevProp[i], validAttributes); return updatePayload; } function diffProperties(updatePayload, prevProps, nextProps, validAttributes) { var attributeConfig, nextProp, prevProp; for (var propKey in nextProps) if (attributeConfig = validAttributes[propKey]) if (prevProp = prevProps[propKey], nextProp = nextProps[propKey], "function" == typeof nextProp && (nextProp = !0, "function" == typeof prevProp && (prevProp = !0)), void 0 === nextProp && (nextProp = null, void 0 === prevProp && (prevProp = null)), removedKeys && (removedKeys[propKey] = !1), updatePayload && void 0 !== updatePayload[propKey]) { if ("object" != typeof attributeConfig) updatePayload[propKey] = nextProp; else if ("function" == typeof attributeConfig.diff || "function" == typeof attributeConfig.process) { var nextValue = "function" == typeof attributeConfig.process ? attributeConfig.process(nextProp) : nextProp; updatePayload[propKey] = nextValue; } } else if (prevProp !== nextProp) if ("object" != typeof attributeConfig) defaultDiffer(prevProp, nextProp) && ((updatePayload || (updatePayload = {}))[propKey] = nextProp); else if ("function" == typeof attributeConfig.diff || "function" == typeof attributeConfig.process) { var shouldUpdate = void 0 === prevProp || ("function" == typeof attributeConfig.diff ? attributeConfig.diff(prevProp, nextProp) : defaultDiffer(prevProp, nextProp)); shouldUpdate && (nextValue = "function" == typeof attributeConfig.process ? attributeConfig.process(nextProp) : nextProp, (updatePayload || (updatePayload = {}))[propKey] = nextValue); } else removedKeys = null, removedKeyCount = 0, updatePayload = diffNestedProperty(updatePayload, prevProp, nextProp, attributeConfig), removedKeyCount > 0 && updatePayload && (restoreDeletedValuesInNestedArray(updatePayload, nextProp, attributeConfig), removedKeys = null); for (propKey in prevProps) void 0 === nextProps[propKey] && (attributeConfig = validAttributes[propKey]) && (updatePayload && void 0 !== updatePayload[propKey] || void 0 !== (prevProp = prevProps[propKey]) && ("object" != typeof attributeConfig || "function" == typeof attributeConfig.diff || "function" == typeof attributeConfig.process ? ((updatePayload || (updatePayload = {}))[propKey] = null, removedKeys || (removedKeys = {}), removedKeys[propKey] || (removedKeys[propKey] = !0, removedKeyCount++)) : updatePayload = clearNestedProperty(updatePayload, prevProp, attributeConfig))); return updatePayload; } function addProperties(updatePayload, props, validAttributes) { return diffProperties(updatePayload, emptyObject$2, props, validAttributes); } function clearProperties(updatePayload, prevProps, validAttributes) { return diffProperties(updatePayload, prevProps, emptyObject$2, validAttributes); } var ReactNativeAttributePayload = { create: function(props, validAttributes) { return addProperties(null, props, validAttributes); }, diff: function(prevProps, nextProps, validAttributes) { return diffProperties(null, prevProps, nextProps, validAttributes); } }, ReactNativeAttributePayload_1 = ReactNativeAttributePayload; function mountSafeCallback$1(context, callback) { return function() { if (callback) { if ("boolean" == typeof context.__isMounted) { if (!context.__isMounted) return; } else if ("function" == typeof context.isMounted && !context.isMounted()) return; return callback.apply(context, arguments); } }; } function throwOnStylesProp(component, props) { if (void 0 !== props.styles) { var owner = component._owner || null, name = component.constructor.displayName, msg = "`styles` is not a supported property of `" + name + "`, did " + "you mean `style` (singular)?"; throw owner && owner.constructor && owner.constructor.displayName && (msg += "\n\nCheck the `" + owner.constructor.displayName + "` parent " + " component."), new Error(msg); } } function warnForStyleProps(props, validAttributes) { for (var key in validAttributes.style) validAttributes[key] || void 0 === props[key] || console.error("You are setting the style `{ " + key + ": ... }` as a prop. You " + "should nest it in a style object. " + "E.g. `{ style: { " + key + ": ... } }`"); } var NativeMethodsMixinUtils = { mountSafeCallback: mountSafeCallback$1, throwOnStylesProp: throwOnStylesProp, warnForStyleProps: warnForStyleProps }; function _classCallCheck$1(instance, Constructor) { if (!(instance instanceof Constructor)) throw new TypeError("Cannot call a class as a function"); } function _possibleConstructorReturn(self, call) { if (!self) throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); return !call || "object" != typeof call && "function" != typeof call ? self : call; } function _inherits(subClass, superClass) { if ("function" != typeof superClass && null !== superClass) throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: !1, writable: !0, configurable: !0 } }), superClass && (Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : subClass.__proto__ = superClass); } var ReactNativeFeatureFlags$1 = require("ReactNativeFeatureFlags"), mountSafeCallback = NativeMethodsMixinUtils.mountSafeCallback, findNumericNodeHandle = ReactNativeFeatureFlags$1.useFiber ? DevOnlyStubShim : findNumericNodeHandleStack, ReactNativeComponent = function(_React$Component) { _inherits(ReactNativeComponent, _React$Component); function ReactNativeComponent() { return _classCallCheck$1(this, ReactNativeComponent), _possibleConstructorReturn(this, _React$Component.apply(this, arguments)); } return ReactNativeComponent.prototype.blur = function() { TextInputState.blurTextInput(findNumericNodeHandle(this)); }, ReactNativeComponent.prototype.focus = function() { TextInputState.focusTextInput(findNumericNodeHandle(this)); }, ReactNativeComponent.prototype.measure = function(callback) { UIManager.measure(findNumericNodeHandle(this), mountSafeCallback(this, callback)); }, ReactNativeComponent.prototype.measureInWindow = function(callback) { UIManager.measureInWindow(findNumericNodeHandle(this), mountSafeCallback(this, callback)); }, ReactNativeComponent.prototype.measureLayout = function(relativeToNativeNode, onSuccess, onFail) { UIManager.measureLayout(findNumericNodeHandle(this), relativeToNativeNode, mountSafeCallback(this, onFail), mountSafeCallback(this, onSuccess)); }, ReactNativeComponent.prototype.setNativeProps = function(nativeProps) { injectedSetNativeProps(this, nativeProps); }, ReactNativeComponent; }(React.Component); function setNativePropsFiber(componentOrHandle, nativeProps) { var maybeInstance = void 0; try { maybeInstance = findNodeHandle_1(componentOrHandle); } catch (error) {} if (null != maybeInstance) { var viewConfig = maybeInstance.viewConfig, updatePayload = ReactNativeAttributePayload_1.create(nativeProps, viewConfig.validAttributes); UIManager.updateView(maybeInstance._nativeTag, viewConfig.uiViewClassName, updatePayload); } } function setNativePropsStack(componentOrHandle, nativeProps) { var maybeInstance = findNodeHandle_1(componentOrHandle); if (null != maybeInstance) { var viewConfig = void 0; if (void 0 !== maybeInstance.viewConfig) viewConfig = maybeInstance.viewConfig; else if (void 0 !== maybeInstance._instance && void 0 !== maybeInstance._instance.viewConfig) viewConfig = maybeInstance._instance.viewConfig; else { for (;void 0 !== maybeInstance._renderedComponent; ) maybeInstance = maybeInstance._renderedComponent; viewConfig = maybeInstance.viewConfig; } var tag = "function" == typeof maybeInstance.getHostNode ? maybeInstance.getHostNode() : maybeInstance._rootNodeID, updatePayload = ReactNativeAttributePayload_1.create(nativeProps, viewConfig.validAttributes); UIManager.updateView(tag, viewConfig.uiViewClassName, updatePayload); } } var injectedSetNativeProps = void 0; injectedSetNativeProps = ReactNativeFeatureFlags$1.useFiber ? setNativePropsFiber : setNativePropsStack; var ReactNativeComponent_1 = ReactNativeComponent, ReactNativeFeatureFlags$2 = require("ReactNativeFeatureFlags"), mountSafeCallback$2 = NativeMethodsMixinUtils.mountSafeCallback, throwOnStylesProp$1 = NativeMethodsMixinUtils.throwOnStylesProp, warnForStyleProps$1 = NativeMethodsMixinUtils.warnForStyleProps, findNumericNodeHandle$1 = ReactNativeFeatureFlags$2.useFiber ? DevOnlyStubShim : findNumericNodeHandleStack, NativeMethodsMixin = { measure: function(callback) { UIManager.measure(findNumericNodeHandle$1(this), mountSafeCallback$2(this, callback)); }, measureInWindow: function(callback) { UIManager.measureInWindow(findNumericNodeHandle$1(this), mountSafeCallback$2(this, callback)); }, measureLayout: function(relativeToNativeNode, onSuccess, onFail) { UIManager.measureLayout(findNumericNodeHandle$1(this), relativeToNativeNode, mountSafeCallback$2(this, onFail), mountSafeCallback$2(this, onSuccess)); }, setNativeProps: function(nativeProps) { injectedSetNativeProps$1(this, nativeProps); }, focus: function() { TextInputState.focusTextInput(findNumericNodeHandle$1(this)); }, blur: function() { TextInputState.blurTextInput(findNumericNodeHandle$1(this)); } }; function setNativePropsFiber$1(componentOrHandle, nativeProps) { var maybeInstance = void 0; try { maybeInstance = findNodeHandle_1(componentOrHandle); } catch (error) {} if (null != maybeInstance) { var viewConfig = maybeInstance.viewConfig; warnForStyleProps$1(nativeProps, viewConfig.validAttributes); var updatePayload = ReactNativeAttributePayload_1.create(nativeProps, viewConfig.validAttributes); UIManager.updateView(maybeInstance._nativeTag, viewConfig.uiViewClassName, updatePayload); } } function setNativePropsStack$1(componentOrHandle, nativeProps) { var maybeInstance = findNodeHandle_1(componentOrHandle); if (null != maybeInstance) { var viewConfig = void 0; if (void 0 !== maybeInstance.viewConfig) viewConfig = maybeInstance.viewConfig; else if (void 0 !== maybeInstance._instance && void 0 !== maybeInstance._instance.viewConfig) viewConfig = maybeInstance._instance.viewConfig; else { for (;void 0 !== maybeInstance._renderedComponent; ) maybeInstance = maybeInstance._renderedComponent; viewConfig = maybeInstance.viewConfig; } var tag = "function" == typeof maybeInstance.getHostNode ? maybeInstance.getHostNode() : maybeInstance._rootNodeID; warnForStyleProps$1(nativeProps, viewConfig.validAttributes); var updatePayload = ReactNativeAttributePayload_1.create(nativeProps, viewConfig.validAttributes); UIManager.updateView(tag, viewConfig.uiViewClassName, updatePayload); } } var injectedSetNativeProps$1 = void 0; injectedSetNativeProps$1 = ReactNativeFeatureFlags$2.useFiber ? setNativePropsFiber$1 : setNativePropsStack$1; var NativeMethodsMixin_DEV = NativeMethodsMixin; invariant(!NativeMethodsMixin_DEV.componentWillMount && !NativeMethodsMixin_DEV.componentWillReceiveProps, "Do not override existing functions."), NativeMethodsMixin_DEV.componentWillMount = function() { throwOnStylesProp$1(this, this.props); }, NativeMethodsMixin_DEV.componentWillReceiveProps = function(newProps) { throwOnStylesProp$1(this, newProps); }; var NativeMethodsMixin_1 = NativeMethodsMixin, TouchHistoryMath = { centroidDimension: function(touchHistory, touchesChangedAfter, isXAxis, ofCurrent) { var touchBank = touchHistory.touchBank, total = 0, count = 0, oneTouchData = 1 === touchHistory.numberActiveTouches ? touchHistory.touchBank[touchHistory.indexOfSingleActiveTouch] : null; if (null !== oneTouchData) oneTouchData.touchActive && oneTouchData.currentTimeStamp > touchesChangedAfter && (total += ofCurrent && isXAxis ? oneTouchData.currentPageX : ofCurrent && !isXAxis ? oneTouchData.currentPageY : !ofCurrent && isXAxis ? oneTouchData.previousPageX : oneTouchData.previousPageY, count = 1); else for (var i = 0; i < touchBank.length; i++) { var touchTrack = touchBank[i]; if (null !== touchTrack && void 0 !== touchTrack && touchTrack.touchActive && touchTrack.currentTimeStamp >= touchesChangedAfter) { var toAdd; toAdd = ofCurrent && isXAxis ? touchTrack.currentPageX : ofCurrent && !isXAxis ? touchTrack.currentPageY : !ofCurrent && isXAxis ? touchTrack.previousPageX : touchTrack.previousPageY, total += toAdd, count++; } } return count > 0 ? total / count : TouchHistoryMath.noCentroid; }, currentCentroidXOfTouchesChangedAfter: function(touchHistory, touchesChangedAfter) { return TouchHistoryMath.centroidDimension(touchHistory, touchesChangedAfter, !0, !0); }, currentCentroidYOfTouchesChangedAfter: function(touchHistory, touchesChangedAfter) { return TouchHistoryMath.centroidDimension(touchHistory, touchesChangedAfter, !1, !0); }, previousCentroidXOfTouchesChangedAfter: function(touchHistory, touchesChangedAfter) { return TouchHistoryMath.centroidDimension(touchHistory, touchesChangedAfter, !0, !1); }, previousCentroidYOfTouchesChangedAfter: function(touchHistory, touchesChangedAfter) { return TouchHistoryMath.centroidDimension(touchHistory, touchesChangedAfter, !1, !1); }, currentCentroidX: function(touchHistory) { return TouchHistoryMath.centroidDimension(touchHistory, 0, !0, !0); }, currentCentroidY: function(touchHistory) { return TouchHistoryMath.centroidDimension(touchHistory, 0, !1, !0); }, noCentroid: -1 }, TouchHistoryMath_1 = TouchHistoryMath; function escape(key) { var escaperLookup = { "=": "=0", ":": "=2" }; return "$" + ("" + key).replace(/[=:]/g, function(match) { return escaperLookup[match]; }); } var unescapeInDev = emptyFunction; unescapeInDev = function(key) { var unescapeRegex = /(=0|=2)/g, unescaperLookup = { "=0": "=", "=2": ":" }; return ("" + ("." === key[0] && "$" === key[1] ? key.substring(2) : key.substring(1))).replace(unescapeRegex, function(match) { return unescaperLookup[match]; }); }; var KeyEscapeUtils = { escape: escape, unescapeInDev: unescapeInDev }, KeyEscapeUtils_1 = KeyEscapeUtils, ITERATOR_SYMBOL = "function" == typeof Symbol && Symbol.iterator, FAUX_ITERATOR_SYMBOL = "@@iterator", REACT_ELEMENT_TYPE = "function" == typeof Symbol && Symbol.for && Symbol.for("react.element") || 60103, getCurrentStackAddendum = ReactGlobalSharedState_1.ReactComponentTreeHook.getCurrentStackAddendum, SEPARATOR = ".", SUBSEPARATOR = ":", didWarnAboutMaps = !1; function getComponentKey(component, index) { return component && "object" == typeof component && null != component.key ? KeyEscapeUtils_1.escape(component.key) : index.toString(36); } function traverseStackChildrenImpl(children, nameSoFar, callback, traverseContext) { var type = typeof children; if ("undefined" !== type && "boolean" !== type || (children = null), null === children || "string" === type || "number" === type || "object" === type && children.$$typeof === REACT_ELEMENT_TYPE) return callback(traverseContext, children, "" === nameSoFar ? SEPARATOR + getComponentKey(children, 0) : nameSoFar), 1; var child, nextName, subtreeCount = 0, nextNamePrefix = "" === nameSoFar ? SEPARATOR : nameSoFar + SUBSEPARATOR; if (Array.isArray(children)) for (var i = 0; i < children.length; i++) child = children[i], nextName = nextNamePrefix + getComponentKey(child, i), subtreeCount += traverseStackChildrenImpl(child, nextName, callback, traverseContext); else { var iteratorFn = ITERATOR_SYMBOL && children[ITERATOR_SYMBOL] || children[FAUX_ITERATOR_SYMBOL]; if ("function" == typeof iteratorFn) { iteratorFn === children.entries && (warning(didWarnAboutMaps, "Using Maps as children is unsupported and will likely yield " + "unexpected results. Convert it to a sequence/iterable of keyed " + "ReactElements instead.%s", getCurrentStackAddendum()), didWarnAboutMaps = !0); for (var step, iterator = iteratorFn.call(children), ii = 0; !(step = iterator.next()).done; ) child = step.value, nextName = nextNamePrefix + getComponentKey(child, ii++), subtreeCount += traverseStackChildrenImpl(child, nextName, callback, traverseContext); } else if ("object" === type) { var addendum = ""; addendum = " If you meant to render a collection of children, use an array " + "instead." + getCurrentStackAddendum(); var childrenString = "" + children; invariant(!1, "Objects are not valid as a React child (found: %s).%s", "[object Object]" === childrenString ? "object with keys {" + Object.keys(children).join(", ") + "}" : childrenString, addendum); } } return subtreeCount; } function traverseStackChildren(children, callback, traverseContext) { return null == children ? 0 : traverseStackChildrenImpl(children, "", callback, traverseContext); } var traverseStackChildren_1 = traverseStackChildren, ReactComponentTreeHook$2; "undefined" != typeof process && process.env && "development" == "test" && (ReactComponentTreeHook$2 = ReactGlobalSharedState_1.ReactComponentTreeHook); function instantiateChild(childInstances, child, name, selfDebugID) { var keyUnique = void 0 === childInstances[name]; ReactComponentTreeHook$2 || (ReactComponentTreeHook$2 = ReactGlobalSharedState_1.ReactComponentTreeHook), keyUnique || warning(!1, "flattenChildren(...):" + "Encountered two children with the same key, `%s`. " + "Keys should be unique so that components maintain their identity " + "across updates. Non-unique keys may cause children to be " + "duplicated and/or omitted — the behavior is unsupported and " + "could change in a future version.%s", KeyEscapeUtils_1.unescapeInDev(name), ReactComponentTreeHook$2.getStackAddendumByID(selfDebugID)), null != child && keyUnique && (childInstances[name] = instantiateReactComponent_1(child, !0)); } var ReactChildReconciler = { instantiateChildren: function(nestedChildNodes, transaction, context, selfDebugID) { if (null == nestedChildNodes) return null; var childInstances = {}; return traverseStackChildren_1(nestedChildNodes, function(childInsts, child, name) { return instantiateChild(childInsts, child, name, selfDebugID); }, childInstances), childInstances; }, updateChildren: function(prevChildren, nextChildren, mountImages, removedNodes, transaction, hostParent, hostContainerInfo, context, selfDebugID) { if (nextChildren || prevChildren) { var name, prevChild; for (name in nextChildren) if (nextChildren.hasOwnProperty(name)) { prevChild = prevChildren && prevChildren[name]; var prevElement = prevChild && prevChild._currentElement, nextElement = nextChildren[name]; if (null != prevChild && shouldUpdateReactComponent_1(prevElement, nextElement)) ReactReconciler_1.receiveComponent(prevChild, nextElement, transaction, context), nextChildren[name] = prevChild; else { var nextChildInstance = instantiateReactComponent_1(nextElement, !0); nextChildren[name] = nextChildInstance; var nextChildMountImage = ReactReconciler_1.mountComponent(nextChildInstance, transaction, hostParent, hostContainerInfo, context, selfDebugID); mountImages.push(nextChildMountImage), prevChild && (removedNodes[name] = ReactReconciler_1.getHostNode(prevChild), ReactReconciler_1.unmountComponent(prevChild, !1, !1)); } } for (name in prevChildren) !prevChildren.hasOwnProperty(name) || nextChildren && nextChildren.hasOwnProperty(name) || (prevChild = prevChildren[name], removedNodes[name] = ReactReconciler_1.getHostNode(prevChild), ReactReconciler_1.unmountComponent(prevChild, !1, !1)); } }, unmountChildren: function(renderedChildren, safely, skipLifecycle) { for (var name in renderedChildren) if (renderedChildren.hasOwnProperty(name)) { var renderedChild = renderedChildren[name]; ReactReconciler_1.unmountComponent(renderedChild, safely, skipLifecycle); } } }, ReactChildReconciler_1 = ReactChildReconciler, ReactComponentTreeHook$3; "undefined" != typeof process && process.env && "development" == "test" && (ReactComponentTreeHook$3 = ReactGlobalSharedState_1.ReactComponentTreeHook); function flattenSingleChildIntoContext(traverseContext, child, name, selfDebugID) { if (traverseContext && "object" == typeof traverseContext) { var result = traverseContext, keyUnique = void 0 === result[name]; ReactComponentTreeHook$3 || (ReactComponentTreeHook$3 = ReactGlobalSharedState_1.ReactComponentTreeHook), keyUnique || warning(!1, "flattenChildren(...): Encountered two children with the same key, " + "`%s`. " + "Keys should be unique so that components maintain their identity " + "across updates. Non-unique keys may cause children to be " + "duplicated and/or omitted — the behavior is unsupported and " + "could change in a future version.%s", KeyEscapeUtils_1.unescapeInDev(name), ReactComponentTreeHook$3.getStackAddendumByID(selfDebugID)), keyUnique && null != child && (result[name] = child); } } function flattenStackChildren(children, selfDebugID) { if (null == children) return children; var result = {}; return traverseStackChildren_1(children, function(traverseContext, child, name) { return flattenSingleChildIntoContext(traverseContext, child, name, selfDebugID); }, result), result; } var flattenStackChildren_1 = flattenStackChildren, ReactCurrentOwner$3 = ReactGlobalSharedState_1.ReactCurrentOwner; function makeInsertMarkup(markup, afterNode, toIndex) { return { type: "INSERT_MARKUP", content: markup, fromIndex: null, fromNode: null, toIndex: toIndex, afterNode: afterNode }; } function makeMove(child, afterNode, toIndex) { return { type: "MOVE_EXISTING", content: null, fromIndex: child._mountIndex, fromNode: ReactReconciler_1.getHostNode(child), toIndex: toIndex, afterNode: afterNode }; } function makeRemove(child, node) { return { type: "REMOVE_NODE", content: null, fromIndex: child._mountIndex, fromNode: node, toIndex: null, afterNode: null }; } function makeSetMarkup(markup) { return { type: "SET_MARKUP", content: markup, fromIndex: null, fromNode: null, toIndex: null, afterNode: null }; } function makeTextContent(textContent) { return { type: "TEXT_CONTENT", content: textContent, fromIndex: null, fromNode: null, toIndex: null, afterNode: null }; } function enqueue(queue, update) { return update && (queue = queue || [], queue.push(update)), queue; } function processQueue(inst, updateQueue) { ReactComponentEnvironment_1.processChildrenUpdates(inst, updateQueue); } var setChildrenForInstrumentation = emptyFunction, getDebugID = function(inst) { if (!inst._debugID) { var internal; (internal = ReactInstanceMap_1.get(inst)) && (inst = internal); } return inst._debugID; }; setChildrenForInstrumentation = function(children) { var debugID = getDebugID(this); 0 !== debugID && ReactInstrumentation.debugTool.onSetChildren(debugID, children ? Object.keys(children).map(function(key) { return children[key]._debugID; }) : []); }; var ReactMultiChild = { _reconcilerInstantiateChildren: function(nestedChildren, transaction, context) { var selfDebugID = getDebugID(this); if (this._currentElement) try { return ReactCurrentOwner$3.current = this._currentElement._owner, ReactChildReconciler_1.instantiateChildren(nestedChildren, transaction, context, selfDebugID); } finally { ReactCurrentOwner$3.current = null; } return ReactChildReconciler_1.instantiateChildren(nestedChildren, transaction, context); }, _reconcilerUpdateChildren: function(prevChildren, nextNestedChildrenElements, mountImages, removedNodes, transaction, context) { var nextChildren, selfDebugID = 0; if (selfDebugID = getDebugID(this), this._currentElement) { try { ReactCurrentOwner$3.current = this._currentElement._owner, nextChildren = flattenStackChildren_1(nextNestedChildrenElements, selfDebugID); } finally { ReactCurrentOwner$3.current = null; } return ReactChildReconciler_1.updateChildren(prevChildren, nextChildren, mountImages, removedNodes, transaction, this, this._hostContainerInfo, context, selfDebugID), nextChildren; } return nextChildren = flattenStackChildren_1(nextNestedChildrenElements, selfDebugID), ReactChildReconciler_1.updateChildren(prevChildren, nextChildren, mountImages, removedNodes, transaction, this, this._hostContainerInfo, context, selfDebugID), nextChildren; }, mountChildren: function(nestedChildren, transaction, context) { var children = this._reconcilerInstantiateChildren(nestedChildren, transaction, context); this._renderedChildren = children; var mountImages = [], index = 0; for (var name in children) if (children.hasOwnProperty(name)) { var child = children[name], selfDebugID = 0; selfDebugID = getDebugID(this); var mountImage = ReactReconciler_1.mountComponent(child, transaction, this, this._hostContainerInfo, context, selfDebugID); child._mountIndex = index++, mountImages.push(mountImage); } return setChildrenForInstrumentation.call(this, children), mountImages; }, updateTextContent: function(nextContent) { var prevChildren = this._renderedChildren; ReactChildReconciler_1.unmountChildren(prevChildren, !1, !1); for (var name in prevChildren) prevChildren.hasOwnProperty(name) && invariant(!1, "updateTextContent called on non-empty component."); processQueue(this, [ makeTextContent(nextContent) ]); }, updateMarkup: function(nextMarkup) { var prevChildren = this._renderedChildren; ReactChildReconciler_1.unmountChildren(prevChildren, !1, !1); for (var name in prevChildren) prevChildren.hasOwnProperty(name) && invariant(!1, "updateTextContent called on non-empty component."); processQueue(this, [ makeSetMarkup(nextMarkup) ]); }, updateChildren: function(nextNestedChildrenElements, transaction, context) { this._updateChildren(nextNestedChildrenElements, transaction, context); }, _updateChildren: function(nextNestedChildrenElements, transaction, context) { var prevChildren = this._renderedChildren, removedNodes = {}, mountImages = [], nextChildren = this._reconcilerUpdateChildren(prevChildren, nextNestedChildrenElements, mountImages, removedNodes, transaction, context); if (nextChildren || prevChildren) { var name, updates = null, nextIndex = 0, lastIndex = 0, nextMountIndex = 0, lastPlacedNode = null; for (name in nextChildren) if (nextChildren.hasOwnProperty(name)) { var prevChild = prevChildren && prevChildren[name], nextChild = nextChildren[name]; prevChild === nextChild ? (updates = enqueue(updates, this.moveChild(prevChild, lastPlacedNode, nextIndex, lastIndex)), lastIndex = Math.max(prevChild._mountIndex, lastIndex), prevChild._mountIndex = nextIndex) : (prevChild && (lastIndex = Math.max(prevChild._mountIndex, lastIndex)), updates = enqueue(updates, this._mountChildAtIndex(nextChild, mountImages[nextMountIndex], lastPlacedNode, nextIndex, transaction, context)), nextMountIndex++), nextIndex++, lastPlacedNode = ReactReconciler_1.getHostNode(nextChild); } for (name in removedNodes) removedNodes.hasOwnProperty(name) && (updates = enqueue(updates, this._unmountChild(prevChildren[name], removedNodes[name]))); updates && processQueue(this, updates), this._renderedChildren = nextChildren, setChildrenForInstrumentation.call(this, nextChildren); } }, unmountChildren: function(safely, skipLifecycle) { var renderedChildren = this._renderedChildren; ReactChildReconciler_1.unmountChildren(renderedChildren, safely, skipLifecycle), this._renderedChildren = null; }, moveChild: function(child, afterNode, toIndex, lastIndex) { if (child._mountIndex < lastIndex) return makeMove(child, afterNode, toIndex); }, createChild: function(child, afterNode, mountImage) { return makeInsertMarkup(mountImage, afterNode, child._mountIndex); }, removeChild: function(child, node) { return makeRemove(child, node); }, _mountChildAtIndex: function(child, mountImage, afterNode, index, transaction, context) { return child._mountIndex = index, this.createChild(child, afterNode, mountImage); }, _unmountChild: function(child, node) { var update = this.removeChild(child, node); return child._mountIndex = null, update; } }, ReactMultiChild_1 = ReactMultiChild, ReactNativeBaseComponent = function(viewConfig) { this.viewConfig = viewConfig; }; ReactNativeBaseComponent.Mixin = { getPublicInstance: function() { return this; }, unmountComponent: function(safely, skipLifecycle) { ReactNativeComponentTree_1.uncacheNode(this), this.unmountChildren(safely, skipLifecycle), this._rootNodeID = 0; }, initializeChildren: function(children, containerTag, transaction, context) { var mountImages = this.mountChildren(children, transaction, context); if (mountImages.length) { for (var createdTags = [], i = 0, l = mountImages.length; i < l; i++) { var mountImage = mountImages[i], childTag = mountImage; createdTags[i] = childTag; } UIManager.setChildren(containerTag, createdTags); } }, receiveComponent: function(nextElement, transaction, context) { var prevElement = this._currentElement; this._currentElement = nextElement; for (var key in this.viewConfig.validAttributes) nextElement.props.hasOwnProperty(key) && deepFreezeAndThrowOnMutationInDev(nextElement.props[key]); var updatePayload = ReactNativeAttributePayload_1.diff(prevElement.props, nextElement.props, this.viewConfig.validAttributes); updatePayload && UIManager.updateView(this._rootNodeID, this.viewConfig.uiViewClassName, updatePayload), this.updateChildren(nextElement.props.children, transaction, context); }, getName: function() { return this.constructor.displayName || this.constructor.name || "Unknown"; }, getHostNode: function() { return this._rootNodeID; }, mountComponent: function(transaction, hostParent, hostContainerInfo, context) { var tag = ReactNativeTagHandles_1.allocateTag(); this._rootNodeID = tag, this._hostParent = hostParent, this._hostContainerInfo = hostContainerInfo; for (var key in this.viewConfig.validAttributes) this._currentElement.props.hasOwnProperty(key) && deepFreezeAndThrowOnMutationInDev(this._currentElement.props[key]); var updatePayload = ReactNativeAttributePayload_1.create(this._currentElement.props, this.viewConfig.validAttributes), nativeTopRootTag = hostContainerInfo._tag; return UIManager.createView(tag, this.viewConfig.uiViewClassName, nativeTopRootTag, updatePayload), ReactNativeComponentTree_1.precacheNode(this, tag), this.initializeChildren(this._currentElement.props.children, tag, transaction, context), tag; } }, Object.assign(ReactNativeBaseComponent.prototype, ReactMultiChild_1, ReactNativeBaseComponent.Mixin, NativeMethodsMixin_1); var ReactNativeBaseComponent_1 = ReactNativeBaseComponent, createReactNativeComponentClassStack = function(viewConfig) { var Constructor = function(element) { this._currentElement = element, this._topLevelWrapper = null, this._hostParent = null, this._hostContainerInfo = null, this._rootNodeID = 0, this._renderedChildren = null; }; return Constructor.displayName = viewConfig.uiViewClassName, Constructor.viewConfig = viewConfig, Constructor.propTypes = viewConfig.propTypes, Constructor.prototype = new ReactNativeBaseComponent_1(viewConfig), Constructor.prototype.constructor = Constructor, Constructor; }, createReactNativeComponentClassStack_1 = createReactNativeComponentClassStack, ReactNativeFeatureFlags$3 = require("ReactNativeFeatureFlags"), createReactNativeComponentClass = ReactNativeFeatureFlags$3.useFiber ? DevOnlyStubShim : createReactNativeComponentClassStack_1, ReactNativeFeatureFlags$4 = require("ReactNativeFeatureFlags"), findNumericNodeHandle$2 = ReactNativeFeatureFlags$4.useFiber ? DevOnlyStubShim : findNumericNodeHandleStack; function takeSnapshot(view, options) { return "number" != typeof view && "window" !== view && (view = findNumericNodeHandle$2(view) || "window"), UIManager.__takeSnapshot(view, options); } var takeSnapshot_1 = takeSnapshot, lowPriorityWarning = function() {}, printWarning = function(format) { for (var _len = arguments.length, args = Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) args[_key - 1] = arguments[_key]; var argIndex = 0, message = "Warning: " + format.replace(/%s/g, function() { return args[argIndex++]; }); "undefined" != typeof console && console.warn(message); try { throw new Error(message); } catch (x) {} }; lowPriorityWarning = function(condition, format) { if (void 0 === format) throw new Error("`warning(condition, format, ...args)` requires a warning " + "message argument"); if (!condition) { for (var _len2 = arguments.length, args = Array(_len2 > 2 ? _len2 - 2 : 0), _key2 = 2; _key2 < _len2; _key2++) args[_key2 - 2] = arguments[_key2]; printWarning.apply(void 0, [ format ].concat(args)); } }; var lowPriorityWarning_1 = lowPriorityWarning, _extends$2 = Object.assign || function(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) Object.prototype.hasOwnProperty.call(source, key) && (target[key] = source[key]); } return target; }; function roundFloat(val) { var base = arguments.length > 1 && void 0 !== arguments[1] ? arguments[1] : 2, n = Math.pow(10, base); return Math.floor(val * n) / n; } function consoleTable(table) { console.table(table); } function getLastMeasurements() { return ReactDebugTool_1.getFlushHistory(); } function getExclusive() { var flushHistory = arguments.length > 0 && void 0 !== arguments[0] ? arguments[0] : getLastMeasurements(), aggregatedStats = {}, affectedIDs = {}; function updateAggregatedStats(treeSnapshot, instanceID, timerType, applyUpdate) { var displayName = treeSnapshot[instanceID].displayName, key = displayName, stats = aggregatedStats[key]; stats || (affectedIDs[key] = {}, stats = aggregatedStats[key] = { key: key, instanceCount: 0, counts: {}, durations: {}, totalDuration: 0 }), stats.durations[timerType] || (stats.durations[timerType] = 0), stats.counts[timerType] || (stats.counts[timerType] = 0), affectedIDs[key][instanceID] = !0, applyUpdate(stats); } return flushHistory.forEach(function(flush) { var measurements = flush.measurements, treeSnapshot = flush.treeSnapshot; measurements.forEach(function(measurement) { var duration = measurement.duration, instanceID = measurement.instanceID, timerType = measurement.timerType; updateAggregatedStats(treeSnapshot, instanceID, timerType, function(stats) { stats.totalDuration += duration, stats.durations[timerType] += duration, stats.counts[timerType]++; }); }); }), Object.keys(aggregatedStats).map(function(key) { return _extends$2({}, aggregatedStats[key], { instanceCount: Object.keys(affectedIDs[key]).length }); }).sort(function(a, b) { return b.totalDuration - a.totalDuration; }); } function getInclusive() { var flushHistory = arguments.length > 0 && void 0 !== arguments[0] ? arguments[0] : getLastMeasurements(), aggregatedStats = {}, affectedIDs = {}; function updateAggregatedStats(treeSnapshot, instanceID, applyUpdate) { var _treeSnapshot$instanc = treeSnapshot[instanceID], displayName = _treeSnapshot$instanc.displayName, ownerID = _treeSnapshot$instanc.ownerID, owner = treeSnapshot[ownerID], key = (owner ? owner.displayName + " > " : "") + displayName, stats = aggregatedStats[key]; stats || (affectedIDs[key] = {}, stats = aggregatedStats[key] = { key: key, instanceCount: 0, inclusiveRenderDuration: 0, renderCount: 0 }), affectedIDs[key][instanceID] = !0, applyUpdate(stats); } var isCompositeByID = {}; return flushHistory.forEach(function(flush) { flush.measurements.forEach(function(measurement) { var instanceID = measurement.instanceID; "render" === measurement.timerType && (isCompositeByID[instanceID] = !0); }); }), flushHistory.forEach(function(flush) { var measurements = flush.measurements, treeSnapshot = flush.treeSnapshot; measurements.forEach(function(measurement) { var duration = measurement.duration, instanceID = measurement.instanceID; if ("render" === measurement.timerType) { updateAggregatedStats(treeSnapshot, instanceID, function(stats) { stats.renderCount++; }); for (var nextParentID = instanceID; nextParentID; ) isCompositeByID[nextParentID] && updateAggregatedStats(treeSnapshot, nextParentID, function(stats) { stats.inclusiveRenderDuration += duration; }), nextParentID = treeSnapshot[nextParentID].parentID; } }); }), Object.keys(aggregatedStats).map(function(key) { return _extends$2({}, aggregatedStats[key], { instanceCount: Object.keys(affectedIDs[key]).length }); }).sort(function(a, b) { return b.inclusiveRenderDuration - a.inclusiveRenderDuration; }); } function getWasted() { var flushHistory = arguments.length > 0 && void 0 !== arguments[0] ? arguments[0] : getLastMeasurements(), aggregatedStats = {}, affectedIDs = {}; function updateAggregatedStats(treeSnapshot, instanceID, applyUpdate) { var _treeSnapshot$instanc2 = treeSnapshot[instanceID], displayName = _treeSnapshot$instanc2.displayName, ownerID = _treeSnapshot$instanc2.ownerID, owner = treeSnapshot[ownerID], key = (owner ? owner.displayName + " > " : "") + displayName, stats = aggregatedStats[key]; stats || (affectedIDs[key] = {}, stats = aggregatedStats[key] = { key: key, instanceCount: 0, inclusiveRenderDuration: 0, renderCount: 0 }), affectedIDs[key][instanceID] = !0, applyUpdate(stats); } return flushHistory.forEach(function(flush) { var measurements = flush.measurements, treeSnapshot = flush.treeSnapshot, operations = flush.operations, isDefinitelyNotWastedByID = {}; operations.forEach(function(operation) { for (var instanceID = operation.instanceID, nextParentID = instanceID; nextParentID; ) isDefinitelyNotWastedByID[nextParentID] = !0, nextParentID = treeSnapshot[nextParentID].parentID; }); var renderedCompositeIDs = {}; measurements.forEach(function(measurement) { var instanceID = measurement.instanceID; "render" === measurement.timerType && (renderedCompositeIDs[instanceID] = !0); }), measurements.forEach(function(measurement) { var duration = measurement.duration, instanceID = measurement.instanceID; if ("render" === measurement.timerType) { var updateCount = treeSnapshot[instanceID].updateCount; if (!isDefinitelyNotWastedByID[instanceID] && 0 !== updateCount) { updateAggregatedStats(treeSnapshot, instanceID, function(stats) { stats.renderCount++; }); for (var nextParentID = instanceID; nextParentID; ) renderedCompositeIDs[nextParentID] && !isDefinitelyNotWastedByID[nextParentID] && updateAggregatedStats(treeSnapshot, nextParentID, function(stats) { stats.inclusiveRenderDuration += duration; }), nextParentID = treeSnapshot[nextParentID].parentID; } } }); }), Object.keys(aggregatedStats).map(function(key) { return _extends$2({}, aggregatedStats[key], { instanceCount: Object.keys(affectedIDs[key]).length }); }).sort(function(a, b) { return b.inclusiveRenderDuration - a.inclusiveRenderDuration; }); } function getOperations() { var flushHistory = arguments.length > 0 && void 0 !== arguments[0] ? arguments[0] : getLastMeasurements(), stats = []; return flushHistory.forEach(function(flush, flushIndex) { var operations = flush.operations, treeSnapshot = flush.treeSnapshot; operations.forEach(function(operation) { var instanceID = operation.instanceID, type = operation.type, payload = operation.payload, _treeSnapshot$instanc3 = treeSnapshot[instanceID], displayName = _treeSnapshot$instanc3.displayName, ownerID = _treeSnapshot$instanc3.ownerID, owner = treeSnapshot[ownerID], key = (owner ? owner.displayName + " > " : "") + displayName; stats.push({ flushIndex: flushIndex, instanceID: instanceID, key: key, type: type, ownerID: ownerID, payload: payload }); }); }), stats; } function printExclusive(flushHistory) { consoleTable(getExclusive(flushHistory).map(function(item) { var key = item.key, instanceCount = item.instanceCount, totalDuration = item.totalDuration, renderCount = item.counts.render || 0, renderDuration = item.durations.render || 0; return { Component: key, "Total time (ms)": roundFloat(totalDuration), "Instance count": instanceCount, "Total render time (ms)": roundFloat(renderDuration), "Average render time (ms)": renderCount ? roundFloat(renderDuration / renderCount) : void 0, "Render count": renderCount, "Total lifecycle time (ms)": roundFloat(totalDuration - renderDuration) }; })); } function printInclusive(flushHistory) { consoleTable(getInclusive(flushHistory).map(function(item) { var key = item.key, instanceCount = item.instanceCount, inclusiveRenderDuration = item.inclusiveRenderDuration, renderCount = item.renderCount; return { "Owner > Component": key, "Inclusive render time (ms)": roundFloat(inclusiveRenderDuration), "Instance count": instanceCount, "Render count": renderCount }; })); } function printWasted(flushHistory) { consoleTable(getWasted(flushHistory).map(function(item) { var key = item.key, instanceCount = item.instanceCount, inclusiveRenderDuration = item.inclusiveRenderDuration, renderCount = item.renderCount; return { "Owner > Component": key, "Inclusive wasted time (ms)": roundFloat(inclusiveRenderDuration), "Instance count": instanceCount, "Render count": renderCount }; })); } function printOperations(flushHistory) { consoleTable(getOperations(flushHistory).map(function(stat) { return { "Owner > Node": stat.key, Operation: stat.type, Payload: "object" == typeof stat.payload ? JSON.stringify(stat.payload) : stat.payload, "Flush index": stat.flushIndex, "Owner Component ID": stat.ownerID, "DOM Component ID": stat.instanceID }; })); } var warnedAboutPrintDOM = !1; function printDOM(measurements) { return lowPriorityWarning_1(warnedAboutPrintDOM, "`ReactPerf.printDOM(...)` is deprecated. Use " + "`ReactPerf.printOperations(...)` instead."), warnedAboutPrintDOM = !0, printOperations(measurements); } var warnedAboutGetMeasurementsSummaryMap = !1; function getMeasurementsSummaryMap(measurements) { return lowPriorityWarning_1(warnedAboutGetMeasurementsSummaryMap, "`ReactPerf.getMeasurementsSummaryMap(...)` is deprecated. Use " + "`ReactPerf.getWasted(...)` instead."), warnedAboutGetMeasurementsSummaryMap = !0, getWasted(measurements); } function start() { ReactDebugTool_1.beginProfiling(); } function stop() { ReactDebugTool_1.endProfiling(); } function isRunning() { return ReactDebugTool_1.isProfiling(); } var ReactPerfAnalysis = { getLastMeasurements: getLastMeasurements, getExclusive: getExclusive, getInclusive: getInclusive, getWasted: getWasted, getOperations: getOperations, printExclusive: printExclusive, printInclusive: printInclusive, printWasted: printWasted, printOperations: printOperations, start: start, stop: stop, isRunning: isRunning, printDOM: printDOM, getMeasurementsSummaryMap: getMeasurementsSummaryMap }, ReactPerf = ReactPerfAnalysis; ReactNativeInjection.inject(), ReactNativeStackInjection.inject(); var render = function(element, mountInto, callback) { return ReactNativeMount_1.renderComponent(element, mountInto, callback); }, ReactNativeStack = { NativeComponent: ReactNativeComponent_1, hasReactNativeInitialized: !1, findNodeHandle: findNumericNodeHandleStack, render: render, unmountComponentAtNode: ReactNativeMount_1.unmountComponentAtNode, unstable_batchedUpdates: ReactUpdates_1.batchedUpdates, unmountComponentAtNodeAndRemoveContainer: ReactNativeMount_1.unmountComponentAtNodeAndRemoveContainer, __SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED: { NativeMethodsMixin: NativeMethodsMixin_1, ReactGlobalSharedState: ReactGlobalSharedState_1, ReactNativeComponentTree: ReactNativeComponentTree_1, ReactNativePropRegistry: ReactNativePropRegistry_1, TouchHistoryMath: TouchHistoryMath_1, createReactNativeComponentClass: createReactNativeComponentClass, takeSnapshot: takeSnapshot_1 } }; Object.assign(ReactNativeStack.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED, { ReactDebugTool: ReactDebugTool_1, ReactPerf: ReactPerf }), "undefined" != typeof __REACT_DEVTOOLS_GLOBAL_HOOK__ && "function" == typeof __REACT_DEVTOOLS_GLOBAL_HOOK__.inject && __REACT_DEVTOOLS_GLOBAL_HOOK__.inject({ ComponentTree: { getClosestInstanceFromNode: function(node) { return ReactNativeComponentTree_1.getClosestInstanceFromNode(node); }, getNodeFromInstance: function(inst) { for (;inst._renderedComponent; ) inst = inst._renderedComponent; return inst ? ReactNativeComponentTree_1.getNodeFromInstance(inst) : null; } }, Mount: ReactNativeMount_1, Reconciler: ReactReconciler_1, getInspectorDataForViewTag: ReactNativeStackInspector.getInspectorDataForViewTag }); var ReactNativeStackEntry = ReactNativeStack; module.exports = ReactNativeStackEntry;